;;; Hey, emacs (1), this is -*- mode:tdl; Coding: utf-8; -*- 2dots_pnct := pnct_fd_le & [ STEM < "fd" > ]. 3dots_pnct := pnct_fs_le & [ STEM < "fs" > ]. a_anequín_x1 := av_i_le & [ STEM < "a_anequín" >, SYNSEM.LKEYS.KEYREL.PRED "_a_anequín_x_rel" ]. a_barlovento_x1 := av_i_le & [ STEM < "a_barlovento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_barlovento_x_rel" ]. a_barrisco_x1 := av_i_le & [ STEM < "a_barrisco" >, SYNSEM.LKEYS.KEYREL.PRED "_a_barrisco_x_rel" ]. a_base_de_bien_x1 := av_i_le & [ STEM < "a_base_de_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_bien_x_rel" ]. a_base_de_p_vmod := p_vmod_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_base_de_p_rel ]. a_base_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_x_subord__rel" ]. a_base_de_sc2 := p_vp_inf_le & [ STEM < "a_base_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_base_de_x_subord__rel" ]. a_boca_de_cañón_x1 := av_i_le & [ STEM < "a_boca_de_cañón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_boca_de_cañón_x_rel" ]. a_bocajarro_x1 := av_i_le & [ STEM < "a_bocajarro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bocajarro_x_rel" ]. a_bombo_y_platillo_x1 := av_i_le & [ STEM < "a_bombo_y_platillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bombo_y_platillo_x_rel" ]. a_borbollones_x1 := av_i_le & [ STEM < "a_borbollones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_borbollones_x_rel" ]. a_borbotones_x1 := av_i_le & [ STEM < "a_borbotones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_borbotones_x_rel" ]. a_bordo_x1 := av_i_le & [ STEM < "a_bordo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bordo_x_rel" ]. a_bote_pronto_x1 := av_i_le & [ STEM < "a_bote_pronto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bote_pronto_x_rel" ]. a_brazo_partido_x1 := av_i_le & [ STEM < "a_brazo_partido" >, SYNSEM.LKEYS.KEYREL.PRED "_a_brazo_partido_x_rel" ]. a_bruces_x1 := av_i_le & [ STEM < "a_bruces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bruces_x_rel" ]. a_buen_recaudo_x1 := av_i_le & [ STEM < "a_buen_recaudo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_recaudo_x_rel" ]. a_buen_seguro_x1 := av_i_le & [ STEM < "a_buen_seguro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_seguro_x_rel" ]. a_buen_tino_x1 := av_i_le & [ STEM < "a_buen_tino" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buen_tino_x_rel" ]. a_buena_cuenta_x1 := av_i_le & [ STEM < "a_buena_cuenta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_cuenta_x_rel" ]. a_buena_fe_x1 := av_i_le & [ STEM < "a_buena_fe" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_fe_x_rel" ]. a_buena_luz_x1 := av_i_le & [ STEM < "a_buena_luz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_luz_x_rel" ]. a_buena_vista_x1 := av_i_le & [ STEM < "a_buena_vista" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buena_vista_x_rel" ]. a_buenas_horas_x1 := av_i_le & [ STEM < "a_buenas_horas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buenas_horas_x_rel" ]. a_buenas_noches_x1 := av_i_le & [ STEM < "a_buenas_noches" >, SYNSEM.LKEYS.KEYREL.PRED "_a_buenas_noches_x_rel" ]. a_bulto_x1 := av_i_le & [ STEM < "a_bulto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_bulto_x_rel" ]. a_cada_instante_x1 := av_i_le & [ STEM < "a_cada_instante" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_instante_x_rel" ]. a_cada_momento_x1 := av_i_le & [ STEM < "a_cada_momento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_momento_x_rel" ]. a_cada_paso_x1 := av_i_le & [ STEM < "a_cada_paso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_paso_x_rel" ]. a_cada_rato_x1 := av_i_le & [ STEM < "a_cada_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_rato_x_rel" ]. a_cada_trique_x1 := av_i_le & [ STEM < "a_cada_trique" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_trique_x_rel" ]. a_cada_triquitraque_x1 := av_i_le & [ STEM < "a_cada_triquitraque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cada_triquitraque_x_rel" ]. a_caja_y_espiga_x1 := av_i_le & [ STEM < "a_caja_y_espiga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_caja_y_espiga_x_rel" ]. a_cal_y_canto_x1 := av_i_le & [ STEM < "a_cal_y_canto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cal_y_canto_x_rel" ]. a_caliche_x1 := av_i_le & [ STEM < "a_caliche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_caliche_x_rel" ]. a_cambio_de_p_vmod := p_vmod_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cambio_de_p_rel ]. a_cambio_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_de_x_subord__rel" ]. a_cambio_de_sc2 := p_vp_inf_le & [ STEM < "a_cambio_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_de_x_subord__rel" ]. a_cambio_x1 := av_i_le & [ STEM < "a_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cambio_x_rel" ]. a_campo_raso_x1 := av_i_le & [ STEM < "a_campo_raso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_campo_raso_x_rel" ]. a_campo_traviesa_x1 := av_i_le & [ STEM < "a_campo_traviesa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_campo_traviesa_x_rel" ]. a_cara_de_perro_x1 := av_i_le & [ STEM < "a_cara_de_perro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cara_de_perro_x_rel" ]. a_cara_descubierta_x1 := av_i_le & [ STEM < "a_cara_descubierta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cara_descubierta_x_rel" ]. a_carcajada_limpia_x1 := av_i_le & [ STEM < "a_carcajada_limpia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carcajada_limpia_x_rel" ]. a_cargo_de_p_vmod := p_vmod_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cargo_de_p_rel ]. a_cargo_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cargo_de_x_subord__rel" ]. a_cargo_de_sc2 := p_vp_inf_le & [ STEM < "a_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cargo_de_x_subord__rel" ]. a_carretadas_x1 := av_i_le & [ STEM < "a_carretadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carretadas_x_rel" ]. a_carta_cabal_x1 := av_i_le & [ STEM < "a_carta_cabal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_carta_cabal_x_rel" ]. a_casquete_quitado_x1 := av_i_le & [ STEM < "a_casquete_quitado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_casquete_quitado_x_rel" ]. a_causa_de_p_vmod := p_vmod_le & [ STEM < "a_causa_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_causa_de_p_rel ]. a_centenares_x1 := av_i_le & [ STEM < "a_centenares" >, SYNSEM.LKEYS.KEYREL.PRED "_a_centenares_x_rel" ]. a_cepillo_x1 := av_i_le & [ STEM < "a_cepillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cepillo_x_rel" ]. a_cerca_de_p_vmod := p_vmod_le & [ STEM < "a_cerca_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cerca_de_p_rel ]. a_cercen_x1 := av_i_le & [ STEM < "a_cercen" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cercen_x_rel" ]. a_cercén_x1 := av_i_le & [ STEM < "a_cercén" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cercén_x_rel" ]. a_chorros_x1 := av_i_le & [ STEM < "a_chorros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_chorros_x_rel" ]. a_cielo_descubierto_x1 := av_i_le & [ STEM < "a_cielo_descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cielo_descubierto_x_rel" ]. a_ciencia_cierta_x1 := av_i_le & [ STEM < "a_ciencia_cierta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ciencia_cierta_x_rel" ]. a_codazo_limpio_x1 := av_i_le & [ STEM < "a_codazo_limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_codazo_limpio_x_rel" ]. a_comisión_x1 := av_i_le & [ STEM < "a_comisión" >, SYNSEM.LKEYS.KEYREL.PRED "_a_comisión_x_rel" ]. a_como_de_lugar_x1 := av_i_le & [ STEM < "a_como_de_lugar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_como_de_lugar_x_rel" ]. a_condición_de_sc1 := p_cp_prop_fin_le & [ STEM < "a_condición_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_condición_de_x_subord__rel" ]. a_condición_de_sc2 := p_vp_inf_le & [ STEM < "a_condición_de" >, SYNSEM.LKEYS.KEYREL.PRED "_a_condición_de_x_subord__rel" ]. a_consecuencia_de_p_vmod := p_vmod_le & [ STEM < "a_consecuencia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_consecuencia_de_p_rel ]. a_continuación_de_p_vmod := p_vmod_le & [ STEM < "a_continuación_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_continuación_de_p_rel ]. a_contra_reloj_x1 := av_i_le & [ STEM < "a_contra_reloj" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contra_reloj_x_rel" ]. a_contrahílo_x1 := av_i_le & [ STEM < "a_contrahílo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrahílo_x_rel" ]. a_contralecho_x1 := av_i_le & [ STEM < "a_contralecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contralecho_x_rel" ]. a_contramano_x1 := av_i_le & [ STEM < "a_contramano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contramano_x_rel" ]. a_contrapelo_x1 := av_i_le & [ STEM < "a_contrapelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrapelo_x_rel" ]. a_contrapié_x1 := av_i_le & [ STEM < "a_contrapié" >, SYNSEM.LKEYS.KEYREL.PRED "_a_contrapié_x_rel" ]. a_corazón_abierto_x1 := av_i_le & [ STEM < "a_corazón_abierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_corazón_abierto_x_rel" ]. a_cordel_x1 := av_i_le & [ STEM < "a_cordel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cordel_x_rel" ]. a_coro_x1 := av_i_le & [ STEM < "a_coro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_coro_x_rel" ]. a_costillas_x1 := av_i_le & [ STEM < "a_costillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_costillas_x_rel" ]. a_coxcojilla_x1 := av_i_le & [ STEM < "a_coxcojilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_coxcojilla_x_rel" ]. a_cruz_y_escuadra_x1 := av_i_le & [ STEM < "a_cruz_y_escuadra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cruz_y_escuadra_x_rel" ]. a_cuatro_patas_x1 := av_i_le & [ STEM < "a_cuatro_patas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuatro_patas_x_rel" ]. a_cuatro_pies_x1 := av_i_le & [ STEM < "a_cuatro_pies" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuatro_pies_x_rel" ]. a_cubos_x1 := av_i_le & [ STEM < "a_cubos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cubos_x_rel" ]. a_cuenta_de_p_vmod := p_vmod_le & [ STEM < "a_cuenta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_cuenta_de_p_rel ]. a_cuerpo_de_rey_x1 := av_i_le & [ STEM < "a_cuerpo_de_rey" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuerpo_de_rey_x_rel" ]. a_cuerpo_descubierto_x1 := av_i_le & [ STEM < "a_cuerpo_descubierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuerpo_descubierto_x_rel" ]. a_cuál_más_x1 := av_i_le & [ STEM < "a_cuál_más" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cuál_más_x_rel" ]. a_cántaros_x1 := av_i_le & [ STEM < "a_cántaros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_cántaros_x_rel" ]. a_dentelladas_x1 := av_i_le & [ STEM < "a_dentelladas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dentelladas_x_rel" ]. a_dentro_x1 := av_i_le & [ STEM < "a_dentro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dentro_x_rel" ]. a_desmano_x1 := av_i_le & [ STEM < "a_desmano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_desmano_x_rel" ]. a_despecho_de_p_vmod := p_vmod_le & [ STEM < "a_despecho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_despecho_de_p_rel ]. a_despecho_x1 := av_i_le & [ STEM < "a_despecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_despecho_x_rel" ]. a_destajo_x1 := av_i_le & [ STEM < "a_destajo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_destajo_x_rel" ]. a_destiempo_x1 := av_i_le & [ STEM < "a_destiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_destiempo_x_rel" ]. a_diario_x1 := av_i_le & [ STEM < "a_diario" >, SYNSEM.LKEYS.KEYREL.PRED "_a_diario_x_rel" ]. a_dicho_efecto_x1 := av_i_le & [ STEM < "a_dicho_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dicho_efecto_x_rel" ]. a_diferencia_de_p_vmod := p_vmod_le & [ STEM < "a_diferencia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_diferencia_de_p_rel ]. a_disgusto_x1 := av_i_le & [ STEM < "a_disgusto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_disgusto_x_rel" ]. a_distinción_de_p_vmod := p_vmod_le & [ STEM < "a_distinción_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_distinción_de_p_rel ]. a_donde_x1 := av_i_le & [ STEM < "a_donde" >, SYNSEM.LKEYS.KEYREL.PRED "_a_donde_x_rel" ]. a_dos_dedos_de_p_vmod := p_vmod_le & [ STEM < "a_dos_dedos_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_dos_dedos_de_p_rel ]. a_dos_haces_x1 := av_i_le & [ STEM < "a_dos_haces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dos_haces_x_rel" ]. a_dos_manos_x1 := av_i_le & [ STEM < "a_dos_manos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dos_manos_x_rel" ]. a_duras_penas_x1 := av_i_le & [ STEM < "a_duras_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_duras_penas_x_rel" ]. a_dúo_x1 := av_i_le & [ STEM < "a_dúo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_dúo_x_rel" ]. a_efecto_de_p_vmod := p_vmod_le & [ STEM < "a_efecto_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_efecto_de_p_rel ]. a_efectos_de_p_vmod := p_vmod_le & [ STEM < "a_efectos_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_efectos_de_p_rel ]. a_empellones_x1 := av_i_le & [ STEM < "a_empellones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_empellones_x_rel" ]. a_escape_x1 := av_i_le & [ STEM < "a_escape" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escape_x_rel" ]. a_escondidas_x1 := av_i_le & [ STEM < "a_escondidas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escondidas_x_rel" ]. a_escondidillas_x1 := av_i_le & [ STEM < "a_escondidillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escondidillas_x_rel" ]. a_escote_x1 := av_i_le & [ STEM < "a_escote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escote_x_rel" ]. a_escuadra_x1 := av_i_le & [ STEM < "a_escuadra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escuadra_x_rel" ]. a_escusa_x1 := av_i_le & [ STEM < "a_escusa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escusa_x_rel" ]. a_escusas_x1 := av_i_le & [ STEM < "a_escusas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_escusas_x_rel" ]. a_eso_de_p_vmod := p_vmod_le & [ STEM < "a_eso_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_eso_de_p_rel ]. a_espaldas_de_p_vmod := p_vmod_le & [ STEM < "a_espaldas_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_espaldas_de_p_rel ]. a_espeta_perro_x1 := av_i_le & [ STEM < "a_espeta_perro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espeta_perro_x_rel" ]. a_espinapez_x1 := av_i_le & [ STEM < "a_espinapez" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espinapez_x_rel" ]. a_espuertas_x1 := av_i_le & [ STEM < "a_espuertas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_espuertas_x_rel" ]. a_excepción_de_p_vmod := p_vmod_le & [ STEM < "a_excepción_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_excepción_de_p_rel ]. a_expensas_de_p_vmod := p_vmod_le & [ STEM < "a_expensas_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_expensas_de_p_rel ]. a_expensas_x1 := av_i_le & [ STEM < "a_expensas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_expensas_x_rel" ]. a_fanegadas_x1 := av_i_le & [ STEM < "a_fanegadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fanegadas_x_rel" ]. a_favor_de_p_vmod := p_vmod_le & [ STEM < "a_favor_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_favor_de_p_rel ]. a_fin_de_cuentas_x1 := av_i_le & [ STEM < "a_fin_de_cuentas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fin_de_cuentas_x_rel" ]. a_fin_de_p_vmod := p_vmod_le & [ STEM < "a_fin_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fin_de_p_rel ]. a_fines_de_p_vmod := p_vmod_le & [ STEM < "a_fines_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fines_de_p_rel ]. a_flor_de_agua_x1 := av_i_le & [ STEM < "a_flor_de_agua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flor_de_agua_x_rel" ]. a_flor_de_piel_x1 := av_i_le & [ STEM < "a_flor_de_piel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flor_de_piel_x_rel" ]. a_flote_x1 := av_i_le & [ STEM < "a_flote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_flote_x_rel" ]. a_fortiori_x1 := av_i_le & [ STEM < "a_fortiori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fortiori_x_rel" ]. a_fuego_lento_x1 := av_i_le & [ STEM < "a_fuego_lento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_fuego_lento_x_rel" ]. a_fuerza_de_p_vmod := p_vmod_le & [ STEM < "a_fuerza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_fuerza_de_p_rel ]. a_gachas_x1 := av_i_le & [ STEM < "a_gachas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gachas_x_rel" ]. a_gatas_x1 := av_i_le & [ STEM < "a_gatas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gatas_x_rel" ]. a_gogó_x1 := av_i_le & [ STEM < "a_gogó" >, SYNSEM.LKEYS.KEYREL.PRED "_a_gogó_x_rel" ]. a_grandes_rasgos_x1 := av_i_le & [ STEM < "a_grandes_rasgos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_grandes_rasgos_x_rel" ]. a_granel_x1 := av_i_le & [ STEM < "a_granel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_granel_x_rel" ]. a_graves_penas_x1 := av_i_le & [ STEM < "a_graves_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_graves_penas_x_rel" ]. a_guisa_de_p_vmod := p_vmod_le & [ STEM < "a_guisa_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_guisa_de_p_rel ]. a_hito_x1 := av_i_le & [ STEM < "a_hito" >, SYNSEM.LKEYS.KEYREL.PRED "_a_hito_x_rel" ]. a_horcajadas_x1 := av_i_le & [ STEM < "a_horcajadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_horcajadas_x_rel" ]. a_hurtadillas_x1 := av_i_le & [ STEM < "a_hurtadillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_hurtadillas_x_rel" ]. a_jarros_x1 := av_i_le & [ STEM < "a_jarros" >, SYNSEM.LKEYS.KEYREL.PRED "_a_jarros_x_rel" ]. a_jornal_x1 := av_i_le & [ STEM < "a_jornal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_jornal_x_rel" ]. a_junta_continua_x1 := av_i_le & [ STEM < "a_junta_continua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_junta_continua_x_rel" ]. a_juzgar_como_x1 := av_i_le & [ STEM < "a_juzgar_como" >, SYNSEM.LKEYS.KEYREL.PRED "_a_juzgar_como_x_rel" ]. a_juzgar_por_p_vmod := p_vmod_le & [ STEM < "a_juzgar_por" >, SYNSEM.LKEYS.KEYREL.PRED _a_juzgar_por_p_rel ]. a_la_bartola_x1 := av_i_le & [ STEM < "a_la_bartola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_bartola_x_rel" ]. a_la_buena_ventura_x1 := av_i_le & [ STEM < "a_la_buena_ventura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_buena_ventura_x_rel" ]. a_la_busca_de_p_vmod := p_vmod_le & [ STEM < "a_la_busca_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_busca_de_p_rel ]. a_la_chita_callando_x1 := av_i_le & [ STEM < "a_la_chita_callando" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_chita_callando_x_rel" ]. a_la_cola_x1 := av_i_le & [ STEM < "a_la_cola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_cola_x_rel" ]. a_la_espera_de_p_vmod := p_vmod_le & [ STEM < "a_la_espera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_espera_de_p_rel ]. a_la_funerala_x1 := av_i_le & [ STEM < "a_la_funerala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_funerala_x_rel" ]. a_la_inversa_x1 := av_i_le & [ STEM < "a_la_inversa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_inversa_x_rel" ]. a_la_manera_de_p_vmod := p_vmod_le & [ STEM < "a_la_manera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_manera_de_p_rel ]. a_la_mano_de_dios_x1 := av_i_le & [ STEM < "a_la_mano_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_mano_de_Dios_x_rel" ]. a_la_mitad_de_p_vmod := p_vmod_le & [ STEM < "a_la_mitad_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_mitad_de_p_rel ]. a_la_morisma_x1 := av_i_le & [ STEM < "a_la_morisma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_morisma_x_rel" ]. a_la_mujeriega_x1 := av_i_le & [ STEM < "a_la_mujeriega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_mujeriega_x_rel" ]. a_la_papillote_x1 := av_i_le & [ STEM < "a_la_papillote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_papillote_x_rel" ]. a_la_parrilla_x1 := av_i_le & [ STEM < "a_la_parrilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_parrilla_x_rel" ]. a_la_pata_coja_x1 := av_i_le & [ STEM < "a_la_pata_coja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pata_coja_x_rel" ]. a_la_pata_llana_x1 := av_i_le & [ STEM < "a_la_pata_llana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pata_llana_x_rel" ]. a_la_paz_de_dios_x1 := av_i_le & [ STEM < "a_la_paz_de_Dios" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_paz_de_Dios_x_rel" ]. a_la_pendura_x1 := av_i_le & [ STEM < "a_la_pendura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_pendura_x_rel" ]. a_la_perfección_x1 := av_i_le & [ STEM < "a_la_perfección" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_perfección_x_rel" ]. a_la_primera_de_cambio_x1 := av_i_le & [ STEM < "a_la_primera_de_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_primera_de_cambio_x_rel" ]. a_la_ronza_x1 := av_i_le & [ STEM < "a_la_ronza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_ronza_x_rel" ]. a_la_siga_de_p_vmod := p_vmod_le & [ STEM < "a_la_siga_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_siga_de_p_rel ]. a_la_sirga_x1 := av_i_le & [ STEM < "a_la_sirga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_sirga_x_rel" ]. a_la_sopa_boba_x1 := av_i_le & [ STEM < "a_la_sopa_boba" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_sopa_boba_x_rel" ]. a_la_tentaruja_x1 := av_i_le & [ STEM < "a_la_tentaruja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_tentaruja_x_rel" ]. a_la_tirolesa_x1 := av_i_le & [ STEM < "a_la_tirolesa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_tirolesa_x_rel" ]. a_la_usanza_de_p_vmod := p_vmod_le & [ STEM < "a_la_usanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_usanza_de_p_rel ]. a_la_vez_que_sc := sc_prop_fin_le & [ STEM < "a_la_vez_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_vez_que_x_subord_rel" ]. a_la_vez_x1 := av_i_le & [ STEM < "a_la_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_a_la_vez_x_rel" ]. a_la_vuelta_de_p_vmod := p_vmod_le & [ STEM < "a_la_vuelta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_vuelta_de_p_rel ]. a_la_zona_de_p_vmod := p_vmod_le & [ STEM < "a_la_zona_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_la_zona_de_p_rel ]. a_largas_marchas_x1 := av_i_le & [ STEM < "a_largas_marchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_largas_marchas_x_rel" ]. a_las_calladas_x1 := av_i_le & [ STEM < "a_las_calladas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_calladas_x_rel" ]. a_las_mil_maravillas_x1 := av_i_le & [ STEM < "a_las_mil_maravillas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_mil_maravillas_x_rel" ]. a_las_primeras_de_cambio_x1 := av_i_le & [ STEM < "a_las_primeras_de_cambio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_primeras_de_cambio_x_rel" ]. a_las_puertas_de_la_muerte_x1 := av_i_le & [ STEM < "a_las_puertas_de_la_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_puertas_de_la_muerte_x_rel" ]. a_las_veces_x1 := av_i_le & [ STEM < "a_las_veces" >, SYNSEM.LKEYS.KEYREL.PRED "_a_las_veces_x_rel" ]. a_lata_por_canal_x1 := av_i_le & [ STEM < "a_lata_por_canal" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lata_por_canal_x_rel" ]. a_legua_x1 := av_i_le & [ STEM < "a_legua" >, SYNSEM.LKEYS.KEYREL.PRED "_a_legua_x_rel" ]. a_leguas_x1 := av_i_le & [ STEM < "a_leguas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_leguas_x_rel" ]. a_libre_plática_x1 := av_i_le & [ STEM < "a_libre_plática" >, SYNSEM.LKEYS.KEYREL.PRED "_a_libre_plática_x_rel" ]. a_lo_ancho_de_p_vmod := p_vmod_le & [ STEM < "a_lo_ancho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_lo_ancho_de_p_rel ]. a_lo_bestia_x1 := av_i_le & [ STEM < "a_lo_bestia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_bestia_x_rel" ]. a_lo_discreto_x1 := av_i_le & [ STEM < "a_lo_discreto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_discreto_x_rel" ]. a_lo_garçon_x1 := av_i_le & [ STEM < "a_lo_garçon" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_garçon_x_rel" ]. a_lo_grande_x1 := av_i_le & [ STEM < "a_lo_grande" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_grande_x_rel" ]. a_lo_largo_y_a_lo_ancho_x1 := av_i_le & [ STEM < "a_lo_largo_y_a_lo_ancho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_largo_y_a_lo_ancho_x_rel" ]. a_lo_largo_y_ancho_de_p_vmod := p_vmod_le & [ STEM < "a_lo_largo_y_ancho_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_lo_largo_y_ancho_de_p_rel ]. a_lo_lejos_x1 := av_i_le & [ STEM < "a_lo_lejos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_lejos_x_rel" ]. a_lo_loco_x1 := av_i_le & [ STEM < "a_lo_loco" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_loco_x_rel" ]. a_lo_moderno_x1 := av_i_le & [ STEM < "a_lo_moderno" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_moderno_x_rel" ]. a_lo_más_x1 := av_i_le & [ STEM < "a_lo_más" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_más_x_rel" ]. a_lo_que_parece_x1 := av_i_le & [ STEM < "a_lo_que_parece" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_que_parece_x_rel" ]. a_lo_que_salga_x1 := av_i_le & [ STEM < "a_lo_que_salga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_que_salga_x_rel" ]. a_lo_sumo_x1 := av_i_le & [ STEM < "a_lo_sumo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_sumo_x_rel" ]. a_lo_tonto_x1 := av_i_le & [ STEM < "a_lo_tonto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lo_tonto_x_rel" ]. a_lomo_x1 := av_i_le & [ STEM < "a_lomo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lomo_x_rel" ]. a_lomos_x1 := av_i_le & [ STEM < "a_lomos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lomos_x_rel" ]. a_los_cuatro_vientos_x1 := av_i_le & [ STEM < "a_los_cuatro_vientos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_los_cuatro_vientos_x_rel" ]. a_los_piques_x1 := av_i_le & [ STEM < "a_los_piques" >, SYNSEM.LKEYS.KEYREL.PRED "_a_los_piques_x_rel" ]. a_lumbre_de_pajas_x1 := av_i_le & [ STEM < "a_lumbre_de_pajas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lumbre_de_pajas_x_rel" ]. a_lumbre_mansa_x1 := av_i_le & [ STEM < "a_lumbre_mansa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lumbre_mansa_x_rel" ]. a_lápiz_x1 := av_i_le & [ STEM < "a_lápiz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_lápiz_x_rel" ]. a_línea_tirada_x1 := av_i_le & [ STEM < "a_línea_tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_línea_tirada_x_rel" ]. a_machamartillo_x1 := av_i_le & [ STEM < "a_machamartillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_machamartillo_x_rel" ]. a_machote_x1 := av_i_le & [ STEM < "a_machote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_machote_x_rel" ]. a_mal_dar_x1 := av_i_le & [ STEM < "a_mal_dar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mal_dar_x_rel" ]. a_malas_penas_x1 := av_i_le & [ STEM < "a_malas_penas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_malas_penas_x_rel" ]. a_manadas_x1 := av_i_le & [ STEM < "a_manadas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_manadas_x_rel" ]. a_manera_de_p_vmod := p_vmod_le & [ STEM < "a_manera_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_manera_de_p_rel ]. a_mano_airada_x1 := av_i_le & [ STEM < "a_mano_airada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mano_airada_x_rel" ]. a_mano_armada_x1 := av_i_le & [ STEM < "a_mano_armada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mano_armada_x_rel" ]. a_manos_llenas_x1 := av_i_le & [ STEM < "a_manos_llenas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_manos_llenas_x_rel" ]. a_mansalva_x1 := av_i_le & [ STEM < "a_mansalva" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mansalva_x_rel" ]. a_mares_x1 := av_i_le & [ STEM < "a_mares" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mares_x_rel" ]. a_mata_caballo_x1 := av_i_le & [ STEM < "a_mata_caballo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mata_caballo_x_rel" ]. a_matacaballo_x1 := av_i_le & [ STEM < "a_matacaballo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_matacaballo_x_rel" ]. a_mayor_abundamiento_x1 := av_i_le & [ STEM < "a_mayor_abundamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mayor_abundamiento_x_rel" ]. a_mazo_y_escoplo_x1 := av_i_le & [ STEM < "a_mazo_y_escoplo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mazo_y_escoplo_x_rel" ]. a_media_ladera_x1 := av_i_le & [ STEM < "a_media_ladera" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_ladera_x_rel" ]. a_media_madera_x1 := av_i_le & [ STEM < "a_media_madera" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_madera_x_rel" ]. a_media_margen_x1 := av_i_le & [ STEM < "a_media_margen" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_margen_x_rel" ]. a_media_rienda_x1 := av_i_le & [ STEM < "a_media_rienda" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_rienda_x_rel" ]. a_media_rodilla_x1 := av_i_le & [ STEM < "a_media_rodilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_rodilla_x_rel" ]. a_media_voz_x1 := av_i_le & [ STEM < "a_media_voz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_media_voz_x_rel" ]. a_mediados_de_p_vmod := p_vmod_le & [ STEM < "a_mediados_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_mediados_de_p_rel ]. a_medias_palabras_x1 := av_i_le & [ STEM < "a_medias_palabras" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medias_palabras_x_rel" ]. a_medias_x1 := av_i_spr_le & [ STEM < "a_medias" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medias_x_rel" ]. a_medida_que_sc := sc_prop_fin_le & [ STEM < "a_medida_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medida_que_x_subord_rel" ]. a_medio_hacer_x1 := av_i_le & [ STEM < "a_medio_hacer" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medio_hacer_x_rel" ]. a_medio_plazo_x1 := av_i_le & [ STEM < "a_medio_plazo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medio_plazo_x_rel" ]. a_mediodía_x1 := av_i_le & [ STEM < "a_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mediodía_x_rel" ]. a_medios_pelos_x1 := av_i_le & [ STEM < "a_medios_pelos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_medios_pelos_x_rel" ]. a_menos_que_sc := sc_prop_fin_le & [ STEM < "a_menos_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_menos_que_x_subord_rel" ]. a_mesa_puesta_x1 := av_i_le & [ STEM < "a_mesa_puesta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mesa_puesta_x_rel" ]. a_millaradas_x1 := av_i_le & [ STEM < "a_millaradas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_millaradas_x_rel" ]. a_mis_anchas_x1 := av_i_le & [ STEM < "a_mis_anchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mis_anchas_x_rel" ]. a_mitad_de_p_vmod := p_vmod_le & [ STEM < "a_mitad_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_mitad_de_p_rel ]. a_modo_de_p_vmod := p_vmod_le & [ STEM < "a_modo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_modo_de_p_rel ]. a_montón_x1 := av_i_le & [ STEM < "a_montón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_montón_x_rel" ]. a_mrk_cp_prop_fin := p_mrk_cp_prop_fin_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mrk_cp_prop_inf := p_mrk_cp_prop_inf_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mrk_np := p_mrk_np_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_sel_rel ]. a_mucha_honra_x1 := av_i_le & [ STEM < "a_mucha_honra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mucha_honra_x_rel" ]. a_muerte_o_vida_x1 := av_i_le & [ STEM < "a_muerte_o_vida" >, SYNSEM.LKEYS.KEYREL.PRED "_a_muerte_o_vida_x_rel" ]. a_muerte_x1 := av_i_le & [ STEM < "a_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_muerte_x_rel" ]. a_mujeriega_x1 := av_i_le & [ STEM < "a_mujeriega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_mujeriega_x_rel" ]. a_más_andar_x1 := av_i_le & [ STEM < "a_más_andar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_andar_x_rel" ]. a_más_correr_x1 := av_i_le & [ STEM < "a_más_correr" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_correr_x_rel" ]. a_más_ganar_x1 := av_i_le & [ STEM < "a_más_ganar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_ganar_x_rel" ]. a_más_mejor_x1 := av_i_le & [ STEM < "a_más_mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_mejor_x_rel" ]. a_más_no_poder_x1 := av_i_le & [ STEM < "a_más_no_poder" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_no_poder_x_rel" ]. a_más_tardar_x1 := av_i_le & [ STEM < "a_más_tardar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_tardar_x_rel" ]. a_más_ver_x1 := av_i_le & [ STEM < "a_más_ver" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_ver_x_rel" ]. a_más_y_mejor_x1 := av_i_le & [ STEM < "a_más_y_mejor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_más_y_mejor_x_rel" ]. a_nado_x1 := av_i_le & [ STEM < "a_nado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_nado_x_rel" ]. a_no_ser_que_sc := sc_prop_fin_le & [ STEM < "a_no_ser_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_no_ser_que_x_subord_rel" ]. a_nombre_de_p_vmod := p_vmod_le & [ STEM < "a_nombre_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_nombre_de_p_rel ]. a_ojo_de_buen_cubero_x1 := av_i_le & [ STEM < "a_ojo_de_buen_cubero" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ojo_de_buen_cubero_x_rel" ]. a_ojos_vistas_x1 := av_i_le & [ STEM < "a_ojos_vistas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ojos_vistas_x_rel" ]. a_p_amod := p_amod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_ditrans_vmod := p_ditrans_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_mrkd_np_vmod := p_mrkd_np_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_nmod := p_nmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_pmod := p_misc_pmod_le & [ STEM < "desde" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_temp_vmod := p_temp_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_temp_rel ]. a_p_vmod := p_vmod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_p_vp-inf_amod := p_vp-inf_amod_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED _a_p_rel ]. a_pan_y_cuchillo_x1 := av_i_le & [ STEM < "a_pan_y_cuchillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pan_y_cuchillo_x_rel" ]. a_partir_de_p_vmod := p_vmod_le & [ STEM < "a_partir_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_partir_de_p_rel ]. a_pasatoro_x1 := av_i_le & [ STEM < "a_pasatoro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pasatoro_x_rel" ]. a_paseo_x1 := av_i_le & [ STEM < "a_paseo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paseo_x_rel" ]. a_paso_de_tortuga_x1 := av_i_le & [ STEM < "a_paso_de_tortuga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paso_de_tortuga_x_rel" ]. a_paso_largo_x1 := av_i_le & [ STEM < "a_paso_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_paso_largo_x_rel" ]. a_pasto_x1 := av_i_le & [ STEM < "a_pasto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pasto_x_rel" ]. a_pesar_de_p_vmod := p_vmod_le & [ STEM < "a_pesar_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_pesar_de_p_rel ]. a_pesar_de_todo_x1 := av_i_le & [ STEM < "a_pesar_de_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pesar_de_todo_x_rel" ]. a_peso_de_oro_x1 := av_i_le & [ STEM < "a_peso_de_oro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_peso_de_oro_x_rel" ]. a_petición_de_p_vmod := p_vmod_le & [ STEM < "a_petición_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_petición_de_p_rel ]. a_peón_x1 := av_i_le & [ STEM < "a_peón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_peón_x_rel" ]. a_pica_suelta_x1 := av_i_le & [ STEM < "a_pica_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pica_suelta_x_rel" ]. a_pico_de_jarro_x1 := av_i_le & [ STEM < "a_pico_de_jarro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pico_de_jarro_x_rel" ]. a_pico_x1 := av_i_le & [ STEM < "a_pico" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pico_x_rel" ]. a_pie_firme_x1 := av_i_le & [ STEM < "a_pie_firme" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pie_firme_x_rel" ]. a_pie_llano_x1 := av_i_le & [ STEM < "a_pie_llano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pie_llano_x_rel" ]. a_pierna_suelta_x1 := av_i_le & [ STEM < "a_pierna_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pierna_suelta_x_rel" ]. a_pipiricojo_x1 := av_i_le & [ STEM < "a_pipiricojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pipiricojo_x_rel" ]. a_pique_de_maceta_x1 := av_i_le & [ STEM < "a_pique_de_maceta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pique_de_maceta_x_rel" ]. a_plazo_fijo_x1 := av_i_le & [ STEM < "a_plazo_fijo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plazo_fijo_x_rel" ]. a_plazos_x1 := av_i_le & [ STEM < "a_plazos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plazos_x_rel" ]. a_plomo_x1 := av_i_le & [ STEM < "a_plomo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_plomo_x_rel" ]. a_poco_que_sc := sc_prop_fin_le & [ STEM < "a_poco_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_poco_que_x_subord_rel" ]. a_poco_rato_x1 := av_i_le & [ STEM < "a_poco_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_a_poco_rato_x_rel" ]. a_pocos_pasos_x1 := av_i_le & [ STEM < "a_pocos_pasos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pocos_pasos_x_rel" ]. a_porfía_x1 := av_i_le & [ STEM < "a_porfía" >, SYNSEM.LKEYS.KEYREL.PRED "_a_porfía_x_rel" ]. a_porrillo_x1 := av_i_le & [ STEM < "a_porrillo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_porrillo_x_rel" ]. a_pospelo_x1 := av_i_le & [ STEM < "a_pospelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pospelo_x_rel" ]. a_posteriori_x1 := av_i_le & [ STEM < "a_posteriori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_posteriori_x_rel" ]. a_pote_x1 := av_i_le & [ STEM < "a_pote" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pote_x_rel" ]. a_precio_de_coste_x1 := av_i_le & [ STEM < "a_precio_de_coste" >, SYNSEM.LKEYS.KEYREL.PRED "_a_precio_de_coste_x_rel" ]. a_principios_de_p_vmod := p_vmod_le & [ STEM < "a_principios_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_principios_de_p_rel ]. a_priori_x1 := av_i_le & [ STEM < "a_priori" >, SYNSEM.LKEYS.KEYREL.PRED "_a_priori_x_rel" ]. a_prisa_x1 := av_i_le & [ STEM < "a_prisa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_prisa_x_rel" ]. a_propósito_de_p_vmod := p_vmod_le & [ STEM < "a_propósito_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_propósito_de_p_rel ]. a_prorrata_x1 := av_i_le & [ STEM < "a_prorrata" >, SYNSEM.LKEYS.KEYREL.PRED "_a_prorrata_x_rel" ]. a_prueba_de_p_vmod := p_vmod_le & [ STEM < "a_prueba_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_prueba_de_p_rel ]. a_puchos_x1 := av_i_le & [ STEM < "a_puchos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puchos_x_rel" ]. a_puerta_cerrada_x1 := av_i_le & [ STEM < "a_puerta_cerrada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puerta_cerrada_x_rel" ]. a_puestas_x1 := av_i_le & [ STEM < "a_puestas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puestas_x_rel" ]. a_punta_de_lanza_x1 := av_i_le & [ STEM < "a_punta_de_lanza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_de_lanza_x_rel" ]. a_punta_de_pistola_x1 := av_i_le & [ STEM < "a_punta_de_pistola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_de_pistola_x_rel" ]. a_punta_pala_x1 := av_i_le & [ STEM < "a_punta_pala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punta_pala_x_rel" ]. a_puntapiés_x1 := av_i_le & [ STEM < "a_puntapiés" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puntapiés_x_rel" ]. a_punto_de_caramelo_x1 := av_i_le & [ STEM < "a_punto_de_caramelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_de_caramelo_x_rel" ]. a_punto_de_p_vmod := p_vmod_le & [ STEM < "a_punto_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_punto_de_p_rel ]. a_punto_de_solfa_x1 := av_i_le & [ STEM < "a_punto_de_solfa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_de_solfa_x_rel" ]. a_punto_fijo_x1 := av_i_le & [ STEM < "a_punto_fijo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_fijo_x_rel" ]. a_punto_largo_x1 := av_i_le & [ STEM < "a_punto_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_punto_largo_x_rel" ]. a_pupilo_x1 := av_i_le & [ STEM < "a_pupilo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_pupilo_x_rel" ]. a_puñados_x1 := av_i_le & [ STEM < "a_puñados" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puñados_x_rel" ]. a_puño_cerrado_x1 := av_i_le & [ STEM < "a_puño_cerrado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_puño_cerrado_x_rel" ]. a_quema_ropa_x1 := av_i_le & [ STEM < "a_quema_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_quema_ropa_x_rel" ]. a_quemarropa_x1 := av_i_le & [ STEM < "a_quemarropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_quemarropa_x_rel" ]. a_rachas_x1 := av_i_le & [ STEM < "a_rachas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rachas_x_rel" ]. a_raja_tabla_x1 := av_i_le & [ STEM < "a_raja_tabla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_raja_tabla_x_rel" ]. a_rajatabla_x1 := av_i_le & [ STEM < "a_rajatabla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rajatabla_x_rel" ]. a_ras_de_el_suelo_x1 := av_i_le & [ STEM < "a_ras_del_suelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ras_del_suelo_x_rel" ]. a_ras_de_p_vmod := p_vmod_le & [ STEM < "a_ras_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_ras_de_p_rel ]. a_ras_de_tierra_x1 := av_i_le & [ STEM < "a_ras_de_tierra" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ras_de_tierra_x_rel" ]. a_rastras_x1 := av_i_le & [ STEM < "a_rastras" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rastras_x_rel" ]. a_ratos_perdidos_x1 := av_i_le & [ STEM < "a_ratos_perdidos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ratos_perdidos_x_rel" ]. a_raudales_x1 := av_i_le & [ STEM < "a_raudales" >, SYNSEM.LKEYS.KEYREL.PRED "_a_raudales_x_rel" ]. a_razón_de_p_vmod := p_vmod_le & [ STEM < "a_razón_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_razón_de_p_rel ]. a_raíz_de_p_vmod := p_vmod_le & [ STEM < "a_raíz_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_raíz_de_p_rel ]. a_reculones_x1 := av_i_le & [ STEM < "a_reculones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_reculones_x_rel" ]. a_regaña_dientes_x1 := av_i_le & [ STEM < "a_regaña_dientes" >, SYNSEM.LKEYS.KEYREL.PRED "_a_regaña_dientes_x_rel" ]. a_regañadientes_x1 := av_i_le & [ STEM < "a_regañadientes" >, SYNSEM.LKEYS.KEYREL.PRED "_a_regañadientes_x_rel" ]. a_rehala_x1 := av_i_le & [ STEM < "a_rehala" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rehala_x_rel" ]. a_rembolso_x1 := av_i_le & [ STEM < "a_rembolso" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rembolso_x_rel" ]. a_remiendos_x1 := av_i_le & [ STEM < "a_remiendos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remiendos_x_rel" ]. a_remo_x1 := av_i_le & [ STEM < "a_remo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remo_x_rel" ]. a_remojo_x1 := av_i_le & [ STEM < "a_remojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_remojo_x_rel" ]. a_renglón_seguido_x1 := av_i_le & [ STEM < "a_renglón_seguido" >, SYNSEM.LKEYS.KEYREL.PRED "_a_renglón_seguido_x_rel" ]. a_reo_x1 := av_i_le & [ STEM < "a_reo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_reo_x_rel" ]. a_repecho_x1 := av_i_le & [ STEM < "a_repecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repecho_x_rel" ]. a_repelo_x1 := av_i_le & [ STEM < "a_repelo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repelo_x_rel" ]. a_repelones_x1 := av_i_le & [ STEM < "a_repelones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_repelones_x_rel" ]. a_reserva_de_p_vmod := p_vmod_le & [ STEM < "a_reserva_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_reserva_de_p_rel ]. a_resto_abierto_x1 := av_i_le & [ STEM < "a_resto_abierto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_resto_abierto_x_rel" ]. a_retaguardia_de_p_vmod := p_vmod_le & [ STEM < "a_retaguardia_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_retaguardia_de_p_rel ]. a_revienta_cinchas_x1 := av_i_le & [ STEM < "a_revienta_cinchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_revienta_cinchas_x_rel" ]. a_rienda_suelta_x1 := av_i_le & [ STEM < "a_rienda_suelta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rienda_suelta_x_rel" ]. a_riesgo_de_p_vmod := p_vmod_le & [ STEM < "a_riesgo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_riesgo_de_p_rel ]. a_riesgo_y_ventura_x1 := av_i_le & [ STEM < "a_riesgo_y_ventura" >, SYNSEM.LKEYS.KEYREL.PRED "_a_riesgo_y_ventura_x_rel" ]. a_rodeabrazo_x1 := av_i_le & [ STEM < "a_rodeabrazo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rodeabrazo_x_rel" ]. a_rompejunta_x1 := av_i_le & [ STEM < "a_rompejunta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rompejunta_x_rel" ]. a_rostro_firme_x1 := av_i_le & [ STEM < "a_rostro_firme" >, SYNSEM.LKEYS.KEYREL.PRED "_a_rostro_firme_x_rel" ]. a_ruche_x1 := av_i_le & [ STEM < "a_ruche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ruche_x_rel" ]. a_río_revuelto_x1 := av_i_le & [ STEM < "a_río_revuelto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_río_revuelto_x_rel" ]. a_sabiendas_x1 := av_i_le & [ STEM < "a_sabiendas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sabiendas_x_rel" ]. a_salto_de_mata_x1 := av_i_le & [ STEM < "a_salto_de_mata" >, SYNSEM.LKEYS.KEYREL.PRED "_a_salto_de_mata_x_rel" ]. a_saltos_x1 := av_i_le & [ STEM < "a_saltos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_saltos_x_rel" ]. a_sangre_caliente_x1 := av_i_le & [ STEM < "a_sangre_caliente" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_caliente_x_rel" ]. a_sangre_fría_x1 := av_i_le & [ STEM < "a_sangre_fría" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_fría_x_rel" ]. a_sangre_y_fuego_x1 := av_i_le & [ STEM < "a_sangre_y_fuego" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sangre_y_fuego_x_rel" ]. a_santo_de_qué_x1 := av_i_le & [ STEM < "a_santo_de_qué" >, SYNSEM.LKEYS.KEYREL.PRED "_a_santo_de_qué_x_rel" ]. a_sardinel_x1 := av_i_le & [ STEM < "a_sardinel" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sardinel_x_rel" ]. a_sc := p_vp_inf_le & [ STEM < "a" >, SYNSEM.LKEYS.KEYREL.PRED "_a_x_subord_rel" ]. a_seguir_bien_x1 := av_i_le & [ STEM < "a_seguir_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_a_seguir_bien_x_rel" ]. a_semejanza_de_p_vmod := p_vmod_le & [ STEM < "a_semejanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_semejanza_de_p_rel ]. a_so_capa_x1 := av_i_le & [ STEM < "a_so_capa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_so_capa_x_rel" ]. a_sobre_haz_x1 := av_i_le & [ STEM < "a_sobre_haz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobre_haz_x_rel" ]. a_sobre_peine_x1 := av_i_le & [ STEM < "a_sobre_peine" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobre_peine_x_rel" ]. a_sobremano_x1 := av_i_le & [ STEM < "a_sobremano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sobremano_x_rel" ]. a_socapa_x1 := av_i_le & [ STEM < "a_socapa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_socapa_x_rel" ]. a_soga_x1 := av_i_le & [ STEM < "a_soga" >, SYNSEM.LKEYS.KEYREL.PRED "_a_soga_x_rel" ]. a_solapo_x1 := av_i_le & [ STEM < "a_solapo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solapo_x_rel" ]. a_solas_x1 := av_i_le & [ STEM < "a_solas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solas_x_rel" ]. a_solaz_x1 := av_i_le & [ STEM < "a_solaz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_solaz_x_rel" ]. a_sotamano_x1 := av_i_le & [ STEM < "a_sotamano" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sotamano_x_rel" ]. a_sotavento_x1 := av_i_le & [ STEM < "a_sotavento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sotavento_x_rel" ]. a_su_imagen_y_semejanza_x1 := av_i_le & [ STEM < "a_su_imagen_y_semejanza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_su_imagen_y_semejanza_x_rel" ]. a_suplicación_de_p_vmod := p_vmod_le & [ STEM < "a_suplicación_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_suplicación_de_p_rel ]. a_sus_anchas_x1 := av_i_le & [ STEM < "a_sus_anchas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_sus_anchas_x_rel" ]. a_súplica_de_p_vmod := p_vmod_le & [ STEM < "a_súplica_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_súplica_de_p_rel ]. a_tal_punto_que_sc := sc_prop_fin_le & [ STEM < "a_tal_punto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tal_punto_que_x_subord_rel" ]. a_teja_vana_x1 := av_i_le & [ STEM < "a_teja_vana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_teja_vana_x_rel" ]. a_tenor_de_p_vmod := p_vmod_le & [ STEM < "a_tenor_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_tenor_de_p_rel ]. a_tientas_x1 := av_i_le & [ STEM < "a_tientas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tientas_x_rel" ]. a_tiento_x1 := av_i_le & [ STEM < "a_tiento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiento_x_rel" ]. a_tirada_x1 := av_i_le & [ STEM < "a_tirada" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tirada_x_rel" ]. a_tiro_de_ballesta_x1 := av_i_le & [ STEM < "a_tiro_de_ballesta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_de_ballesta_x_rel" ]. a_tiro_de_pistola_x1 := av_i_le & [ STEM < "a_tiro_de_pistola" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_de_pistola_x_rel" ]. a_tiro_limpio_x1 := av_i_le & [ STEM < "a_tiro_limpio" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tiro_limpio_x_rel" ]. a_tizón_x1 := av_i_le & [ STEM < "a_tizón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tizón_x_rel" ]. a_toca_ropa_x1 := av_i_le & [ STEM < "a_toca_ropa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toca_ropa_x_rel" ]. a_toca_teja_x1 := av_i_le & [ STEM < "a_toca_teja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toca_teja_x_rel" ]. a_tocateja_x1 := av_i_le & [ STEM < "a_tocateja" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tocateja_x_rel" ]. a_toda_brida_x1 := av_i_le & [ STEM < "a_toda_brida" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_brida_x_rel" ]. a_toda_costa_x1 := av_i_le & [ STEM < "a_toda_costa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_costa_x_rel" ]. a_toda_furia_x1 := av_i_le & [ STEM < "a_toda_furia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_furia_x_rel" ]. a_toda_hostia_x1 := av_i_le & [ STEM < "a_toda_hostia" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_hostia_x_rel" ]. a_toda_leche_x1 := av_i_le & [ STEM < "a_toda_leche" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_leche_x_rel" ]. a_toda_ley_x1 := av_i_le & [ STEM < "a_toda_ley" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_ley_x_rel" ]. a_toda_marcha_x1 := av_i_le & [ STEM < "a_toda_marcha" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_marcha_x_rel" ]. a_toda_mecha_x1 := av_i_le & [ STEM < "a_toda_mecha" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_mecha_x_rel" ]. a_toda_máquina_x1 := av_i_le & [ STEM < "a_toda_máquina" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_máquina_x_rel" ]. a_toda_pastilla_x1 := av_i_le & [ STEM < "a_toda_pastilla" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_pastilla_x_rel" ]. a_toda_plana_x1 := av_i_le & [ STEM < "a_toda_plana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_plana_x_rel" ]. a_toda_prisa_x1 := av_i_le & [ STEM < "a_toda_prisa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_prisa_x_rel" ]. a_toda_rienda_x1 := av_i_le & [ STEM < "a_toda_rienda" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toda_rienda_x_rel" ]. a_todas_estas_x1 := av_i_le & [ STEM < "a_todas_estas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todas_estas_x_rel" ]. a_todas_horas_x1 := av_i_le & [ STEM < "a_todas_horas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todas_horas_x_rel" ]. a_todo_andar_x1 := av_i_le & [ STEM < "a_todo_andar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_andar_x_rel" ]. a_todo_correr_x1 := av_i_le & [ STEM < "a_todo_correr" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_correr_x_rel" ]. a_todo_evento_x1 := av_i_le & [ STEM < "a_todo_evento" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_evento_x_rel" ]. a_todo_gas_x1 := av_i_le & [ STEM < "a_todo_gas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_gas_x_rel" ]. a_todo_lo_largo_de_p_vmod := p_vmod_le & [ STEM < "a_todo_lo_largo_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_todo_lo_largo_de_p_rel ]. a_todo_lo_largo_x1 := av_i_le & [ STEM < "a_todo_lo_largo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_lo_largo_x_rel" ]. a_todo_meter_x1 := av_i_le & [ STEM < "a_todo_meter" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_meter_x_rel" ]. a_todo_moler_x1 := av_i_le & [ STEM < "a_todo_moler" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_moler_x_rel" ]. a_todo_pasto_x1 := av_i_le & [ STEM < "a_todo_pasto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_pasto_x_rel" ]. a_todo_riesgo_x1 := av_i_le & [ STEM < "a_todo_riesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_riesgo_x_rel" ]. a_todo_ruedo_x1 := av_i_le & [ STEM < "a_todo_ruedo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_ruedo_x_rel" ]. a_todo_tirar_x1 := av_i_le & [ STEM < "a_todo_tirar" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_tirar_x_rel" ]. a_todo_trance_x1 := av_i_le & [ STEM < "a_todo_trance" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_trance_x_rel" ]. a_todo_vapor_x1 := av_i_le & [ STEM < "a_todo_vapor" >, SYNSEM.LKEYS.KEYREL.PRED "_a_todo_vapor_x_rel" ]. a_tontas_y_a_locas_x1 := av_i_le & [ STEM < "a_tontas_y_a_locas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tontas_y_a_locas_x_rel" ]. a_topa_tolondro_x1 := av_i_le & [ STEM < "a_topa_tolondro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_topa_tolondro_x_rel" ]. a_tope_x1 := av_i_le & [ STEM < "a_tope" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tope_x_rel" ]. a_toque_de_campana_x1 := av_i_le & [ STEM < "a_toque_de_campana" >, SYNSEM.LKEYS.KEYREL.PRED "_a_toque_de_campana_x_rel" ]. a_torna_peón_x1 := av_i_le & [ STEM < "a_torna_peón" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torna_peón_x_rel" ]. a_torna_punta_x1 := av_i_le & [ STEM < "a_torna_punta" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torna_punta_x_rel" ]. a_torno_x1 := av_i_le & [ STEM < "a_torno" >, SYNSEM.LKEYS.KEYREL.PRED "_a_torno_x_rel" ]. a_traición_x1 := av_i_le & [ STEM < "a_traición" >, SYNSEM.LKEYS.KEYREL.PRED "_a_traición_x_rel" ]. a_trancas_y_barrancas_x1 := av_i_le & [ STEM < "a_trancas_y_barrancas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trancas_y_barrancas_x_rel" ]. a_trancos_x1 := av_i_le & [ STEM < "a_trancos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trancos_x_rel" ]. a_traque_barraque_x1 := av_i_le & [ STEM < "a_traque_barraque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_traque_barraque_x_rel" ]. a_través_de_p_vmod := p_vmod_le & [ STEM < "a_través_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_través_de_p_rel ]. a_trompa_y_talega_x1 := av_i_le & [ STEM < "a_trompa_y_talega" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trompa_y_talega_x_rel" ]. a_trompicones_x1 := av_i_le & [ STEM < "a_trompicones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trompicones_x_rel" ]. a_tropezones_x1 := av_i_le & [ STEM < "a_tropezones" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tropezones_x_rel" ]. a_trueco_de_p_vmod := p_vmod_le & [ STEM < "a_trueco_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_trueco_de_p_rel ]. a_trueque_x1 := av_i_le & [ STEM < "a_trueque" >, SYNSEM.LKEYS.KEYREL.PRED "_a_trueque_x_rel" ]. a_tuertas_o_a_derechas_x1 := av_i_le & [ STEM < "a_tuertas_o_a_derechas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuertas_o_a_derechas_x_rel" ]. a_tuertas_x1 := av_i_le & [ STEM < "a_tuertas" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuertas_x_rel" ]. a_tuerto_o_a_derecho_x1 := av_i_le & [ STEM < "a_tuerto_o_a_derecho" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tuerto_o_a_derecho_x_rel" ]. a_tutiplén_x1 := av_i_le & [ STEM < "a_tutiplén" >, SYNSEM.LKEYS.KEYREL.PRED "_a_tutiplén_x_rel" ]. a_título_de_p_vmod := p_vmod_le & [ STEM < "a_título_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_título_de_p_rel ]. a_ultranza_x1 := av_i_le & [ STEM < "a_ultranza" >, SYNSEM.LKEYS.KEYREL.PRED "_a_ultranza_x_rel" ]. a_un_lado_y_otro_x1 := av_i_le & [ STEM < "a_un_lado_y_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_un_lado_y_otro_x_rel" ]. a_un_solo_efecto_x1 := av_i_le & [ STEM < "a_un_solo_efecto" >, SYNSEM.LKEYS.KEYREL.PRED "_a_un_solo_efecto_x_rel" ]. a_uno_y_otro_lado_x1 := av_i_le & [ STEM < "a_uno_y_otro_lado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_uno_y_otro_lado_x_rel" ]. a_upa_x1 := av_i_le & [ STEM < "a_upa" >, SYNSEM.LKEYS.KEYREL.PRED "_a_upa_x_rel" ]. a_usanza_de_p_vmod := p_vmod_le & [ STEM < "a_usanza_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_usanza_de_p_rel ]. a_vez_que_sc := sc_prop_fin_le & [ STEM < "a_vez_que" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vez_que_x_subord_rel" ]. a_vida_o_muerte_x1 := av_i_le & [ STEM < "a_vida_o_muerte" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vida_o_muerte_x_rel" ]. a_vista_de_pájaro_x1 := av_i_le & [ STEM < "a_vista_de_pájaro" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vista_de_pájaro_x_rel" ]. a_viva_voz_x1 := av_i_le & [ STEM < "a_viva_voz" >, SYNSEM.LKEYS.KEYREL.PRED "_a_viva_voz_x_rel" ]. a_voz_en_cuello_x1 := av_i_le & [ STEM < "a_voz_en_cuello" >, SYNSEM.LKEYS.KEYREL.PRED "_a_voz_en_cuello_x_rel" ]. a_voz_en_grito_x1 := av_i_le & [ STEM < "a_voz_en_grito" >, SYNSEM.LKEYS.KEYREL.PRED "_a_voz_en_grito_x_rel" ]. a_vuela_pluma_x1 := av_i_le & [ STEM < "a_vuela_pluma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuela_pluma_x_rel" ]. a_vuelapluma_x1 := av_i_le & [ STEM < "a_vuelapluma" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelapluma_x_rel" ]. a_vuelco_de_dado_x1 := av_i_le & [ STEM < "a_vuelco_de_dado" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelco_de_dado_x_rel" ]. a_vuelta_de_correo_x1 := av_i_le & [ STEM < "a_vuelta_de_correo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_correo_x_rel" ]. a_vuelta_de_ojo_x1 := av_i_le & [ STEM < "a_vuelta_de_ojo" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_ojo_x_rel" ]. a_vuelta_de_ojos_x1 := av_i_le & [ STEM < "a_vuelta_de_ojos" >, SYNSEM.LKEYS.KEYREL.PRED "_a_vuelta_de_ojos_x_rel" ]. a_vuelta_de_p_vmod := p_vmod_le & [ STEM < "a_vuelta_de" >, SYNSEM.LKEYS.KEYREL.PRED _a_vuelta_de_p_rel ]. ab_initio_x1 := av_i_le & [ STEM < "ab_initio" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_initio_x_rel" ]. ab_intestato_x1 := av_i_le & [ STEM < "ab_intestato" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_intestato_x_rel" ]. ab_ovo_x1 := av_i_le & [ STEM < "ab_ovo" >, SYNSEM.LKEYS.KEYREL.PRED "_ab_ovo_x_rel" ]. abacero_n1 := n_intr_count_le & [ STEM < "abacero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abacero_n_rel" ] ]. abacería_n1 := n_intr_count_le & [ STEM < "abacería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abacería_n_rel" ] ]. abad_n1 := n_intr_count_le & [ STEM < "abad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abad_n_rel" ] ]. abadejo_n1 := n_intr_count_le & [ STEM < "abadejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abadejo_n_rel" ] ]. abadengo_a1 := a_rel_nonprd_intr_le & [ STEM < "abadengo" >, SYNSEM.LKEYS.KEYREL.PRED "_abadengo_a_rel" ]. abadesa_n1 := n_intr_count_le & [ STEM < "abadesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abadesa_n_rel" ] ]. abadía_n1 := n_intr_count_le & [ STEM < "abadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_abadía_n_rel" ] ]. abajo_x1 := av_i_spr_le & [ STEM < "abajo" >, SYNSEM.LKEYS.KEYREL.PRED "_abajo_x_rel" ]. abalanzar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abalanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_abalanzar_v_rel" ] ] ]. abalanzar_v2 := v_pron_unacc_lcomp_dir*_le & [ STEM < "abalanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_abalanzar_v_rel" ]. abalaustrado_a1 := a_qual_intr_ser_le & [ STEM < "abalaustrado" >, SYNSEM.LKEYS.KEYREL.PRED "_abalaustrado_a_rel" ]. abalizamiento_n1 := n_trans_le & [ STEM < "abalizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abalizamiento_n_rel" ]. abalorio_n1 := n_intr_count_le & [ STEM < "abalorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abalorio_n_rel" ] ]. abanderado_n1 := n_intr_count_le & [ STEM < "abanderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abanderado_n_rel" ] ]. abanderamiento_n1 := n_trans_le & [ STEM < "abanderamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abanderamiento_n_rel" ]. abanderar_v1 := v_trans_np_le & [ STEM < "abanderar" >, SYNSEM.LKEYS.KEYREL.PRED "_abanderar_v_rel" ]. abandonar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "abandonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_abandonar_v_rel" ] ]. abandonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "abandonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_abandonar_v_rel" ] ]. abandonar_v3 := v_trans_np_le & [ STEM < "abandonar" >, SYNSEM.LKEYS.KEYREL.PRED "_abandonar_v_rel" ]. abandonismo_n1 := n_intr_uncount_le & [ STEM < "abandonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abandonismo_n_rel" ] ]. abandonista_a1 := a_qual_intr_ser_le & [ STEM < "abandonista" >, SYNSEM.LKEYS.KEYREL.PRED "_abandonista_a_rel" ]. abandonista_n1 := n_intr_count_le & [ STEM < "abandonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abandonista_n_rel" ] ]. abandono_n1 := n_trans_le & [ STEM < "abandono" >, SYNSEM.LKEYS.KEYREL.PRED "_abandono_n_rel" ]. abanico_n1 := n_intr_count_le & [ STEM < "abanico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abanico_n_rel" ] ]. abaniqueo_n1 := n_trans_le & [ STEM < "abaniqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_abaniqueo_n_rel" ]. abaniquero_n1 := n_intr_count_le & [ STEM < "abaniquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abaniquero_n_rel" ] ]. abanto_n1 := n_intr_count_le & [ STEM < "abanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abanto_n_rel" ] ]. abaratamiento_n1 := n_trans_le & [ STEM < "abaratamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratamiento_n_rel" ]. abaratar_v1 := v_trans_np_caus_le & [ STEM < "abaratar" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratar_v_rel" ]. abaratar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "abaratar" >, SYNSEM.LKEYS.KEYREL.PRED "_abaratar_v_rel" ]. abarca_n1 := n_intr_count_le & [ STEM < "abarca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abarca_n_rel" ] ]. abarcamiento_n1 := n_trans_le & [ STEM < "abarcamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarcamiento_n_rel" ]. abarloamiento_n1 := n_trans_le & [ STEM < "abarloamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarloamiento_n_rel" ]. abarquillamiento_n1 := n_trans_le & [ STEM < "abarquillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarquillamiento_n_rel" ]. abarraganamiento_n1 := n_intr_uncount_le & [ STEM < "abarraganamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abarraganamiento_n_rel" ] ]. abarrancamiento_n1 := n_trans_le & [ STEM < "abarrancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abarrancamiento_n_rel" ]. abarrote_n1 := n_intr_count_le & [ STEM < "abarrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abarrote_n_rel" ] ]. abastecedor_n1 := n_subj-nom_le & [ STEM < "abastecedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abastecedor_n_rel" ] ]. abastecer_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "abastecer" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_abastecer_v_rel" ] ]. abastecimiento_n1 := n_trans_le & [ STEM < "abastecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abastecimiento_n_rel" ]. abasto_n1 := n_trans_le & [ STEM < "abasto" >, SYNSEM.LKEYS.KEYREL.PRED "_abasto_n_rel" ]. abatelengua_n1 := n_intr_count_le & [ STEM < "abatelengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abatelengua_n_rel" ] ]. abatible_a1 := a_rel_nonprd_intr_le & [ STEM < "abatible" >, SYNSEM.LKEYS.KEYREL.PRED "_abatible_a_rel" ]. abatimiento_n1 := n_trans_le & [ STEM < "abatimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abatimiento_n_rel" ]. abatir_v1 := v_intr_io*_le & [ STEM < "abatir" >, SYNSEM.LKEYS.KEYREL.PRED "_abatir_v_rel" ]. abatir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abatir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_abatir_v_rel" ] ] ]. abatir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "abatir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_abatir_v_rel" ] ] ]. abatir_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abatir" >, SYNSEM.LKEYS.KEYREL.PRED "_abatir_v_rel" ]. abayado_a1 := a_qual_intr_scopal_le & [ STEM < "abayado" >, SYNSEM.LKEYS.KEYREL.PRED "_abayado_a_rel" ]. abdicación_n1 := n_result_intr_le & [ STEM < "abdicación" >, SYNSEM.LKEYS.KEYREL.PRED "_abdicación_n_rel" ]. abdicar_v1 := v_intr_mrkd_np*_le & [ STEM < "abdicar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abdicar_v_rel" ] ]. abdomen_n1 := n_ppcomp_count_le & [ STEM < "abdomen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_abdomen_n_rel" ] ]. abdominal_a1 := a_rel_nonprd_intr_le & [ STEM < "abdominal" >, SYNSEM.LKEYS.KEYREL.PRED "_abdominal_a_rel" ]. abdominogenital_a1 := a_rel_nonprd_intr_le & [ STEM < "abdominogenital" >, SYNSEM.LKEYS.KEYREL.PRED "_abdominogenital_a_rel" ]. abducción_n1 := n_intr_mass_le & [ STEM < "abducción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abducción_n_rel" ] ]. abductor_a1 := a_rel_nonprd_intr_le & [ STEM < "abductor" >, SYNSEM.LKEYS.KEYREL.PRED "_abductor_a_rel" ]. abductor_n1 := n_intr_count_le & [ STEM < "abductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abductor_n_rel" ] ]. abecedario_n1 := n_intr_count_le & [ STEM < "abecedario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abecedario_n_rel" ] ]. abecé_n1 := n_intr_uncount_le & [ STEM < "abecé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abecé_n_rel" ] ]. abedul_n1 := n_intr_mass-or-count_le & [ STEM < "abedul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abedul_n_rel" ] ]. abeja_n1 := n_intr_count_le & [ STEM < "abeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abeja_n_rel" ] ]. abejaruco_n1 := n_intr_count_le & [ STEM < "abejaruco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejaruco_n_rel" ] ]. abejero_n1 := n_intr_count_le & [ STEM < "abejero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abejero_n_rel" ] ]. abejorro_n1 := n_intr_count_le & [ STEM < "abejorro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejorro_n_rel" ] ]. abejón_n1 := n_intr_count_le & [ STEM < "abejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abejón_n_rel" ] ]. abelito_n1 := n_intr_count_le & [ STEM < "abelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abelito_n_rel" ] ]. abellotado_a1 := a_qual_intr_ser_le & [ STEM < "abellotado" >, SYNSEM.LKEYS.KEYREL.PRED "_abellotado_a_rel" ]. abelmoscho_n1 := n_intr_count_le & [ STEM < "abelmoscho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abelmoscho_n_rel" ] ]. aberenjenado_a1 := a_qual_intr_ser_le & [ STEM < "aberenjenado" >, SYNSEM.LKEYS.KEYREL.PRED "_aberenjenado_a_rel" ]. aberración_n1 := n_intr_count_le & [ STEM < "aberración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aberración_n_rel" ] ]. aberrante_a1 := a_qual_intr_scopal_le & [ STEM < "aberrante" >, SYNSEM.LKEYS.KEYREL.PRED "_aberrante_a_rel" ]. aberrar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "aberrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aberrar_v_rel" ]. abertal_a1 := a_rel_nonprd_intr_le & [ STEM < "abertal" >, SYNSEM.LKEYS.KEYREL.PRED "_abertal_a_rel" ]. abertura_n1 := n_trans_le & [ STEM < "abertura" >, SYNSEM.LKEYS.KEYREL.PRED "_abertura_n_rel" ]. abertzale_a1 := a_rel_nonprd_intr_le & [ STEM < "abertzale" >, SYNSEM.LKEYS.KEYREL.PRED "_abertzale_a_rel" ]. abetal_n1 := n_intr_count_le & [ STEM < "abetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abetal_n_rel" ] ]. abetalipoproteinemia_n1 := n_intr_uncount_le & [ STEM < "abetalipoproteinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abetalipoproteinemia_n_rel" ] ]. abetar_n1 := n_intr_count_le & [ STEM < "abetar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abetar_n_rel" ] ]. abeto_n1 := n_intr_count_le & [ STEM < "abeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abeto_n_rel" ] ]. abetuna_n1 := n_intr_mass_le & [ STEM < "abetuna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_abetuna_n_rel" ] ]. abiertamente_x1 := av_i_spr_le & [ STEM < "abiertamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abiertamente_x_rel" ]. abieteno_n1 := n_intr_count_le & [ STEM < "abieteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abieteno_n_rel" ] ]. abietinato_n1 := n_intr_count_le & [ STEM < "abietinato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abietinato_n_rel" ] ]. abigarradamente_x1 := av_i_spr_le & [ STEM < "abigarradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarradamente_x_rel" ]. abigarramiento_n1 := n_trans_le & [ STEM < "abigarramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarramiento_n_rel" ]. abigarrar_v1 := v_trans_np_le & [ STEM < "abigarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_abigarrar_v_rel" ]. abigeato_n1 := n_intr_uncount_le & [ STEM < "abigeato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abigeato_n_rel" ] ]. abigeato_n2 := n_intr_count_le & [ STEM < "abigeato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abigeato_n_rel" ] ]. abiogénesis_n1 := n_intr_uncount_le & [ STEM < "abiogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abiogénesis_n_rel" ] ]. abisal_a1 := a_rel_nonprd_intr_le & [ STEM < "abisal" >, SYNSEM.LKEYS.KEYREL.PRED "_abisal_a_rel" ]. abisinio_a1 := a_rel_prd_le & [ STEM < "abisinio" >, SYNSEM.LKEYS.KEYREL.PRED "_abisinio_a_rel" ]. abismal_a1 := a_rel_nonprd_intr_le & [ STEM < "abismal" >, SYNSEM.LKEYS.KEYREL.PRED "_abismal_a_rel" ]. abismo_n1 := n_intr_count_le & [ STEM < "abismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_abismo_n_rel" ] ]. abismático_a1 := a_rel_nonprd_intr_le & [ STEM < "abismático" >, SYNSEM.LKEYS.KEYREL.PRED "_abismático_a_rel" ]. abiureto_n1 := n_intr_count_le & [ STEM < "abiureto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abiureto_n_rel" ] ]. abizcochado_a1 := a_qual_intr_ser_le & [ STEM < "abizcochado" >, SYNSEM.LKEYS.KEYREL.PRED "_abizcochado_a_rel" ]. abióticamente_x1 := av_i_spr_le & [ STEM < "abióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abióticamente_x_rel" ]. abiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "abiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_abiótico_a_rel" ]. abjuración_n1 := n_trans_le & [ STEM < "abjuración" >, SYNSEM.LKEYS.KEYREL.PRED "_abjuración_n_rel" ]. abjurar_v1 := v_intr_mrkd_np_le & [ STEM < "abjurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abjurar_v_rel" ] ]. abjurar_v2 := v_trans_np_le & [ STEM < "abjurar" >, SYNSEM.LKEYS.KEYREL.PRED "_abjurar_v_rel" ]. ablación_n1 := n_intr_count_le & [ STEM < "ablación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablación_n_rel" ] ]. ablactación_n1 := n_intr_uncount_le & [ STEM < "ablactación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablactación_n_rel" ] ]. ablandador_a1 := a_rel_nonprd_intr_le & [ STEM < "ablandador" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandador_a_rel" ]. ablandador_n1 := n_intr_count_le & [ STEM < "ablandador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablandador_n_rel" ] ]. ablandamiento_n1 := n_trans_le & [ STEM < "ablandamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandamiento_n_rel" ]. ablandante_n1 := n_intr_count_le & [ STEM < "ablandante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablandante_n_rel" ] ]. ablandar_v1 := v_intr_io*_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablandar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablandar_v3 := v_trans_np_caus_le & [ STEM < "ablandar" >, SYNSEM.LKEYS.KEYREL.PRED "_ablandar_v_rel" ]. ablastina_n1 := n_intr_count_le & [ STEM < "ablastina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ablastina_n_rel" ] ]. ablativo_n1 := n_intr_uncount_le & [ STEM < "ablativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablativo_n_rel" ] ]. ablución_n1 := n_intr_uncount_le & [ STEM < "ablución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ablución_n_rel" ] ]. ablusado_a1 := a_qual_intr_estar_le & [ STEM < "ablusado" >, SYNSEM.LKEYS.KEYREL.PRED "_ablusado_a_rel" ]. abnegación_n1 := n_intr_uncount_le & [ STEM < "abnegación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abnegación_n_rel" ] ]. abnegadamente_x1 := av_i_spr_le & [ STEM < "abnegadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abnegadamente_x_rel" ]. abobamiento_n1 := n_trans_le & [ STEM < "abobamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abobamiento_n_rel" ]. abobinar_v1 := v_trans_np_le & [ STEM < "abobinar" >, SYNSEM.LKEYS.KEYREL.PRED "_abobinar_v_rel" ]. abocar_v1 := v_ditrans*_le & [ STEM < "abocar" >, SYNSEM.LKEYS.KEYREL.PRED "_abocar_v_rel" ]. abocar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "abocar" >, SYNSEM.LKEYS.KEYREL.PRED "_abocar_v_rel" ]. abocar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "abocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_abocar_v_rel" ] ] ]. abocar_v4 := v_trans_np_mrkd_np_le & [ STEM < "abocar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_abocar_v_rel" ] ] ]. abocardador_n1 := n_intr_count_le & [ STEM < "abocardador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abocardador_n_rel" ] ]. abocardo_n1 := n_intr_count_le & [ STEM < "abocardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abocardo_n_rel" ] ]. abochornar_v1 := v_intr_io*_le & [ STEM < "abochornar" >, SYNSEM.LKEYS.KEYREL.PRED "_abochornar_v_rel" ]. abochornar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abochornar" >, SYNSEM.LKEYS.KEYREL.PRED "_abochornar_v_rel" ]. abocinamiento_n1 := n_trans_le & [ STEM < "abocinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abocinamiento_n_rel" ]. abofeteamiento_n1 := n_trans_le & [ STEM < "abofeteamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abofeteamiento_n_rel" ]. abofetear_v1 := v_trans_np_le & [ STEM < "abofetear" >, SYNSEM.LKEYS.KEYREL.PRED "_abofetear_v_rel" ]. abogacía_n1 := n_intr_uncount_le & [ STEM < "abogacía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abogacía_n_rel" ] ]. abogado_n1 := n_ppcomp_count_le & [ STEM < "abogado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abogado_n_rel" ] ]. abogar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abogar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_abogar_v_rel" ] ] ]. abogar_v2 := v_intr_mrkd_np_le & [ STEM < "abogar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_soc, PRED "_abogar_v_rel" ] ] ]. abolengo_n1 := n_intr_uncount_pl_le & [ STEM < "abolengo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abolengo_n_rel" ] ]. abolicionismo_n1 := n_intr_uncount_le & [ STEM < "abolicionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abolicionismo_n_rel" ] ]. abolicionista_n1 := n_intr_count_le & [ STEM < "abolicionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abolicionista_n_rel" ] ]. abolición_n1 := n_trans_le & [ STEM < "abolición" >, SYNSEM.LKEYS.KEYREL.PRED "_abolición_n_rel" ]. abolir_v1 := v_trans_np_le & [ STEM < "abolir" >, SYNSEM.LKEYS.KEYREL.PRED "_abolir_v_rel" ]. abolladura_n1 := n_intr_count_le & [ STEM < "abolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abolladura_n_rel" ] ]. abollar_v1 := v_trans_np_le & [ STEM < "abollar" >, SYNSEM.LKEYS.KEYREL.PRED "_abollar_v_rel" ]. abolorio_n1 := n_intr_count_le & [ STEM < "abolorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abolorio_n_rel" ] ]. abombamiento_n1 := n_trans_le & [ STEM < "abombamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abombamiento_n_rel" ]. abombar_v1 := v_trans_np_le & [ STEM < "abombar" >, SYNSEM.LKEYS.KEYREL.PRED "_abombar_v_rel" ]. abominable_a1 := a_rel_prd_le & [ STEM < "abominable" >, SYNSEM.LKEYS.KEYREL.PRED "_abominable_a_rel" ]. abominablemente_x1 := av_i_spr_le & [ STEM < "abominablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_abominablemente_x_rel" ]. abominación_n1 := n_trans_le & [ STEM < "abominación" >, SYNSEM.LKEYS.KEYREL.PRED "_abominación_n_rel" ]. abominar_v1 := v_intr_mrkd_np_le & [ STEM < "abominar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abominar_v_rel" ] ]. abominar_v2 := v_trans_np_le & [ STEM < "abominar" >, SYNSEM.LKEYS.KEYREL.PRED "_abominar_v_rel" ]. abonable_a1 := a_rel_prd_le & [ STEM < "abonable" >, SYNSEM.LKEYS.KEYREL.PRED "_abonable_a_rel" ]. abonado_n1 := n_intr_count_le & [ STEM < "abonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abonado_n_rel" ] ]. abonador_n1 := n_intr_count_le & [ STEM < "abonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abonador_n_rel" ] ]. abonaré_n1 := n_intr_count_le & [ STEM < "abonaré" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abonaré_n_rel" ] ]. abono_n1 := n_intr_mass-or-count_le & [ STEM < "abono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_abono_n_rel" ] ]. aboral_a1 := a_rel_nonprd_intr_le & [ STEM < "aboral" >, SYNSEM.LKEYS.KEYREL.PRED "_aboral_a_rel" ]. abordaje_n1 := n_trans_le & [ STEM < "abordaje" >, SYNSEM.LKEYS.KEYREL.PRED "_abordaje_n_rel" ]. abordar_v1 := v_trans_np_le & [ STEM < "abordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, PRED "_abordar_v_rel" ] ]. aborigen_a1 := a_rel_nonprd_intr_le & [ STEM < "aborigen" >, SYNSEM.LKEYS.KEYREL.PRED "_aborigen_a_rel" ]. aborigen_n1 := n_intr_count_le & [ STEM < "aborigen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aborigen_n_rel" ] ]. aborrecer_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aborrecer_v_rel" ] ] ]. aborrecer_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aborrecer_v_rel" ] ] ]. aborrecer_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_aborrecer_v_rel" ] ]. aborrecer_v4 := v_trans_np_le & [ STEM < "aborrecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_aborrecer_v_rel" ] ]. aborrecible_a1 := a_qual_intr_scopal_le & [ STEM < "aborrecible" >, SYNSEM.LKEYS.KEYREL.PRED "_aborrecible_a_rel" ]. aborreciblemente_x1 := av_i_spr_le & [ STEM < "aborreciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aborreciblemente_x_rel" ]. aborrecimiento_n1 := n_trans_le & [ STEM < "aborrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aborrecimiento_n_rel" ]. abortar_v1 := v_trans_np*_le & [ STEM < "abortar" >, SYNSEM.LKEYS.KEYREL.PRED "_abortar_v_rel" ]. abortista_n1 := n_intr_count_le & [ STEM < "abortista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abortista_n_rel" ] ]. abortivo_a1 := a_rel_nonprd_intr_le & [ STEM < "abortivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abortivo_a_rel" ]. aborto_n1 := n_trans_le & [ STEM < "aborto" >, SYNSEM.LKEYS.KEYREL.PRED "_aborto_n_rel" ]. abotonador_n1 := n_intr_count_le & [ STEM < "abotonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abotonador_n_rel" ] ]. abotonadura_n1 := n_intr_coll_le & [ STEM < "abotonadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abotonadura_n_rel" ] ]. abotonar_v1 := v_ditrans*_le & [ STEM < "abotonar" >, SYNSEM.LKEYS.KEYREL.PRED "_abotonar_v_rel" ]. abra_n1 := n_intr_count_le & [ STEM < "abra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abra_n_rel" ] ]. abrasador_a1 := a_qual_intr_scopal_le & [ STEM < "abrasador" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasador_a_rel" ]. abrasadoramente_x1 := av_i_spr_le & [ STEM < "abrasadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasadoramente_x_rel" ]. abrasar_v1 := v_trans_np*_caus_le & [ STEM < "abrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasar_v_rel" ]. abrasividad_n1 := n_intr_mass_le & [ STEM < "abrasividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abrasividad_n_rel" ] ]. abrasivo_a1 := a_qual_intr_scopal_le & [ STEM < "abrasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abrasivo_a_rel" ]. abrasivo_n1 := n_intr_count_le & [ STEM < "abrasivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abrasivo_n_rel" ] ]. abrasión_n1 := n_intr_count_le & [ STEM < "abrasión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abrasión_n_rel" ] ]. abrasímetro_n1 := n_intr_count_le & [ STEM < "abrasímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrasímetro_n_rel" ] ]. abrazadera_n1 := n_intr_count_le & [ STEM < "abrazadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrazadera_n_rel" ] ]. abrazador_n1 := n_intr_count_le & [ STEM < "abrazador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrazador_n_rel" ] ]. abrazamiento_n1 := n_trans_le & [ STEM < "abrazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrazamiento_n_rel" ]. abrazo_n1 := n_trans_le & [ STEM < "abrazo" >, SYNSEM.LKEYS.KEYREL.PRED "_abrazo_n_rel" ]. abrebocas_n1 := n_intr_count_le & [ STEM < "abrebocas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrebocas_n_rel" ] ]. abrebotellas_n1 := n_intr_count_le & [ STEM < "abrebotellas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrebotellas_n_rel" ] ]. abrecartas_n1 := n_intr_count_le & [ STEM < "abrecartas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrecartas_n_rel" ] ]. abrelatas_n1 := n_intr_count_le & [ STEM < "abrelatas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrelatas_n_rel" ] ]. abrevadero_n1 := n_intr_count_le & [ STEM < "abrevadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrevadero_n_rel" ] ]. abrevar_v1 := v_trans_np_le & [ STEM < "abrevar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrevar_v_rel" ]. abreviable_a1 := a_rel_prd_le & [ STEM < "abreviable" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviable_a_rel" ]. abreviación_n1 := n_trans_le & [ STEM < "abreviación" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviación_n_rel" ]. abreviamiento_n1 := n_trans_le & [ STEM < "abreviamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviamiento_n_rel" ]. abreviar_v1 := v_trans_np*_le & [ STEM < "abreviar" >, SYNSEM.LKEYS.KEYREL.PRED "_abreviar_v_rel" ]. abreviatura_n1 := n_intr_count_le & [ STEM < "abreviatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abreviatura_n_rel" ] ]. abridor_a1 := a_rel_nonprd_intr_le & [ STEM < "abridor" >, SYNSEM.LKEYS.KEYREL.PRED "_abridor_a_rel" ]. abridor_n1 := n_intr_count_le & [ STEM < "abridor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abridor_n_rel" ] ]. abridora_n1 := n_intr_count_le & [ STEM < "abridora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abridora_n_rel" ] ]. abrigar_v1 := v_trans_np_caus_le & [ STEM < "abrigar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pro, PRED "_abrigar_v_rel" ] ]. abrigaño_n1 := n_intr_count_le & [ STEM < "abrigaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrigaño_n_rel" ] ]. abrigo_n1 := n_intr_count_le & [ STEM < "abrigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrigo_n_rel" ] ]. abril_n1 := n_intr_count_le & [ STEM < "abril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_abril_n_rel" ] ]. abrileño_a1 := a_rel_nonprd_intr_le & [ STEM < "abrileño" >, SYNSEM.LKEYS.KEYREL.PRED "_abrileño_a_rel" ]. abrillantador_n1 := n_intr_count_le & [ STEM < "abrillantador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_abrillantador_n_rel" ] ]. abrillantamiento_n1 := n_trans_le & [ STEM < "abrillantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrillantamiento_n_rel" ]. abrillantar_v1 := v_trans_np_le & [ STEM < "abrillantar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrillantar_v_rel" ]. abrir_v1 := v_ditrans_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "abrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_abrir_v_rel" ] ] ]. abrir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "abrir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_abrir_v_rel" ] ] ]. abrir_v4 := v_subj_cp_prop_ditrans*_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrir_v6 := v_trans_np_caus_le & [ STEM < "abrir" >, SYNSEM.LKEYS.KEYREL.PRED "_abrir_v_rel" ]. abrochador_n1 := n_intr_count_le & [ STEM < "abrochador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrochador_n_rel" ] ]. abrochadura_n1 := n_trans_le & [ STEM < "abrochadura" >, SYNSEM.LKEYS.KEYREL.PRED "_abrochadura_n_rel" ]. abrochamiento_n1 := n_trans_le & [ STEM < "abrochamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abrochamiento_n_rel" ]. abrogación_n1 := n_trans_le & [ STEM < "abrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_abrogación_n_rel" ]. abrogar_v1 := v_trans_np_le & [ STEM < "abrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrogar_v_rel" ]. abrojal_n1 := n_intr_count_le & [ STEM < "abrojal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_abrojal_n_rel" ] ]. abrojo_n1 := n_intr_mass_le & [ STEM < "abrojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrojo_n_rel" ] ]. abroncar_v1 := v_trans_np_le & [ STEM < "abroncar" >, SYNSEM.LKEYS.KEYREL.PRED "_abroncar_v_rel" ]. abrotina_n1 := n_intr_count_le & [ STEM < "abrotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abrotina_n_rel" ] ]. abrumador_a1 := a_qual_intr_scopal_le & [ STEM < "abrumador" >, SYNSEM.LKEYS.KEYREL.PRED "_abrumador_a_rel" ]. abrumar_v1 := v_intr_io*_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_abrumar_v_rel" ] ]. abrumar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL.PRED "_abrumar_v_rel" ]. abrumar_v3 := v_trans_np_caus_le & [ STEM < "abrumar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_abrumar_v_rel" ] ]. abruptamente_x1 := av_i_spr_le & [ STEM < "abruptamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abruptamente_x_rel" ]. abrupto_a1 := a_qual_intr_scopal_le & [ STEM < "abrupto" >, SYNSEM.LKEYS.KEYREL.PRED "_abrupto_a_rel" ]. abrutado_a1 := a_qual_intr_ser_le & [ STEM < "abrutado" >, SYNSEM.LKEYS.KEYREL.PRED "_abrutado_a_rel" ]. abrúptico_a1 := a_qual_intr_scopal_le & [ STEM < "abrúptico" >, SYNSEM.LKEYS.KEYREL.PRED "_abrúptico_a_rel" ]. absceso_n1 := n_intr_count_le & [ STEM < "absceso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absceso_n_rel" ] ]. abscisa_n1 := n_intr_count_le & [ STEM < "abscisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_abscisa_n_rel" ] ]. abscisión_n1 := n_intr_count_le & [ STEM < "abscisión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abscisión_n_rel" ] ]. absenta_n1 := n_intr_mass_le & [ STEM < "absenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_absenta_n_rel" ] ]. absentismo_n1 := n_intr_uncount_le & [ STEM < "absentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absentismo_n_rel" ] ]. absentista_n1 := n_intr_count_le & [ STEM < "absentista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_absentista_n_rel" ] ]. absidal_a1 := a_rel_nonprd_intr_le & [ STEM < "absidal" >, SYNSEM.LKEYS.KEYREL.PRED "_absidal_a_rel" ]. absidiola_n1 := n_intr_count_le & [ STEM < "absidiola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absidiola_n_rel" ] ]. absidiolo_n1 := n_intr_count_le & [ STEM < "absidiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absidiolo_n_rel" ] ]. absintina_n1 := n_intr_mass_le & [ STEM < "absintina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_absintina_n_rel" ] ]. absintio_n1 := n_intr_count_le & [ STEM < "absintio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_absintio_n_rel" ] ]. absolución_n1 := n_trans_le & [ STEM < "absolución" >, SYNSEM.LKEYS.KEYREL.PRED "_absolución_n_rel" ]. absolutamente_x1 := av_deg_le & [ STEM < "absolutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutamente_x_rel" ]. absolutismo_n1 := n_intr_uncount_le & [ STEM < "absolutismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absolutismo_n_rel" ] ]. absolutista_a1 := a_qual_intr_ser_le & [ STEM < "absolutista" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutista_a_rel" ]. absolutista_n1 := n_intr_count_le & [ STEM < "absolutista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_absolutista_n_rel" ] ]. absolutorio_a1 := a_rel_nonprd_intr_le & [ STEM < "absolutorio" >, SYNSEM.LKEYS.KEYREL.PRED "_absolutorio_a_rel" ]. absolver_v1 := v_trans_np_mrkd_np*_le & [ STEM < "absolver" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_absolver_v_rel" ] ]. absorbedor_n1 := n_intr_count_le & [ STEM < "absorbedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absorbedor_n_rel" ] ]. absorbencia_n1 := n_trans_le & [ STEM < "absorbencia" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbencia_n_rel" ]. absorbente_a1 := a_qual_intr_scopal_le & [ STEM < "absorbente" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbente_a_rel" ]. absorbente_n1 := n_intr_mass-or-count_le & [ STEM < "absorbente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_absorbente_n_rel" ] ]. absorber_v1 := v_intr_io*_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL.PRED "_absorber_v_rel" ]. absorber_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL.PRED "_absorber_v_rel" ]. absorber_v3 := v_trans_np_le & [ STEM < "absorber" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_absorber_v_rel" ] ]. absorbible_a1 := a_rel_prd_le & [ STEM < "absorbible" >, SYNSEM.LKEYS.KEYREL.PRED "_absorbible_a_rel" ]. absorciómetro_n1 := n_intr_count_le & [ STEM < "absorciómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_absorciómetro_n_rel" ] ]. absorción_n1 := n_trans_le & [ STEM < "absorción" >, SYNSEM.LKEYS.KEYREL.PRED "_absorción_n_rel" ]. absorptancia_n1 := n_intr_uncount_le & [ STEM < "absorptancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absorptancia_n_rel" ] ]. absortancia_n1 := n_intr_uncount_le & [ STEM < "absortancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absortancia_n_rel" ] ]. absorto_a1 := a_qual_trans*_estar_le & [ STEM < "absorto" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_absorto_a_rel" ] ]. abstemio_a1 := a_qual_intr_ser_le & [ STEM < "abstemio" >, SYNSEM.LKEYS.KEYREL.PRED "_abstemio_a_rel" ]. abstemio_n1 := n_intr_count_le & [ STEM < "abstemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abstemio_n_rel" ] ]. abstencionismo_n1 := n_intr_uncount_le & [ STEM < "abstencionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abstencionismo_n_rel" ] ]. abstencionista_n1 := n_intr_count_le & [ STEM < "abstencionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abstencionista_n_rel" ] ]. abstención_n1 := n_result_intr_ppcomp_le & [ STEM < "abstención" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_abstención_n_rel" ] ]. abstener_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "abstener" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abstener_v_rel" ] ]. abstener_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "abstener" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abstener_v_rel" ] ]. abstinente_a1 := a_qual_intr_ser_le & [ STEM < "abstinente" >, SYNSEM.LKEYS.KEYREL.PRED "_abstinente_a_rel" ]. abstraccionismo_n1 := n_intr_uncount_le & [ STEM < "abstraccionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abstraccionismo_n_rel" ] ]. abstracción_n1 := n_trans_le & [ STEM < "abstracción" >, SYNSEM.LKEYS.KEYREL.PRED "_abstracción_n_rel" ]. abstracto_a1 := a_qual_intr_scopal_le & [ STEM < "abstracto" >, SYNSEM.LKEYS.KEYREL.PRED "_abstracto_a_rel" ]. abstrusamente_x1 := av_i_spr_le & [ STEM < "abstrusamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abstrusamente_x_rel" ]. abstruso_a1 := a_qual_intr_scopal_le & [ STEM < "abstruso" >, SYNSEM.LKEYS.KEYREL.PRED "_abstruso_a_rel" ]. absurdamente_x1 := av_s_spr_le & [ STEM < "absurdamente" >, SYNSEM.LKEYS.KEYREL.PRED "_absurdamente_x_rel" ]. absurdidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "absurdidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absurdidad_n_rel" ] ]. absurdo_a1 := a_qual_intr_scopal_le & [ STEM < "absurdo" >, SYNSEM.LKEYS.KEYREL.PRED "_absurdo_a_rel" ]. absurdo_n1 := n_intr_uncount_le & [ STEM < "absurdo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_absurdo_n_rel" ] ]. abubilla_n1 := n_intr_count_le & [ STEM < "abubilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_abubilla_n_rel" ] ]. abuchear_v1 := v_trans_np_le & [ STEM < "abuchear" >, SYNSEM.LKEYS.KEYREL.PRED "_abuchear_v_rel" ]. abucheo_n1 := n_trans_le & [ STEM < "abucheo" >, SYNSEM.LKEYS.KEYREL.PRED "_abucheo_n_rel" ]. abuelo_n1 := n_ppcomp_count_le & [ STEM < "abuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abuelo_n_rel" ] ]. abulense_a1 := a_rel_prd_le & [ STEM < "abulense" >, SYNSEM.LKEYS.KEYREL.PRED "_abulense_a_rel" ]. abulense_n1 := n_intr_count_le & [ STEM < "abulense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_abulense_n_rel" ] ]. abulia_n1 := n_intr_uncount_le & [ STEM < "abulia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abulia_n_rel" ] ]. abultamiento_n1 := n_trans_le & [ STEM < "abultamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_abultamiento_n_rel" ]. abultar_v1 := v_intr_le & [ STEM < "abultar" >, SYNSEM.LKEYS.KEYREL.PRED "_abultar_v_rel" ]. abundancia_n1 := n_event-result_intr_le & [ STEM < "abundancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abundancia_n_rel" ] ]. abundante_a1 := a_qual_trans_ser_le & [ STEM < "abundante" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_abundante_a_rel" ] ]. abundantemente_x1 := av_i_spr_le & [ STEM < "abundantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_abundantemente_x_rel" ]. abundar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "abundar" >, SYNSEM.LKEYS.KEYREL.PRED "_abundar_v_rel" ]. abundoso_a1 := a_qual_intr_scopal_le & [ STEM < "abundoso" >, SYNSEM.LKEYS.KEYREL.PRED "_abundoso_a_rel" ]. aburguesamiento_n1 := n_result_intr_le & [ STEM < "aburguesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aburguesamiento_n_rel" ]. aburrimiento_n1 := n_intr_mass_le & [ STEM < "aburrimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aburrimiento_n_rel" ] ]. aburrir_v1 := v_intr_io*_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_aburrir_v_rel" ] ]. aburrir_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aburrir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_aburrir_v_rel" ] ]. aburrir_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aburrir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aburrir_v_rel" ] ] ]. aburrir_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL.PRED "_aburrir_v_rel" ]. aburrir_v5 := v_trans_np_caus_le & [ STEM < "aburrir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aburrir_v_rel" ] ]. abusar_v1 := v_intr_mrkd_np*_le & [ STEM < "abusar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_abusar_v_rel" ] ]. abusivamente_x1 := av_i_spr_le & [ STEM < "abusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_abusivamente_x_rel" ]. abusivo_a1 := a_qual_intr_scopal_le & [ STEM < "abusivo" >, SYNSEM.LKEYS.KEYREL.PRED "_abusivo_a_rel" ]. abuso_n1 := n_result_intr_ppcomp_le & [ STEM < "abuso" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_abuso_n_rel" ] ]. abyección_n1 := n_intr_uncount_le & [ STEM < "abyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_abyección_n_rel" ] ]. abyecto_a1 := a_qual_intr_ser_le & [ STEM < "abyecto" >, SYNSEM.LKEYS.KEYREL.PRED "_abyecto_a_rel" ]. abúlico_a1 := a_qual_intr_ser_le & [ STEM < "abúlico" >, SYNSEM.LKEYS.KEYREL.PRED "_abúlico_a_rel" ]. acabable_a1 := a_rel_prd_le & [ STEM < "acabable" >, SYNSEM.LKEYS.KEYREL.PRED "_acabable_a_rel" ]. acabado_n1 := n_intr_count_le & [ STEM < "acabado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acabado_n_rel" ] ]. acabado_n2 := n_trans_le & [ STEM < "acabado" >, SYNSEM.LKEYS.KEYREL.PRED "_acabado_n_rel" ]. acabador_a1 := a_qual_intr_ser_le & [ STEM < "acabador" >, SYNSEM.LKEYS.KEYREL.PRED "_acabador_a_rel" ]. acaballadero_n1 := n_intr_count_le & [ STEM < "acaballadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acaballadero_n_rel" ] ]. acabamiento_n1 := n_intr_uncount_le & [ STEM < "acabamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acabamiento_n_rel" ] ]. acabar_v1 := v_intr_mrkd_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v2 := v_pron_trans_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS.KEYREL.PRED "_acabar_v_rel" ]. acabar_v3 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v4 := v_trans_np_caus_perf_le & [ STEM < "acabar" >, SYNSEM.LKEYS.KEYREL.PRED "_acabar_v_rel" ]. acabar_v5 := v_intr_mrkd_vp_ssr_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acabar_v6 := v_intr_mrkd_vp_ssr_le & [ STEM < "acabar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_acabar_v_rel" ] ]. acacetina_n1 := n_intr_count_le & [ STEM < "acacetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acacetina_n_rel" ] ]. acacia_n1 := n_intr_count_le & [ STEM < "acacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acacia_n_rel" ] ]. acaciina_n1 := n_intr_count_le & [ STEM < "acaciina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acaciina_n_rel" ] ]. academia_n1 := n_intr_count_le & [ STEM < "academia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_academia_n_rel" ] ]. academicismo_n1 := n_intr_uncount_le & [ STEM < "academicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_academicismo_n_rel" ] ]. academicista_n1 := n_intr_count_le & [ STEM < "academicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_academicista_n_rel" ] ]. academismo_n1 := n_intr_uncount_le & [ STEM < "academismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_academismo_n_rel" ] ]. academista_n1 := n_intr_count_le & [ STEM < "academista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_academista_n_rel" ] ]. académico_a1 := a_rel_nonprd_intr_le & [ STEM < "académico" >, SYNSEM.LKEYS.KEYREL.PRED "_académico_a_rel" ]. académico_n1 := n_intr_count_le & [ STEM < "académico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_académico_n_rel" ] ]. acaecedero_a1 := a_rel_nonprd_intr_le & [ STEM < "acaecedero" >, SYNSEM.LKEYS.KEYREL.PRED "_acaecedero_a_rel" ]. acaecer_v1 := v_intr_io*_le & [ STEM < "acaecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acaecer_v_rel" ] ]. acaecer_v2 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "acaecer" >, SYNSEM.LKEYS.KEYREL.PRED "_acaecer_v_rel" ]. acaecimiento_n1 := n_intr_count_le & [ STEM < "acaecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acaecimiento_n_rel" ] ]. acalabazado_a1 := a_qual_intr_ser_le & [ STEM < "acalabazado" >, SYNSEM.LKEYS.KEYREL.PRED "_acalabazado_a_rel" ]. acallar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "acallar" >, SYNSEM.LKEYS.KEYREL.PRED "_acallar_v_rel" ]. acallar_v2 := v_trans_np_le & [ STEM < "acallar" >, SYNSEM.LKEYS.KEYREL.PRED "_acallar_v_rel" ]. acaloradamente_x1 := av_i_spr_le & [ STEM < "acaloradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acaloradamente_x_rel" ]. acaloramiento_n1 := n_event-result_intr_le & [ STEM < "acaloramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaloramiento_n_rel" ]. acalorar_v1 := v_intr_io*_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acalorar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acalorar_v3 := v_trans_np_caus_le & [ STEM < "acalorar" >, SYNSEM.LKEYS.KEYREL.PRED "_acalorar_v_rel" ]. acamellado_a1 := a_qual_intr_ser_le & [ STEM < "acamellado" >, SYNSEM.LKEYS.KEYREL.PRED "_acamellado_a_rel" ]. acampada_n1 := n_event-result_intr_le & [ STEM < "acampada" >, SYNSEM.LKEYS.KEYREL.PRED "_acampada_n_rel" ]. acampar_v1 := v_unacc_lcomp_loc*_le & [ STEM < "acampar" >, SYNSEM.LKEYS.KEYREL.PRED "_acampar_v_rel" ]. acanalador_n1 := n_intr_count_le & [ STEM < "acanalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acanalador_n_rel" ] ]. acanaladura_n1 := n_intr_count_le & [ STEM < "acanaladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acanaladura_n_rel" ] ]. acanalar_v1 := v_trans_np_le & [ STEM < "acanalar" >, SYNSEM.LKEYS.KEYREL.PRED "_acanalar_v_rel" ]. acanelado_a1 := a_qual_intr_ser_le & [ STEM < "acanelado" >, SYNSEM.LKEYS.KEYREL.PRED "_acanelado_a_rel" ]. acantilado_n1 := n_intr_count_le & [ STEM < "acantilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acantilado_n_rel" ] ]. acanto_n1 := n_intr_count_le & [ STEM < "acanto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acanto_n_rel" ] ]. acantocito_n1 := n_intr_count_le & [ STEM < "acantocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acantocito_n_rel" ] ]. acantocitosis_n1 := n_intr_uncount_le & [ STEM < "acantocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acantocitosis_n_rel" ] ]. acantonamiento_n1 := n_trans_le & [ STEM < "acantonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acantonamiento_n_rel" ]. acantonar_v1 := v_trans_np_lcomp_loc*_le & [ STEM < "acantonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acantonar_v_rel" ]. acantosis_n1 := n_intr_uncount_le & [ STEM < "acantosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acantosis_n_rel" ] ]. acaobado_a1 := a_qual_intr_ser_le & [ STEM < "acaobado" >, SYNSEM.LKEYS.KEYREL.PRED "_acaobado_a_rel" ]. acaparador_a1 := a_rel_nonprd_intr_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparador_a_rel" ]. acaparador_a2 := a_qual_intr_ser_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparador_a_rel" ]. acaparador_n1 := n_subj-nom_le & [ STEM < "acaparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acaparador_n_rel" ] ]. acaparamiento_n1 := n_trans_le & [ STEM < "acaparamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparamiento_n_rel" ]. acaparar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "acaparar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparar_v_rel" ]. acaparar_v2 := v_trans_np_le & [ STEM < "acaparar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaparar_v_rel" ]. acaracoladamente_x1 := av_i_spr_le & [ STEM < "acaracoladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acaracoladamente_x_rel" ]. acaracolado_a1 := a_qual_intr_ser_le & [ STEM < "acaracolado" >, SYNSEM.LKEYS.KEYREL.PRED "_acaracolado_a_rel" ]. acarbosa_n1 := n_intr_mass_le & [ STEM < "acarbosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acarbosa_n_rel" ] ]. acariciador_a1 := a_qual_intr_ser_le & [ STEM < "acariciador" >, SYNSEM.LKEYS.KEYREL.PRED "_acariciador_a_rel" ]. acariciante_a1 := a_qual_intr_ser_le & [ STEM < "acariciante" >, SYNSEM.LKEYS.KEYREL.PRED "_acariciante_a_rel" ]. acaricida_n1 := n_intr_mass-or-count_le & [ STEM < "acaricida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acaricida_n_rel" ] ]. acariocito_n1 := n_intr_count_le & [ STEM < "acariocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acariocito_n_rel" ] ]. acarminado_a1 := a_qual_intr_ser_le & [ STEM < "acarminado" >, SYNSEM.LKEYS.KEYREL.PRED "_acarminado_a_rel" ]. acarreador_a1 := a_qual_intr_ser_le & [ STEM < "acarreador" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreador_a_rel" ]. acarreamiento_n1 := n_trans_le & [ STEM < "acarreamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreamiento_n_rel" ]. acarrear_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acarrear_v_rel" ] ]. acarrear_v2 := v_ditrans_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acarrear_v_rel" ] ]. acarrear_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL.PRED "_acarrear_v_rel" ]. acarrear_v4 := v_subj_cp_prop_ditrans_cp_prop_le & [ STEM < "acarrear" >, SYNSEM.LKEYS.KEYREL.PRED "_acarrear_v_rel" ]. acarrear_v5 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acarerear" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acarrear_v_rel" ] ] ]. acarreo_n1 := n_trans_le & [ STEM < "acarreo" >, SYNSEM.LKEYS.KEYREL.PRED "_acarreo_n_rel" ]. acartonar_v1 := v_pron_intr_le & [ STEM < "acartonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT bpart_cnc_hum, PRED "_acartonar_v_rel" ] ]. acartonar_v2 := v_trans_np_le & [ STEM < "acartonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acartonar_v_rel" ]. acaso_x1 := av_s_cp_prop_le & [ STEM < "acaso" >, SYNSEM.LKEYS.KEYREL.PRED "_acaso_x_rel" ]. acatador_a1 := a_qual_intr_ser_le & [ STEM < "acatador" >, SYNSEM.LKEYS.KEYREL.PRED "_acatador_a_rel" ]. acataléctico_a1 := a_rel_nonprd_intr_le & [ STEM < "acataléctico" >, SYNSEM.LKEYS.KEYREL.PRED "_acataléctico_a_rel" ]. acatamiento_n1 := n_trans_le & [ STEM < "acatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acatamiento_n_rel" ]. acatar_v := v_trans_np_le & [ STEM < "acatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_sem, PRED "_acatar_v_rel" ] ]. acatarrar_v1 := v_pron_unacc_perf_le & [ STEM < "acatarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_acatarrar_v_rel" ]. acaudalar_v1 := v_trans_np_le & [ STEM < "acaudalar" >, SYNSEM.LKEYS.KEYREL.PRED "_acaudalar_v_rel" ]. acaudillamiento_n1 := n_trans_le & [ STEM < "acaudillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acaudillamiento_n_rel" ]. acaudillar_v1 := v_trans_np_le & [ STEM < "acaudillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum, PRED "_acaudillar_v_rel" ] ]. acaule_a1 := a_rel_nonprd_intr_le & [ STEM < "acaule" >, SYNSEM.LKEYS.KEYREL.PRED "_acaule_a_rel" ]. acceder_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "acceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_acceder_v_rel" ] ]. acceder_v2 := v_intr_mrkd_np_le & [ STEM < "acceder" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-loc, PRED "_acceder_v_rel" ] ] ]. acceder_v3 := v_unacc_lcomp_dir_le & [ STEM < "acceder" >, SYNSEM.LKEYS.KEYREL.PRED "_acceder_v_rel" ]. accelerograma_n1 := n_intr_count_le & [ STEM < "accelerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accelerograma_n_rel" ] ]. accesibilidad_n1 := n_ppcomp_mass_le & [ STEM < "accesibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accesibilidad_n_rel" ] ]. accesible_a1 := a_qual_intr_estar_le & [ STEM < "accesible" >, SYNSEM.LKEYS.KEYREL.PRED "_accesible_a_rel" ]. accesible_a2 := a_qual_trans_ser_le & [ STEM < "accesible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_accesible_a_rel" ] ]. accesión_n1 := n_result_intr_ppcomp_le & [ STEM < "accesión" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_accesión_n_rel" ] ]. accesión_n2 := n_intr_count_le & [ STEM < "accesión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accesión_n_rel" ] ]. acceso_n1 := n_result_intr_ppcomp_le & [ STEM < "acceso" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acceso_n_rel" ] ]. accesoria_n1 := n_intr_count_le & [ STEM < "accesoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_accesoria_n_rel" ] ]. accesorio_a1 := a_rel_nonprd_intr_le & [ STEM < "accesorio" >, SYNSEM.LKEYS.KEYREL.PRED "_accesorio_a_rel" ]. accesorio_n1 := n_intr_count_le & [ STEM < "accesorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_accesorio_n_rel" ] ]. accidental_a1 := a_rel_prd_le & [ STEM < "accidental" >, SYNSEM.LKEYS.KEYREL.PRED "_accidental_a_rel" ]. accidentalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "accidentalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accidentalidad_n_rel" ] ]. accidentalmente_x1 := av_i_spr_le & [ STEM < "accidentalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_accidentalmente_x_rel" ]. accidentar_v1 := v_pron_intr_le & [ STEM < "accidentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum, PRED "_accidentar_v_rel" ] ]. accidente_n1 := n_intr_count_le & [ STEM < "accidente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accidente_n_rel" ] ]. accionable_a1 := a_rel_prd_le & [ STEM < "accionable" >, SYNSEM.LKEYS.KEYREL.PRED "_accionable_a_rel" ]. accionamiento_n1 := n_trans_le & [ STEM < "accionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_accionamiento_n_rel" ]. accionar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "accionar" >, SYNSEM.LKEYS.KEYREL.PRED "_accionar_v_rel" ]. accionar_v2 := v_trans_np_le & [ STEM < "accionar" >, SYNSEM.LKEYS.KEYREL.PRED "_accionar_v_rel" ]. accionariado_n1 := n_intr_mass_le & [ STEM < "accionariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_accionariado_n_rel" ] ]. accionarial_a1 := a_rel_nonprd_intr_le & [ STEM < "accionarial" >, SYNSEM.LKEYS.KEYREL.PRED "_accionarial_a_rel" ]. accionarialmente_x1 := av_i_spr_le & [ STEM < "accionarialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_accionarialmente_x_rel" ]. accionario_a1 := a_qual_intr_ser_le & [ STEM < "accionario" >, SYNSEM.LKEYS.KEYREL.PRED "_accionario_a_rel" ]. accionista_n1 := n_intr_count_le & [ STEM < "accionista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_accionista_n_rel" ] ]. acción_n1 := n_intr_mass-or-count_le & [ STEM < "acción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_acción_n_rel" ] ]. accésit_n1 := n_intr_count_le & [ STEM < "accésit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_accésit_n_rel" ] ]. acebal_n1 := n_intr_count_le & [ STEM < "acebal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebal_n_rel" ] ]. acebo_n1 := n_intr_count_le & [ STEM < "acebo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebo_n_rel" ] ]. acebolladura_n1 := n_intr_count_le & [ STEM < "acebolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acebolladura_n_rel" ] ]. acebrado_a1 := a_rel_nonprd_intr_le & [ STEM < "acebrado" >, SYNSEM.LKEYS.KEYREL.PRED "_acebrado_a_rel" ]. acebuche_n1 := n_intr_count_le & [ STEM < "acebuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acebuche_n_rel" ] ]. acebuchina_n1 := n_intr_count_le & [ STEM < "acebuchina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acebuchina_n_rel" ] ]. acebutolol_n1 := n_intr_count_le & [ STEM < "acebutolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acebutolol_n_rel" ] ]. acechadera_n1 := n_intr_count_le & [ STEM < "acechadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acechadera_n_rel" ] ]. acechar_v1 := v_trans_np_le & [ STEM < "acechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum, PRED "_acechar_v_rel" ] ]. acecho_n1 := n_trans_le & [ STEM < "acecho" >, SYNSEM.LKEYS.KEYREL.PRED "_acecho_n_rel" ]. acedera_n1 := n_intr_count_le & [ STEM < "acedera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acedera_n_rel" ] ]. acedo_a1 := a_rel_nonprd_intr_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedo_a2 := a_qual_intr_scopal_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedo_a3 := a_qual_intr_ser_le & [ STEM < "acedo" >, SYNSEM.LKEYS.KEYREL.PRED "_acedo_a_rel" ]. acedía_n1 := n_intr_uncount_le & [ STEM < "acedía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acedía_n_rel" ] ]. acedía_n2 := n_intr_count_le & [ STEM < "acedía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acedía_n_rel" ] ]. acefalismo_n1 := n_intr_uncount_le & [ STEM < "acefalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acefalismo_n_rel" ] ]. acefalía_n1 := n_intr_uncount_le & [ STEM < "acefalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acefalía_n_rel" ] ]. aceite_de_oliva_n1 := n_intr_mass_le & [ STEM < "aceite_de_oliva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceite_de_oliva_n_rel" ] ]. aceite_n1 := n_intr_mass_le & [ STEM < "aceite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceite_n_rel" ] ]. aceitera_n1 := n_intr_count_le & [ STEM < "aceitera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceitera_n_rel" ] ]. aceitero_n1 := n_intr_count_le & [ STEM < "aceitero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceitero_n_rel" ] ]. aceitería_n1 := n_intr_count_le & [ STEM < "aceitería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aceitería_n_rel" ] ]. aceitoso_a1 := a_qual_intr_scopal_le & [ STEM < "aceitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aceitoso_a_rel" ]. aceituna_n1 := n_intr_count_le & [ STEM < "aceituna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceituna_n_rel" ] ]. aceitunado_a1 := a_qual_intr_ser_le & [ STEM < "aceitunado" >, SYNSEM.LKEYS.KEYREL.PRED "_aceitunado_a_rel" ]. aceitunero_n1 := n_intr_count_le & [ STEM < "aceitunero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceitunero_n_rel" ] ]. aceituno_a1 := a_qual_intr_ser_le & [ STEM < "aceituno" >, SYNSEM.LKEYS.KEYREL.PRED "_aceituno_a_rel" ]. aceleración_n1 := n_trans_le & [ STEM < "aceleración" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleración_n_rel" ]. acelerada_n1 := n_intr_count_le & [ STEM < "acelerada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acelerada_n_rel" ] ]. aceleradamente_x1 := av_i_spr_le & [ STEM < "aceleradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleradamente_x_rel" ]. acelerador_a1 := a_rel_nonprd_intr_le & [ STEM < "acelerador" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerador_a_rel" ]. acelerador_n1 := n_intr_count_le & [ STEM < "acelerador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerador_n_rel" ] ]. aceleramiento_n1 := n_trans_le & [ STEM < "aceleramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aceleramiento_n_rel" ]. acelerar_v1 := v_intr_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot, PRED "_acelerar_v_rel" ] ]. acelerar_v2 := v_pron_intr_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_pot_pro, PRED "_acelerar_v_rel" ] ]. acelerar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerar_v_rel" ]. acelerar_v4 := v_trans_np_le & [ STEM < "acelerar" >, SYNSEM.LKEYS.KEYREL.PRED "_acelerar_v_rel" ]. acelerograma_n1 := n_intr_count_le & [ STEM < "acelerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerograma_n_rel" ] ]. acelerómetro_n1 := n_intr_count_le & [ STEM < "acelerómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acelerómetro_n_rel" ] ]. acelerón_n1 := n_intr_count_le & [ STEM < "acelerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acelerón_n_rel" ] ]. acelga_n1 := n_intr_mass-or-count_le & [ STEM < "acelga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acelga_n_rel" ] ]. acelular_a1 := a_rel_nonprd_intr_le & [ STEM < "acelular" >, SYNSEM.LKEYS.KEYREL.PRED "_acelular_a_rel" ]. acenafteno_n1 := n_intr_count_le & [ STEM < "acenafteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acenafteno_n_rel" ] ]. acenaftenoquinona_n1 := n_intr_count_le & [ STEM < "acenaftenoquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acenaftenoquinona_n_rel" ] ]. acendramiento_n1 := n_trans_le & [ STEM < "acendramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acendramiento_n_rel" ]. acensado_a1 := a_qual_intr_estar_le & [ STEM < "acensado" >, SYNSEM.LKEYS.KEYREL.PRED "_acensado_a_rel" ]. acensar_v1 := v_trans_np_le & [ STEM < "acensar" >, SYNSEM.LKEYS.KEYREL.PRED "_acensar_v_rel" ]. acensuar_v1 := v_trans_np_le & [ STEM < "acensuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acensuar_v_rel" ]. acento_n1 := n_intr_count_le & [ STEM < "acento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_acento_n_rel" ] ]. acentuación_n1 := n_trans_le & [ STEM < "acentuación" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuación_n_rel" ]. acentuadamente_x1 := av_i_spr_le & [ STEM < "acentuadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuadamente_x_rel" ]. acentual_a1 := a_rel_nonprd_intr_le & [ STEM < "acentual" >, SYNSEM.LKEYS.KEYREL.PRED "_acentual_a_rel" ]. acentuar_v1 := v_pron_intr_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs, PRED "_acentuar_v_rel" ] ]. acentuar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuar_v_rel" ]. acentuar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL.PRED "_acentuar_v_rel" ]. acentuar_v4 := v_trans_cp_prop_fin_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acentuar_v_rel" ] ]. acentuar_v5 := v_trans_np_le & [ STEM < "acentuar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acentuar_v_rel" ] ]. acepción_n1 := n_intr_count_le & [ STEM < "acepción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acepción_n_rel" ] ]. acepilladora_n1 := n_intr_count_le & [ STEM < "acepilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acepilladora_n_rel" ] ]. aceptabilidad_n1 := n_ppcomp_mass_le & [ STEM < "aceptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aceptabilidad_n_rel" ] ]. aceptable_a1 := a_qual_intr_scopal_le & [ STEM < "aceptable" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptable_a_rel" ]. aceptablemente_x1 := av_i_spr_le & [ STEM < "aceptablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptablemente_x_rel" ]. aceptación_n1 := n_trans_le & [ STEM < "aceptación" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptación_n_rel" ]. aceptador_n1 := n_subj-nom_le & [ STEM < "aceptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceptador_n_rel" ] ]. aceptante_a1 := a_qual_intr_ser_le & [ STEM < "aceptante" >, SYNSEM.LKEYS.KEYREL.PRED "_aceptante_a_rel" ]. aceptante_n1 := n_intr_count_le & [ STEM < "aceptante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceptante_n_rel" ] ]. aceptar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "aceptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aceptar_v_rel" ] ]. aceptar_v2 := v_ditrans*_le & [ STEM < "aceptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aceptar_v_rel" ] ]. aceptor_n1 := n_intr_count_le & [ STEM < "aceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceptor_n_rel" ] ]. acequia_n1 := n_intr_count_le & [ STEM < "acequia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acequia_n_rel" ] ]. acera_n1 := n_intr_count_le & [ STEM < "acera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acera_n_rel" ] ]. aceración_n1 := n_trans_le & [ STEM < "aceración" >, SYNSEM.LKEYS.KEYREL.PRED "_aceración_n_rel" ]. acerbidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "acerbidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acerbidad_n_rel" ] ]. acerbo_a1 := a_qual_intr_scopal_le & [ STEM < "acerbo" >, SYNSEM.LKEYS.KEYREL.PRED "_acerbo_a_rel" ]. acerca_de_p_vmod := p_vmod_le & [ STEM < "acerca_de" >, SYNSEM.LKEYS.KEYREL.PRED _acerca_de_p_rel ]. acercamiento_n1 := n_trans_le & [ STEM < "acercamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acercamiento_n_rel" ]. acercar_v1 := v_ditrans_le & [ STEM < "acercar" >, SYNSEM.LKEYS.KEYREL.PRED "_acercar_v_rel" ]. acercar_v2 := v_pron_intr_io_le & [ STEM < "acercar" >, SYNSEM.LKEYS.KEYREL.PRED "_acercar_v_rel" ]. acercar_v3 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acercar_v_rel" ] ] ]. acercar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_acercar_v_rel" ] ]. acercar_v5 := v_trans_np_mrkd_np_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_acercar_v_rel" ] ]. acercar_v6 := v_trans_np_mrkd_np*_caus_le & [ STEM < "acercar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acercar_v_rel" ] ] ]. acerería_n1 := n_intr_count_le & [ STEM < "acerería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_acerería_n_rel" ] ]. acero_n1 := n_intr_mass_le & [ STEM < "acero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acero_n_rel" ] ]. acertadamente_x1 := av_i_spr_le & [ STEM < "acertadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acertadamente_x_rel" ]. acertante_n1 := n_intr_count_le & [ STEM < "acertante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acertante_n_rel" ] ]. acertar_v1 := v_intr_mrkd_vp_ssr_le & [ STEM < "acertar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_acertar_v_rel" ] ]. acertar_v2 := v_intr_mrkd_np_le & [ STEM < "acertar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acertar_v_rel" ] ]. acertar_v3 := v_trans_np*_le & [ STEM < "acertar" >, SYNSEM.LKEYS.KEYREL.PRED "_acertar_v_rel" ]. acertijo_n1 := n_trans_le & [ STEM < "acertijo" >, SYNSEM.LKEYS.KEYREL.PRED "_acertijo_n_rel" ]. aceruelo_n1 := n_intr_count_le & [ STEM < "aceruelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceruelo_n_rel" ] ]. acervo_n1 := n_intr_count_le & [ STEM < "acervo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acervo_n_rel" ] ]. acería_n1 := n_intr_count_le & [ STEM < "acería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acería_n_rel" ] ]. acetal_n1 := n_intr_mass_le & [ STEM < "acetal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetal_n_rel" ] ]. acetaldehidasa_n1 := n_intr_count_le & [ STEM < "acetaldehidasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetaldehidasa_n_rel" ] ]. acetaldehído_n1 := n_intr_count_le & [ STEM < "acetaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetaldehído_n_rel" ] ]. acetamida_n1 := n_intr_count_le & [ STEM < "acetamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetamida_n_rel" ] ]. acetamidina_n1 := n_intr_count_le & [ STEM < "acetamidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetamidina_n_rel" ] ]. acetanilida_n1 := n_intr_count_le & [ STEM < "acetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetanilida_n_rel" ] ]. acetato_n1 := n_intr_mass_le & [ STEM < "acetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetato_n_rel" ] ]. acetatopropionato_n1 := n_intr_count_le & [ STEM < "acetatopropionato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetatopropionato_n_rel" ] ]. acetificante_n1 := n_intr_count_le & [ STEM < "acetificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetificante_n_rel" ] ]. acetilacetona_n1 := n_intr_count_le & [ STEM < "acetilacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilacetona_n_rel" ] ]. acetilacetonato_n1 := n_intr_count_le & [ STEM < "acetilacetonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilacetonato_n_rel" ] ]. acetilación_n1 := n_intr_uncount_le & [ STEM < "acetilación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetilación_n_rel" ] ]. acetilador_n1 := n_intr_count_le & [ STEM < "acetilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetilador_n_rel" ] ]. acetilarsanilato_n1 := n_intr_count_le & [ STEM < "acetilarsanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilarsanilato_n_rel" ] ]. acetilcelulosa_n1 := n_intr_count_le & [ STEM < "acetilcelulosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcelulosa_n_rel" ] ]. acetilcolina_n1 := n_intr_count_le & [ STEM < "acetilcolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcolina_n_rel" ] ]. acetilcolinesterasa_n1 := n_intr_count_le & [ STEM < "acetilcolinesterasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilcolinesterasa_n_rel" ] ]. acetileno_n1 := n_intr_mass_le & [ STEM < "acetileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetileno_n_rel" ] ]. acetilfenilhidracina_n1 := n_intr_count_le & [ STEM < "acetilfenilhidracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilfenilhidracina_n_rel" ] ]. acetilisoeugenol_n1 := n_intr_count_le & [ STEM < "acetilisoeugenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilisoeugenol_n_rel" ] ]. acetilsalicilato_n1 := n_intr_count_le & [ STEM < "acetilsalicilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetilsalicilato_n_rel" ] ]. acetilsalicílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetilsalicílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetilsalicílico_a_rel" ]. acetilénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetilénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetilénico_a_rel" ]. acetina_n1 := n_intr_count_le & [ STEM < "acetina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetina_n_rel" ] ]. acetoacetanilida_n1 := n_intr_count_le & [ STEM < "acetoacetanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoacetanilida_n_rel" ] ]. acetoacetato_n1 := n_intr_count_le & [ STEM < "acetoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoacetato_n_rel" ] ]. acetoacético_a1 := a_rel_nonprd_intr_le & [ STEM < "acetoacético" >, SYNSEM.LKEYS.KEYREL.PRED "_acetoacético_a_rel" ]. acetoarsenito_n1 := n_intr_count_le & [ STEM < "acetoarsenito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoarsenito_n_rel" ] ]. acetobacteria_n1 := n_intr_count_le & [ STEM < "acetobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetobacteria_n_rel" ] ]. acetobenzoato_n1 := n_intr_count_le & [ STEM < "acetobenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobenzoato_n_rel" ] ]. acetobromal_n1 := n_intr_count_le & [ STEM < "acetobromal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobromal_n_rel" ] ]. acetobromuro_n1 := n_intr_count_le & [ STEM < "acetobromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobromuro_n_rel" ] ]. acetobutirato_n1 := n_intr_count_le & [ STEM < "acetobutirato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetobutirato_n_rel" ] ]. acetofenona_n1 := n_intr_count_le & [ STEM < "acetofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetofenona_n_rel" ] ]. acetolisis_n1 := n_intr_uncount_le & [ STEM < "acetolisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetolisis_n_rel" ] ]. acetolo_n1 := n_intr_count_le & [ STEM < "acetolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetolo_n_rel" ] ]. acetona_n1 := n_intr_mass_le & [ STEM < "acetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acetona_n_rel" ] ]. acetonaftona_n1 := n_intr_count_le & [ STEM < "acetonaftona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetonaftona_n_rel" ] ]. acetoxiestearato_n1 := n_intr_count_le & [ STEM < "acetoxiestearato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxiestearato_n_rel" ] ]. acetoxilo_n1 := n_intr_count_le & [ STEM < "acetoxilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxilo_n_rel" ] ]. acetoxima_n1 := n_intr_count_le & [ STEM < "acetoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetoxima_n_rel" ] ]. acetoína_n1 := n_intr_mass-or-count_le & [ STEM < "acetoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acetoína_n_rel" ] ]. acetrizoato_n1 := n_intr_count_le & [ STEM < "acetrizoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acetrizoato_n_rel" ] ]. acetábulo_n1 := n_intr_count_le & [ STEM < "acetábulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetábulo_n_rel" ] ]. acetómetro_n1 := n_intr_count_le & [ STEM < "acetómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acetómetro_n_rel" ] ]. acetónico_a1 := a_rel_nonprd_intr_le & [ STEM < "acetónico" >, SYNSEM.LKEYS.KEYREL.PRED "_acetónico_a_rel" ]. aceña_n1 := n_intr_count_le & [ STEM < "aceña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aceña_n_rel" ] ]. aceñero_n1 := n_intr_count_le & [ STEM < "aceñero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aceñero_n_rel" ] ]. achacable_a1 := a_rel_prd_le & [ STEM < "achacable" >, SYNSEM.LKEYS.KEYREL.PRED "_achacable_a_rel" ]. achacar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "achacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_achacar_v_rel" ] ]. achacar_v2 := v_ditrans*_le & [ STEM < "achacar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_achacar_v_rel" ] ]. achacar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "achacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_achacar_v_rel" ] ] ]. achacar_v4 := v_trans_np*_mrkd_cp_prop_inf_sc_le & [ STEM < "achacar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_achacar_v_rel" ] ] ]. achacoso_a1 := a_qual_intr_ser_le & [ STEM < "achacoso" >, SYNSEM.LKEYS.KEYREL.PRED "_achacoso_a_rel" ]. achampanado_a1 := a_rel_nonprd_intr_le & [ STEM < "achampanado" >, SYNSEM.LKEYS.KEYREL.PRED "_achampanado_a_rel" ]. achampañado_a1 := a_rel_nonprd_intr_le & [ STEM < "achampañado" >, SYNSEM.LKEYS.KEYREL.PRED "_achampañado_a_rel" ]. achaque_n1 := n_trans_le & [ STEM < "achaque" >, SYNSEM.LKEYS.KEYREL.PRED "_achaque_n_rel" ]. achaquiento_a1 := a_qual_intr_ser_le & [ STEM < "achaquiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achaquiento_a_rel" ]. achatamiento_n1 := n_trans_le & [ STEM < "achatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achatamiento_n_rel" ]. achicador_n1 := n_intr_count_le & [ STEM < "achicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_achicador_n_rel" ] ]. achicamiento_n1 := n_trans_le & [ STEM < "achicamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_achicamiento_n_rel" ]. achicar_v1 := v_intr_io*_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicar_v3 := v_trans_np_caus_le & [ STEM < "achicar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicar_v_rel" ]. achicharrante_a1 := a_rel_prd_le & [ STEM < "achicharrante" >, SYNSEM.LKEYS.KEYREL.PRED "_achicharrante_a_rel" ]. achicharrar_v := v_trans_np_caus_le & [ STEM < "achicharrar" >, SYNSEM.LKEYS.KEYREL.PRED "_achicharrar_v_rel" ]. achicoria_n1 := n_intr_mass_le & [ STEM < "achicoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_achicoria_n_rel" ] ]. achique_n1 := n_trans_le & [ STEM < "achique" >, SYNSEM.LKEYS.KEYREL.PRED "_achique_n_rel" ]. achiquillado_a1 := a_qual_intr_ser_le & [ STEM < "achiquillado" >, SYNSEM.LKEYS.KEYREL.PRED "_achiquillado_a_rel" ]. achocolatado_a1 := a_rel_prd_le & [ STEM < "achocolatado" >, SYNSEM.LKEYS.KEYREL.PRED "_achocolatado_a_rel" ]. aciagamente_x1 := av_i_spr_le & [ STEM < "aciagamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aciagamente_x_rel" ]. aciago_a1 := a_qual_intr_scopal_le & [ STEM < "aciago" >, SYNSEM.LKEYS.KEYREL.PRED "_aciago_a_rel" ]. aciano_n1 := n_intr_mass_le & [ STEM < "aciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aciano_n_rel" ] ]. acicaladamente_x1 := av_i_spr_le & [ STEM < "acicaladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acicaladamente_x_rel" ]. acicaladura_n1 := n_trans_le & [ STEM < "acicaladura" >, SYNSEM.LKEYS.KEYREL.PRED "_acicaladura_n_rel" ]. acicalamiento_n1 := n_trans_le & [ STEM < "acicalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acicalamiento_n_rel" ]. acicate_n1 := n_intr_count_le & [ STEM < "acicate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acicate_n_rel" ] ]. acicular_a1 := a_rel_nonprd_intr_le & [ STEM < "acicular" >, SYNSEM.LKEYS.KEYREL.PRED "_acicular_a_rel" ]. aciculifolio_a1 := a_rel_nonprd_intr_le & [ STEM < "aciculifolio" >, SYNSEM.LKEYS.KEYREL.PRED "_aciculifolio_a_rel" ]. acidez_n1 := n_ppcomp_mass_le & [ STEM < "acidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidez_n_rel" ] ]. acidificación_n1 := n_trans_le & [ STEM < "acidificación" >, SYNSEM.LKEYS.KEYREL.PRED "_acidificación_n_rel" ]. acidificante_a1 := a_rel_nonprd_intr_le & [ STEM < "acidificante" >, SYNSEM.LKEYS.KEYREL.PRED "_acidificante_a_rel" ]. acidificante_n1 := n_intr_count_le & [ STEM < "acidificante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidificante_n_rel" ] ]. acidificar_v1 := v_trans_np_caus_le & [ STEM < "acidificar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_acidificar_v_rel" ] ]. acidimetría_n1 := n_intr_count_le & [ STEM < "acidimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidimetría_n_rel" ] ]. acidogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acidogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acidogénico_a_rel" ]. acidosis_n1 := n_intr_uncount_le & [ STEM < "acidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidosis_n_rel" ] ]. acidulante_n1 := n_intr_count_le & [ STEM < "acidulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidulante_n_rel" ] ]. acidular_v1 := v_trans_np_caus_le & [ STEM < "acidular" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_mat, PRED "_acidular_v_rel" ] ]. acidímetro_n1 := n_intr_count_le & [ STEM < "acidímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acidímetro_n_rel" ] ]. acidófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "acidófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_acidófilo_a_rel" ]. acidófilo_n1 := n_intr_mass_le & [ STEM < "acidófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acidófilo_n_rel" ] ]. acidógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "acidógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_acidógeno_a_rel" ]. acidólisis_n1 := n_intr_uncount_le & [ STEM < "acidólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acidólisis_n_rel" ] ]. acidósico_a1 := a_rel_nonprd_intr_le & [ STEM < "acidósico" >, SYNSEM.LKEYS.KEYREL.PRED "_acidósico_a_rel" ]. acierto_n1 := n_trans_le & [ STEM < "acierto" >, SYNSEM.LKEYS.KEYREL.PRED "_acierto_n_rel" ]. acigosperma_n1 := n_intr_count_le & [ STEM < "acigosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acigosperma_n_rel" ] ]. acigoto_n1 := n_intr_uncount_pl_le & [ STEM < "acigoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acigoto_n_rel" ] ]. acilo_n1 := n_intr_count_le & [ STEM < "acilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acilo_n_rel" ] ]. aciloina_n1 := n_intr_mass-or-count_le & [ STEM < "aciloina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aciloina_n_rel" ] ]. acimut_n1 := n_intr_count_le & [ STEM < "acimut" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acimut_n_rel" ] ]. acimutal_a1 := a_rel_nonprd_intr_le & [ STEM < "acimutal" >, SYNSEM.LKEYS.KEYREL.PRED "_acimutal_a_rel" ]. acinesia_n1 := n_intr_count_le & [ STEM < "acinesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acinesia_n_rel" ] ]. acinesis_n1 := n_intr_uncount_le & [ STEM < "acinesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acinesis_n_rel" ] ]. acineto_n1 := n_intr_count_le & [ STEM < "acineto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acineto_n_rel" ] ]. acirate_n1 := n_intr_count_le & [ STEM < "acirate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acirate_n_rel" ] ]. aclamación_n1 := n_trans_le & [ STEM < "aclamación" >, SYNSEM.LKEYS.KEYREL.PRED "_aclamación_n_rel" ]. aclamar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "aclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aclamar_v_rel" ] ]. aclamar_v3 := v_trans_np_le & [ STEM < "aclamar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aclamar_v_rel" ] ]. aclaración_n1 := n_intr_mass_le & [ STEM < "aclaración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_aclaración_n_rel" ] ]. aclarado_n1 := n_trans_le & [ STEM < "aclarado" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarado_n_rel" ]. aclaradora_n1 := n_intr_count_le & [ STEM < "aclaradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aclaradora_n_rel" ] ]. aclarar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aclarar_v_rel" ] ]. aclarar_v2 := v_ditrans_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_aclarar_v_rel" ] ]. aclarar_v3 := v_trans_np_caus_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarar_v_rel" ]. aclarar_v4 := v_unacc_perf_le & [ STEM < "aclarar" >, SYNSEM.LKEYS.KEYREL.PRED "_aclarar_v_rel" ]. aclaratorio_a1 := a_qual_intr_scopal_le & [ STEM < "aclaratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aclaratorio_a_rel" ]. aclareo_n1 := n_trans_le & [ STEM < "aclareo" >, SYNSEM.LKEYS.KEYREL.PRED "_aclareo_n_rel" ]. aclavelado_a1 := a_rel_nonprd_intr_le & [ STEM < "aclavelado" >, SYNSEM.LKEYS.KEYREL.PRED "_aclavelado_a_rel" ]. aclimatable_a1 := a_rel_nonprd_intr_le & [ STEM < "aclimatable" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatable_a_rel" ]. aclimatación_n1 := n_trans_le & [ STEM < "aclimatación" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatación_n_rel" ]. aclimatización_n1 := n_trans_le & [ STEM < "aclimatización" >, SYNSEM.LKEYS.KEYREL.PRED "_aclimatización_n_rel" ]. acnodo_n1 := n_intr_count_le & [ STEM < "acnodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acnodo_n_rel" ] ]. acné_n1 := n_intr_mass_le & [ STEM < "acné" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acné_n_rel" ] ]. acobardamiento_n1 := n_trans_le & [ STEM < "acobardamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acobardamiento_n_rel" ]. acobardar_v1 := v_intr_io*_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acobardar_v_rel" ] ]. acobardar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL.PRED "_acobardar_v_rel" ]. acobardar_v3 := v_trans_np_caus_le & [ STEM < "acobardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acobardar_v_rel" ] ]. acobrado_a1 := a_qual_intr_ser_le & [ STEM < "acobrado" >, SYNSEM.LKEYS.KEYREL.PRED "_acobrado_a_rel" ]. acochar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acochar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acochar_v_rel" ] ] ]. acochar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "acochar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_acochar_v_rel" ] ] ]. acodadera_n1 := n_intr_count_le & [ STEM < "acodadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acodadera_n_rel" ] ]. acodadura_n1 := n_intr_count_le & [ STEM < "acodadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acodadura_n_rel" ] ]. acodamiento_n1 := n_intr_count_le & [ STEM < "acodamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acodamiento_n_rel" ] ]. acodar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "acodar" >, SYNSEM.LKEYS.KEYREL.PRED "_acodar_v_rel" ]. acodar_v2 := v_trans_np_le & [ STEM < "acodar" >, SYNSEM.LKEYS.KEYREL.PRED "_acodar_v_rel" ]. acodo_n1 := n_intr_count_le & [ STEM < "acodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acodo_n_rel" ] ]. acogedor_a1 := a_qual_intr_scopal_le & [ STEM < "acogedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acogedor_a_rel" ]. acoger_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acoger_v_rel" ] ] ]. acoger_v2 := v_pron_intr_mrkd_np_le & [ STEM < "acoger" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acoger_v_rel" ] ] ]. acoger_v3 := v_trans_np_le & [ STEM < "acoger" >, SYNSEM.LKEYS.KEYREL.PRED "_acoger_v_rel" ]. acogimiento_n1 := n_intr_mass_le & [ STEM < "acogimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acogimiento_n_rel" ] ]. acojonar_v1 := v_intr_io*_le & [ STEM < "acojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acojonar_v_rel" ]. acojonar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_acojonar_v_rel" ]. acolchar_v1 := v_trans_np_le & [ STEM < "acolchar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_pot, ARG2.SORT cnc, PRED "_acolchar_v_rel" ] ]. acollador_n1 := n_intr_count_le & [ STEM < "acollador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acollador_n_rel" ] ]. acolladura_n1 := n_intr_uncount_le & [ STEM < "acolladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acolladura_n_rel" ] ]. acometedor_a1 := a_qual_intr_ser_le & [ STEM < "acometedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acometedor_a_rel" ]. acometida_n1 := n_intr_count_le & [ STEM < "acometida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acometida_n_rel" ] ]. acometimiento_n1 := n_trans_le & [ STEM < "acometimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acometimiento_n_rel" ]. acometividad_n1 := n_intr_mass_le & [ STEM < "acometividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acometividad_n_rel" ] ]. acomodable_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodable" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodable_a_rel" ]. acomodación_n1 := n_trans_le & [ STEM < "acomodación" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodación_n_rel" ]. acomodadizo_a1 := a_qual_intr_ser_le & [ STEM < "acomodadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodadizo_a_rel" ]. acomodador_n1 := n_intr_count_le & [ STEM < "acomodador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acomodador_n_rel" ] ]. acomodamiento_n1 := n_intr_uncount_le & [ STEM < "acomodamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acomodamiento_n_rel" ] ]. acomodar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acomodar_v_rel" ] ] ]. acomodar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "acomodar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acomodar_v_rel" ] ]. acomodaticio_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodaticio" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodaticio_a_rel" ]. acomodativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acomodativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodativo_a_rel" ]. acomodo_n1 := n_trans_le & [ STEM < "acomodo" >, SYNSEM.LKEYS.KEYREL.PRED "_acomodo_n_rel" ]. acompasar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "acompasar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc, PRED "_acompasar_v_rel" ] ] ]. acompaãâ±ar_v1 := v_trans_np_lcomp_dir*_le & [ STEM < "acompañar" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañar_v_rel" ]. acompaãâ±ar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "acompañar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acompañar_v_rel" ] ] ]. acompañador_a1 := a_qual_intr_ser_le & [ STEM < "acompañador" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañador_a_rel" ]. acompañamiento_n1 := n_trans_le & [ STEM < "acompañamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañamiento_n_rel" ]. acompañante_a1 := a_qual_intr_ser_le & [ STEM < "acompañante" >, SYNSEM.LKEYS.KEYREL.PRED "_acompañante_a_rel" ]. acompañante_n1 := n_intr_count_le & [ STEM < "acompañante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acompañante_n_rel" ] ]. acomplejar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "acomplejar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acomplejar_v_rel" ] ]. acomplejar_v2 := v_trans_np_le & [ STEM < "acomplejar" >, SYNSEM.LKEYS.KEYREL.PRED "_acomplejar_v_rel" ]. acondicionador_n1 := n_intr_count_le & [ STEM < "acondicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acondicionador_n_rel" ] ]. acondicionamiento_n1 := n_trans_le & [ STEM < "acondicionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acondicionamiento_n_rel" ]. acondicionar_v1 := v_trans_np_le & [ STEM < "acondicionar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_acondicionar_v_rel" ] ]. acongojar_v1 := v_intr_io*_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acongojar_v_rel" ] ]. acongojar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "acongojar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acongojar_v_rel" ] ] ]. acongojar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "acongojar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_acongojar_v_rel" ] ] ]. acongojar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL.PRED "_acongojar_v_rel" ]. acongojar_v5 := v_trans_np_caus_le & [ STEM < "acongojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acongojar_v_rel" ] ]. aconitato_n1 := n_intr_count_le & [ STEM < "aconitato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aconitato_n_rel" ] ]. aconitina_n1 := n_intr_count_le & [ STEM < "aconitina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aconitina_n_rel" ] ]. aconsejable_a1 := a_qual_intr_scopal_le & [ STEM < "aconsejable" >, SYNSEM.LKEYS.KEYREL.PRED "_aconsejable_a_rel" ]. aconsejador_a1 := a_qual_intr_ser_le & [ STEM < "aconsejador" >, SYNSEM.LKEYS.KEYREL.PRED "_aconsejador_a_rel" ]. aconsejar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "aconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aconsejar_v_rel" ] ]. aconsejar_v2 := v_ditrans*_le & [ STEM < "aconsejar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aconsejar_v_rel" ] ]. acontecer_v1 := v_intr_io*_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_acontecer_v_rel" ] ]. acontecer_v2 := v_subj_cp_prop_fin_intr_io*_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL.PRED "_acontecer_v_rel" ]. acontecer_v3 := v_unacc_lcomp_loc_le & [ STEM < "acontecer" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_acontecer_v_rel" ] ]. acontecimiento_n1 := n_intr_count_le & [ STEM < "acontecimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acontecimiento_n_rel" ] ]. acopiamiento_n1 := n_trans_le & [ STEM < "acopiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acopiamiento_n_rel" ]. acoplador_n1 := n_intr_count_le & [ STEM < "acoplador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acoplador_n_rel" ] ]. acopladura_n1 := n_trans_le & [ STEM < "acopladura" >, SYNSEM.LKEYS.KEYREL.PRED "_acopladura_n_rel" ]. acoplamiento_n1 := n_trans_le & [ STEM < "acoplamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acoplamiento_n_rel" ]. acople_n1 := n_trans_le & [ STEM < "acople" >, SYNSEM.LKEYS.KEYREL.PRED "_acople_n_rel" ]. acoplo_n1 := n_result_intr_ppcomp_le & [ STEM < "acoplo" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_acoplo_n_rel" ] ]. acoquinamiento_n1 := n_trans_le & [ STEM < "acoquinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinamiento_n_rel" ]. acoquinar_v1 := v_intr_io*_le & [ STEM < "acoquinar" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinar_v_rel" ]. acoquinar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acoquinar" >, SYNSEM.LKEYS.KEYREL.PRED "_acoquinar_v_rel" ]. acorazado_n1 := n_intr_count_le & [ STEM < "acorazado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_acorazado_n_rel" ] ]. acorazamiento_n1 := n_trans_le & [ STEM < "acorazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazamiento_n_rel" ]. acorazar_v1 := v_trans_np_caus_le & [ STEM < "acorazar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazar_v_rel" ]. acorazonado_a1 := a_qual_intr_ser_le & [ STEM < "acorazonado" >, SYNSEM.LKEYS.KEYREL.PRED "_acorazonado_a_rel" ]. acorchamiento_n1 := n_event-result_intr_le & [ STEM < "acorchamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorchamiento_n_rel" ]. acordable_a1 := a_rel_prd_le & [ STEM < "acordable" >, SYNSEM.LKEYS.KEYREL.PRED "_acordable_a_rel" ]. acordar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "acordar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ] ]. acordar_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "acordar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ] ]. acordar_v3 := v_trans_cp_prop_fin_mrkd_np_sym_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acordar_v_rel" ] ]. acordar_v4 := v_trans_cp_semi_ques_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL.PRED "_acordar_v_rel" ]. acordar_v5 := v_trans_np_le & [ STEM < "acordar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_acordar_v_rel" ] ]. acorde_a1 := a_qual_trans*_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_a3 := a_qual_cp_ques_ser_le & [ STEM < "acorde" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_acorde_a_rel" ] ]. acorde_n1 := n_intr_count_le & [ STEM < "acorde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acorde_n_rel" ] ]. acordeonista_n1 := n_intr_count_le & [ STEM < "acordeonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acordeonista_n_rel" ] ]. acordeón_n1 := n_intr_count_le & [ STEM < "acordeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acordeón_n_rel" ] ]. acordonamiento_n1 := n_trans_le & [ STEM < "acordonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acordonamiento_n_rel" ]. acordonar_v1 := v_trans_np_le & [ STEM < "acordonar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_loc, PRED "_acordonar_v_rel" ] ]. acorralamiento_n1 := n_trans_le & [ STEM < "acorralamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralamiento_n_rel" ]. acorralar_v1 := v_intr_io*_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralar_v_rel" ]. acorralar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL.PRED "_acorralar_v_rel" ]. acorralar_v3 := v_trans_np_le & [ STEM < "acorralar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_acorralar_v_rel" ] ]. acortable_a1 := a_qual_intr_scopal_le & [ STEM < "acortable" >, SYNSEM.LKEYS.KEYREL.PRED "_acortable_a_rel" ]. acortamiento_n1 := n_trans_le & [ STEM < "acortamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acortamiento_n_rel" ]. acortar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "acortar" >, SYNSEM.LKEYS.KEYREL.PRED "_acortar_v_rel" ]. acortar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "acortar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_acortar_v_rel" ] ] ]. acortar_v3 := v_trans_np_le & [ STEM < "acortar" >, SYNSEM.LKEYS.KEYREL.PRED "_acortar_v_rel" ]. acosador_n1 := n_subj-nom_le & [ STEM < "acosador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acosador_n_rel" ] ]. acosamiento_n1 := n_trans_le & [ STEM < "acosamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acosamiento_n_rel" ]. acosar_v1 := v_intr_io*_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_acosar_v_rel" ] ]. acosar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL.PRED "_acosar_v_rel" ]. acosar_v3 := v_trans_np_le & [ STEM < "acosar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_hum_soc, PRED "_acosar_v_rel" ] ]. acoso_n1 := n_trans_le & [ STEM < "acoso" >, SYNSEM.LKEYS.KEYREL.PRED "_acoso_n_rel" ]. acostar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acostar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acostar_v_rel" ] ] ]. acostar_v2 := v_pron_intr_mrkd_np_sym_le & [ STEM < "acostar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_acostar_v_rel" ] ]. acostar_v3 := v_trans_np_caus_le & [ STEM < "acostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acostar_v_rel" ] ]. acostumbrar_v := v_ssr_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_acostumbrar_v_rel" ]. acostumbrar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acostumbrar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acostumbrar_v3 := v_trans_np_mrkd_np_caus_le & [ STEM < "acostumbrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_acostumbrar_v_rel" ] ] ]. acotación_n1 := n_trans_le & [ STEM < "acotación" >, SYNSEM.LKEYS.KEYREL.PRED "_acotación_n_rel" ]. acotamiento_n1 := n_trans_le & [ STEM < "acotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acotamiento_n_rel" ]. acotar_v1 := v_trans_np_le & [ STEM < "acotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, ARG2.SORT abs_cnc_loc, PRED "_acotar_v_rel" ] ]. acotillo_n1 := n_intr_count_le & [ STEM < "acotillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acotillo_n_rel" ] ]. acracia_n1 := n_intr_uncount_le & [ STEM < "acracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acracia_n_rel" ] ]. acre_a1 := a_qual_intr_scopal_le & [ STEM < "acre" >, SYNSEM.LKEYS.KEYREL.PRED "_acre_a_rel" ]. acre_n1 := n_pseudo-part_le & [ STEM < "acre" >, SYNSEM.LKEYS.KEYREL.PRED "_acre_n_rel" ]. acrecencia_n1 := n_intr_uncount_le & [ STEM < "acrecencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrecencia_n_rel" ] ]. acrecentador_a1 := a_rel_nonprd_intr_le & [ STEM < "acrecentador" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentador_a_rel" ]. acrecentamiento_n1 := n_trans_le & [ STEM < "acrecentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentamiento_n_rel" ]. acrecentar_v1 := v_trans_np_caus_le & [ STEM < "acrecentar" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecentar_v_rel" ]. acrecimiento_n1 := n_trans_le & [ STEM < "acrecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acrecimiento_n_rel" ]. acreción_n1 := n_trans_le & [ STEM < "acreción" >, SYNSEM.LKEYS.KEYREL.PRED "_acreción_n_rel" ]. acreditación_n1 := n_trans_le & [ STEM < "acreditación" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditación_n_rel" ]. acreditado_n1 := n_intr_count_le & [ STEM < "acreditado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acreditado_n_rel" ] ]. acreditamiento_n1 := n_trans_le & [ STEM < "acreditamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditamiento_n_rel" ]. acreditante_a1 := a_rel_nonprd_intr_le & [ STEM < "acreditante" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditante_a_rel" ]. acreditar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditar_v_rel" ]. acreditar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL.PRED "_acreditar_v_rel" ]. acreditar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acreditar_v_rel" ] ]. acreditar_v4 := v_trans_np_le & [ STEM < "acreditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_acreditar_v_rel" ] ]. acreditativo_a1 := a_qual_trans_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreditativo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreditativo_a3 := a_qual_cp_ques_ser_le & [ STEM < "acreditativo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_acreditativo_a_rel" ] ]. acreedor_a1 := a_qual_intr_ser_le & [ STEM < "acreedor" >, SYNSEM.LKEYS.KEYREL.PRED "_acreedor_a_rel" ]. acreedor_n1 := n_subj-nom_le & [ STEM < "acreedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acreedor_n_rel" ] ]. acribadura_n1 := n_trans_le & [ STEM < "acribadura" >, SYNSEM.LKEYS.KEYREL.PRED "_acribadura_n_rel" ]. acridina_n1 := n_intr_count_le & [ STEM < "acridina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acridina_n_rel" ] ]. acridona_n1 := n_intr_count_le & [ STEM < "acridona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acridona_n_rel" ] ]. acriflavina_n1 := n_intr_count_le & [ STEM < "acriflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acriflavina_n_rel" ] ]. acrilamida_n1 := n_intr_count_le & [ STEM < "acrilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilamida_n_rel" ] ]. acrilato_n1 := n_intr_mass_le & [ STEM < "acrilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilato_n_rel" ] ]. acrilonitrilo_n1 := n_intr_count_le & [ STEM < "acrilonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrilonitrilo_n_rel" ] ]. acrilonitrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrilonitrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrilonitrílico_a_rel" ]. acrimonia_n1 := n_intr_mass_le & [ STEM < "acrimonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrimonia_n_rel" ] ]. acrimonioso_a1 := a_rel_nonprd_intr_le & [ STEM < "acrimonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_acrimonioso_a_rel" ]. acrisoladamente_x1 := av_i_spr_le & [ STEM < "acrisoladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acrisoladamente_x_rel" ]. acristalamiento_n1 := n_trans_le & [ STEM < "acristalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acristalamiento_n_rel" ]. acristalar_v := v_trans_np_le & [ STEM < "acristalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc_loc, PRED "_acristalar_v_rel" ] ]. acritud_n1 := n_intr_mass_le & [ STEM < "acritud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acritud_n_rel" ] ]. acrobacia_n1 := n_intr_mass-or-count_le & [ STEM < "acrobacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrobacia_n_rel" ] ]. acrobatismo_n1 := n_intr_uncount_le & [ STEM < "acrobatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrobatismo_n_rel" ] ]. acroblasto_n1 := n_intr_count_le & [ STEM < "acroblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acroblasto_n_rel" ] ]. acrobáticamente_x1 := av_i_spr_le & [ STEM < "acrobáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acrobáticamente_x_rel" ]. acrobático_a1 := a_qual_intr_ser_le & [ STEM < "acrobático" >, SYNSEM.LKEYS.KEYREL.PRED "_acrobático_a_rel" ]. acrocéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "acrocéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_acrocéfalo_a_rel" ]. acrocéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrocéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrocéntrico_a_rel" ]. acrodextrina_n1 := n_intr_count_le & [ STEM < "acrodextrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acrodextrina_n_rel" ] ]. acrodinia_n1 := n_intr_count_le & [ STEM < "acrodinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrodinia_n_rel" ] ]. acrogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrogénico_a_rel" ]. acroita_n1 := n_intr_mass-or-count_le & [ STEM < "acroita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acroita_n_rel" ] ]. acroleína_n1 := n_intr_mass-or-count_le & [ STEM < "acroleína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_acroleína_n_rel" ] ]. acromatismo_n1 := n_intr_uncount_le & [ STEM < "acromatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromatismo_n_rel" ] ]. acromatopsia_n1 := n_intr_uncount_le & [ STEM < "acromatopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromatopsia_n_rel" ] ]. acromegalia_n1 := n_intr_uncount_le & [ STEM < "acromegalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acromegalia_n_rel" ] ]. acromia_n1 := n_intr_count_le & [ STEM < "acromia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_acromia_n_rel" ] ]. acromial_a1 := a_rel_nonprd_intr_le & [ STEM < "acromial" >, SYNSEM.LKEYS.KEYREL.PRED "_acromial_a_rel" ]. acromioclavicular_a1 := a_rel_nonprd_intr_le & [ STEM < "acromioclavicular" >, SYNSEM.LKEYS.KEYREL.PRED "_acromioclavicular_a_rel" ]. acromiocoraideo_a1 := a_rel_nonprd_intr_le & [ STEM < "acromiocoraideo" >, SYNSEM.LKEYS.KEYREL.PRED "_acromiocoraideo_a_rel" ]. acromion_n1 := n_ppcomp_count_le & [ STEM < "acromion" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_acromion_n_rel" ] ]. acromiotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "acromiotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_acromiotorácico_a_rel" ]. acromáticamente_x1 := av_i_spr_le & [ STEM < "acromáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acromáticamente_x_rel" ]. acromático_a1 := a_qual_intr_ser_le & [ STEM < "acromático" >, SYNSEM.LKEYS.KEYREL.PRED "_acromático_a_rel" ]. acronimia_n1 := n_intr_uncount_le & [ STEM < "acronimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acronimia_n_rel" ] ]. acrosina_n1 := n_intr_count_le & [ STEM < "acrosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrosina_n_rel" ] ]. acrosoma_n1 := n_intr_count_le & [ STEM < "acrosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrosoma_n_rel" ] ]. acrotera_n1 := n_intr_count_le & [ STEM < "acrotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acrotera_n_rel" ] ]. acroteria_n1 := n_intr_count_le & [ STEM < "acroteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acroteria_n_rel" ] ]. acrático_a1 := a_qual_intr_ser_le & [ STEM < "acrático" >, SYNSEM.LKEYS.KEYREL.PRED "_acrático_a_rel" ]. acrílico_a1 := a_rel_nonprd_intr_le & [ STEM < "acrílico" >, SYNSEM.LKEYS.KEYREL.PRED "_acrílico_a_rel" ]. acróbata_n1 := n_intr_count_le & [ STEM < "acróbata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acróbata_n_rel" ] ]. acrónimo_n1 := n_intr_count_le & [ STEM < "acrónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acrónimo_n_rel" ] ]. acróstico_n1 := n_intr_count_le & [ STEM < "acróstico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acróstico_n_rel" ] ]. acta_n1 := n_intr_count_le & [ STEM < "acta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_acta_n_rel" ] ]. actina_n1 := n_intr_count_le & [ STEM < "actina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actina_n_rel" ] ]. actinia_n1 := n_intr_count_le & [ STEM < "actinia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_actinia_n_rel" ] ]. actinio_n1 := n_intr_mass_le & [ STEM < "actinio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinio_n_rel" ] ]. actinismo_n1 := n_intr_uncount_le & [ STEM < "actinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinismo_n_rel" ] ]. actinobiología_n1 := n_intr_uncount_le & [ STEM < "actinobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinobiología_n_rel" ] ]. actinoblasto_n1 := n_intr_uncount_le & [ STEM < "actinoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinoblasto_n_rel" ] ]. actinolita_n1 := n_intr_count_le & [ STEM < "actinolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinolita_n_rel" ] ]. actinología_n1 := n_intr_uncount_le & [ STEM < "actinología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinología_n_rel" ] ]. actinomiceto_n1 := n_intr_count_le & [ STEM < "actinomiceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinomiceto_n_rel" ] ]. actinomicina_n1 := n_intr_count_le & [ STEM < "actinomicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinomicina_n_rel" ] ]. actinoterapia_n1 := n_intr_uncount_le & [ STEM < "actinoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actinoterapia_n_rel" ] ]. actinómetro_n1 := n_intr_count_le & [ STEM < "actinómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actinómetro_n_rel" ] ]. actinón_n1 := n_intr_count_le & [ STEM < "actinón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actinón_n_rel" ] ]. actitud_n1 := n_intr_count_le & [ STEM < "actitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actitud_n_rel" ] ]. activable_a1 := a_rel_prd_le & [ STEM < "activable" >, SYNSEM.LKEYS.KEYREL.PRED "_activable_a_rel" ]. activación_n1 := n_trans_le & [ STEM < "activación" >, SYNSEM.LKEYS.KEYREL.PRED "_activación_n_rel" ]. activador_a1 := a_rel_nonprd_intr_le & [ STEM < "activador" >, SYNSEM.LKEYS.KEYREL.PRED "_activador_a_rel" ]. activador_n1 := n_intr_count_le & [ STEM < "activador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_activador_n_rel" ] ]. activamente_x1 := av_i_spr_le & [ STEM < "activamente" >, SYNSEM.LKEYS.KEYREL.PRED "_activamente_x_rel" ]. activante_n1 := n_intr_count_le & [ STEM < "activante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activante_n_rel" ] ]. activar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL.PRED "_activar_v_rel" ]. activar_v2 := v_trans_cp_prop_fin_sub_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_activar_v_rel" ] ]. activar_v3 := v_trans_np_caus_le & [ STEM < "activar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum, ARG2.SORT abs_cnc_pot_pro, PRED "_activar_v_rel" ] ]. actividad_n1 := n_intr_count_le & [ STEM < "actividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actividad_n_rel" ] ]. activismo_n1 := n_intr_uncount_le & [ STEM < "activismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activismo_n_rel" ] ]. activista_n1 := n_intr_count_le & [ STEM < "activista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_activista_n_rel" ] ]. activo_a1 := a_qual_intr_scopal_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL.PRED "_activo_a_rel" ]. activo_a2 := a_qual_intr_ser_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL.PRED "_activo_a_rel" ]. activo_n1 := n_intr_count_le & [ STEM < "activo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_activo_n_rel" ] ]. acto_n1 := n_intr_count_le & [ STEM < "acto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acto_n_rel" ] ]. actomiosina_n1 := n_intr_count_le & [ STEM < "actomiosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actomiosina_n_rel" ] ]. actor_n1 := n_intr_count_le & [ STEM < "actor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actor_n_rel" ] ]. actora_n1 := n_intr_count_le & [ STEM < "actora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actora_n_rel" ] ]. actriz_n1 := n_intr_count_le & [ STEM < "actriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actriz_n_rel" ] ]. actuación_n1 := n_result_intr_le & [ STEM < "actuación" >, SYNSEM.LKEYS.KEYREL.PRED "_actuación_n_rel" ]. actuador_n1 := n_intr_count_le & [ STEM < "actuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_actuador_n_rel" ] ]. actual_a1 := a_adv_event_le & [ STEM < "actual" >, SYNSEM.LKEYS.KEYREL.PRED "_actual_a_rel" ]. actual_a2 := a_qual_intr_scopal_le & [ STEM < "actual" >, SYNSEM.LKEYS.KEYREL.PRED "_actual_a_rel" ]. actualidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "actualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actualidad_n_rel" ] ]. actualismo_n1 := n_intr_uncount_le & [ STEM < "actualismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_actualismo_n_rel" ] ]. actualizable_a1 := a_rel_prd_le & [ STEM < "actualizable" >, SYNSEM.LKEYS.KEYREL.PRED "_actualizable_a_rel" ]. actualización_n1 := n_trans_le & [ STEM < "actualización" >, SYNSEM.LKEYS.KEYREL.PRED "_actualización_n_rel" ]. actualizador_a1 := a_qual_intr_ser_le & [ STEM < "actualizador" >, SYNSEM.LKEYS.KEYREL.PRED "_actualizador_a_rel" ]. actualizar_v1 := v_trans_np_le & [ STEM < "actualizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro, ARG2.SORT abs_cnc_pro, PRED "_actualizar_v_rel" ] ]. actualmente_x1 := av_i_le & [ STEM < "actualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_actualmente_x_rel" ]. actuante_n1 := n_intr_count_le & [ STEM < "actuante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuante_n_rel" ] ]. actuar_v1 := v_intr_mrkd_np*_le & [ STEM < "actuar" >, SYNSEM.LKEYS [ --COMPKEY como_or_de_p_sel_rel, KEYREL.PRED "_actuar_v_rel" ] ]. actuar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "actuar" >, SYNSEM.LKEYS [ --COMPKEY como_or_de_p_sel_rel, KEYREL.PRED "_actuar_v_rel" ] ]. actuariado_n1 := n_intr_count_le & [ STEM < "actuariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuariado_n_rel" ] ]. actuarial_a1 := a_rel_nonprd_intr_le & [ STEM < "actuarial" >, SYNSEM.LKEYS.KEYREL.PRED "_actuarial_a_rel" ]. actuario_n1 := n_intr_count_le & [ STEM < "actuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_actuario_n_rel" ] ]. actínico_a1 := a_rel_nonprd_intr_le & [ STEM < "actínico" >, SYNSEM.LKEYS.KEYREL.PRED "_actínico_a_rel" ]. actínido_n1 := n_intr_count_le & [ STEM < "actínido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_actínido_n_rel" ] ]. acuafortista_n1 := n_intr_count_le & [ STEM < "acuafortista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acuafortista_n_rel" ] ]. acuahotel_n1 := n_intr_count_le & [ STEM < "acuahotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_acuahotel_n_rel" ] ]. acuaplano_n1 := n_intr_count_le & [ STEM < "acuaplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuaplano_n_rel" ] ]. acuarela_n1 := n_intr_count_le & [ STEM < "acuarela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuarela_n_rel" ] ]. acuarelista_n1 := n_intr_count_le & [ STEM < "acuarelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acuarelista_n_rel" ] ]. acuario_n1 := n_intr_count_le & [ STEM < "acuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuario_n_rel" ] ]. acuartelamiento_n1 := n_trans_le & [ STEM < "acuartelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuartelamiento_n_rel" ]. acuartelar_v1 := v_trans_np_caus_le & [ STEM < "acuartelar" >, SYNSEM.LKEYS.KEYREL.PRED "_acuartelar_v_rel" ]. acuatinta_n1 := n_intr_count_le & [ STEM < "acuatinta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuatinta_n_rel" ] ]. acucharado_a1 := a_qual_intr_ser_le & [ STEM < "acucharado" >, SYNSEM.LKEYS.KEYREL.PRED "_acucharado_a_rel" ]. acuchillar_v1 := v_trans_np_le & [ STEM < "acuchillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acuchillar_v_rel" ] ]. acucia_n1 := n_intr_uncount_le & [ STEM < "acucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acucia_n_rel" ] ]. acuciador_a1 := a_qual_intr_ser_le & [ STEM < "acuciador" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciador_a_rel" ]. acuciamiento_n1 := n_trans_le & [ STEM < "acuciamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciamiento_n_rel" ]. acuciante_a1 := a_qual_intr_scopal_le & [ STEM < "acuciante" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciante_a_rel" ]. acuciantemente_x1 := av_i_spr_le & [ STEM < "acuciantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_acuciantemente_x_rel" ]. acucioso_a1 := a_qual_intr_ser_le & [ STEM < "acucioso" >, SYNSEM.LKEYS.KEYREL.PRED "_acucioso_a_rel" ]. acuclillar_v1 := v_pron_intr_le & [ STEM < "acuclillar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_acuclillar_v_rel" ] ]. acudir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acudir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acudir_v_rel" ] ] ]. acudir_v2 := v_intr_mrkd_np_le & [ STEM < "acudir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_acudir_v_rel" ] ] ]. acueducto_n1 := n_intr_count_le & [ STEM < "acueducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_acueducto_n_rel" ] ]. acuerdo_de_paz_n1 := n_intr_count_le & [ STEM < "acuerdo_de_paz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuerdo_de_paz_n_rel" ] ]. acuerdo_n1 := n_trans_le & [ STEM < "acuerdo" >, SYNSEM.LKEYS.KEYREL.PRED "_acuerdo_n_rel" ]. acuicultura_n1 := n_intr_uncount_le & [ STEM < "acuicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuicultura_n_rel" ] ]. acuidad_n1 := n_intr_mass_le & [ STEM < "acuidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuidad_n_rel" ] ]. acullá_n1 := av_deic_place_le & [ STEM < "acullá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_acullá_x_rel" ]. acumetría_n1 := n_intr_count_le & [ STEM < "acumetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acumetría_n_rel" ] ]. acuminado_a1 := a_qual_intr_ser_le & [ STEM < "acuminado" >, SYNSEM.LKEYS.KEYREL.PRED "_acuminado_a_rel" ]. acumulable_a1 := a_qual_intr_scopal_le & [ STEM < "acumulable" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulable_a_rel" ]. acumulación_n1 := n_trans_le & [ STEM < "acumulación" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulación_n_rel" ]. acumulador_a1 := a_qual_intr_ser_le & [ STEM < "acumulador" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulador_a_rel" ]. acumulador_n1 := n_intr_count_le & [ STEM < "acumulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_acumulador_n_rel" ] ]. acumulamiento_n1 := n_trans_le & [ STEM < "acumulamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulamiento_n_rel" ]. acumular_v1 := v_trans_np_caus_le & [ STEM < "acumular" >, SYNSEM.LKEYS.KEYREL.PRED "_acumular_v_rel" ]. acumulativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acumulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acumulativo_a_rel" ]. acunar_v1 := v_trans_np_le & [ STEM < "acunar" >, SYNSEM.LKEYS.KEYREL.PRED "_acunar_v_rel" ]. acuosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "acuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acuosidad_n_rel" ] ]. acuoso_a1 := a_rel_nonprd_intr_le & [ STEM < "acuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_acuoso_a_rel" ]. acupuntor_n1 := n_intr_count_le & [ STEM < "acupuntor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acupuntor_n_rel" ] ]. acupuntura_n1 := n_intr_uncount_le & [ STEM < "acupuntura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acupuntura_n_rel" ] ]. acupunturista_n1 := n_intr_count_le & [ STEM < "acupunturista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acupunturista_n_rel" ] ]. acurrucar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "acurrucar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_acurrucar_v_rel" ] ] ]. acurrucar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "acurrucar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_acurrucar_v_rel" ] ] ]. acusación_n1 := n_trans_le & [ STEM < "acusación" >, SYNSEM.LKEYS.KEYREL.PRED "_acusación_n_rel" ]. acusadamente_x1 := av_i_spr_le & [ STEM < "acusadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acusadamente_x_rel" ]. acusado_n1 := n_intr_count_le & [ STEM < "acusado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acusado_n_rel" ] ]. acusador_a1 := a_qual_intr_ser_le & [ STEM < "acusador" >, SYNSEM.LKEYS.KEYREL.PRED "_acusador_a_rel" ]. acusador_n1 := n_subj-nom_le & [ STEM < "acusador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acusador_n_rel" ] ]. acusar_v1 := v_trans_np_le & [ STEM < "acusar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_acusar_v_rel" ] ]. acusar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "acusar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_acusar_v_rel" ] ] ]. acusativo_a1 := a_rel_nonprd_intr_le & [ STEM < "acusativo" >, SYNSEM.LKEYS.KEYREL.PRED "_acusativo_a_rel" ]. acusativo_n1 := n_intr_uncount_le & [ STEM < "acusativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acusativo_n_rel" ] ]. acusatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "acusatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_acusatorio_a_rel" ]. acuse_n1 := n_trans_le & [ STEM < "acuse" >, SYNSEM.LKEYS.KEYREL.PRED "_acuse_n_rel" ]. acutángulo_a1 := a_rel_nonprd_intr_le & [ STEM < "acutángulo" >, SYNSEM.LKEYS.KEYREL.PRED "_acutángulo_a_rel" ]. acuáticamente_x1 := av_i_spr_le & [ STEM < "acuáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acuáticamente_x_rel" ]. acuático_a1 := a_rel_nonprd_intr_le & [ STEM < "acuático" >, SYNSEM.LKEYS.KEYREL.PRED "_acuático_a_rel" ]. acuátil_a1 := a_rel_nonprd_intr_le & [ STEM < "acuátil" >, SYNSEM.LKEYS.KEYREL.PRED "_acuátil_a_rel" ]. acuãâ±ar_v1 := v_trans_np_le & [ STEM < "acuñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_acuñar_v_rel" ] ]. acuífero_a1 := a_rel_nonprd_intr_le & [ STEM < "acuífero" >, SYNSEM.LKEYS.KEYREL.PRED "_acuífero_a_rel" ]. acuífero_n1 := n_intr_count_le & [ STEM < "acuífero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_acuífero_n_rel" ] ]. acuñación_n1 := n_trans_le & [ STEM < "acuñación" >, SYNSEM.LKEYS.KEYREL.PRED "_acuñación_n_rel" ]. acuñamiento_n1 := n_trans_le & [ STEM < "acuñamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_acuñamiento_n_rel" ]. acá_n1 := av_deic_place_le & [ STEM < "acá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_acá_x_rel" ]. acéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "acéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_acéfalo_a_rel" ]. acérrimamente_x1 := av_i_spr_le & [ STEM < "acérrimamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acérrimamente_x_rel" ]. acérrimo_a1 := a_qual_intr_scopal_le & [ STEM < "acérrimo" >, SYNSEM.LKEYS.KEYREL.PRED "_acérrimo_a_rel" ]. acético_a1 := a_rel_nonprd_intr_le & [ STEM < "acético" >, SYNSEM.LKEYS.KEYREL.PRED "_acético_a_rel" ]. acíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "acíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_acíclico_a_rel" ]. acídico_a1 := a_rel_nonprd_intr_le & [ STEM < "acídico" >, SYNSEM.LKEYS.KEYREL.PRED "_acídico_a_rel" ]. acídulamente_x1 := av_i_spr_le & [ STEM < "acídulamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acídulamente_x_rel" ]. acídulo_a1 := a_qual_intr_scopal_le & [ STEM < "acídulo" >, SYNSEM.LKEYS.KEYREL.PRED "_acídulo_a_rel" ]. acólito_n1 := n_intr_count_le & [ STEM < "acólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_acólito_n_rel" ] ]. acónito_n1 := n_intr_count_le & [ STEM < "acónito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_acónito_n_rel" ] ]. acúfeno_n1 := n_intr_uncount_pl_le & [ STEM < "acúfeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acúfeno_n_rel" ] ]. acústica_n1 := n_intr_mass_le & [ STEM < "acústica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_acústica_n_rel" ] ]. acústicamente_x1 := av_i_spr_le & [ STEM < "acústicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústicamente_x_rel" ]. acústico-fonéticamente_x1 := av_i_spr_le & [ STEM < "acústico-fonéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-fonéticamente_x_rel" ]. acústico-fonético_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico-fonético" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-fonético_a_rel" ]. acústico-ópticamente_x1 := av_i_spr_le & [ STEM < "acústico-ópticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-ópticamente_x_rel" ]. acústico-óptico_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico-óptico" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico-óptico_a_rel" ]. acústico_a1 := a_rel_nonprd_intr_le & [ STEM < "acústico" >, SYNSEM.LKEYS.KEYREL.PRED "_acústico_a_rel" ]. ad_hoc_x1 := av_i_le & [ STEM < "ad_hoc" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_hoc_x_rel" ]. ad_interim_x1 := av_i_le & [ STEM < "ad_interim" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_interim_x_rel" ]. ad_lib_x1 := av_i_le & [ STEM < "ad_lib" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_lib_x_rel" ]. ad_libitum_x1 := av_i_le & [ STEM < "ad_libitum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_libitum_x_rel" ]. ad_litem_x1 := av_i_le & [ STEM < "ad_litem" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_litem_x_rel" ]. ad_litteram_x1 := av_i_le & [ STEM < "ad_litteram" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_litteram_x_rel" ]. ad_quadrantum_x1 := av_i_le & [ STEM < "ad_quadrantum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_quadrantum_x_rel" ]. ad_triangulum_x1 := av_i_le & [ STEM < "ad_triangulum" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_triangulum_x_rel" ]. ad_valorem_x1 := av_i_le & [ STEM < "ad_valorem" >, SYNSEM.LKEYS.KEYREL.PRED "_ad_valorem_x_rel" ]. adagio_n1 := n_intr_count_le & [ STEM < "adagio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adagio_n_rel" ] ]. adalid_n1 := n_intr_count_le & [ STEM < "adalid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adalid_n_rel" ] ]. adamantino_a1 := a_rel_nonprd_intr_le & [ STEM < "adamantino" >, SYNSEM.LKEYS.KEYREL.PRED "_adamantino_a_rel" ]. adamantinoma_n1 := n_intr_count_le & [ STEM < "adamantinoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adamantinoma_n_rel" ] ]. adamantoblastoma_n1 := n_intr_count_le & [ STEM < "adamantoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adamantoblastoma_n_rel" ] ]. adaptabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "adaptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adaptabilidad_n_rel" ] ]. adaptable_a1 := a_qual_trans*_ser_le & [ STEM < "adaptable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptable_a_rel" ] ]. adaptación_n1 := n_trans_le & [ STEM < "adaptación" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptación_n_rel" ]. adaptador_n1 := n_intr_count_le & [ STEM < "adaptador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_adaptador_n_rel" ] ]. adaptar_v1 := v_ditrans_le & [ STEM < "adaptar" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptar_v_rel" ]. adaptar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptar_v_rel" ] ]. adaptar_v3 := v_pron_intr_mrkd_np*_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_cnc_pro_soc, ARG2.SORT abs_loc, PRED "_adaptar_v_rel" ] ] ]. adaptar_v4 := v_trans_np_mrkd_np*_le & [ STEM < "adaptar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adaptar_v_rel" ] ] ]. adaptativo_a1 := a_qual_trans*_ser_le & [ STEM < "adaptativo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adaptativo_a_rel" ] ]. adaptativo_a2 := a_rel_nonprd_intr_le & [ STEM < "adaptativo" >, SYNSEM.LKEYS.KEYREL.PRED "_adaptativo_a_rel" ]. adaptómetro_n1 := n_intr_count_le & [ STEM < "adaptómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adaptómetro_n_rel" ] ]. adarga_n1 := n_intr_count_le & [ STEM < "adarga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adarga_n_rel" ] ]. adarve_n1 := n_intr_count_le & [ STEM < "adarve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adarve_n_rel" ] ]. adecentamiento_n1 := n_trans_le & [ STEM < "adecentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adecentamiento_n_rel" ]. adecentar_v1 := v_trans_np_caus_le & [ STEM < "adecentar" >, SYNSEM.LKEYS.KEYREL.PRED "_adecentar_v_rel" ]. adecuación_n1 := n_trans_le & [ STEM < "adecuación" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuación_n_rel" ]. adecuadamente_x1 := av_i_spr_le & [ STEM < "adecuadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuadamente_x_rel" ]. adecuar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "adecuar" >, SYNSEM.LKEYS.KEYREL.PRED "_adecuar_v_rel" ]. adecuar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "adecuar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adecuar_v_rel" ] ] ]. adecuar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "adecuar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_cnc_loc_pro, PRED "_adecuar_v_rel" ] ] ]. adelantamiento_n1 := n_trans_le & [ STEM < "adelantamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adelantamiento_n_rel" ]. adelantar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ]. adelantar_v2 := v_ditrans*_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ]. adelantar_v3 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ] ]. adelantar_v4 := v_intr_mrkd_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adelantar_v_rel" ] ] ]. adelantar_v5 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adelantar_v_rel" ] ] ]. adelantar_v6 := v_pron_intr_mrkd_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adelantar_v_rel" ] ] ]. adelantar_v7 := v_subj_cp_prop_trans_np_le & [ STEM < "adelantar" >, SYNSEM.LKEYS.KEYREL.PRED "_adelantar_v_rel" ]. adelante_x1 := av_i_psthd_le & [ STEM < "adelante" >, SYNSEM.LKEYS.KEYREL.PRED "_adelante_x_rel" ]. adelanto_n1 := n_trans_le & [ STEM < "adelanto" >, SYNSEM.LKEYS.KEYREL.PRED "_adelanto_n_rel" ]. adelfa_n1 := n_intr_count_le & [ STEM < "adelfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_adelfa_n_rel" ] ]. adelfal_n1 := n_intr_count_le & [ STEM < "adelfal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_adelfal_n_rel" ] ]. adelgazador_a1 := a_rel_nonprd_intr_le & [ STEM < "adelgazador" >, SYNSEM.LKEYS.KEYREL.PRED "_adelgazador_a_rel" ]. adelgazamiento_n1 := n_event-result_intr_le & [ STEM < "adelgazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adelgazamiento_n_rel" ]. ademán_n1 := n_intr_count_le & [ STEM < "ademán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ademán_n_rel" ] ]. además_de_eso_x1 := av_i_le & [ STEM < "además_de_eso" >, SYNSEM.LKEYS.KEYREL.PRED "_además_de_eso_x_rel" ]. además_de_p_vmod := p_vmod_le & [ STEM < "además_de" >, SYNSEM.LKEYS.KEYREL.PRED _además_de_p_rel ]. además_x1 := av_i_le & [ STEM < "además" >, SYNSEM.LKEYS.KEYREL.PRED "_además_x_rel" ]. adenda_n1 := n_intr_count_le & [ STEM < "adenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_adenda_n_rel" ] ]. adenina_n1 := n_intr_count_le & [ STEM < "adenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenina_n_rel" ] ]. adenitis_n1 := n_intr_uncount_le & [ STEM < "adenitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenitis_n_rel" ] ]. adenoameloblastoma_n1 := n_intr_count_le & [ STEM < "adenoameloblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adenoameloblastoma_n_rel" ] ]. adenocromo_n1 := n_intr_count_le & [ STEM < "adenocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenocromo_n_rel" ] ]. adenogalia_n1 := n_intr_uncount_le & [ STEM < "adenogalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenogalia_n_rel" ] ]. adenograma_n1 := n_intr_count_le & [ STEM < "adenograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenograma_n_rel" ] ]. adenohipófisis_n1 := n_intr_uncount_le & [ STEM < "adenohipófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenohipófisis_n_rel" ] ]. adenoidectomía_n1 := n_intr_count_le & [ STEM < "adenoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenoidectomía_n_rel" ] ]. adenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "adenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_adenoideo_a_rel" ]. adenoides_n1 := n_intr_count_le & [ STEM < "adenoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adenoides_n_rel" ] ]. adenoiditis_n1 := n_intr_uncount_le & [ STEM < "adenoiditis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenoiditis_n_rel" ] ]. adenopatía_n1 := n_intr_uncount_pl_le & [ STEM < "adenopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenopatía_n_rel" ] ]. adenosina_n1 := n_intr_count_le & [ STEM < "adenosina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenosina_n_rel" ] ]. adenosindifosfato_n1 := n_intr_mass_le & [ STEM < "adenosindifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosindifosfato_n_rel" ] ]. adenosinmonofosfato_n1 := n_intr_uncount_le & [ STEM < "adenosinmonofosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adenosinmonofosfato_n_rel" ] ]. adenosintrifosfatasa_n1 := n_intr_count_le & [ STEM < "adenosintrifosfatasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosintrifosfatasa_n_rel" ] ]. adenosintrifosfato_n1 := n_intr_mass_le & [ STEM < "adenosintrifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adenosintrifosfato_n_rel" ] ]. adentrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "adentrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_adentrar_v_rel" ] ] ]. adentrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "adentrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_adentrar_v_rel" ] ] ]. adentro_x1 := av_i_spr_le & [ STEM < "adentro" >, SYNSEM.LKEYS.KEYREL.PRED "_adentro_x_rel" ]. adepto_n1 := n_intr_count_le & [ STEM < "adepto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adepto_n_rel" ] ]. aderezamiento_n1 := n_trans_le & [ STEM < "aderezamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aderezamiento_n_rel" ]. aderezar_v1 := v_trans_np_le & [ STEM < "aderezar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc, PRED "_aderezar_v_rel" ] ]. aderezo_n1 := n_trans_le & [ STEM < "aderezo" >, SYNSEM.LKEYS.KEYREL.PRED "_aderezo_n_rel" ]. adeudo_n1 := n_intr_count_le & [ STEM < "adeudo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adeudo_n_rel" ] ]. adherencia_n1 := n_intr_mass-or-count_le & [ STEM < "adherencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adherencia_n_rel" ] ]. adherente_a1 := a_qual_intr_scopal_le & [ STEM < "adherente" >, SYNSEM.LKEYS.KEYREL.PRED "_adherente_a_rel" ]. adherir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adherir_v3 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adherir_v4 := v_trans_np*_mrkd_np*_le & [ STEM < "adherir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adherir_v_rel" ] ]. adhesividad_n1 := n_ppcomp_mass_le & [ STEM < "adhesividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adhesividad_n_rel" ] ]. adhesivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adhesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adhesivo_a_rel" ]. adhesivo_n1 := n_intr_count_le & [ STEM < "adhesivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adhesivo_n_rel" ] ]. adhesión_n1 := n_trans_le & [ STEM < "adhesión" >, SYNSEM.LKEYS.KEYREL.PRED "_adhesión_n_rel" ]. adiabático_a1 := a_rel_nonprd_intr_le & [ STEM < "adiabático" >, SYNSEM.LKEYS.KEYREL.PRED "_adiabático_a_rel" ]. adiamantado_a1 := a_qual_intr_ser_le & [ STEM < "adiamantado" >, SYNSEM.LKEYS.KEYREL.PRED "_adiamantado_a_rel" ]. adiamiento_n1 := n_trans_le & [ STEM < "adiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adiamiento_n_rel" ]. adicción_n1 := n_ppde_ppcomp_count_le & [ STEM < "adicción" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adicción_n_rel" ] ]. adicionable_a1 := a_rel_nonprd_trans_le & [ STEM < "adicionable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicionable_a_rel" ] ]. adicionador_a1 := a_rel_nonprd_intr_le & [ STEM < "adicionador" >, SYNSEM.LKEYS.KEYREL.PRED "_adicionador_a_rel" ]. adicionador_n1 := n_intr_count_le & [ STEM < "adicionador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adicionador_n_rel" ] ]. adicional_a1 := a_qual_trans*_ser_le & [ STEM < "adicional" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicional_a_rel" ] ]. adicionalmente_x1 := av_i_spr_le & [ STEM < "adicionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adicionalmente_x_rel" ]. adición_n1 := n_result_intr_ppcomp_le & [ STEM < "adición" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_adición_n_rel" ] ]. adictivo_a1 := a_qual_intr_scopal_le & [ STEM < "adictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adictivo_a_rel" ]. adicto_a1 := a_qual_trans*_ser_le & [ STEM < "adicto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adicto_a_rel" ] ]. adicto_n1 := n_intr_count_le & [ STEM < "adicto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adicto_n_rel" ] ]. adiestrador_n1 := n_subj-nom_le & [ STEM < "adiestrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adiestrador_n_rel" ] ]. adiestramiento_n1 := n_trans_le & [ STEM < "adiestramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adiestramiento_n_rel" ]. adiestrar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_adiestrar_v_rel" ] ] ]. adiestrar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_adiestrar_v_rel" ] ] ]. adiestrar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "adiestrar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT ani_hum, PRED "_adiestrar_v_rel" ] ] ]. adimensional_a1 := a_rel_prd_le & [ STEM < "adimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_adimensional_a_rel" ]. adimensionalmente_x1 := av_i_spr_le & [ STEM < "adimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adimensionalmente_x_rel" ]. adintelado_a1 := a_rel_nonprd_intr_le & [ STEM < "adintelado" >, SYNSEM.LKEYS.KEYREL.PRED "_adintelado_a_rel" ]. adipato_n1 := n_intr_count_le & [ STEM < "adipato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adipato_n_rel" ] ]. adipoblasto_n1 := n_intr_count_le & [ STEM < "adipoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adipoblasto_n_rel" ] ]. adipocira_n1 := n_intr_count_le & [ STEM < "adipocira" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adipocira_n_rel" ] ]. adipocito_n1 := n_intr_count_le & [ STEM < "adipocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adipocito_n_rel" ] ]. adiponitrilo_n1 := n_intr_count_le & [ STEM < "adiponitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adiponitrilo_n_rel" ] ]. adiposo_a1 := a_rel_nonprd_intr_le & [ STEM < "adiposo" >, SYNSEM.LKEYS.KEYREL.PRED "_adiposo_a_rel" ]. adir_v1 := v_trans_np_le & [ STEM < "adir" >, SYNSEM.LKEYS.KEYREL.PRED "_adir_v_rel" ]. aditamento_n1 := n_intr_count_le & [ STEM < "aditamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aditamento_n_rel" ] ]. aditividad_n1 := n_intr_mass_le & [ STEM < "aditividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aditividad_n_rel" ] ]. aditivo_a1 := a_rel_prd_le & [ STEM < "aditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aditivo_a_rel" ]. aditivo_n1 := n_intr_count_le & [ STEM < "aditivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aditivo_n_rel" ] ]. adivinable_a1 := a_qual_intr_scopal_le & [ STEM < "adivinable" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinable_a_rel" ]. adivinación_n1 := n_trans_le & [ STEM < "adivinación" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinación_n_rel" ]. adivinador_n1 := n_subj-nom_le & [ STEM < "adivinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adivinador_n_rel" ] ]. adivinamiento_n1 := n_trans_le & [ STEM < "adivinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinamiento_n_rel" ]. adivinar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "adivinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adivinar_v_rel" ] ]. adivinar_v2 := v_intr_mrkd_np_le & [ STEM < "adivinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adivinar_v_rel" ] ]. adivinar_v3 := v_trans_cp_prop_fin_le & [ STEM < "adivinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adivinar_v_rel" ] ]. adivinar_v4 := v_trans_np_le & [ STEM < "adivinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adivinar_v_rel" ] ]. adivinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "adivinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_adivinatorio_a_rel" ]. adivino_n1 := n_intr_count_le & [ STEM < "adivino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adivino_n_rel" ] ]. adiós_n1 := n_intr_count_le & [ STEM < "adiós" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adiós_n_rel" ] ]. adjetivación_n1 := n_trans_le & [ STEM < "adjetivación" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivación_n_rel" ]. adjetival_a1 := a_rel_nonprd_intr_le & [ STEM < "adjetival" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetival_a_rel" ]. adjetivización_n1 := n_trans_le & [ STEM < "adjetivización" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivización_n_rel" ]. adjetivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adjetivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adjetivo_a_rel" ]. adjetivo_n1 := n_intr_count_le & [ STEM < "adjetivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjetivo_n_rel" ] ]. adjudicable_a1 := a_qual_trans*_ser_le & [ STEM < "adjudicable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adjudicable_a_rel" ] ]. adjudicación_n1 := n_trans_le & [ STEM < "adjudicación" >, SYNSEM.LKEYS.KEYREL.PRED "_adjudicación_n_rel" ]. adjudicador_n1 := n_subj-nom_le & [ STEM < "adjudicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adjudicador_n_rel" ] ]. adjudicar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adjudicar_v_rel" ] ]. adjudicar_v2 := v_ditrans*_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc_hum_pro, PRED "_adjudicar_v_rel" ] ]. adjudicar_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS.KEYREL.PRED "_adjudicar_v_rel" ]. adjudicar_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adjudicar_v_rel" ] ] ]. adjudicar_v5 := v_trans_np_mrkd_np_le & [ STEM < "adjudicar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_adjudicar_v_rel" ] ] ]. adjudicatario_n1 := n_intr_count_le & [ STEM < "adjudicatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adjudicatario_n_rel" ] ]. adjunción_n1 := n_intr_uncount_le & [ STEM < "adjunción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjunción_n_rel" ] ]. adjunto_a1 := a_qual_trans*_ser_le & [ STEM < "adjunto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adjunto_a_rel" ] ]. adjuración_n1 := n_intr_uncount_le & [ STEM < "adjuración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adjuración_n_rel" ] ]. adjurar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "adjurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adjurar_v_rel" ] ]. adjurar_v2 := v_ditrans*_le & [ STEM < "adjurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adjurar_v_rel" ] ]. adjurar_v3 := v_intr_mrkd_np_le & [ STEM < "adjurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_adjurar_v_rel" ] ]. admantoblastoma_n1 := n_intr_count_le & [ STEM < "admantoblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_admantoblastoma_n_rel" ] ]. administrable_a1 := a_rel_prd_le & [ STEM < "administrable" >, SYNSEM.LKEYS.KEYREL.PRED "_administrable_a_rel" ]. administración_n1 := n_intr_count_le & [ STEM < "administración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_administración_n_rel" ] ]. administrador_a1 := a_rel_nonprd_intr_le & [ STEM < "administrador" >, SYNSEM.LKEYS.KEYREL.PRED "_administrador_a_rel" ]. administrador_n1 := n_subj-nom_le & [ STEM < "administrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_administrador_n_rel" ] ]. administrar_v1 := v_ditrans*_le & [ STEM < "administrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc, PRED "_administrar_v_rel" ] ]. administrativamente_x1 := av_i_spr_le & [ STEM < "administrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_administrativamente_x_rel" ]. administrativo_a1 := a_rel_nonprd_intr_le & [ STEM < "administrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_administrativo_a_rel" ]. administrativo_n1 := n_intr_count_le & [ STEM < "administrativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_administrativo_n_rel" ] ]. adminículo_n1 := n_intr_count_le & [ STEM < "adminículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adminículo_n_rel" ] ]. admirable_a1 := a_qual_intr_scopal_le & [ STEM < "admirable" >, SYNSEM.LKEYS.KEYREL.PRED "_admirable_a_rel" ]. admirablemente_x1 := av_i_spr_le & [ STEM < "admirablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_admirablemente_x_rel" ]. admiración_n1 := n_trans_le & [ STEM < "admiración" >, SYNSEM.LKEYS.KEYREL.PRED "_admiración_n_rel" ]. admirador_n1 := n_subj-nom_le & [ STEM < "admirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_admirador_n_rel" ] ]. admirar_v1 := v_intr_io*_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL.PRED "_admirar_v_rel" ]. admirar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "admirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_admirar_v_rel" ] ] ]. admirar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "admirar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admirar_v_rel" ] ] ]. admirar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL.PRED "_admirar_v_rel" ]. admirar_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_admirar_v_rel" ] ]. admirar_v6 := v_trans_np_le & [ STEM < "admirar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admirar_v_rel" ] ]. admirativamente_x1 := av_i_spr_le & [ STEM < "admirativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_admirativamente_x_rel" ]. admirativo_a1 := a_qual_intr_ser_le & [ STEM < "admirativo" >, SYNSEM.LKEYS.KEYREL.PRED "_admirativo_a_rel" ]. admisibilidad_n1 := n_ppcomp_mass_le & [ STEM < "admisibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_admisibilidad_n_rel" ] ]. admisible_a1 := a_qual_intr_scopal_le & [ STEM < "admisible" >, SYNSEM.LKEYS.KEYREL.PRED "_admisible_a_rel" ]. admisión_n1 := n_trans_le & [ STEM < "admisión" >, SYNSEM.LKEYS.KEYREL.PRED "_admisión_n_rel" ]. admitancia_n1 := n_intr_uncount_le & [ STEM < "admitancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_admitancia_n_rel" ] ]. admitir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "admitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_admitir_v_rel" ] ]. admitir_v2 := v_ditrans*_le & [ STEM < "admitir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_admitir_v_rel" ] ]. admitir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_admitir_v_rel" ] ] ]. admitir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_admitir_v_rel" ] ] ]. admitir_v5 := v_trans_np_mrkd_np_le & [ STEM < "admitir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, ARG3.SORT non-hum, PRED "_admitir_v_rel" ] ] ]. admonición_n1 := n_trans_le & [ STEM < "admonición" >, SYNSEM.LKEYS.KEYREL.PRED "_admonición_n_rel" ]. admonitor_n1 := n_subj-nom_le & [ STEM < "admonitor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_admonitor_n_rel" ] ]. admonitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "admonitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_admonitorio_a_rel" ]. adobador_n1 := n_subj-nom_le & [ STEM < "adobador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adobador_n_rel" ] ]. adobe_n1 := n_intr_mass_le & [ STEM < "adobe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adobe_n_rel" ] ]. adobera_n1 := n_intr_count_le & [ STEM < "adobera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adobera_n_rel" ] ]. adobería_n1 := n_intr_count_le & [ STEM < "adobería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_adobería_n_rel" ] ]. adobo_n1 := n_trans_le & [ STEM < "adobo" >, SYNSEM.LKEYS.KEYREL.PRED "_adobo_n_rel" ]. adoctrinamiento_n1 := n_trans_le & [ STEM < "adoctrinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adoctrinamiento_n_rel" ]. adoctrinar_v1 := v_trans_np_le & [ STEM < "adoctrinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_adoctrinar_v_rel" ] ]. adolecer_v := v_intr_mrkd_np_le & [ STEM < "adolecer" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT abs, PRED "_adolecer_v_rel" ] ] ]. adolescencia_n1 := n_intr_uncount_le & [ STEM < "adolescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adolescencia_n_rel" ] ]. adolescente_a1 := a_rel_nonprd_intr_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL.PRED "_adolescente_a_rel" ]. adolescente_a2 := a_qual_intr_ser_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL.PRED "_adolescente_a_rel" ]. adolescente_n1 := n_intr_count_le & [ STEM < "adolescente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adolescente_n_rel" ] ]. adonde_r := av_rel_place_le & [ STEM < "adonde" > ]. adonde_r2 := av_free-rel_place_le & [ STEM < "adonde" > ]. adonde_sc := sc_prop_fin_le & [ STEM < "adonde" >, SYNSEM.LKEYS.KEYREL.PRED "_adonde_x_subord_rel" ]. adopción_n1 := n_trans_le & [ STEM < "adopción" >, SYNSEM.LKEYS.KEYREL.PRED "_adopción_n_rel" ]. adoptabilidad_n1 := n_intr_uncount_le & [ STEM < "adoptabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adoptabilidad_n_rel" ] ]. adoptable_a1 := a_rel_prd_le & [ STEM < "adoptable" >, SYNSEM.LKEYS.KEYREL.PRED "_adoptable_a_rel" ]. adoptado_n1 := n_intr_count_le & [ STEM < "adoptado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adoptado_n_rel" ] ]. adoptante_n1 := n_intr_count_le & [ STEM < "adoptante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adoptante_n_rel" ] ]. adoptar_v1 := v_trans_np_le & [ STEM < "adoptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc, ARG2.SORT abs, PRED "_adoptar_v_rel" ] ]. adoptar_v2 := v_trans_np_le & [ STEM < "adoptar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_hum, PRED "_adoptar_v_rel" ] ]. adoptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adoptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adoptivo_a_rel" ]. adoquinado_n1 := n_intr_count_le & [ STEM < "adoquinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adoquinado_n_rel" ] ]. adoquín_n1 := n_intr_count_le & [ STEM < "adoquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adoquín_n_rel" ] ]. adorable_a1 := a_qual_intr_scopal_le & [ STEM < "adorable" >, SYNSEM.LKEYS.KEYREL.PRED "_adorable_a_rel" ]. adoración_n1 := n_trans_le & [ STEM < "adoración" >, SYNSEM.LKEYS.KEYREL.PRED "_adoración_n_rel" ]. adorador_n1 := n_subj-nom_le & [ STEM < "adorador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adorador_n_rel" ] ]. adorar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "adorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_adorar_v_rel" ] ]. adorar_v2 := v_trans_np_le & [ STEM < "adorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_adorar_v_rel" ] ]. adormecedor_a1 := a_rel_prd_le & [ STEM < "adormecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecedor_a_rel" ]. adormecer_v1 := v_intr_io*_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecer_v3 := v_trans_np_caus_le & [ STEM < "adormecer" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecer_v_rel" ]. adormecimiento_n1 := n_event-result_intr_le & [ STEM < "adormecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adormecimiento_n_rel" ]. adormidera_n1 := n_intr_count_le & [ STEM < "adormidera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_adormidera_n_rel" ] ]. adormilar_v1 := v_pron_intr_le & [ STEM < "adormilar" >, SYNSEM.LKEYS.KEYREL.PRED "_adormilar_v_rel" ]. adornamiento_n1 := n_trans_le & [ STEM < "adornamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_adornamiento_n_rel" ]. adornar_v1 := v_trans_np_le & [ STEM < "adornar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, ARG2.SORT abs_cnc_loc, PRED "adorna_r_v_rel" ] ]. adorno_n1 := n_trans_le & [ STEM < "adorno" >, SYNSEM.LKEYS.KEYREL.PRED "_adorno_n_rel" ]. adosamiento_n1 := n_intr_uncount_le & [ STEM < "adosamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adosamiento_n_rel" ] ]. adotadoramente_x1 := av_i_le & [ STEM < "adotadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_adotadoramente_x_rel" ]. adquirente_n1 := n_intr_count_le & [ STEM < "adquirente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquirente_n_rel" ] ]. adquirible_a1 := a_rel_prd_le & [ STEM < "adquirible" >, SYNSEM.LKEYS.KEYREL.PRED "_adquirible_a_rel" ]. adquiriente_n1 := n_intr_count_le & [ STEM < "adquiriente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquiriente_n_rel" ] ]. adquirir_v1 := v_trans_np_le & [ STEM < "adquirir" >, SYNSEM.LKEYS.KEYREL.PRED "_adquirir_v_rel" ]. adquisición_n1 := n_trans_le & [ STEM < "adquisición" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisición_n_rel" ]. adquisidor_n1 := n_subj-nom_le & [ STEM < "adquisidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adquisidor_n_rel" ] ]. adquisitivamente_x1 := av_i_spr_le & [ STEM < "adquisitivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisitivamente_x_rel" ]. adquisitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "adquisitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_adquisitivo_a_rel" ]. adquisividad_n1 := n_intr_uncount_le & [ STEM < "adquisividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adquisividad_n_rel" ] ]. adrede_x1 := av_i_le & [ STEM < "adrede" >, SYNSEM.LKEYS.KEYREL.PRED "_adrede_x_rel" ]. adrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenal_a_rel" ]. adrenalina_n1 := n_intr_mass_le & [ STEM < "adrenalina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adrenalina_n_rel" ] ]. adrenocortical_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenocortical" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenocortical_a_rel" ]. adrenocorticotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenocorticotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenocorticotrópico_a_rel" ]. adrenocromo_n1 := n_intr_count_le & [ STEM < "adrenocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adrenocromo_n_rel" ] ]. adrenosterona_n1 := n_intr_count_le & [ STEM < "adrenosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_adrenosterona_n_rel" ] ]. adrenérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "adrenérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_adrenérgico_a_rel" ]. adresina_n1 := n_intr_uncount_le & [ STEM < "adresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adresina_n_rel" ] ]. adrizar_v1 := v_trans_np_le & [ STEM < "adrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_adrizar_v_rel" ]. adriático_a1 := a_rel_nonprd_intr_le & [ STEM < "adriático" >, SYNSEM.LKEYS.KEYREL.PRED "_adriático_a_rel" ]. adscripción_n1 := n_trans_le & [ STEM < "adscripción" >, SYNSEM.LKEYS.KEYREL.PRED "_adscripción_n_rel" ]. adsorbabilidad_n1 := n_intr_uncount_le & [ STEM < "adsorbabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adsorbabilidad_n_rel" ] ]. adsorbato_n1 := n_intr_mass-or-count_le & [ STEM < "adsorbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_adsorbato_n_rel" ] ]. adsorbedor_n1 := n_intr_count_le & [ STEM < "adsorbedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adsorbedor_n_rel" ] ]. adsorbente_a1 := a_qual_intr_scopal_le & [ STEM < "adsorbente" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorbente_a_rel" ]. adsorbente_n1 := n_intr_count_le & [ STEM < "adsorbente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adsorbente_n_rel" ] ]. adsorbentemente_x1 := av_i_spr_le & [ STEM < "adsorbentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorbentemente_x_rel" ]. adsorber_v1 := v_trans_np_le & [ STEM < "adsorber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_mat, ARG2.SORT cnc_mat, PRED "_adsorber_v_rel" ] ]. adsorción_n1 := n_trans_le & [ STEM < "adsorción" >, SYNSEM.LKEYS.KEYREL.PRED "_adsorción_n_rel" ]. adstrato_n1 := n_intr_count_le & [ STEM < "adstrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adstrato_n_rel" ] ]. aduana_n1 := n_intr_count_le & [ STEM < "aduana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aduana_n_rel" ] ]. aduanar_v1 := v_ditrans*_le & [ STEM < "aduanar" >, SYNSEM.LKEYS.KEYREL.PRED "_aduanar_v_rel" ]. aduanero_a1 := a_rel_nonprd_intr_le & [ STEM < "aduanero" >, SYNSEM.LKEYS.KEYREL.PRED "_aduanero_a_rel" ]. aduanero_n1 := n_intr_count_le & [ STEM < "aduanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aduanero_n_rel" ] ]. aducción_n1 := n_trans_le & [ STEM < "aducción" >, SYNSEM.LKEYS.KEYREL.PRED "_aducción_n_rel" ]. aducir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "aducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aducir_v_rel" ] ]. aducir_v2 := v_ditrans*_le & [ STEM < "aducir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aducir_v_rel" ] ]. aducto_n1 := n_intr_mass-or-count_le & [ STEM < "aducto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aducto_n_rel" ] ]. aductor_a1 := a_rel_nonprd_intr_le & [ STEM < "aductor" >, SYNSEM.LKEYS.KEYREL.PRED "_aductor_a_rel" ]. aductor_n1 := n_ppcomp_count_le & [ STEM < "aductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_aductor_n_rel" ] ]. adueãâ±ar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "adueñar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_adueñar_v_rel" ] ]. aduja_n1 := n_intr_count_le & [ STEM < "aduja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aduja_n_rel" ] ]. adulación_n1 := n_trans_le & [ STEM < "adulación" >, SYNSEM.LKEYS.KEYREL.PRED "_adulación_n_rel" ]. adulador_n1 := n_subj-nom_le & [ STEM < "adulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulador_n_rel" ] ]. adular_v1 := v_trans_np*_le & [ STEM < "adular" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_adular_v_rel" ] ]. adularescencia_n1 := n_intr_uncount_le & [ STEM < "adularescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adularescencia_n_rel" ] ]. adularia_n1 := n_intr_uncount_pl_le & [ STEM < "adularia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adularia_n_rel" ] ]. adulteración_n1 := n_trans_le & [ STEM < "adulteración" >, SYNSEM.LKEYS.KEYREL.PRED "_adulteración_n_rel" ]. adulterador_n1 := n_subj-nom_le & [ STEM < "adulterador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulterador_n_rel" ] ]. adulterar_v1 := v_trans_np_le & [ STEM < "adulterar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_mat_soc, ARG2.SORT abs_cnc_mat_pro, PRED "_adulterar_v_rel" ] ]. adulterinamente_x1 := av_i_spr_le & [ STEM < "adulterinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adulterinamente_x_rel" ]. adulterino_a1 := a_rel_nonprd_intr_le & [ STEM < "adulterino" >, SYNSEM.LKEYS.KEYREL.PRED "_adulterino_a_rel" ]. adulterio_n1 := n_intr_count_le & [ STEM < "adulterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adulterio_n_rel" ] ]. adultez_n1 := n_ppcomp_uncount_le & [ STEM < "adultez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adultez_n_rel" ] ]. adulto_a1 := a_qual_intr_ser_le & [ STEM < "adulto" >, SYNSEM.LKEYS.KEYREL.PRED "_adulto_a_rel" ]. adulto_n1 := n_intr_count_le & [ STEM < "adulto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adulto_n_rel" ] ]. adustamente_x1 := av_i_spr_le & [ STEM < "adustamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adustamente_x_rel" ]. adustez_n1 := n_ppcomp_uncount_le & [ STEM < "adustez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adustez_n_rel" ] ]. adusto_a1 := a_qual_intr_scopal_le & [ STEM < "adusto" >, SYNSEM.LKEYS.KEYREL.PRED "_adusto_a_rel" ]. adusto_a2 := a_qual_intr_ser_le & [ STEM < "adusto" >, SYNSEM.LKEYS.KEYREL.PRED "_adusto_a_rel" ]. advección_n1 := n_trans_le & [ STEM < "advección" >, SYNSEM.LKEYS.KEYREL.PRED "_advección_n_rel" ]. advenedizo_n1 := n_intr_count_le & [ STEM < "advenedizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_advenedizo_n_rel" ] ]. advenimiento_n1 := n_intr_count_le & [ STEM < "advenimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_advenimiento_n_rel" ] ]. adventicio_a1 := a_rel_nonprd_intr_le & [ STEM < "adventicio" >, SYNSEM.LKEYS.KEYREL.PRED "_adventicio_a_rel" ]. adveración_n1 := n_trans_le & [ STEM < "adveración" >, SYNSEM.LKEYS.KEYREL.PRED "_adveración_n_rel" ]. adverar_v1 := v_trans_np_le & [ STEM < "adverar" >, SYNSEM.LKEYS.KEYREL.PRED "_adverar_v_rel" ]. adverbial_a1 := a_rel_nonprd_intr_le & [ STEM < "adverbial" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbial_a_rel" ]. adverbialización_n1 := n_trans_le & [ STEM < "adverbialización" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbialización_n_rel" ]. adverbializador_a1 := a_rel_nonprd_intr_le & [ STEM < "adverbializador" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbializador_a_rel" ]. adverbialmente_x1 := av_i_spr_le & [ STEM < "adverbialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_adverbialmente_x_rel" ]. adverbio_n1 := n_intr_count_le & [ STEM < "adverbio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adverbio_n_rel" ] ]. adversamente_x1 := av_i_spr_le & [ STEM < "adversamente" >, SYNSEM.LKEYS.KEYREL.PRED "_adversamente_x_rel" ]. adversario_n1 := n_ppcomp_count_le & [ STEM < "adversario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adversario_n_rel" ] ]. adversativo_a1 := a_rel_nonprd_intr_le & [ STEM < "adversativo" >, SYNSEM.LKEYS.KEYREL.PRED "_adversativo_a_rel" ]. adversidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "adversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adversidad_n_rel" ] ]. adverso_a1 := a_qual_trans*_ser_le & [ STEM < "adverso" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adverso_a_rel" ] ]. advertencia_n1 := n_trans_le & [ STEM < "advertencia" >, SYNSEM.LKEYS.KEYREL.PRED "_advertencia_n_rel" ]. advertimiento_n1 := n_trans_le & [ STEM < "advertimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_advertimiento_n_rel" ]. advertir_v1 := v_ditrans*_le & [ STEM < "advertir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_advertir_v_rel" ] ]. advertir_v2 := v_ditrans_s_or_cp_prop_fin_ind_le & [ STEM < "advertir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_advertir_v_rel" ] ]. advertir_v4 := v_trans_np_mrkd_np_le & [ STEM < "advertir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, ARG3.SORT non-hum, PRED "_advertir_v_rel" ] ] ]. advertir_v5 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_sub_le & [ STEM < "advertir" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL [ ARG2.SORT hum, PRED "_advertir_v_rel" ] ] ]. adviento_n1 := n_intr_count_le & [ STEM < "adviento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_adviento_n_rel" ] ]. advocación_n1 := n_intr_uncount_le & [ STEM < "advocación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_advocación_n_rel" ] ]. adyacencia_n1 := n_intr_uncount_le & [ STEM < "adyacencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_adyacencia_n_rel" ] ]. adyacente_a1 := a_qual_trans*_ser_le & [ STEM < "adyacente" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_adyacente_a_rel" ] ]. adyuvante_a1 := a_rel_nonprd_intr_le & [ STEM < "adyuvante" >, SYNSEM.LKEYS.KEYREL.PRED "_adyuvante_a_rel" ]. adyuvante_n1 := n_intr_count_le & [ STEM < "adyuvante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_adyuvante_n_rel" ] ]. adyuvantemente_x1 := av_i_spr_le & [ STEM < "adyuvantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_adyuvantemente_x_rel" ]. adónde_i := av_wh_place_le & [ STEM < "adónde" > ]. adúlteramente_x1 := av_i_spr_le & [ STEM < "adúlteramente" >, SYNSEM.LKEYS.KEYREL.PRED "_adúlteramente_x_rel" ]. adúltero_a1 := a_qual_intr_ser_le & [ STEM < "adúltero" >, SYNSEM.LKEYS.KEYREL.PRED "_adúltero_a_rel" ]. adúltero_n1 := n_intr_count_le & [ STEM < "adúltero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_adúltero_n_rel" ] ]. aerobio_a1 := a_rel_nonprd_intr_le & [ STEM < "aerobio" >, SYNSEM.LKEYS.KEYREL.PRED "_aerobio_a_rel" ]. aerobiología_n1 := n_intr_uncount_le & [ STEM < "aerobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerobiología_n_rel" ] ]. aerobioscopio_n1 := n_intr_count_le & [ STEM < "aerobioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerobioscopio_n_rel" ] ]. aerobiosis_n1 := n_intr_uncount_le & [ STEM < "aerobiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerobiosis_n_rel" ] ]. aerobús_n1 := n_intr_count_le & [ STEM < "aerobús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aerobús_n_rel" ] ]. aeroclasificador_n1 := n_intr_count_le & [ STEM < "aeroclasificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroclasificador_n_rel" ] ]. aeroclub_n1 := n_intr_count_le & [ STEM < "aeroclub" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_aeroclub_n_rel" ] ]. aerocondensador_n1 := n_intr_count_le & [ STEM < "aerocondensador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aerocondensador_n_rel" ] ]. aerodeslizador_n1 := n_intr_count_le & [ STEM < "aerodeslizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerodeslizador_n_rel" ] ]. aerodino_n1 := n_intr_count_le & [ STEM < "aerodino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodino_n_rel" ] ]. aerodinámica_n1 := n_intr_uncount_le & [ STEM < "aerodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodinámica_n_rel" ] ]. aerodinámicamente_x1 := av_i_spr_le & [ STEM < "aerodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aerodinámicamente_x_rel" ]. aerodinámico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerodinámico_a_rel" ]. aerodoncia_n1 := n_intr_uncount_le & [ STEM < "aerodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodoncia_n_rel" ] ]. aerodontalgia_n1 := n_intr_uncount_le & [ STEM < "aerodontalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerodontalgia_n_rel" ] ]. aeroespacial_a1 := a_rel_nonprd_intr_le & [ STEM < "aeroespacial" >, SYNSEM.LKEYS.KEYREL.PRED "_aeroespacial_a_rel" ]. aeroestación_n1 := n_intr_count_le & [ STEM < "aeroestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroestación_n_rel" ] ]. aerofagia_n1 := n_intr_uncount_le & [ STEM < "aerofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerofagia_n_rel" ] ]. aerofaro_n1 := n_intr_count_le & [ STEM < "aerofaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerofaro_n_rel" ] ]. aerofotografía_n1 := n_intr_count_le & [ STEM < "aerofotografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerofotografía_n_rel" ] ]. aerofotográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerofotográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerofotográfico_a_rel" ]. aerograma_n1 := n_intr_count_le & [ STEM < "aerograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerograma_n_rel" ] ]. aerohidráulico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerohidráulico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerohidráulico_a_rel" ]. aerolito_n1 := n_intr_count_le & [ STEM < "aerolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerolito_n_rel" ] ]. aerolínea_n1 := n_intr_count_le & [ STEM < "aerolínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_aerolínea_n_rel" ] ]. aeromancia_n1 := n_intr_uncount_le & [ STEM < "aeromancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeromancia_n_rel" ] ]. aerometría_n1 := n_intr_uncount_le & [ STEM < "aerometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerometría_n_rel" ] ]. aeromodelismo_n1 := n_intr_uncount_le & [ STEM < "aeromodelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeromodelismo_n_rel" ] ]. aeromodelista_n1 := n_intr_count_le & [ STEM < "aeromodelista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aeromodelista_n_rel" ] ]. aeromodelo_n1 := n_intr_count_le & [ STEM < "aeromodelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeromodelo_n_rel" ] ]. aeromotor_n1 := n_intr_count_le & [ STEM < "aeromotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeromotor_n_rel" ] ]. aeronauta_n1 := n_intr_count_le & [ STEM < "aeronauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aeronauta_n_rel" ] ]. aeronaval_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronaval" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronaval_a_rel" ]. aeronave_n1 := n_intr_count_le & [ STEM < "aeronave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeronave_n_rel" ] ]. aeronavegabilidad_n1 := n_intr_uncount_le & [ STEM < "aeronavegabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronavegabilidad_n_rel" ] ]. aeronavegable_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronavegable" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronavegable_a_rel" ]. aeronomía_n1 := n_intr_uncount_le & [ STEM < "aeronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronomía_n_rel" ] ]. aeronáutica_n1 := n_intr_uncount_le & [ STEM < "aeronáutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeronáutica_n_rel" ] ]. aeronáuticamente_x1 := av_i_spr_le & [ STEM < "aeronáuticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronáuticamente_x_rel" ]. aeronáutico_a1 := a_rel_nonprd_intr_le & [ STEM < "aeronáutico" >, SYNSEM.LKEYS.KEYREL.PRED "_aeronáutico_a_rel" ]. aeroplano_n1 := n_intr_count_le & [ STEM < "aeroplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aeroplano_n_rel" ] ]. aeroportuario_a1 := a_rel_nonprd_intr_le & [ STEM < "aeroportuario" >, SYNSEM.LKEYS.KEYREL.PRED "_aeroportuario_a_rel" ]. aeropuerto_n1 := n_intr_count_le & [ STEM < "aeropuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aeropuerto_n_rel" ] ]. aeroscopio_n1 := n_intr_count_le & [ STEM < "aeroscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeroscopio_n_rel" ] ]. aerosol_n1 := n_intr_count_le & [ STEM < "aerosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aerosol_n_rel" ] ]. aerostación_n1 := n_intr_count_le & [ STEM < "aerostación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerostación_n_rel" ] ]. aerostática_n1 := n_intr_uncount_le & [ STEM < "aerostática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerostática_n_rel" ] ]. aerostático_a1 := a_rel_nonprd_intr_le & [ STEM < "aerostático" >, SYNSEM.LKEYS.KEYREL.PRED "_aerostático_a_rel" ]. aeroterapia_n1 := n_intr_uncount_le & [ STEM < "aeroterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeroterapia_n_rel" ] ]. aerotermo_n1 := n_intr_count_le & [ STEM < "aerotermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerotermo_n_rel" ] ]. aerotermodinámica_n1 := n_intr_uncount_le & [ STEM < "aerotermodinámica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerotermodinámica_n_rel" ] ]. aerotimpánico_a1 := a_rel_nonprd_intr_le & [ STEM < "aerotimpánico" >, SYNSEM.LKEYS.KEYREL.PRED "_aerotimpánico_a_rel" ]. aerotitis_n1 := n_intr_uncount_le & [ STEM < "aerotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerotitis_n_rel" ] ]. aerovía_n1 := n_intr_count_le & [ STEM < "aerovía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aerovía_n_rel" ] ]. aerífero_a1 := a_rel_nonprd_intr_le & [ STEM < "aerífero" >, SYNSEM.LKEYS.KEYREL.PRED "_aerífero_a_rel" ]. aeróbic_n1 := n_intr_uncount_le & [ STEM < "aeróbic" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aeróbic_n_rel" ] ]. aeróbico_a1 := a_rel_nonprd_intr_le & [ STEM < "aeróbico" >, SYNSEM.LKEYS.KEYREL.PRED "_aeróbico_a_rel" ]. aeródromo_n1 := n_intr_count_le & [ STEM < "aeródromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aeródromo_n_rel" ] ]. aerógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "aerógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_aerógeno_a_rel" ]. aerógrafo_n1 := n_intr_count_le & [ STEM < "aerógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerógrafo_n_rel" ] ]. aerómetro_n1 := n_intr_count_le & [ STEM < "aerómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aerómetro_n_rel" ] ]. aeróstato_n1 := n_intr_count_le & [ STEM < "aeróstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aeróstato_n_rel" ] ]. afabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afabilidad_n_rel" ] ]. afable_a1 := a_qual_intr_ser_le & [ STEM < "afable" >, SYNSEM.LKEYS.KEYREL.PRED "_afable_a_rel" ]. afablemente_x1 := av_i_spr_le & [ STEM < "afablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_afablemente_x_rel" ]. afanar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "afanar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_afanar_v_rel" ] ] ]. afanar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "afanar" >, SYNSEM.LKEYS [ --COMPKEY en_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_afanar_v_rel" ] ] ]. afanosamente_x1 := av_i_spr_le & [ STEM < "afanosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afanosamente_x_rel" ]. afaquia_n1 := n_intr_uncount_pl_le & [ STEM < "afaquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afaquia_n_rel" ] ]. afasia_n1 := n_intr_uncount_pl_le & [ STEM < "afasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afasia_n_rel" ] ]. afeamiento_n1 := n_trans_le & [ STEM < "afeamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afeamiento_n_rel" ]. afear_v1 := v_trans_np_caus_le & [ STEM < "afear" >, SYNSEM.LKEYS.KEYREL.PRED "_afear_v_rel" ]. afección_n1 := n_intr_count_le & [ STEM < "afección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afección_n_rel" ] ]. afectación_n1 := n_trans_le & [ STEM < "afectación" >, SYNSEM.LKEYS.KEYREL.PRED "_afectación_n_rel" ]. afectar_v1 := v_intr_io*_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL.PRED "_afectar_v_rel" ]. afectar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL.PRED "_afectar_v_rel" ]. afectar_v3 := v_trans_np_le & [ STEM < "afectar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_afectar_v_rel" ] ]. afectivamente_x1 := av_i_spr_le & [ STEM < "afectivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afectivamente_x_rel" ]. afectividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afectividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afectividad_n_rel" ] ]. afectivo_a1 := a_qual_trans*_ser_le & [ STEM < "afectivo" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_afectivo_a_rel" ] ]. afecto_a1 := a_qual_trans*_ser_le & [ STEM < "afecto" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_afecto_a_rel" ] ]. afecto_n1 := n_intr_mass_le & [ STEM < "afecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afecto_n_rel" ] ]. afectuosamente_x1 := av_i_spr_le & [ STEM < "afectuosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afectuosamente_x_rel" ]. afectuosidad_n1 := n_ppcomp_mass_le & [ STEM < "afectuosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afectuosidad_n_rel" ] ]. afectuoso_a1 := a_qual_intr_scopal_le & [ STEM < "afectuoso" >, SYNSEM.LKEYS.KEYREL.PRED "_afectuoso_a_rel" ]. afeitado_n1 := n_trans_le & [ STEM < "afeitado" >, SYNSEM.LKEYS.KEYREL.PRED "_afeitado_n_rel" ]. afeitadora_n1 := n_intr_count_le & [ STEM < "afeitadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afeitadora_n_rel" ] ]. afeitar_v2 := v_trans_np_le & [ STEM < "afeitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_afeitar_v_rel" ] ]. afelio_n1 := n_intr_uncount_pl_le & [ STEM < "afelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afelio_n_rel" ] ]. afeminación_n1 := n_trans_le & [ STEM < "afeminación" >, SYNSEM.LKEYS.KEYREL.PRED "_afeminación_n_rel" ]. afeminamiento_n1 := n_trans_le & [ STEM < "afeminamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afeminamiento_n_rel" ]. aferente_a1 := a_rel_nonprd_intr_le & [ STEM < "aferente" >, SYNSEM.LKEYS.KEYREL.PRED "_aferente_a_rel" ]. aferramiento_n1 := n_trans_le & [ STEM < "aferramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aferramiento_n_rel" ]. aferrar_v1 := v_pron_intr_io_le & [ STEM < "aferrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aferrar_v_rel" ]. aferrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aferrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aferrar_v_rel" ] ]. aferrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aferrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_cnc_loc, PRED "_aferrar_v_rel" ] ] ]. aferrar_v4 := v_trans_np_le & [ STEM < "aferrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_aferrar_v_rel" ] ]. afgano_a1 := a_rel_prd_le & [ STEM < "afgano" >, SYNSEM.LKEYS.KEYREL.PRED "_afgano_a_rel" ]. afgano_n1 := n_intr_count_le & [ STEM < "afgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afgano_n_rel" ] ]. afianzador_a1 := a_rel_nonprd_intr_le & [ STEM < "afianzador" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzador_a_rel" ]. afianzador_n1 := n_subj-nom_le & [ STEM < "afianzador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afianzador_n_rel" ] ]. afianzamiento_n1 := n_trans_le & [ STEM < "afianzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzamiento_n_rel" ]. afianzar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "afianzar" >, SYNSEM.LKEYS.KEYREL.PRED "_afianzar_v_rel" ]. afianzar_v2 := v_trans_np_caus_le & [ STEM < "afianzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_afianzar_v_rel" ] ]. afianzar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "afianzar" >, SYNSEM.LKEYS [ --COMPKEY _como_p_sel_rel, KEYREL.PRED "_afianzar_v_rel" ] ]. afibrinogenemia_n1 := n_intr_uncount_le & [ STEM < "afibrinogenemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afibrinogenemia_n_rel" ] ]. aficionado_n1 := n_intr_count_le & [ STEM < "aficionado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aficionado_n_rel" ] ]. aficionar_v1 := v_trans_np_mrkd_cp_prop_fin_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. aficionar_v2 := v_trans_np_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. aficionar_v3 := v_trans_np_mrkd_np*_caus_le & [ STEM < "aficionar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_aficionar_v_rel" ] ] ]. afición_n1 := n_intr_count_le & [ STEM < "afición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afición_n_rel" ] ]. afidavit_n1 := n_intr_count_le & [ STEM < "afidavit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_afidavit_n_rel" ] ]. afidávit_n1 := n_intr_count_le & [ STEM < "afidávit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_afidávit_n_rel" ] ]. afijación_n1 := n_trans_le & [ STEM < "afijación" >, SYNSEM.LKEYS.KEYREL.PRED "_afijación_n_rel" ]. afijal_a1 := a_rel_nonprd_intr_le & [ STEM < "afijal" >, SYNSEM.LKEYS.KEYREL.PRED "_afijal_a_rel" ]. afijar_v1 := v_trans_np_caus_le & [ STEM < "afijar" >, SYNSEM.LKEYS.KEYREL.PRED "_afijar_v_rel" ]. afijo_n1 := n_intr_count_le & [ STEM < "afijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afijo_n_rel" ] ]. afilado_n1 := n_trans_le & [ STEM < "afilado" >, SYNSEM.LKEYS.KEYREL.PRED "_afilado_n_rel" ]. afilador_n1 := n_subj-nom_le & [ STEM < "afilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afilador_n_rel" ] ]. afiladora_n1 := n_intr_count_le & [ STEM < "afiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afiladora_n_rel" ] ]. afiladura_n1 := n_trans_le & [ STEM < "afiladura" >, SYNSEM.LKEYS.KEYREL.PRED "_afiladura_n_rel" ]. afilalápices_n1 := n_intr_count_le & [ STEM < "afilalápices" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afilalápices_n_rel" ] ]. afilamiento_n1 := n_intr_uncount_le & [ STEM < "afilamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afilamiento_n_rel" ] ]. afiliación_n1 := n_trans_le & [ STEM < "afiliación" >, SYNSEM.LKEYS.KEYREL.PRED "_afiliación_n_rel" ]. afiliado_n1 := n_intr_count_le & [ STEM < "afiliado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afiliado_n_rel" ] ]. afiláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "afiláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_afiláctico_a_rel" ]. afinación_n1 := n_trans_le & [ STEM < "afinación" >, SYNSEM.LKEYS.KEYREL.PRED "_afinación_n_rel" ]. afinadamente_x1 := av_i_spr_le & [ STEM < "afinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afinadamente_x_rel" ]. afinado_n1 := n_trans_le & [ STEM < "afinado" >, SYNSEM.LKEYS.KEYREL.PRED "_afinado_n_rel" ]. afinador_a1 := a_qual_trans*_ser_le & [ STEM < "afinador" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_afinador_a_rel" ] ]. afinador_n1 := n_subj-nom_le & [ STEM < "afinador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afinador_n_rel" ] ]. afinadura_n1 := n_trans_le & [ STEM < "afinadura" >, SYNSEM.LKEYS.KEYREL.PRED "_afinadura_n_rel" ]. afinamiento_n1 := n_trans_le & [ STEM < "afinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afinamiento_n_rel" ]. afinar_v1 := v_trans_np_le & [ STEM < "afinar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc_pro, PRED "_afinar_v_rel" ] ]. afincar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "afincar" >, SYNSEM.LKEYS.KEYREL.PRED "_afincar_v_rel" ]. afinidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "afinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afinidad_n_rel" ] ]. afino_n1 := n_trans_le & [ STEM < "afino" >, SYNSEM.LKEYS.KEYREL.PRED "_afino_n_rel" ]. afirmación_n1 := n_trans_le & [ STEM < "afirmación" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmación_n_rel" ]. afirmar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_afirmar_v_rel" ] ]. afirmar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmar_v_rel" ]. afirmar_v3 := v_ditrans*_le & [ STEM < "afirmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_afirmar_v_rel" ] ]. afirmativamente_x1 := av_i_spr_le & [ STEM < "afirmativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmativamente_x_rel" ]. afirmativo_a1 := a_rel_prd_le & [ STEM < "afirmativo" >, SYNSEM.LKEYS.KEYREL.PRED "_afirmativo_a_rel" ]. aflicción_n1 := n_event-result_intr_le & [ STEM < "aflicción" >, SYNSEM.LKEYS.KEYREL.PRED "_aflicción_n_rel" ]. aflictivo_a1 := a_qual_intr_scopal_le & [ STEM < "aflictivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aflictivo_a_rel" ]. afligimiento_n1 := n_trans_le & [ STEM < "afligimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afligimiento_n_rel" ]. afligir_v1 := v_intr_io*_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_afligir_v_rel" ] ]. afligir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL.PRED "_afligir_v_rel" ]. afligir_v3 := v_trans_np_caus_le & [ STEM < "afligir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_afligir_v_rel" ] ]. aflojamiento_n1 := n_trans_le & [ STEM < "aflojamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aflojamiento_n_rel" ]. aflojar_v1 := v_trans_np_caus_le & [ STEM < "aflojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc, PRED "_aflojar_v_rel" ] ]. afloramiento_n1 := n_trans_le & [ STEM < "afloramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afloramiento_n_rel" ]. aflorar_v1 := v_unacc_le & [ STEM < "aflorar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_aflorar_v_rel" ] ]. afluencia_n1 := n_intr_mass_le & [ STEM < "afluencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afluencia_n_rel" ] ]. afluente_a1 := a_rel_nonprd_intr_le & [ STEM < "afluente" >, SYNSEM.LKEYS.KEYREL.PRED "_afluente_a_rel" ]. afluente_n1 := n_intr_count_le & [ STEM < "afluente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afluente_n_rel" ] ]. afluir_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "afluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_afluir_v_rel" ] ] ]. afluir_v2 := v_intr_mrkd_np_le & [ STEM < "afluir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_afluir_v_rel" ] ] ]. aflujo_n1 := n_intr_uncount_pl_le & [ STEM < "aflujo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aflujo_n_rel" ] ]. afonía_n1 := n_intr_uncount_pl_le & [ STEM < "afonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afonía_n_rel" ] ]. aforado_n1 := n_intr_count_le & [ STEM < "aforado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aforado_n_rel" ] ]. aforador_n1 := n_intr_count_le & [ STEM < "aforador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_aforador_n_rel" ] ]. aforamiento_n1 := n_trans_le & [ STEM < "aforamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aforamiento_n_rel" ]. aforar_v1 := v_trans_np_le & [ STEM < "aforar" >, SYNSEM.LKEYS.KEYREL.PRED "_aforar_v_rel" ]. aforestación_n1 := n_trans_le & [ STEM < "aforestación" >, SYNSEM.LKEYS.KEYREL.PRED "_aforestación_n_rel" ]. aforismo_n1 := n_intr_count_le & [ STEM < "aforismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aforismo_n_rel" ] ]. aforo_n1 := n_trans_le & [ STEM < "aforo" >, SYNSEM.LKEYS.KEYREL.PRED "_aforo_n_rel" ]. afortunadamente_x1 := av_s_spr_le & [ STEM < "afortunadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_afortunadamente_x_rel" ]. aforísticamente_x1 := av_i_spr_le & [ STEM < "aforísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aforísticamente_x_rel" ]. aforístico_a1 := a_rel_nonprd_intr_le & [ STEM < "aforístico" >, SYNSEM.LKEYS.KEYREL.PRED "_aforístico_a_rel" ]. afotestesia_n1 := n_intr_uncount_le & [ STEM < "afotestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afotestesia_n_rel" ] ]. afrancesamiento_n1 := n_trans_le & [ STEM < "afrancesamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afrancesamiento_n_rel" ]. afrecho_n1 := n_intr_mass_le & [ STEM < "afrecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afrecho_n_rel" ] ]. afrenta_n1 := n_intr_count_le & [ STEM < "afrenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afrenta_n_rel" ] ]. afrentar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "afrentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_afrentar_v_rel" ] ] ]. afrentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "afrentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_pro, PRED "_afrentar_v_rel" ] ] ]. africado_a1 := a_rel_nonprd_intr_le & [ STEM < "africado" >, SYNSEM.LKEYS.KEYREL.PRED "_africado_a_rel" ]. africanismo_n1 := n_intr_mass-or-count_le & [ STEM < "africanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_africanismo_n_rel" ] ]. africanización_n1 := n_trans_le & [ STEM < "africanización" >, SYNSEM.LKEYS.KEYREL.PRED "_africanización_n_rel" ]. africano_a1 := a_rel_prd_le & [ STEM < "africano" >, SYNSEM.LKEYS.KEYREL.PRED "_africano_a_rel" ]. africano_n1 := n_intr_count_le & [ STEM < "africano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_africano_n_rel" ] ]. afroamericano_a1 := a_rel_prd_le & [ STEM < "afroamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_afroamericano_a_rel" ]. afroamericano_n1 := n_intr_count_le & [ STEM < "afroamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afroamericano_n_rel" ] ]. afroasiático_a1 := a_rel_prd_le & [ STEM < "afroasiático" >, SYNSEM.LKEYS.KEYREL.PRED "_afroasiático_a_rel" ]. afrocubano_a1 := a_rel_prd_le & [ STEM < "afrocubano" >, SYNSEM.LKEYS.KEYREL.PRED "_afrocubano_a_rel" ]. afrocubano_n1 := n_intr_count_le & [ STEM < "afrocubano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_afrocubano_n_rel" ] ]. afrodisíaco_a1 := a_qual_intr_scopal_le & [ STEM < "afrodisíaco" >, SYNSEM.LKEYS.KEYREL.PRED "_afrodisíaco_a_rel" ]. afrodisíaco_n1 := n_intr_count_le & [ STEM < "afrodisíaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_afrodisíaco_n_rel" ] ]. afrontamiento_n1 := n_trans_le & [ STEM < "afrontamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_afrontamiento_n_rel" ]. afrontar_v1 := v_trans_np_le & [ STEM < "afrontar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_cnc_pro, PRED "_afrontar_v_rel" ] ]. afrormosia_n1 := n_intr_mass-or-count_le & [ STEM < "afrormosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_afrormosia_n_rel" ] ]. afta_n1 := n_intr_count_le & [ STEM < "afta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afta_n_rel" ] ]. aftoide_a1 := a_rel_nonprd_intr_le & [ STEM < "aftoide" >, SYNSEM.LKEYS.KEYREL.PRED "_aftoide_a_rel" ]. aftosis_n1 := n_intr_uncount_le & [ STEM < "aftosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aftosis_n_rel" ] ]. aftoso_a1 := a_qual_intr_scopal_le & [ STEM < "aftoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aftoso_a_rel" ]. afuera_x1 := av_i_spr_le & [ STEM < "afuera" >, SYNSEM.LKEYS.KEYREL.PRED "_afuera_x_rel" ]. afán_n1 := n_intr_mass_le & [ STEM < "afán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_afán_n_rel" ] ]. afásico_a1 := a_rel_nonprd_intr_le & [ STEM < "afásico" >, SYNSEM.LKEYS.KEYREL.PRED "_afásico_a_rel" ]. afásico_a2 := a_qual_intr_ser_le & [ STEM < "afásico" >, SYNSEM.LKEYS.KEYREL.PRED "_afásico_a_rel" ]. aféresis_n1 := n_intr_uncount_le & [ STEM < "aféresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aféresis_n_rel" ] ]. afín_a1 := a_qual_trans*_ser_le & [ STEM < "afín" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_afín_a_rel" ] ]. afónico_a1 := a_qual_intr_estar_le & [ STEM < "afónico" >, SYNSEM.LKEYS.KEYREL.PRED "_afónico_a_rel" ]. agachadiza_n1 := n_intr_count_le & [ STEM < "agachadiza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_agachadiza_n_rel" ] ]. agachar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agachar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agachar_v_rel" ] ] ]. agachar_v2 := v_pron_unacc_perf_le & [ STEM < "agachar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_agachar_v_rel" ] ]. agalla_n1 := n_intr_count_le & [ STEM < "agalla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_agalla_n_rel" ] ]. agalmatolita_n1 := n_intr_count_le & [ STEM < "agalmatolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agalmatolita_n_rel" ] ]. agameto_n1 := n_intr_count_le & [ STEM < "agameto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agameto_n_rel" ] ]. agametoblasto_n1 := n_intr_count_le & [ STEM < "agametoblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agametoblasto_n_rel" ] ]. agammaglobulinemia_n1 := n_intr_uncount_le & [ STEM < "agammaglobulinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agammaglobulinemia_n_rel" ] ]. agar_n1 := n_intr_count_le & [ STEM < "agar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agar_n_rel" ] ]. agarbar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agarbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agarbar_v_rel" ] ] ]. agarbar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "agarbar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agarbar_v_rel" ] ] ]. agarosa_n1 := n_intr_mass_le & [ STEM < "agarosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agarosa_n_rel" ] ]. agarradera_n1 := n_intr_count_le & [ STEM < "agarradera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarradera_n_rel" ] ]. agarradero_n1 := n_intr_count_le & [ STEM < "agarradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarradero_n_rel" ] ]. agarrador_n1 := n_intr_count_le & [ STEM < "agarrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarrador_n_rel" ] ]. agarrar_v1 := v_ditrans_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrar_v_rel" ]. agarrar_v2 := v_pron_intr_io_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrar_v_rel" ]. agarrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agarrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_agarrar_v_rel" ] ]. agarrar_v4 := v_trans_np_le & [ STEM < "agarrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum, PRED "_agarrar_v_rel" ] ]. agarre_n1 := n_intr_mass_le & [ STEM < "agarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agarre_n_rel" ] ]. agarrotamiento_n1 := n_trans_le & [ STEM < "agarrotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agarrotamiento_n_rel" ]. agarrón_n1 := n_intr_count_le & [ STEM < "agarrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agarrón_n_rel" ] ]. agasajar_v := v_trans_np_le & [ STEM < "agasajar" >, SYNSEM.LKEYS.KEYREL.PRED "_agasajar_v_rel" ]. agasajo_n1 := n_trans_le & [ STEM < "agasajo" >, SYNSEM.LKEYS.KEYREL.PRED "_agasajo_n_rel" ]. agavanzo_n1 := n_intr_count_le & [ STEM < "agavanzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_agavanzo_n_rel" ] ]. agavillador_n1 := n_intr_count_le & [ STEM < "agavillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_agavillador_n_rel" ] ]. agazapar_v1 := v_pron_intr_le & [ STEM < "agazapar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_agazapar_v_rel" ] ]. agazapar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agazapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agazapar_v_rel" ] ] ]. agazapar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agazapar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agazapar_v_rel" ] ] ]. agencia_n1 := n_intr_count_le & [ STEM < "agencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_agencia_n_rel" ] ]. agenciar_v1 := v_ditrans_le & [ STEM < "agenciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_cnc_hum, PRED "_agenciar_v_rel" ] ]. agenda_n1 := n_intr_count_le & [ STEM < "agenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_agenda_n_rel" ] ]. agenesia_n1 := n_intr_uncount_le & [ STEM < "agenesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agenesia_n_rel" ] ]. agente_n1 := n_intr_count_le & [ STEM < "agente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agente_n_rel" ] ]. agentivo_a1 := a_rel_nonprd_intr_le & [ STEM < "agentivo" >, SYNSEM.LKEYS.KEYREL.PRED "_agentivo_a_rel" ]. ageusia_n1 := n_intr_uncount_le & [ STEM < "ageusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ageusia_n_rel" ] ]. agigantar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "agigantar" >, SYNSEM.LKEYS.KEYREL.PRED "_agigantar_v_rel" ]. agilidad_n1 := n_ppcomp_mass_le & [ STEM < "agilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agilidad_n_rel" ] ]. agilización_n1 := n_trans_le & [ STEM < "agilización" >, SYNSEM.LKEYS.KEYREL.PRED "_agilización_n_rel" ]. agilizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agilizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_pro, PRED "_agilizar_v_rel" ] ]. agilizar_v2 := v_trans_np_le & [ STEM < "agilizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pot_pro_soc, ARG2.SORT abs_pro, PRED "_agilizar_v_rel" ] ]. agio_n1 := n_intr_uncount_le & [ STEM < "agio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agio_n_rel" ] ]. agiotaje_n1 := n_intr_uncount_le & [ STEM < "agiotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agiotaje_n_rel" ] ]. agiotaje_n2 := n_intr_count_le & [ STEM < "agiotaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agiotaje_n_rel" ] ]. agiotista_n1 := n_intr_count_le & [ STEM < "agiotista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agiotista_n_rel" ] ]. agitación_n1 := n_trans_le & [ STEM < "agitación" >, SYNSEM.LKEYS.KEYREL.PRED "_agitación_n_rel" ]. agitador_a1 := a_rel_nonprd_intr_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL.PRED "_agitador_a_rel" ]. agitador_a2 := a_qual_intr_ser_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL.PRED "_agitador_a_rel" ]. agitador_n1 := n_subj-nom_le & [ STEM < "agitador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agitador_n_rel" ] ]. agitar_v1 := v_intr_io*_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL.PRED "_agitar_v_rel" ]. agitar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL.PRED "_agitar_v_rel" ]. agitar_v3 := v_trans_np_le & [ STEM < "agitar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, ARG2.SORT abs_cnc_pro, PRED "_agitar_v_rel" ] ]. aglicosúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "aglicosúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_aglicosúrico_a_rel" ]. aglomeración_n1 := n_trans_le & [ STEM < "aglomeración" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomeración_n_rel" ]. aglomerado_n1 := n_trans_le & [ STEM < "aglomerado" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomerado_n_rel" ]. aglomerante_a1 := a_rel_nonprd_intr_le & [ STEM < "aglomerante" >, SYNSEM.LKEYS.KEYREL.PRED "_aglomerante_a_rel" ]. aglomerante_n1 := n_intr_count_le & [ STEM < "aglomerante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aglomerante_n_rel" ] ]. aglomerar_v1 := v_pron_intr_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum, PRED "_aglomerar_v_rel" ] ]. aglomerar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aglomerar_v_rel" ] ] ]. aglomerar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aglomerar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aglomerar_v_rel" ] ] ]. aglosia_n1 := n_intr_uncount_le & [ STEM < "aglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglosia_n_rel" ] ]. aglosostomía_n1 := n_intr_uncount_le & [ STEM < "aglosostomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglosostomía_n_rel" ] ]. agluitinina_n1 := n_intr_uncount_le & [ STEM < "agluitinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agluitinina_n_rel" ] ]. aglutinación_n1 := n_trans_le & [ STEM < "aglutinación" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinación_n_rel" ]. aglutinador_a1 := a_rel_nonprd_intr_le & [ STEM < "aglutinador" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinador_a_rel" ]. aglutinante_a1 := a_rel_prd_le & [ STEM < "aglutinante" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinante_a_rel" ]. aglutinante_n1 := n_intr_mass_le & [ STEM < "aglutinante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglutinante_n_rel" ] ]. aglutinar_v1 := v_trans_np_caus_le & [ STEM < "aglutinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_mat_soc, ARG2.SORT abs_cnc_mat, PRED "_aglutinar_v_rel" ] ]. aglutinativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aglutinativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aglutinativo_a_rel" ]. aglutinina_n1 := n_intr_uncount_le & [ STEM < "aglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aglutinina_n_rel" ] ]. aglutinógeno_n1 := n_intr_count_le & [ STEM < "aglutinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aglutinógeno_n_rel" ] ]. agnacia_n1 := n_intr_uncount_le & [ STEM < "agnacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnacia_n_rel" ] ]. agnación_n1 := n_intr_uncount_le & [ STEM < "agnación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnación_n_rel" ] ]. agnatia_n1 := n_intr_uncount_le & [ STEM < "agnatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnatia_n_rel" ] ]. agnaticio_a1 := a_rel_nonprd_intr_le & [ STEM < "agnaticio" >, SYNSEM.LKEYS.KEYREL.PRED "_agnaticio_a_rel" ]. agnogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "agnogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_agnogénico_a_rel" ]. agnosticismo_n1 := n_intr_uncount_le & [ STEM < "agnosticismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agnosticismo_n_rel" ] ]. agnósticamente_x1 := av_i_spr_le & [ STEM < "agnósticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agnósticamente_x_rel" ]. agnóstico_a1 := a_qual_intr_ser_le & [ STEM < "agnóstico" >, SYNSEM.LKEYS.KEYREL.PRED "_agnóstico_a_rel" ]. agobiante_a1 := a_qual_intr_scopal_le & [ STEM < "agobiante" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiante_a_rel" ]. agobiantemente_x1 := av_i_spr_le & [ STEM < "agobiantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiantemente_x_rel" ]. agobiar_v1 := v_intr_io*_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_agobiar_v_rel" ] ]. agobiar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agobiar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agobiar_v_rel" ] ] ]. agobiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "agobiar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agobiar_v_rel" ] ] ]. agobiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL.PRED "_agobiar_v_rel" ]. agobiar_v5 := v_trans_np_caus_le & [ STEM < "agobiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_agobiar_v_rel" ] ]. agobio_n1 := n_trans_le & [ STEM < "agobio" >, SYNSEM.LKEYS.KEYREL.PRED "_agobio_n_rel" ]. agolpamiento_n1 := n_trans_le & [ STEM < "agolpamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agolpamiento_n_rel" ]. agolpar_3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "agolpar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_cnc_hum_mat_plant, PRED "_agolpar_v_rel" ] ]. agolpar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agolpar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agolpar_v_rel" ] ] ]. agolpar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "agolpar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_agolpar_v_rel" ] ] ]. agolpar_v4 := v_trans_np_le & [ STEM < "agolpar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT ani_cnc_hum_mat_plant, PRED "_agolpar_v_rel" ] ]. agonisis_n1 := n_intr_uncount_le & [ STEM < "agonisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agonisis_n_rel" ] ]. agonizante_a1 := a_qual_intr_estar_le & [ STEM < "agonizante" >, SYNSEM.LKEYS.KEYREL.PRED "_agonizante_a_rel" ]. agonizar_v1 := v_intr_le & [ STEM < "agonizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_agonizarv_rel" ] ]. agonía_n1 := n_intr_uncount_pl_le & [ STEM < "agonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agonía_n_rel" ] ]. agorafobia_n1 := n_intr_uncount_le & [ STEM < "agorafobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agorafobia_n_rel" ] ]. agostar_v2 := v_trans_np_caus_le & [ STEM < "agostar" >, SYNSEM.LKEYS.KEYREL.PRED "_agostar_v_rel" ]. agosto_n1 := n_intr_count_le & [ STEM < "agosto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_agosto_n_rel" ] ]. agotable_a1 := a_rel_prd_le & [ STEM < "agotable" >, SYNSEM.LKEYS.KEYREL.PRED "_agotable_a_rel" ]. agotador_a1 := a_qual_intr_ser_le & [ STEM < "agotador" >, SYNSEM.LKEYS.KEYREL.PRED "_agotador_a_rel" ]. agotamiento_n1 := n_trans_le & [ STEM < "agotamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agotamiento_n_rel" ]. agotar_v1 := v_intr_io*_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agotar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agotar_v3 := v_trans_np_caus_le & [ STEM < "agotar" >, SYNSEM.LKEYS.KEYREL.PRED "_agotar_v_rel" ]. agraciar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "agraciar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_agraciar_v_rel" ] ]. agradable_a1 := a_qual_intr_scopal_le & [ STEM < "agradable" >, SYNSEM.LKEYS.KEYREL.PRED "_agradable_a_rel" ]. agradable_a2 := a_or_le & [ STEM < "agradable" >, SYNSEM.LKEYS.KEYREL.PRED "_agradable_a_rel" ]. agradablemente_x1 := av_i_spr_le & [ STEM < "agradablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_agradablemente_x_rel" ]. agradar_v1 := v_intr_io*_le & [ STEM < "agradar" >, SYNSEM.LKEYS.KEYREL.PRED "_agradar_v_rel" ]. agradar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agradar" >, SYNSEM.LKEYS.KEYREL.PRED "_agradar_v_rel" ]. agradecer_v1 := v_ditrans*_le & [ STEM < "agradecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_agradecer_v_rel" ] ]. agradecer_v2 := v_ditrans_s_or_cp_prop_fin_sub_le & [ STEM < "agradecer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_agradecer_v_rel" ] ]. agradecimiento_n1 := n_trans_le & [ STEM < "agradecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agradecimiento_n_rel" ]. agrado_n1 := n_result_intr_le & [ STEM < "agrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrado_n_rel" ] ]. agrafía_n1 := n_intr_uncount_le & [ STEM < "agrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrafía_n_rel" ] ]. agramatical_a1 := a_rel_nonprd_intr_le & [ STEM < "agramatical" >, SYNSEM.LKEYS.KEYREL.PRED "_agramatical_a_rel" ]. agramaticalidad_n1 := n_intr_uncount_le & [ STEM < "agramaticalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agramaticalidad_n_rel" ] ]. agrandamiento_n1 := n_trans_le & [ STEM < "agrandamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agrandamiento_n_rel" ]. agrandar_v1 := v_trans_np_caus_le & [ STEM < "agrandar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_loc, ARG2.SORT cnc_hum_soc, PRED "_agrandar_v_rel" ] ]. agranulocitosis_n1 := n_intr_uncount_le & [ STEM < "agranulocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agranulocitosis_n_rel" ] ]. agrario_a1 := a_rel_nonprd_intr_le & [ STEM < "agrario" >, SYNSEM.LKEYS.KEYREL.PRED "_agrario_a_rel" ]. agrarismo_n1 := n_intr_uncount_le & [ STEM < "agrarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrarismo_n_rel" ] ]. agravación_n1 := n_trans_le & [ STEM < "agravación" >, SYNSEM.LKEYS.KEYREL.PRED "_agravación_n_rel" ]. agravamiento_n1 := n_trans_le & [ STEM < "agravamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agravamiento_n_rel" ]. agravante_a1 := a_rel_nonprd_intr_le & [ STEM < "agravante" >, SYNSEM.LKEYS.KEYREL.PRED "_agravante_a_rel" ]. agravante_n1 := n_intr_count_le & [ STEM < "agravante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agravante_n_rel" ] ]. agravar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agravar" >, SYNSEM.LKEYS.KEYREL.PRED "_agravar_v_rel" ]. agravar_v2 := v_trans_np_caus_le & [ STEM < "agravar" >, SYNSEM.LKEYS.KEYREL.PRED "_agravar_v_rel" ]. agraviador_n1 := n_intr_count_le & [ STEM < "agraviador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agraviador_n_rel" ] ]. agraviar_v1 := v_trans_np_le & [ STEM < "agraviar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_agraviar_v_rel" ] ]. agravio_n1 := n_trans_le & [ STEM < "agravio" >, SYNSEM.LKEYS.KEYREL.PRED "_agravio_n_rel" ]. agredir_v1 := v_trans_np_le & [ STEM < "agredir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_agredir_v_rel" ] ]. agregación_n1 := n_trans_le & [ STEM < "agregación" >, SYNSEM.LKEYS.KEYREL.PRED "_agregación_n_rel" ]. agregado_n1 := n_intr_count_le & [ STEM < "agregado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_agregado_n_rel" ] ]. agregador_n1 := n_intr_count_le & [ STEM < "agregador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agregador_n_rel" ] ]. agregar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "agregar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_agregar_v_rel" ] ]. agregar_v2 := v_ditrans*_le & [ STEM < "agregar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_mat_pro, PRED "_agregar_v_rel" ] ]. agregativo_a1 := a_rel_nonprd_intr_le & [ STEM < "agregativo" >, SYNSEM.LKEYS.KEYREL.PRED "_agregativo_a_rel" ]. agremiación_n1 := n_result_intr_ppcomp_le & [ STEM < "agremiación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_agremiación_n_rel" ] ]. agresina_n1 := n_intr_count_le & [ STEM < "agresina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agresina_n_rel" ] ]. agresinógeno_n1 := n_intr_count_le & [ STEM < "agresinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agresinógeno_n_rel" ] ]. agresivamente_x1 := av_i_spr_le & [ STEM < "agresivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agresivamente_x_rel" ]. agresividad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "agresividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agresividad_n_rel" ] ]. agresivo_a1 := a_qual_intr_ser_le & [ STEM < "agresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_agresivo_a_rel" ]. agresión_n1 := n_ppde_ppcomp_count_le & [ STEM < "agresión" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_agresión_n_rel" ] ]. agresor_n1 := n_subj-nom_le & [ STEM < "agresor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agresor_n_rel" ] ]. agreste_a1 := a_rel_nonprd_intr_le & [ STEM < "agreste" >, SYNSEM.LKEYS.KEYREL.PRED "_agreste_a_rel" ]. agretopo_n1 := n_intr_count_le & [ STEM < "agretopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_agretopo_n_rel" ] ]. agriamente_x1 := av_i_spr_le & [ STEM < "agriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_agriamente_x_rel" ]. agriar_v1 := v_intr_io*_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agriar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agriar_v3 := v_trans_np_caus_le & [ STEM < "agriar" >, SYNSEM.LKEYS.KEYREL.PRED "_agriar_v_rel" ]. agricultor_n1 := n_intr_count_le & [ STEM < "agricultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agricultor_n_rel" ] ]. agricultura_n1 := n_intr_uncount_le & [ STEM < "agricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agricultura_n_rel" ] ]. agridulce_a1 := a_qual_intr_scopal_le & [ STEM < "agridulce" >, SYNSEM.LKEYS.KEYREL.PRED "_agridulce_a_rel" ]. agrietamiento_n1 := n_trans_le & [ STEM < "agrietamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_agrietamiento_n_rel" ]. agrietar_v1 := v_trans_np_caus_le & [ STEM < "agrietar" >, SYNSEM.LKEYS.KEYREL.PRED "_agrietar_v_rel" ]. agrimensura_n1 := n_trans_le & [ STEM < "agrimensura" >, SYNSEM.LKEYS.KEYREL.PRED "_agrimensura_n_rel" ]. agrio_a1 := a_qual_intr_scopal_le & [ STEM < "agrio" >, SYNSEM.LKEYS.KEYREL.PRED "_agrio_a_rel" ]. agriotipo_n1 := n_intr_count_le & [ STEM < "agriotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agriotipo_n_rel" ] ]. agroalimentario_a1 := a_rel_nonprd_intr_le & [ STEM < "agroalimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_agroalimentario_a_rel" ]. agroambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "agroambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_agroambiental_a_rel" ]. agrobiología_n1 := n_intr_uncount_le & [ STEM < "agrobiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrobiología_n_rel" ] ]. agrociudad_n1 := n_intr_mass_le & [ STEM < "agrociudad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_agrociudad_n_rel" ] ]. agroclimático_a1 := a_rel_nonprd_intr_le & [ STEM < "agroclimático" >, SYNSEM.LKEYS.KEYREL.PRED "_agroclimático_a_rel" ]. agroforestal_a1 := a_rel_nonprd_intr_le & [ STEM < "agroforestal" >, SYNSEM.LKEYS.KEYREL.PRED "_agroforestal_a_rel" ]. agrogeología_n1 := n_intr_uncount_le & [ STEM < "agrogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrogeología_n_rel" ] ]. agroindustria_n1 := n_intr_uncount_pl_le & [ STEM < "agroindustria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agroindustria_n_rel" ] ]. agrología_n1 := n_intr_uncount_le & [ STEM < "agrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrología_n_rel" ] ]. agrometeorología_n1 := n_intr_uncount_le & [ STEM < "agrometeorología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agrometeorología_n_rel" ] ]. agronomía_n1 := n_intr_uncount_le & [ STEM < "agronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agronomía_n_rel" ] ]. agronómico_a1 := a_rel_nonprd_intr_le & [ STEM < "agronómico" >, SYNSEM.LKEYS.KEYREL.PRED "_agronómico_a_rel" ]. agropecuario_a1 := a_rel_nonprd_intr_le & [ STEM < "agropecuario" >, SYNSEM.LKEYS.KEYREL.PRED "_agropecuario_a_rel" ]. agrupador_n1 := n_intr_count_le & [ STEM < "agrupador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agrupador_n_rel" ] ]. agrupar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "agrupar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_agrupar_v_rel" ] ] ]. agrupar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "agrupar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT ani_hum_soc, PRED "_agrupar_v_rel" ] ] ]. agrupar_v3 := v_trans_np_le & [ STEM < "agrupar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_agrupar_v_rel" ] ]. agrícola_a1 := a_rel_nonprd_intr_le & [ STEM < "agrícola" >, SYNSEM.LKEYS.KEYREL.PRED "_agrícola_a_rel" ]. agrónomo_a1 := a_rel_nonprd_intr_le & [ STEM < "agrónomo" >, SYNSEM.LKEYS.KEYREL.PRED "_agrónomo_a_rel" ]. agrónomo_n1 := n_intr_count_le & [ STEM < "agrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agrónomo_n_rel" ] ]. agua_n1 := n_intr_mass-or-count_le & [ STEM < "agua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_agua_n_rel" ] ]. aguacate_n1 := n_intr_mass_le & [ STEM < "aguacate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguacate_n_rel" ] ]. aguacero_n1 := n_intr_count_le & [ STEM < "aguacero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_aguacero_n_rel" ] ]. aguada_n1 := n_intr_uncount_le & [ STEM < "aguada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguada_n_rel" ] ]. aguada_n2 := n_intr_count_le & [ STEM < "aguada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguada_n_rel" ] ]. aguafiestas_n1 := n_intr_count_le & [ STEM < "aguafiestas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aguafiestas_n_rel" ] ]. aguafuerte_n1 := n_intr_count_le & [ STEM < "aguafuerte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguafuerte_n_rel" ] ]. aguaje_n1 := n_intr_count_le & [ STEM < "aguaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguaje_n_rel" ] ]. aguamanil_n1 := n_intr_count_le & [ STEM < "aguamanil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamanil_n_rel" ] ]. aguamanos_n1 := n_intr_count_le & [ STEM < "aguamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamanos_n_rel" ] ]. aguamarina_n1 := n_intr_count_le & [ STEM < "aguamarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamarina_n_rel" ] ]. aguamiel_n1 := n_intr_mass_le & [ STEM < "aguamiel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguamiel_n_rel" ] ]. aguanieve_n1 := n_intr_mass_le & [ STEM < "aguanieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aguanieve_n_rel" ] ]. aguantable_a1 := a_qual_intr_scopal_le & [ STEM < "aguantable" >, SYNSEM.LKEYS.KEYREL.PRED "_aguantable_a_rel" ]. aguantar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "aguantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aguantar_v_rel" ] ]. aguantar_v2 := v_trans_np*_le & [ STEM < "aguantar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc, ARG2.SORT abs_cnc_pro, PRED "_aguantar_v_rel" ] ]. aguante_n1 := n_trans_le & [ STEM < "aguante" >, SYNSEM.LKEYS.KEYREL.PRED "_aguante_n_rel" ]. aguardar_v1 := v_intr_io_le & [ STEM < "aguardar" >, SYNSEM.LKEYS.KEYREL.PRED "_aguardar_v_rel" ]. aguardar_v2 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aguardar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aguardar_v_rel" ] ]. aguardar_v3 := v_intr_mrkd_np_le & [ STEM < "aguardar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_aguardar_v_rel" ] ] ]. aguardar_v4 := v_trans_np_le & [ STEM < "aguardar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT non-hum, PRED "_aguardar_v_rel" ] ]. aguardiente_n1 := n_intr_mass_le & [ STEM < "aguardiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguardiente_n_rel" ] ]. aguarrás_n1 := n_intr_mass_le & [ STEM < "aguarrás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aguarrás_n_rel" ] ]. aguatocha_n1 := n_intr_count_le & [ STEM < "aguatocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguatocha_n_rel" ] ]. agudeza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "agudeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agudeza_n_rel" ] ]. agudizar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "agudizar" >, SYNSEM.LKEYS.KEYREL.PRED "_agudizar_v_rel" ]. agudizar_v2 := v_trans_np_caus_le & [ STEM < "agudizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pro_soc, ARG2.SORT abs_pro, PRED "_agudizar_v_rel" ] ]. agudo_a1 := a_qual_intr_scopal_le & [ STEM < "agudo" >, SYNSEM.LKEYS.KEYREL.PRED "_agudo_a_rel" ]. aguerridamente_x1 := av_i_spr_le & [ STEM < "aguerridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aguerridamente_x_rel" ]. aguijar_v1 := v_trans_np_le & [ STEM < "aguijar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT ani, PRED "_aguijar_v_rel" ] ]. aguijonear_v1 := v_trans_np_le & [ STEM < "aguijonear" >, SYNSEM.LKEYS.KEYREL.PRED "_aguijonear_v_rel" ]. aguijón_n1 := n_intr_count_le & [ STEM < "aguijón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguijón_n_rel" ] ]. aguilera_n1 := n_intr_count_le & [ STEM < "aguilera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aguilera_n_rel" ] ]. aguileño_a1 := a_qual_intr_ser_le & [ STEM < "aguileño" >, SYNSEM.LKEYS.KEYREL.PRED "_aguileño_a_rel" ]. aguilucho_n1 := n_intr_count_le & [ STEM < "aguilucho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aguilucho_n_rel" ] ]. aguilón_n1 := n_intr_count_le & [ STEM < "aguilón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_aguilón_n_rel" ] ]. aguinaldo_n1 := n_intr_count_le & [ STEM < "aguinaldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aguinaldo_n_rel" ] ]. aguja_n1 := n_intr_count_le & [ STEM < "aguja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aguja_n_rel" ] ]. agujerear_v1 := v_trans_np_caus_le & [ STEM < "agujerear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_ani_cnc_hum, ARG2.SORT cnc, PRED "_agujerear_v_rel" ] ]. agujero_n1 := n_intr_count_le & [ STEM < "agujero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agujero_n_rel" ] ]. agujón_n1 := n_intr_count_le & [ STEM < "agujón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_agujón_n_rel" ] ]. aguzamiento_n1 := n_trans_le & [ STEM < "aguzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aguzamiento_n_rel" ]. aguzanieves_n1 := n_intr_count_le & [ STEM < "aguzanieves" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aguzanieves_n_rel" ] ]. aguzar_v1 := v_pron_intr_le & [ STEM < "aguzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs, PRED "_aguzar_v_rel" ] ]. aguzar_v2 := v_trans_np_le & [ STEM < "aguzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aguzar_v_rel" ] ]. agá_n1 := n_intr_count_le & [ STEM < "agá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_agá_n_rel" ] ]. agénesis_n1 := n_intr_uncount_le & [ STEM < "agénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agénesis_n_rel" ] ]. agónico_a1 := a_qual_intr_estar_le & [ STEM < "agónico" >, SYNSEM.LKEYS.KEYREL.PRED "_agónico_a_rel" ]. agüero_n1 := n_intr_count_le & [ STEM < "agüero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_agüero_n_rel" ] ]. ahijado_n1 := n_ppcomp_count_le & [ STEM < "ahijado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahijado_n_rel" ] ]. ahilamiento_n1 := n_event-result_intr_le & [ STEM < "ahilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ahilamiento_n_rel" ]. ahogar_v1 := v_trans_np_caus_perf_le & [ STEM < "ahogar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_pot, PRED "_ahogar_v_rel" ] ]. ahogo_n1 := n_trans_le & [ STEM < "ahogo" >, SYNSEM.LKEYS.KEYREL.PRED "_ahogo_n_rel" ]. ahora_bien_x1 := av_i_le & [ STEM < "ahora_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_ahora_bien_x_rel" ]. ahora_n1 := av_deic_tmp_le & [ STEM < "ahora" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ahora_x_rel" ]. ahorcado_n1 := n_intr_count_le & [ STEM < "ahorcado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahorcado_n_rel" ] ]. ahorcaperros_n1 := n_intr_count_le & [ STEM < "ahorcaperros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ahorcaperros_n_rel" ] ]. ahorcar_v1 := v_trans_np_caus_le & [ STEM < "ahorcar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_ahorcar_v_rel" ] ]. ahorrador_a1 := a_qual_intr_ser_le & [ STEM < "ahorrador" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrador_a_rel" ]. ahorrador_n1 := n_subj-nom_le & [ STEM < "ahorrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ahorrador_n_rel" ] ]. ahorrar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrar_v2 := v_ditrans*_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_pro, PRED "_ahorrar_v_rel" ] ]. ahorrar_v3 := v_intr_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrar_v4 := v_pron_trans_np_le & [ STEM < "ahorrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ahorrar_v_rel" ] ]. ahorrativamente_x1 := av_i_spr_le & [ STEM < "ahorrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrativamente_x_rel" ]. ahorrativo_a1 := a_qual_intr_ser_le & [ STEM < "ahorrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorrativo_a_rel" ]. ahorro_n1 := n_trans_le & [ STEM < "ahorro" >, SYNSEM.LKEYS.KEYREL.PRED "_ahorro_n_rel" ]. ahuecar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuecar_v_rel" ] ] ]. ahuecar_v2 := v_intr_mrkd_np_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuecar_v_rel" ] ] ]. ahuecar_v3 := v_trans_np_le & [ STEM < "ahuecar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuecar_v_rel" ]. ahumado_n1 := n_intr_count_le & [ STEM < "ahumado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ahumado_n_rel" ] ]. ahumar_v := v_trans_np_le & [ STEM < "ahumar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahumar_v_rel" ]. ahuyentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuyentar_v_rel" ] ] ]. ahuyentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ahuyentar_v_rel" ] ] ]. ahuyentar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuyentar_v_rel" ]. ahuyentar_v4 := v_trans_np_le & [ STEM < "ahuyentar" >, SYNSEM.LKEYS.KEYREL.PRED "_ahuyentar_v_rel" ]. ahí_es_nada_x1 := av_i_le & [ STEM < "ahí_es_nada" >, SYNSEM.LKEYS.KEYREL.PRED "_ahí_es_nada_x_rel" ]. ahí_le_duele_x1 := av_i_le & [ STEM < "ahí_le_duele" >, SYNSEM.LKEYS.KEYREL.PRED "_ahí_le_duele_x_rel" ]. ahí_x := av_deic_place_le & [ STEM < "ahí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ahí_x_rel" ]. ahínco_n1 := n_trans_le & [ STEM < "ahínco" >, SYNSEM.LKEYS.KEYREL.PRED "_ahínco_n_rel" ]. ahíto_a1 := a_qual_intr_estar_le & [ STEM < "ahíto" >, SYNSEM.LKEYS.KEYREL.PRED "_ahíto_a_rel" ]. aiatol·là_n1 := n_intr_count_le & [ STEM < "aiatol·là" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aiatol·là_n_rel" ] ]. aifarda_n1 := n_intr_count_le & [ STEM < "aifarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aifarda_n_rel" ] ]. airbag_n1 := n_intr_count_le & [ STEM < "airbag" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_airbag_n_rel" ] ]. aire_n1 := n_intr_mass_le & [ STEM < "aire" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aire_n_rel" ] ]. aireación_n1 := n_trans_le & [ STEM < "aireación" >, SYNSEM.LKEYS.KEYREL.PRED "_aireación_n_rel" ]. aireador_n1 := n_intr_count_le & [ STEM < "aireador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aireador_n_rel" ] ]. aireadora_n1 := n_intr_count_le & [ STEM < "aireadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aireadora_n_rel" ] ]. airear_v1 := v_pron_intr_le & [ STEM < "airear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_airear_v_rel" ] ]. airear_v2 := v_trans_np_le & [ STEM < "airear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_pot, ARG2.SORT cnc_loc, PRED "_airear_v_rel" ] ]. airosamente_x1 := av_i_spr_le & [ STEM < "airosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_airosamente_x_rel" ]. airosidad_n1 := n_ppcomp_mass_le & [ STEM < "airosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_airosidad_n_rel" ] ]. airoso_a1 := a_qual_intr_ser_le & [ STEM < "airoso" >, SYNSEM.LKEYS.KEYREL.PRED "_airoso_a_rel" ]. aislacionismo_n1 := n_intr_uncount_le & [ STEM < "aislacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aislacionismo_n_rel" ] ]. aislacionista_a1 := a_rel_nonprd_intr_le & [ STEM < "aislacionista" >, SYNSEM.LKEYS.KEYREL.PRED "_aislacionista_a_rel" ]. aisladamente_x1 := av_i_spr_le & [ STEM < "aisladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aisladamente_x_rel" ]. aislador_a1 := a_rel_nonprd_intr_le & [ STEM < "aislador" >, SYNSEM.LKEYS.KEYREL.PRED "_aislador_a_rel" ]. aislador_n1 := n_intr_count_le & [ STEM < "aislador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aislador_n_rel" ] ]. aislamiento_n1 := n_trans_le & [ STEM < "aislamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aislamiento_n_rel" ]. aislante_a1 := a_rel_nonprd_intr_le & [ STEM < "aislante" >, SYNSEM.LKEYS.KEYREL.PRED "_aislante_a_rel" ]. aislante_n1 := n_intr_count_le & [ STEM < "aislante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aislante_n_rel" ] ]. aislar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aislar_v_rel" ] ] ]. aislar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aislar_v_rel" ] ] ]. aislar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "aislar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT abs_ani_cnc_hum_soc, PRED "_aislar_v_rel" ] ] ]. ajaraca_n1 := n_intr_count_le & [ STEM < "ajaraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajaraca_n_rel" ] ]. ajardinamiento_n1 := n_trans_le & [ STEM < "ajardinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ajardinamiento_n_rel" ]. ajardinar_v := v_trans_np_le & [ STEM < "ajardinar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT cnc_loc, PRED "_ajardinar_v_rel" ] ]. ajedrecista_n1 := n_intr_count_le & [ STEM < "ajedrecista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ajedrecista_n_rel" ] ]. ajedrecístico_a1 := a_rel_nonprd_intr_le & [ STEM < "ajedrecístico" >, SYNSEM.LKEYS.KEYREL.PRED "_ajedrecístico_a_rel" ]. ajenjo_n1 := n_intr_count_le & [ STEM < "ajenjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ajenjo_n_rel" ] ]. ajeno_a1 := a_qual_trans*_ser_le & [ STEM < "ajeno" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ajeno_a_rel" ] ]. ajete_n1 := n_intr_count_le & [ STEM < "ajete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ajete_n_rel" ] ]. ajetreo_n1 := n_intr_mass_le & [ STEM < "ajetreo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ajetreo_n_rel" ] ]. ajo_n1 := n_intr_count_le & [ STEM < "ajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajo_n_rel" ] ]. ajovar_n1 := n_intr_count_le & [ STEM < "ajovar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajovar_n_rel" ] ]. ajuar_n1 := n_intr_count_le & [ STEM < "ajuar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajuar_n_rel" ] ]. ajustable_a1 := a_qual_trans*_ser_le & [ STEM < "ajustable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ajustable_a_rel" ] ]. ajustador_n1 := n_intr_count_le & [ STEM < "ajustador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ajustador_n_rel" ] ]. ajustar_v1 := v_ditrans_le & [ STEM < "ajustar" >, SYNSEM.LKEYS.KEYREL.PRED "_ajustar_v_rel" ]. ajustar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "ajustar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_ajustar_v_rel" ] ] ]. ajuste_n1 := n_trans_le & [ STEM < "ajuste" >, SYNSEM.LKEYS.KEYREL.PRED "_ajuste_n_rel" ]. ajusticiamiento_n1 := n_trans_le & [ STEM < "ajusticiamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_ajusticiamiento_n_rel" ]. ajusticiar_v := v_trans_np_le & [ STEM < "ajusticiar" >, SYNSEM.LKEYS.KEYREL.PRED "_ajusticiar_v_rel" ]. al_abrigo_de_p_vmod := p_vmod_le & [ STEM < "al_abrigo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_abrigo_de_p_rel ]. al_alcance_de_la_mano_x1 := av_i_le & [ STEM < "al_alcance_de_la_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_al_alcance_de_la_mano_x_rel" ]. al_alimón_x1 := av_i_le & [ STEM < "al_alimón" >, SYNSEM.LKEYS.KEYREL.PRED "_al_alimón_x_rel" ]. al_apa_x1 := av_i_le & [ STEM < "al_apa" >, SYNSEM.LKEYS.KEYREL.PRED "_al_apa_x_rel" ]. al_avemaría_x1 := av_i_le & [ STEM < "al_avemaría" >, SYNSEM.LKEYS.KEYREL.PRED "_al_avemaría_x_rel" ]. al_bies_x1 := av_i_le & [ STEM < "al_bies" >, SYNSEM.LKEYS.KEYREL.PRED "_al_bies_x_rel" ]. al_cabo_de_p_vmod := p_vmod_le & [ STEM < "al_cabo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_cabo_de_p_rel ]. al_calor_de_p_vmod := p_vmod_le & [ STEM < "al_calor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_calor_de_p_rel ]. al_carboncillo_x1 := av_i_le & [ STEM < "al_carboncillo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_carboncillo_x_rel" ]. al_cargo_de_p_vmod := p_vmod_le & [ STEM < "al_cargo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_cargo_de_p_rel ]. al_centro_de_p_vmod := p_vmod_le & [ STEM < "al_centro_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_centro_de_p_rel ]. al_chas_chas_x1 := av_i_le & [ STEM < "al_chas_chas" >, SYNSEM.LKEYS.KEYREL.PRED "_al_chas_chas_x_rel" ]. al_cien_por_cien_x1 := av_i_le & [ STEM < "al_cien_por_cien" >, SYNSEM.LKEYS.KEYREL.PRED "_al_cien_por_cien_x_rel" ]. al_cierre_de_el_ejercicio_x1 := av_i_le & [ STEM < "al_cierre_del_ejercicio" >, SYNSEM.LKEYS.KEYREL.PRED "_al_cierre_del_ejercicio_x_rel" ]. al_clarear_el_día_x1 := av_i_le & [ STEM < "al_clarear_el_día" >, SYNSEM.LKEYS.KEYREL.PRED "_al_clarear_el_día_x_rel" ]. al_compás_de_p_vmod := p_vmod_le & [ STEM < "al_compás_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_compás_de_p_rel ]. al_conjuro_de_p_vmod := p_vmod_le & [ STEM < "al_conjuro_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_conjuro_de_p_rel ]. al_correr_de_el_tiempo_x1 := av_i_le & [ STEM < "al_correr_del_tiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_correr_del_tiempo_x_rel" ]. al_correr_de_la_pluma_x1 := av_i_le & [ STEM < "al_correr_de_la_pluma" >, SYNSEM.LKEYS.KEYREL.PRED "_al_correr_de_la_pluma_x_rel" ]. al_decir_de_p_vmod := p_vmod_le & [ STEM < "al_decir_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_decir_de_p_rel ]. al_derredor_de_p_vmod := p_vmod_le & [ STEM < "al_derredor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_derredor_de_p_rel ]. al_desbarate_x1 := av_i_le & [ STEM < "al_desbarate" >, SYNSEM.LKEYS.KEYREL.PRED "_al_desbarate_x_rel" ]. al_descuido_y_con_cuidado_x1 := av_i_le & [ STEM < "al_descuido_y_con_cuidado" >, SYNSEM.LKEYS.KEYREL.PRED "_al_descuido_y_con_cuidado_x_rel" ]. al_desgaire_x1 := av_i_le & [ STEM < "al_desgaire" >, SYNSEM.LKEYS.KEYREL.PRED "_al_desgaire_x_rel" ]. al_detall_x1 := av_i_le & [ STEM < "al_detall" >, SYNSEM.LKEYS.KEYREL.PRED "_al_detall_x_rel" ]. al_estricote_x1 := av_i_le & [ STEM < "al_estricote" >, SYNSEM.LKEYS.KEYREL.PRED "_al_estricote_x_rel" ]. al_filo_de_mediodía_x1 := av_i_le & [ STEM < "al_filo_de_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_al_filo_de_mediodía_x_rel" ]. al_filo_de_p_vmod := p_vmod_le & [ STEM < "al_filo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_filo_de_p_rel ]. al_fin_de_la_jornada_x1 := av_i_le & [ STEM < "al_fin_de_la_jornada" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_de_la_jornada_x_rel" ]. al_fin_y_a_la_postre_x1 := av_i_le & [ STEM < "al_fin_y_a_la_postre" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_y_a_la_postre_x_rel" ]. al_fin_y_al_cabo_x1 := av_i_le & [ STEM < "al_fin_y_al_cabo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_fin_y_al_cabo_x_rel" ]. al_frente_de_p_vmod := p_vmod_le & [ STEM < "al_frente_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_frente_de_p_rel ]. al_gratén_x1 := av_i_le & [ STEM < "al_gratén" >, SYNSEM.LKEYS.KEYREL.PRED "_al_gratén_x_rel" ]. al_grill_x1 := av_i_le & [ STEM < "al_grill" >, SYNSEM.LKEYS.KEYREL.PRED "_al_grill_x_rel" ]. al_gusto_de_p_vmod := p_vmod_le & [ STEM < "al_gusto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_gusto_de_p_rel ]. al_hilo_de_el_viento_x1 := av_i_le & [ STEM < "al_hilo_del_viento" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_del_viento_x_rel" ]. al_hilo_de_mediodía_x1 := av_i_le & [ STEM < "al_hilo_de_mediodía" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_de_mediodía_x_rel" ]. al_hilo_x1 := av_i_le & [ STEM < "al_hilo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_hilo_x_rel" ]. al_igual_que_sc := sc_prop_fin_le & [ STEM < "al_igual_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_igual_que_x_subord_rel" ]. al_interior_de_p_vmod := p_vmod_le & [ STEM < "al_interior_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_interior_de_p_rel ]. al_libre_albedrío_x1 := av_i_le & [ STEM < "al_libre_albedrío" >, SYNSEM.LKEYS.KEYREL.PRED "_al_libre_albedrío_x_rel" ]. al_lucero_de_el_alba_x1 := av_i_le & [ STEM < "al_lucero_del_alba" >, SYNSEM.LKEYS.KEYREL.PRED "_al_lucero_de_el_alba_x_rel" ]. al_mejor_tiempo_x1 := av_i_le & [ STEM < "al_mejor_tiempo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_mejor_tiempo_x_rel" ]. al_modo_de_p_vmod := p_vmod_le & [ STEM < "al_modo_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_modo_de_p_rel ]. al_objeto_de_p_vmod := p_vmod_le & [ STEM < "al_objeto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_objeto_de_p_rel ]. al_olor_de_p_vmod := p_vmod_le & [ STEM < "al_olor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_olor_de_p_rel ]. al_par_que_sc := sc_prop_fin_le & [ STEM < "al_par_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_par_que_x_subord_rel" ]. al_paso_que_sc := sc_prop_fin_le & [ STEM < "al_paso_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_paso_que_x_subord_rel" ]. al_paño_x1 := av_i_le & [ STEM < "al_paño" >, SYNSEM.LKEYS.KEYREL.PRED "_al_paño_x_rel" ]. al_pie_de_fábrica_x1 := av_i_le & [ STEM < "al_pie_de_fábrica" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_fábrica_x_rel" ]. al_pie_de_la_cuesta_x1 := av_i_le & [ STEM < "al_pie_de_la_cuesta" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_cuesta_x_rel" ]. al_pie_de_la_letra_x1 := av_i_le & [ STEM < "al_pie_de_la_letra" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_letra_x_rel" ]. al_pie_de_la_obra_x1 := av_i_le & [ STEM < "al_pie_de_la_obra" >, SYNSEM.LKEYS.KEYREL.PRED "_al_pie_de_la_obra_x_rel" ]. al_poco_rato_x1 := av_i_le & [ STEM < "al_poco_rato" >, SYNSEM.LKEYS.KEYREL.PRED "_al_poco_rato_x_rel" ]. al_por_mayor_x1 := av_i_le & [ STEM < "al_por_mayor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_por_mayor_x_rel" ]. al_por_menor_x1 := av_i_le & [ STEM < "al_por_menor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_por_menor_x_rel" ]. al_primer_envite_x1 := av_i_le & [ STEM < "al_primer_envite" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_envite_x_rel" ]. al_primer_folio_x1 := av_i_le & [ STEM < "al_primer_folio" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_folio_x_rel" ]. al_primer_gallo_x1 := av_i_le & [ STEM < "al_primer_gallo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_gallo_x_rel" ]. al_primer_golpe_de_vista_x1 := av_i_le & [ STEM < "al_primer_golpe_de_vista" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_golpe_de_vista_x_rel" ]. al_primer_impulso_x1 := av_i_le & [ STEM < "al_primer_impulso" >, SYNSEM.LKEYS.KEYREL.PRED "_al_primer_impulso_x_rel" ]. al_punto_que_sc := sc_prop_fin_le & [ STEM < "al_punto_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_punto_que_x_subord_rel" ]. al_rape_x1 := av_i_le & [ STEM < "al_rape" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rape_x_rel" ]. al_raso_x1 := av_i_le & [ STEM < "al_raso" >, SYNSEM.LKEYS.KEYREL.PRED "_al_raso_x_rel" ]. al_rededor_x1 := av_i_le & [ STEM < "al_rededor" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rededor_x_rel" ]. al_retortero_x1 := av_i_le & [ STEM < "al_retortero" >, SYNSEM.LKEYS.KEYREL.PRED "_al_retortero_x_rel" ]. al_rojo_blanco_x1 := av_i_le & [ STEM < "al_rojo_blanco" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rojo_blanco_x_rel" ]. al_rojo_cereza_x1 := av_i_le & [ STEM < "al_rojo_cereza" >, SYNSEM.LKEYS.KEYREL.PRED "_al_rojo_cereza_x_rel" ]. al_sesgo_x1 := av_i_le & [ STEM < "al_sesgo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_sesgo_x_rel" ]. al_socaire_de_p_vmod := p_vmod_le & [ STEM < "al_socaire_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_socaire_de_p_rel ]. al_socaire_x1 := av_i_le & [ STEM < "al_socaire" >, SYNSEM.LKEYS.KEYREL.PRED "_al_socaire_x_rel" ]. al_tanto_de_p_vmod := p_vmod_le & [ STEM < "al_tanto_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_tanto_de_p_rel ]. al_temple_x1 := av_i_le & [ STEM < "al_temple" >, SYNSEM.LKEYS.KEYREL.PRED "_al_temple_x_rel" ]. al_tendido_x1 := av_i_le & [ STEM < "al_tendido" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tendido_x_rel" ]. al_tenor_de_p_vmod := p_vmod_le & [ STEM < "al_tenor_de" >, SYNSEM.LKEYS.KEYREL.PRED _al_tenor_de_p_rel ]. al_tiempo_que_sc := sc_prop_fin_le & [ STEM < "al_tiempo_que" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tiempo_que_x_subord_rel" ]. al_tresbolillo_x1 := av_i_le & [ STEM < "al_tresbolillo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_tresbolillo_x_rel" ]. al_volateo_x1 := av_i_le & [ STEM < "al_volateo" >, SYNSEM.LKEYS.KEYREL.PRED "_al_volateo_x_rel" ]. ala_n1 := n_intr_count_le & [ STEM < "ala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ala_n_rel" ] ]. alabador_a1 := a_rel_nonprd_intr_le & [ STEM < "alabador" >, SYNSEM.LKEYS.KEYREL.PRED "_alabador_a_rel" ]. alabandita_n1 := n_intr_count_le & [ STEM < "alabandita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alabandita_n_rel" ] ]. alabanza_n1 := n_trans_le & [ STEM < "alabanza" >, SYNSEM.LKEYS.KEYREL.PRED "_alabanza_n_rel" ]. alabar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "alabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ] ]. alabar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "alabar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alabar_v_rel" ] ] ]. alabar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabar_v4 := v_trans_cp_semi_ques_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabar_v5 := v_trans_np_le & [ STEM < "alabar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alabar_v_rel" ] ]. alabarda_n1 := n_intr_count_le & [ STEM < "alabarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alabarda_n_rel" ] ]. alabardero_n1 := n_intr_count_le & [ STEM < "alabardero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alabardero_n_rel" ] ]. alabastrado_a1 := a_qual_intr_scopal_le & [ STEM < "alabastrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alabastrado_a_rel" ]. alabastrino_a1 := a_qual_intr_scopal_le & [ STEM < "alabastrino" >, SYNSEM.LKEYS.KEYREL.PRED "_alabastrino_a_rel" ]. alabastro_n1 := n_intr_mass_le & [ STEM < "alabastro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alabastro_n_rel" ] ]. alabear_v := v_trans_np_caus_le & [ STEM < "alabear" >, SYNSEM.LKEYS.KEYREL.PRED "_alabear_v_rel" ]. alabeo_n1 := n_trans_le & [ STEM < "alabeo" >, SYNSEM.LKEYS.KEYREL.PRED "_alabeo_n_rel" ]. alacena_n1 := n_intr_count_le & [ STEM < "alacena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alacena_n_rel" ] ]. alacridad_n1 := n_intr_mass_le & [ STEM < "alacridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alacridad_n_rel" ] ]. alacrán_n1 := n_intr_count_le & [ STEM < "alacrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alacrán_n_rel" ] ]. alado_a1 := a_rel_nonprd_intr_le & [ STEM < "alado" >, SYNSEM.LKEYS.KEYREL.PRED "_alado_a_rel" ]. alajú_n1 := n_intr_count_le & [ STEM < "alajú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alajú_n_rel" ] ]. alambicar_v := v_trans_np_le & [ STEM < "alambicar" >, SYNSEM.LKEYS.KEYREL.PRED "_alambicar_v_rel" ]. alambique_n1 := n_intr_count_le & [ STEM < "alambique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambique_n_rel" ] ]. alambor_n1 := n_intr_count_le & [ STEM < "alambor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambor_n_rel" ] ]. alambrada_n1 := n_intr_count_le & [ STEM < "alambrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambrada_n_rel" ] ]. alambrado_n1 := n_trans_le & [ STEM < "alambrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alambrado_n_rel" ]. alambrar_v := v_trans_np_le & [ STEM < "alambrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT cnc_loc, PRED "_alambrar_v_rel" ] ]. alambre_n1 := n_intr_mass-or-count_le & [ STEM < "alambre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alambre_n_rel" ] ]. alambrera_n1 := n_intr_count_le & [ STEM < "alambrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alambrera_n_rel" ] ]. alameda_n1 := n_intr_count_le & [ STEM < "alameda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alameda_n_rel" ] ]. alanita_n1 := n_intr_count_le & [ STEM < "alanita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alanita_n_rel" ] ]. alantoína_n1 := n_intr_count_le & [ STEM < "alantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alantoína_n_rel" ] ]. alarde_n1 := n_result_intr_ppcomp_le & [ STEM < "alarde" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alarde_n_rel" ] ]. alargadamente_x1 := av_i_spr_le & [ STEM < "alargadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alargadamente_x_rel" ]. alargador_n1 := n_intr_count_le & [ STEM < "alargador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alargador_n_rel" ] ]. alargamiento_n1 := n_trans_le & [ STEM < "alargamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alargamiento_n_rel" ]. alargar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "alargar" >, SYNSEM.LKEYS.KEYREL.PRED "_alargar_v_rel" ]. alargar_v2 := v_trans_np_caus_le & [ STEM < "alargar" >, SYNSEM.LKEYS.KEYREL.PRED "_alargar_v_rel" ]. alarido_n1 := n_intr_count_le & [ STEM < "alarido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alarido_n_rel" ] ]. alarma_n1 := n_intr_mass-or-count_le & [ STEM < "alarma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alarma_n_rel" ] ]. alarmante_a1 := a_qual_intr_scopal_le & [ STEM < "alarmante" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmante_a_rel" ]. alarmantemente_x1 := av_i_spr_le & [ STEM < "alarmantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmantemente_x_rel" ]. alarmar_v1 := v_intr_io*_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_alarmar_v_rel" ] ]. alarmar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmar_v_rel" ]. alarmar_v3 := v_trans_np_caus_le & [ STEM < "alarmar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_alarmar_v_rel" ] ]. alarmista_a1 := a_qual_intr_ser_le & [ STEM < "alarmista" >, SYNSEM.LKEYS.KEYREL.PRED "_alarmista_a_rel" ]. alarmista_n1 := n_intr_count_le & [ STEM < "alarmista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alarmista_n_rel" ] ]. alavés_a1 := a_rel_prd_le & [ STEM < "alavés" >, SYNSEM.LKEYS.KEYREL.PRED "_alavés_a_rel" ]. alavés_n1 := n_intr_count_le & [ STEM < "alavés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alavés_n_rel" ] ]. alazor_n1 := n_intr_count_le & [ STEM < "alazor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alazor_n_rel" ] ]. alba_n1 := n_intr_count_le & [ STEM < "alba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_alba_n_rel" ] ]. albacea_n1 := n_intr_count_le & [ STEM < "albacea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albacea_n_rel" ] ]. albaceazgo_n1 := n_intr_uncount_le & [ STEM < "albaceazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albaceazgo_n_rel" ] ]. albaceteño_n1 := n_intr_count_le & [ STEM < "albaceteño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albaceteño_n_rel" ] ]. albahaca_n1 := n_intr_mass-or-count_le & [ STEM < "albahaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_albahaca_n_rel" ] ]. albano_a1 := a_rel_prd_le & [ STEM < "albano" >, SYNSEM.LKEYS.KEYREL.PRED "_albano_a_rel" ]. albano_n1 := n_intr_count_le & [ STEM < "albano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albano_n_rel" ] ]. albanés_a1 := a_rel_prd_le & [ STEM < "albanés" >, SYNSEM.LKEYS.KEYREL.PRED "_albanés_a_rel" ]. albanés_n1 := n_intr_count_le & [ STEM < "albanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albanés_n_rel" ] ]. albar_a1 := a_qual_intr_ser_le & [ STEM < "albar" >, SYNSEM.LKEYS.KEYREL.PRED "_albar_a_rel" ]. albarda_n1 := n_intr_count_le & [ STEM < "albarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarda_n_rel" ] ]. albaricoque_n1 := n_intr_mass_le & [ STEM < "albaricoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albaricoque_n_rel" ] ]. albaricoquero_n1 := n_intr_count_le & [ STEM < "albaricoquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_albaricoquero_n_rel" ] ]. albarrada_n1 := n_intr_count_le & [ STEM < "albarrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarrada_n_rel" ] ]. albarán_n1 := n_intr_count_le & [ STEM < "albarán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albarán_n_rel" ] ]. albatros_n1 := n_intr_count_le & [ STEM < "albatros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_albatros_n_rel" ] ]. albañal_n1 := n_intr_count_le & [ STEM < "albañal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albañal_n_rel" ] ]. albañil_n1 := n_intr_count_le & [ STEM < "albañil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albañil_n_rel" ] ]. albañilería_n1 := n_intr_uncount_le & [ STEM < "albañilería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albañilería_n_rel" ] ]. albedo_n1 := n_intr_uncount_le & [ STEM < "albedo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albedo_n_rel" ] ]. albedrío_n1 := n_intr_uncount_pl_le & [ STEM < "albedrío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albedrío_n_rel" ] ]. alberca_n1 := n_intr_count_le & [ STEM < "alberca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alberca_n_rel" ] ]. albergar_v := v_trans_np_le & [ STEM < "albergar" >, SYNSEM.LKEYS.KEYREL.PRED "_albergar_v_rel" ]. albergue_n1 := n_intr_count_le & [ STEM < "albergue" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_albergue_n_rel" ] ]. albertita_n1 := n_intr_count_le & [ STEM < "albertita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albertita_n_rel" ] ]. albicante_a1 := a_qual_intr_ser_le & [ STEM < "albicante" >, SYNSEM.LKEYS.KEYREL.PRED "_albicante_a_rel" ]. albigense_a1 := a_rel_prd_le & [ STEM < "albigense" >, SYNSEM.LKEYS.KEYREL.PRED "_albigense_a_rel" ]. albigense_n1 := n_intr_count_le & [ STEM < "albigense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_albigense_n_rel" ] ]. albinismo_n1 := n_intr_uncount_le & [ STEM < "albinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albinismo_n_rel" ] ]. albino_a1 := a_qual_intr_ser_le & [ STEM < "albino" >, SYNSEM.LKEYS.KEYREL.PRED "_albino_a_rel" ]. albita_n1 := n_intr_count_le & [ STEM < "albita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albita_n_rel" ] ]. albor_n1 := n_intr_uncount_pl_le & [ STEM < "albor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albor_n_rel" ] ]. alborada_n1 := n_intr_uncount_le & [ STEM < "alborada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborada_n_rel" ] ]. alborada_n2 := n_intr_count_le & [ STEM < "alborada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborada_n_rel" ] ]. albornoz_n1 := n_intr_count_le & [ STEM < "albornoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albornoz_n_rel" ] ]. alborotadamente_x1 := av_i_spr_le & [ STEM < "alborotadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alborotadamente_x_rel" ]. alborotador_n1 := n_subj-nom_le & [ STEM < "alborotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alborotador_n_rel" ] ]. alborotar_v := v_trans_np_caus_le & [ STEM < "alborotar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborotar_v_rel" ]. alboroto_n1 := n_trans_le & [ STEM < "alboroto" >, SYNSEM.LKEYS.KEYREL.PRED "_alboroto_n_rel" ]. alborozar_v1 := v_intr_io*_le & [ STEM < "alborozar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborozar_v_rel" ]. alborozar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alborozar" >, SYNSEM.LKEYS.KEYREL.PRED "_alborozar_v_rel" ]. alborozo_n1 := n_intr_mass_le & [ STEM < "alborozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alborozo_n_rel" ] ]. albufera_n1 := n_intr_count_le & [ STEM < "albufera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_albufera_n_rel" ] ]. albugínea_n1 := n_intr_uncount_le & [ STEM < "albugínea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albugínea_n_rel" ] ]. albumen_n1 := n_intr_mass-or-count_le & [ STEM < "albumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_albumen_n_rel" ] ]. albuminemia_n1 := n_intr_uncount_le & [ STEM < "albuminemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albuminemia_n_rel" ] ]. albuminoide_n1 := n_intr_count_le & [ STEM < "albuminoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_albuminoide_n_rel" ] ]. albuminoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminoideo_a_rel" ]. albuminosamente_x1 := av_i_spr_le & [ STEM < "albuminosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminosamente_x_rel" ]. albuminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminoso_a_rel" ]. albuminúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "albuminúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_albuminúrico_a_rel" ]. albumosa_n1 := n_intr_mass-or-count_le & [ STEM < "albumosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_albumosa_n_rel" ] ]. albur_n1 := n_intr_count_le & [ STEM < "albur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albur_n_rel" ] ]. albura_n1 := n_intr_uncount_le & [ STEM < "albura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_albura_n_rel" ] ]. albóndiga_n1 := n_intr_count_le & [ STEM < "albóndiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albóndiga_n_rel" ] ]. albúmina_n1 := n_intr_mass_le & [ STEM < "albúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_albúmina_n_rel" ] ]. alca_n1 := n_intr_count_le & [ STEM < "alca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alca_n_rel" ] ]. alcabor_n1 := n_intr_count_le & [ STEM < "alcabor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcabor_n_rel" ] ]. alcachofa_n1 := n_intr_mass_le & [ STEM < "alcachofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcachofa_n_rel" ] ]. alcachofera_n1 := n_intr_count_le & [ STEM < "alcachofera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcachofera_n_rel" ] ]. alcahuete_n1 := n_intr_count_le & [ STEM < "alcahuete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcahuete_n_rel" ] ]. alcahuetería_n1 := n_intr_uncount_le & [ STEM < "alcahuetería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcahuetería_n_rel" ] ]. alcaide_n1 := n_intr_count_le & [ STEM < "alcaide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcaide_n_rel" ] ]. alcalde_n1 := n_intr_count_le & [ STEM < "alcalde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcalde_n_rel" ] ]. alcaldesa_n1 := n_intr_count_le & [ STEM < "alcaldesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcaldesa_n_rel" ] ]. alcaldía_n1 := n_intr_count_le & [ STEM < "alcaldía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_alcaldía_n_rel" ] ]. alcalimetría_n1 := n_intr_count_le & [ STEM < "alcalimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalimetría_n_rel" ] ]. alcalinidad_n1 := n_ppcomp_mass_le & [ STEM < "alcalinidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalinidad_n_rel" ] ]. alcalinización_n1 := n_trans_le & [ STEM < "alcalinización" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalinización_n_rel" ]. alcalino_a1 := a_rel_nonprd_intr_le & [ STEM < "alcalino" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalino_a_rel" ]. alcalinotérreo_a1 := a_rel_nonprd_intr_le & [ STEM < "alcalinotérreo" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalinotérreo_a_rel" ]. alcalizar_v := v_trans_np_le & [ STEM < "alcalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcalizar_v_rel" ]. alcaloide_n1 := n_intr_count_le & [ STEM < "alcaloide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcaloide_n_rel" ] ]. alcalosis_n1 := n_intr_uncount_le & [ STEM < "alcalosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcalosis_n_rel" ] ]. alcalímetro_n1 := n_intr_count_le & [ STEM < "alcalímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcalímetro_n_rel" ] ]. alcance_n1 := n_trans_le & [ STEM < "alcance" >, SYNSEM.LKEYS.KEYREL.PRED "_alcance_n_rel" ]. alcancía_n1 := n_intr_count_le & [ STEM < "alcancía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcancía_n_rel" ] ]. alcanfor_n1 := n_intr_mass_le & [ STEM < "alcanfor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcanfor_n_rel" ] ]. alcanforero_n1 := n_intr_count_le & [ STEM < "alcanforero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcanforero_n_rel" ] ]. alcano_n1 := n_intr_count_le & [ STEM < "alcano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcano_n_rel" ] ]. alcanosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcanosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanosulfónico_a_rel" ]. alcantarilla_n1 := n_intr_count_le & [ STEM < "alcantarilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcantarilla_n_rel" ] ]. alcantarillado_n1 := n_intr_mass_le & [ STEM < "alcantarillado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcantarillado_n_rel" ] ]. alcanzable_a1 := a_qual_intr_scopal_le & [ STEM < "alcanzable" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzable_a_rel" ]. alcanzar_v1 := v_ditrans_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v2 := v_intr_io*_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v3 := v_intr_mrkd_vp_ssr_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alcanzar_v_rel" ] ]. alcanzar_v4 := v_intr_mrkd_np_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_alcanzar_v_rel" ] ] ]. alcanzar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcanzar_v_rel" ]. alcanzar_v6 := v_trans_cp_prop_fin_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alcanzar_v_rel" ] ]. alcanzar_v7 := v_trans_np_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alcanzar_v_rel" ] ]. alcanzar_v8 := v_intr_mrkd_vp_ssr_le & [ STEM < "alcanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alcanzar_v_rel" ] ]. alcaparra_n1 := n_intr_mass_le & [ STEM < "alcaparra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcaparra_n_rel" ] ]. alcaparrera_n1 := n_intr_count_le & [ STEM < "alcaparrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcaparrera_n_rel" ] ]. alcaravea_n1 := n_intr_mass_le & [ STEM < "alcaravea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcaravea_n_rel" ] ]. alcarreño_n1 := n_intr_count_le & [ STEM < "alcarreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcarreño_n_rel" ] ]. alcatraz_n1 := n_intr_count_le & [ STEM < "alcatraz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcatraz_n_rel" ] ]. alcaudón_n1 := n_intr_count_le & [ STEM < "alcaudón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcaudón_n_rel" ] ]. alcayata_n1 := n_intr_count_le & [ STEM < "alcayata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcayata_n_rel" ] ]. alcazaba_n1 := n_intr_count_le & [ STEM < "alcazaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcazaba_n_rel" ] ]. alce_n1 := n_intr_count_le & [ STEM < "alce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alce_n_rel" ] ]. alcista_a1 := a_rel_nonprd_intr_le & [ STEM < "alcista" >, SYNSEM.LKEYS.KEYREL.PRED "_alcista_a_rel" ]. alcista_a2 := a_qual_intr_ser_le & [ STEM < "alcista" >, SYNSEM.LKEYS.KEYREL.PRED "_alcista_a_rel" ]. alcoba_n1 := n_intr_count_le & [ STEM < "alcoba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alcoba_n_rel" ] ]. alcohilato_n1 := n_intr_count_le & [ STEM < "alcohilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcohilato_n_rel" ] ]. alcohilo_n1 := n_intr_mass-or-count_le & [ STEM < "alcohilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alcohilo_n_rel" ] ]. alcohol_n1 := n_intr_count_le & [ STEM < "alcohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcohol_n_rel" ] ]. alcoholato_n1 := n_intr_count_le & [ STEM < "alcoholato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcoholato_n_rel" ] ]. alcoholatura_n1 := n_intr_count_le & [ STEM < "alcoholatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholatura_n_rel" ] ]. alcoholaturo_n1 := n_intr_mass_le & [ STEM < "alcoholaturo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcoholaturo_n_rel" ] ]. alcoholemia_n1 := n_intr_uncount_le & [ STEM < "alcoholemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholemia_n_rel" ] ]. alcoholimetría_n1 := n_intr_count_le & [ STEM < "alcoholimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholimetría_n_rel" ] ]. alcoholismo_n1 := n_intr_uncount_le & [ STEM < "alcoholismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcoholismo_n_rel" ] ]. alcoholización_n1 := n_trans_le & [ STEM < "alcoholización" >, SYNSEM.LKEYS.KEYREL.PRED "_alcoholización_n_rel" ]. alcoholizar_v := v_trans_np_caus_le & [ STEM < "alcoholizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alcoholizar_v_rel" ]. alcoholímetro_n1 := n_intr_count_le & [ STEM < "alcoholímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcoholímetro_n_rel" ] ]. alcohólico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcohólico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcohólico_a_rel" ]. alcohólico_n1 := n_intr_count_le & [ STEM < "alcohólico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alcohólico_n_rel" ] ]. alcohómetro_n1 := n_intr_count_le & [ STEM < "alcohómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_alcohómetro_n_rel" ] ]. alcornoque_n1 := n_intr_count_le & [ STEM < "alcornoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alcornoque_n_rel" ] ]. alcorque_n1 := n_intr_count_le & [ STEM < "alcorque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alcorque_n_rel" ] ]. alcorza_n1 := n_intr_mass-or-count_le & [ STEM < "alcorza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_alcorza_n_rel" ] ]. alcosol_n1 := n_intr_count_le & [ STEM < "alcosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alcosol_n_rel" ] ]. alcotán_n1 := n_intr_count_le & [ STEM < "alcotán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alcotán_n_rel" ] ]. alcurnia_n1 := n_intr_mass_le & [ STEM < "alcurnia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alcurnia_n_rel" ] ]. alcázar_n1 := n_intr_count_le & [ STEM < "alcázar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alcázar_n_rel" ] ]. alcídicamente_x1 := av_i_spr_le & [ STEM < "alcídicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alcídicamente_x_rel" ]. alcídico_a1 := a_rel_nonprd_intr_le & [ STEM < "alcídico" >, SYNSEM.LKEYS.KEYREL.PRED "_alcídico_a_rel" ]. aldaba_n1 := n_intr_count_le & [ STEM < "aldaba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aldaba_n_rel" ] ]. aldabilla_n1 := n_intr_count_le & [ STEM < "aldabilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aldabilla_n_rel" ] ]. aldea_n1 := n_intr_count_le & [ STEM < "aldea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aldea_n_rel" ] ]. aldeano_a1 := a_qual_intr_ser_le & [ STEM < "aldeano" >, SYNSEM.LKEYS.KEYREL.PRED "_aldeano_a_rel" ]. aldeano_n1 := n_intr_count_le & [ STEM < "aldeano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aldeano_n_rel" ] ]. aldehído_n1 := n_intr_mass_le & [ STEM < "aldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldehído_n_rel" ] ]. aldimina_n1 := n_intr_count_le & [ STEM < "aldimina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldimina_n_rel" ] ]. aldol_n1 := n_intr_count_le & [ STEM < "aldol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldol_n_rel" ] ]. aldosterona_n1 := n_intr_count_le & [ STEM < "aldosterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldosterona_n_rel" ] ]. aldoxima_n1 := n_intr_mass-or-count_le & [ STEM < "aldoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aldoxima_n_rel" ] ]. aldrina_n1 := n_intr_count_le & [ STEM < "aldrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aldrina_n_rel" ] ]. aleación_n1 := n_trans_le & [ STEM < "aleación" >, SYNSEM.LKEYS.KEYREL.PRED "_aleación_n_rel" ]. alear_v := v_trans_np_le & [ STEM < "alear" >, SYNSEM.LKEYS.KEYREL.PRED "_alear_v_rel" ]. aleatoriamente_x1 := av_i_spr_le & [ STEM < "aleatoriamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aleatoriamente_x_rel" ]. aleatoriedad_n1 := n_ppcomp_mass_le & [ STEM < "aleatoriedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleatoriedad_n_rel" ] ]. aleatorio_a1 := a_qual_intr_scopal_le & [ STEM < "aleatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aleatorio_a_rel" ]. aleatorización_n1 := n_intr_uncount_le & [ STEM < "aleatorización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleatorización_n_rel" ] ]. aleccionamiento_n1 := n_trans_le & [ STEM < "aleccionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aleccionamiento_n_rel" ]. aleccionar_v := v_trans_np_mrkd_np*_le & [ STEM < "aleccionar" >, SYNSEM.LKEYS [ --OCOMPKEY en_or_sobre_p_sel_rel, KEYREL.PRED "_aleccionar_v_rel" ] ]. aledaño_a1 := a_qual_trans*_ser_le & [ STEM < "aledaño" >, SYNSEM.LKEYS [ --COMPKEY a_or_de_p_sel_rel, KEYREL.PRED "_aledaño_a_rel" ] ]. aledaño_n1 := n_intr_count_le & [ STEM < "aledaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_aledaño_n_rel" ] ]. alegación_n1 := n_trans_le & [ STEM < "alegación" >, SYNSEM.LKEYS.KEYREL.PRED "_alegación_n_rel" ]. alegar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "alegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_alegar_v_rel" ] ]. alegar_v2 := v_ditrans*_le & [ STEM < "alegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alegar_v_rel" ] ]. alegato_n1 := n_intr_count_le & [ STEM < "alegato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alegato_n_rel" ] ]. alegoría_n1 := n_intr_count_le & [ STEM < "alegoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_alegoría_n_rel" ] ]. alegrar_v1 := v_intr_io*_le & [ STEM < "alegrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alegrar_v_rel" ]. alegrar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_alegrar_v_rel" ] ] ]. alegrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alegrar_v_rel" ] ] ]. alegrar_v4 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "alegrar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT hum, PRED "_alegrar_v_rel" ] ] ]. alegrar_v5 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alegrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alegrar_v_rel" ]. alegre_a1 := a_qual_intr_ser_le & [ STEM < "alegre" >, SYNSEM.LKEYS.KEYREL.PRED "_alegre_a_rel" ]. alegre_a2 := a_qual_trans_estar_le & [ STEM < "alegre" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_alegre_a_rel" ] ]. alegremente_x1 := av_i_spr_le & [ STEM < "alegremente" >, SYNSEM.LKEYS.KEYREL.PRED "_alegremente_x_rel" ]. alegría_n1 := n_intr_mass-or-count_le & [ STEM < "alegría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alegría_n_rel" ] ]. alegóricamente_x1 := av_i_spr_le & [ STEM < "alegóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alegóricamente_x_rel" ]. alegórico_a1 := a_qual_intr_scopal_le & [ STEM < "alegórico" >, SYNSEM.LKEYS.KEYREL.PRED "_alegórico_a_rel" ]. alejamiento_n1 := n_trans_le & [ STEM < "alejamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alejamiento_n_rel" ]. alejandrino_n1 := n_intr_count_le & [ STEM < "alejandrino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_alejandrino_n_rel" ] ]. alejandrita_n1 := n_intr_count_le & [ STEM < "alejandrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alejandrita_n_rel" ] ]. alejar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alejar_v_rel" ] ] ]. alejar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alejar_v_rel" ] ]. alejar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "alejar" >, SYNSEM.LKEYS.KEYREL.PRED "_alejar_v_rel" ]. alejar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "alejar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_alejar_v_rel" ] ]. aleladamente_x1 := av_i_spr_le & [ STEM < "aleladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aleladamente_x_rel" ]. alelamiento_n1 := n_trans_le & [ STEM < "alelamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alelamiento_n_rel" ]. alelar_v1 := v_intr_io*_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL.PRED "_alelar_v_rel" ]. alelar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL.PRED "_alelar_v_rel" ]. alelar_v3 := v_trans_np_le & [ STEM < "alelar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_alelar_v_rel" ] ]. alelismo_n1 := n_intr_uncount_le & [ STEM < "alelismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelismo_n_rel" ] ]. alelo_n1 := n_intr_count_le & [ STEM < "alelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alelo_n_rel" ] ]. alelomorfismo_n1 := n_intr_uncount_le & [ STEM < "alelomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelomorfismo_n_rel" ] ]. alelomorfo_n1 := n_intr_count_le & [ STEM < "alelomorfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alelomorfo_n_rel" ] ]. alelotipo_n1 := n_intr_count_le & [ STEM < "alelotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alelotipo_n_rel" ] ]. aleluya_n1 := n_intr_count_le & [ STEM < "aleluya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aleluya_n_rel" ] ]. alemán_a1 := a_rel_prd_le & [ STEM < "alemán" >, SYNSEM.LKEYS.KEYREL.PRED "_alemán_a_rel" ]. alemán_n1 := n_intr_count_le & [ STEM < "alemán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alemán_n_rel" ] ]. aleno_n1 := n_intr_mass-or-count_le & [ STEM < "aleno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_aleno_n_rel" ] ]. alentador_a1 := a_qual_intr_scopal_le & [ STEM < "alentador" >, SYNSEM.LKEYS.KEYREL.PRED "_alentador_a_rel" ]. alentar_v1 := v_intr_io*_le & [ STEM < "alentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alentar_v_rel" ]. alentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alentar_v_rel" ]. alentar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alentar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alentar_v5 := v_trans_np_mrkd_np_le & [ STEM < "alentar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alentar_v_rel" ] ] ]. alerce_n1 := n_intr_count_le & [ STEM < "alerce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alerce_n_rel" ] ]. alergeno_n1 := n_intr_mass_le & [ STEM < "alergeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alergeno_n_rel" ] ]. alergia_n1 := n_intr_mass_le & [ STEM < "alergia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergia_n_rel" ] ]. alergización_n1 := n_intr_uncount_le & [ STEM < "alergización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergización_n_rel" ] ]. alergizar_v := v_pron_intr_le & [ STEM < "alergizar" >, SYNSEM.LKEYS.KEYREL.PRED "_alergizar_v_rel" ]. alergología_n1 := n_intr_uncount_le & [ STEM < "alergología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alergología_n_rel" ] ]. alergólogo_n1 := n_intr_count_le & [ STEM < "alergólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alergólogo_n_rel" ] ]. alero_n1 := n_intr_count_le & [ STEM < "alero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum_loc, PRED "_alero_n_rel" ] ]. alerta_n1 := n_intr_mass-or-count_le & [ STEM < "alerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alerta_n_rel" ] ]. alerta_x1 := av_i_psthd_spr_le & [ STEM < "alerta" >, SYNSEM.LKEYS.KEYREL.PRED "_alerta_x_rel" ]. alertar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "alertar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alertar_v_rel" ] ] ]. alertar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "alertar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_alertar_v_rel" ] ] ]. alerón_n1 := n_intr_count_le & [ STEM < "alerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alerón_n_rel" ] ]. aleta_n1 := n_intr_count_le & [ STEM < "aleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aleta_n_rel" ] ]. aletazo_n1 := n_intr_count_le & [ STEM < "aletazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aletazo_n_rel" ] ]. aletear_v := v_intr_le & [ STEM < "aletear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_aletear_v_rel" ] ]. aleteo_n1 := n_result_intr_le & [ STEM < "aleteo" >, SYNSEM.LKEYS.KEYREL.PRED "_aleteo_n_rel" ]. aletrina_n1 := n_intr_count_le & [ STEM < "aletrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aletrina_n_rel" ] ]. aleucémico_a1 := a_rel_nonprd_intr_le & [ STEM < "aleucémico" >, SYNSEM.LKEYS.KEYREL.PRED "_aleucémico_a_rel" ]. aleurona_n1 := n_intr_count_le & [ STEM < "aleurona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aleurona_n_rel" ] ]. alevosamente_x1 := av_i_spr_le & [ STEM < "alevosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alevosamente_x_rel" ]. alevoso_a1 := a_qual_intr_scopal_le & [ STEM < "alevoso" >, SYNSEM.LKEYS.KEYREL.PRED "_alevoso_a_rel" ]. alevosía_n1 := n_intr_uncount_le & [ STEM < "alevosía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alevosía_n_rel" ] ]. alevín_n1 := n_intr_count_le & [ STEM < "alevín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alevín_n_rel" ] ]. alexia_n1 := n_intr_uncount_pl_le & [ STEM < "alexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alexia_n_rel" ] ]. alexina_n1 := n_intr_count_le & [ STEM < "alexina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alexina_n_rel" ] ]. alexitimia_n1 := n_intr_uncount_le & [ STEM < "alexitimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alexitimia_n_rel" ] ]. alfa_a1 := a_rel_nonprd_intr_le & [ STEM < "alfa" >, SYNSEM.LKEYS.KEYREL.PRED "_alfa_a_rel" ]. alfa_n1 := n_intr_uncount_le & [ STEM < "alfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfa_n_rel" ] ]. alfabetización_n1 := n_trans_le & [ STEM < "alfabetización" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabetización_n_rel" ]. alfabetizar_v := v_trans_np_le & [ STEM < "alfabetizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT hum_soc, PRED "_alfabetizar_v_rel" ] ]. alfabeto_n1 := n_intr_count_le & [ STEM < "alfabeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfabeto_n_rel" ] ]. alfabéticamente_x1 := av_i_spr_le & [ STEM < "alfabéticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabéticamente_x_rel" ]. alfabético_a1 := a_rel_nonprd_intr_le & [ STEM < "alfabético" >, SYNSEM.LKEYS.KEYREL.PRED "_alfabético_a_rel" ]. alfafetoproteína_n1 := n_intr_count_le & [ STEM < "alfafetoproteína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfafetoproteína_n_rel" ] ]. alfaglobulina_n1 := n_intr_count_le & [ STEM < "alfaglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfaglobulina_n_rel" ] ]. alfalfa_n1 := n_intr_mass_le & [ STEM < "alfalfa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alfalfa_n_rel" ] ]. alfanje_n1 := n_intr_count_le & [ STEM < "alfanje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfanje_n_rel" ] ]. alfanuméricamente_x1 := av_i_spr_le & [ STEM < "alfanuméricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alfanuméricamente_x_rel" ]. alfanumérico_a1 := a_rel_nonprd_intr_le & [ STEM < "alfanumérico" >, SYNSEM.LKEYS.KEYREL.PRED "_alfanumérico_a_rel" ]. alfaque_n1 := n_intr_count_le & [ STEM < "alfaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alfaque_n_rel" ] ]. alfarero_n1 := n_intr_count_le & [ STEM < "alfarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alfarero_n_rel" ] ]. alfarería_n1 := n_intr_uncount_le & [ STEM < "alfarería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfarería_n_rel" ] ]. alfarje_n1 := n_intr_count_le & [ STEM < "alfarje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alfarje_n_rel" ] ]. alfarrazar_v := v_trans_np_le & [ STEM < "alfarrazar" >, SYNSEM.LKEYS.KEYREL.PRED "_alfarrazar_v_rel" ]. alfeñique_n1 := n_intr_count_le & [ STEM < "alfeñique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alfeñique_n_rel" ] ]. alfil_n1 := n_intr_count_le & [ STEM < "alfil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfil_n_rel" ] ]. alfiler_n1 := n_intr_count_le & [ STEM < "alfiler" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfiler_n_rel" ] ]. alfombra_n1 := n_intr_count_le & [ STEM < "alfombra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfombra_n_rel" ] ]. alfombrado_n1 := n_trans_le & [ STEM < "alfombrado" >, SYNSEM.LKEYS.KEYREL.PRED "_alfombrado_n_rel" ]. alfombrar_v := v_trans_np_le & [ STEM < "alfombrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alfombrar_v_rel" ] ]. alfondega_n1 := n_intr_count_le & [ STEM < "alfondega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alfondega_n_rel" ] ]. alforfón_n1 := n_intr_mass_le & [ STEM < "alforfón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alforfón_n_rel" ] ]. alforja_n1 := n_intr_count_le & [ STEM < "alforja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alforja_n_rel" ] ]. alféizar_n1 := n_intr_count_le & [ STEM < "alféizar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alféizar_n_rel" ] ]. alférez_n1 := n_intr_count_le & [ STEM < "alférez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alférez_n_rel" ] ]. alga_n1 := n_intr_mass_le & [ STEM < "alga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alga_n_rel" ] ]. algal_a1 := a_rel_nonprd_intr_le & [ STEM < "algal" >, SYNSEM.LKEYS.KEYREL.PRED "_algal_a_rel" ]. algar_n1 := n_intr_count_le & [ STEM < "algar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_algar_n_rel" ] ]. algarabía_n1 := n_intr_mass_le & [ STEM < "algarabía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algarabía_n_rel" ] ]. algarada_n1 := n_intr_count_le & [ STEM < "algarada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algarada_n_rel" ] ]. algarroba_n1 := n_intr_mass_le & [ STEM < "algarroba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_algarroba_n_rel" ] ]. algarrobero_n1 := n_intr_count_le & [ STEM < "algarrobero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_algarrobero_n_rel" ] ]. algarrobo_n1 := n_intr_count_le & [ STEM < "algarrobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_algarrobo_n_rel" ] ]. algebraicamente_x1 := av_i_spr_le & [ STEM < "algebraicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algebraicamente_x_rel" ]. algebraico_a1 := a_rel_nonprd_intr_le & [ STEM < "algebraico" >, SYNSEM.LKEYS.KEYREL.PRED "_algebraico_a_rel" ]. algesiógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "algesiógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_algesiógeno_a_rel" ]. algiacusia_n1 := n_intr_uncount_le & [ STEM < "algiacusia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algiacusia_n_rel" ] ]. alginato_n1 := n_intr_count_le & [ STEM < "alginato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alginato_n_rel" ] ]. algo_p := pr_pseudo-part_algo_le & [ STEM < "algo" > ]. algo_x1 := av_qnt-deg_le & [ STEM < "algo" >, SYNSEM.LKEYS.KEYREL.PRED "_algo_x_deg_rel" ]. algo_x2 := av_qnt-pron_alg_le & [ STEM < "algo" > ]. algodonal_n1 := n_intr_count_le & [ STEM < "algodonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_algodonal_n_rel" ] ]. algodoncillo_n1 := n_intr_count_le & [ STEM < "algodoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_algodoncillo_n_rel" ] ]. algodonero_n1 := n_intr_count_le & [ STEM < "algodonero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_algodonero_n_rel" ] ]. algodonita_n1 := n_intr_count_le & [ STEM < "algodonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_algodonita_n_rel" ] ]. algodonización_n1 := n_trans_le & [ STEM < "algodonización" >, SYNSEM.LKEYS.KEYREL.PRED "_algodonización_n_rel" ]. algodonoso_a1 := a_qual_intr_scopal_le & [ STEM < "algodonoso" >, SYNSEM.LKEYS.KEYREL.PRED "_algodonoso_a_rel" ]. algodón_n1 := n_intr_mass-or-count_le & [ STEM < "algodón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_algodón_n_rel" ] ]. algoritmo_n1 := n_intr_count_le & [ STEM < "algoritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_algoritmo_n_rel" ] ]. algorítmicamente_x1 := av_i_spr_le & [ STEM < "algorítmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algorítmicamente_x_rel" ]. algorítmico_a1 := a_rel_nonprd_intr_le & [ STEM < "algorítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_algorítmico_a_rel" ]. alguacil_n1 := n_intr_count_le & [ STEM < "alguacil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alguacil_n_rel" ] ]. alguicida_n1 := n_intr_mass_le & [ STEM < "alguicida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alguicida_n_rel" ] ]. alguien_p := pr_indf_alg_le & [ STEM < "alguien" > ]. alguna_que_otra_vez_x1 := av_i_le & [ STEM < "alguna_que_otra_vez" >, SYNSEM.LKEYS.KEYREL.PRED "_alguna_que_otra_vez_x_rel" ]. algunas_veces_x1 := av_i_le & [ STEM < "algunas_veces" >, SYNSEM.LKEYS.KEYREL.PRED "_algunas_veces_x_rel" ]. alguno_d := d_qnt-indf_alg_le & [ STEM < "alguno" > ]. alguno_p := pr_part_alg_le & [ STEM < "alguno" >, SYNSEM.LKEYS.ALTKEYREL.PRED _alguno_q_rel ]. alguno_que_otro_x1 := av_i_le & [ STEM < "alguno_que_otro" >, SYNSEM.LKEYS.KEYREL.PRED "_alguno_que_otro_x_rel" ]. algébricamente_x1 := av_i_spr_le & [ STEM < "algébricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_algébricamente_x_rel" ]. algébrico_a1 := a_rel_nonprd_intr_le & [ STEM < "algébrico" >, SYNSEM.LKEYS.KEYREL.PRED "_algébrico_a_rel" ]. algínico_a1 := a_rel_nonprd_intr_le & [ STEM < "algínico" >, SYNSEM.LKEYS.KEYREL.PRED "_algínico_a_rel" ]. alhaja_n1 := n_intr_count_le & [ STEM < "alhaja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alhaja_n_rel" ] ]. alhelí_n1 := n_intr_mass_le & [ STEM < "alhelí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alhelí_n_rel" ] ]. alheña_n1 := n_intr_mass_le & [ STEM < "alheña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alheña_n_rel" ] ]. alhucema_n1 := n_intr_count_le & [ STEM < "alhucema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alhucema_n_rel" ] ]. alhóndiga_n1 := n_intr_count_le & [ STEM < "alhóndiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_alhóndiga_n_rel" ] ]. aliado_n1 := n_intr_count_le & [ STEM < "aliado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aliado_n_rel" ] ]. alianza_n1 := n_intr_count_le & [ STEM < "alianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_soc, PRED "_alianza_n_rel" ] ]. alias_n1 := n_intr_count_le & [ STEM < "alias" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alias_n_rel" ] ]. alicantino_a1 := a_rel_prd_le & [ STEM < "alicantino" >, SYNSEM.LKEYS.KEYREL.PRED "_alicantino_a_rel" ]. alicantino_n1 := n_intr_count_le & [ STEM < "alicantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alicantino_n_rel" ] ]. alicatar_v := v_trans_np_le & [ STEM < "alicatar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alicatar_v_rel" ] ]. alicates_n1 := n_intr_count_le & [ STEM < "alicates" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alicates_n_rel" ] ]. alicaído_a1 := a_qual_intr_ser_le & [ STEM < "alicaído" >, SYNSEM.LKEYS.KEYREL.PRED "_alicaído_a_rel" ]. aliciente_n1 := n_intr_count_le & [ STEM < "aliciente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aliciente_n_rel" ] ]. alicíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "alicíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_alicíclico_a_rel" ]. alidada_n1 := n_intr_count_le & [ STEM < "alidada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alidada_n_rel" ] ]. alienabilidad_n1 := n_trans_le & [ STEM < "alienabilidad" >, SYNSEM.LKEYS.KEYREL.PRED "_alienabilidad_n_rel" ]. alienación_n1 := n_trans_le & [ STEM < "alienación" >, SYNSEM.LKEYS.KEYREL.PRED "_alienación_n_rel" ]. alienadamente_x1 := av_i_spr_le & [ STEM < "alienadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alienadamente_x_rel" ]. alienar_v1 := v_intr_io*_le & [ STEM < "alienar" >, SYNSEM.LKEYS.KEYREL.PRED "_alienar_v_rel" ]. alienar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alienar" >, SYNSEM.LKEYS.KEYREL.PRED "_alienar_v_rel" ]. alienidad_n1 := n_intr_uncount_le & [ STEM < "alienidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alienidad_n_rel" ] ]. alienista_n1 := n_intr_count_le & [ STEM < "alienista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alienista_n_rel" ] ]. aliento_n1 := n_intr_mass_le & [ STEM < "aliento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aliento_n_rel" ] ]. alifático_a1 := a_rel_nonprd_intr_le & [ STEM < "alifático" >, SYNSEM.LKEYS.KEYREL.PRED "_alifático_a_rel" ]. aligeramiento_n1 := n_trans_le & [ STEM < "aligeramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aligeramiento_n_rel" ]. aligerar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aligerar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aligerar_v_rel" ] ]. aligerar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "aligerar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aligerar_v_rel" ] ]. aligote_n1 := n_intr_count_le & [ STEM < "aligote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aligote_n_rel" ] ]. aligustre_n1 := n_intr_count_le & [ STEM < "aligustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aligustre_n_rel" ] ]. aligátor_n1 := n_intr_count_le & [ STEM < "aligátor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_aligátor_n_rel" ] ]. alijo_n1 := n_trans_le & [ STEM < "alijo" >, SYNSEM.LKEYS.KEYREL.PRED "_alijo_n_rel" ]. alijo_n2 := n_intr_count_le & [ STEM < "alijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alijo_n_rel" ] ]. aliltiourea_n1 := n_intr_count_le & [ STEM < "aliltiourea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aliltiourea_n_rel" ] ]. alimaña_n1 := n_intr_count_le & [ STEM < "alimaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alimaña_n_rel" ] ]. alimentación_n1 := n_trans_le & [ STEM < "alimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentación_n_rel" ]. alimentador_a1 := a_rel_nonprd_intr_le & [ STEM < "alimentador" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentador_a_rel" ]. alimentador_n1 := n_intr_count_le & [ STEM < "alimentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_alimentador_n_rel" ] ]. alimentar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentar_v_rel" ]. alimentar_v2 := v_trans_np*_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc, PRED "_alimentar_v_rel" ] ]. alimentar_v3 := v_trans_np_caus_le & [ STEM < "alimentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_alimentar_v_rel" ] ]. alimentar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "alimentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_alimentar_v_rel" ] ] ]. alimentario_a1 := a_rel_nonprd_intr_le & [ STEM < "alimentario" >, SYNSEM.LKEYS.KEYREL.PRED "_alimentario_a_rel" ]. alimenticio_a1 := a_rel_nonprd_intr_le & [ STEM < "alimenticio" >, SYNSEM.LKEYS.KEYREL.PRED "_alimenticio_a_rel" ]. alimento_n1 := n_intr_mass_le & [ STEM < "alimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alimento_n_rel" ] ]. alineabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "alineabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alineabilidad_n_rel" ] ]. alineación_n1 := n_trans_le & [ STEM < "alineación" >, SYNSEM.LKEYS.KEYREL.PRED "_alineación_n_rel" ]. alineadamente_x1 := av_i_spr_le & [ STEM < "alineadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alineadamente_x_rel" ]. alineador_n1 := n_intr_count_le & [ STEM < "alineador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alineador_n_rel" ] ]. alineamiento_n1 := n_trans_le & [ STEM < "alineamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alineamiento_n_rel" ]. alirón_n1 := n_intr_count_le & [ STEM < "alirón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alirón_n_rel" ] ]. alisado_n1 := n_trans_le & [ STEM < "alisado" >, SYNSEM.LKEYS.KEYREL.PRED "_alisado_n_rel" ]. alisal_n1 := n_intr_count_le & [ STEM < "alisal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alisal_n_rel" ] ]. alisar_n1 := n_intr_count_le & [ STEM < "alisar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alisar_n_rel" ] ]. alisar_v := v_trans_np_le & [ STEM < "alisar" >, SYNSEM.LKEYS.KEYREL.PRED "_alisar_v_rel" ]. aliseda_n1 := n_intr_count_le & [ STEM < "aliseda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aliseda_n_rel" ] ]. alisios_n1 := n_intr_count_pl_le & [ STEM < "alisios" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alisios_n_rel" ] ]. aliso_n1 := n_intr_count_le & [ STEM < "aliso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aliso_n_rel" ] ]. alistamiento_n1 := n_trans_le & [ STEM < "alistamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alistamiento_n_rel" ]. alistar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "alistar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_alistar_v_rel" ] ]. alita_n1 := n_intr_mass_le & [ STEM < "alita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alita_n_rel" ] ]. aliteración_n1 := n_intr_count_le & [ STEM < "aliteración" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aliteración_n_rel" ] ]. aliteradamente_x1 := av_i_spr_le & [ STEM < "aliteradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aliteradamente_x_rel" ]. aliterado_a1 := a_qual_intr_scopal_le & [ STEM < "aliterado" >, SYNSEM.LKEYS.KEYREL.PRED "_aliterado_a_rel" ]. alitán_n1 := n_intr_count_le & [ STEM < "alitán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alitán_n_rel" ] ]. aliviadero_n1 := n_intr_count_le & [ STEM < "aliviadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aliviadero_n_rel" ] ]. aliviar_v1 := v_intr_io*_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aliviar_v_rel" ]. aliviar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aliviar_v_rel" ]. aliviar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aliviar_v_rel" ] ]. aliviar_v4 := v_trans_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aliviar_v_rel" ] ]. aliviar_v5 := v_trans_np_mrkd_np_le & [ STEM < "aliviar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_aliviar_v_rel" ] ]. alivio_n1 := n_trans_le & [ STEM < "alivio" >, SYNSEM.LKEYS.KEYREL.PRED "_alivio_n_rel" ]. alizarina_n1 := n_intr_count_le & [ STEM < "alizarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alizarina_n_rel" ] ]. aliãâ±ar_v := v_trans_np_le & [ STEM < "aliñar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_aliñar_v_rel" ] ]. aliño_n1 := n_intr_mass_le & [ STEM < "aliño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aliño_n_rel" ] ]. aljibe_n1 := n_intr_count_le & [ STEM < "aljibe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aljibe_n_rel" ] ]. allanamiento_n1 := n_trans_le & [ STEM < "allanamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_allanamiento_n_rel" ]. allanar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "allanar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_allanar_v_rel" ] ]. allanar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "allanar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_allanar_v_rel" ] ]. allanar_v3 := v_trans_np_le & [ STEM < "allanar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_allanar_v_rel" ] ]. allegado_n1 := n_intr_count_le & [ STEM < "allegado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_allegado_n_rel" ] ]. allende_de_p_vmod := p_vmod_le & [ STEM < "allende_de" >, SYNSEM.LKEYS.KEYREL.PRED _allende_de_p_rel ]. allende_n1 := av_deic_place_le & [ STEM < "allende" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allende_x_rel" ]. allá_n1 := av_deic_place_le & [ STEM < "allá" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allá_x_rel" ]. allá_se_andan_x1 := av_i_le & [ STEM < "allá_se_andan" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_andan_x_rel" ]. allá_se_las_avenga_x1 := av_i_le & [ STEM < "allá_se_las_avenga" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_avenga_x_rel" ]. allá_se_las_componga_x1 := av_i_le & [ STEM < "allá_se_las_componga" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_componga_x_rel" ]. allá_se_las_haya_x1 := av_i_le & [ STEM < "allá_se_las_haya" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_haya_x_rel" ]. allá_se_las_hayan_x1 := av_i_le & [ STEM < "allá_se_las_hayan" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_las_hayan_x_rel" ]. allá_se_van_x1 := av_i_le & [ STEM < "allá_se_van" >, SYNSEM.LKEYS.KEYREL.PRED "_allá_se_van_x_rel" ]. allí_n1 := av_deic_place_le & [ STEM < "allí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_allí_x_rel" ]. alma_n1 := n_intr_count_le & [ STEM < "alma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alma_n_rel" ] ]. almacenaje_n1 := n_trans_le & [ STEM < "almacenaje" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenaje_n_rel" ]. almacenamiento_n1 := n_trans_le & [ STEM < "almacenamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenamiento_n_rel" ]. almacenar_v := v_trans_np_le & [ STEM < "almacenar" >, SYNSEM.LKEYS.KEYREL.PRED "_almacenar_v_rel" ]. almacenero_n1 := n_intr_count_le & [ STEM < "almacenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almacenero_n_rel" ] ]. almacenista_n1 := n_intr_count_le & [ STEM < "almacenista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almacenista_n_rel" ] ]. almacén_n1 := n_intr_count_le & [ STEM < "almacén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_almacén_n_rel" ] ]. almadraba_n1 := n_intr_count_le & [ STEM < "almadraba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_almadraba_n_rel" ] ]. almadía_n1 := n_intr_count_le & [ STEM < "almadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almadía_n_rel" ] ]. almagre_n1 := n_intr_count_le & [ STEM < "almagre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almagre_n_rel" ] ]. almanaque_n1 := n_intr_count_le & [ STEM < "almanaque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_almanaque_n_rel" ] ]. almandina_n1 := n_intr_count_le & [ STEM < "almandina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almandina_n_rel" ] ]. almandino_n1 := n_intr_mass-or-count_le & [ STEM < "almandino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_almandino_n_rel" ] ]. almazara_n1 := n_intr_count_le & [ STEM < "almazara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almazara_n_rel" ] ]. almeja_n1 := n_intr_count_le & [ STEM < "almeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_almeja_n_rel" ] ]. almejón_n1 := n_intr_count_le & [ STEM < "almejón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_almejón_n_rel" ] ]. almena_n1 := n_intr_count_le & [ STEM < "almena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almena_n_rel" ] ]. almendra_n1 := n_intr_count_le & [ STEM < "almendra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almendra_n_rel" ] ]. almendrado_n1 := n_intr_count_le & [ STEM < "almendrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almendrado_n_rel" ] ]. almendrilla_n1 := n_intr_mass_le & [ STEM < "almendrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almendrilla_n_rel" ] ]. almendro_n1 := n_intr_count_le & [ STEM < "almendro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_almendro_n_rel" ] ]. almeriense_n1 := n_intr_count_le & [ STEM < "almeriense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almeriense_n_rel" ] ]. almiar_n1 := n_intr_count_le & [ STEM < "almiar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almiar_n_rel" ] ]. almibaradamente_x1 := av_i_spr_le & [ STEM < "almibaradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_almibaradamente_x_rel" ]. almidonar_v := v_trans_np_le & [ STEM < "almidonar" >, SYNSEM.LKEYS.KEYREL.PRED "_almidonar_v_rel" ]. almidón_n1 := n_intr_mass_le & [ STEM < "almidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almidón_n_rel" ] ]. alminar_n1 := n_intr_count_le & [ STEM < "alminar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alminar_n_rel" ] ]. almirantazgo_n1 := n_intr_count_le & [ STEM < "almirantazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_almirantazgo_n_rel" ] ]. almirante_n1 := n_intr_count_le & [ STEM < "almirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almirante_n_rel" ] ]. almirez_n1 := n_intr_count_le & [ STEM < "almirez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almirez_n_rel" ] ]. almizcle_n1 := n_intr_mass_le & [ STEM < "almizcle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almizcle_n_rel" ] ]. almizclero_a1 := a_qual_intr_scopal_le & [ STEM < "almizclero" >, SYNSEM.LKEYS.KEYREL.PRED "_almizclero_a_rel" ]. almizcleño_a1 := a_qual_intr_scopal_le & [ STEM < "almizcleño" >, SYNSEM.LKEYS.KEYREL.PRED "_almizcleño_a_rel" ]. almohada_n1 := n_intr_count_le & [ STEM < "almohada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohada_n_rel" ] ]. almohade_n1 := n_intr_count_le & [ STEM < "almohade" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almohade_n_rel" ] ]. almohadilla_n1 := n_intr_count_le & [ STEM < "almohadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohadilla_n_rel" ] ]. almohadillado_n1 := n_trans_le & [ STEM < "almohadillado" >, SYNSEM.LKEYS.KEYREL.PRED "_almohadillado_n_rel" ]. almohadón_n1 := n_intr_count_le & [ STEM < "almohadón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohadón_n_rel" ] ]. almohaza_n1 := n_intr_count_le & [ STEM < "almohaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almohaza_n_rel" ] ]. almojaya_n1 := n_intr_count_le & [ STEM < "almojaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almojaya_n_rel" ] ]. almorrana_n1 := n_intr_count_le & [ STEM < "almorrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almorrana_n_rel" ] ]. almorzar_v := v_trans_np*_le & [ STEM < "almorzar" >, SYNSEM.LKEYS.KEYREL.PRED "_almorzar_v_rel" ]. almorávide_n1 := n_intr_count_le & [ STEM < "almorávide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_almorávide_n_rel" ] ]. almuerzo_n1 := n_trans_le & [ STEM < "almuerzo" >, SYNSEM.LKEYS.KEYREL.PRED "_almuerzo_n_rel" ]. almáciga_n1 := n_intr_mass_le & [ STEM < "almáciga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_almáciga_n_rel" ] ]. almádena_n1 := n_intr_count_le & [ STEM < "almádena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almádena_n_rel" ] ]. almíbar_n1 := n_intr_count_le & [ STEM < "almíbar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_almíbar_n_rel" ] ]. aloanticuerpo_n1 := n_intr_count_le & [ STEM < "aloanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloanticuerpo_n_rel" ] ]. aloantisuero_n1 := n_intr_count_le & [ STEM < "aloantisuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloantisuero_n_rel" ] ]. aloantígeno_n1 := n_intr_count_le & [ STEM < "aloantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloantígeno_n_rel" ] ]. alocadamente_x1 := av_i_spr_le & [ STEM < "alocadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alocadamente_x_rel" ]. alocución_n1 := n_intr_count_le & [ STEM < "alocución" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alocución_n_rel" ] ]. alodial_a1 := a_rel_nonprd_intr_le & [ STEM < "alodial" >, SYNSEM.LKEYS.KEYREL.PRED "_alodial_a_rel" ]. alodio_n1 := n_intr_count_le & [ STEM < "alodio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_alodio_n_rel" ] ]. alofana_n1 := n_intr_count_le & [ STEM < "alofana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alofana_n_rel" ] ]. alofonía_n1 := n_intr_uncount_le & [ STEM < "alofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alofonía_n_rel" ] ]. alofénico_a1 := a_rel_nonprd_intr_le & [ STEM < "alofénico" >, SYNSEM.LKEYS.KEYREL.PRED "_alofénico_a_rel" ]. alofónico_a1 := a_rel_nonprd_intr_le & [ STEM < "alofónico" >, SYNSEM.LKEYS.KEYREL.PRED "_alofónico_a_rel" ]. alogamia_n1 := n_intr_uncount_le & [ STEM < "alogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alogamia_n_rel" ] ]. alogenético_a1 := a_rel_nonprd_intr_le & [ STEM < "alogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_alogenético_a_rel" ]. alogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "alogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_alogénico_a_rel" ]. aloinjerto_n1 := n_intr_count_le & [ STEM < "aloinjerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloinjerto_n_rel" ] ]. aloinmunidad_n1 := n_intr_uncount_le & [ STEM < "aloinmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloinmunidad_n_rel" ] ]. aloinmunización_n1 := n_intr_count_le & [ STEM < "aloinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloinmunización_n_rel" ] ]. aloiogénesis_n1 := n_intr_uncount_le & [ STEM < "aloiogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloiogénesis_n_rel" ] ]. aloisomerismo_n1 := n_intr_uncount_le & [ STEM < "aloisomerismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aloisomerismo_n_rel" ] ]. alojamiento_n1 := n_intr_count_le & [ STEM < "alojamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alojamiento_n_rel" ] ]. alojar_v1 := v_pron_unacc_lcomp_loc_le & [ STEM < "alojar" >, SYNSEM.LKEYS.KEYREL.PRED "_alojar_v_rel" ]. alojar_v2 := v_trans_np_le & [ STEM < "alojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT cnc_hum_loc_soc, PRED "_alojar_v_rel" ] ]. alomador_n1 := n_intr_count_le & [ STEM < "alomador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alomador_n_rel" ] ]. alomorfismo_n1 := n_intr_uncount_le & [ STEM < "alomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfismo_n_rel" ] ]. alomorfo_n1 := n_intr_count_le & [ STEM < "alomorfo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfo_n_rel" ] ]. alomorfía_n1 := n_intr_uncount_le & [ STEM < "alomorfía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomorfía_n_rel" ] ]. alomérico_a1 := a_rel_nonprd_intr_le & [ STEM < "alomérico" >, SYNSEM.LKEYS.KEYREL.PRED "_alomérico_a_rel" ]. alomórfico_a1 := a_rel_prd_le & [ STEM < "alomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_alomórfico_a_rel" ]. alomórfosis_n1 := n_intr_uncount_le & [ STEM < "alomórfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alomórfosis_n_rel" ] ]. alondra_n1 := n_intr_count_le & [ STEM < "alondra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_alondra_n_rel" ] ]. alopatía_n1 := n_intr_uncount_pl_le & [ STEM < "alopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alopatía_n_rel" ] ]. alopecia_n1 := n_intr_uncount_le & [ STEM < "alopecia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alopecia_n_rel" ] ]. alopoliploide_n1 := n_intr_count_le & [ STEM < "alopoliploide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alopoliploide_n_rel" ] ]. alopáticamente_x1 := av_i_spr_le & [ STEM < "alopáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alopáticamente_x_rel" ]. alopático_a1 := a_rel_nonprd_intr_le & [ STEM < "alopático" >, SYNSEM.LKEYS.KEYREL.PRED "_alopático_a_rel" ]. alorreactividad_n1 := n_intr_uncount_le & [ STEM < "alorreactividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alorreactividad_n_rel" ] ]. alosa_n1 := n_intr_count_le & [ STEM < "alosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alosa_n_rel" ] ]. alosoma_n1 := n_intr_count_le & [ STEM < "alosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alosoma_n_rel" ] ]. alotipia_n1 := n_intr_uncount_le & [ STEM < "alotipia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotipia_n_rel" ] ]. alotipo_n1 := n_intr_count_le & [ STEM < "alotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotipo_n_rel" ] ]. alotropía_n1 := n_intr_uncount_le & [ STEM < "alotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alotropía_n_rel" ] ]. alotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "alotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_alotrópico_a_rel" ]. alotípico_a1 := a_rel_nonprd_intr_le & [ STEM < "alotípico" >, SYNSEM.LKEYS.KEYREL.PRED "_alotípico_a_rel" ]. aloxacina_n1 := n_intr_count_le & [ STEM < "aloxacina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aloxacina_n_rel" ] ]. aloína_n1 := n_intr_count_le & [ STEM < "aloína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aloína_n_rel" ] ]. alpaca_n1 := n_intr_mass-or-count_le & [ STEM < "alpaca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alpaca_n_rel" ] ]. alpargata_n1 := n_intr_count_le & [ STEM < "alpargata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alpargata_n_rel" ] ]. alpinismo_n1 := n_intr_uncount_le & [ STEM < "alpinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alpinismo_n_rel" ] ]. alpinista_n1 := n_intr_count_le & [ STEM < "alpinista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alpinista_n_rel" ] ]. alpino_a1 := a_rel_prd_le & [ STEM < "alpino" >, SYNSEM.LKEYS.KEYREL.PRED "_alpino_a_rel" ]. alpiste_n1 := n_intr_mass_le & [ STEM < "alpiste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alpiste_n_rel" ] ]. alqueno_n1 := n_intr_count_le & [ STEM < "alqueno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alqueno_n_rel" ] ]. alquilador_n1 := n_subj-nom_le & [ STEM < "alquilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alquilador_n_rel" ] ]. alquilar_v := v_ditrans*_le & [ STEM < "alquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_alquilar_v_rel" ] ]. alquileno_n1 := n_intr_count_le & [ STEM < "alquileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquileno_n_rel" ] ]. alquiler_n1 := n_trans_le & [ STEM < "alquiler" >, SYNSEM.LKEYS.KEYREL.PRED "_alquiler_n_rel" ]. alquimia_n1 := n_intr_uncount_le & [ STEM < "alquimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alquimia_n_rel" ] ]. alquimista_n1 := n_intr_count_le & [ STEM < "alquimista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alquimista_n_rel" ] ]. alquino_n1 := n_intr_count_le & [ STEM < "alquino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquino_n_rel" ] ]. alquitranar_v := v_trans_np_le & [ STEM < "alquitranar" >, SYNSEM.LKEYS.KEYREL.PRED "_alquitranar_v_rel" ]. alquitrán_n1 := n_intr_mass_le & [ STEM < "alquitrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alquitrán_n_rel" ] ]. alrededor_de_p_vmod := p_vmod_le & [ STEM < "alrededor_de" >, SYNSEM.LKEYS.KEYREL.PRED _alrededor_de_p_rel ]. alrededor_n1 := n_intr_count_le & [ STEM < "alrededor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_alrededor_n_rel" ] ]. alrededor_x1 := av_i_spr_le & [ STEM < "alrededor" >, SYNSEM.LKEYS.KEYREL.PRED "_alrededor_x_rel" ]. alsaciano_a1 := a_rel_nonprd_intr_le & [ STEM < "alsaciano" >, SYNSEM.LKEYS.KEYREL.PRED "_alsaciano_a_rel" ]. alsaciano_n1 := n_intr_count_le & [ STEM < "alsaciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alsaciano_n_rel" ] ]. alta_n1 := n_intr_uncount_le & [ STEM < "alta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alta_n_rel" ] ]. altaico_a1 := a_rel_prd_le & [ STEM < "altaico" >, SYNSEM.LKEYS.KEYREL.PRED "_altaico_a_rel" ]. altamente_x1 := av_deg_le & [ STEM < "altamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altamente_x_rel" ]. altaneramente_x1 := av_i_spr_le & [ STEM < "altaneramente" >, SYNSEM.LKEYS.KEYREL.PRED "_altaneramente_x_rel" ]. altanero_a1 := a_qual_intr_ser_le & [ STEM < "altanero" >, SYNSEM.LKEYS.KEYREL.PRED "_altanero_a_rel" ]. altanería_n1 := n_intr_uncount_le & [ STEM < "altanería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altanería_n_rel" ] ]. altaplanicie_n1 := n_intr_count_le & [ STEM < "altaplanicie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altaplanicie_n_rel" ] ]. altar_n1 := n_intr_count_le & [ STEM < "altar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_altar_n_rel" ] ]. altavoz_n1 := n_intr_count_le & [ STEM < "altavoz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_altavoz_n_rel" ] ]. alterabilidad_n1 := n_ppcomp_mass_le & [ STEM < "alterabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alterabilidad_n_rel" ] ]. alterable_a1 := a_qual_intr_scopal_le & [ STEM < "alterable" >, SYNSEM.LKEYS.KEYREL.PRED "_alterable_a_rel" ]. alteración_n1 := n_trans_le & [ STEM < "alteración" >, SYNSEM.LKEYS.KEYREL.PRED "_alteración_n_rel" ]. alterar_v1 := v_intr_io*_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. alterar_v4 := v_trans_np_le & [ STEM < "alterar" >, SYNSEM.LKEYS.KEYREL.PRED "_alterar_v_rel" ]. altercado_n1 := n_intr_count_le & [ STEM < "altercado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altercado_n_rel" ] ]. alteridad_n1 := n_intr_uncount_le & [ STEM < "alteridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alteridad_n_rel" ] ]. alterita_n1 := n_intr_mass_le & [ STEM < "alterita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alterita_n_rel" ] ]. alternación_n1 := n_trans_le & [ STEM < "alternación" >, SYNSEM.LKEYS.KEYREL.PRED "_alternación_n_rel" ]. alternador_n1 := n_intr_count_le & [ STEM < "alternador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alternador_n_rel" ] ]. alternancia_n1 := n_trans_le & [ STEM < "alternancia" >, SYNSEM.LKEYS.KEYREL.PRED "_alternancia_n_rel" ]. alternante_a1 := a_rel_prd_le & [ STEM < "alternante" >, SYNSEM.LKEYS.KEYREL.PRED "_alternante_a_rel" ]. alternar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "alternar" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_alternar_v_rel" ] ]. alternativa_n1 := n_intr_count_le & [ STEM < "alternativa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alternativa_n_rel" ] ]. alternativamente_x1 := av_i_le & [ STEM < "alternativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alternativamente_x_rel" ]. alternatividad_n1 := n_intr_uncount_le & [ STEM < "alternatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alternatividad_n_rel" ] ]. alternativo_a1 := a_rel_prd_le & [ STEM < "alternativo" >, SYNSEM.LKEYS.KEYREL.PRED "_alternativo_a_rel" ]. alterno_a1 := a_rel_nonprd_intr_le & [ STEM < "alterno" >, SYNSEM.LKEYS.KEYREL.PRED "_alterno_a_rel" ]. alteza_n1 := n_intr_count_le & [ STEM < "alteza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alteza_n_rel" ] ]. altibajo_n1 := n_intr_count_le & [ STEM < "altibajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altibajo_n_rel" ] ]. altillo_n1 := n_intr_count_le & [ STEM < "altillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altillo_n_rel" ] ]. altimetría_n1 := n_intr_uncount_le & [ STEM < "altimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altimetría_n_rel" ] ]. altimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "altimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_altimétrico_a_rel" ]. altiplano_n1 := n_intr_count_le & [ STEM < "altiplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_altiplano_n_rel" ] ]. altisonante_a1 := a_qual_intr_scopal_le & [ STEM < "altisonante" >, SYNSEM.LKEYS.KEYREL.PRED "_altisonante_a_rel" ]. altisonantemente_x1 := av_i_spr_le & [ STEM < "altisonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_altisonantemente_x_rel" ]. altitud_n1 := n_intr_mass_le & [ STEM < "altitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_altitud_n_rel" ] ]. altitudinal_a1 := a_rel_nonprd_intr_le & [ STEM < "altitudinal" >, SYNSEM.LKEYS.KEYREL.PRED "_altitudinal_a_rel" ]. altivamente_x1 := av_i_spr_le & [ STEM < "altivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altivamente_x_rel" ]. altivez_n1 := n_ppcomp_mass_le & [ STEM < "altivez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altivez_n_rel" ] ]. altivo_a1 := a_qual_intr_ser_le & [ STEM < "altivo" >, SYNSEM.LKEYS.KEYREL.PRED "_altivo_a_rel" ]. altizida_n1 := n_intr_mass_le & [ STEM < "altizida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altizida_n_rel" ] ]. alto_a1 := a_qual_intr_scopal_le & [ STEM < "alto" >, SYNSEM.LKEYS.KEYREL.PRED "_alto_a_rel" ]. alto_n1 := n_intr_count_le & [ STEM < "alto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_alto_n_rel" ] ]. altocúmulo_n1 := n_intr_count_le & [ STEM < "altocúmulo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altocúmulo_n_rel" ] ]. altoestrato_n1 := n_intr_count_le & [ STEM < "altoestrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altoestrato_n_rel" ] ]. altostrato_n1 := n_intr_count_le & [ STEM < "altostrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altostrato_n_rel" ] ]. altramuz_n1 := n_intr_count_le & [ STEM < "altramuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_altramuz_n_rel" ] ]. altrosa_n1 := n_intr_mass-or-count_le & [ STEM < "altrosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_altrosa_n_rel" ] ]. altruismo_n1 := n_intr_mass_le & [ STEM < "altruismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_altruismo_n_rel" ] ]. altruista_a1 := a_qual_intr_ser_le & [ STEM < "altruista" >, SYNSEM.LKEYS.KEYREL.PRED "_altruista_a_rel" ]. altruista_n1 := n_intr_count_le & [ STEM < "altruista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_altruista_n_rel" ] ]. altruistamente_x1 := av_i_spr_le & [ STEM < "altruistamente" >, SYNSEM.LKEYS.KEYREL.PRED "_altruistamente_x_rel" ]. altura_n1 := n_intr_mass_le & [ STEM < "altura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_altura_n_rel" ] ]. altímetro_n1 := n_intr_count_le & [ STEM < "altímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_altímetro_n_rel" ] ]. alubia_n1 := n_intr_count_le & [ STEM < "alubia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_alubia_n_rel" ] ]. alucinación_n1 := n_trans_le & [ STEM < "alucinación" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinación_n_rel" ]. alucinador_a1 := a_qual_intr_ser_le & [ STEM < "alucinador" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinador_a_rel" ]. alucinante_a1 := a_qual_intr_scopal_le & [ STEM < "alucinante" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinante_a_rel" ]. alucinar_v1 := v_intr_le & [ STEM < "alucinar" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinar_v_rel" ]. alucinar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "alucinar" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinar_v_rel" ]. alucinatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "alucinatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinatorio_a_rel" ]. alucinógeno_a1 := a_qual_intr_ser_le & [ STEM < "alucinógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_alucinógeno_a_rel" ]. alucinógeno_n1 := n_intr_count_le & [ STEM < "alucinógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alucinógeno_n_rel" ] ]. alud_n1 := n_intr_count_le & [ STEM < "alud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alud_n_rel" ] ]. alud_n2 := n_group_le & [ STEM < "alud" >, SYNSEM.LKEYS.KEYREL.PRED "_alud_n_rel" ]. aludir_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aludir_v_rel" ] ]. aludir_v2 := v_intr_mrkd_cp_semi_ques_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aludir_v_rel" ] ]. aludir_v3 := v_intr_mrkd_np*_le & [ STEM < "aludir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT non-hum, PRED "_aludir_v_rel" ] ] ]. aludir_v4 := v_trans_np_le & [ STEM < "aludir" >, SYNSEM.LKEYS.KEYREL.PRED "_aludir_v_rel" ]. alum_n1 := n_intr_mass_le & [ STEM < "alum" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alum_n_rel" ] ]. alumbrado_n1 := n_intr_uncount_le & [ STEM < "alumbrado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alumbrado_n_rel" ] ]. alumbramiento_n1 := n_trans_le & [ STEM < "alumbramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alumbramiento_n_rel" ]. alumbrar_v := v_ditrans*_le & [ STEM < "alumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_alumbrar_v_rel" ]. alumbre_n1 := n_intr_mass_le & [ STEM < "alumbre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alumbre_n_rel" ] ]. aluminato_n1 := n_intr_count_le & [ STEM < "aluminato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminato_n_rel" ] ]. aluminio_n1 := n_intr_mass_le & [ STEM < "aluminio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminio_n_rel" ] ]. aluminita_n1 := n_intr_count_le & [ STEM < "aluminita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aluminita_n_rel" ] ]. aluminización_n1 := n_trans_le & [ STEM < "aluminización" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminización_n_rel" ]. aluminizar_v := v_trans_np_le & [ STEM < "aluminizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminizar_v_rel" ]. aluminosis_n1 := n_intr_mass_le & [ STEM < "aluminosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluminosis_n_rel" ] ]. aluminoso_a1 := a_rel_nonprd_intr_le & [ STEM < "aluminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminoso_a_rel" ]. aluminotermia_n1 := n_intr_uncount_le & [ STEM < "aluminotermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluminotermia_n_rel" ] ]. aluminotérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "aluminotérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_aluminotérmico_a_rel" ]. alumnado_n1 := n_intr_coll_le & [ STEM < "alumnado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alumnado_n_rel" ] ]. alumno_n1 := n_intr_count_le & [ STEM < "alumno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_alumno_n_rel" ] ]. alunita_n1 := n_intr_count_le & [ STEM < "alunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alunita_n_rel" ] ]. alunizaje_n1 := n_result_intr_le & [ STEM < "alunizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_alunizaje_n_rel" ]. alunizar_v := v_intr_le & [ STEM < "alunizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_pot_soc, PRED "_alunizar_v_rel" ] ]. alusivamente_x1 := av_i_spr_le & [ STEM < "alusivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_alusivamente_x_rel" ]. alusivo_a1 := a_qual_trans*_ser_le & [ STEM < "alusivo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alusivo_a_rel" ] ]. alusión_n1 := n_trans_le & [ STEM < "alusión" >, SYNSEM.LKEYS.KEYREL.PRED "_alusión_n_rel" ]. aluvial_a1 := a_qual_intr_ser_le & [ STEM < "aluvial" >, SYNSEM.LKEYS.KEYREL.PRED "_aluvial_a_rel" ]. aluvión_n1 := n_intr_count_le & [ STEM < "aluvión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aluvión_n_rel" ] ]. alveolalgia_n1 := n_intr_uncount_le & [ STEM < "alveolalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolalgia_n_rel" ] ]. alveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolar_a_rel" ]. alveolectomía_n1 := n_intr_count_le & [ STEM < "alveolectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolectomía_n_rel" ] ]. alveolitis_n1 := n_intr_uncount_le & [ STEM < "alveolitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolitis_n_rel" ] ]. alveolo_n1 := n_intr_count_le & [ STEM < "alveolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alveolo_n_rel" ] ]. alveoloclasia_n1 := n_intr_uncount_le & [ STEM < "alveoloclasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveoloclasia_n_rel" ] ]. alveolodental_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolodental" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolodental_a_rel" ]. alveolodentario_a1 := a_rel_nonprd_intr_le & [ STEM < "alveolodentario" >, SYNSEM.LKEYS.KEYREL.PRED "_alveolodentario_a_rel" ]. alveologingival_a1 := a_rel_nonprd_intr_le & [ STEM < "alveologingival" >, SYNSEM.LKEYS.KEYREL.PRED "_alveologingival_a_rel" ]. alveololingual_a1 := a_rel_nonprd_intr_le & [ STEM < "alveololingual" >, SYNSEM.LKEYS.KEYREL.PRED "_alveololingual_a_rel" ]. alveolomerotomía_n1 := n_intr_count_le & [ STEM < "alveolomerotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolomerotomía_n_rel" ] ]. alveoloplastia_n1 := n_intr_uncount_le & [ STEM < "alveoloplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveoloplastia_n_rel" ] ]. alveolotomía_n1 := n_intr_count_le & [ STEM < "alveolotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveolotomía_n_rel" ] ]. alveólisis_n1 := n_intr_uncount_le & [ STEM < "alveólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alveólisis_n_rel" ] ]. alvéolo_n1 := n_intr_count_le & [ STEM < "alvéolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alvéolo_n_rel" ] ]. alza_n1 := n_trans_le & [ STEM < "alza" >, SYNSEM.LKEYS.KEYREL.PRED "_alza_n_rel" ]. alzada_n1 := n_trans_le & [ STEM < "alzada" >, SYNSEM.LKEYS.KEYREL.PRED "_alzada_n_rel" ]. alzado_n1 := n_trans_le & [ STEM < "alzado" >, SYNSEM.LKEYS.KEYREL.PRED "_alzado_n_rel" ]. alzamiento_n1 := n_trans_le & [ STEM < "alzamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_alzamiento_n_rel" ]. alzapaño_n1 := n_intr_count_le & [ STEM < "alzapaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alzapaño_n_rel" ] ]. alzar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "alzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_alzar_v_rel" ] ] ]. alzar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "alzar" >, SYNSEM.LKEYS.KEYREL.PRED "_alzar_v_rel" ]. alámbrico_a1 := a_rel_nonprd_intr_le & [ STEM < "alámbrico" >, SYNSEM.LKEYS.KEYREL.PRED "_alámbrico_a_rel" ]. alélico_a1 := a_rel_nonprd_intr_le & [ STEM < "alélico" >, SYNSEM.LKEYS.KEYREL.PRED "_alélico_a_rel" ]. alérgico_a1 := a_qual_trans*_ser_le & [ STEM < "alérgico" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_alérgico_a_rel" ] ]. alícuota_a1 := a_rel_nonprd_intr_le & [ STEM < "alícuota" >, SYNSEM.LKEYS.KEYREL.PRED "_alícuota_a_rel" ]. alícuota_n1 := n_intr_count_le & [ STEM < "alícuota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alícuota_n_rel" ] ]. alóctono_a1 := a_rel_nonprd_intr_le & [ STEM < "alóctono" >, SYNSEM.LKEYS.KEYREL.PRED "_alóctono_a_rel" ]. alóctono_n1 := n_intr_count_le & [ STEM < "alóctono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_alóctono_n_rel" ] ]. alófono_n1 := n_intr_count_le & [ STEM < "alófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_alófono_n_rel" ] ]. alúmina_n1 := n_intr_mass_le & [ STEM < "alúmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_alúmina_n_rel" ] ]. ama_n1 := n_intr_count_le & [ STEM < "ama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ama_n_rel" ] ]. amabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amabilidad_n_rel" ] ]. amable_a1 := a_qual_intr_ser_le & [ STEM < "amable" >, SYNSEM.LKEYS.KEYREL.PRED "_amable_a_rel" ]. amablemente_x1 := av_i_spr_le & [ STEM < "amablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_amablemente_x_rel" ]. amaestramiento_n1 := n_trans_le & [ STEM < "amaestramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amaestramiento_n_rel" ]. amaestrar_v := v_trans_np_le & [ STEM < "amaestrar" >, SYNSEM.LKEYS.KEYREL.PRED "_amaestrar_v_rel" ]. amagar_v1 := v_intr_le & [ STEM < "amagar" >, SYNSEM.LKEYS.KEYREL.PRED "_amagar_v_rel" ]. amagar_v2 := v_trans_np_caus_le & [ STEM < "amagar" >, SYNSEM.LKEYS.KEYREL.PRED "_amagar_v_rel" ]. amagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "amagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_amagnético_a_rel" ]. amago_n1 := n_trans_le & [ STEM < "amago" >, SYNSEM.LKEYS.KEYREL.PRED "_amago_n_rel" ]. amainar_v := v_intr_le & [ STEM < "amainar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pot, PRED "_amainar_v_rel" ] ]. amalgama_n1 := n_intr_count_le & [ STEM < "amalgama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amalgama_n_rel" ] ]. amalgamación_n1 := n_trans_le & [ STEM < "amalgamación" >, SYNSEM.LKEYS.KEYREL.PRED "_amalgamación_n_rel" ]. amalgamador_n1 := n_intr_count_le & [ STEM < "amalgamador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amalgamador_n_rel" ] ]. amalgamar_v := v_trans_np_caus_le & [ STEM < "amalgamar" >, SYNSEM.LKEYS.KEYREL.PRED "_amalgamar_v_rel" ]. amamantar_v := v_trans_np_le & [ STEM < "amamantar" >, SYNSEM.LKEYS.KEYREL.PRED "_amamantar_v_rel" ]. amanecer_n1 := n_intr_count_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_amanecer_n_rel" ] ]. amanecer_v1 := v_impers_strict_intr_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_amanecer_v_rel" ]. amanecer_v2 := v_unacc_lcomp_loc*_le & [ STEM < "amanecer" >, SYNSEM.LKEYS.KEYREL.PRED "_amanecer_v_rel" ]. amaneradamente_x1 := av_i_spr_le & [ STEM < "amaneradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amaneradamente_x_rel" ]. amaneramiento_n1 := n_trans_le & [ STEM < "amaneramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amaneramiento_n_rel" ]. amanerar_v := v_pron_intr_le & [ STEM < "amanerar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_amanerar_v_rel" ] ]. amansamiento_n1 := n_trans_le & [ STEM < "amansamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amansamiento_n_rel" ]. amansar_v := v_trans_np_caus_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amansar_v1 := v_intr_io*_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amansar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amansar" >, SYNSEM.LKEYS.KEYREL.PRED "_amansar_v_rel" ]. amante_n1 := n_ppcomp_count_le & [ STEM < "amante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amante_n_rel" ] ]. amantillo_n1 := n_intr_count_le & [ STEM < "amantillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amantillo_n_rel" ] ]. amanuense_n1 := n_intr_count_le & [ STEM < "amanuense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amanuense_n_rel" ] ]. amapola_n1 := n_intr_count_le & [ STEM < "amapola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_amapola_n_rel" ] ]. amar_v := v_trans_np_le & [ STEM < "amar" >, SYNSEM.LKEYS.KEYREL.PRED "_amar_v_rel" ]. amaranto_n1 := n_intr_count_le & [ STEM < "amaranto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amaranto_n_rel" ] ]. amargamente_x1 := av_i_spr_le & [ STEM < "amargamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amargamente_x_rel" ]. amargar_v1 := v_trans_np*_io*_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargar_v2 := v_pron_intr_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amargar" >, SYNSEM.LKEYS.KEYREL.PRED "_amargar_v_rel" ]. amargo_a1 := a_qual_intr_scopal_le & [ STEM < "amargo" >, SYNSEM.LKEYS.KEYREL.PRED "_amargo_a_rel" ]. amargor_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amargor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amargor_n_rel" ] ]. amargura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "amargura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amargura_n_rel" ] ]. amarillento_a1 := a_qual_intr_ser_le & [ STEM < "amarillento" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillento_a_rel" ]. amarillez_n1 := n_ppcomp_uncount_le & [ STEM < "amarillez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amarillez_n_rel" ] ]. amarillista_a1 := a_rel_nonprd_intr_le & [ STEM < "amarillista" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillista_a_rel" ]. amarillo_a1 := a_qual_intr_ser_le & [ STEM < "amarillo" >, SYNSEM.LKEYS.KEYREL.PRED "_amarillo_a_rel" ]. amarra_n1 := n_intr_count_le & [ STEM < "amarra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amarra_n_rel" ] ]. amarradero_n1 := n_intr_count_le & [ STEM < "amarradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_amarradero_n_rel" ] ]. amarradura_n1 := n_intr_count_le & [ STEM < "amarradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_amarradura_n_rel" ] ]. amarraje_n1 := n_trans_le & [ STEM < "amarraje" >, SYNSEM.LKEYS.KEYREL.PRED "_amarraje_n_rel" ]. amarrar_v := v_trans_np_le & [ STEM < "amarrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc, PRED "_amarrar_v_rel" ] ]. amarre_n1 := n_intr_count_le & [ STEM < "amarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amarre_n_rel" ] ]. amarronado_a1 := a_qual_intr_ser_le & [ STEM < "amarronado" >, SYNSEM.LKEYS.KEYREL.PRED "_amarronado_a_rel" ]. amasadera_n1 := n_intr_count_le & [ STEM < "amasadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasadera_n_rel" ] ]. amasado_n1 := n_trans_le & [ STEM < "amasado" >, SYNSEM.LKEYS.KEYREL.PRED "_amasado_n_rel" ]. amasador_n1 := n_intr_count_le & [ STEM < "amasador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amasador_n_rel" ] ]. amasadora_n1 := n_intr_count_le & [ STEM < "amasadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasadora_n_rel" ] ]. amasake_n1 := n_intr_mass_le & [ STEM < "amasake" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasake_n_rel" ] ]. amasar_v := v_trans_np*_le & [ STEM < "amasar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_amasar_v_rel" ] ]. amasijo_n1 := n_intr_coll_le & [ STEM < "amasijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amasijo_n_rel" ] ]. amateur_n1 := n_intr_count_le & [ STEM < "amateur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amateur_n_rel" ] ]. amateurismo_n1 := n_ppcomp_uncount_le & [ STEM < "amateurismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amateurismo_n_rel" ] ]. amatista_n1 := n_intr_mass-or-count_le & [ STEM < "amatista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_amatista_n_rel" ] ]. amatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "amatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_amatorio_a_rel" ]. amaurosis_n1 := n_intr_uncount_le & [ STEM < "amaurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amaurosis_n_rel" ] ]. amazona_n1 := n_intr_count_le & [ STEM < "amazona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amazona_n_rel" ] ]. amazonita_n1 := n_intr_count_le & [ STEM < "amazonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amazonita_n_rel" ] ]. amazónico_a1 := a_rel_prd_le & [ STEM < "amazónico" >, SYNSEM.LKEYS.KEYREL.PRED "_amazónico_a_rel" ]. amaãâ±ar_v := v_trans_np_le & [ STEM < "amañar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_cnc, PRED "_amañar_v_rel" ] ]. amaño_n1 := n_trans_le & [ STEM < "amaño" >, SYNSEM.LKEYS.KEYREL.PRED "_amaño_n_rel" ]. ambarino_a1 := a_qual_intr_ser_le & [ STEM < "ambarino" >, SYNSEM.LKEYS.KEYREL.PRED "_ambarino_a_rel" ]. amberino_n1 := n_intr_count_le & [ STEM < "amberino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amberino_n_rel" ] ]. ambicionar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "ambicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ambicionar_v_rel" ] ]. ambicionar_v2 := v_trans_np_le & [ STEM < "ambicionar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_ambicionar_v_rel" ] ]. ambiciosamente_x1 := av_i_spr_le & [ STEM < "ambiciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiciosamente_x_rel" ]. ambicioso_a1 := a_qual_intr_ser_le & [ STEM < "ambicioso" >, SYNSEM.LKEYS.KEYREL.PRED "_ambicioso_a_rel" ]. ambición_n1 := n_intr_mass-or-count_le & [ STEM < "ambición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambición_n_rel" ] ]. ambidextro_a1 := a_qual_intr_ser_le & [ STEM < "ambidextro" >, SYNSEM.LKEYS.KEYREL.PRED "_ambidextro_a_rel" ]. ambientación_n1 := n_trans_le & [ STEM < "ambientación" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientación_n_rel" ]. ambientador_n1 := n_intr_count_le & [ STEM < "ambientador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambientador_n_rel" ] ]. ambiental_a1 := a_rel_nonprd_intr_le & [ STEM < "ambiental" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiental_a_rel" ]. ambientalismo_n1 := n_intr_uncount_le & [ STEM < "ambientalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambientalismo_n_rel" ] ]. ambientalmente_x1 := av_i_spr_le & [ STEM < "ambientalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientalmente_x_rel" ]. ambientar_v1 := v_pron_intr_le & [ STEM < "ambientar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_ambientar_v_rel" ] ]. ambientar_v2 := v_trans_np_le & [ STEM < "ambientar" >, SYNSEM.LKEYS.KEYREL.PRED "_ambientar_v_rel" ]. ambiente_n1 := n_intr_mass_le & [ STEM < "ambiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ambiente_n_rel" ] ]. ambiguamente_x1 := av_i_spr_le & [ STEM < "ambiguamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiguamente_x_rel" ]. ambiguo_a1 := a_qual_intr_scopal_le & [ STEM < "ambiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_ambiguo_a_rel" ]. ambigüedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ambigüedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambigüedad_n_rel" ] ]. ambilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "ambilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilineal_a_rel" ]. ambilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "ambilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilocal_a_rel" ]. ambilocalmente_x1 := av_i_spr_le & [ STEM < "ambilocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambilocalmente_x_rel" ]. ambivalencia_n1 := n_intr_mass-or-count_le & [ STEM < "ambivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambivalencia_n_rel" ] ]. ambivalente_a1 := a_rel_prd_le & [ STEM < "ambivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambivalente_a_rel" ]. ambivalentemente_x1 := av_i_spr_le & [ STEM < "ambivalentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ambivalentemente_x_rel" ]. ambladura_n1 := n_intr_uncount_le & [ STEM < "ambladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambladura_n_rel" ] ]. ambligonita_n1 := n_intr_count_le & [ STEM < "ambligonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ambligonita_n_rel" ] ]. ambliope_a1 := a_qual_intr_ser_le & [ STEM < "ambliope" >, SYNSEM.LKEYS.KEYREL.PRED "_ambliope_a_rel" ]. ambliopía_n1 := n_intr_uncount_le & [ STEM < "ambliopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ambliopía_n_rel" ] ]. amblioscopio_n1 := n_intr_count_le & [ STEM < "amblioscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amblioscopio_n_rel" ] ]. amboceptor_n1 := n_intr_count_le & [ STEM < "amboceptor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amboceptor_n_rel" ] ]. ambos_d := d_qnt-df_ambos_le & [ STEM < "ambos" > ]. ambos_p := pr_def_ambos_le & [ STEM < "ambos" > ]. ambroide_n1 := n_intr_count_le & [ STEM < "ambroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambroide_n_rel" ] ]. ambrosía_n1 := n_intr_mass_le & [ STEM < "ambrosía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_ambrosía_n_rel" ] ]. ambulacral_a1 := a_rel_nonprd_intr_le & [ STEM < "ambulacral" >, SYNSEM.LKEYS.KEYREL.PRED "_ambulacral_a_rel" ]. ambulancia_n1 := n_intr_count_le & [ STEM < "ambulancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ambulancia_n_rel" ] ]. ambulante_a1 := a_rel_nonprd_intr_le & [ STEM < "ambulante" >, SYNSEM.LKEYS.KEYREL.PRED "_ambulante_a_rel" ]. ambulatorio_n1 := n_intr_count_le & [ STEM < "ambulatorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_ambulatorio_n_rel" ] ]. ameba_n1 := n_intr_count_le & [ STEM < "ameba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ameba_n_rel" ] ]. ameboide_a1 := a_rel_nonprd_intr_le & [ STEM < "ameboide" >, SYNSEM.LKEYS.KEYREL.PRED "_ameboide_a_rel" ]. amedrentar_v1 := v_intr_io*_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. amedrentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. amedrentar_v3 := v_trans_np_caus_le & [ STEM < "amedrentar" >, SYNSEM.LKEYS.KEYREL.PRED "_amedrentar_v_rel" ]. ameiosis_n1 := n_intr_uncount_le & [ STEM < "ameiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ameiosis_n_rel" ] ]. amelo_n1 := n_intr_count_le & [ STEM < "amelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amelo_n_rel" ] ]. ameloblasto_n1 := n_intr_count_le & [ STEM < "ameloblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ameloblasto_n_rel" ] ]. ameloblastoma_n1 := n_intr_count_le & [ STEM < "ameloblastoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ameloblastoma_n_rel" ] ]. ameloblástico_a1 := a_rel_nonprd_intr_le & [ STEM < "ameloblástico" >, SYNSEM.LKEYS.KEYREL.PRED "_ameloblástico_a_rel" ]. amelodentinal_a1 := a_rel_nonprd_intr_le & [ STEM < "amelodentinal" >, SYNSEM.LKEYS.KEYREL.PRED "_amelodentinal_a_rel" ]. amelogénesis_n1 := n_intr_uncount_le & [ STEM < "amelogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amelogénesis_n_rel" ] ]. amelopatía_n1 := n_intr_uncount_le & [ STEM < "amelopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amelopatía_n_rel" ] ]. amelógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "amelógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_amelógeno_a_rel" ]. amenaza_n1 := n_trans_le & [ STEM < "amenaza" >, SYNSEM.LKEYS.KEYREL.PRED "_amenaza_n_rel" ]. amenazador_a1 := a_qual_intr_scopal_le & [ STEM < "amenazador" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazador_a_rel" ]. amenazadoramente_x1 := av_i_spr_le & [ STEM < "amenazadoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazadoramente_x_rel" ]. amenazante_a1 := a_qual_intr_scopal_le & [ STEM < "amenazante" >, SYNSEM.LKEYS.KEYREL.PRED "_amenazante_a_rel" ]. amencia_n1 := n_intr_uncount_le & [ STEM < "amencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amencia_n_rel" ] ]. amenizar_v := v_trans_np_le & [ STEM < "amenizar" >, SYNSEM.LKEYS.KEYREL.PRED "_amenizar_v_rel" ]. ameno_a1 := a_qual_intr_ser_le & [ STEM < "ameno" >, SYNSEM.LKEYS.KEYREL.PRED "_ameno_a_rel" ]. amento_n1 := n_intr_count_le & [ STEM < "amento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_amento_n_rel" ] ]. americana_n1 := n_intr_count_le & [ STEM < "americana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_americana_n_rel" ] ]. americanismo_n1 := n_intr_mass-or-count_le & [ STEM < "americanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_americanismo_n_rel" ] ]. americanizar_v := v_trans_np_caus_le & [ STEM < "americanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_americanizar_v_rel" ]. americano_a1 := a_rel_prd_le & [ STEM < "americano" >, SYNSEM.LKEYS.KEYREL.PRED "_americano_a_rel" ]. americano_n1 := n_intr_count_le & [ STEM < "americano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_americano_n_rel" ] ]. americio_n1 := n_intr_mass_le & [ STEM < "americio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_americio_n_rel" ] ]. amerindio_a1 := a_rel_prd_le & [ STEM < "amerindio" >, SYNSEM.LKEYS.KEYREL.PRED "_amerindio_a_rel" ]. amerindio_n1 := n_intr_count_le & [ STEM < "amerindio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amerindio_n_rel" ] ]. amerizar_v := v_unacc_lcomp_loc*_le & [ STEM < "amerizar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_amerizar_v_rel" ] ]. ametopterina_n1 := n_intr_count_le & [ STEM < "ametopterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ametopterina_n_rel" ] ]. ametrallador_a1 := a_rel_nonprd_intr_le & [ STEM < "ametrallador" >, SYNSEM.LKEYS.KEYREL.PRED "_ametrallador_a_rel" ]. ametralladora_n1 := n_intr_count_le & [ STEM < "ametralladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ametralladora_n_rel" ] ]. ametrallar_v := v_trans_np_le & [ STEM < "ametrallar" >, SYNSEM.LKEYS.KEYREL.PRED "_ametrallar_v_rel" ]. ametropía_n1 := n_intr_uncount_le & [ STEM < "ametropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ametropía_n_rel" ] ]. amianto_n1 := n_intr_mass_le & [ STEM < "amianto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amianto_n_rel" ] ]. amiba_n1 := n_intr_count_le & [ STEM < "amiba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_amiba_n_rel" ] ]. amical_a1 := a_qual_intr_scopal_le & [ STEM < "amical" >, SYNSEM.LKEYS.KEYREL.PRED "_amical_a_rel" ]. amicrón_n1 := n_intr_count_le & [ STEM < "amicrón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amicrón_n_rel" ] ]. amida_n1 := n_intr_count_le & [ STEM < "amida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amida_n_rel" ] ]. amidina_n1 := n_intr_count_le & [ STEM < "amidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amidina_n_rel" ] ]. amigable_a1 := a_qual_intr_ser_le & [ STEM < "amigable" >, SYNSEM.LKEYS.KEYREL.PRED "_amigable_a_rel" ]. amigablemente_x1 := av_i_spr_le & [ STEM < "amigablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_amigablemente_x_rel" ]. amigdalectomía_n1 := n_intr_count_le & [ STEM < "amigdalectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalectomía_n_rel" ] ]. amigdalino_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdalino" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdalino_a_rel" ]. amigdalitis_n1 := n_intr_uncount_le & [ STEM < "amigdalitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalitis_n_rel" ] ]. amigdalogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdalogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdalogloso_a_rel" ]. amigdaloide_a1 := a_rel_nonprd_intr_le & [ STEM < "amigdaloide" >, SYNSEM.LKEYS.KEYREL.PRED "_amigdaloide_a_rel" ]. amigdalopatía_n1 := n_intr_uncount_pl_le & [ STEM < "amigdalopatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalopatía_n_rel" ] ]. amigdalotomía_n1 := n_intr_count_le & [ STEM < "amigdalotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amigdalotomía_n_rel" ] ]. amigo_a1 := a_qual_trans*_ser_le & [ STEM < "amigo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_amigo_a_rel" ] ]. amigo_a2 := a_sctrl_ser_le & [ STEM < "amigo" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_amigo_a_rel" ] ]. amigo_n1 := n_ppcomp_count_le & [ STEM < "amigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amigo_n_rel" ] ]. amigote_n1 := n_ppcomp_count_le & [ STEM < "amigote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amigote_n_rel" ] ]. amiguismo_n1 := n_intr_mass_le & [ STEM < "amiguismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amiguismo_n_rel" ] ]. amilanar_v1 := v_intr_io*_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilanar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilanar_v3 := v_trans_np_caus_le & [ STEM < "amilanar" >, SYNSEM.LKEYS.KEYREL.PRED "_amilanar_v_rel" ]. amilasa_n1 := n_intr_count_le & [ STEM < "amilasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amilasa_n_rel" ] ]. amileno_n1 := n_intr_count_le & [ STEM < "amileno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amileno_n_rel" ] ]. amillaramiento_n1 := n_trans_le & [ STEM < "amillaramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amillaramiento_n_rel" ]. amilo_n1 := n_intr_count_le & [ STEM < "amilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amilo_n_rel" ] ]. amiloidosis_n1 := n_intr_uncount_le & [ STEM < "amiloidosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amiloidosis_n_rel" ] ]. amiloplasto_n1 := n_intr_count_le & [ STEM < "amiloplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amiloplasto_n_rel" ] ]. amilopsina_n1 := n_intr_count_le & [ STEM < "amilopsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amilopsina_n_rel" ] ]. amilorida_n1 := n_intr_mass_le & [ STEM < "amilorida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amilorida_n_rel" ] ]. amilosa_n1 := n_intr_mass-or-count_le & [ STEM < "amilosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_amilosa_n_rel" ] ]. amiláceo_a1 := a_rel_nonprd_intr_le & [ STEM < "amiláceo" >, SYNSEM.LKEYS.KEYREL.PRED "_amiláceo_a_rel" ]. amilólisis_n1 := n_intr_uncount_le & [ STEM < "amilólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amilólisis_n_rel" ] ]. amina_n1 := n_intr_count_le & [ STEM < "amina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amina_n_rel" ] ]. aminación_n1 := n_trans_le & [ STEM < "aminación" >, SYNSEM.LKEYS.KEYREL.PRED "_aminación_n_rel" ]. aminoacetato_n1 := n_intr_count_le & [ STEM < "aminoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminoacetato_n_rel" ] ]. aminobenzoato_n1 := n_intr_count_le & [ STEM < "aminobenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminobenzoato_n_rel" ] ]. aminopterina_n1 := n_intr_count_le & [ STEM < "aminopterina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aminopterina_n_rel" ] ]. aminoración_n1 := n_result_intr_le & [ STEM < "aminoración" >, SYNSEM.LKEYS.KEYREL.PRED "_aminoración_n_rel" ]. aminorar_v := v_trans_np*_le & [ STEM < "aminorar" >, SYNSEM.LKEYS.KEYREL.PRED "_aminorar_v_rel" ]. aminoácido_n1 := n_intr_count_le & [ STEM < "aminoácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aminoácido_n_rel" ] ]. amistad_n1 := n_intr_count_le & [ STEM < "amistad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_amistad_n_rel" ] ]. amistosamente_x1 := av_i_spr_le & [ STEM < "amistosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amistosamente_x_rel" ]. amistoso_a1 := a_qual_intr_ser_le & [ STEM < "amistoso" >, SYNSEM.LKEYS.KEYREL.PRED "_amistoso_a_rel" ]. amitolocal_a1 := a_rel_nonprd_intr_le & [ STEM < "amitolocal" >, SYNSEM.LKEYS.KEYREL.PRED "_amitolocal_a_rel" ]. amitolocalmente_x1 := av_i_spr_le & [ STEM < "amitolocalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_amitolocalmente_x_rel" ]. amitosis_n1 := n_intr_uncount_le & [ STEM < "amitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amitosis_n_rel" ] ]. amitótico_a1 := a_rel_nonprd_intr_le & [ STEM < "amitótico" >, SYNSEM.LKEYS.KEYREL.PRED "_amitótico_a_rel" ]. amixia_n1 := n_intr_count_le & [ STEM < "amixia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amixia_n_rel" ] ]. amnesia_n1 := n_intr_uncount_le & [ STEM < "amnesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amnesia_n_rel" ] ]. amnistiar_v := v_trans_np_le & [ STEM < "amnistiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_sem_soc, ARG2.SORT hum_soc, PRED "_amnistiar_v_rel" ] ]. amnistía_n1 := n_intr_uncount_le & [ STEM < "amnistía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amnistía_n_rel" ] ]. amniótico_a1 := a_rel_nonprd_intr_le & [ STEM < "amniótico" >, SYNSEM.LKEYS.KEYREL.PRED "_amniótico_a_rel" ]. amnésico_a1 := a_qual_intr_ser_le & [ STEM < "amnésico" >, SYNSEM.LKEYS.KEYREL.PRED "_amnésico_a_rel" ]. amo_n1 := n_ppcomp_count_le & [ STEM < "amo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amo_n_rel" ] ]. amoblar_v := v_trans_np_le & [ STEM < "amoblar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_amoblar_v_rel" ] ]. amodorramiento_n1 := n_event-result_intr_le & [ STEM < "amodorramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amodorramiento_n_rel" ]. amojonamiento_n1 := n_trans_le & [ STEM < "amojonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amojonamiento_n_rel" ]. amojonar_v := v_trans_np_le & [ STEM < "amojonar" >, SYNSEM.LKEYS.KEYREL.PRED "_amojonar_v_rel" ]. amoladera_n1 := n_intr_count_le & [ STEM < "amoladera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amoladera_n_rel" ] ]. amoladura_n1 := n_trans_le & [ STEM < "amoladura" >, SYNSEM.LKEYS.KEYREL.PRED "_amoladura_n_rel" ]. amoldamiento_n1 := n_trans_le & [ STEM < "amoldamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amoldamiento_n_rel" ]. amoldar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "amoldar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_amoldar_v_rel" ] ]. amollar_v := v_trans_np*_le & [ STEM < "amollar" >, SYNSEM.LKEYS.KEYREL.PRED "_amollar_v_rel" ]. amonal_n1 := n_intr_mass_le & [ STEM < "amonal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amonal_n_rel" ] ]. amonestación_n1 := n_trans_le & [ STEM < "amonestación" >, SYNSEM.LKEYS.KEYREL.PRED "_amonestación_n_rel" ]. amonestar_v1 := v_ditrans_cp_prop_fin_sub_le & [ STEM < "amonestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_amonestar_v_rel" ] ]. amonestar_v2 := v_ditrans*_le & [ STEM < "amonestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_amonestar_v_rel" ] ]. amoniacal_a1 := a_rel_nonprd_intr_le & [ STEM < "amoniacal" >, SYNSEM.LKEYS.KEYREL.PRED "_amoniacal_a_rel" ]. amoniaco_n1 := n_intr_mass_le & [ STEM < "amoniaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amoniaco_n_rel" ] ]. amonio_n1 := n_intr_mass_le & [ STEM < "amonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_amonio_n_rel" ] ]. amontonamiento_n1 := n_trans_le & [ STEM < "amontonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amontonamiento_n_rel" ]. amontonar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "amontonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_amontonar_v_rel" ] ] ]. amontonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "amontonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_amontonar_v_rel" ] ]. amontonar_v3 := v_trans_np_lcomp_loc*_caus_le & [ STEM < "amontonar" >, SYNSEM.LKEYS.KEYREL.PRED "_amontonar_v_rel" ]. amoníaco_n1 := n_intr_mass_le & [ STEM < "amoníaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amoníaco_n_rel" ] ]. amonólisis_n1 := n_intr_uncount_le & [ STEM < "amonólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amonólisis_n_rel" ] ]. amor_n1 := n_intr_mass-or-count_le & [ STEM < "amor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amor_n_rel" ] ]. amoral_a1 := a_qual_intr_ser_le & [ STEM < "amoral" >, SYNSEM.LKEYS.KEYREL.PRED "_amoral_a_rel" ]. amoralidad_n1 := n_ppcomp_mass_le & [ STEM < "amoralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amoralidad_n_rel" ] ]. amoralmente_x1 := av_i_spr_le & [ STEM < "amoralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_amoralmente_x_rel" ]. amoratar_v1 := v_pron_intr_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amoratar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amoratar_v3 := v_trans_np_le & [ STEM < "amoratar" >, SYNSEM.LKEYS.KEYREL.PRED "_amoratar_v_rel" ]. amordazar_v := v_trans_np_le & [ STEM < "amordazar" >, SYNSEM.LKEYS.KEYREL.PRED "_amordazar_v_rel" ]. amorfo_a1 := a_rel_prd_le & [ STEM < "amorfo" >, SYNSEM.LKEYS.KEYREL.PRED "_amorfo_a_rel" ]. amorosamente_x1 := av_i_spr_le & [ STEM < "amorosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amorosamente_x_rel" ]. amoroso_a1 := a_qual_intr_ser_le & [ STEM < "amoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_amoroso_a_rel" ]. amortajar_v := v_trans_np_le & [ STEM < "amortajar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_hum, PRED "_amortajar_v_rel" ] ]. amortiguación_n1 := n_trans_le & [ STEM < "amortiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguación_n_rel" ]. amortiguadamente_x1 := av_i_spr_le & [ STEM < "amortiguadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguadamente_x_rel" ]. amortiguador_a1 := a_qual_intr_scopal_le & [ STEM < "amortiguador" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguador_a_rel" ]. amortiguador_n1 := n_intr_count_le & [ STEM < "amortiguador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amortiguador_n_rel" ] ]. amortiguamiento_n1 := n_trans_le & [ STEM < "amortiguamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguamiento_n_rel" ]. amortiguar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "amortiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguar_v_rel" ]. amortiguar_v2 := v_trans_np_le & [ STEM < "amortiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortiguar_v_rel" ]. amortizable_a1 := a_rel_nonprd_intr_le & [ STEM < "amortizable" >, SYNSEM.LKEYS.KEYREL.PRED "_amortizable_a_rel" ]. amortización_n1 := n_trans_le & [ STEM < "amortización" >, SYNSEM.LKEYS.KEYREL.PRED "_amortización_n_rel" ]. amortizar_v := v_trans_np_le & [ STEM < "amortizar" >, SYNSEM.LKEYS.KEYREL.PRED "_amortizar_v_rel" ]. amorío_n1 := n_intr_count_le & [ STEM < "amorío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amorío_n_rel" ] ]. amotinadamente_x1 := av_i_spr_le & [ STEM < "amotinadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinadamente_x_rel" ]. amotinado_n1 := n_intr_count_le & [ STEM < "amotinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_amotinado_n_rel" ] ]. amotinamiento_n1 := n_trans_le & [ STEM < "amotinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinamiento_n_rel" ]. amotinar_v := v_trans_np_caus_le & [ STEM < "amotinar" >, SYNSEM.LKEYS.KEYREL.PRED "_amotinar_v_rel" ]. amovible_a1 := a_qual_intr_scopal_le & [ STEM < "amovible" >, SYNSEM.LKEYS.KEYREL.PRED "_amovible_a_rel" ]. amovilidad_n1 := n_ppcomp_mass_le & [ STEM < "amovilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amovilidad_n_rel" ] ]. amparador_a1 := a_qual_intr_ser_le & [ STEM < "amparador" >, SYNSEM.LKEYS.KEYREL.PRED "_amparador_a_rel" ]. amparar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "amparar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_amparar_v_rel" ] ] ]. amparar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "amparar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_amparar_v_rel" ] ]. amparar_v3 := v_trans_np_le & [ STEM < "amparar" >, SYNSEM.LKEYS.KEYREL.PRED "_amparar_v_rel" ]. amparo_n1 := n_trans_le & [ STEM < "amparo" >, SYNSEM.LKEYS.KEYREL.PRED "_amparo_n_rel" ]. amperihorímetro_n1 := n_intr_count_le & [ STEM < "amperihorímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amperihorímetro_n_rel" ] ]. amperimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "amperimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_amperimétrico_a_rel" ]. amperio_n := n_intr_count_le & [ STEM < "amperio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_amperio_n_rel" ] ]. ampersand_n1 := n_intr_count_le & [ STEM < "ampersand" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_ampersand_n_rel" ] ]. amperímetro_n1 := n_intr_count_le & [ STEM < "amperímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amperímetro_n_rel" ] ]. ampliable_a1 := a_qual_trans*_ser_le & [ STEM < "ampliable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_ampliable_a_rel" ] ]. ampliación_n1 := n_trans_le & [ STEM < "ampliación" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliación_n_rel" ]. ampliador_n1 := n_intr_count_le & [ STEM < "ampliador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ampliador_n_rel" ] ]. ampliamente_x1 := av_i_spr_le & [ STEM < "ampliamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliamente_x_rel" ]. ampliar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "ampliar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliar_v_rel" ]. ampliar_v2 := v_trans_np_le & [ STEM < "ampliar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliar_v_rel" ]. ampliatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "ampliatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_ampliatorio_a_rel" ]. amplificación_n1 := n_trans_le & [ STEM < "amplificación" >, SYNSEM.LKEYS.KEYREL.PRED "_amplificación_n_rel" ]. amplificador_n1 := n_intr_count_le & [ STEM < "amplificador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_amplificador_n_rel" ] ]. amplificar_v := v_trans_np_le & [ STEM < "amplificar" >, SYNSEM.LKEYS.KEYREL.PRED "_amplificar_v_rel" ]. amplio_a1 := a_qual_intr_scopal_le & [ STEM < "amplio" >, SYNSEM.LKEYS.KEYREL.PRED "_amplio_a_rel" ]. amplitud_n1 := n_intr_mass_le & [ STEM < "amplitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_amplitud_n_rel" ] ]. ampolla_n1 := n_intr_count_le & [ STEM < "ampolla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ampolla_n_rel" ] ]. ampollar_a1 := a_qual_intr_ser_le & [ STEM < "ampollar" >, SYNSEM.LKEYS.KEYREL.PRED "_ampollar_a_rel" ]. ampulosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "ampulosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ampulosidad_n_rel" ] ]. ampurdanés_a1 := a_rel_prd_le & [ STEM < "ampurdanés" >, SYNSEM.LKEYS.KEYREL.PRED "_ampurdanés_a_rel" ]. ampurdanés_n1 := n_intr_count_le & [ STEM < "ampurdanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ampurdanés_n_rel" ] ]. amputación_n1 := n_trans_le & [ STEM < "amputación" >, SYNSEM.LKEYS.KEYREL.PRED "_amputación_n_rel" ]. amputar_v := v_ditrans*_le & [ STEM < "amputar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_amputar_v_rel" ] ]. amueblamiento_n1 := n_trans_le & [ STEM < "amueblamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_amueblamiento_n_rel" ]. amueblar_v := v_trans_np_le & [ STEM < "amueblar" >, SYNSEM.LKEYS.KEYREL.PRED "_amueblar_v_rel" ]. amuleto_n1 := n_intr_count_le & [ STEM < "amuleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amuleto_n_rel" ] ]. amura_n1 := n_intr_count_le & [ STEM < "amura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amura_n_rel" ] ]. amurada_n1 := n_intr_count_le & [ STEM < "amurada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_amurada_n_rel" ] ]. amurallar_v := v_trans_np_le & [ STEM < "amurallar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_amurallar_v_rel" ] ]. amén_n1 := n_intr_uncount_le & [ STEM < "amén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_amén_n_rel" ] ]. amétrope_a1 := a_qual_intr_ser_le & [ STEM < "amétrope" >, SYNSEM.LKEYS.KEYREL.PRED "_amétrope_a_rel" ]. amígdala_n1 := n_ppcomp_count_le & [ STEM < "amígdala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_amígdala_n_rel" ] ]. amínico_a1 := a_rel_nonprd_intr_le & [ STEM < "amínico" >, SYNSEM.LKEYS.KEYREL.PRED "_amínico_a_rel" ]. amónico_a1 := a_rel_nonprd_intr_le & [ STEM < "amónico" >, SYNSEM.LKEYS.KEYREL.PRED "_amónico_a_rel" ]. anabasina_n1 := n_intr_count_le & [ STEM < "anabasina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anabasina_n_rel" ] ]. anabergita_n1 := n_intr_count_le & [ STEM < "anabergita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anabergita_n_rel" ] ]. anabolizante_n1 := n_intr_count_le & [ STEM < "anabolizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anabolizante_n_rel" ] ]. anacardo_n1 := n_intr_count_le & [ STEM < "anacardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anacardo_n_rel" ] ]. anacoluto_n1 := n_intr_count_le & [ STEM < "anacoluto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacoluto_n_rel" ] ]. anaconda_n1 := n_intr_count_le & [ STEM < "anaconda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anaconda_n_rel" ] ]. anacoreta_n1 := n_intr_count_le & [ STEM < "anacoreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anacoreta_n_rel" ] ]. anacromasia_n1 := n_intr_uncount_le & [ STEM < "anacromasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacromasia_n_rel" ] ]. anacronismo_n1 := n_intr_count_le & [ STEM < "anacronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anacronismo_n_rel" ] ]. anacrónicamente_x1 := av_i_spr_le & [ STEM < "anacrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anacrónicamente_x_rel" ]. anacrónico_a1 := a_rel_prd_le & [ STEM < "anacrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anacrónico_a_rel" ]. anadiplosis_n1 := n_intr_uncount_le & [ STEM < "anadiplosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anadiplosis_n_rel" ] ]. anaerobio_a1 := a_rel_nonprd_intr_le & [ STEM < "anaerobio" >, SYNSEM.LKEYS.KEYREL.PRED "_anaerobio_a_rel" ]. anaerobio_n1 := n_intr_count_le & [ STEM < "anaerobio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_plant, PRED "_anaerobio_n_rel" ] ]. anaerobiosis_n1 := n_intr_uncount_le & [ STEM < "anaerobiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anaerobiosis_n_rel" ] ]. anaeróbico_a1 := a_rel_nonprd_intr_le & [ STEM < "anaeróbico" >, SYNSEM.LKEYS.KEYREL.PRED "_anaeróbico_a_rel" ]. anafase_n1 := n_intr_count_le & [ STEM < "anafase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafase_n_rel" ] ]. anafilactogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafilactogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafilactogénico_a_rel" ]. anafilactoide_a1 := a_rel_nonprd_intr_le & [ STEM < "anafilactoide" >, SYNSEM.LKEYS.KEYREL.PRED "_anafilactoide_a_rel" ]. anafilactotoxina_n1 := n_intr_count_le & [ STEM < "anafilactotoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilactotoxina_n_rel" ] ]. anafilactógeno_n1 := n_intr_count_le & [ STEM < "anafilactógeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilactógeno_n_rel" ] ]. anafilatoxina_n1 := n_intr_count_le & [ STEM < "anafilatoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anafilatoxina_n_rel" ] ]. anafilaxia_n1 := n_intr_uncount_le & [ STEM < "anafilaxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafilaxia_n_rel" ] ]. anafilaxis_n1 := n_intr_uncount_le & [ STEM < "anafilaxis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anafilaxis_n_rel" ] ]. anafiláctico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafiláctico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafiláctico_a_rel" ]. anaforesis_n1 := n_intr_uncount_le & [ STEM < "anaforesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anaforesis_n_rel" ] ]. anafóricamente_x1 := av_i_spr_le & [ STEM < "anafóricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anafóricamente_x_rel" ]. anafórico_a1 := a_rel_nonprd_intr_le & [ STEM < "anafórico" >, SYNSEM.LKEYS.KEYREL.PRED "_anafórico_a_rel" ]. anaglifoscopio_n1 := n_intr_count_le & [ STEM < "anaglifoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anaglifoscopio_n_rel" ] ]. anagrama_n1 := n_intr_count_le & [ STEM < "anagrama" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anagrama_n_rel" ] ]. anal_a1 := a_rel_nonprd_intr_le & [ STEM < "anal" >, SYNSEM.LKEYS.KEYREL.PRED "_anal_a_rel" ]. anal_n1 := n_intr_count_le & [ STEM < "anal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anal_n_rel" ] ]. analcima_n1 := n_intr_count_le & [ STEM < "analcima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_analcima_n_rel" ] ]. analfabetismo_n1 := n_ppcomp_mass_le & [ STEM < "analfabetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analfabetismo_n_rel" ] ]. analfabeto_a1 := a_qual_intr_ser_le & [ STEM < "analfabeto" >, SYNSEM.LKEYS.KEYREL.PRED "_analfabeto_a_rel" ]. analfabeto_n1 := n_intr_count_le & [ STEM < "analfabeto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_analfabeto_n_rel" ] ]. analgesia_n1 := n_intr_uncount_le & [ STEM < "analgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analgesia_n_rel" ] ]. analgésico_a1 := a_rel_nonprd_intr_le & [ STEM < "analgésico" >, SYNSEM.LKEYS.KEYREL.PRED "_analgésico_a_rel" ]. analgésico_n1 := n_intr_mass_le & [ STEM < "analgésico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_analgésico_n_rel" ] ]. analista_n1 := n_intr_count_le & [ STEM < "analista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_analista_n_rel" ] ]. analiticidad_n1 := n_intr_uncount_le & [ STEM < "analiticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analiticidad_n_rel" ] ]. analizable_a1 := a_rel_nonprd_intr_le & [ STEM < "analizable" >, SYNSEM.LKEYS.KEYREL.PRED "_analizable_a_rel" ]. analizador_a1 := a_rel_nonprd_intr_le & [ STEM < "analizador" >, SYNSEM.LKEYS.KEYREL.PRED "_analizador_a_rel" ]. analizador_n1 := n_intr_count_le & [ STEM < "analizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_analizador_n_rel" ] ]. analmente_x1 := av_i_spr_le & [ STEM < "analmente" >, SYNSEM.LKEYS.KEYREL.PRED "_analmente_x_rel" ]. analogía_n1 := n_intr_count_le & [ STEM < "analogía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_analogía_n_rel" ] ]. analérgico_a1 := a_rel_nonprd_intr_le & [ STEM < "analérgico" >, SYNSEM.LKEYS.KEYREL.PRED "_analérgico_a_rel" ]. analíticamente_x1 := av_i_spr_le & [ STEM < "analíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_analíticamente_x_rel" ]. analítico_a1 := a_rel_nonprd_intr_le & [ STEM < "analítico" >, SYNSEM.LKEYS.KEYREL.PRED "_analítico_a_rel" ]. analógicamente_x1 := av_i_spr_le & [ STEM < "analógicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_analógicamente_x_rel" ]. analógico_a1 := a_rel_nonprd_intr_le & [ STEM < "analógico" >, SYNSEM.LKEYS.KEYREL.PRED "_analógico_a_rel" ]. anamnesis_n1 := n_intr_uncount_le & [ STEM < "anamnesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anamnesis_n_rel" ] ]. anamorfosis_n1 := n_intr_uncount_le & [ STEM < "anamorfosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anamorfosis_n_rel" ] ]. anamórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "anamórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_anamórfico_a_rel" ]. ananá_n1 := n_intr_count_le & [ STEM < "ananá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ananá_n_rel" ] ]. ananás_n1 := n_intr_count_le & [ STEM < "ananás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_ananás_n_rel" ] ]. anapesto_n1 := n_intr_count_le & [ STEM < "anapesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anapesto_n_rel" ] ]. anaquel_n1 := n_intr_count_le & [ STEM < "anaquel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anaquel_n_rel" ] ]. anaranjado_a1 := a_qual_intr_ser_le & [ STEM < "anaranjado" >, SYNSEM.LKEYS.KEYREL.PRED "_anaranjado_a_rel" ]. anarmónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anarmónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anarmónico_a_rel" ]. anarquismo_n1 := n_intr_uncount_le & [ STEM < "anarquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anarquismo_n_rel" ] ]. anarquista_a1 := a_qual_intr_ser_le & [ STEM < "anarquista" >, SYNSEM.LKEYS.KEYREL.PRED "_anarquista_a_rel" ]. anarquista_n1 := n_intr_count_le & [ STEM < "anarquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anarquista_n_rel" ] ]. anarquía_n1 := n_intr_count_le & [ STEM < "anarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anarquía_n_rel" ] ]. anastomosis_n1 := n_intr_uncount_le & [ STEM < "anastomosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anastomosis_n_rel" ] ]. anatasa_n1 := n_intr_count_le & [ STEM < "anatasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anatasa_n_rel" ] ]. anatema_n1 := n_intr_count_le & [ STEM < "anatema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatema_n_rel" ] ]. anato_n1 := n_intr_count_le & [ STEM < "anato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_mat, PRED "_anato_n_rel" ] ]. anatocismo_n1 := n_intr_uncount_le & [ STEM < "anatocismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatocismo_n_rel" ] ]. anatomicoforense_a1 := a_rel_nonprd_intr_le & [ STEM < "anatomicoforense" >, SYNSEM.LKEYS.KEYREL.PRED "_anatomicoforense_a_rel" ]. anatomicoforense_n1 := n_intr_count_le & [ STEM < "anatomicoforense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anatomicoforense_n_rel" ] ]. anatomista_n1 := n_intr_count_le & [ STEM < "anatomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anatomista_n_rel" ] ]. anatomía_n1 := n_intr_count_le & [ STEM < "anatomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anatomía_n_rel" ] ]. anatoxina_n1 := n_intr_count_le & [ STEM < "anatoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anatoxina_n_rel" ] ]. anatómicamente_x1 := av_i_spr_le & [ STEM < "anatómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anatómicamente_x_rel" ]. anatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "anatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_anatómico_a_rel" ]. anca_n1 := n_ppcomp_count_le & [ STEM < "anca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_anca_n_rel" ] ]. ancestral_a1 := a_rel_prd_le & [ STEM < "ancestral" >, SYNSEM.LKEYS.KEYREL.PRED "_ancestral_a_rel" ]. ancestro_n1 := n_intr_count_le & [ STEM < "ancestro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ancestro_n_rel" ] ]. ancho_a1 := a_qual_intr_scopal_le & [ STEM < "ancho" >, SYNSEM.LKEYS.KEYREL.PRED "_ancho_a_rel" ]. anchoa_n1 := n_intr_count_le & [ STEM < "anchoa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anchoa_n_rel" ] ]. anchura_n1 := n_intr_mass_le & [ STEM < "anchura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_anchura_n_rel" ] ]. ancianidad_n1 := n_ppcomp_uncount_le & [ STEM < "ancianidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ancianidad_n_rel" ] ]. anciano_a1 := a_qual_intr_ser_le & [ STEM < "anciano" >, SYNSEM.LKEYS.KEYREL.PRED "_anciano_a_rel" ]. anciano_n1 := n_intr_count_le & [ STEM < "anciano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anciano_n_rel" ] ]. ancla_n1 := n_intr_count_le & [ STEM < "ancla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ancla_n_rel" ] ]. anclaje_n1 := n_event-result_intr_le & [ STEM < "anclaje" >, SYNSEM.LKEYS.KEYREL.PRED "_anclaje_n_rel" ]. anclar_v := v_trans_np_caus_le & [ STEM < "anclar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_pot, PRED "_anclar_v_rel" ] ]. anclote_n1 := n_intr_count_le & [ STEM < "anclote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anclote_n_rel" ] ]. andada_n1 := n_event-result_intr_le & [ STEM < "andada" >, SYNSEM.LKEYS.KEYREL.PRED "_andada_n_rel" ]. andadura_n1 := n_result_intr_le & [ STEM < "andadura" >, SYNSEM.LKEYS.KEYREL.PRED "_andadura_n_rel" ]. andalucista_a1 := a_rel_prd_le & [ STEM < "andalucista" >, SYNSEM.LKEYS.KEYREL.PRED "_andalucista_a_rel" ]. andalucista_n1 := n_intr_count_le & [ STEM < "andalucista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andalucista_n_rel" ] ]. andalucita_n1 := n_intr_count_le & [ STEM < "andalucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andalucita_n_rel" ] ]. andaluz_a1 := a_rel_prd_le & [ STEM < "andaluz" >, SYNSEM.LKEYS.KEYREL.PRED "_andaluz_a_rel" ]. andaluz_n1 := n_intr_count_le & [ STEM < "andaluz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andaluz_n_rel" ] ]. andamiada_n1 := n_intr_count_le & [ STEM < "andamiada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamiada_n_rel" ] ]. andamiaje_n1 := n_intr_coll_le & [ STEM < "andamiaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamiaje_n_rel" ] ]. andamio_n1 := n_intr_count_le & [ STEM < "andamio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andamio_n_rel" ] ]. andana_n1 := n_intr_count_le & [ STEM < "andana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andana_n_rel" ] ]. andante_a1 := a_rel_nonprd_intr_le & [ STEM < "andante" >, SYNSEM.LKEYS.KEYREL.PRED "_andante_a_rel" ]. andante_n1 := n_intr_count_le & [ STEM < "andante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andante_n_rel" ] ]. andantino_n1 := n_intr_count_le & [ STEM < "andantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andantino_n_rel" ] ]. andanza_n1 := n_result_intr_le & [ STEM < "andanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andanza_n_rel" ] ]. andarivel_n1 := n_intr_count_le & [ STEM < "andarivel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andarivel_n_rel" ] ]. andesina_n1 := n_intr_count_le & [ STEM < "andesina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_andesina_n_rel" ] ]. andesita_n1 := n_intr_count_le & [ STEM < "andesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andesita_n_rel" ] ]. andideportivo_a1 := a_rel_prd_le & [ STEM < "andideportivo" >, SYNSEM.LKEYS.KEYREL.PRED "_andideportivo_a_rel" ]. andino_a1 := a_rel_prd_le & [ STEM < "andino" >, SYNSEM.LKEYS.KEYREL.PRED "_andino_a_rel" ]. andino_n1 := n_intr_count_le & [ STEM < "andino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andino_n_rel" ] ]. andorrano_a1 := a_rel_prd_le & [ STEM < "andorrano" >, SYNSEM.LKEYS.KEYREL.PRED "_andorrano_a_rel" ]. andorrano_n1 := n_intr_count_le & [ STEM < "andorrano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_andorrano_n_rel" ] ]. andradita_n1 := n_intr_count_le & [ STEM < "andradita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_andradita_n_rel" ] ]. andrajoso_a1 := a_qual_intr_ser_le & [ STEM < "andrajoso" >, SYNSEM.LKEYS.KEYREL.PRED "_andrajoso_a_rel" ]. androide_n1 := n_intr_count_le & [ STEM < "androide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_androide_n_rel" ] ]. andrología_n1 := n_intr_uncount_le & [ STEM < "andrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_andrología_n_rel" ] ]. androna_n1 := n_intr_count_le & [ STEM < "androna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_androna_n_rel" ] ]. androsterona_n1 := n_intr_count_le & [ STEM < "androsterona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_androsterona_n_rel" ] ]. andrógino_a1 := a_qual_intr_ser_le & [ STEM < "andrógino" >, SYNSEM.LKEYS.KEYREL.PRED "_andrógino_a_rel" ]. andén_n1 := n_intr_count_le & [ STEM < "andén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_andén_n_rel" ] ]. anea_n1 := n_intr_count_le & [ STEM < "anea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_anea_n_rel" ] ]. anecdotista_n1 := n_intr_count_le & [ STEM < "anecdotista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anecdotista_n_rel" ] ]. anecdótico_a1 := a_rel_prd_le & [ STEM < "anecdótico" >, SYNSEM.LKEYS.KEYREL.PRED "_anecdótico_a_rel" ]. anecoico_a1 := a_rel_nonprd_intr_le & [ STEM < "anecoico" >, SYNSEM.LKEYS.KEYREL.PRED "_anecoico_a_rel" ]. anegar_v := v_trans_np_le & [ STEM < "anegar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_mat_soc, PRED "_anegar_v_rel" ] ]. anejo_a1 := a_rel_nonprd_intr_le & [ STEM < "anejo" >, SYNSEM.LKEYS.KEYREL.PRED "_anejo_a_rel" ]. anejo_n1 := n_intr_count_le & [ STEM < "anejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anejo_n_rel" ] ]. anelasticidad_n1 := n_intr_uncount_le & [ STEM < "anelasticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anelasticidad_n_rel" ] ]. anemia_n1 := n_intr_uncount_pl_le & [ STEM < "anemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anemia_n_rel" ] ]. anemometría_n1 := n_intr_uncount_le & [ STEM < "anemometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anemometría_n_rel" ] ]. anemométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "anemométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_anemométrico_a_rel" ]. anemoscopio_n1 := n_intr_count_le & [ STEM < "anemoscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemoscopio_n_rel" ] ]. anemógrafo_n1 := n_intr_count_le & [ STEM < "anemógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemógrafo_n_rel" ] ]. anemómetro_n1 := n_intr_count_le & [ STEM < "anemómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anemómetro_n_rel" ] ]. anergia_n1 := n_intr_uncount_pl_le & [ STEM < "anergia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anergia_n_rel" ] ]. aneroide_a1 := a_rel_nonprd_intr_le & [ STEM < "aneroide" >, SYNSEM.LKEYS.KEYREL.PRED "_aneroide_a_rel" ]. anestesia_n1 := n_intr_mass_le & [ STEM < "anestesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anestesia_n_rel" ] ]. anestesiar_v1 := v_ditrans*_le & [ STEM < "anestesiar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT bpart, PRED "_anestesiar_v_rel" ] ]. anestesiar_v2 := v_trans_np_le & [ STEM < "anestesiar" >, SYNSEM.LKEYS.KEYREL.PRED "_anestesiar_v_rel" ]. anestesiología_n1 := n_intr_uncount_le & [ STEM < "anestesiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anestesiología_n_rel" ] ]. anestesista_n1 := n_intr_count_le & [ STEM < "anestesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anestesista_n_rel" ] ]. anestesiólogo_n1 := n_intr_count_le & [ STEM < "anestesiólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anestesiólogo_n_rel" ] ]. anestésico_a1 := a_rel_nonprd_intr_le & [ STEM < "anestésico" >, SYNSEM.LKEYS.KEYREL.PRED "_anestésico_a_rel" ]. anetol_n1 := n_intr_count_le & [ STEM < "anetol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anetol_n_rel" ] ]. aneuploidia_n1 := n_intr_uncount_le & [ STEM < "aneuploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aneuploidia_n_rel" ] ]. aneurisma_n1 := n_intr_count_le & [ STEM < "aneurisma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aneurisma_n_rel" ] ]. anexión_n1 := n_trans_le & [ STEM < "anexión" >, SYNSEM.LKEYS.KEYREL.PRED "_anexión_n_rel" ]. anexo_a1 := a_qual_trans*_ser_le & [ STEM < "anexo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_anexo_a_rel" ] ]. anexo_n1 := n_intr_count_le & [ STEM < "anexo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_sem, PRED "_anexo_n_rel" ] ]. anfetamina_n1 := n_intr_count_le & [ STEM < "anfetamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anfetamina_n_rel" ] ]. anfiaster_n1 := n_intr_count_le & [ STEM < "anfiaster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anfiaster_n_rel" ] ]. anfibio_a1 := a_rel_nonprd_intr_le & [ STEM < "anfibio" >, SYNSEM.LKEYS.KEYREL.PRED "_anfibio_a_rel" ]. anfibio_n1 := n_intr_count_le & [ STEM < "anfibio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anfibio_n_rel" ] ]. anfibología_n1 := n_intr_uncount_le & [ STEM < "anfibología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfibología_n_rel" ] ]. anfidiploidia_n1 := n_intr_uncount_le & [ STEM < "anfidiploidia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfidiploidia_n_rel" ] ]. anfidrómico_a1 := a_rel_nonprd_intr_le & [ STEM < "anfidrómico" >, SYNSEM.LKEYS.KEYREL.PRED "_anfidrómico_a_rel" ]. anfigonia_n1 := n_intr_uncount_le & [ STEM < "anfigonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfigonia_n_rel" ] ]. anfimixis_n1 := n_intr_uncount_le & [ STEM < "anfimixis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfimixis_n_rel" ] ]. anfipróstilo_a1 := a_rel_nonprd_intr_le & [ STEM < "anfipróstilo" >, SYNSEM.LKEYS.KEYREL.PRED "_anfipróstilo_a_rel" ]. anfipático_a1 := a_rel_nonprd_intr_le & [ STEM < "anfipático" >, SYNSEM.LKEYS.KEYREL.PRED "_anfipático_a_rel" ]. anfiteatro_n1 := n_intr_count_le & [ STEM < "anfiteatro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_anfiteatro_n_rel" ] ]. anfitrión_n1 := n_intr_count_le & [ STEM < "anfitrión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anfitrión_n_rel" ] ]. anfogenia_n1 := n_intr_uncount_le & [ STEM < "anfogenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anfogenia_n_rel" ] ]. anforisco_n1 := n_intr_count_le & [ STEM < "anforisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anforisco_n_rel" ] ]. anfólito_n1 := n_intr_count_le & [ STEM < "anfólito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anfólito_n_rel" ] ]. anfótero_a1 := a_rel_nonprd_intr_le & [ STEM < "anfótero" >, SYNSEM.LKEYS.KEYREL.PRED "_anfótero_a_rel" ]. angaria_n1 := n_intr_uncount_le & [ STEM < "angaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angaria_n_rel" ] ]. angeitis_n1 := n_intr_uncount_le & [ STEM < "angeitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angeitis_n_rel" ] ]. angelical_a1 := a_rel_prd_le & [ STEM < "angelical" >, SYNSEM.LKEYS.KEYREL.PRED "_angelical_a_rel" ]. angelito_n1 := n_intr_count_le & [ STEM < "angelito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angelito_n_rel" ] ]. angina_n1 := n_intr_uncount_pl_le & [ STEM < "angina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angina_n_rel" ] ]. angioblasto_n1 := n_intr_count_le & [ STEM < "angioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioblasto_n_rel" ] ]. angioedema_n1 := n_intr_count_le & [ STEM < "angioedema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioedema_n_rel" ] ]. angiofibroma_n1 := n_intr_count_le & [ STEM < "angiofibroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angiofibroma_n_rel" ] ]. angiografía_n1 := n_intr_count_le & [ STEM < "angiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiografía_n_rel" ] ]. angiomatosis_n1 := n_intr_uncount_le & [ STEM < "angiomatosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiomatosis_n_rel" ] ]. angioscotoma_n1 := n_intr_count_le & [ STEM < "angioscotoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angioscotoma_n_rel" ] ]. angioscotometría_n1 := n_intr_count_le & [ STEM < "angioscotometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angioscotometría_n_rel" ] ]. angiosperma_n1 := n_intr_count_le & [ STEM < "angiosperma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_angiosperma_n_rel" ] ]. angiotensina_n1 := n_intr_uncount_le & [ STEM < "angiotensina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angiotensina_n_rel" ] ]. anglesita_n1 := n_intr_count_le & [ STEM < "anglesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anglesita_n_rel" ] ]. anglicanismo_n1 := n_ppcomp_uncount_le & [ STEM < "anglicanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglicanismo_n_rel" ] ]. anglicano_a1 := a_rel_prd_le & [ STEM < "anglicano" >, SYNSEM.LKEYS.KEYREL.PRED "_anglicano_a_rel" ]. anglicano_n1 := n_intr_count_le & [ STEM < "anglicano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglicano_n_rel" ] ]. anglicismo_n1 := n_intr_count_le & [ STEM < "anglicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglicismo_n_rel" ] ]. anglicista_n1 := n_intr_count_le & [ STEM < "anglicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglicista_n_rel" ] ]. angloamericano_a1 := a_rel_prd_le & [ STEM < "angloamericano" >, SYNSEM.LKEYS.KEYREL.PRED "_angloamericano_a_rel" ]. angloamericano_n1 := n_intr_count_le & [ STEM < "angloamericano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angloamericano_n_rel" ] ]. anglofobia_n1 := n_intr_uncount_le & [ STEM < "anglofobia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anglofobia_n_rel" ] ]. angloparlante_a1 := a_qual_intr_ser_le & [ STEM < "angloparlante" >, SYNSEM.LKEYS.KEYREL.PRED "_angloparlante_a_rel" ]. angloparlante_n1 := n_intr_count_le & [ STEM < "angloparlante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angloparlante_n_rel" ] ]. anglosajón_a1 := a_rel_prd_le & [ STEM < "anglosajón" >, SYNSEM.LKEYS.KEYREL.PRED "_anglosajón_a_rel" ]. anglófilo_a1 := a_qual_intr_ser_le & [ STEM < "anglófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_anglófilo_a_rel" ]. anglófilo_n1 := n_intr_count_le & [ STEM < "anglófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófilo_n_rel" ] ]. anglófobo_n1 := n_intr_count_le & [ STEM < "anglófobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófobo_n_rel" ] ]. anglófono_n1 := n_intr_count_le & [ STEM < "anglófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anglófono_n_rel" ] ]. angolense_n1 := n_intr_count_le & [ STEM < "angolense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angolense_n_rel" ] ]. angoleño_a1 := a_rel_prd_le & [ STEM < "angoleño" >, SYNSEM.LKEYS.KEYREL.PRED "_angoleño_a_rel" ]. angoleño_n1 := n_intr_count_le & [ STEM < "angoleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angoleño_n_rel" ] ]. angolés_n1 := n_intr_count_le & [ STEM < "angolés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_angolés_n_rel" ] ]. angora_n1 := n_intr_count_le & [ STEM < "angora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_angora_n_rel" ] ]. angostamente_x1 := av_i_spr_le & [ STEM < "angostamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angostamente_x_rel" ]. angostar_v := v_trans_np_caus_le & [ STEM < "angostar" >, SYNSEM.LKEYS.KEYREL.PRED "_angostar_v_rel" ]. angosto_a1 := a_qual_intr_scopal_le & [ STEM < "angosto" >, SYNSEM.LKEYS.KEYREL.PRED "_angosto_a_rel" ]. angostura_n1 := n_ppcomp_uncount_le & [ STEM < "angostura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angostura_n_rel" ] ]. angrelado_a1 := a_qual_intr_ser_le & [ STEM < "angrelado" >, SYNSEM.LKEYS.KEYREL.PRED "_angrelado_a_rel" ]. angstrom_n := n_intr_count_le & [ STEM < "angstrom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_angstrom_n_rel" ] ]. angstromio_n := n_intr_count_le & [ STEM < "angstromio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_angstromio_n_rel" ] ]. anguila_n1 := n_intr_count_le & [ STEM < "anguila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anguila_n_rel" ] ]. anguilicultura_n1 := n_intr_uncount_le & [ STEM < "anguilicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anguilicultura_n_rel" ] ]. angula_n1 := n_intr_count_le & [ STEM < "angula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angula_n_rel" ] ]. angular_a1 := a_qual_intr_ser_le & [ STEM < "angular" >, SYNSEM.LKEYS.KEYREL.PRED "_angular_a_rel" ]. angular_n1 := n_intr_count_le & [ STEM < "angular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_angular_n_rel" ] ]. angularmente_x1 := av_i_spr_le & [ STEM < "angularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_angularmente_x_rel" ]. anguloso_a1 := a_qual_intr_ser_le & [ STEM < "anguloso" >, SYNSEM.LKEYS.KEYREL.PRED "_anguloso_a_rel" ]. angustia_n1 := n_intr_mass_le & [ STEM < "angustia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_angustia_n_rel" ] ]. angustiadamente_x1 := av_i_spr_le & [ STEM < "angustiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiadamente_x_rel" ]. angustiar_v1 := v_intr_io*_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_angustiar_v_rel" ] ]. angustiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiar_v_rel" ]. angustiar_v3 := v_trans_np_caus_le & [ STEM < "angustiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_angustiar_v_rel" ] ]. angustiosamente_x1 := av_i_spr_le & [ STEM < "angustiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angustiosamente_x_rel" ]. angustioso_a1 := a_qual_intr_scopal_le & [ STEM < "angustioso" >, SYNSEM.LKEYS.KEYREL.PRED "_angustioso_a_rel" ]. angélica_n1 := n_intr_count_le & [ STEM < "angélica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_angélica_n_rel" ] ]. angélicamente_x1 := av_i_spr_le & [ STEM < "angélicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_angélicamente_x_rel" ]. anhelación_n1 := n_trans_le & [ STEM < "anhelación" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelación_n_rel" ]. anhelante_a1 := a_qual_intr_ser_le & [ STEM < "anhelante" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelante_a_rel" ]. anhelantemente_x1 := av_i_spr_le & [ STEM < "anhelantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_anhelantemente_x_rel" ]. anhelar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "anhelar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ] ]. anhelar_v2 := v_intr_mrkd_np_le & [ STEM < "anhelar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ] ]. anhelar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "anhelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ]. anhelar_v4 := v_trans_np_le & [ STEM < "anhelar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anhelar_v_rel" ] ]. anhelo_n1 := n_intr_count_le & [ STEM < "anhelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anhelo_n_rel" ] ]. anhidrita_n1 := n_intr_count_le & [ STEM < "anhidrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anhidrita_n_rel" ] ]. anhidro_a1 := a_rel_nonprd_intr_le & [ STEM < "anhidro" >, SYNSEM.LKEYS.KEYREL.PRED "_anhidro_a_rel" ]. anhisterético_a1 := a_rel_nonprd_intr_le & [ STEM < "anhisterético" >, SYNSEM.LKEYS.KEYREL.PRED "_anhisterético_a_rel" ]. anhídrido_n1 := n_intr_mass_le & [ STEM < "anhídrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anhídrido_n_rel" ] ]. anidable_a1 := a_qual_intr_scopal_le & [ STEM < "anidable" >, SYNSEM.LKEYS.KEYREL.PRED "_anidable_a_rel" ]. anidación_n1 := n_trans_le & [ STEM < "anidación" >, SYNSEM.LKEYS.KEYREL.PRED "_anidación_n_rel" ]. anidación_n2 := n_result_intr_ppcomp_le & [ STEM < "anidación" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_anidación_n_rel" ] ]. anidamiento_n1 := n_result_intr_le & [ STEM < "anidamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_anidamiento_n_rel" ]. anidar_v := v_intr_le & [ STEM < "anidar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_anidar_v_rel" ] ]. anilida_n1 := n_intr_count_le & [ STEM < "anilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anilida_n_rel" ] ]. anilina_n1 := n_intr_mass_le & [ STEM < "anilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anilina_n_rel" ] ]. anilla_n1 := n_intr_count_le & [ STEM < "anilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anilla_n_rel" ] ]. anillar_v := v_trans_np_le & [ STEM < "anillar" >, SYNSEM.LKEYS.KEYREL.PRED "_anillar_v_rel" ]. anillo_n1 := n_intr_count_le & [ STEM < "anillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anillo_n_rel" ] ]. animación_n1 := n_trans_le & [ STEM < "animación" >, SYNSEM.LKEYS.KEYREL.PRED "_animación_n_rel" ]. animadamente_x1 := av_i_spr_le & [ STEM < "animadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_animadamente_x_rel" ]. animador_n1 := n_subj-nom_le & [ STEM < "animador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_animador_n_rel" ] ]. animadversión_n1 := n_intr_mass_le & [ STEM < "animadversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animadversión_n_rel" ] ]. animal_a1 := a_rel_nonprd_intr_le & [ STEM < "animal" >, SYNSEM.LKEYS.KEYREL.PRED "_animal_a_rel" ]. animal_n1 := n_intr_count_le & [ STEM < "animal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_animal_n_rel" ] ]. animalada_n1 := n_intr_count_le & [ STEM < "animalada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animalada_n_rel" ] ]. animar_v1 := v_intr_io*_le & [ STEM < "animar" >, SYNSEM.LKEYS.KEYREL.PRED "_animar_v_rel" ]. animar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "animar" >, SYNSEM.LKEYS.KEYREL.PRED "_animar_v_rel" ]. animar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animar_v5 := v_trans_np_mrkd_np*_caus_le & [ STEM < "animar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_animar_v_rel" ] ] ]. animatismo_n1 := n_intr_uncount_le & [ STEM < "animatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animatismo_n_rel" ] ]. animismo_n1 := n_intr_uncount_le & [ STEM < "animismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animismo_n_rel" ] ]. animosamente_x1 := av_i_spr_le & [ STEM < "animosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_animosamente_x_rel" ]. animosidad_n1 := n_intr_mass_le & [ STEM < "animosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_animosidad_n_rel" ] ]. animoso_a1 := a_qual_intr_ser_le & [ STEM < "animoso" >, SYNSEM.LKEYS.KEYREL.PRED "_animoso_a_rel" ]. aniquilación_n1 := n_trans_le & [ STEM < "aniquilación" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilación_n_rel" ]. aniquilar_v1 := v_intr_io*_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilar_v_rel" ]. aniquilar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL.PRED "_aniquilar_v_rel" ]. aniquilar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aniquilar_v_rel" ] ]. aniquilar_v4 := v_trans_np_le & [ STEM < "aniquilar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aniquilar_v_rel" ] ]. aniridia_n1 := n_intr_uncount_le & [ STEM < "aniridia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniridia_n_rel" ] ]. anisado_n1 := n_intr_count_le & [ STEM < "anisado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anisado_n_rel" ] ]. aniseiconía_n1 := n_intr_uncount_le & [ STEM < "aniseiconía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniseiconía_n_rel" ] ]. aniseicónico_a1 := a_rel_nonprd_intr_le & [ STEM < "aniseicónico" >, SYNSEM.LKEYS.KEYREL.PRED "_aniseicónico_a_rel" ]. anisete_n1 := n_intr_count_le & [ STEM < "anisete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anisete_n_rel" ] ]. anisidina_n1 := n_intr_count_le & [ STEM < "anisidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anisidina_n_rel" ] ]. anisocitosis_n1 := n_intr_uncount_le & [ STEM < "anisocitosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisocitosis_n_rel" ] ]. anisocoria_n1 := n_intr_uncount_le & [ STEM < "anisocoria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisocoria_n_rel" ] ]. anisognato_a1 := a_rel_nonprd_intr_le & [ STEM < "anisognato" >, SYNSEM.LKEYS.KEYREL.PRED "_anisognato_a_rel" ]. anisoiconía_n1 := n_intr_uncount_le & [ STEM < "anisoiconía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisoiconía_n_rel" ] ]. anisol_n1 := n_intr_mass-or-count_le & [ STEM < "anisol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_anisol_n_rel" ] ]. anisometropía_n1 := n_intr_uncount_le & [ STEM < "anisometropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisometropía_n_rel" ] ]. anisomérico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisomérico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisomérico_a_rel" ]. anisométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisométrico_a_rel" ]. anisotropia_n1 := n_intr_uncount_le & [ STEM < "anisotropia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anisotropia_n_rel" ] ]. anisotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisotrópico_a_rel" ]. anisotónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anisotónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anisotónico_a_rel" ]. anisócrono_a1 := a_rel_nonprd_intr_le & [ STEM < "anisócrono" >, SYNSEM.LKEYS.KEYREL.PRED "_anisócrono_a_rel" ]. anisótropo_a1 := a_rel_nonprd_intr_le & [ STEM < "anisótropo" >, SYNSEM.LKEYS.KEYREL.PRED "_anisótropo_a_rel" ]. aniversario_n1 := n_intr_count_le & [ STEM < "aniversario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aniversario_n_rel" ] ]. anión_n1 := n_intr_count_le & [ STEM < "anión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anión_n_rel" ] ]. aniónico_a1 := a_rel_nonprd_intr_le & [ STEM < "aniónico" >, SYNSEM.LKEYS.KEYREL.PRED "_aniónico_a_rel" ]. ano_n1 := n_ppcomp_count_le & [ STEM < "ano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_ano_n_rel" ] ]. anobido_n1 := n_intr_count_le & [ STEM < "anobido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_anobido_n_rel" ] ]. anoche_n1 := av_deic_tmp_le & [ STEM < "anoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anoche_x_rel" ]. anochecer_n1 := n_result_intr_le & [ STEM < "anochecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anochecer_n_rel" ] ]. anochecer_v := v_impers_strict_intr_le & [ STEM < "anochecer" >, SYNSEM.LKEYS.KEYREL.PRED "_anochecer_v_rel" ]. anocutáneo_a1 := a_rel_nonprd_intr_le & [ STEM < "anocutáneo" >, SYNSEM.LKEYS.KEYREL.PRED "_anocutáneo_a_rel" ]. anodinamente_x1 := av_i_spr_le & [ STEM < "anodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anodinamente_x_rel" ]. anodino_a1 := a_qual_intr_scopal_le & [ STEM < "anodino" >, SYNSEM.LKEYS.KEYREL.PRED "_anodino_a_rel" ]. anodizar_v := v_trans_np_le & [ STEM < "anodizar" >, SYNSEM.LKEYS.KEYREL.PRED "_anodizar_v_rel" ]. anodoncia_n1 := n_intr_uncount_le & [ STEM < "anodoncia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anodoncia_n_rel" ] ]. anoftalmía_n1 := n_intr_uncount_le & [ STEM < "anoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoftalmía_n_rel" ] ]. anolito_n1 := n_intr_count_le & [ STEM < "anolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anolito_n_rel" ] ]. anomalopía_n1 := n_intr_uncount_le & [ STEM < "anomalopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomalopía_n_rel" ] ]. anomaloscopio_n1 := n_intr_count_le & [ STEM < "anomaloscopio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anomaloscopio_n_rel" ] ]. anomalía_n1 := n_intr_count_le & [ STEM < "anomalía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomalía_n_rel" ] ]. anomia_n1 := n_intr_uncount_le & [ STEM < "anomia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anomia_n_rel" ] ]. anonadar_v1 := v_intr_io*_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonadar_v_rel" ]. anonadar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonadar_v_rel" ]. anonadar_v3 := v_trans_np_le & [ STEM < "anonadar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_anonadar_v_rel" ] ]. anonimato_n1 := n_intr_uncount_le & [ STEM < "anonimato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anonimato_n_rel" ] ]. anonimizar_v := v_trans_np_le & [ STEM < "anonimizar" >, SYNSEM.LKEYS.KEYREL.PRED "_anonimizar_v_rel" ]. anopsia_n1 := n_intr_uncount_le & [ STEM < "anopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anopsia_n_rel" ] ]. anorac_n1 := n_intr_count_le & [ STEM < "anorac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anorac_n_rel" ] ]. anorak_n1 := n_intr_count_le & [ STEM < "anorak" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anorak_n_rel" ] ]. anorexia_n1 := n_intr_uncount_le & [ STEM < "anorexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anorexia_n_rel" ] ]. anormal_a1 := a_qual_intr_scopal_le & [ STEM < "anormal" >, SYNSEM.LKEYS.KEYREL.PRED "_anormal_a_rel" ]. anormalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "anormalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anormalidad_n_rel" ] ]. anormalmente_x1 := av_i_spr_le & [ STEM < "anormalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anormalmente_x_rel" ]. anorrectal_a1 := a_rel_nonprd_intr_le & [ STEM < "anorrectal" >, SYNSEM.LKEYS.KEYREL.PRED "_anorrectal_a_rel" ]. anortita_n1 := n_intr_count_le & [ STEM < "anortita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anortita_n_rel" ] ]. anortoclasa_n1 := n_intr_mass-or-count_le & [ STEM < "anortoclasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_anortoclasa_n_rel" ] ]. anortopía_n1 := n_intr_uncount_le & [ STEM < "anortopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anortopía_n_rel" ] ]. anortosita_n1 := n_intr_count_le & [ STEM < "anortosita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anortosita_n_rel" ] ]. anosmia_n1 := n_intr_uncount_le & [ STEM < "anosmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anosmia_n_rel" ] ]. anotación_n1 := n_intr_count_le & [ STEM < "anotación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_anotación_n_rel" ] ]. anotador_a1 := a_rel_nonprd_intr_le & [ STEM < "anotador" >, SYNSEM.LKEYS.KEYREL.PRED "_anotador_a_rel" ]. anotador_n1 := n_subj-nom_le & [ STEM < "anotador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anotador_n_rel" ] ]. anotar_v1 := v_trans_cp_prop_fin_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anotar_v_rel" ] ]. anotar_v2 := v_trans_cp_semi_ques_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL.PRED "_anotar_v_rel" ]. anotar_v3 := v_trans_np_le & [ STEM < "anotar" >, SYNSEM.LKEYS.KEYREL.PRED "_anotar_v_rel" ]. anotia_n1 := n_intr_uncount_le & [ STEM < "anotia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anotia_n_rel" ] ]. anotropía_n1 := n_intr_uncount_le & [ STEM < "anotropía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anotropía_n_rel" ] ]. anoxemia_n1 := n_intr_uncount_le & [ STEM < "anoxemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoxemia_n_rel" ] ]. anoxia_n1 := n_intr_uncount_le & [ STEM < "anoxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anoxia_n_rel" ] ]. anquerita_n1 := n_intr_count_le & [ STEM < "anquerita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_anquerita_n_rel" ] ]. anquiloglosia_n1 := n_intr_uncount_le & [ STEM < "anquiloglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anquiloglosia_n_rel" ] ]. anquilosamiento_n1 := n_trans_le & [ STEM < "anquilosamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_anquilosamiento_n_rel" ]. anquilosis_n1 := n_intr_uncount_le & [ STEM < "anquilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anquilosis_n_rel" ] ]. anquirina_n1 := n_intr_count_le & [ STEM < "anquirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anquirina_n_rel" ] ]. anserino_n1 := n_intr_count_le & [ STEM < "anserino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anserino_n_rel" ] ]. ansia_n1 := n_intr_uncount_pl_le & [ STEM < "ansia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ansia_n_rel" ] ]. ansiar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ansiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ] ]. ansiar_v2 := v_intr_mrkd_np_le & [ STEM < "ansiar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ] ]. ansiar_v3 := v_trans_cp_prop_fin_sub_le & [ STEM < "ansiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_ansiar_v_rel" ] ]. ansiar_v4 := v_trans_np_le & [ STEM < "ansiar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_ansiar_v_rel" ] ]. ansiedad_n1 := n_intr_mass-or-count_le & [ STEM < "ansiedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ansiedad_n_rel" ] ]. ansiosamente_x1 := av_i_spr_le & [ STEM < "ansiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ansiosamente_x_rel" ]. ansioso_a1 := a_qual_trans*_ser_le & [ STEM < "ansioso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_ansioso_a_rel" ] ]. ansioso_a2 := a_sctrl_estar_le & [ STEM < "ansioso" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_ansioso_a_rel" ] ]. anta_n1 := n_intr_count_le & [ STEM < "anta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_anta_n_rel" ] ]. antagonismo_n1 := n_intr_mass_le & [ STEM < "antagonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antagonismo_n_rel" ] ]. antagonista_a1 := a_qual_intr_ser_le & [ STEM < "antagonista" >, SYNSEM.LKEYS.KEYREL.PRED "_antagonista_a_rel" ]. antagonista_n1 := n_intr_count_le & [ STEM < "antagonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antagonista_n_rel" ] ]. antagónico_a1 := a_rel_prd_le & [ STEM < "antagónico" >, SYNSEM.LKEYS.KEYREL.PRED "_antagónico_a_rel" ]. antaño_n1 := av_deic_tmp_le & [ STEM < "antaño" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antaño_x_rel" ]. ante_n1 := n_intr_mass_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ante_n_rel" ] ]. ante_p_nmod := p_nmod_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL.PRED _ante_p_rel ]. ante_p_vmod := p_vmod_le & [ STEM < "ante" >, SYNSEM.LKEYS.KEYREL.PRED _ante_p_rel ]. anteanoche_n1 := av_deic_tmp_le & [ STEM < "anteanoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteanoche_x_rel" ]. anteanteayer_n1 := av_deic_tmp_le & [ STEM < "anteanteayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteanteayer_x_rel" ]. anteayer_n1 := av_deic_tmp_le & [ STEM < "anteayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_anteayer_x_rel" ]. antebrazo_n1 := n_ppcomp_count_le & [ STEM < "antebrazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antebrazo_n_rel" ] ]. antecedencia_n1 := n_intr_count_le & [ STEM < "antecedencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antecedencia_n_rel" ] ]. antecedente_a1 := a_rel_nonprd_intr_le & [ STEM < "antecedente" >, SYNSEM.LKEYS.KEYREL.PRED "_antecedente_a_rel" ]. antecedente_n1 := n_intr_count_le & [ STEM < "antecedente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antecedente_n_rel" ] ]. antecesor_n1 := n_subj-nom_le & [ STEM < "antecesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antecesor_n_rel" ] ]. antecocina_n1 := n_intr_count_le & [ STEM < "antecocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antecocina_n_rel" ] ]. antecámara_n1 := n_intr_count_le & [ STEM < "antecámara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antecámara_n_rel" ] ]. antedatación_n1 := n_trans_le & [ STEM < "antedatación" >, SYNSEM.LKEYS.KEYREL.PRED "_antedatación_n_rel" ]. antediluviano_a1 := a_rel_nonprd_intr_le & [ STEM < "antediluviano" >, SYNSEM.LKEYS.KEYREL.PRED "_antediluviano_a_rel" ]. antefirma_n1 := n_intr_count_le & [ STEM < "antefirma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antefirma_n_rel" ] ]. antegreen_n1 := n_intr_count_le & [ STEM < "antegreen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_antegreen_n_rel" ] ]. antejuicio_n1 := n_intr_count_le & [ STEM < "antejuicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antejuicio_n_rel" ] ]. antelación_n1 := n_intr_mass_le & [ STEM < "antelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antelación_n_rel" ] ]. antemano_n1 := n_ppcomp_count_le & [ STEM < "antemano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antemano_n_rel" ] ]. antemural_n1 := n_intr_count_le & [ STEM < "antemural" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antemural_n_rel" ] ]. antemuro_n1 := n_intr_count_le & [ STEM < "antemuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antemuro_n_rel" ] ]. antena_n1 := n_intr_count_le & [ STEM < "antena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_antena_n_rel" ] ]. anteojera_n1 := n_intr_count_le & [ STEM < "anteojera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anteojera_n_rel" ] ]. anteojo_n1 := n_intr_count_le & [ STEM < "anteojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anteojo_n_rel" ] ]. antepalco_n1 := n_intr_count_le & [ STEM < "antepalco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antepalco_n_rel" ] ]. antepasado_n1 := n_intr_count_le & [ STEM < "antepasado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antepasado_n_rel" ] ]. antepecho_n2 := n_ppcomp_count_le & [ STEM < "antepecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_antepecho_n_rel" ] ]. anteponer_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "anteponer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_anteponer_v_rel" ] ]. anteproyecto_n1 := n_intr_count_le & [ STEM < "anteproyecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anteproyecto_n_rel" ] ]. antepuerto_n1 := n_intr_count_le & [ STEM < "antepuerto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antepuerto_n_rel" ] ]. antera_n1 := n_intr_count_le & [ STEM < "antera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antera_n_rel" ] ]. anterior_a1 := a_compar_alt_le & [ STEM < "anterior" >, SYNSEM.LKEYS.KEYREL.PRED "_anterior_a_rel" ]. anterioridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "anterioridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anterioridad_n_rel" ] ]. anteriormente_a_p_vmod := p_vmod_le & [ STEM < "anteriormente_a" >, SYNSEM.LKEYS.KEYREL.PRED _anteriormente_a_p_rel ]. anteriormente_x1 := av_i_spr_le & [ STEM < "anteriormente" >, SYNSEM.LKEYS.KEYREL.PRED "_anteriormente_x_rel" ]. anterolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "anterolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_anterolateral_a_rel" ]. anteroposterior_a1 := a_rel_nonprd_intr_le & [ STEM < "anteroposterior" >, SYNSEM.LKEYS.KEYREL.PRED "_anteroposterior_a_rel" ]. antes_bien_x1 := av_i_le & [ STEM < "antes_bien" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_bien_x_rel" ]. antes_de_anoche_n1 := av_deic_tmp_le & [ STEM < "antes_de_anoche" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antes_de_anoche_x_rel" ]. antes_de_ayer_n1 := av_deic_tmp_le & [ STEM < "antes_de_ayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_antes_de_ayer_x_rel" ]. antes_de_p_vmod := p_vmod_le & [ STEM < "antes_de" >, SYNSEM.LKEYS.KEYREL.PRED _antes_de_p_rel ]. antes_pues_x1 := av_i_le & [ STEM < "antes_pues" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_pues_x_rel" ]. antes_que_nada_x1 := av_i_le & [ STEM < "antes_que_nada" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_que_nada_x_rel" ]. antes_x1 := av_i_spr_le & [ STEM < "antes" >, SYNSEM.LKEYS.KEYREL.PRED "_antes_x_rel" ]. antesala_n1 := n_intr_count_le & [ STEM < "antesala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antesala_n_rel" ] ]. anti_a1 := a_adv_int_le & [ STEM < "anti" >, SYNSEM.LKEYS.KEYREL.PRED "_anti_a_rel" ]. antiabrasivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiabrasivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiabrasivo_a_rel" ]. antiadherente_a1 := a_rel_prd_le & [ STEM < "antiadherente" >, SYNSEM.LKEYS.KEYREL.PRED "_antiadherente_a_rel" ]. antiadhesivo_n1 := n_intr_count_le & [ STEM < "antiadhesivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiadhesivo_n_rel" ] ]. antialbumosa_n1 := n_intr_mass-or-count_le & [ STEM < "antialbumosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_antialbumosa_n_rel" ] ]. antialcalino_a1 := a_rel_nonprd_intr_le & [ STEM < "antialcalino" >, SYNSEM.LKEYS.KEYREL.PRED "_antialcalino_a_rel" ]. antialdoxima_n1 := n_intr_count_le & [ STEM < "antialdoxima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antialdoxima_n_rel" ] ]. antialotipo_n1 := n_intr_count_le & [ STEM < "antialotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antialotipo_n_rel" ] ]. antiatómico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiatómico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiatómico_a_rel" ]. antiaéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiaéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiaéreo_a_rel" ]. antibalanceador_a1 := a_rel_nonprd_intr_le & [ STEM < "antibalanceador" >, SYNSEM.LKEYS.KEYREL.PRED "_antibalanceador_a_rel" ]. antibariona_n1 := n_intr_count_le & [ STEM < "antibariona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antibariona_n_rel" ] ]. antibiosis_n1 := n_intr_uncount_le & [ STEM < "antibiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antibiosis_n_rel" ] ]. antibiótico_a1 := a_rel_nonprd_intr_le & [ STEM < "antibiótico" >, SYNSEM.LKEYS.KEYREL.PRED "_antibiótico_a_rel" ]. antibiótico_n1 := n_intr_mass_le & [ STEM < "antibiótico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antibiótico_n_rel" ] ]. anticadencia_n1 := n_intr_uncount_le & [ STEM < "anticadencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticadencia_n_rel" ] ]. anticapacitativo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapacitativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapacitativo_a_rel" ]. anticapacitivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapacitivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapacitivo_a_rel" ]. anticapilar_a1 := a_rel_nonprd_intr_le & [ STEM < "anticapilar" >, SYNSEM.LKEYS.KEYREL.PRED "_anticapilar_a_rel" ]. anticarbonilla_n1 := n_intr_count_le & [ STEM < "anticarbonilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticarbonilla_n_rel" ] ]. anticariógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "anticariógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_anticariógeno_a_rel" ]. anticastrista_a1 := a_qual_intr_ser_le & [ STEM < "anticastrista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticastrista_a_rel" ]. anticastrista_n1 := n_intr_count_le & [ STEM < "anticastrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticastrista_n_rel" ] ]. anticatalanista_a1 := a_qual_intr_ser_le & [ STEM < "anticatalanista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticatalanista_a_rel" ]. anticatalanista_n1 := n_intr_count_le & [ STEM < "anticatalanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticatalanista_n_rel" ] ]. anticatalizador_n1 := n_intr_count_le & [ STEM < "anticatalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_anticatalizador_n_rel" ] ]. anticiclón_n1 := n_intr_count_le & [ STEM < "anticiclón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_anticiclón_n_rel" ] ]. anticiclónico_a1 := a_rel_nonprd_intr_le & [ STEM < "anticiclónico" >, SYNSEM.LKEYS.KEYREL.PRED "_anticiclónico_a_rel" ]. anticipación_n1 := n_trans_le & [ STEM < "anticipación" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipación_n_rel" ]. anticipar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anticipar_v_rel" ] ]. anticipar_v2 := v_ditrans*_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_anticipar_v_rel" ] ]. anticipar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "anticipar" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipar_v_rel" ]. anticipar_v4 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "anticipar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_anticipar_v_rel" ] ]. anticipar_v5 := v_trans_np_mrkd_np*_caus_le & [ STEM < "anticipar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_anticipar_v_rel" ] ] ]. anticipativo_a1 := a_rel_prd_le & [ STEM < "anticipativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipativo_a_rel" ]. anticipo_n1 := n_trans_le & [ STEM < "anticipo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticipo_n_rel" ]. anticlerical_a1 := a_rel_nonprd_intr_le & [ STEM < "anticlerical" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlerical_a_rel" ]. anticlericalismo_n1 := n_intr_uncount_le & [ STEM < "anticlericalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticlericalismo_n_rel" ] ]. anticlericalmente_x1 := av_i_spr_le & [ STEM < "anticlericalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlericalmente_x_rel" ]. anticlinal_a1 := a_rel_nonprd_intr_le & [ STEM < "anticlinal" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlinal_a_rel" ]. anticlinalmente_x1 := av_i_spr_le & [ STEM < "anticlinalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticlinalmente_x_rel" ]. anticloro_n1 := n_intr_mass_le & [ STEM < "anticloro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticloro_n_rel" ] ]. anticlímax_n1 := n_intr_count_le & [ STEM < "anticlímax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticlímax_n_rel" ] ]. anticoagulante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticoagulante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticoagulante_a_rel" ]. anticoagulante_n1 := n_intr_count_le & [ STEM < "anticoagulante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticoagulante_n_rel" ] ]. anticoagulina_n1 := n_intr_count_le & [ STEM < "anticoagulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticoagulina_n_rel" ] ]. anticolonialismo_n1 := n_intr_uncount_le & [ STEM < "anticolonialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticolonialismo_n_rel" ] ]. anticomplementario_a1 := a_rel_nonprd_intr_le & [ STEM < "anticomplementario" >, SYNSEM.LKEYS.KEYREL.PRED "_anticomplementario_a_rel" ]. anticomunismo_n1 := n_intr_uncount_le & [ STEM < "anticomunismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticomunismo_n_rel" ] ]. anticomunista_a1 := a_qual_intr_ser_le & [ STEM < "anticomunista" >, SYNSEM.LKEYS.KEYREL.PRED "_anticomunista_a_rel" ]. anticonceptivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticonceptivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonceptivo_a_rel" ]. anticondensación_n1 := n_intr_uncount_le & [ STEM < "anticondensación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticondensación_n_rel" ] ]. anticongelante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticongelante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticongelante_a_rel" ]. anticongelante_n1 := n_intr_mass_le & [ STEM < "anticongelante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticongelante_n_rel" ] ]. anticonstitucional_a1 := a_rel_nonprd_intr_le & [ STEM < "anticonstitucional" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonstitucional_a_rel" ]. anticonstitucionalmente_x1 := av_i_spr_le & [ STEM < "anticonstitucionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anticonstitucionalmente_x_rel" ]. anticontaminante_a1 := a_rel_nonprd_intr_le & [ STEM < "anticontaminante" >, SYNSEM.LKEYS.KEYREL.PRED "_anticontaminante_a_rel" ]. anticorrosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "anticorrosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_anticorrosivo_a_rel" ]. anticorrosión_n1 := n_intr_uncount_le & [ STEM < "anticorrosión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticorrosión_n_rel" ] ]. anticresis_n1 := n_intr_uncount_pl_le & [ STEM < "anticresis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anticresis_n_rel" ] ]. anticresista_n1 := n_intr_count_le & [ STEM < "anticresista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticresista_n_rel" ] ]. anticristo_n1 := n_intr_count_le & [ STEM < "anticristo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticristo_n_rel" ] ]. anticrético_a1 := a_rel_nonprd_intr_le & [ STEM < "anticrético" >, SYNSEM.LKEYS.KEYREL.PRED "_anticrético_a_rel" ]. anticuario_n1 := n_intr_count_le & [ STEM < "anticuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_anticuario_n_rel" ] ]. anticuerpo_n1 := n_intr_count_le & [ STEM < "anticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticuerpo_n_rel" ] ]. anticuerpo_n2 := n_ppcomp_count_le & [ STEM < "anticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_anticuerpo_n_rel" ] ]. anticátodo_n1 := n_intr_count_le & [ STEM < "anticátodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anticátodo_n_rel" ] ]. anticíclico_a1 := a_rel_nonprd_intr_le & [ STEM < "anticíclico" >, SYNSEM.LKEYS.KEYREL.PRED "_anticíclico_a_rel" ]. antideflagrante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideflagrante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideflagrante_a_rel" ]. antidemocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "antidemocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_antidemocrático_a_rel" ]. antideportivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antideportivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antideportivo_a_rel" ]. antiderivada_n1 := n_intr_count_le & [ STEM < "antiderivada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiderivada_n_rel" ] ]. antiderrapante_a1 := a_rel_nonprd_intr_le & [ STEM < "antiderrapante" >, SYNSEM.LKEYS.KEYREL.PRED "_antiderrapante_a_rel" ]. antideslizante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideslizante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideslizante_a_rel" ]. antideslizante_n1 := n_intr_uncount_pl_le & [ STEM < "antideslizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antideslizante_n_rel" ] ]. antideslumbrante_a1 := a_rel_nonprd_intr_le & [ STEM < "antideslumbrante" >, SYNSEM.LKEYS.KEYREL.PRED "_antideslumbrante_a_rel" ]. antidesvanecedor_a1 := a_rel_nonprd_intr_le & [ STEM < "antidesvanecedor" >, SYNSEM.LKEYS.KEYREL.PRED "_antidesvanecedor_a_rel" ]. antidetonante_a1 := a_rel_nonprd_intr_le & [ STEM < "antidetonante" >, SYNSEM.LKEYS.KEYREL.PRED "_antidetonante_a_rel" ]. antiduna_n1 := n_intr_count_le & [ STEM < "antiduna" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antiduna_n_rel" ] ]. antieconómico_a1 := a_rel_nonprd_intr_le & [ STEM < "antieconómico" >, SYNSEM.LKEYS.KEYREL.PRED "_antieconómico_a_rel" ]. antienzima_n1 := n_intr_count_le & [ STEM < "antienzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antienzima_n_rel" ] ]. antiepicentro_n1 := n_intr_count_le & [ STEM < "antiepicentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_antiepicentro_n_rel" ] ]. antierosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antierosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antierosivo_a_rel" ]. antiestático_a1 := a_rel_nonprd_intr_le & [ STEM < "antiestático" >, SYNSEM.LKEYS.KEYREL.PRED "_antiestático_a_rel" ]. antiestético_a1 := a_rel_nonprd_intr_le & [ STEM < "antiestético" >, SYNSEM.LKEYS.KEYREL.PRED "_antiestético_a_rel" ]. antiexplosivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiexplosivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiexplosivo_a_rel" ]. antifaz_n1 := n_intr_count_le & [ STEM < "antifaz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antifaz_n_rel" ] ]. antifederalista_a1 := a_qual_intr_ser_le & [ STEM < "antifederalista" >, SYNSEM.LKEYS.KEYREL.PRED "_antifederalista_a_rel" ]. antiferromagnetismo_n1 := n_intr_uncount_le & [ STEM < "antiferromagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiferromagnetismo_n_rel" ] ]. antiferromagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "antiferromagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_antiferromagnético_a_rel" ]. antifibrinolisina_n1 := n_intr_count_le & [ STEM < "antifibrinolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antifibrinolisina_n_rel" ] ]. antifranquista_a1 := a_qual_intr_ser_le & [ STEM < "antifranquista" >, SYNSEM.LKEYS.KEYREL.PRED "_antifranquista_a_rel" ]. antifranquista_n1 := n_intr_count_le & [ STEM < "antifranquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antifranquista_n_rel" ] ]. antifricción_n1 := n_intr_uncount_le & [ STEM < "antifricción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antifricción_n_rel" ] ]. antifuncional_a1 := a_rel_nonprd_intr_le & [ STEM < "antifuncional" >, SYNSEM.LKEYS.KEYREL.PRED "_antifuncional_a_rel" ]. antigenicidad_n1 := n_intr_uncount_le & [ STEM < "antigenicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antigenicidad_n_rel" ] ]. antiglobulina_n1 := n_intr_count_le & [ STEM < "antiglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiglobulina_n_rel" ] ]. antigorita_n1 := n_intr_count_le & [ STEM < "antigorita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antigorita_n_rel" ] ]. antigualla_n1 := n_intr_count_le & [ STEM < "antigualla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antigualla_n_rel" ] ]. antiguamente_x1 := av_i_spr_le & [ STEM < "antiguamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguamente_x_rel" ]. antigubernamental_a1 := a_rel_nonprd_intr_le & [ STEM < "antigubernamental" >, SYNSEM.LKEYS.KEYREL.PRED "_antigubernamental_a_rel" ]. antiguo_a1 := a_adv_event_le & [ STEM < "antiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguo_a_rel" ]. antiguo_a2 := a_qual_intr_scopal_le & [ STEM < "antiguo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiguo_a_rel" ]. antigénico_a1 := a_rel_nonprd_intr_le & [ STEM < "antigénico" >, SYNSEM.LKEYS.KEYREL.PRED "_antigénico_a_rel" ]. antigüedad_n1 := n_intr_count_le & [ STEM < "antigüedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antigüedad_n_rel" ] ]. antigüedad_n2 := n_intr_temp_le & [ STEM < "antigüedad" > ]. antiherrumbroso_a1 := a_rel_nonprd_intr_le & [ STEM < "antiherrumbroso" >, SYNSEM.LKEYS.KEYREL.PRED "_antiherrumbroso_a_rel" ]. antihigiénico_a1 := a_rel_nonprd_intr_le & [ STEM < "antihigiénico" >, SYNSEM.LKEYS.KEYREL.PRED "_antihigiénico_a_rel" ]. antihiperglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "antihiperglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_antihiperglucemiante_a_rel" ]. antihipoglucemiante_a1 := a_rel_nonprd_intr_le & [ STEM < "antihipoglucemiante" >, SYNSEM.LKEYS.KEYREL.PRED "_antihipoglucemiante_a_rel" ]. antihistamina_n1 := n_intr_count_le & [ STEM < "antihistamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antihistamina_n_rel" ] ]. antihistamínico_a1 := a_rel_nonprd_intr_le & [ STEM < "antihistamínico" >, SYNSEM.LKEYS.KEYREL.PRED "_antihistamínico_a_rel" ]. antihistamínico_n1 := n_intr_uncount_pl_le & [ STEM < "antihistamínico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antihistamínico_n_rel" ] ]. antihiático_a1 := a_rel_nonprd_intr_le & [ STEM < "antihiático" >, SYNSEM.LKEYS.KEYREL.PRED "_antihiático_a_rel" ]. antihormona_n1 := n_intr_count_le & [ STEM < "antihormona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antihormona_n_rel" ] ]. antihéroe_n1 := n_intr_count_le & [ STEM < "antihéroe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antihéroe_n_rel" ] ]. antiidiotipo_n1 := n_intr_count_le & [ STEM < "antiidiotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiidiotipo_n_rel" ] ]. antiidiotopo_n1 := n_intr_count_le & [ STEM < "antiidiotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiidiotopo_n_rel" ] ]. antiincrustante_a1 := a_rel_nonprd_intr_le & [ STEM < "antiincrustante" >, SYNSEM.LKEYS.KEYREL.PRED "_antiincrustante_a_rel" ]. antiinductivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiinductivo_a_rel" ]. antiinflacionario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiinflacionario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiinflacionario_a_rel" ]. antijuricidad_n1 := n_intr_uncount_le & [ STEM < "antijuricidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antijuricidad_n_rel" ] ]. antijuridicidad_n1 := n_ppcomp_uncount_le & [ STEM < "antijuridicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antijuridicidad_n_rel" ] ]. antilinfocitario_a1 := a_rel_nonprd_intr_le & [ STEM < "antilinfocitario" >, SYNSEM.LKEYS.KEYREL.PRED "_antilinfocitario_a_rel" ]. antilinfocítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antilinfocítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antilinfocítico_a_rel" ]. antilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "antilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_antilocal_a_rel" ]. antilogaritmo_n1 := n_intr_count_le & [ STEM < "antilogaritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antilogaritmo_n_rel" ] ]. antimagnético_a1 := a_rel_nonprd_intr_le & [ STEM < "antimagnético" >, SYNSEM.LKEYS.KEYREL.PRED "_antimagnético_a_rel" ]. antimaquinismo_n1 := n_intr_uncount_le & [ STEM < "antimaquinismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimaquinismo_n_rel" ] ]. antimateria_n1 := n_intr_uncount_pl_le & [ STEM < "antimateria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimateria_n_rel" ] ]. antimeridiano_n1 := n_intr_count_le & [ STEM < "antimeridiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimeridiano_n_rel" ] ]. antimetabolito_n1 := n_intr_count_le & [ STEM < "antimetabolito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimetabolito_n_rel" ] ]. antimicina_n1 := n_intr_count_le & [ STEM < "antimicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimicina_n_rel" ] ]. antimicrobiano_a1 := a_rel_nonprd_intr_le & [ STEM < "antimicrobiano" >, SYNSEM.LKEYS.KEYREL.PRED "_antimicrobiano_a_rel" ]. antimicrobios_a1 := a_rel_nonprd_intr_le & [ STEM < "antimicrobios" >, SYNSEM.LKEYS.KEYREL.PRED "_antimicrobios_a_rel" ]. antimilitarismo_n1 := n_intr_uncount_le & [ STEM < "antimilitarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimilitarismo_n_rel" ] ]. antimilitarista_a1 := a_qual_intr_ser_le & [ STEM < "antimilitarista" >, SYNSEM.LKEYS.KEYREL.PRED "_antimilitarista_a_rel" ]. antimoda_n1 := n_intr_uncount_pl_le & [ STEM < "antimoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimoda_n_rel" ] ]. antimoho_n1 := n_intr_count_le & [ STEM < "antimoho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antimoho_n_rel" ] ]. antimonial_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonial" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonial_a_rel" ]. antimoniato_n1 := n_intr_count_le & [ STEM < "antimoniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimoniato_n_rel" ] ]. antimonio_n1 := n_intr_mass_le & [ STEM < "antimonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimonio_n_rel" ] ]. antimonioso_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonioso_a_rel" ]. antimonita_n1 := n_intr_count_le & [ STEM < "antimonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimonita_n_rel" ] ]. antimoniuro_n1 := n_intr_mass_le & [ STEM < "antimoniuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antimoniuro_n_rel" ] ]. antimonopolio_n1 := n_intr_count_le & [ STEM < "antimonopolio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antimonopolio_n_rel" ] ]. antimonárquico_a1 := a_rel_nonprd_intr_le & [ STEM < "antimonárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_antimonárquico_a_rel" ]. antimunicipalista_a1 := a_rel_nonprd_intr_le & [ STEM < "antimunicipalista" >, SYNSEM.LKEYS.KEYREL.PRED "_antimunicipalista_a_rel" ]. antinatural_a1 := a_rel_nonprd_intr_le & [ STEM < "antinatural" >, SYNSEM.LKEYS.KEYREL.PRED "_antinatural_a_rel" ]. antinaturalmente_x1 := av_i_spr_le & [ STEM < "antinaturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_antinaturalmente_x_rel" ]. antinodo_n1 := n_intr_count_le & [ STEM < "antinodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_antinodo_n_rel" ] ]. antinomia_n1 := n_intr_uncount_pl_le & [ STEM < "antinomia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antinomia_n_rel" ] ]. antinuclear_a1 := a_rel_nonprd_intr_le & [ STEM < "antinuclear" >, SYNSEM.LKEYS.KEYREL.PRED "_antinuclear_a_rel" ]. antiofídico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiofídico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiofídico_a_rel" ]. antioxidante_a1 := a_qual_intr_scopal_le & [ STEM < "antioxidante" >, SYNSEM.LKEYS.KEYREL.PRED "_antioxidante_a_rel" ]. antioxidante_n1 := n_intr_count_le & [ STEM < "antioxidante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antioxidante_n_rel" ] ]. antiozonizante_n1 := n_intr_count_le & [ STEM < "antiozonizante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiozonizante_n_rel" ] ]. antiparalelo_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparalelo" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparalelo_a_rel" ]. antiparasitario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparasitario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparasitario_a_rel" ]. antiparlamentario_a1 := a_rel_nonprd_intr_le & [ STEM < "antiparlamentario" >, SYNSEM.LKEYS.KEYREL.PRED "_antiparlamentario_a_rel" ]. antipatrióticamente_x1 := av_i_spr_le & [ STEM < "antipatrióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antipatrióticamente_x_rel" ]. antipatriótico_a1 := a_qual_intr_ser_le & [ STEM < "antipatriótico" >, SYNSEM.LKEYS.KEYREL.PRED "_antipatriótico_a_rel" ]. antipatía_n1 := n_intr_mass_le & [ STEM < "antipatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antipatía_n_rel" ] ]. antipendio_n1 := n_intr_count_le & [ STEM < "antipendio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antipendio_n_rel" ] ]. antipirina_n1 := n_intr_count_le & [ STEM < "antipirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antipirina_n_rel" ] ]. antiplasmina_n1 := n_intr_count_le & [ STEM < "antiplasmina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiplasmina_n_rel" ] ]. antiproteccionista_a1 := a_qual_intr_ser_le & [ STEM < "antiproteccionista" >, SYNSEM.LKEYS.KEYREL.PRED "_antiproteccionista_a_rel" ]. antipático_a1 := a_qual_intr_ser_le & [ STEM < "antipático" >, SYNSEM.LKEYS.KEYREL.PRED "_antipático_a_rel" ]. antireflexivo_a1 := a_rel_nonprd_intr_le & [ STEM < "antireflexivo" >, SYNSEM.LKEYS.KEYREL.PRED "_antireflexivo_a_rel" ]. antirracismo_n1 := n_intr_uncount_le & [ STEM < "antirracismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antirracismo_n_rel" ] ]. antirreflejante_a1 := a_rel_nonprd_intr_le & [ STEM < "antirreflejante" >, SYNSEM.LKEYS.KEYREL.PRED "_antirreflejante_a_rel" ]. antirresonancia_n1 := n_intr_count_le & [ STEM < "antirresonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antirresonancia_n_rel" ] ]. antirresonante_a1 := a_rel_nonprd_intr_le & [ STEM < "antirresonante" >, SYNSEM.LKEYS.KEYREL.PRED "_antirresonante_a_rel" ]. antirrevolucionario_a1 := a_qual_intr_ser_le & [ STEM < "antirrevolucionario" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrevolucionario_a_rel" ]. antirrobo_a1 := a_rel_nonprd_intr_le & [ STEM < "antirrobo" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrobo_a_rel" ]. antirrotatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "antirrotatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_antirrotatorio_a_rel" ]. antiselección_n1 := n_trans_le & [ STEM < "antiselección" >, SYNSEM.LKEYS.KEYREL.PRED "_antiselección_n_rel" ]. antisemita_a1 := a_qual_intr_ser_le & [ STEM < "antisemita" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemita_a_rel" ]. antisemitismo_n1 := n_intr_uncount_le & [ STEM < "antisemitismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antisemitismo_n_rel" ] ]. antisemíticamente_x1 := av_i_spr_le & [ STEM < "antisemíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemíticamente_x_rel" ]. antisemítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisemítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisemítico_a_rel" ]. antisepsia_n1 := n_intr_uncount_le & [ STEM < "antisepsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antisepsia_n_rel" ] ]. antisifilítico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisifilítico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisifilítico_a_rel" ]. antisimétricamente_x1 := av_i_spr_le & [ STEM < "antisimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisimétricamente_x_rel" ]. antisimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisimétrico_a_rel" ]. antisocial_a1 := a_rel_nonprd_intr_le & [ STEM < "antisocial" >, SYNSEM.LKEYS.KEYREL.PRED "_antisocial_a_rel" ]. antisocialmente_x1 := av_i_spr_le & [ STEM < "antisocialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisocialmente_x_rel" ]. antisolar_a1 := a_rel_nonprd_intr_le & [ STEM < "antisolar" >, SYNSEM.LKEYS.KEYREL.PRED "_antisolar_a_rel" ]. antisonoramente_x1 := av_i_spr_le & [ STEM < "antisonoramente" >, SYNSEM.LKEYS.KEYREL.PRED "_antisonoramente_x_rel" ]. antisonoro_a1 := a_rel_nonprd_intr_le & [ STEM < "antisonoro" >, SYNSEM.LKEYS.KEYREL.PRED "_antisonoro_a_rel" ]. antistrofa_n1 := n_intr_count_le & [ STEM < "antistrofa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antistrofa_n_rel" ] ]. antisuero_n1 := n_intr_count_le & [ STEM < "antisuero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antisuero_n_rel" ] ]. antiséptico_a1 := a_rel_nonprd_intr_le & [ STEM < "antiséptico" >, SYNSEM.LKEYS.KEYREL.PRED "_antiséptico_a_rel" ]. antiséptico_n1 := n_intr_mass_le & [ STEM < "antiséptico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiséptico_n_rel" ] ]. antisísmico_a1 := a_rel_nonprd_intr_le & [ STEM < "antisísmico" >, SYNSEM.LKEYS.KEYREL.PRED "_antisísmico_a_rel" ]. antitabaquista_n1 := n_intr_count_le & [ STEM < "antitabaquista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antitabaquista_n_rel" ] ]. antiterrorista_a1 := a_rel_nonprd_intr_le & [ STEM < "antiterrorista" >, SYNSEM.LKEYS.KEYREL.PRED "_antiterrorista_a_rel" ]. antitoxina_n1 := n_intr_count_le & [ STEM < "antitoxina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitoxina_n_rel" ] ]. antitrago_n1 := n_intr_count_le & [ STEM < "antitrago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitrago_n_rel" ] ]. antitranspirante_n1 := n_intr_count_le & [ STEM < "antitranspirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitranspirante_n_rel" ] ]. antitrombina_n1 := n_intr_count_le & [ STEM < "antitrombina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antitrombina_n_rel" ] ]. antitético_a1 := a_rel_prd_le & [ STEM < "antitético" >, SYNSEM.LKEYS.KEYREL.PRED "_antitético_a_rel" ]. antivalencia_n1 := n_intr_uncount_le & [ STEM < "antivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antivalencia_n_rel" ] ]. antiveneno_n1 := n_intr_count_le & [ STEM < "antiveneno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antiveneno_n_rel" ] ]. antivibratorio_a1 := a_rel_nonprd_intr_le & [ STEM < "antivibratorio" >, SYNSEM.LKEYS.KEYREL.PRED "_antivibratorio_a_rel" ]. antivírico_a1 := a_rel_nonprd_intr_le & [ STEM < "antivírico" >, SYNSEM.LKEYS.KEYREL.PRED "_antivírico_a_rel" ]. antiácido_a1 := a_rel_nonprd_intr_le & [ STEM < "antiácido" >, SYNSEM.LKEYS.KEYREL.PRED "_antiácido_a_rel" ]. antiácido_n1 := n_intr_uncount_pl_le & [ STEM < "antiácido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antiácido_n_rel" ] ]. antofilita_n1 := n_intr_count_le & [ STEM < "antofilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antofilita_n_rel" ] ]. antojadizamente_x1 := av_i_spr_le & [ STEM < "antojadizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antojadizamente_x_rel" ]. antojadizo_a1 := a_qual_intr_ser_le & [ STEM < "antojadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_antojadizo_a_rel" ]. antojar_v1 := v_pron_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "antojar" >, SYNSEM.LKEYS.KEYREL.PRED "_antojar_v_rel" ]. antojar_v2 := v_trans_np_le & [ STEM < "antojar" >, SYNSEM.LKEYS.KEYREL.PRED "_antojar_v_rel" ]. antojo_n1 := n_intr_count_le & [ STEM < "antojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antojo_n_rel" ] ]. antología_n1 := n_intr_count_le & [ STEM < "antología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antología_n_rel" ] ]. antológicamente_x1 := av_i_spr_le & [ STEM < "antológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antológicamente_x_rel" ]. antológico_a1 := a_rel_nonprd_intr_le & [ STEM < "antológico" >, SYNSEM.LKEYS.KEYREL.PRED "_antológico_a_rel" ]. antonimia_n1 := n_intr_uncount_le & [ STEM < "antonimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antonimia_n_rel" ] ]. antoniniano_n1 := n_intr_count_le & [ STEM < "antoniniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antoniniano_n_rel" ] ]. antonomasia_n1 := n_intr_uncount_le & [ STEM < "antonomasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antonomasia_n_rel" ] ]. antorcha_n1 := n_intr_count_le & [ STEM < "antorcha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antorcha_n_rel" ] ]. antozoario_n1 := n_intr_count_le & [ STEM < "antozoario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_antozoario_n_rel" ] ]. antraceno_n1 := n_intr_count_le & [ STEM < "antraceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraceno_n_rel" ] ]. antraciclina_n1 := n_intr_mass_le & [ STEM < "antraciclina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraciclina_n_rel" ] ]. antracita_n1 := n_intr_mass_le & [ STEM < "antracita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antracita_n_rel" ] ]. antracoanálisis_n1 := n_intr_count_le & [ STEM < "antracoanálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antracoanálisis_n_rel" ] ]. antracología_n1 := n_intr_uncount_le & [ STEM < "antracología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antracología_n_rel" ] ]. antraflavina_n1 := n_intr_count_le & [ STEM < "antraflavina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antraflavina_n_rel" ] ]. antranilato_n1 := n_intr_count_le & [ STEM < "antranilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antranilato_n_rel" ] ]. antranol_n1 := n_intr_count_le & [ STEM < "antranol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antranol_n_rel" ] ]. antraquinona_n1 := n_intr_mass-or-count_le & [ STEM < "antraquinona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_antraquinona_n_rel" ] ]. antrarrobina_n1 := n_intr_count_le & [ STEM < "antrarrobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_antrarrobina_n_rel" ] ]. antrax_n1 := n_intr_uncount_le & [ STEM < "antrax" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrax_n_rel" ] ]. antrectomía_n1 := n_intr_count_le & [ STEM < "antrectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrectomía_n_rel" ] ]. antro_n1 := n_intr_count_le & [ STEM < "antro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antro_n_rel" ] ]. antropocentrismo_n1 := n_intr_uncount_le & [ STEM < "antropocentrismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropocentrismo_n_rel" ] ]. antropofagia_n1 := n_intr_uncount_le & [ STEM < "antropofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropofagia_n_rel" ] ]. antropogeografía_n1 := n_intr_uncount_le & [ STEM < "antropogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropogeografía_n_rel" ] ]. antropoide_a1 := a_rel_nonprd_intr_le & [ STEM < "antropoide" >, SYNSEM.LKEYS.KEYREL.PRED "_antropoide_a_rel" ]. antropoide_n1 := n_intr_count_le & [ STEM < "antropoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_antropoide_n_rel" ] ]. antropología_n1 := n_intr_uncount_le & [ STEM < "antropología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropología_n_rel" ] ]. antropológicamente_x1 := av_i_spr_le & [ STEM < "antropológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_antropológicamente_x_rel" ]. antropológico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropológico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropológico_a_rel" ]. antropometría_n1 := n_intr_count_le & [ STEM < "antropometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropometría_n_rel" ] ]. antropomorfismo_n1 := n_ppcomp_uncount_le & [ STEM < "antropomorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropomorfismo_n_rel" ] ]. antropométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropométrico_a_rel" ]. antropomórfico_a1 := a_rel_nonprd_intr_le & [ STEM < "antropomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_antropomórfico_a_rel" ]. antroponimia_n1 := n_intr_uncount_le & [ STEM < "antroponimia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antroponimia_n_rel" ] ]. antropófago_a1 := a_qual_intr_ser_le & [ STEM < "antropófago" >, SYNSEM.LKEYS.KEYREL.PRED "_antropófago_a_rel" ]. antropófago_n1 := n_intr_count_le & [ STEM < "antropófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antropófago_n_rel" ] ]. antropólogo_n1 := n_intr_count_le & [ STEM < "antropólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antropólogo_n_rel" ] ]. antropómetro_n1 := n_intr_count_le & [ STEM < "antropómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antropómetro_n_rel" ] ]. antropónimo_n1 := n_intr_count_le & [ STEM < "antropónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antropónimo_n_rel" ] ]. antrotomía_n1 := n_intr_count_le & [ STEM < "antrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antrotomía_n_rel" ] ]. antártico_a1 := a_rel_nonprd_intr_le & [ STEM < "antártico" >, SYNSEM.LKEYS.KEYREL.PRED "_antártico_a_rel" ]. antídoto_n1 := n_intr_mass_le & [ STEM < "antídoto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_antídoto_n_rel" ] ]. antífona_n1 := n_intr_count_le & [ STEM < "antífona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antífona_n_rel" ] ]. antífrasis_n1 := n_intr_uncount_pl_le & [ STEM < "antífrasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antífrasis_n_rel" ] ]. antígeno_n1 := n_intr_count_le & [ STEM < "antígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antígeno_n_rel" ] ]. antílope_n1 := n_intr_count_le & [ STEM < "antílope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_antílope_n_rel" ] ]. antípoda_n1 := n_intr_count_le & [ STEM < "antípoda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_antípoda_n_rel" ] ]. antítesis_n1 := n_intr_count_le & [ STEM < "antítesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antítesis_n_rel" ] ]. antónimo_n1 := n_intr_count_le & [ STEM < "antónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_antónimo_n_rel" ] ]. anual_a1 := a_rel_prd_le & [ STEM < "anual" >, SYNSEM.LKEYS.KEYREL.PRED "_anual_a_rel" ]. anualidad_n1 := n_intr_count_le & [ STEM < "anualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_anualidad_n_rel" ] ]. anualmente_x1 := av_s_prhd_le & [ STEM < "anualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anualmente_x_rel" ]. anualmente_x2 := av_i_psthd_le & [ STEM < "anualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anualmente_x_rel" ]. anuario_n1 := n_intr_count_le & [ STEM < "anuario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anuario_n_rel" ] ]. anudar_v := v_ditrans*_le & [ STEM < "anudar" >, SYNSEM.LKEYS.KEYREL.PRED "_anudar_v_rel" ]. anulabilidad_n1 := n_intr_uncount_le & [ STEM < "anulabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anulabilidad_n_rel" ] ]. anulable_a1 := a_rel_prd_le & [ STEM < "anulable" >, SYNSEM.LKEYS.KEYREL.PRED "_anulable_a_rel" ]. anulación_n1 := n_trans_le & [ STEM < "anulación" >, SYNSEM.LKEYS.KEYREL.PRED "_anulación_n_rel" ]. anulador_a1 := a_qual_intr_ser_le & [ STEM < "anulador" >, SYNSEM.LKEYS.KEYREL.PRED "_anulador_a_rel" ]. anulador_n1 := n_intr_count_le & [ STEM < "anulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anulador_n_rel" ] ]. anular_a1 := a_rel_nonprd_intr_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_a_rel" ]. anular_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_v_rel" ]. anular_v2 := v_trans_np_le & [ STEM < "anular" >, SYNSEM.LKEYS.KEYREL.PRED "_anular_v_rel" ]. anularmente_x1 := av_i_spr_le & [ STEM < "anularmente" >, SYNSEM.LKEYS.KEYREL.PRED "_anularmente_x_rel" ]. anulativo_a1 := a_rel_prd_le & [ STEM < "anulativo" >, SYNSEM.LKEYS.KEYREL.PRED "_anulativo_a_rel" ]. anulatorio_a1 := a_rel_prd_le & [ STEM < "anulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_anulatorio_a_rel" ]. anunciación_n1 := n_trans_le & [ STEM < "anunciación" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciación_n_rel" ]. anunciador_a1 := a_qual_intr_ser_le & [ STEM < "anunciador" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciador_a_rel" ]. anunciador_n1 := n_intr_count_le & [ STEM < "anunciador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anunciador_n_rel" ] ]. anunciante_n1 := n_subj-nom_le & [ STEM < "anunciante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anunciante_n_rel" ] ]. anunciar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_anunciar_v_rel" ] ]. anunciar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL.PRED "_anunciar_v_rel" ]. anunciar_v3 := v_ditrans*_le & [ STEM < "anunciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_anunciar_v_rel" ] ]. anuncio_n1 := n_intr_count_le & [ STEM < "anuncio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anuncio_n_rel" ] ]. anuria_n1 := n_intr_uncount_le & [ STEM < "anuria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anuria_n_rel" ] ]. anuro_n1 := n_intr_count_le & [ STEM < "anuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anuro_n_rel" ] ]. anverso_n1 := n_intr_count_le & [ STEM < "anverso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anverso_n_rel" ] ]. anzuelo_n1 := n_intr_count_le & [ STEM < "anzuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anzuelo_n_rel" ] ]. anáfora_n1 := n_intr_uncount_le & [ STEM < "anáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáfora_n_rel" ] ]. anáfora_n2 := n_intr_count_le & [ STEM < "anáfora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáfora_n_rel" ] ]. anáglifo_n1 := n_intr_count_le & [ STEM < "anáglifo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anáglifo_n_rel" ] ]. análisis_n1 := n_intr_count_le & [ STEM < "análisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_análisis_n_rel" ] ]. análogamente_x1 := av_i_spr_le & [ STEM < "análogamente" >, SYNSEM.LKEYS.KEYREL.PRED "_análogamente_x_rel" ]. análogo_a1 := a_qual_trans*_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. análogo_a2 := a_qual_cp_prop_fin_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. análogo_a3 := a_qual_cp_ques_ser_le & [ STEM < "análogo" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_análogo_a_rel" ] ]. anárquico_a1 := a_qual_intr_scopal_le & [ STEM < "anárquico" >, SYNSEM.LKEYS.KEYREL.PRED "_anárquico_a_rel" ]. anástrofe_n1 := n_intr_uncount_pl_le & [ STEM < "anástrofe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anástrofe_n_rel" ] ]. anécdota_n1 := n_intr_count_le & [ STEM < "anécdota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_anécdota_n_rel" ] ]. anélido_n1 := n_intr_count_le & [ STEM < "anélido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_anélido_n_rel" ] ]. anémico_a1 := a_qual_intr_scopal_le & [ STEM < "anémico" >, SYNSEM.LKEYS.KEYREL.PRED "_anémico_a_rel" ]. anémona_n1 := n_intr_count_le & [ STEM < "anémona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_anémona_n_rel" ] ]. anímicamente_x1 := av_i_spr_le & [ STEM < "anímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_anímicamente_x_rel" ]. anímico_a1 := a_rel_nonprd_intr_le & [ STEM < "anímico" >, SYNSEM.LKEYS.KEYREL.PRED "_anímico_a_rel" ]. anís_n1 := n_intr_mass_le & [ STEM < "anís" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_anís_n_rel" ] ]. anódico_a1 := a_rel_nonprd_intr_le & [ STEM < "anódico" >, SYNSEM.LKEYS.KEYREL.PRED "_anódico_a_rel" ]. anómalo_a1 := a_rel_nonprd_intr_le & [ STEM < "anómalo" >, SYNSEM.LKEYS.KEYREL.PRED "_anómalo_a_rel" ]. anónimo_a1 := a_rel_prd_le & [ STEM < "anónimo" >, SYNSEM.LKEYS.KEYREL.PRED "_anónimo_a_rel" ]. anónimo_n1 := n_intr_count_le & [ STEM < "anónimo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_anónimo_n_rel" ] ]. anóxico_a1 := a_rel_nonprd_intr_le & [ STEM < "anóxico" >, SYNSEM.LKEYS.KEYREL.PRED "_anóxico_a_rel" ]. aoristo_n1 := n_intr_count_le & [ STEM < "aoristo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aoristo_n_rel" ] ]. aorta_n1 := n_intr_count_le & [ STEM < "aorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aorta_n_rel" ] ]. aorticoabdominal_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticoabdominal" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticoabdominal_a_rel" ]. aorticorrenal_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticorrenal" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticorrenal_a_rel" ]. aorticotorácico_a1 := a_rel_nonprd_intr_le & [ STEM < "aorticotorácico" >, SYNSEM.LKEYS.KEYREL.PRED "_aorticotorácico_a_rel" ]. apabullante_a1 := a_qual_intr_scopal_le & [ STEM < "apabullante" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullante_a_rel" ]. apabullar_v := v_trans_np_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apabullar_v1 := v_intr_io*_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apabullar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apabullar" >, SYNSEM.LKEYS.KEYREL.PRED "_apabullar_v_rel" ]. apache_n1 := n_intr_count_le & [ STEM < "apache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apache_n_rel" ] ]. apacibilidad_n1 := n_ppcomp_mass_le & [ STEM < "apacibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apacibilidad_n_rel" ] ]. apacible_a1 := a_qual_intr_scopal_le & [ STEM < "apacible" >, SYNSEM.LKEYS.KEYREL.PRED "_apacible_a_rel" ]. apaciblemente_x1 := av_i_spr_le & [ STEM < "apaciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciblemente_x_rel" ]. apaciguamiento_n1 := n_trans_le & [ STEM < "apaciguamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguamiento_n_rel" ]. apaciguar_v1 := v_intr_io*_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apaciguar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apaciguar_v3 := v_trans_np_caus_le & [ STEM < "apaciguar" >, SYNSEM.LKEYS.KEYREL.PRED "_apaciguar_v_rel" ]. apadrinamiento_n1 := n_trans_le & [ STEM < "apadrinamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apadrinamiento_n_rel" ]. apadrinar_v := v_trans_np_le & [ STEM < "apadrinar" >, SYNSEM.LKEYS.KEYREL.PRED "_apadrinar_v_rel" ]. apagachispas_n1 := n_intr_count_le & [ STEM < "apagachispas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apagachispas_n_rel" ] ]. apagafuegos_n1 := n_intr_count_le & [ STEM < "apagafuegos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apagafuegos_n_rel" ] ]. apagar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "apagar" >, SYNSEM.LKEYS.KEYREL.PRED "_apagar_v_rel" ]. apagar_v2 := v_trans_np_caus_le & [ STEM < "apagar" >, SYNSEM.LKEYS.KEYREL.PRED "_apagar_v_rel" ]. apagón_n1 := n_intr_count_le & [ STEM < "apagón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apagón_n_rel" ] ]. apainelado_a1 := a_rel_nonprd_intr_le & [ STEM < "apainelado" >, SYNSEM.LKEYS.KEYREL.PRED "_apainelado_a_rel" ]. apalabrar_v := v_trans_np_le & [ STEM < "apalabrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apalabrar_v_rel" ]. apalancamiento_n1 := n_trans_le & [ STEM < "apalancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apalancamiento_n_rel" ]. apalancar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apalancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apalancar_v_rel" ] ] ]. apalancar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apalancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apalancar_v_rel" ] ] ]. apalancar_v3 := v_trans_np_caus_le & [ STEM < "apalancar" >, SYNSEM.LKEYS.KEYREL.PRED "_apalancar_v_rel" ]. apaleamiento_n1 := n_trans_le & [ STEM < "apaleamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apaleamiento_n_rel" ]. apalear_v := v_trans_np_le & [ STEM < "apalear" >, SYNSEM.LKEYS.KEYREL.PRED "_apalear_v_rel" ]. apanar_v := v_trans_np_le & [ STEM < "apanar" >, SYNSEM.LKEYS.KEYREL.PRED "_apanar_v_rel" ]. apantalladamente_x1 := av_i_spr_le & [ STEM < "apantalladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apantalladamente_x_rel" ]. apantallamiento_n1 := n_trans_le & [ STEM < "apantallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apantallamiento_n_rel" ]. apantallar_v := v_trans_np_le & [ STEM < "apantallar" >, SYNSEM.LKEYS.KEYREL.PRED "_apantallar_v_rel" ]. aparador_n1 := n_intr_count_le & [ STEM < "aparador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparador_n_rel" ] ]. aparamenta_n1 := n_intr_count_le & [ STEM < "aparamenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparamenta_n_rel" ] ]. aparato_n1 := n_intr_count_le & [ STEM < "aparato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparato_n_rel" ] ]. aparatología_n1 := n_intr_uncount_le & [ STEM < "aparatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparatología_n_rel" ] ]. aparatosamente_x1 := av_i_spr_le & [ STEM < "aparatosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparatosamente_x_rel" ]. aparatosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aparatosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparatosidad_n_rel" ] ]. aparatoso_a1 := a_qual_intr_scopal_le & [ STEM < "aparatoso" >, SYNSEM.LKEYS.KEYREL.PRED "_aparatoso_a_rel" ]. aparcamiento_n1 := n_intr_count_le & [ STEM < "aparcamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aparcamiento_n_rel" ] ]. aparcar_v := v_trans_np*_le & [ STEM < "aparcar" >, SYNSEM.LKEYS.KEYREL.PRED "_aparcar_v_rel" ]. aparcero_n1 := n_intr_count_le & [ STEM < "aparcero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aparcero_n_rel" ] ]. apareamiento_n1 := n_trans_le & [ STEM < "apareamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apareamiento_n_rel" ]. aparear_v1 := v_pron_intr_le & [ STEM < "aparear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani, PRED "_aparear_v_rel" ] ]. aparear_v2 := v_trans_np_le & [ STEM < "aparear" >, SYNSEM.LKEYS.KEYREL.PRED "_aparear_v_rel" ]. aparecer_v1 := v_intr_io*_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparecer_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v3 := v_intr_mrkd_np_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v4 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v5 := v_pron_intr_mrkd_np_le & [ STEM < "aparecer" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aparecer_v_rel" ] ] ]. aparecer_v6 := v_subj_cp_prop_fin_unacc_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparecer_v7 := v_unacc_lcomp_loc*_perf_le & [ STEM < "aparecer" >, SYNSEM.LKEYS.KEYREL.PRED "_aparecer_v_rel" ]. aparejador_n1 := n_intr_count_le & [ STEM < "aparejador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparejador_n_rel" ] ]. aparejo_n1 := n_intr_count_le & [ STEM < "aparejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparejo_n_rel" ] ]. aparellaje_n1 := n_intr_mass_le & [ STEM < "aparellaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aparellaje_n_rel" ] ]. aparentar_v1 := v_trans_cp_prop_fin_le & [ STEM < "aparentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aparentar_v_rel" ] ]. aparentar_v2 := v_trans_np_le & [ STEM < "aparentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aparentar_v_rel" ] ]. aparente_a1 := a_rel_nonprd_intr_le & [ STEM < "aparente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparente_a_rel" ]. aparentemente_x1 := av_s_prhd_le & [ STEM < "aparentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aparentemente_x_rel" ]. aparición_n1 := n_event-result_intr_le & [ STEM < "aparición" >, SYNSEM.LKEYS.KEYREL.PRED "_aparición_n_rel" ]. apariencia_n1 := n_intr_count_le & [ STEM < "apariencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apariencia_n_rel" ] ]. apartadero_n1 := n_intr_count_le & [ STEM < "apartadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apartadero_n_rel" ] ]. apartado_n1 := n_trans_le & [ STEM < "apartado" >, SYNSEM.LKEYS.KEYREL.PRED "_apartado_n_rel" ]. apartahotel_n1 := n_intr_count_le & [ STEM < "apartahotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_apartahotel_n_rel" ] ]. apartamento_n1 := n_intr_count_le & [ STEM < "apartamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_apartamento_n_rel" ] ]. apartamiento_n1 := n_trans_le & [ STEM < "apartamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apartamiento_n_rel" ]. apartar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apartar_v_rel" ] ] ]. apartar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apartar_v_rel" ] ] ]. apartar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apartar_v_rel" ] ]. apartar_v4 := v_trans_np_mrkd_np*_caus_le & [ STEM < "apartar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apartar_v_rel" ] ]. aparte_de_p_vmod := p_vmod_le & [ STEM < "aparte_de" >, SYNSEM.LKEYS.KEYREL.PRED _aparte_de_p_rel ]. aparte_n1 := n_intr_count_le & [ STEM < "aparte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aparte_n_rel" ] ]. aparte_x1 := av_i_psthd_le & [ STEM < "aparte" >, SYNSEM.LKEYS.KEYREL.PRED "_aparte_x_rel" ]. apartheid_n1 := n_intr_uncount_le & [ STEM < "apartheid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apartheid_n_rel" ] ]. aparthotel_n1 := n_intr_count_le & [ STEM < "aparthotel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aparthotel_n_rel" ] ]. apasionadamente_x1 := av_i_spr_le & [ STEM < "apasionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionadamente_x_rel" ]. apasionamiento_n1 := n_trans_le & [ STEM < "apasionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionamiento_n_rel" ]. apasionante_a1 := a_qual_intr_scopal_le & [ STEM < "apasionante" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionante_a_rel" ]. apasionar_v1 := v_intr_io*_le & [ STEM < "apasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionar_v_rel" ]. apasionar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apasionar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_apasionar_v_rel" ] ]. apasionar_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apasionar" >, SYNSEM.LKEYS.KEYREL.PRED "_apasionar_v_rel" ]. apatito_n1 := n_intr_count_le & [ STEM < "apatito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apatito_n_rel" ] ]. apatridia_n1 := n_intr_uncount_le & [ STEM < "apatridia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apatridia_n_rel" ] ]. apatía_n1 := n_intr_mass_le & [ STEM < "apatía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apatía_n_rel" ] ]. apaãâ±ar_v := v_trans_np_caus_le & [ STEM < "apañar" >, SYNSEM.LKEYS.KEYREL.PRED "_apañar_v_rel" ]. apaño_n1 := n_trans_le & [ STEM < "apaño" >, SYNSEM.LKEYS.KEYREL.PRED "_apaño_n_rel" ]. apeadero_n1 := n_intr_count_le & [ STEM < "apeadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apeadero_n_rel" ] ]. apear_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apear_v_rel" ] ] ]. apear_v2 := v_pron_unacc_lcomp_dir*_le & [ STEM < "apear" >, SYNSEM.LKEYS.KEYREL.PRED "_apear_v_rel" ]. apear_v3 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apear_v_rel" ] ]. apear_v4 := v_trans_np_mrkd_np*_le & [ STEM < "apear" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apear_v_rel" ] ]. apechugar_v1 := v_intr_mrkd_np_le & [ STEM < "apechugar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_apechugar_v_rel" ] ]. apechugar_v2 := v_trans_np_le & [ STEM < "apechugar" >, SYNSEM.LKEYS.KEYREL.PRED "_apechugar_v_rel" ]. apectomía_n1 := n_intr_count_le & [ STEM < "apectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apectomía_n_rel" ] ]. apedreamiento_n1 := n_trans_le & [ STEM < "apedreamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apedreamiento_n_rel" ]. apedrear_v := v_trans_np_le & [ STEM < "apedrear" >, SYNSEM.LKEYS.KEYREL.PRED "_apedrear_v_rel" ]. apedreo_n1 := n_trans_le & [ STEM < "apedreo" >, SYNSEM.LKEYS.KEYREL.PRED "_apedreo_n_rel" ]. apego_n1 := n_trans_le & [ STEM < "apego" >, SYNSEM.LKEYS.KEYREL.PRED "_apego_n_rel" ]. apelable_a1 := a_rel_prd_le & [ STEM < "apelable" >, SYNSEM.LKEYS.KEYREL.PRED "_apelable_a_rel" ]. apelación_n1 := n_result_intr_le & [ STEM < "apelación" >, SYNSEM.LKEYS.KEYREL.PRED "_apelación_n_rel" ]. apelado_n1 := n_intr_count_le & [ STEM < "apelado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apelado_n_rel" ] ]. apelante_a1 := a_rel_nonprd_intr_le & [ STEM < "apelante" >, SYNSEM.LKEYS.KEYREL.PRED "_apelante_a_rel" ]. apelante_n1 := n_intr_count_le & [ STEM < "apelante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apelante_n_rel" ] ]. apelar_v := v_intr_mrkd_np*_le & [ STEM < "apelar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apelar_v_rel" ] ]. apelativo_a1 := a_rel_nonprd_intr_le & [ STEM < "apelativo" >, SYNSEM.LKEYS.KEYREL.PRED "_apelativo_a_rel" ]. apelativo_n1 := n_intr_count_le & [ STEM < "apelativo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apelativo_n_rel" ] ]. apellido_n1 := n_intr_count_le & [ STEM < "apellido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apellido_n_rel" ] ]. apelmazar_v := v_trans_np_caus_le & [ STEM < "apelmazar" >, SYNSEM.LKEYS.KEYREL.PRED "_apelmazar_v_rel" ]. apelotonar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apelotonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apelotonar_v_rel" ] ] ]. apelotonar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apelotonar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apelotonar_v_rel" ] ] ]. apenar_v1 := v_intr_io*_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_apenar_v_rel" ] ]. apenar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL.PRED "_apenar_v_rel" ]. apenar_v3 := v_trans_np_caus_le & [ STEM < "apenar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_apenar_v_rel" ] ]. apenas_x1 := av_i_foc_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apenas_x2 := av_s_cp_prop_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apenas_x3 := av_i_np-foc_le & [ STEM < "apenas" >, SYNSEM.LKEYS.KEYREL.PRED "_apenas_x_rel" ]. apendicitis_n1 := n_intr_uncount_le & [ STEM < "apendicitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apendicitis_n_rel" ] ]. apendicular_a1 := a_rel_nonprd_intr_le & [ STEM < "apendicular" >, SYNSEM.LKEYS.KEYREL.PRED "_apendicular_a_rel" ]. apeo_n1 := n_trans_le & [ STEM < "apeo" >, SYNSEM.LKEYS.KEYREL.PRED "_apeo_n_rel" ]. apercebimiento_n1 := n_trans_le & [ STEM < "apercebimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apercebimiento_n_rel" ]. apercepción_n1 := n_trans_le & [ STEM < "apercepción" >, SYNSEM.LKEYS.KEYREL.PRED "_apercepción_n_rel" ]. apercibimiento_n1 := n_trans_le & [ STEM < "apercibimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apercibimiento_n_rel" ]. apercibir_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apercibir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apercibir_v_rel" ] ] ]. apercibir_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "apercibir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT pro, PRED "_apercibir_v_rel" ] ] ]. aperitivo_n1 := n_intr_count_le & [ STEM < "aperitivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_aperitivo_n_rel" ] ]. aperiódicamente_x1 := av_i_spr_le & [ STEM < "aperiódicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aperiódicamente_x_rel" ]. aperiódico_a1 := a_rel_prd_le & [ STEM < "aperiódico" >, SYNSEM.LKEYS.KEYREL.PRED "_aperiódico_a_rel" ]. apero_n1 := n_intr_count_le & [ STEM < "apero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apero_n_rel" ] ]. apertura_n1 := n_trans_le & [ STEM < "apertura" >, SYNSEM.LKEYS.KEYREL.PRED "_apertura_n_rel" ]. aperturar_v := v_trans_np_le & [ STEM < "aperturar" >, SYNSEM.LKEYS.KEYREL.PRED "_aperturar_v_rel" ]. aperturista_a1 := a_qual_intr_ser_le & [ STEM < "aperturista" >, SYNSEM.LKEYS.KEYREL.PRED "_aperturista_a_rel" ]. apesadumbrar_v1 := v_intr_io*_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apesadumbrar_v_rel" ]. apesadumbrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesadumbrar_v_rel" ] ] ]. apesadumbrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesadumbrar_v_rel" ] ] ]. apesadumbrar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apesadumbrar" >, SYNSEM.LKEYS.KEYREL.PRED "_apesadumbrar_v_rel" ]. apesarar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apesarar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesarar_v_rel" ] ] ]. apesarar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apesarar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apesarar_v_rel" ] ] ]. apestar_v := v_intr_le & [ STEM < "apestar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-loc, PRED "_apestar_v_rel" ] ]. apestosamente_x1 := av_i_spr_le & [ STEM < "apestosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apestosamente_x_rel" ]. apestoso_a1 := a_qual_intr_scopal_le & [ STEM < "apestoso" >, SYNSEM.LKEYS.KEYREL.PRED "_apestoso_a_rel" ]. apetecer_v1 := v_intr_io*_le & [ STEM < "apetecer" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecer_v_rel" ]. apetecer_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apetecer" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecer_v_rel" ]. apetecible_a1 := a_qual_intr_scopal_le & [ STEM < "apetecible" >, SYNSEM.LKEYS.KEYREL.PRED "_apetecible_a_rel" ]. apetencia_n1 := n_intr_uncount_le & [ STEM < "apetencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apetencia_n_rel" ] ]. apetito_n1 := n_intr_mass_le & [ STEM < "apetito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apetito_n_rel" ] ]. apetitoso_a1 := a_qual_intr_scopal_le & [ STEM < "apetitoso" >, SYNSEM.LKEYS.KEYREL.PRED "_apetitoso_a_rel" ]. apiadar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apiadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiadar_v_rel" ] ] ]. apiadar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apiadar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiadar_v_rel" ] ] ]. apical_a1 := a_rel_nonprd_intr_le & [ STEM < "apical" >, SYNSEM.LKEYS.KEYREL.PRED "_apical_a_rel" ]. apicoalveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "apicoalveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_apicoalveolar_a_rel" ]. apicodental_a1 := a_rel_nonprd_intr_le & [ STEM < "apicodental" >, SYNSEM.LKEYS.KEYREL.PRED "_apicodental_a_rel" ]. apicultor_n1 := n_intr_count_le & [ STEM < "apicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apicultor_n_rel" ] ]. apicultura_n1 := n_intr_uncount_le & [ STEM < "apicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apicultura_n_rel" ] ]. apilabilidad_n1 := n_ppcomp_uncount_le & [ STEM < "apilabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apilabilidad_n_rel" ] ]. apilable_a1 := a_rel_prd_le & [ STEM < "apilable" >, SYNSEM.LKEYS.KEYREL.PRED "_apilable_a_rel" ]. apilador_n1 := n_intr_count_le & [ STEM < "apilador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apilador_n_rel" ] ]. apiladora_n1 := n_intr_count_le & [ STEM < "apiladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apiladora_n_rel" ] ]. apilamiento_n1 := n_trans_le & [ STEM < "apilamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apilamiento_n_rel" ]. apilar_v := v_trans_np_caus_le & [ STEM < "apilar" >, SYNSEM.LKEYS.KEYREL.PRED "_apilar_v_rel" ]. apio_n1 := n_intr_mass-or-count_le & [ STEM < "apio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_apio_n_rel" ] ]. apisonado_n1 := n_trans_le & [ STEM < "apisonado" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonado_n_rel" ]. apisonadora_n1 := n_intr_count_le & [ STEM < "apisonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apisonadora_n_rel" ] ]. apisonamiento_n1 := n_trans_le & [ STEM < "apisonamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonamiento_n_rel" ]. apisonar_v := v_trans_np_le & [ STEM < "apisonar" >, SYNSEM.LKEYS.KEYREL.PRED "_apisonar_v_rel" ]. apiãâ±ar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apiñar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiñar_v_rel" ] ] ]. apiãâ±ar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apiñar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apiñar_v_rel" ] ] ]. apiãâ±ar_v3 := v_pron_unacc_lcomp_loc*_le & [ STEM < "apiñar" >, SYNSEM.LKEYS.KEYREL.PRED "_apiñar_v_rel" ]. apiãâ±ar_v4 := v_trans_np_le & [ STEM < "apiñar" >, SYNSEM.LKEYS.KEYREL.PRED "_apiñar_v_rel" ]. aplacar_v := v_ditrans*_le & [ STEM < "aplacar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplacar_v_rel" ]. aplanado_n1 := n_trans_le & [ STEM < "aplanado" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanado_n_rel" ]. aplanador_n1 := n_intr_count_le & [ STEM < "aplanador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplanador_n_rel" ] ]. aplanadora_n1 := n_intr_count_le & [ STEM < "aplanadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplanadora_n_rel" ] ]. aplanamiento_n1 := n_trans_le & [ STEM < "aplanamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanamiento_n_rel" ]. aplanar_v := v_trans_np_le & [ STEM < "aplanar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanar_v_rel" ]. aplantillar_v := v_trans_np_le & [ STEM < "aplantillar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplantillar_v_rel" ]. aplanético_a1 := a_rel_nonprd_intr_le & [ STEM < "aplanético" >, SYNSEM.LKEYS.KEYREL.PRED "_aplanético_a_rel" ]. aplasia_n1 := n_intr_uncount_le & [ STEM < "aplasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplasia_n_rel" ] ]. aplastamiento_n1 := n_trans_le & [ STEM < "aplastamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastamiento_n_rel" ]. aplastante_a1 := a_rel_prd_le & [ STEM < "aplastante" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastante_a_rel" ]. aplastar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "aplastar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastar_v_rel" ]. aplastar_v2 := v_trans_np_le & [ STEM < "aplastar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplastar_v_rel" ]. aplaudir_v1 := v_trans_cp_prop_fin_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aplaudir_v_rel" ] ]. aplaudir_v2 := v_trans_cp_semi_ques_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL.PRED "_aplaudir_v_rel" ]. aplaudir_v3 := v_trans_np_le & [ STEM < "aplaudir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aplaudir_v_rel" ] ]. aplauso_n1 := n_trans_le & [ STEM < "aplauso" >, SYNSEM.LKEYS.KEYREL.PRED "_aplauso_n_rel" ]. aplazamiento_n1 := n_trans_le & [ STEM < "aplazamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aplazamiento_n_rel" ]. aplazar_v := v_trans_np_le & [ STEM < "aplazar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplazar_v_rel" ]. aplicabilidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aplicabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplicabilidad_n_rel" ] ]. aplicable_a1 := a_qual_trans*_ser_le & [ STEM < "aplicable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aplicable_a_rel" ] ]. aplicación_n1 := n_trans_le & [ STEM < "aplicación" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicación_n_rel" ]. aplicadamente_x1 := av_i_spr_le & [ STEM < "aplicadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicadamente_x_rel" ]. aplicador_a1 := a_rel_nonprd_intr_le & [ STEM < "aplicador" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicador_a_rel" ]. aplicador_n1 := n_intr_count_le & [ STEM < "aplicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplicador_n_rel" ] ]. aplicar_v1 := v_ditrans*_le & [ STEM < "aplicar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplicar_v_rel" ]. aplicar_v2 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aplicar_v_rel" ] ]. aplicar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_aplicar_v_rel" ] ]. aplicar_v4 := v_pron_intr_mrkd_np_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_aplicar_v_rel" ] ] ]. aplicar_v5 := v_pron_intr_mrkd_np_le & [ STEM < "aplicar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT abs_pro, PRED "_aplicar_v_rel" ] ] ]. aplique_n1 := n_intr_count_le & [ STEM < "aplique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aplique_n_rel" ] ]. aplomar_v := v_trans_np_caus_le & [ STEM < "aplomar" >, SYNSEM.LKEYS.KEYREL.PRED "_aplomar_v_rel" ]. aplomo_n1 := n_intr_mass_le & [ STEM < "aplomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aplomo_n_rel" ] ]. aplásico_a1 := a_rel_nonprd_intr_le & [ STEM < "aplásico" >, SYNSEM.LKEYS.KEYREL.PRED "_aplásico_a_rel" ]. apnea_n1 := n_intr_uncount_le & [ STEM < "apnea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apnea_n_rel" ] ]. apocadamente_x1 := av_i_spr_le & [ STEM < "apocadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apocadamente_x_rel" ]. apocalipsis_n1 := n_intr_uncount_le & [ STEM < "apocalipsis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apocalipsis_n_rel" ] ]. apocalípticamente_x1 := av_i_spr_le & [ STEM < "apocalípticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apocalípticamente_x_rel" ]. apocalíptico_a1 := a_rel_prd_le & [ STEM < "apocalíptico" >, SYNSEM.LKEYS.KEYREL.PRED "_apocalíptico_a_rel" ]. apocromático_a1 := a_rel_nonprd_intr_le & [ STEM < "apocromático" >, SYNSEM.LKEYS.KEYREL.PRED "_apocromático_a_rel" ]. apoderado_n1 := n_intr_count_le & [ STEM < "apoderado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apoderado_n_rel" ] ]. apoderamiento_n1 := n_result_intr_ppcomp_le & [ STEM < "apoderamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_apoderamiento_n_rel" ] ]. apoderar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "apoderar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_apoderar_v_rel" ] ]. apoderar_v2 := v_trans_np_le & [ STEM < "apoderar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoderar_v_rel" ]. apodo_n1 := n_trans_le & [ STEM < "apodo" >, SYNSEM.LKEYS.KEYREL.PRED "_apodo_n_rel" ]. apodíctico_a1 := a_rel_prd_le & [ STEM < "apodíctico" >, SYNSEM.LKEYS.KEYREL.PRED "_apodíctico_a_rel" ]. apoenzima_n1 := n_intr_count_le & [ STEM < "apoenzima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoenzima_n_rel" ] ]. apoferritina_n1 := n_intr_count_le & [ STEM < "apoferritina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoferritina_n_rel" ] ]. apofilita_n1 := n_intr_count_le & [ STEM < "apofilita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apofilita_n_rel" ] ]. apofántica_n1 := n_intr_uncount_le & [ STEM < "apofántica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apofántica_n_rel" ] ]. apogamia_n1 := n_intr_uncount_le & [ STEM < "apogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apogamia_n_rel" ] ]. apogeo_n1 := n_intr_count_le & [ STEM < "apogeo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apogeo_n_rel" ] ]. apolillar_v := v_trans_np_caus_le & [ STEM < "apolillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apolillar_v_rel" ]. apologista_n1 := n_intr_count_le & [ STEM < "apologista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apologista_n_rel" ] ]. apologética_n1 := n_intr_uncount_le & [ STEM < "apologética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apologética_n_rel" ] ]. apologético_a1 := a_qual_intr_scopal_le & [ STEM < "apologético" >, SYNSEM.LKEYS.KEYREL.PRED "_apologético_a_rel" ]. apología_n1 := n_intr_uncount_pl_le & [ STEM < "apología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apología_n_rel" ] ]. apolítico_a1 := a_qual_intr_ser_le & [ STEM < "apolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_apolítico_a_rel" ]. apológico_a1 := a_rel_prd_le & [ STEM < "apológico" >, SYNSEM.LKEYS.KEYREL.PRED "_apológico_a_rel" ]. apomazar_v := v_trans_np_le & [ STEM < "apomazar" >, SYNSEM.LKEYS.KEYREL.PRED "_apomazar_v_rel" ]. apomorfina_n1 := n_intr_count_le & [ STEM < "apomorfina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_apomorfina_n_rel" ] ]. aponeurosis_n1 := n_intr_uncount_le & [ STEM < "aponeurosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aponeurosis_n_rel" ] ]. aponeurótico_a1 := a_qual_intr_ser_le & [ STEM < "aponeurótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aponeurótico_a_rel" ]. apoplasto_n1 := n_intr_count_le & [ STEM < "apoplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoplasto_n_rel" ] ]. apoplejía_n1 := n_intr_uncount_le & [ STEM < "apoplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoplejía_n_rel" ] ]. apoplético_a1 := a_rel_nonprd_intr_le & [ STEM < "apoplético" >, SYNSEM.LKEYS.KEYREL.PRED "_apoplético_a_rel" ]. apoplético_a2 := a_qual_intr_ser_le & [ STEM < "apoplético" >, SYNSEM.LKEYS.KEYREL.PRED "_apoplético_a_rel" ]. apoptosis_n1 := n_intr_uncount_le & [ STEM < "apoptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoptosis_n_rel" ] ]. aporcador_n1 := n_intr_count_le & [ STEM < "aporcador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aporcador_n_rel" ] ]. aporema_n1 := n_intr_count_le & [ STEM < "aporema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aporema_n_rel" ] ]. aporrear_v := v_trans_np_le & [ STEM < "aporrear" >, SYNSEM.LKEYS.KEYREL.PRED "_aporrear_v_rel" ]. aporreo_n1 := n_trans_le & [ STEM < "aporreo" >, SYNSEM.LKEYS.KEYREL.PRED "_aporreo_n_rel" ]. aportable_a1 := a_qual_trans*_ser_le & [ STEM < "aportable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aportable_a_rel" ] ]. aportación_n1 := n_trans_le & [ STEM < "aportación" >, SYNSEM.LKEYS.KEYREL.PRED "_aportación_n_rel" ]. aportar_v1 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "aportar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_aportar_v_rel" ] ]. aportar_v2 := v_ditrans*_le & [ STEM < "aportar" >, SYNSEM.LKEYS.KEYREL.PRED "_aportar_v_rel" ]. aportar_v3 := v_trans_np_mrkd_np_le & [ STEM < "aportar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_aportar_v_rel" ] ] ]. aporte_n1 := n_trans_le & [ STEM < "aporte" >, SYNSEM.LKEYS.KEYREL.PRED "_aporte_n_rel" ]. aporía_n1 := n_intr_count_le & [ STEM < "aporía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aporía_n_rel" ] ]. aposento_n1 := n_intr_count_le & [ STEM < "aposento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aposento_n_rel" ] ]. aposición_n1 := n_intr_count_le & [ STEM < "aposición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aposición_n_rel" ] ]. aposta_x1 := av_i_psthd_le & [ STEM < "aposta" >, SYNSEM.LKEYS.KEYREL.PRED "_aposta_x_rel" ]. apostadero_n1 := n_intr_count_le & [ STEM < "apostadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_apostadero_n_rel" ] ]. apostante_n1 := n_intr_count_le & [ STEM < "apostante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apostante_n_rel" ] ]. apostar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v2 := v_intr_mrkd_np_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v3 := v_non_pass_np_mrkd_cp_prop_fin_ind_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apostar_v_rel" ] ] ]. apostar_v5 := v_non_pass_np_mrkd_np*_le & [ STEM < "apostar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_apostar_v_rel" ] ]. apostar_v6 := v_trans_cp_prop_fin_le & [ STEM < "apostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apostar_v_rel" ] ]. apostar_v7 := v_trans_np_le & [ STEM < "apostar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apostar_v_rel" ] ]. apostasía_n1 := n_result_intr_le & [ STEM < "apostasía" >, SYNSEM.LKEYS.KEYREL.PRED "_apostasía_n_rel" ]. apostilla_n1 := n_intr_count_le & [ STEM < "apostilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apostilla_n_rel" ] ]. apostillar_v1 := v_trans_np*_le & [ STEM < "apostillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apostillar_v_rel" ]. apostillar_v2 := v_trans_cp_semi_ques_le & [ STEM < "apostillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apostillar_v_rel" ]. apostolado_n1 := n_intr_count_le & [ STEM < "apostolado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apostolado_n_rel" ] ]. apostrofar_v := v_trans_np_le & [ STEM < "apostrofar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs_hum_sem_soc, PRED "_apostrofar_v_rel" ] ]. apostólicamente_x1 := av_i_spr_le & [ STEM < "apostólicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apostólicamente_x_rel" ]. apostólico_a1 := a_rel_nonprd_intr_le & [ STEM < "apostólico" >, SYNSEM.LKEYS.KEYREL.PRED "_apostólico_a_rel" ]. apotegma_n1 := n_intr_count_le & [ STEM < "apotegma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apotegma_n_rel" ] ]. apotema_n1 := n_intr_count_le & [ STEM < "apotema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apotema_n_rel" ] ]. apoteosis_n1 := n_intr_uncount_le & [ STEM < "apoteosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apoteosis_n_rel" ] ]. apoteósicamente_x1 := av_i_spr_le & [ STEM < "apoteósicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apoteósicamente_x_rel" ]. apoteósico_a1 := a_rel_nonprd_intr_le & [ STEM < "apoteósico" >, SYNSEM.LKEYS.KEYREL.PRED "_apoteósico_a_rel" ]. apoyabarbas_n1 := n_intr_count_le & [ STEM < "apoyabarbas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyabarbas_n_rel" ] ]. apoyabrazos_n1 := n_intr_count_le & [ STEM < "apoyabrazos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyabrazos_n_rel" ] ]. apoyacabezas_n1 := n_intr_count_le & [ STEM < "apoyacabezas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyacabezas_n_rel" ] ]. apoyamanos_n1 := n_intr_count_le & [ STEM < "apoyamanos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyamanos_n_rel" ] ]. apoyapiés_n1 := n_intr_count_le & [ STEM < "apoyapiés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apoyapiés_n_rel" ] ]. apoyar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v4 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyar_v6 := v_trans_cp_prop_fin_sub_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ]. apoyar_v7 := v_trans_np_mrkd_np_caus_le & [ STEM < "apoyar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apoyar_v_rel" ] ] ]. apoyar_v8 := v_trans_np_le & [ STEM < "apoyar" >, SYNSEM.LKEYS.KEYREL.PRED "_apoyar_v_rel" ]. apoyo_n1 := n_result_intr_ppcomp_le & [ STEM < "apoyo" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_apoyo_n_rel" ] ]. apreciable_a1 := a_qual_intr_scopal_le & [ STEM < "apreciable" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciable_a_rel" ]. apreciablemente_x1 := av_i_spr_le & [ STEM < "apreciablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciablemente_x_rel" ]. apreciación_n1 := n_trans_le & [ STEM < "apreciación" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciación_n_rel" ]. apreciar_v1 := v_trans_cp_prop_fin_le & [ STEM < "apreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apreciar_v_rel" ] ]. apreciar_v2 := v_trans_np_le & [ STEM < "apreciar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apreciar_v_rel" ] ]. apreciativo_a1 := a_qual_intr_ser_le & [ STEM < "apreciativo" >, SYNSEM.LKEYS.KEYREL.PRED "_apreciativo_a_rel" ]. aprecio_n1 := n_trans_le & [ STEM < "aprecio" >, SYNSEM.LKEYS.KEYREL.PRED "_aprecio_n_rel" ]. aprehender_v1 := v_trans_cp_prop_fin_le & [ STEM < "aprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprehender_v_rel" ] ]. aprehender_v2 := v_trans_np_le & [ STEM < "aprehender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprehender_v_rel" ] ]. aprehensible_a1 := a_rel_prd_le & [ STEM < "aprehensible" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensible_a_rel" ]. aprehensiblemente_x1 := av_i_spr_le & [ STEM < "aprehensiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensiblemente_x_rel" ]. aprehensión_n1 := n_trans_le & [ STEM < "aprehensión" >, SYNSEM.LKEYS.KEYREL.PRED "_aprehensión_n_rel" ]. apremiante_a1 := a_qual_intr_scopal_le & [ STEM < "apremiante" >, SYNSEM.LKEYS.KEYREL.PRED "_apremiante_a_rel" ]. apremiar_v1 := v_non_pass_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremiar_v2 := v_non_pass_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremiar_v3 := v_non_pass_np_mrkd_np*_le & [ STEM < "apremiar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_apremiar_v_rel" ] ] ]. apremio_n1 := n_trans_le & [ STEM < "apremio" >, SYNSEM.LKEYS.KEYREL.PRED "_apremio_n_rel" ]. aprender_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "aprender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aprender_v_rel" ] ]. aprender_v2 := v_pron_trans_np_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_aprender_v_rel" ] ]. aprender_v3 := v_trans_cp_prop_fin_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprender_v_rel" ] ]. aprender_v4 := v_trans_cp_semi_ques_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL.PRED "_aprender_v_rel" ]. aprender_v5 := v_trans_np_le & [ STEM < "aprender" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprender_v_rel" ] ]. aprendiz_n1 := n_intr_count_le & [ STEM < "aprendiz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aprendiz_n_rel" ] ]. aprendizaje_n1 := n_trans_le & [ STEM < "aprendizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_aprendizaje_n_rel" ]. aprensivamente_x1 := av_i_spr_le & [ STEM < "aprensivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aprensivamente_x_rel" ]. aprensivo_a1 := a_qual_intr_ser_le & [ STEM < "aprensivo" >, SYNSEM.LKEYS.KEYREL.PRED "_aprensivo_a_rel" ]. aprensión_n1 := n_intr_count_le & [ STEM < "aprensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aprensión_n_rel" ] ]. apresador_n1 := n_intr_count_le & [ STEM < "apresador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apresador_n_rel" ] ]. apresamiento_n1 := n_trans_le & [ STEM < "apresamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apresamiento_n_rel" ]. apresar_v := v_trans_np_le & [ STEM < "apresar" >, SYNSEM.LKEYS.KEYREL.PRED "_apresar_v_rel" ]. apresto_n1 := n_intr_mass_le & [ STEM < "apresto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apresto_n_rel" ] ]. apresuradamente_x1 := av_i_spr_le & [ STEM < "apresuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apresuradamente_x_rel" ]. apresuramiento_n1 := n_trans_le & [ STEM < "apresuramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apresuramiento_n_rel" ]. apresurar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "apresurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apresurar_v_rel" ] ]. apresurar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apresurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apresurar_v_rel" ] ]. apresurar_v3 := v_trans_np_le & [ STEM < "apresurar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT abs, PRED "_apresurar_v_rel" ] ]. apretar_v1 := v_ditrans*_le & [ STEM < "apretar" >, SYNSEM.LKEYS.KEYREL.PRED "_apretar_v_rel" ]. apretar_v2 := v_intr_le & [ STEM < "apretar" >, SYNSEM.LKEYS.KEYREL.PRED "_apretar_v_rel" ]. apretar_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "apretar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_apretar_v_rel" ] ]. apretujar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apretujar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apretujar_v_rel" ] ] ]. apretujar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apretujar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apretujar_v_rel" ] ] ]. apretujón_n1 := n_trans_le & [ STEM < "apretujón" >, SYNSEM.LKEYS.KEYREL.PRED "_apretujón_n_rel" ]. apretón_n1 := n_trans_le & [ STEM < "apretón" >, SYNSEM.LKEYS.KEYREL.PRED "_apretón_n_rel" ]. aprieto_n1 := n_trans_le & [ STEM < "aprieto" >, SYNSEM.LKEYS.KEYREL.PRED "_aprieto_n_rel" ]. apriorismo_n1 := n_intr_count_le & [ STEM < "apriorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apriorismo_n_rel" ] ]. apriorísticamente_x1 := av_i_spr_le & [ STEM < "apriorísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apriorísticamente_x_rel" ]. apriorístico_a1 := a_rel_prd_le & [ STEM < "apriorístico" >, SYNSEM.LKEYS.KEYREL.PRED "_apriorístico_a_rel" ]. aprisco_n1 := n_intr_count_le & [ STEM < "aprisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aprisco_n_rel" ] ]. aprisionar_v := v_trans_np_le & [ STEM < "aprisionar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprisionar_v_rel" ]. aprobación_n1 := n_trans_le & [ STEM < "aprobación" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobación_n_rel" ]. aprobado_n1 := n_intr_count_le & [ STEM < "aprobado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aprobado_n_rel" ] ]. aprobar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprobar_v_rel" ] ]. aprobar_v2 := v_trans_cp_semi_ques_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobar_v_rel" ]. aprobar_v3 := v_trans_np_le & [ STEM < "aprobar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aprobar_v_rel" ] ]. aprobatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "aprobatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_aprobatorio_a_rel" ]. aproblemático_a1 := a_rel_nonprd_intr_le & [ STEM < "aproblemático" >, SYNSEM.LKEYS.KEYREL.PRED "_aproblemático_a_rel" ]. aprontar_v := v_trans_np_le & [ STEM < "aprontar" >, SYNSEM.LKEYS.KEYREL.PRED "_aprontar_v_rel" ]. apropiación_n1 := n_trans_le & [ STEM < "apropiación" >, SYNSEM.LKEYS.KEYREL.PRED "_apropiación_n_rel" ]. apropiadamente_x1 := av_i_spr_le & [ STEM < "apropiadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apropiadamente_x_rel" ]. apropiar_v := v_pron_intr_mrkd_np_le & [ STEM < "apropiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_apropiar_v_rel" ] ]. apropincuar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apropincuar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apropincuar_v_rel" ] ] ]. apropincuar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "apropincuar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apropincuar_v_rel" ] ] ]. aprovechable_a1 := a_qual_intr_scopal_le & [ STEM < "aprovechable" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovechable_a_rel" ]. aprovechamiento_n1 := n_trans_le & [ STEM < "aprovechamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovechamiento_n_rel" ]. aprovechar_v1 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aprovechar_v_rel" ] ] ]. aprovechar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_aprovechar_v_rel" ] ] ]. aprovechar_v3 := v_trans_cp_prop_fin_ind_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprovechar_v_rel" ] ]. aprovechar_v4 := v_trans_np_le & [ STEM < "aprovechar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aprovechar_v_rel" ] ]. aprovisionamiento_n1 := n_trans_le & [ STEM < "aprovisionamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aprovisionamiento_n_rel" ]. aprovisionar_v := v_trans_np_mrkd_np_caus_le & [ STEM < "aprovisionar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_aprovisionar_v_rel" ] ]. aproximación_n1 := n_result_intr_ppcomp_le & [ STEM < "aproximación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_aproximación_n_rel" ] ]. aproximadamente_x1 := av_s_spr_le & [ STEM < "aproximadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximadamente_x_rel" ]. aproximante_a1 := a_rel_nonprd_intr_le & [ STEM < "aproximante" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximante_a_rel" ]. aproximar_v1 := v_pron_intr_io_le & [ STEM < "aproximar" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximar_v_rel" ]. aproximar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aproximar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aproximar_v_rel" ] ] ]. aproximar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "aproximar" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximar_v_rel" ]. aproximativo_a1 := a_qual_intr_scopal_le & [ STEM < "aproximativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aproximativo_a_rel" ]. aptamente_x1 := av_i_spr_le & [ STEM < "aptamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aptamente_x_rel" ]. aptialismo_n1 := n_intr_uncount_le & [ STEM < "aptialismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aptialismo_n_rel" ] ]. aptitud_n1 := n_intr_mass_le & [ STEM < "aptitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aptitud_n_rel" ] ]. apto_a1 := a_qual_trans*_ser_le & [ STEM < "apto" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_apto_a_rel" ] ]. apuesta_n1 := n_trans_le & [ STEM < "apuesta" >, SYNSEM.LKEYS.KEYREL.PRED "_apuesta_n_rel" ]. apuesto_a1 := a_qual_intr_scopal_le & [ STEM < "apuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_apuesto_a_rel" ]. apuntador_n1 := n_intr_count_le & [ STEM < "apuntador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apuntador_n_rel" ] ]. apuntador_n2 := n_subj-nom_le & [ STEM < "apuntador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apuntador_n_rel" ] ]. apuntalamiento_n1 := n_trans_le & [ STEM < "apuntalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntalamiento_n_rel" ]. apuntalar_v := v_trans_np_le & [ STEM < "apuntalar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_apuntalar_v_rel" ] ]. apuntamiento_n1 := n_trans_le & [ STEM < "apuntamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntamiento_n_rel" ]. apuntar_v1 := v_trans_cp_prop_fin_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_apuntar_v_rel" ] ]. apuntar_v2 := v_trans_cp_semi_ques_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntar_v_rel" ]. apuntar_v3 := v_trans_np*_lcomp_dir_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apuntar_v_rel" ] ]. apuntar_v4 := v_trans_np_le & [ STEM < "apuntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_apuntar_v_rel" ] ]. apunte_n1 := n_intr_count_le & [ STEM < "apunte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_apunte_n_rel" ] ]. apuntillar_v := v_trans_np_le & [ STEM < "apuntillar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuntillar_v_rel" ]. apuradamente_x1 := av_i_spr_le & [ STEM < "apuradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apuradamente_x_rel" ]. apurar_v1 := v_intr_io*_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apurar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "apurar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apurar_v_rel" ] ] ]. apurar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "apurar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_apurar_v_rel" ] ] ]. apurar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apurar_v5 := v_trans_np_le & [ STEM < "apurar" >, SYNSEM.LKEYS.KEYREL.PRED "_apurar_v_rel" ]. apuro_n1 := n_trans_le & [ STEM < "apuro" >, SYNSEM.LKEYS.KEYREL.PRED "_apuro_n_rel" ]. apuãâ±alar_v := v_trans_np_le & [ STEM < "apuñalar" >, SYNSEM.LKEYS.KEYREL.PRED "_apuñalar_v_rel" ]. apuñalamiento_n1 := n_trans_le & [ STEM < "apuñalamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_apuñalamiento_n_rel" ]. apáticamente_x1 := av_i_spr_le & [ STEM < "apáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apáticamente_x_rel" ]. apático_a1 := a_qual_intr_ser_le & [ STEM < "apático" >, SYNSEM.LKEYS.KEYREL.PRED "_apático_a_rel" ]. apátrida_a1 := a_qual_intr_ser_le & [ STEM < "apátrida" >, SYNSEM.LKEYS.KEYREL.PRED "_apátrida_a_rel" ]. apátrida_n1 := n_intr_count_le & [ STEM < "apátrida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apátrida_n_rel" ] ]. apéndice_n1 := n_intr_count_le & [ STEM < "apéndice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_apéndice_n_rel" ] ]. apócope_n1 := n_intr_count_le & [ STEM < "apócope" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apócope_n_rel" ] ]. apócrifamente_x1 := av_i_spr_le & [ STEM < "apócrifamente" >, SYNSEM.LKEYS.KEYREL.PRED "_apócrifamente_x_rel" ]. apócrifo_a1 := a_rel_nonprd_intr_le & [ STEM < "apócrifo" >, SYNSEM.LKEYS.KEYREL.PRED "_apócrifo_a_rel" ]. apódosis_n1 := n_intr_count_le & [ STEM < "apódosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apódosis_n_rel" ] ]. apófisis_n1 := n_intr_count_le & [ STEM < "apófisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apófisis_n_rel" ] ]. apógrafo_n1 := n_intr_count_le & [ STEM < "apógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apógrafo_n_rel" ] ]. apósito_n1 := n_intr_count_le & [ STEM < "apósito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apósito_n_rel" ] ]. apóstata_n1 := n_intr_count_le & [ STEM < "apóstata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apóstata_n_rel" ] ]. apóstol_n1 := n_intr_count_le & [ STEM < "apóstol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_apóstol_n_rel" ] ]. apóstrofe_n1 := n_intr_count_le & [ STEM < "apóstrofe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_apóstrofe_n_rel" ] ]. apóstrofo_n1 := n_intr_count_le & [ STEM < "apóstrofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_apóstrofo_n_rel" ] ]. aqueilia_n1 := n_intr_uncount_le & [ STEM < "aqueilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aqueilia_n_rel" ] ]. aquejar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "aquejar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_aquejar_v_rel" ] ]. aquejar_v2 := v_intr_io_le & [ STEM < "aquejar" >, SYNSEM.LKEYS.KEYREL.PRED "_aquejar_v_rel" ]. aquel_d := d_dem_aquel_le & [ STEM < "aquel" > ]. aquel_p := pr_dem_le & [ STEM < "aquel" >, SYNSEM.LKEYS.ALTKEYREL.PRED _aquel_q_rel ]. aquelarre_n1 := n_intr_count_le & [ STEM < "aquelarre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aquelarre_n_rel" ] ]. aquende_n1 := av_deic_place_le & [ STEM < "aquende" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_aquende_x_rel" ]. aqueo_n1 := n_intr_count_le & [ STEM < "aqueo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aqueo_n_rel" ] ]. aquiescencia_n1 := n_intr_uncount_le & [ STEM < "aquiescencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aquiescencia_n_rel" ] ]. aquiescente_a1 := a_qual_intr_ser_le & [ STEM < "aquiescente" >, SYNSEM.LKEYS.KEYREL.PRED "_aquiescente_a_rel" ]. aquilino_a1 := a_qual_intr_ser_le & [ STEM < "aquilino" >, SYNSEM.LKEYS.KEYREL.PRED "_aquilino_a_rel" ]. aquillado_a1 := a_qual_intr_ser_le & [ STEM < "aquillado" >, SYNSEM.LKEYS.KEYREL.PRED "_aquillado_a_rel" ]. aquitano_n1 := n_intr_count_le & [ STEM < "aquitano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aquitano_n_rel" ] ]. aquí_n1 := av_deic_place_le & [ STEM < "aquí" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_aquí_x_rel" ]. arabesco_a1 := a_rel_prd_le & [ STEM < "arabesco" >, SYNSEM.LKEYS.KEYREL.PRED "_arabesco_a_rel" ]. arabesco_n1 := n_intr_count_le & [ STEM < "arabesco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arabesco_n_rel" ] ]. arabinosa_n1 := n_intr_count_le & [ STEM < "arabinosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arabinosa_n_rel" ] ]. arabismo_n1 := n_intr_count_le & [ STEM < "arabismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arabismo_n_rel" ] ]. arabista_n1 := n_intr_count_le & [ STEM < "arabista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arabista_n_rel" ] ]. arable_a1 := a_rel_prd_le & [ STEM < "arable" >, SYNSEM.LKEYS.KEYREL.PRED "_arable_a_rel" ]. arac_n1 := n_intr_mass_le & [ STEM < "arac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arac_n_rel" ] ]. aracnoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "aracnoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_aracnoideo_a_rel" ]. aracnoides_n1 := n_intr_uncount_le & [ STEM < "aracnoides" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aracnoides_n_rel" ] ]. arado_n1 := n_intr_count_le & [ STEM < "arado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arado_n_rel" ] ]. aragonesismo_n1 := n_intr_mass-or-count_le & [ STEM < "aragonesismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aragonesismo_n_rel" ] ]. aragonito_n1 := n_intr_count_le & [ STEM < "aragonito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aragonito_n_rel" ] ]. aragonés_a1 := a_rel_prd_le & [ STEM < "aragonés" >, SYNSEM.LKEYS.KEYREL.PRED "_aragonés_a_rel" ]. aragonés_n1 := n_intr_count_le & [ STEM < "aragonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aragonés_n_rel" ] ]. arameo_a1 := a_rel_prd_le & [ STEM < "arameo" >, SYNSEM.LKEYS.KEYREL.PRED "_arameo_a_rel" ]. arancel_n1 := n_intr_count_le & [ STEM < "arancel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arancel_n_rel" ] ]. arancelario_a1 := a_rel_nonprd_intr_le & [ STEM < "arancelario" >, SYNSEM.LKEYS.KEYREL.PRED "_arancelario_a_rel" ]. arandela_n1 := n_intr_count_le & [ STEM < "arandela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arandela_n_rel" ] ]. aranés_a1 := a_rel_prd_le & [ STEM < "aranés" >, SYNSEM.LKEYS.KEYREL.PRED "_aranés_a_rel" ]. aranés_n1 := n_intr_count_le & [ STEM < "aranés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aranés_n_rel" ] ]. arao_n1 := n_intr_count_le & [ STEM < "arao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arao_n_rel" ] ]. araquidato_n1 := n_intr_count_le & [ STEM < "araquidato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_araquidato_n_rel" ] ]. arar_v := v_trans_np*_le & [ STEM < "arar" >, SYNSEM.LKEYS.KEYREL.PRED "_arar_v_rel" ]. araucano_a1 := a_rel_prd_le & [ STEM < "araucano" >, SYNSEM.LKEYS.KEYREL.PRED "_araucano_a_rel" ]. araucano_n1 := n_intr_count_le & [ STEM < "araucano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_araucano_n_rel" ] ]. araãâ±ar_v := v_trans_np_le & [ STEM < "arañar" >, SYNSEM.LKEYS.KEYREL.PRED "_arañar_v_rel" ]. araña_n1 := n_intr_count_le & [ STEM < "araña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_araña_n_rel" ] ]. arañazo_n1 := n_intr_count_le & [ STEM < "arañazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arañazo_n_rel" ] ]. arbitraje_n1 := n_trans_le & [ STEM < "arbitraje" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitraje_n_rel" ]. arbitral_a1 := a_rel_prd_le & [ STEM < "arbitral" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitral_a_rel" ]. arbitralmente_x1 := av_i_spr_le & [ STEM < "arbitralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitralmente_x_rel" ]. arbitrar_v1 := v_trans_cp_prop_fin_le & [ STEM < "arbitrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arbitrar_v_rel" ] ]. arbitrar_v2 := v_trans_np*_le & [ STEM < "arbitrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_arbitrar_v_rel" ] ]. arbitrariamente_x1 := av_i_spr_le & [ STEM < "arbitrariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrariamente_x_rel" ]. arbitrariedad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "arbitrariedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arbitrariedad_n_rel" ] ]. arbitrario_a1 := a_qual_intr_scopal_le & [ STEM < "arbitrario" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrario_a_rel" ]. arbitrativamente_x1 := av_i_spr_le & [ STEM < "arbitrativamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrativamente_x_rel" ]. arbitrativo_a1 := a_rel_prd_le & [ STEM < "arbitrativo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbitrativo_a_rel" ]. arbitrio_n1 := n_intr_count_le & [ STEM < "arbitrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arbitrio_n_rel" ] ]. arbolado_a1 := a_qual_intr_scopal_le & [ STEM < "arbolado" >, SYNSEM.LKEYS.KEYREL.PRED "_arbolado_a_rel" ]. arbolado_n1 := n_intr_count_le & [ STEM < "arbolado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arbolado_n_rel" ] ]. arboladura_n1 := n_intr_coll_le & [ STEM < "arboladura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arboladura_n_rel" ] ]. arbolar_v := v_trans_np_le & [ STEM < "arbolar" >, SYNSEM.LKEYS.KEYREL.PRED "_arbolar_v_rel" ]. arboleda_n1 := n_intr_count_le & [ STEM < "arboleda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arboleda_n_rel" ] ]. arborescente_a1 := a_rel_nonprd_intr_le & [ STEM < "arborescente" >, SYNSEM.LKEYS.KEYREL.PRED "_arborescente_a_rel" ]. arboricultura_n1 := n_intr_uncount_le & [ STEM < "arboricultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arboricultura_n_rel" ] ]. arbotante_n1 := n_intr_count_le & [ STEM < "arbotante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arbotante_n_rel" ] ]. arbustivo_a1 := a_rel_nonprd_intr_le & [ STEM < "arbustivo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbustivo_a_rel" ]. arbusto_n1 := n_intr_count_le & [ STEM < "arbusto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arbusto_n_rel" ] ]. arbóreamente_x1 := av_i_spr_le & [ STEM < "arbóreamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arbóreamente_x_rel" ]. arbóreo_a1 := a_rel_nonprd_intr_le & [ STEM < "arbóreo" >, SYNSEM.LKEYS.KEYREL.PRED "_arbóreo_a_rel" ]. arca_n1 := n_intr_count_le & [ STEM < "arca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arca_n_rel" ] ]. arcabucero_n1 := n_intr_count_le & [ STEM < "arcabucero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcabucero_n_rel" ] ]. arcabuz_n1 := n_intr_count_le & [ STEM < "arcabuz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arcabuz_n_rel" ] ]. arcada_n1 := n_intr_count_le & [ STEM < "arcada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_arcada_n_rel" ] ]. arcadia_n1 := n_intr_count_le & [ STEM < "arcadia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_arcadia_n_rel" ] ]. arcaicamente_x1 := av_i_spr_le & [ STEM < "arcaicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaicamente_x_rel" ]. arcaico_a1 := a_qual_intr_scopal_le & [ STEM < "arcaico" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaico_a_rel" ]. arcaizante_a1 := a_rel_prd_le & [ STEM < "arcaizante" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaizante_a_rel" ]. arcaizantemente_x1 := av_i_spr_le & [ STEM < "arcaizantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_arcaizantemente_x_rel" ]. arcano_a1 := a_rel_nonprd_intr_le & [ STEM < "arcano" >, SYNSEM.LKEYS.KEYREL.PRED "_arcano_a_rel" ]. arcaísmo_n1 := n_intr_count_le & [ STEM < "arcaísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcaísmo_n_rel" ] ]. arce_n1 := n_intr_count_le & [ STEM < "arce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arce_n_rel" ] ]. arcedianato_n1 := n_intr_uncount_le & [ STEM < "arcedianato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcedianato_n_rel" ] ]. arcediano_n1 := n_intr_count_le & [ STEM < "arcediano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcediano_n_rel" ] ]. archidiácono_n1 := n_intr_count_le & [ STEM < "archidiácono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archidiácono_n_rel" ] ]. archidiócesis_n1 := n_intr_count_le & [ STEM < "archidiócesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archidiócesis_n_rel" ] ]. archiduque_n1 := n_intr_count_le & [ STEM < "archiduque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archiduque_n_rel" ] ]. archiduquesa_n1 := n_intr_count_le & [ STEM < "archiduquesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archiduquesa_n_rel" ] ]. archienemigo_n1 := n_intr_count_le & [ STEM < "archienemigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archienemigo_n_rel" ] ]. archifonema_n1 := n_intr_count_le & [ STEM < "archifonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archifonema_n_rel" ] ]. archifonemático_a1 := a_rel_nonprd_intr_le & [ STEM < "archifonemático" >, SYNSEM.LKEYS.KEYREL.PRED "_archifonemático_a_rel" ]. archipelágico_a1 := a_rel_nonprd_intr_le & [ STEM < "archipelágico" >, SYNSEM.LKEYS.KEYREL.PRED "_archipelágico_a_rel" ]. archipiélago_n1 := n_intr_count_le & [ STEM < "archipiélago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_archipiélago_n_rel" ] ]. archivación_n1 := n_trans_le & [ STEM < "archivación" >, SYNSEM.LKEYS.KEYREL.PRED "_archivación_n_rel" ]. archivador_n1 := n_intr_count_le & [ STEM < "archivador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivador_n_rel" ] ]. archivar_v := v_trans_np_le & [ STEM < "archivar" >, SYNSEM.LKEYS.KEYREL.PRED "_archivar_v_rel" ]. archivero_n1 := n_intr_count_le & [ STEM < "archivero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivero_n_rel" ] ]. archivista_n1 := n_intr_count_le & [ STEM < "archivista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_archivista_n_rel" ] ]. archivo_n1 := n_trans_le & [ STEM < "archivo" >, SYNSEM.LKEYS.KEYREL.PRED "_archivo_n_rel" ]. archivo_n2 := n_intr_count_le & [ STEM < "archivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_archivo_n_rel" ] ]. archivolta_n1 := n_intr_count_le & [ STEM < "archivolta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_archivolta_n_rel" ] ]. archivística_n1 := n_intr_uncount_le & [ STEM < "archivística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_archivística_n_rel" ] ]. archivístico_a1 := a_rel_nonprd_intr_le & [ STEM < "archivístico" >, SYNSEM.LKEYS.KEYREL.PRED "_archivístico_a_rel" ]. arciforme_a1 := a_qual_intr_ser_le & [ STEM < "arciforme" >, SYNSEM.LKEYS.KEYREL.PRED "_arciforme_a_rel" ]. arcilla_n1 := n_intr_mass_le & [ STEM < "arcilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arcilla_n_rel" ] ]. arcilloso_a1 := a_qual_intr_scopal_le & [ STEM < "arcilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_arcilloso_a_rel" ]. arciloso_a1 := a_qual_intr_scopal_le & [ STEM < "arciloso" >, SYNSEM.LKEYS.KEYREL.PRED "_arciloso_a_rel" ]. arciprestazgo_n1 := n_intr_count_le & [ STEM < "arciprestazgo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arciprestazgo_n_rel" ] ]. arcipreste_n1 := n_intr_count_le & [ STEM < "arcipreste" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcipreste_n_rel" ] ]. arco_n1 := n_intr_count_le & [ STEM < "arco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_arco_n_rel" ] ]. arcocoseno_n1 := n_intr_count_le & [ STEM < "arcocoseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcocoseno_n_rel" ] ]. arconte_n1 := n_intr_count_le & [ STEM < "arconte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arconte_n_rel" ] ]. arcoseno_n1 := n_intr_count_le & [ STEM < "arcoseno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arcoseno_n_rel" ] ]. arcuado_a1 := a_qual_intr_ser_le & [ STEM < "arcuado" >, SYNSEM.LKEYS.KEYREL.PRED "_arcuado_a_rel" ]. arcángel_n1 := n_intr_count_le & [ STEM < "arcángel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arcángel_n_rel" ] ]. arcén_n1 := n_intr_count_le & [ STEM < "arcén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arcén_n_rel" ] ]. arder_v := v_unacc_le & [ STEM < "arder" >, SYNSEM.LKEYS.KEYREL.PRED "_arder_v_rel" ]. ardid_n1 := n_intr_count_le & [ STEM < "ardid" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardid_n_rel" ] ]. ardiente_a1 := a_qual_intr_scopal_le & [ STEM < "ardiente" >, SYNSEM.LKEYS.KEYREL.PRED "_ardiente_a_rel" ]. ardientemente_x1 := av_i_spr_le & [ STEM < "ardientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_ardientemente_x_rel" ]. ardilla_n1 := n_intr_count_le & [ STEM < "ardilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ardilla_n_rel" ] ]. ardite_n := n_intr_count_le & [ STEM < "ardite" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_ardite_n_rel" ] ]. ardor_n1 := n_intr_mass_le & [ STEM < "ardor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardor_n_rel" ] ]. ardor_n2 := n_intr_uncount_pl_le & [ STEM < "ardor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ardor_n_rel" ] ]. ardoroso_a1 := a_qual_intr_ser_le & [ STEM < "ardoroso" >, SYNSEM.LKEYS.KEYREL.PRED "_ardoroso_a_rel" ]. arduamente_x1 := av_i_spr_le & [ STEM < "arduamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arduamente_x_rel" ]. arduidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "arduidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arduidad_n_rel" ] ]. arduo_a1 := a_qual_intr_scopal_le & [ STEM < "arduo" >, SYNSEM.LKEYS.KEYREL.PRED "_arduo_a_rel" ]. arena_n1 := n_intr_mass_le & [ STEM < "arena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arena_n_rel" ] ]. arena_n2 := n_intr_count_le & [ STEM < "arena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arena_n_rel" ] ]. arenado_n1 := n_trans_le & [ STEM < "arenado" >, SYNSEM.LKEYS.KEYREL.PRED "_arenado_n_rel" ]. arenador_n1 := n_intr_count_le & [ STEM < "arenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenador_n_rel" ] ]. arenal_n1 := n_intr_count_le & [ STEM < "arenal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arenal_n_rel" ] ]. arenar_v := v_trans_np_le & [ STEM < "arenar" >, SYNSEM.LKEYS.KEYREL.PRED "_arenar_v_rel" ]. arenero_n1 := n_intr_count_le & [ STEM < "arenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenero_n_rel" ] ]. arenga_n1 := n_intr_count_le & [ STEM < "arenga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arenga_n_rel" ] ]. arengar_v := v_trans_np*_le & [ STEM < "arengar" >, SYNSEM.LKEYS.KEYREL.PRED "_arengar_v_rel" ]. arenilla_n1 := n_intr_mass_le & [ STEM < "arenilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenilla_n_rel" ] ]. arenisca_n1 := n_intr_mass_le & [ STEM < "arenisca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arenisca_n_rel" ] ]. arenoso_a1 := a_qual_intr_scopal_le & [ STEM < "arenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_arenoso_a_rel" ]. arenosol_n1 := n_intr_count_le & [ STEM < "arenosol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arenosol_n_rel" ] ]. arenque_n1 := n_intr_count_le & [ STEM < "arenque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arenque_n_rel" ] ]. arenáceo_a1 := a_qual_intr_scopal_le & [ STEM < "arenáceo" >, SYNSEM.LKEYS.KEYREL.PRED "_arenáceo_a_rel" ]. areola_n1 := n_intr_count_le & [ STEM < "areola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areola_n_rel" ] ]. areola_n2 := n_ppcomp_count_le & [ STEM < "areola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_areola_n_rel" ] ]. areolar_a1 := a_rel_nonprd_intr_le & [ STEM < "areolar" >, SYNSEM.LKEYS.KEYREL.PRED "_areolar_a_rel" ]. areopagita_n1 := n_intr_count_le & [ STEM < "areopagita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_areopagita_n_rel" ] ]. areopicnómetro_n1 := n_intr_count_le & [ STEM < "areopicnómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areopicnómetro_n_rel" ] ]. arete_n1 := n_intr_count_le & [ STEM < "arete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arete_n_rel" ] ]. areómetro_n1 := n_intr_count_le & [ STEM < "areómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_areómetro_n_rel" ] ]. areópago_n1 := n_intr_count_le & [ STEM < "areópago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_areópago_n_rel" ] ]. argamasa_n1 := n_intr_mass_le & [ STEM < "argamasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argamasa_n_rel" ] ]. argelino_a1 := a_rel_prd_le & [ STEM < "argelino" >, SYNSEM.LKEYS.KEYREL.PRED "_argelino_a_rel" ]. argelino_n1 := n_intr_count_le & [ STEM < "argelino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argelino_n_rel" ] ]. argentino_a1 := a_rel_prd_le & [ STEM < "argentino" >, SYNSEM.LKEYS.KEYREL.PRED "_argentino_a_rel" ]. argentino_n1 := n_intr_count_le & [ STEM < "argentino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argentino_n_rel" ] ]. argentita_n1 := n_intr_count_le & [ STEM < "argentita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argentita_n_rel" ] ]. arginina_n1 := n_intr_count_le & [ STEM < "arginina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arginina_n_rel" ] ]. argol_n1 := n_intr_count_le & [ STEM < "argol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argol_n_rel" ] ]. argolla_n1 := n_intr_count_le & [ STEM < "argolla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_argolla_n_rel" ] ]. argos_n1 := n_intr_count_le & [ STEM < "argos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_argos_n_rel" ] ]. argot_n1 := n_intr_count_le & [ STEM < "argot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argot_n_rel" ] ]. argucia_n1 := n_intr_mass_le & [ STEM < "argucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argucia_n_rel" ] ]. argumentación_n1 := n_trans_le & [ STEM < "argumentación" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentación_n_rel" ]. argumental_a1 := a_rel_nonprd_intr_le & [ STEM < "argumental" >, SYNSEM.LKEYS.KEYREL.PRED "_argumental_a_rel" ]. argumentar_v1 := v_trans_cp_prop_fin_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_argumentar_v_rel" ] ]. argumentar_v2 := v_trans_cp_semi_ques_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentar_v_rel" ]. argumentar_v3 := v_trans_np_le & [ STEM < "argumentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_argumentar_v_rel" ] ]. argumentativo_a1 := a_rel_prd_le & [ STEM < "argumentativo" >, SYNSEM.LKEYS.KEYREL.PRED "_argumentativo_a_rel" ]. argumento_n1 := n_intr_count_le & [ STEM < "argumento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_argumento_n_rel" ] ]. argã£â¼ir_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "argüir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_argüir_v_rel" ] ]. argã£â¼ir_v2 := v_trans_np_mrkd_np*_le & [ STEM < "argüir" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_argüir_v_rel" ] ] ]. argénteo_a1 := a_rel_nonprd_intr_le & [ STEM < "argénteo" >, SYNSEM.LKEYS.KEYREL.PRED "_argénteo_a_rel" ]. argón_n1 := n_intr_mass_le & [ STEM < "argón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_argón_n_rel" ] ]. aria_n1 := n_intr_count_le & [ STEM < "aria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_aria_n_rel" ] ]. aridad_n1 := n_intr_uncount_le & [ STEM < "aridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aridad_n_rel" ] ]. aridez_n1 := n_ppcomp_mass_le & [ STEM < "aridez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aridez_n_rel" ] ]. arieta_n1 := n_intr_count_le & [ STEM < "arieta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arieta_n_rel" ] ]. ariete_n1 := n_intr_count_le & [ STEM < "ariete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ariete_n_rel" ] ]. ario_n1 := n_intr_count_le & [ STEM < "ario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ario_n_rel" ] ]. arisco_a1 := a_qual_intr_ser_le & [ STEM < "arisco" >, SYNSEM.LKEYS.KEYREL.PRED "_arisco_a_rel" ]. arista_n1 := n_intr_count_le & [ STEM < "arista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arista_n_rel" ] ]. aristocracia_n1 := n_intr_count_le & [ STEM < "aristocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aristocracia_n_rel" ] ]. aristocráticamente_x1 := av_i_spr_le & [ STEM < "aristocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aristocráticamente_x_rel" ]. aristocrático_a1 := a_qual_intr_ser_le & [ STEM < "aristocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_aristocrático_a_rel" ]. aristotélico_a1 := a_rel_nonprd_intr_le & [ STEM < "aristotélico" >, SYNSEM.LKEYS.KEYREL.PRED "_aristotélico_a_rel" ]. aristotélico_n1 := n_intr_count_le & [ STEM < "aristotélico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aristotélico_n_rel" ] ]. aristócrata_n1 := n_intr_count_le & [ STEM < "aristócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aristócrata_n_rel" ] ]. aritenoepiglótico_a1 := a_rel_nonprd_intr_le & [ STEM < "aritenoepiglótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aritenoepiglótico_a_rel" ]. aritenoidectomía_n1 := n_intr_count_le & [ STEM < "aritenoidectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenoidectomía_n_rel" ] ]. aritenoideo_a1 := a_rel_nonprd_intr_le & [ STEM < "aritenoideo" >, SYNSEM.LKEYS.KEYREL.PRED "_aritenoideo_a_rel" ]. aritenoidopexia_n1 := n_intr_uncount_le & [ STEM < "aritenoidopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenoidopexia_n_rel" ] ]. aritenopexia_n1 := n_intr_uncount_le & [ STEM < "aritenopexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritenopexia_n_rel" ] ]. aritmética_n1 := n_intr_uncount_le & [ STEM < "aritmética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aritmética_n_rel" ] ]. aritméticamente_x1 := av_i_spr_le & [ STEM < "aritméticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aritméticamente_x_rel" ]. aritmético_a1 := a_rel_nonprd_intr_le & [ STEM < "aritmético" >, SYNSEM.LKEYS.KEYREL.PRED "_aritmético_a_rel" ]. aritmómetro_n1 := n_intr_count_le & [ STEM < "aritmómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aritmómetro_n_rel" ] ]. arlequín_n1 := n_intr_count_le & [ STEM < "arlequín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arlequín_n_rel" ] ]. arma_n1 := n_intr_count_le & [ STEM < "arma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arma_n_rel" ] ]. arma_nuclear_n1 := n_intr_count_le & [ STEM < "arma_nuclear" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arma_nuclear_n_rel" ] ]. armada_n1 := n_intr_coll_le & [ STEM < "armada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armada_n_rel" ] ]. armador_n1 := n_intr_count_le & [ STEM < "armador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armador_n_rel" ] ]. armadura_n1 := n_intr_count_le & [ STEM < "armadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armadura_n_rel" ] ]. armadía_n1 := n_intr_count_le & [ STEM < "armadía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armadía_n_rel" ] ]. armajal_n1 := n_intr_count_le & [ STEM < "armajal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_armajal_n_rel" ] ]. armamentismo_n1 := n_intr_uncount_le & [ STEM < "armamentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armamentismo_n_rel" ] ]. armamentista_a1 := a_qual_intr_ser_le & [ STEM < "armamentista" >, SYNSEM.LKEYS.KEYREL.PRED "_armamentista_a_rel" ]. armamento_n1 := n_intr_mass_le & [ STEM < "armamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armamento_n_rel" ] ]. armamentístico_a1 := a_rel_nonprd_intr_le & [ STEM < "armamentístico" >, SYNSEM.LKEYS.KEYREL.PRED "_armamentístico_a_rel" ]. armar_v1 := v_pron_intr_mrkd_np_le & [ STEM < "armar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_armar_v_rel" ] ]. armar_v2 := v_trans_np_le & [ STEM < "armar" >, SYNSEM.LKEYS.KEYREL.PRED "_armar_v_rel" ]. armario_n1 := n_intr_count_le & [ STEM < "armario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armario_n_rel" ] ]. armazón_n1 := n_intr_count_le & [ STEM < "armazón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armazón_n_rel" ] ]. armañac_n1 := n_intr_count_le & [ STEM < "armañac" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armañac_n_rel" ] ]. armenio_a1 := a_rel_prd_le & [ STEM < "armenio" >, SYNSEM.LKEYS.KEYREL.PRED "_armenio_a_rel" ]. armenio_n1 := n_intr_count_le & [ STEM < "armenio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armenio_n_rel" ] ]. armero_n1 := n_intr_count_le & [ STEM < "armero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armero_n_rel" ] ]. armería_n1 := n_intr_count_le & [ STEM < "armería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_armería_n_rel" ] ]. armisticio_n1 := n_intr_count_le & [ STEM < "armisticio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armisticio_n_rel" ] ]. armiño_n1 := n_intr_count_le & [ STEM < "armiño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_armiño_n_rel" ] ]. armonicista_a1 := a_qual_intr_ser_le & [ STEM < "armonicista" >, SYNSEM.LKEYS.KEYREL.PRED "_armonicista_a_rel" ]. armonio_n1 := n_intr_count_le & [ STEM < "armonio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armonio_n_rel" ] ]. armoniosamente_x1 := av_i_spr_le & [ STEM < "armoniosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_armoniosamente_x_rel" ]. armonioso_a1 := a_qual_intr_scopal_le & [ STEM < "armonioso" >, SYNSEM.LKEYS.KEYREL.PRED "_armonioso_a_rel" ]. armonista_n1 := n_intr_count_le & [ STEM < "armonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_armonista_n_rel" ] ]. armonización_n1 := n_trans_le & [ STEM < "armonización" >, SYNSEM.LKEYS.KEYREL.PRED "_armonización_n_rel" ]. armonizar_v1 := v_intr_mrkd_np_sym_le & [ STEM < "armonizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_armonizar_v_rel" ] ]. armonizar_v2 := v_trans_np_caus_le & [ STEM < "armonizar" >, SYNSEM.LKEYS.KEYREL.PRED "_armonizar_v_rel" ]. armonía_n1 := n_intr_mass_le & [ STEM < "armonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_armonía_n_rel" ] ]. armónica_n1 := n_intr_count_le & [ STEM < "armónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armónica_n_rel" ] ]. armónicamente_x1 := av_i_spr_le & [ STEM < "armónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_armónicamente_x_rel" ]. armónico_a1 := a_qual_intr_scopal_le & [ STEM < "armónico" >, SYNSEM.LKEYS.KEYREL.PRED "_armónico_a_rel" ]. armónico_n1 := n_intr_count_le & [ STEM < "armónico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_armónico_n_rel" ] ]. arnés_n1 := n_intr_count_le & [ STEM < "arnés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arnés_n_rel" ] ]. aro_n1 := n_intr_count_le & [ STEM < "aro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aro_n_rel" ] ]. aroma_n1 := n_intr_mass_le & [ STEM < "aroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aroma_n_rel" ] ]. aromaticidad_n1 := n_ppcomp_uncount_le & [ STEM < "aromaticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aromaticidad_n_rel" ] ]. aromatización_n1 := n_trans_le & [ STEM < "aromatización" >, SYNSEM.LKEYS.KEYREL.PRED "_aromatización_n_rel" ]. aromatizar_v := v_trans_np_le & [ STEM < "aromatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aromatizar_v_rel" ]. aromático_a1 := a_qual_intr_scopal_le & [ STEM < "aromático" >, SYNSEM.LKEYS.KEYREL.PRED "_aromático_a_rel" ]. arpa_n1 := n_intr_count_le & [ STEM < "arpa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arpa_n_rel" ] ]. arpegio_n1 := n_intr_count_le & [ STEM < "arpegio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_arpegio_n_rel" ] ]. arpillera_n1 := n_intr_mass-or-count_le & [ STEM < "arpillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_arpillera_n_rel" ] ]. arpista_n1 := n_intr_count_le & [ STEM < "arpista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arpista_n_rel" ] ]. arponero_n1 := n_intr_count_le & [ STEM < "arponero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arponero_n_rel" ] ]. arpía_n1 := n_intr_count_le & [ STEM < "arpía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arpía_n_rel" ] ]. arpón_n1 := n_intr_count_le & [ STEM < "arpón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arpón_n_rel" ] ]. arqueaje_n1 := n_intr_mass_le & [ STEM < "arqueaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_arqueaje_n_rel" ] ]. arqueamiento_n1 := n_intr_mass_le & [ STEM < "arqueamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mea, PRED "_arqueamiento_n_rel" ] ]. arquear_v := v_trans_np_caus_le & [ STEM < "arquear" >, SYNSEM.LKEYS.KEYREL.PRED "_arquear_v_rel" ]. arqueo_n1 := n_trans_le & [ STEM < "arqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_arqueo_n_rel" ]. arqueobotánica_n1 := n_intr_uncount_le & [ STEM < "arqueobotánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueobotánica_n_rel" ] ]. arqueobotánico_n1 := n_intr_count_le & [ STEM < "arqueobotánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arqueobotánico_n_rel" ] ]. arqueografía_n1 := n_intr_uncount_le & [ STEM < "arqueografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueografía_n_rel" ] ]. arqueología_n1 := n_intr_uncount_le & [ STEM < "arqueología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueología_n_rel" ] ]. arqueológico_a1 := a_rel_nonprd_intr_le & [ STEM < "arqueológico" >, SYNSEM.LKEYS.KEYREL.PRED "_arqueológico_a_rel" ]. arqueomagnetismo_n1 := n_intr_uncount_le & [ STEM < "arqueomagnetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueomagnetismo_n_rel" ] ]. arqueozoología_n1 := n_intr_uncount_le & [ STEM < "arqueozoología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arqueozoología_n_rel" ] ]. arquero_n1 := n_intr_count_le & [ STEM < "arquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arquero_n_rel" ] ]. arquería_n1 := n_intr_count_le & [ STEM < "arquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquería_n_rel" ] ]. arqueta_n1 := n_intr_count_le & [ STEM < "arqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arqueta_n_rel" ] ]. arquetipo_n1 := n_intr_count_le & [ STEM < "arquetipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquetipo_n_rel" ] ]. arqueólogo_n1 := n_intr_count_le & [ STEM < "arqueólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arqueólogo_n_rel" ] ]. arquillo_n1 := n_intr_count_le & [ STEM < "arquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquillo_n_rel" ] ]. arquimediano_a1 := a_rel_nonprd_intr_le & [ STEM < "arquimediano" >, SYNSEM.LKEYS.KEYREL.PRED "_arquimediano_a_rel" ]. arquitecto_n1 := n_intr_count_le & [ STEM < "arquitecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arquitecto_n_rel" ] ]. arquitectura_n1 := n_intr_count_le & [ STEM < "arquitectura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arquitectura_n_rel" ] ]. arquitectural_a1 := a_rel_nonprd_intr_le & [ STEM < "arquitectural" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectural_a_rel" ]. arquitecturalmente_x1 := av_i_spr_le & [ STEM < "arquitecturalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitecturalmente_x_rel" ]. arquitectónicamente_x1 := av_i_spr_le & [ STEM < "arquitectónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectónicamente_x_rel" ]. arquitectónico_a1 := a_rel_nonprd_intr_le & [ STEM < "arquitectónico" >, SYNSEM.LKEYS.KEYREL.PRED "_arquitectónico_a_rel" ]. arquitrabe_n1 := n_intr_count_le & [ STEM < "arquitrabe" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquitrabe_n_rel" ] ]. arquivolta_n1 := n_intr_count_le & [ STEM < "arquivolta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arquivolta_n_rel" ] ]. arrabal_n1 := n_intr_count_le & [ STEM < "arrabal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrabal_n_rel" ] ]. arrabio_n1 := n_intr_count_le & [ STEM < "arrabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrabio_n_rel" ] ]. arracimar_v := v_pron_unacc_perf_le & [ STEM < "arracimar" >, SYNSEM.LKEYS.KEYREL.PRED "_arracimar_v_rel" ]. arraigar_v1 := v_pron_unacc_lcomp_loc*_le & [ STEM < "arraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_arraigar_v_rel" ]. arraigar_v2 := v_unacc_lcomp_loc*_le & [ STEM < "arraigar" >, SYNSEM.LKEYS.KEYREL.PRED "_arraigar_v_rel" ]. arraigo_n1 := n_result_intr_ppcomp_le & [ STEM < "arraigo" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_arraigo_n_rel" ] ]. arrancaclavos_n1 := n_intr_count_le & [ STEM < "arrancaclavos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancaclavos_n_rel" ] ]. arrancada_n1 := n_intr_count_le & [ STEM < "arrancada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrancada_n_rel" ] ]. arrancador_n1 := n_intr_count_le & [ STEM < "arrancador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancador_n_rel" ] ]. arrancadora_n1 := n_intr_count_le & [ STEM < "arrancadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrancadora_n_rel" ] ]. arrancamiento_n1 := n_trans_le & [ STEM < "arrancamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancamiento_n_rel" ]. arrancar_5 := v_trans_np_mrkd_np_le & [ STEM < "arrancar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrancar_v_rel" ] ]. arrancar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrancar_v_rel" ] ]. arrancar_v2 := v_ditrans*_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancar_v_rel" ]. arrancar_v3 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "arrancar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_arrancar_v_rel" ] ]. arrancar_v4 := v_unacc_lcomp_dir_le & [ STEM < "arrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrancar_v_rel" ]. arranque_n1 := n_trans_le & [ STEM < "arranque" >, SYNSEM.LKEYS.KEYREL.PRED "_arranque_n_rel" ]. arras_n1 := n_intr_count_pl_le & [ STEM < "arras" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arras_n_rel" ] ]. arrasamiento_n1 := n_trans_le & [ STEM < "arrasamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrasamiento_n_rel" ]. arrasamiento_n2 := n_result_intr_ppcomp_le & [ STEM < "arrasamiento" >, SYNSEM.LKEYS [ --OCOMPKEY _con_p_sel_rel, KEYREL.PRED "_arrasamiento_n_rel" ] ]. arrasar_v1 := v_trans_np_le & [ STEM < "arrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrasar_v_rel" ]. arrastrar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrastrar_v_rel" ] ] ]. arrastrar_v2 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastrar_v_rel" ]. arrastrar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "arrastrar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrastrar_v_rel" ] ] ]. arrastre_n1 := n_trans_le & [ STEM < "arrastre" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastre_n_rel" ]. arrastrero_a1 := a_rel_nonprd_intr_le & [ STEM < "arrastrero" >, SYNSEM.LKEYS.KEYREL.PRED "_arrastrero_a_rel" ]. arrayanal_n1 := n_intr_count_le & [ STEM < "arrayanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arrayanal_n_rel" ] ]. arrayán_n1 := n_intr_count_le & [ STEM < "arrayán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arrayán_n_rel" ] ]. arrebatamiento_n1 := n_trans_le & [ STEM < "arrebatamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebatamiento_n_rel" ]. arrebatar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrebatar_v_rel" ] ]. arrebatar_v2 := v_ditrans*_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebatar_v_rel" ]. arrebatar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrebatar_v_rel" ] ]. arrebatar_v4 := v_trans_np_mrkd_np_le & [ STEM < "arrebatar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_arrebatar_v_rel" ] ]. arrebato_n1 := n_trans_le & [ STEM < "arrebato" >, SYNSEM.LKEYS.KEYREL.PRED "_arrebato_n_rel" ]. arreciar_v := v_intr_le & [ STEM < "arreciar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreciar_v_rel" ]. arrecife_n1 := n_intr_count_le & [ STEM < "arrecife" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrecife_n_rel" ] ]. arredrar_v1 := v_intr_io*_le & [ STEM < "arredrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arredrar_v_rel" ]. arredrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "arredrar" >, SYNSEM.LKEYS.KEYREL.PRED "_arredrar_v_rel" ]. arreglador_n1 := n_subj-nom_le & [ STEM < "arreglador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arreglador_n_rel" ] ]. arreglar_v1 := v_ditrans*_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v2 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v3 := v_subj_cp_prop_trans_np_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglar_v_rel" ]. arreglar_v4 := v_trans_cp_prop_fin_le & [ STEM < "arreglar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arreglar_v_rel" ] ]. arreglista_n1 := n_intr_count_le & [ STEM < "arreglista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arreglista_n_rel" ] ]. arreglo_n1 := n_trans_le & [ STEM < "arreglo" >, SYNSEM.LKEYS.KEYREL.PRED "_arreglo_n_rel" ]. arremeter_v1 := v_intr_mrkd_np*_le & [ STEM < "arremeter" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_arremeter_v_rel" ] ]. arremeter_v2 := v_trans_np_mrkd_np_le & [ STEM < "arremeter" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_or_contra_p_sel_rel, KEYREL.PRED "_arremeter_v_rel" ] ]. arremetida_n1 := n_result_intr_ppcomp_le & [ STEM < "arremetida" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_arremetida_n_rel" ] ]. arremolinar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arremolinar_v_rel" ] ] ]. arremolinar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arremolinar_v_rel" ] ] ]. arremolinar_v3 := v_pron_unacc_perf_le & [ STEM < "arremolinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arremolinar_v_rel" ]. arrendable_a1 := a_rel_nonprd_intr_le & [ STEM < "arrendable" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendable_a_rel" ]. arrendador_n1 := n_subj-nom_le & [ STEM < "arrendador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrendador_n_rel" ] ]. arrendajo_n1 := n_intr_count_le & [ STEM < "arrendajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arrendajo_n_rel" ] ]. arrendamiento_n1 := n_trans_le & [ STEM < "arrendamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendamiento_n_rel" ]. arrendar_v := v_ditrans*_le & [ STEM < "arrendar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrendar_v_rel" ]. arrendatario_n1 := n_intr_count_le & [ STEM < "arrendatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrendatario_n_rel" ] ]. arrepentimiento_n1 := n_ppcomp_mass_le & [ STEM < "arrepentimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrepentimiento_n_rel" ] ]. arrepentir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "arrepentir" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_arrepentir_v_rel" ] ] ]. arrepentir_v2 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "arrepentir" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_arrepentir_v_rel" ] ] ]. arrestar_v1 := v_trans_np_le & [ STEM < "arrestar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrestar_v_rel" ]. arresto_n1 := n_trans_le & [ STEM < "arresto" >, SYNSEM.LKEYS.KEYREL.PRED "_arresto_n_rel" ]. arriar_v := v_trans_np_le & [ STEM < "arriar" >, SYNSEM.LKEYS.KEYREL.PRED "_arriar_v_rel" ]. arriate_n1 := n_intr_count_le & [ STEM < "arriate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arriate_n_rel" ] ]. arriba_de_p_vmod := p_vmod_le & [ STEM < "arriba_de" >, SYNSEM.LKEYS.KEYREL.PRED _arriba_de_p_rel ]. arriba_x1 := av_i_spr_le & [ STEM < "arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_arriba_x_rel" ]. arribada_n1 := n_event-result_intr_le & [ STEM < "arribada" >, SYNSEM.LKEYS.KEYREL.PRED "_arribada_n_rel" ]. arribar_v := v_unacc_lcomp_dir*_perf_le & [ STEM < "arribar" >, SYNSEM.LKEYS.KEYREL.PRED "_arribar_v_rel" ]. arribismo_n1 := n_intr_uncount_le & [ STEM < "arribismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arribismo_n_rel" ] ]. arribista_n1 := n_intr_count_le & [ STEM < "arribista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arribista_n_rel" ] ]. arriendo_n1 := n_trans_le & [ STEM < "arriendo" >, SYNSEM.LKEYS.KEYREL.PRED "_arriendo_n_rel" ]. arriesgadamente_x1 := av_i_spr_le & [ STEM < "arriesgadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arriesgadamente_x_rel" ]. arriesgar_v1 := v_trans_np_le & [ STEM < "arriesgar" >, SYNSEM.LKEYS.KEYREL.PRED "_arriesgar_v_rel" ]. arrimador_n1 := n_intr_count_le & [ STEM < "arrimador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrimador_n_rel" ] ]. arrimar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrimar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrimar_v_rel" ] ] ]. arrimar_v2 := v_trans_np_mrkd_np*_caus_le & [ STEM < "arrimar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrimar_v_rel" ] ] ]. arrinconar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrinconar_v_rel" ] ] ]. arrinconar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrinconar_v_rel" ] ] ]. arrinconar_v3 := v_trans_np_le & [ STEM < "arrinconar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrinconar_v_rel" ]. arriostramiento_n1 := n_trans_le & [ STEM < "arriostramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arriostramiento_n_rel" ]. arritmia_n1 := n_intr_uncount_le & [ STEM < "arritmia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arritmia_n_rel" ] ]. arriñonado_a1 := a_qual_intr_ser_le & [ STEM < "arriñonado" >, SYNSEM.LKEYS.KEYREL.PRED "_arriñonado_a_rel" ]. arroba_n1 := n_intr_count_le & [ STEM < "arroba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arroba_n_rel" ] ]. arrocero_n1 := n_intr_count_le & [ STEM < "arrocero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arrocero_n_rel" ] ]. arrodillar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "arrodillar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrodillar_v_rel" ] ] ]. arrodillar_v2 := v_pron_intr_le & [ STEM < "arrodillar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrodillar_v_rel" ]. arrogación_n1 := n_trans_le & [ STEM < "arrogación" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogación_n_rel" ]. arrogancia_n1 := n_intr_mass_le & [ STEM < "arrogancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrogancia_n_rel" ] ]. arrogante_a1 := a_qual_intr_ser_le & [ STEM < "arrogante" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogante_a_rel" ]. arrogar_v1 := v_pron_trans_np_le & [ STEM < "arrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogar_v_rel" ]. arrogar_v2 := v_trans_np_le & [ STEM < "arrogar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrogar_v_rel" ]. arrojar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrojar_v_rel" ] ]. arrojar_v2 := v_ditrans*_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_hum_pro, PRED "_arrojar_v_rel" ] ]. arrojar_v3 := v_trans_np_lcomp_dir*_caus_le & [ STEM < "arrojar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrojar_v_rel" ]. arrojar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "arrojar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_arrojar_v_rel" ] ] ]. arrojo_n1 := n_trans_le & [ STEM < "arrojo" >, SYNSEM.LKEYS.KEYREL.PRED "_arrojo_n_rel" ]. arrolladamente_x1 := av_i_spr_le & [ STEM < "arrolladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrolladamente_x_rel" ]. arrollador_a1 := a_rel_nonprd_intr_le & [ STEM < "arrollador" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollador_a_rel" ]. arrolladormente_x1 := av_i_spr_le & [ STEM < "arrolladormente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrolladormente_x_rel" ]. arrollamiento_n1 := n_trans_le & [ STEM < "arrollamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollamiento_n_rel" ]. arrollar_v1 := v_trans_np*_le & [ STEM < "arrollar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrollar_v_rel" ]. arrompido_n1 := n_intr_count_le & [ STEM < "arrompido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arrompido_n_rel" ] ]. arropar_v1 := v_trans_np_caus_le & [ STEM < "arropar" >, SYNSEM.LKEYS.KEYREL.PRED "_arropar_v_rel" ]. arroyada_n1 := n_intr_count_le & [ STEM < "arroyada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arroyada_n_rel" ] ]. arroyamiento_n1 := n_trans_le & [ STEM < "arroyamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arroyamiento_n_rel" ]. arroyo_n1 := n_intr_count_le & [ STEM < "arroyo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arroyo_n_rel" ] ]. arroyuelo_n1 := n_intr_count_le & [ STEM < "arroyuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_arroyuelo_n_rel" ] ]. arroz_n1 := n_intr_mass_le & [ STEM < "arroz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arroz_n_rel" ] ]. arrozal_n1 := n_intr_count_le & [ STEM < "arrozal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_arrozal_n_rel" ] ]. arruga_n1 := n_intr_count_le & [ STEM < "arruga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arruga_n_rel" ] ]. arrugamiento_n1 := n_trans_le & [ STEM < "arrugamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_arrugamiento_n_rel" ]. arrugar_v1 := v_trans_np_caus_le & [ STEM < "arrugar" >, SYNSEM.LKEYS.KEYREL.PRED "_arrugar_v_rel" ]. arruinar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "arruinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arruinar_v_rel" ]. arruinar_v2 := v_trans_np_caus_le & [ STEM < "arruinar" >, SYNSEM.LKEYS.KEYREL.PRED "_arruinar_v_rel" ]. arrullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "arrullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_arrullar_v_rel" ] ]. arrullar_v2 := v_ditrans*_le & [ STEM < "arrullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_arrullar_v_rel" ] ]. arrullo_n1 := n_result_intr_le & [ STEM < "arrullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arrullo_n_rel" ] ]. arruruz_n1 := n_intr_count_le & [ STEM < "arruruz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arruruz_n_rel" ] ]. arrítmicamente_x1 := av_i_spr_le & [ STEM < "arrítmicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_arrítmicamente_x_rel" ]. arrítmico_a1 := a_rel_prd_le & [ STEM < "arrítmico" >, SYNSEM.LKEYS.KEYREL.PRED "_arrítmico_a_rel" ]. arsanilato_n1 := n_intr_count_le & [ STEM < "arsanilato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsanilato_n_rel" ] ]. arsenal_n1 := n_intr_count_le & [ STEM < "arsenal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_arsenal_n_rel" ] ]. arseniato_n1 := n_intr_mass-or-count_le & [ STEM < "arseniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_arseniato_n_rel" ] ]. arsenical_a1 := a_rel_nonprd_intr_le & [ STEM < "arsenical" >, SYNSEM.LKEYS.KEYREL.PRED "_arsenical_a_rel" ]. arsenito_n1 := n_intr_count_le & [ STEM < "arsenito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsenito_n_rel" ] ]. arseniuro_n1 := n_intr_mass_le & [ STEM < "arseniuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arseniuro_n_rel" ] ]. arsenopirita_n1 := n_intr_count_le & [ STEM < "arsenopirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsenopirita_n_rel" ] ]. arsfenamina_n1 := n_intr_count_le & [ STEM < "arsfenamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsfenamina_n_rel" ] ]. arsina_n1 := n_intr_mass_le & [ STEM < "arsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsina_n_rel" ] ]. arsénico_n1 := n_intr_mass_le & [ STEM < "arsénico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_arsénico_n_rel" ] ]. arte_n1 := n_intr_mass-or-count_le & [ STEM < "arte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arte_n_rel" ] ]. arte_n2 := n_intr_uncount_le & [ STEM < "arte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arte_n_rel" ] ]. artefacto_n1 := n_intr_count_le & [ STEM < "artefacto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artefacto_n_rel" ] ]. arteria_n1 := n_intr_count_le & [ STEM < "arteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arteria_n_rel" ] ]. arterial_a1 := a_rel_nonprd_intr_le & [ STEM < "arterial" >, SYNSEM.LKEYS.KEYREL.PRED "_arterial_a_rel" ]. arteriola_n1 := n_intr_count_le & [ STEM < "arteriola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arteriola_n_rel" ] ]. arteriola_n2 := n_ppcomp_count_le & [ STEM < "arteriola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_arteriola_n_rel" ] ]. arteriosclerosis_n1 := n_intr_uncount_le & [ STEM < "arteriosclerosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arteriosclerosis_n_rel" ] ]. arterioso_a1 := a_rel_nonprd_intr_le & [ STEM < "arterioso" >, SYNSEM.LKEYS.KEYREL.PRED "_arterioso_a_rel" ]. arteriovenoso_a1 := a_rel_nonprd_intr_le & [ STEM < "arteriovenoso" >, SYNSEM.LKEYS.KEYREL.PRED "_arteriovenoso_a_rel" ]. arteritis_n1 := n_intr_uncount_le & [ STEM < "arteritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_arteritis_n_rel" ] ]. artesa_n1 := n_intr_count_le & [ STEM < "artesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesa_n_rel" ] ]. artesanado_n1 := n_intr_mass_le & [ STEM < "artesanado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_artesanado_n_rel" ] ]. artesanal_a1 := a_qual_intr_scopal_le & [ STEM < "artesanal" >, SYNSEM.LKEYS.KEYREL.PRED "_artesanal_a_rel" ]. artesanalmente_x1 := av_i_spr_le & [ STEM < "artesanalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_artesanalmente_x_rel" ]. artesano_a1 := a_rel_nonprd_intr_le & [ STEM < "artesano" >, SYNSEM.LKEYS.KEYREL.PRED "_artesano_a_rel" ]. artesano_n1 := n_intr_count_le & [ STEM < "artesano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artesano_n_rel" ] ]. artesanía_n1 := n_intr_mass_le & [ STEM < "artesanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesanía_n_rel" ] ]. artesiano_a1 := a_rel_prd_le & [ STEM < "artesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_artesiano_a_rel" ]. artesonado_n1 := n_intr_mass_le & [ STEM < "artesonado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesonado_n_rel" ] ]. artesón_n1 := n_intr_count_le & [ STEM < "artesón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artesón_n_rel" ] ]. articulación_n1 := n_trans_le & [ STEM < "articulación" >, SYNSEM.LKEYS.KEYREL.PRED "_articulación_n_rel" ]. articuladamente_x1 := av_i_spr_le & [ STEM < "articuladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_articuladamente_x_rel" ]. articulador_n1 := n_intr_count_le & [ STEM < "articulador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_articulador_n_rel" ] ]. articular_a1 := a_rel_nonprd_intr_le & [ STEM < "articular" >, SYNSEM.LKEYS.KEYREL.PRED "_articular_a_rel" ]. articular_v1 := v_trans_np_caus_le & [ STEM < "articular" >, SYNSEM.LKEYS.KEYREL.PRED "_articular_v_rel" ]. articulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "articulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_articulatorio_a_rel" ]. articulista_n1 := n_intr_count_le & [ STEM < "articulista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_articulista_n_rel" ] ]. artificero_n1 := n_intr_count_le & [ STEM < "artificero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artificero_n_rel" ] ]. artificial_a1 := a_qual_intr_scopal_le & [ STEM < "artificial" >, SYNSEM.LKEYS.KEYREL.PRED "_artificial_a_rel" ]. artificialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "artificialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artificialidad_n_rel" ] ]. artificialmente_x1 := av_i_spr_le & [ STEM < "artificialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_artificialmente_x_rel" ]. artificiero_n1 := n_intr_count_le & [ STEM < "artificiero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artificiero_n_rel" ] ]. artificio_n1 := n_intr_mass-or-count_le & [ STEM < "artificio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artificio_n_rel" ] ]. artificiosamente_x1 := av_i_spr_le & [ STEM < "artificiosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_artificiosamente_x_rel" ]. artificioso_a1 := a_rel_nonprd_intr_le & [ STEM < "artificioso" >, SYNSEM.LKEYS.KEYREL.PRED "_artificioso_a_rel" ]. artiga_n1 := n_trans_le & [ STEM < "artiga" >, SYNSEM.LKEYS.KEYREL.PRED "_artiga_n_rel" ]. artiga_n2 := n_intr_count_le & [ STEM < "artiga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_artiga_n_rel" ] ]. artillero_n1 := n_intr_count_le & [ STEM < "artillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artillero_n_rel" ] ]. artillería_n1 := n_intr_mass_le & [ STEM < "artillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artillería_n_rel" ] ]. artilugio_n1 := n_intr_count_le & [ STEM < "artilugio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_artilugio_n_rel" ] ]. artimaña_n1 := n_intr_count_le & [ STEM < "artimaña" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_artimaña_n_rel" ] ]. artista_n1 := n_intr_count_le & [ STEM < "artista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artista_n_rel" ] ]. artoplastia_n1 := n_intr_count_le & [ STEM < "artoplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artoplastia_n_rel" ] ]. artralgia_n1 := n_intr_uncount_le & [ STEM < "artralgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artralgia_n_rel" ] ]. artritis_n1 := n_intr_uncount_le & [ STEM < "artritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artritis_n_rel" ] ]. artrodia_n1 := n_intr_count_le & [ STEM < "artrodia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrodia_n_rel" ] ]. artrografía_n1 := n_intr_count_le & [ STEM < "artrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrografía_n_rel" ] ]. artroplastia_n1 := n_intr_count_le & [ STEM < "artroplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artroplastia_n_rel" ] ]. artroscopia_n1 := n_intr_count_le & [ STEM < "artroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artroscopia_n_rel" ] ]. artrosis_n1 := n_intr_uncount_le & [ STEM < "artrosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrosis_n_rel" ] ]. artrotomía_n1 := n_intr_count_le & [ STEM < "artrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_artrotomía_n_rel" ] ]. artrítico_a1 := a_rel_nonprd_intr_le & [ STEM < "artrítico" >, SYNSEM.LKEYS.KEYREL.PRED "_artrítico_a_rel" ]. artrópodo_n1 := n_intr_count_le & [ STEM < "artrópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_artrópodo_n_rel" ] ]. artículo_n1 := n_intr_count_le & [ STEM < "artículo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_artículo_n_rel" ] ]. artífice_n1 := n_intr_count_le & [ STEM < "artífice" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_artífice_n_rel" ] ]. artísticamente_x1 := av_i_spr_le & [ STEM < "artísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_artísticamente_x_rel" ]. artístico_a1 := a_qual_intr_scopal_le & [ STEM < "artístico" >, SYNSEM.LKEYS.KEYREL.PRED "_artístico_a_rel" ]. artúrico_a1 := a_rel_prd_le & [ STEM < "artúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_artúrico_a_rel" ]. arvense_a1 := a_rel_nonprd_intr_le & [ STEM < "arvense" >, SYNSEM.LKEYS.KEYREL.PRED "_arvense_a_rel" ]. arxivístico_a1 := a_rel_nonprd_intr_le & [ STEM < "arxivístico" >, SYNSEM.LKEYS.KEYREL.PRED "_arxivístico_a_rel" ]. arzobispado_n1 := n_intr_count_le & [ STEM < "arzobispado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc_soc, PRED "_arzobispado_n_rel" ] ]. arzobispo_n1 := n_intr_count_le & [ STEM < "arzobispo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_arzobispo_n_rel" ] ]. arzón_n1 := n_intr_count_le & [ STEM < "arzón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_arzón_n_rel" ] ]. arábigo_a1 := a_rel_prd_le & [ STEM < "arábigo" >, SYNSEM.LKEYS.KEYREL.PRED "_arábigo_a_rel" ]. arácnido_n1 := n_intr_count_le & [ STEM < "arácnido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_arácnido_n_rel" ] ]. arándano_n1 := n_intr_count_le & [ STEM < "arándano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_arándano_n_rel" ] ]. arénico_a1 := a_qual_intr_scopal_le & [ STEM < "arénico" >, SYNSEM.LKEYS.KEYREL.PRED "_arénico_a_rel" ]. aréola_n1 := n_intr_count_le & [ STEM < "aréola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aréola_n_rel" ] ]. aríbalo_n1 := n_intr_count_le & [ STEM < "aríbalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aríbalo_n_rel" ] ]. as_n1 := n_intr_count_le & [ STEM < "as" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_as_n_rel" ] ]. asa_n1 := n_intr_count_le & [ STEM < "asa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asa_n_rel" ] ]. asado_n1 := n_trans_le & [ STEM < "asado" >, SYNSEM.LKEYS.KEYREL.PRED "_asado_n_rel" ]. asador_n1 := n_intr_count_le & [ STEM < "asador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asador_n_rel" ] ]. asalariado_n1 := n_intr_count_le & [ STEM < "asalariado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asalariado_n_rel" ] ]. asalariar_v1 := v_trans_np_le & [ STEM < "asalariar" >, SYNSEM.LKEYS.KEYREL.PRED "_asalariar_v_rel" ]. asalmerar_v1 := v_trans_np_le & [ STEM < "asalmerar" >, SYNSEM.LKEYS.KEYREL.PRED "_asalmerar_v_rel" ]. asaltante_n1 := n_intr_count_le & [ STEM < "asaltante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asaltante_n_rel" ] ]. asaltar_v1 := v_trans_np_le & [ STEM < "asaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_asaltar_v_rel" ]. asalto_n1 := n_trans_le & [ STEM < "asalto" >, SYNSEM.LKEYS.KEYREL.PRED "_asalto_n_rel" ]. asamblea_n1 := n_intr_count_le & [ STEM < "asamblea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_asamblea_n_rel" ] ]. asambleario_a1 := a_rel_nonprd_intr_le & [ STEM < "asambleario" >, SYNSEM.LKEYS.KEYREL.PRED "_asambleario_a_rel" ]. asambleísta_n1 := n_intr_count_le & [ STEM < "asambleísta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asambleísta_n_rel" ] ]. asar_v1 := v_trans_np_caus_le & [ STEM < "asar" >, SYNSEM.LKEYS.KEYREL.PRED "_asar_v_rel" ]. asbesto_n1 := n_intr_mass_le & [ STEM < "asbesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asbesto_n_rel" ] ]. asbolana_n1 := n_intr_count_le & [ STEM < "asbolana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asbolana_n_rel" ] ]. ascaridol_n1 := n_intr_count_le & [ STEM < "ascaridol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ascaridol_n_rel" ] ]. ascendencia_n1 := n_intr_count_le & [ STEM < "ascendencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascendencia_n_rel" ] ]. ascendente_a1 := a_rel_prd_le & [ STEM < "ascendente" >, SYNSEM.LKEYS.KEYREL.PRED "_ascendente_a_rel" ]. ascender_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ascender" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ascender_v_rel" ] ] ]. ascender_v3 := v_trans_np_mrkd_np*_le & [ STEM < "ascender" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_ascender_v_rel" ] ]. ascender_v4 := v_unacc_lcomp_dir*_perf_le & [ STEM < "ascender" >, SYNSEM.LKEYS.KEYREL.PRED "_ascender_v_rel" ]. ascendiente_n1 := n_intr_count_le & [ STEM < "ascendiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ascendiente_n_rel" ] ]. ascensional_a1 := a_rel_nonprd_intr_le & [ STEM < "ascensional" >, SYNSEM.LKEYS.KEYREL.PRED "_ascensional_a_rel" ]. ascensión_n1 := n_event-result_intr_le & [ STEM < "ascensión" >, SYNSEM.LKEYS.KEYREL.PRED "_ascensión_n_rel" ]. ascenso_n1 := n_event-result_intr_le & [ STEM < "ascenso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascenso_n_rel" ] ]. ascensor_n1 := n_intr_count_le & [ STEM < "ascensor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ascensor_n_rel" ] ]. ascensorista_n1 := n_intr_count_le & [ STEM < "ascensorista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ascensorista_n_rel" ] ]. asceta_n1 := n_intr_count_le & [ STEM < "asceta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asceta_n_rel" ] ]. ascetismo_n1 := n_intr_uncount_le & [ STEM < "ascetismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascetismo_n_rel" ] ]. ascitis_n1 := n_intr_uncount_le & [ STEM < "ascitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascitis_n_rel" ] ]. asco_n1 := n_intr_mass_le & [ STEM < "asco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asco_n_rel" ] ]. ascomiceto_n1 := n_intr_count_le & [ STEM < "ascomiceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ascomiceto_n_rel" ] ]. ascorbato_n1 := n_intr_count_le & [ STEM < "ascorbato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_ascorbato_n_rel" ] ]. ascua_n1 := n_intr_count_le & [ STEM < "ascua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ascua_n_rel" ] ]. ascética_n1 := n_intr_uncount_le & [ STEM < "ascética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ascética_n_rel" ] ]. ascético_a1 := a_qual_intr_ser_le & [ STEM < "ascético" >, SYNSEM.LKEYS.KEYREL.PRED "_ascético_a_rel" ]. ascórbico_a1 := a_rel_nonprd_intr_le & [ STEM < "ascórbico" >, SYNSEM.LKEYS.KEYREL.PRED "_ascórbico_a_rel" ]. aseadamente_x1 := av_i_spr_le & [ STEM < "aseadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_aseadamente_x_rel" ]. asear_v1 := v_trans_np_caus_le & [ STEM < "asear" >, SYNSEM.LKEYS.KEYREL.PRED "_asear_v_rel" ]. asechanza_n1 := n_trans_le & [ STEM < "asechanza" >, SYNSEM.LKEYS.KEYREL.PRED "_asechanza_n_rel" ]. asediador_n1 := n_subj-nom_le & [ STEM < "asediador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asediador_n_rel" ] ]. asediante_a1 := a_qual_intr_scopal_le & [ STEM < "asediante" >, SYNSEM.LKEYS.KEYREL.PRED "_asediante_a_rel" ]. asediante_n1 := n_intr_count_le & [ STEM < "asediante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asediante_n_rel" ] ]. asediar_v1 := v_trans_np_le & [ STEM < "asediar" >, SYNSEM.LKEYS.KEYREL.PRED "_asediar_v_rel" ]. asedio_n1 := n_trans_le & [ STEM < "asedio" >, SYNSEM.LKEYS.KEYREL.PRED "_asedio_n_rel" ]. asegurabilidad_n1 := n_intr_uncount_le & [ STEM < "asegurabilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asegurabilidad_n_rel" ] ]. asegurable_a1 := a_rel_prd_le & [ STEM < "asegurable" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurable_a_rel" ]. asegurado_n1 := n_intr_count_le & [ STEM < "asegurado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asegurado_n_rel" ] ]. asegurador_a1 := a_rel_nonprd_intr_le & [ STEM < "asegurador" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurador_a_rel" ]. asegurador_n1 := n_subj-nom_le & [ STEM < "asegurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asegurador_n_rel" ] ]. aseguramiento_n1 := n_trans_le & [ STEM < "aseguramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aseguramiento_n_rel" ]. asegurar_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asegurar_v_rel" ] ]. asegurar_v2 := v_ditrans_cp_semi_ques_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurar_v_rel" ]. asegurar_v3 := v_ditrans*_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asegurar_v_rel" ] ]. asegurar_v4 := v_pron_intr_mrkd_np*_le & [ STEM < "asegurar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asegurar_v_rel" ] ] ]. asegurar_v5 := v_pron_intr_mrkd_or_unmrkd_cp_prop_fin_le & [ STEM < "asegurar" >, SYNSEM.LKEYS [ --COMPKEY de_sel_or_indp_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asegurar_v_rel" ] ] ]. asegurar_v6 := v_trans_np_lcomp_loc_le & [ STEM < "asegurar" >, SYNSEM.LKEYS.KEYREL.PRED "_asegurar_v_rel" ]. asemejar_v1 := v_trans_np_mrkd_np*_caus_le & [ SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_asemejar_v_rel" ] ]. asentador_n1 := n_intr_count_le & [ STEM < "asentador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asentador_n_rel" ] ]. asentamiento_n1 := n_trans_le & [ STEM < "asentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asentamiento_n_rel" ]. asentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "asentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asentar_v_rel" ] ] ]. asentar_v2 := v_pron_unacc_lcomp_loc*_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL.PRED "_asentar_v_rel" ]. asentar_v3 := v_trans_cp_prop_fin_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_asentar_v_rel" ] ]. asentar_v4 := v_trans_np_caus_le & [ STEM < "asentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_asentar_v_rel" ] ]. asentimiento_n1 := n_trans_le & [ STEM < "asentimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asentimiento_n_rel" ]. asentir_v1 := v_intr_mrkd_np*_le & [ STEM < "asentir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT abs_pro, PRED "_asentir_v_rel" ] ] ]. aseo_n1 := n_intr_mass-or-count_le & [ STEM < "aseo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aseo_n_rel" ] ]. asequibilidad_n1 := n_intr_uncount_le & [ STEM < "asequibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asequibilidad_n_rel" ] ]. asequible_a1 := a_qual_intr_scopal_le & [ STEM < "asequible" >, SYNSEM.LKEYS.KEYREL.PRED "_asequible_a_rel" ]. aserción_n1 := n_trans_le & [ STEM < "aserción" >, SYNSEM.LKEYS.KEYREL.PRED "_aserción_n_rel" ]. aserradero_n1 := n_intr_count_le & [ STEM < "aserradero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aserradero_n_rel" ] ]. aserradizo_a1 := a_rel_prd_le & [ STEM < "aserradizo" >, SYNSEM.LKEYS.KEYREL.PRED "_aserradizo_a_rel" ]. aserrado_n1 := n_trans_le & [ STEM < "aserrado" >, SYNSEM.LKEYS.KEYREL.PRED "_aserrado_n_rel" ]. aserradora_n1 := n_intr_count_le & [ STEM < "aserradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aserradora_n_rel" ] ]. aserradura_n1 := n_intr_count_le & [ STEM < "aserradura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aserradura_n_rel" ] ]. asertar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "asertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asertar_v_rel" ] ]. asertar_v2 := v_trans_np_le & [ STEM < "asertar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_asertar_v_rel" ] ]. asertivo_a1 := a_rel_prd_le & [ STEM < "asertivo" >, SYNSEM.LKEYS.KEYREL.PRED "_asertivo_a_rel" ]. aserto_n1 := n_intr_count_le & [ STEM < "aserto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aserto_n_rel" ] ]. asertórico_a1 := a_rel_nonprd_intr_le & [ STEM < "asertórico" >, SYNSEM.LKEYS.KEYREL.PRED "_asertórico_a_rel" ]. asesinar_v1 := v_trans_np_le & [ STEM < "asesinar" >, SYNSEM.LKEYS.KEYREL.PRED "_asesinar_v_rel" ]. asesinato_n1 := n_trans_le & [ STEM < "asesinato" >, SYNSEM.LKEYS.KEYREL.PRED "_asesinato_n_rel" ]. asesino_a1 := a_rel_nonprd_intr_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL.PRED "_asesino_a_rel" ]. asesino_a2 := a_qual_intr_ser_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL.PRED "_asesino_a_rel" ]. asesino_n1 := n_intr_count_le & [ STEM < "asesino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asesino_n_rel" ] ]. asesor_a1 := a_qual_intr_ser_le & [ STEM < "asesor" >, SYNSEM.LKEYS.KEYREL.PRED "_asesor_a_rel" ]. asesor_n1 := n_subj-nom_le & [ STEM < "asesor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asesor_n_rel" ] ]. asesoramiento_n1 := n_trans_le & [ STEM < "asesoramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_asesoramiento_n_rel" ]. asesorar_v1 := v_trans_np_le & [ STEM < "asesorar" >, SYNSEM.LKEYS.KEYREL.PRED "_asesorar_v_rel" ]. asesoría_n1 := n_intr_count_le & [ STEM < "asesoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asesoría_n_rel" ] ]. asestar_v1 := v_ditrans*_le & [ STEM < "asestar" >, SYNSEM.LKEYS.KEYREL.PRED "_asestar_v_rel" ]. asestar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "asestar" >, SYNSEM.LKEYS.KEYREL.PRED "_asestar_v_rel" ]. asestar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "asestar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_asestar_v_rel" ] ] ]. aseveración_n1 := n_trans_le & [ STEM < "aseveración" >, SYNSEM.LKEYS.KEYREL.PRED "_aseveración_n_rel" ]. aseverar_v1 := v_trans_np_le & [ STEM < "aseverar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, ARG2.SORT abs_cnc, PRED "_aseverar_v_rel" ] ]. aseverar_v2 := v_trans_cp_prop_fin_ind_le & [ STEM < "aseverar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_soc, PRED "_aseverar_v_rel" ] ]. aseverativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aseverativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aseverativo_a_rel" ]. asexuado_a1 := a_rel_prd_le & [ STEM < "asexuado" >, SYNSEM.LKEYS.KEYREL.PRED "_asexuado_a_rel" ]. asexual_a1 := a_rel_prd_le & [ STEM < "asexual" >, SYNSEM.LKEYS.KEYREL.PRED "_asexual_a_rel" ]. asfaltado_n1 := n_trans_le & [ STEM < "asfaltado" >, SYNSEM.LKEYS.KEYREL.PRED "_asfaltado_n_rel" ]. asfaltar_v1 := v_trans_np_le & [ STEM < "asfaltar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfaltar_v_rel" ]. asfalteno_n1 := n_intr_mass-or-count_le & [ STEM < "asfalteno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_asfalteno_n_rel" ] ]. asfaltita_n1 := n_intr_count_le & [ STEM < "asfaltita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_asfaltita_n_rel" ] ]. asfalto_n1 := n_intr_mass-or-count_le & [ STEM < "asfalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_asfalto_n_rel" ] ]. asfixia_n1 := n_intr_uncount_pl_le & [ STEM < "asfixia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asfixia_n_rel" ] ]. asfixiante_a1 := a_qual_intr_scopal_le & [ STEM < "asfixiante" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiante_a_rel" ]. asfixiantemente_x1 := av_i_spr_le & [ STEM < "asfixiantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiantemente_x_rel" ]. asfixiar_v1 := v_intr_io*_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfixiar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfixiar_v3 := v_trans_np_caus_le & [ STEM < "asfixiar" >, SYNSEM.LKEYS.KEYREL.PRED "_asfixiar_v_rel" ]. asfáltico_a1 := a_rel_nonprd_intr_le & [ STEM < "asfáltico" >, SYNSEM.LKEYS.KEYREL.PRED "_asfáltico_a_rel" ]. asféricamente_x1 := av_i_spr_le & [ STEM < "asféricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asféricamente_x_rel" ]. asialia_n1 := n_intr_uncount_le & [ STEM < "asialia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asialia_n_rel" ] ]. asibilación_n1 := n_trans_le & [ STEM < "asibilación" >, SYNSEM.LKEYS.KEYREL.PRED "_asibilación_n_rel" ]. asible_a1 := a_rel_prd_le & [ STEM < "asible" >, SYNSEM.LKEYS.KEYREL.PRED "_asible_a_rel" ]. asidero_n1 := n_intr_count_le & [ STEM < "asidero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asidero_n_rel" ] ]. asiduamente_x1 := av_i_spr_le & [ STEM < "asiduamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduamente_x_rel" ]. asiduidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "asiduidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asiduidad_n_rel" ] ]. asiduo_a1 := a_adv_event_le & [ STEM < "asiduo" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduo_a_rel" ]. asiduo_a2 := a_qual_intr_scopal_le & [ STEM < "asiduo" >, SYNSEM.LKEYS.KEYREL.PRED "_asiduo_a_rel" ]. asiento_n1 := n_intr_count_le & [ STEM < "asiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asiento_n_rel" ] ]. asignable_a1 := a_rel_nonprd_trans_le & [ STEM < "asignable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_asignable_a_rel" ] ]. asignación_n1 := n_trans_le & [ STEM < "asignación" >, SYNSEM.LKEYS.KEYREL.PRED "_asignación_n_rel" ]. asignador_n1 := n_subj-nom_le & [ STEM < "asignador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asignador_n_rel" ] ]. asignar_v1 := v_ditrans*_le & [ STEM < "asignar" >, SYNSEM.LKEYS.KEYREL.PRED "_asignar_v_rel" ]. asignar_v2 := v_subj_cp_prop_ditrans*_le & [ STEM < "asignar" >, SYNSEM.LKEYS.KEYREL.PRED "_asignar_v_rel" ]. asignar_v3 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "asignar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_asignar_v_rel" ] ] ]. asignatario_n1 := n_intr_count_le & [ STEM < "asignatario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asignatario_n_rel" ] ]. asignatura_n1 := n_intr_count_le & [ STEM < "asignatura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asignatura_n_rel" ] ]. asilado_n1 := n_intr_count_le & [ STEM < "asilado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asilado_n_rel" ] ]. asilo_n1 := n_intr_count_le & [ STEM < "asilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_loc, PRED "_asilo_n_rel" ] ]. asilábico_a1 := a_rel_nonprd_intr_le & [ STEM < "asilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_asilábico_a_rel" ]. asimetría_n1 := n_intr_count_le & [ STEM < "asimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asimetría_n_rel" ] ]. asimilable_a1 := a_qual_trans*_ser_le & [ STEM < "asimilable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_asimilable_a_rel" ] ]. asimilación_n1 := n_trans_le & [ STEM < "asimilación" >, SYNSEM.LKEYS.KEYREL.PRED "_asimilación_n_rel" ]. asimilar_v1 := v_trans_cp_prop_fin_le & [ STEM < "asimilar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asimilar_v_rel" ] ]. asimilar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "asimilar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_asimilar_v_rel" ] ]. asimismo_x1 := av_i_foc_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimismo_x2 := av_s_cp_prop_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimismo_x3 := av_i_np-foc_le & [ STEM < "asimismo" >, SYNSEM.LKEYS.KEYREL.PRED "_asimismo_x_rel" ]. asimétricamente_x1 := av_i_spr_le & [ STEM < "asimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asimétricamente_x_rel" ]. asimétrico_a1 := a_qual_intr_ser_le & [ STEM < "asimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_asimétrico_a_rel" ]. asincronismo_n1 := n_intr_uncount_le & [ STEM < "asincronismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asincronismo_n_rel" ] ]. asincrónicamente_x1 := av_i_spr_le & [ STEM < "asincrónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asincrónicamente_x_rel" ]. asincrónico_a1 := a_rel_prd_le & [ STEM < "asincrónico" >, SYNSEM.LKEYS.KEYREL.PRED "_asincrónico_a_rel" ]. asindético_a1 := a_rel_nonprd_intr_le & [ STEM < "asindético" >, SYNSEM.LKEYS.KEYREL.PRED "_asindético_a_rel" ]. asintóticamente_x1 := av_i_spr_le & [ STEM < "asintóticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asintóticamente_x_rel" ]. asintótico_a1 := a_rel_nonprd_intr_le & [ STEM < "asintótico" >, SYNSEM.LKEYS.KEYREL.PRED "_asintótico_a_rel" ]. asirio_a1 := a_rel_prd_le & [ STEM < "asirio" >, SYNSEM.LKEYS.KEYREL.PRED "_asirio_a_rel" ]. asirio_n1 := n_intr_count_le & [ STEM < "asirio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asirio_n_rel" ] ]. asistencia_n1 := n_intr_uncount_pl_le & [ STEM < "asistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asistencia_n_rel" ] ]. asistencia_n2 := n_intr_count_le & [ STEM < "asistencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asistencia_n_rel" ] ]. asistencial_a1 := a_rel_nonprd_intr_le & [ STEM < "asistencial" >, SYNSEM.LKEYS.KEYREL.PRED "_asistencial_a_rel" ]. asistenta_n1 := n_ppcomp_count_le & [ STEM < "asistenta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asistenta_n_rel" ] ]. asistente_n1 := n_ppcomp_count_le & [ STEM < "asistente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asistente_n_rel" ] ]. asistir_v1 := v_intr_mrkd_np*_le & [ STEM < "asistir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT loc, PRED "_asistir_v_rel" ] ] ]. asistir_v2 := v_trans_np_le & [ STEM < "asistir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum, PRED "_asistir_v_rel" ] ]. asistir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "asistir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_asistir_v_rel" ] ] ]. asiático_a1 := a_rel_prd_le & [ STEM < "asiático" >, SYNSEM.LKEYS.KEYREL.PRED "_asiático_a_rel" ]. asiático_n1 := n_intr_count_le & [ STEM < "asiático" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asiático_n_rel" ] ]. asma_n1 := n_intr_uncount_le & [ STEM < "asma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asma_n_rel" ] ]. asmático_a1 := a_qual_intr_ser_le & [ STEM < "asmático" >, SYNSEM.LKEYS.KEYREL.PRED "_asmático_a_rel" ]. asno_n1 := n_intr_count_le & [ STEM < "asno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_asno_n_rel" ] ]. asociable_a1 := a_rel_prd_le & [ STEM < "asociable" >, SYNSEM.LKEYS.KEYREL.PRED "_asociable_a_rel" ]. asociacionismo_n1 := n_intr_uncount_le & [ STEM < "asociacionismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asociacionismo_n_rel" ] ]. asociación_n1 := n_trans_le & [ STEM < "asociación" >, SYNSEM.LKEYS.KEYREL.PRED "_asociación_n_rel" ]. asociado_n1 := n_intr_count_le & [ STEM < "asociado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asociado_n_rel" ] ]. asocial_a1 := a_rel_prd_le & [ STEM < "asocial" >, SYNSEM.LKEYS.KEYREL.PRED "_asocial_a_rel" ]. asociar_v1 := v_trans_np_mrkd_np_sym_le & [ STEM < "asociar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_asociar_v_rel" ] ]. asociatividad_n1 := n_intr_uncount_le & [ STEM < "asociatividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asociatividad_n_rel" ] ]. asociativo_a1 := a_rel_prd_le & [ STEM < "asociativo" >, SYNSEM.LKEYS.KEYREL.PRED "_asociativo_a_rel" ]. asolar_v1 := v_trans_np_le & [ STEM < "asolar" >, SYNSEM.LKEYS.KEYREL.PRED "_asolar_v_rel" ]. asomar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asomar_v_rel" ] ] ]. asomar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --COMPKEY a_or_por_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asomar_v_rel" ] ] ]. asomar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "asomar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_por_p_sel_rel, KEYREL [ ARG2.SORT bpart_cnc, PRED "_asomar_v_rel" ] ] ]. asombrar_v1 := v_intr_io*_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_asombrar_v_rel" ] ]. asombrar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "asombrar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asombrar_v_rel" ] ] ]. asombrar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "asombrar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_asombrar_v_rel" ] ] ]. asombrar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrar_v_rel" ]. asombrar_v5 := v_trans_np_le & [ STEM < "asombrar" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrar_v_rel" ]. asombro_n1 := n_trans_le & [ STEM < "asombro" >, SYNSEM.LKEYS.KEYREL.PRED "_asombro_n_rel" ]. asombrosamente_x1 := av_s_spr_le & [ STEM < "asombrosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asombrosamente_x_rel" ]. asombroso_a1 := a_qual_intr_scopal_le & [ STEM < "asombroso" >, SYNSEM.LKEYS.KEYREL.PRED "_asombroso_a_rel" ]. asomo_n1 := n_trans_le & [ STEM < "asomo" >, SYNSEM.LKEYS.KEYREL.PRED "_asomo_n_rel" ]. asonada_n1 := n_intr_count_le & [ STEM < "asonada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asonada_n_rel" ] ]. asonancia_n1 := n_result_intr_le & [ STEM < "asonancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asonancia_n_rel" ] ]. asonante_a1 := a_rel_nonprd_intr_le & [ STEM < "asonante" >, SYNSEM.LKEYS.KEYREL.PRED "_asonante_a_rel" ]. asonantemente_x1 := av_i_spr_le & [ STEM < "asonantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_asonantemente_x_rel" ]. aspa_n1 := n_intr_count_le & [ STEM < "aspa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspa_n_rel" ] ]. aspaviento_n1 := n_trans_le & [ STEM < "aspaviento" >, SYNSEM.LKEYS.KEYREL.PRED "_aspaviento_n_rel" ]. aspecto_n1 := n_intr_count_le & [ STEM < "aspecto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspecto_n_rel" ] ]. aspectual_a1 := a_rel_nonprd_intr_le & [ STEM < "aspectual" >, SYNSEM.LKEYS.KEYREL.PRED "_aspectual_a_rel" ]. aspectualmente_x1 := av_i_spr_le & [ STEM < "aspectualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_aspectualmente_x_rel" ]. aspereza_n1 := n_ppcomp_mass-or-count_le & [ STEM < "aspereza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspereza_n_rel" ] ]. aspergilosis_n1 := n_intr_uncount_le & [ STEM < "aspergilosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aspergilosis_n_rel" ] ]. aspersión_n1 := n_trans_le & [ STEM < "aspersión" >, SYNSEM.LKEYS.KEYREL.PRED "_aspersión_n_rel" ]. aspillera_n1 := n_intr_count_le & [ STEM < "aspillera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_aspillera_n_rel" ] ]. aspiración_n1 := n_trans_le & [ STEM < "aspiración" >, SYNSEM.LKEYS.KEYREL.PRED "_aspiración_n_rel" ]. aspirador_n1 := n_intr_count_le & [ STEM < "aspirador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirador_n_rel" ] ]. aspiradora_n1 := n_intr_count_le & [ STEM < "aspiradora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_aspiradora_n_rel" ] ]. aspirante_a1 := a_qual_trans*_ser_le & [ STEM < "aspirante" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirante_a_rel" ] ]. aspirante_a2 := a_sctrl_ser_le & [ STEM < "aspirante" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirante_a_rel" ] ]. aspirante_n1 := n_intr_count_le & [ STEM < "aspirante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aspirante_n_rel" ] ]. aspirar_v1 := v_intr_mrkd_cp_prop_fin_le & [ STEM < "aspirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirar_v_rel" ] ]. aspirar_v2 := v_intr_mrkd_np_le & [ STEM < "aspirar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aspirar_v_rel" ] ]. aspirar_v3 := v_trans_np*_le & [ STEM < "aspirar" >, SYNSEM.LKEYS.KEYREL.PRED "_aspirar_v_rel" ]. aspirina_n1 := n_intr_mass_le & [ STEM < "aspirina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirina_n_rel" ] ]. aspirotermómetro_n1 := n_intr_count_le & [ STEM < "aspirotermómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aspirotermómetro_n_rel" ] ]. aspártico_a1 := a_rel_nonprd_intr_le & [ STEM < "aspártico" >, SYNSEM.LKEYS.KEYREL.PRED "_aspártico_a_rel" ]. asqueante_a1 := a_qual_intr_scopal_le & [ STEM < "asqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_asqueante_a_rel" ]. asquear_v1 := v_intr_io*_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL.PRED "_asquear_v_rel" ]. asquear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL.PRED "_asquear_v_rel" ]. asquear_v3 := v_trans_np_le & [ STEM < "asquear" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_asquear_v_rel" ] ]. asquerosamente_x1 := av_i_spr_le & [ STEM < "asquerosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asquerosamente_x_rel" ]. asquerosidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "asquerosidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asquerosidad_n_rel" ] ]. asqueroso_a1 := a_qual_intr_scopal_le & [ STEM < "asqueroso" >, SYNSEM.LKEYS.KEYREL.PRED "_asqueroso_a_rel" ]. asta_n1 := n_intr_count_le & [ STEM < "asta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asta_n_rel" ] ]. astado_a1 := a_rel_nonprd_intr_le & [ STEM < "astado" >, SYNSEM.LKEYS.KEYREL.PRED "_astado_a_rel" ]. astado_n1 := n_intr_count_le & [ STEM < "astado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_astado_n_rel" ] ]. astatino_n1 := n_intr_mass_le & [ STEM < "astatino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astatino_n_rel" ] ]. astato_n1 := n_intr_mass_le & [ STEM < "astato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astato_n_rel" ] ]. astenia_n1 := n_intr_uncount_le & [ STEM < "astenia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenia_n_rel" ] ]. astenopía_n1 := n_intr_uncount_le & [ STEM < "astenopía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenopía_n_rel" ] ]. astenosfera_n1 := n_intr_uncount_pl_le & [ STEM < "astenosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astenosfera_n_rel" ] ]. aster_n1 := n_intr_mass_le & [ STEM < "aster" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_aster_n_rel" ] ]. asterisco_n1 := n_intr_count_le & [ STEM < "asterisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asterisco_n_rel" ] ]. asterismo_n1 := n_intr_count_le & [ STEM < "asterismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asterismo_n_rel" ] ]. asteroide_n1 := n_intr_count_le & [ STEM < "asteroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_asteroide_n_rel" ] ]. astigmatismo_n1 := n_intr_uncount_le & [ STEM < "astigmatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astigmatismo_n_rel" ] ]. astigmático_a1 := a_rel_nonprd_intr_le & [ STEM < "astigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_astigmático_a_rel" ]. astigmático_a2 := a_qual_intr_ser_le & [ STEM < "astigmático" >, SYNSEM.LKEYS.KEYREL.PRED "_astigmático_a_rel" ]. astilla_n1 := n_intr_count_le & [ STEM < "astilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astilla_n_rel" ] ]. astilladora_n1 := n_intr_count_le & [ STEM < "astilladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astilladora_n_rel" ] ]. astillamiento_n1 := n_trans_le & [ STEM < "astillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_astillamiento_n_rel" ]. astillar_v1 := v_trans_np_caus_le & [ STEM < "astillar" >, SYNSEM.LKEYS.KEYREL.PRED "_astillar_v_rel" ]. astillero_n1 := n_intr_count_le & [ STEM < "astillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_astillero_n_rel" ] ]. astilloso_a1 := a_qual_intr_scopal_le & [ STEM < "astilloso" >, SYNSEM.LKEYS.KEYREL.PRED "_astilloso_a_rel" ]. astracán_n1 := n_intr_count_le & [ STEM < "astracán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_astracán_n_rel" ] ]. astral_a1 := a_rel_nonprd_intr_le & [ STEM < "astral" >, SYNSEM.LKEYS.KEYREL.PRED "_astral_a_rel" ]. astralmente_x1 := av_i_spr_le & [ STEM < "astralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_astralmente_x_rel" ]. astringente_a1 := a_qual_intr_scopal_le & [ STEM < "astringente" >, SYNSEM.LKEYS.KEYREL.PRED "_astringente_a_rel" ]. astro_n1 := n_intr_count_le & [ STEM < "astro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astro_n_rel" ] ]. astrocito_n1 := n_intr_count_le & [ STEM < "astrocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astrocito_n_rel" ] ]. astrofísica_n1 := n_intr_uncount_le & [ STEM < "astrofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrofísica_n_rel" ] ]. astrogeología_n1 := n_intr_uncount_le & [ STEM < "astrogeología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrogeología_n_rel" ] ]. astrografía_n1 := n_intr_uncount_le & [ STEM < "astrografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrografía_n_rel" ] ]. astroide_n1 := n_intr_count_le & [ STEM < "astroide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astroide_n_rel" ] ]. astrolabio_n1 := n_intr_count_le & [ STEM < "astrolabio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrolabio_n_rel" ] ]. astrología_n1 := n_intr_uncount_le & [ STEM < "astrología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrología_n_rel" ] ]. astrológico_a1 := a_rel_nonprd_intr_le & [ STEM < "astrológico" >, SYNSEM.LKEYS.KEYREL.PRED "_astrológico_a_rel" ]. astrometría_n1 := n_intr_uncount_le & [ STEM < "astrometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astrometría_n_rel" ] ]. astronauta_n1 := n_intr_count_le & [ STEM < "astronauta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astronauta_n_rel" ] ]. astronave_n1 := n_intr_count_le & [ STEM < "astronave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astronave_n_rel" ] ]. astronomía_n1 := n_intr_uncount_le & [ STEM < "astronomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astronomía_n_rel" ] ]. astronáutica_n1 := n_intr_uncount_le & [ STEM < "astronáutica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astronáutica_n_rel" ] ]. astronómicamente_x1 := av_i_spr_le & [ STEM < "astronómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astronómicamente_x_rel" ]. astronómico_a1 := a_rel_nonprd_intr_le & [ STEM < "astronómico" >, SYNSEM.LKEYS.KEYREL.PRED "_astronómico_a_rel" ]. astronónicamente_x1 := av_i_spr_le & [ STEM < "astronónicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astronónicamente_x_rel" ]. astrágalo_n1 := n_intr_count_le & [ STEM < "astrágalo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_astrágalo_n_rel" ] ]. astrólogo_n1 := n_intr_count_le & [ STEM < "astrólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astrólogo_n_rel" ] ]. astrónomo_n1 := n_intr_count_le & [ STEM < "astrónomo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_astrónomo_n_rel" ] ]. astucia_n1 := n_intr_mass_le & [ STEM < "astucia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_astucia_n_rel" ] ]. asturiano_a1 := a_rel_prd_le & [ STEM < "asturiano" >, SYNSEM.LKEYS.KEYREL.PRED "_asturiano_a_rel" ]. asturiano_n1 := n_intr_count_le & [ STEM < "asturiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_asturiano_n_rel" ] ]. astutamente_x1 := av_s_spr_le & [ STEM < "astutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astutamente_x_rel" ]. astutamente_x2 := av_i_psthd_spr_le & [ STEM < "astutamente" >, SYNSEM.LKEYS.KEYREL.PRED "_astutamente_x_rel" ]. astuto_a1 := a_qual_intr_ser_le & [ STEM < "astuto" >, SYNSEM.LKEYS.KEYREL.PRED "_astuto_a_rel" ]. astático_a1 := a_rel_nonprd_intr_le & [ STEM < "astático" >, SYNSEM.LKEYS.KEYREL.PRED "_astático_a_rel" ]. asténico_a1 := a_rel_nonprd_intr_le & [ STEM < "asténico" >, SYNSEM.LKEYS.KEYREL.PRED "_asténico_a_rel" ]. asueto_n1 := n_intr_count_le & [ STEM < "asueto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asueto_n_rel" ] ]. asumible_a1 := a_rel_prd_le & [ STEM < "asumible" >, SYNSEM.LKEYS.KEYREL.PRED "_asumible_a_rel" ]. asumir_v1 := v_trans_cp_prop_fin_le & [ STEM < "asumir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_asumir_v_rel" ] ]. asumir_v2 := v_trans_np_le & [ STEM < "asumir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_asumir_v_rel" ] ]. asunción_n1 := n_trans_le & [ STEM < "asunción" >, SYNSEM.LKEYS.KEYREL.PRED "_asunción_n_rel" ]. asunto_n1 := n_intr_count_le & [ STEM < "asunto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_asunto_n_rel" ] ]. asustadizamente_x1 := av_i_spr_le & [ STEM < "asustadizamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asustadizamente_x_rel" ]. asustadizo_a1 := a_qual_intr_ser_le & [ STEM < "asustadizo" >, SYNSEM.LKEYS.KEYREL.PRED "_asustadizo_a_rel" ]. asustar_v1 := v_intr_io*_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL.PRED "_asustar_v_rel" ]. asustar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "asustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asustar_v_rel" ] ] ]. asustar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "asustar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_asustar_v_rel" ] ] ]. asustar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL.PRED "_asustar_v_rel" ]. asustar_v5 := v_trans_np*_caus_le & [ STEM < "asustar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT ani_hum, PRED "_asustar_v_rel" ] ]. asépticamente_x1 := av_i_spr_le & [ STEM < "asépticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asépticamente_x_rel" ]. aséptico_a1 := a_qual_intr_ser_le & [ STEM < "aséptico" >, SYNSEM.LKEYS.KEYREL.PRED "_aséptico_a_rel" ]. así-como_cc := cc_corr_así-como_le & [ STEM < "así_como" > ]. así_como_también_x1 := av_i_le & [ STEM < "así_como_también" >, SYNSEM.LKEYS.KEYREL.PRED "_así_como_también_x_rel" ]. así_como_tampoco_x1 := av_i_le & [ STEM < "así_como_tampoco" >, SYNSEM.LKEYS.KEYREL.PRED "_así_como_tampoco_x_rel" ]. así_n1 := av_deic_manner_le & [ STEM < "así" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_así_x_rel" ]. así_pues_x1 := av_i_le & [ STEM < "así_pues" >, SYNSEM.LKEYS.KEYREL.PRED "_así_pues_x_rel" ]. así_y_todo_x1 := av_i_le & [ STEM < "así_y_todo" >, SYNSEM.LKEYS.KEYREL.PRED "_así_y_todo_x_rel" ]. asíncronamente_x1 := av_i_spr_le & [ STEM < "asíncronamente" >, SYNSEM.LKEYS.KEYREL.PRED "_asíncronamente_x_rel" ]. asíncrono_a1 := a_rel_nonprd_intr_le & [ STEM < "asíncrono" >, SYNSEM.LKEYS.KEYREL.PRED "_asíncrono_a_rel" ]. asíndeton_n1 := n_intr_count_le & [ STEM < "asíndeton" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asíndeton_n_rel" ] ]. asíntota_n1 := n_intr_count_le & [ STEM < "asíntota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_asíntota_n_rel" ] ]. atacable_a1 := a_rel_prd_le & [ STEM < "atacable" >, SYNSEM.LKEYS.KEYREL.PRED "_atacable_a_rel" ]. atacadera_n1 := n_intr_count_le & [ STEM < "atacadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atacadera_n_rel" ] ]. atacador_n1 := n_subj-nom_le & [ STEM < "atacador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atacador_n_rel" ] ]. atacamita_n1 := n_intr_count_le & [ STEM < "atacamita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atacamita_n_rel" ] ]. atacante_a1 := a_rel_nonprd_intr_le & [ STEM < "atacante" >, SYNSEM.LKEYS.KEYREL.PRED "_atacante_a_rel" ]. atacante_n1 := n_intr_count_le & [ STEM < "atacante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atacante_n_rel" ] ]. atacar_v1 := v_trans_np_le & [ STEM < "atacar" >, SYNSEM.LKEYS.KEYREL.PRED "_atacar_v_rel" ]. atado_n1 := n_intr_count_le & [ STEM < "atado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atado_n_rel" ] ]. atadora_n1 := n_intr_count_le & [ STEM < "atadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atadora_n_rel" ] ]. atadura_n1 := n_intr_count_le & [ STEM < "atadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_atadura_n_rel" ] ]. ataguía_n1 := n_intr_count_le & [ STEM < "ataguía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataguía_n_rel" ] ]. atajador_n1 := n_intr_count_le & [ STEM < "atajador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atajador_n_rel" ] ]. atajar_v := v_trans_np*_le & [ STEM < "atajar" >, SYNSEM.LKEYS.KEYREL.PRED "_atajar_v_rel" ]. atajo_n1 := n_intr_count_le & [ STEM < "atajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atajo_n_rel" ] ]. atalaya_n1 := n_intr_count_le & [ STEM < "atalaya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atalaya_n_rel" ] ]. atanasia_n1 := n_intr_count_le & [ STEM < "atanasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atanasia_n_rel" ] ]. ataque_n1 := n_result_intr_ppcomp_le & [ STEM < "ataque" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_ataque_n_rel" ] ]. atar_v1 := v_subj_cp_prop_ditrans*_le & [ STEM < "atar" >, SYNSEM.LKEYS.KEYREL.PRED "_atar_v_rel" ]. atar_v2 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "atar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_atar_v_rel" ] ] ]. atar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "atar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_atar_v_rel" ] ]. ataraxia_n1 := n_intr_uncount_le & [ STEM < "ataraxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataraxia_n_rel" ] ]. atardecer_n1 := n_intr_count_le & [ STEM < "atardecer" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT tmp, PRED "_atardecer_n_rel" ] ]. atardecer_v := v_impers_strict_intr_le & [ STEM < "atardecer" >, SYNSEM.LKEYS.KEYREL.PRED "_atardecer_v_rel" ]. atascamiento_n1 := n_trans_le & [ STEM < "atascamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atascamiento_n_rel" ]. atascar_v := v_trans_np_caus_le & [ STEM < "atascar" >, SYNSEM.LKEYS.KEYREL.PRED "_atascar_v_rel" ]. atasco_n1 := n_trans_le & [ STEM < "atasco" >, SYNSEM.LKEYS.KEYREL.PRED "_atasco_n_rel" ]. ataviar_v1 := v_trans_np_caus_le & [ STEM < "ataviar" >, SYNSEM.LKEYS.KEYREL.PRED "_ataviar_v_rel" ]. atavismo_n1 := n_intr_uncount_le & [ STEM < "atavismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atavismo_n_rel" ] ]. atavío_n1 := n_trans_le & [ STEM < "atavío" >, SYNSEM.LKEYS.KEYREL.PRED "_atavío_n_rel" ]. ataxia_n1 := n_intr_uncount_le & [ STEM < "ataxia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ataxia_n_rel" ] ]. ataãâ±er_v1 := v_intr_io*_le & [ STEM < "atañer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_atañer_v_rel" ] ]. ataãâ±er_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "atañer" >, SYNSEM.LKEYS.KEYREL.PRED "_atañer_v_rel" ]. ataúd_n1 := n_intr_count_le & [ STEM < "ataúd" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ataúd_n_rel" ] ]. atemorizar_v1 := v_intr_io*_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_atemorizar_v_rel" ] ]. atemorizar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atemorizar_v_rel" ]. atemorizar_v3 := v_trans_np_le & [ STEM < "atemorizar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_atemorizar_v_rel" ] ]. atemperador_n1 := n_intr_count_le & [ STEM < "atemperador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atemperador_n_rel" ] ]. atemperar_v := v_trans_np_le & [ STEM < "atemperar" >, SYNSEM.LKEYS.KEYREL.PRED "_atemperar_v_rel" ]. atenazar_v := v_trans_np_le & [ STEM < "atenazar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum, ARG2.SORT abs_hum, PRED "_atenazar_v_rel" ] ]. atención_n1 := n_trans_le & [ STEM < "atención" >, SYNSEM.LKEYS.KEYREL.PRED "_atención_n_rel" ]. atender_v1 := v_intr_io*_le & [ STEM < "atender" >, SYNSEM.LKEYS.KEYREL.PRED "_atender_v_rel" ]. atender_v2 := v_trans_np_le & [ STEM < "atender" >, SYNSEM.LKEYS.KEYREL.PRED "_atender_v_rel" ]. atendible_a1 := a_rel_prd_le & [ STEM < "atendible" >, SYNSEM.LKEYS.KEYREL.PRED "_atendible_a_rel" ]. ateneo_n1 := n_intr_mass-or-count_le & [ STEM < "ateneo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_ateneo_n_rel" ] ]. atener_v := v_pron_intr_mrkd_np_le & [ STEM < "atener" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atener_v_rel" ] ]. ateniense_a1 := a_rel_prd_le & [ STEM < "ateniense" >, SYNSEM.LKEYS.KEYREL.PRED "_ateniense_a_rel" ]. ateniense_n1 := n_intr_count_le & [ STEM < "ateniense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ateniense_n_rel" ] ]. atenolol_n1 := n_intr_count_le & [ STEM < "atenolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atenolol_n_rel" ] ]. atentado_n1 := n_result_intr_ppcomp_le & [ STEM < "atentado" >, SYNSEM.LKEYS [ --OCOMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentado_n_rel" ] ]. atentamente_x1 := av_i_spr_le & [ STEM < "atentamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atentamente_x_rel" ]. atentar_v1 := v_intr_mrkd_np_le & [ STEM < "atentar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentar_v_rel" ] ]. atentar_v2 := v_subj_cp_prop_intr_mrkd_np_le & [ STEM < "atentar" >, SYNSEM.LKEYS [ --COMPKEY _contra_p_sel_rel, KEYREL.PRED "_atentar_v_rel" ] ]. atento_a1 := a_qual_trans*_ser_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a2 := a_qual_trans*_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a3 := a_qual_cp_prop_fin_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atento_a4 := a_qual_cp_ques_estar_le & [ STEM < "atento" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atento_a_rel" ] ]. atenuación_n1 := n_trans_le & [ STEM < "atenuación" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuación_n_rel" ]. atenuador_a1 := a_qual_intr_ser_le & [ STEM < "atenuador" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuador_a_rel" ]. atenuador_n1 := n_intr_count_le & [ STEM < "atenuador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atenuador_n_rel" ] ]. atenuante_a1 := a_qual_intr_scopal_le & [ STEM < "atenuante" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuante_a_rel" ]. atenuante_n1 := n_intr_count_le & [ STEM < "atenuante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atenuante_n_rel" ] ]. atenuar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "atenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuar_v_rel" ]. atenuar_v2 := v_trans_np_caus_le & [ STEM < "atenuar" >, SYNSEM.LKEYS.KEYREL.PRED "_atenuar_v_rel" ]. ateo_n1 := n_intr_count_le & [ STEM < "ateo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ateo_n_rel" ] ]. aterciopelado_a1 := a_qual_intr_scopal_le & [ STEM < "aterciopelado" >, SYNSEM.LKEYS.KEYREL.PRED "_aterciopelado_a_rel" ]. ateridamente_x1 := av_i_spr_le & [ STEM < "ateridamente" >, SYNSEM.LKEYS.KEYREL.PRED "_ateridamente_x_rel" ]. aterotrombótico_a1 := a_rel_nonprd_intr_le & [ STEM < "aterotrombótico" >, SYNSEM.LKEYS.KEYREL.PRED "_aterotrombótico_a_rel" ]. aterrador_a1 := a_qual_intr_scopal_le & [ STEM < "aterrador" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrador_a_rel" ]. aterradormente_x1 := av_i_spr_le & [ STEM < "aterradormente" >, SYNSEM.LKEYS.KEYREL.PRED "_aterradormente_x_rel" ]. aterramiento_n1 := n_trans_le & [ STEM < "aterramiento" >, SYNSEM.LKEYS.KEYREL.PRED "_aterramiento_n_rel" ]. aterrar_v1 := v_intr_io*_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrar_v_rel" ]. aterrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrar_v_rel" ]. aterrar_v3 := v_trans_np_le & [ STEM < "aterrar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aterrar_v_rel" ] ]. aterrizaje_n1 := n_event-result_intr_le & [ STEM < "aterrizaje" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrizaje_n_rel" ]. aterrizar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aterrizar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrizar_v_rel" ] ] ]. aterrizar_v2 := v_unacc_lcomp_loc*_perf_le & [ STEM < "aterrizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrizar_v_rel" ]. aterrorizar_v1 := v_intr_io*_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrorizar_v_rel" ]. aterrorizar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrorizar_v_rel" ] ] ]. aterrorizar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aterrorizar_v_rel" ] ] ]. aterrorizar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aterrorizar" >, SYNSEM.LKEYS.KEYREL.PRED "_aterrorizar_v_rel" ]. atesoramiento_n1 := n_intr_uncount_le & [ STEM < "atesoramiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atesoramiento_n_rel" ] ]. atesorar_v := v_trans_np_le & [ STEM < "atesorar" >, SYNSEM.LKEYS.KEYREL.PRED "_atesorar_v_rel" ]. atestación_n1 := n_intr_count_le & [ STEM < "atestación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atestación_n_rel" ] ]. atestado_n1 := n_intr_count_le & [ STEM < "atestado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_atestado_n_rel" ] ]. atestar_v1 := v_intr_le & [ STEM < "atestar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestar_v_rel" ]. atestar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "atestar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_atestar_v_rel" ] ]. atestiguación_n1 := n_trans_le & [ STEM < "atestiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguación_n_rel" ]. atestiguar_v1 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguar_v_rel" ]. atestiguar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_atestiguar_v_rel" ]. atestiguar_v3 := v_trans_cp_prop_fin_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_atestiguar_v_rel" ] ]. atestiguar_v4 := v_trans_np*_le & [ STEM < "atestiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_atestiguar_v_rel" ] ]. atetosis_n1 := n_intr_uncount_le & [ STEM < "atetosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atetosis_n_rel" ] ]. ateísmo_n1 := n_intr_uncount_le & [ STEM < "ateísmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ateísmo_n_rel" ] ]. ateísta_a1 := a_qual_intr_ser_le & [ STEM < "ateísta" >, SYNSEM.LKEYS.KEYREL.PRED "_ateísta_a_rel" ]. atiborrar_v := v_trans_np_mrkd_np*_caus_le & [ STEM < "atiborrar" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_atiborrar_v_rel" ] ]. aticitis_n1 := n_intr_uncount_le & [ STEM < "aticitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticitis_n_rel" ] ]. aticoantrotomía_n1 := n_intr_count_le & [ STEM < "aticoantrotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticoantrotomía_n_rel" ] ]. aticotomía_n1 := n_intr_count_le & [ STEM < "aticotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aticotomía_n_rel" ] ]. atigrado_a1 := a_qual_intr_ser_le & [ STEM < "atigrado" >, SYNSEM.LKEYS.KEYREL.PRED "_atigrado_a_rel" ]. atinar_v1 := v_intr_mrkd_cp_prop_inf_le & [ STEM < "atinar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atinar_v_rel" ] ]. atinar_v2 := v_intr_mrkd_np_le & [ STEM < "atinar" >, SYNSEM.LKEYS [ --COMPKEY a_or_con_p_sel_rel, KEYREL.PRED "_atinar_v_rel" ] ]. atinar_v3 := v_trans_np*_le & [ STEM < "atinar" >, SYNSEM.LKEYS.KEYREL.PRED "_atinar_v_rel" ]. atipicidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "atipicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atipicidad_n_rel" ] ]. atirantar_v := v_trans_np_le & [ STEM < "atirantar" >, SYNSEM.LKEYS.KEYREL.PRED "_atirantar_v_rel" ]. atisbar_v := v_trans_np_le & [ STEM < "atisbar" >, SYNSEM.LKEYS.KEYREL.PRED "_atisbar_v_rel" ]. atisbo_n1 := n_trans_le & [ STEM < "atisbo" >, SYNSEM.LKEYS.KEYREL.PRED "_atisbo_n_rel" ]. atizador_n1 := n_intr_count_le & [ STEM < "atizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atizador_n_rel" ] ]. atizar_v := v_trans_np_le & [ STEM < "atizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atizar_v_rel" ]. atlantoaxial_a1 := a_rel_nonprd_intr_le & [ STEM < "atlantoaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_atlantoaxial_a_rel" ]. atlantooccipital_a1 := a_rel_nonprd_intr_le & [ STEM < "atlantooccipital" >, SYNSEM.LKEYS.KEYREL.PRED "_atlantooccipital_a_rel" ]. atlas_n1 := n_intr_count_le & [ STEM < "atlas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atlas_n_rel" ] ]. atleta_n1 := n_intr_count_le & [ STEM < "atleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atleta_n_rel" ] ]. atletismo_n1 := n_intr_uncount_le & [ STEM < "atletismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atletismo_n_rel" ] ]. atlántico_a1 := a_rel_nonprd_intr_le & [ STEM < "atlántico" >, SYNSEM.LKEYS.KEYREL.PRED "_atlántico_a_rel" ]. atléticamente_x1 := av_i_spr_le & [ STEM < "atléticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atléticamente_x_rel" ]. atlético_a1 := a_qual_intr_ser_le & [ STEM < "atlético" >, SYNSEM.LKEYS.KEYREL.PRED "_atlético_a_rel" ]. atmosférico_a1 := a_rel_nonprd_intr_le & [ STEM < "atmosférico" >, SYNSEM.LKEYS.KEYREL.PRED "_atmosférico_a_rel" ]. atmólisis_n1 := n_intr_uncount_le & [ STEM < "atmólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atmólisis_n_rel" ] ]. atmósfera_n := n_intr_count_le & [ STEM < "atmósfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_unit, PRED "_atmósfera_n_rel" ] ]. atolladero_n1 := n_intr_count_le & [ STEM < "atolladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_atolladero_n_rel" ] ]. atolondradamente_x1 := av_i_spr_le & [ STEM < "atolondradamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondradamente_x_rel" ]. atolondrar_v1 := v_intr_io*_le & [ STEM < "atolondrar" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondrar_v_rel" ]. atolondrar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atolondrar" >, SYNSEM.LKEYS.KEYREL.PRED "_atolondrar_v_rel" ]. atolón_n1 := n_intr_count_le & [ STEM < "atolón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_atolón_n_rel" ] ]. atomicidad_n1 := n_intr_uncount_le & [ STEM < "atomicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atomicidad_n_rel" ] ]. atomismo_n1 := n_intr_uncount_le & [ STEM < "atomismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atomismo_n_rel" ] ]. atomista_n1 := n_intr_count_le & [ STEM < "atomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atomista_n_rel" ] ]. atomización_n1 := n_trans_le & [ STEM < "atomización" >, SYNSEM.LKEYS.KEYREL.PRED "_atomización_n_rel" ]. atomizador_n1 := n_intr_count_le & [ STEM < "atomizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atomizador_n_rel" ] ]. atomizar_v := v_trans_np_caus_le & [ STEM < "atomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_atomizar_v_rel" ]. atomístico_a1 := a_rel_nonprd_intr_le & [ STEM < "atomístico" >, SYNSEM.LKEYS.KEYREL.PRED "_atomístico_a_rel" ]. atonal_a1 := a_rel_nonprd_intr_le & [ STEM < "atonal" >, SYNSEM.LKEYS.KEYREL.PRED "_atonal_a_rel" ]. atonalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "atonalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonalidad_n_rel" ] ]. atonalmente_x1 := av_i_spr_le & [ STEM < "atonalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_atonalmente_x_rel" ]. atonicidad_n1 := n_intr_uncount_le & [ STEM < "atonicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonicidad_n_rel" ] ]. atontamiento_n1 := n_trans_le & [ STEM < "atontamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atontamiento_n_rel" ]. atontar_v1 := v_intr_io*_le & [ STEM < "atontar" >, SYNSEM.LKEYS.KEYREL.PRED "_atontar_v_rel" ]. atontar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atontar" >, SYNSEM.LKEYS.KEYREL.PRED "_atontar_v_rel" ]. atonía_n1 := n_intr_uncount_pl_le & [ STEM < "atonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atonía_n_rel" ] ]. atopia_n1 := n_intr_uncount_le & [ STEM < "atopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atopia_n_rel" ] ]. atormentador_a1 := a_qual_intr_scopal_le & [ STEM < "atormentador" >, SYNSEM.LKEYS.KEYREL.PRED "_atormentador_a_rel" ]. atormentar_v1 := v_intr_io*_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT non-hum, PRED "_atormentar_v_rel" ] ]. atormentar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL.PRED "_atormentar_v_rel" ]. atormetar_v3 := v_trans_np_caus_le & [ STEM < "atormentar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT hum, PRED "_atormentar_v_rel" ] ]. atornillador_n1 := n_intr_count_le & [ STEM < "atornillador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atornillador_n_rel" ] ]. atornillamiento_n1 := n_trans_le & [ STEM < "atornillamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_atornillamiento_n_rel" ]. atornillar_v := v_trans_np_le & [ STEM < "atornillar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_atornillar_v_rel" ] ]. atracada_n1 := n_event-result_intr_le & [ STEM < "atracada" >, SYNSEM.LKEYS.KEYREL.PRED "_atracada_n_rel" ]. atracada_n2 := n_trans_le & [ STEM < "atracada" >, SYNSEM.LKEYS.KEYREL.PRED "_atracada_n_rel" ]. atracadero_n1 := n_intr_count_le & [ STEM < "atracadero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atracadero_n_rel" ] ]. atracador_n1 := n_subj-nom_le & [ STEM < "atracador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atracador_n_rel" ] ]. atracar_v1 := v_pron_trans_np_le & [ STEM < "atracar" >, SYNSEM.LKEYS [ KEYREL [ ARG2.SORT cnc_hum_loc_pot_soc, PRED "_atracar_v_rel" ] ] ]. atracar_v2 := v_intr_mrkd_np*_le & [ STEM < "atracar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL [ ARG1.SORT cnc_pot, PRED "_atracar_v_rel" ] ] ]. atracción_n1 := n_ppde_ppcomp_mass_le & [ STEM < "atracción" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL [ ARG0.SORT abs, PRED "_atracción_n_rel" ] ] ]. atracción_n2 := n_intr_count_le & [ STEM < "atracción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_atracción_n_rel" ] ]. atraco_n1 := n_trans_le & [ STEM < "atraco" >, SYNSEM.LKEYS.KEYREL.PRED "_atraco_n_rel" ]. atractividad_n1 := n_intr_mass_le & [ STEM < "atractividad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atractividad_n_rel" ] ]. atractivo_a1 := a_qual_intr_scopal_le & [ STEM < "atractivo" >, SYNSEM.LKEYS.KEYREL.PRED "_atractivo_a_rel" ]. atractivo_n1 := n_intr_mass_le & [ STEM < "atractivo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atractivo_n_rel" ] ]. atraer_v1 := v_ditrans*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v2 := v_intr_io*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v3 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atraer" >, SYNSEM.LKEYS.KEYREL.PRED "_atraer_v_rel" ]. atraer_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_le & [ STEM < "atraer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_atraer_v_rel" ] ] ]. atraer_v5 := v_trans_np_mrkd_np_le & [ STEM < "atraer" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_atraer_v_rel" ] ] ]. atragantar_v := v_trans_np_caus_le & [ STEM < "atragantar" >, SYNSEM.LKEYS.KEYREL.PRED "_atragantar_v_rel" ]. atrancar_v := v_trans_np_caus_le & [ STEM < "atrancar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrancar_v_rel" ]. atrapainsectos_n1 := n_intr_count_le & [ STEM < "atrapainsectos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atrapainsectos_n_rel" ] ]. atrapar_v := v_trans_np_le & [ STEM < "atrapar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrapar_v_rel" ]. atraque_n1 := n_intr_count_le & [ STEM < "atraque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atraque_n_rel" ] ]. atrasar_v1 := v_pron_unacc_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT hum_pot_soc, PRED "_atrasar_v_rel" ] ]. atrasar_v2 := v_trans_np_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrasar_v_rel" ]. atrasar_v3 := v_unacc_lcomp_dir*_le & [ STEM < "atrasar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrasar_v_rel" ]. atraso_n1 := n_trans_le & [ STEM < "atraso" >, SYNSEM.LKEYS.KEYREL.PRED "_atraso_n_rel" ]. atravesar_v := v_trans_np_le & [ STEM < "atravesar" >, SYNSEM.LKEYS.KEYREL.PRED "_atravesar_v_rel" ]. atrayente_a1 := a_qual_intr_scopal_le & [ STEM < "atrayente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrayente_a_rel" ]. atresia_n1 := n_intr_uncount_le & [ STEM < "atresia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atresia_n_rel" ] ]. atrever_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "atrever" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atrever_v_rel" ] ]. atrever_v2 := v_pron_intr_mrkd_np_le & [ STEM < "atrever" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_atrever_v_rel" ] ]. atrevidamente_x1 := av_i_spr_le & [ STEM < "atrevidamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrevidamente_x_rel" ]. atrevido_n1 := n_intr_count_le & [ STEM < "atrevido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atrevido_n_rel" ] ]. atrevimiento_n1 := n_result_intr_ppcomp_le & [ STEM < "atrevimiento" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_atrevimiento_n_rel" ] ]. atrezzista_n1 := n_intr_count_le & [ STEM < "atrezzista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_atrezzista_n_rel" ] ]. atribución_n1 := n_trans_le & [ STEM < "atribución" >, SYNSEM.LKEYS.KEYREL.PRED "_atribución_n_rel" ]. atribuible_a1 := a_qual_trans*_ser_le & [ STEM < "atribuible" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_atribuible_a_rel" ] ]. atribuir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "atribuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_atribuir_v_rel" ] ]. atribuir_v2 := v_ditrans*_le & [ STEM < "atribuir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_atribuir_v_rel" ] ]. atribuir_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_atribuir_v_rel" ] ] ]. atribuir_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_atribuir_v_rel" ] ] ]. atribuir_v5 := v_trans_np_mrkd_np_le & [ STEM < "atribuir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG3.SORT non-hum, PRED "_atribuir_v_rel" ] ] ]. atribular_v1 := v_intr_io*_le & [ STEM < "atribular" >, SYNSEM.LKEYS.KEYREL.PRED "_atribular_v_rel" ]. atribular_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "atribular" >, SYNSEM.LKEYS.KEYREL.PRED "_atribular_v_rel" ]. atributivo_a1 := a_rel_nonprd_intr_le & [ STEM < "atributivo" >, SYNSEM.LKEYS.KEYREL.PRED "_atributivo_a_rel" ]. atributo_n1 := n_intr_count_le & [ STEM < "atributo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atributo_n_rel" ] ]. atrición_n1 := n_intr_uncount_le & [ STEM < "atrición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrición_n_rel" ] ]. atril_n1 := n_intr_count_le & [ STEM < "atril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_atril_n_rel" ] ]. atrincherar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_atrincherar_v_rel" ] ] ]. atrincherar_v2 := v_pron_unacc_lcomp_loc*_perf_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrincherar_v_rel" ]. atrincherar_v3 := v_trans_np_le & [ STEM < "atrincherar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT cnc_loc, PRED "_atrincherar_v_rel" ] ]. atrio_n1 := n_intr_count_le & [ STEM < "atrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_atrio_n_rel" ] ]. atrioventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "atrioventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_atrioventricular_a_rel" ]. atrocidad_n1 := n_intr_count_le & [ STEM < "atrocidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrocidad_n_rel" ] ]. atrofia_n1 := n_intr_count_le & [ STEM < "atrofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atrofia_n_rel" ] ]. atrofiar_v := v_trans_np_caus_le & [ STEM < "atrofiar" >, SYNSEM.LKEYS.KEYREL.PRED "_atrofiar_v_rel" ]. atronador_a1 := a_rel_nonprd_intr_le & [ STEM < "atronador" >, SYNSEM.LKEYS.KEYREL.PRED "_atronador_a_rel" ]. atropellar_v := v_trans_np_le & [ STEM < "atropellar" >, SYNSEM.LKEYS.KEYREL.PRED "_atropellar_v_rel" ]. atropello_n1 := n_trans_le & [ STEM < "atropello" >, SYNSEM.LKEYS.KEYREL.PRED "_atropello_n_rel" ]. atropina_n1 := n_intr_count_le & [ STEM < "atropina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atropina_n_rel" ] ]. atroz_a1 := a_qual_intr_scopal_le & [ STEM < "atroz" >, SYNSEM.LKEYS.KEYREL.PRED "_atroz_a_rel" ]. atrozmente_x1 := av_i_spr_le & [ STEM < "atrozmente" >, SYNSEM.LKEYS.KEYREL.PRED "_atrozmente_x_rel" ]. atruchado_a1 := a_rel_nonprd_intr_le & [ STEM < "atruchado" >, SYNSEM.LKEYS.KEYREL.PRED "_atruchado_a_rel" ]. atrás_x1 := av_i_spr_le & [ STEM < "atrás" >, SYNSEM.LKEYS.KEYREL.PRED "_atrás_x_rel" ]. atrófico_a1 := a_rel_nonprd_intr_le & [ STEM < "atrófico" >, SYNSEM.LKEYS.KEYREL.PRED "_atrófico_a_rel" ]. atuendo_n1 := n_intr_uncount_pl_le & [ STEM < "atuendo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_atuendo_n_rel" ] ]. aturdimiento_n1 := n_ppcomp_mass_le & [ STEM < "aturdimiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aturdimiento_n_rel" ] ]. aturdir_v1 := v_intr_io*_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL.PRED "_aturdir_v_rel" ]. aturdir_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL.PRED "_aturdir_v_rel" ]. aturdir_v3 := v_trans_np_le & [ STEM < "aturdir" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT non-hum, PRED "_aturdir_v_rel" ] ]. aturullar_v1 := v_intr_io*_le & [ STEM < "aturullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aturullar_v_rel" ]. aturullar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "aturullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aturullar_v_rel" ]. atávicamente_x1 := av_i_spr_le & [ STEM < "atávicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atávicamente_x_rel" ]. atávico_a1 := a_rel_nonprd_intr_le & [ STEM < "atávico" >, SYNSEM.LKEYS.KEYREL.PRED "_atávico_a_rel" ]. atérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "atérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_atérmico_a_rel" ]. atíncar_n1 := n_intr_mass_le & [ STEM < "atíncar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_atíncar_n_rel" ] ]. atípicamente_x1 := av_i_spr_le & [ STEM < "atípicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atípicamente_x_rel" ]. atípico_a1 := a_qual_intr_scopal_le & [ STEM < "atípico" >, SYNSEM.LKEYS.KEYREL.PRED "_atípico_a_rel" ]. atómicamente_x1 := av_i_spr_le & [ STEM < "atómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_atómicamente_x_rel" ]. atómico_a1 := a_rel_nonprd_intr_le & [ STEM < "atómico" >, SYNSEM.LKEYS.KEYREL.PRED "_atómico_a_rel" ]. atónito_a1 := a_qual_intr_estar_le & [ STEM < "atónito" >, SYNSEM.LKEYS.KEYREL.PRED "_atónito_a_rel" ]. atún_n1 := n_intr_count_le & [ STEM < "atún" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_atún_n_rel" ] ]. audacia_n1 := n_intr_mass_le & [ STEM < "audacia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audacia_n_rel" ] ]. audaz_a1 := a_qual_intr_ser_le & [ STEM < "audaz" >, SYNSEM.LKEYS.KEYREL.PRED "_audaz_a_rel" ]. audazmente_x1 := av_i_spr_le & [ STEM < "audazmente" >, SYNSEM.LKEYS.KEYREL.PRED "_audazmente_x_rel" ]. audencia_n1 := n_intr_mass_le & [ STEM < "audiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_audiencia_n_rel" ] ]. audibilidad_n1 := n_ppcomp_mass_le & [ STEM < "audibilidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audibilidad_n_rel" ] ]. audible_a1 := a_rel_prd_le & [ STEM < "audible" >, SYNSEM.LKEYS.KEYREL.PRED "_audible_a_rel" ]. audiblemente_x1 := av_i_spr_le & [ STEM < "audiblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_audiblemente_x_rel" ]. audición_n1 := n_trans_le & [ STEM < "audición" >, SYNSEM.LKEYS.KEYREL.PRED "_audición_n_rel" ]. audición_n2 := n_intr_count_le & [ STEM < "audición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audición_n_rel" ] ]. audio-visual_a1 := a_rel_nonprd_intr_le & [ STEM < "audio-visual" >, SYNSEM.LKEYS.KEYREL.PRED "_audio-visual_a_rel" ]. audio_n1 := n_intr_count_le & [ STEM < "audio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_sem, PRED "_audio_n_rel" ] ]. audioanalgesia_n1 := n_intr_uncount_le & [ STEM < "audioanalgesia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audioanalgesia_n_rel" ] ]. audioconferencia_n1 := n_intr_count_le & [ STEM < "audioconferencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audioconferencia_n_rel" ] ]. audiograma_n1 := n_intr_count_le & [ STEM < "audiograma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_audiograma_n_rel" ] ]. audiogénico_a1 := a_rel_nonprd_intr_le & [ STEM < "audiogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_audiogénico_a_rel" ]. audiología_n1 := n_intr_uncount_pl_le & [ STEM < "audiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiología_n_rel" ] ]. audiomensajería_n1 := n_intr_uncount_le & [ STEM < "audiomensajería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiomensajería_n_rel" ] ]. audiometría_n1 := n_intr_count_le & [ STEM < "audiometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_audiometría_n_rel" ] ]. audioprotesista_n1 := n_intr_count_le & [ STEM < "audioprotesista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_audioprotesista_n_rel" ] ]. audioprótesis_n1 := n_intr_count_le & [ STEM < "audioprótesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audioprótesis_n_rel" ] ]. audiovisual_a1 := a_rel_nonprd_intr_le & [ STEM < "audiovisual" >, SYNSEM.LKEYS.KEYREL.PRED "_audiovisual_a_rel" ]. audiovisualmente_x1 := av_i_spr_le & [ STEM < "audiovisualmente" >, SYNSEM.LKEYS.KEYREL.PRED "_audiovisualmente_x_rel" ]. auditar_v := v_trans_np_le & [ STEM < "auditar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, ARG2.SORT abs_hum_soc, PRED "_auditar_v_rel" ] ]. auditivo_a1 := a_rel_nonprd_intr_le & [ STEM < "auditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_auditivo_a_rel" ]. auditor_n1 := n_subj-nom_le & [ STEM < "auditor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auditor_n_rel" ] ]. auditorio_a1 := a_rel_nonprd_intr_le & [ STEM < "auditorio" >, SYNSEM.LKEYS.KEYREL.PRED "_auditorio_a_rel" ]. auditorio_n1 := n_intr_count_le & [ STEM < "auditorio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_auditorio_n_rel" ] ]. auditoría_n1 := n_intr_count_le & [ STEM < "auditoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auditoría_n_rel" ] ]. audiófono_n1 := n_intr_count_le & [ STEM < "audiófono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audiófono_n_rel" ] ]. audiómetro_n1 := n_intr_count_le & [ STEM < "audiómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audiómetro_n_rel" ] ]. audífono_n1 := n_intr_count_le & [ STEM < "audífono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audífono_n_rel" ] ]. audímetro_n1 := n_intr_count_le & [ STEM < "audímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_audímetro_n_rel" ] ]. auge_n1 := n_intr_mass_le & [ STEM < "auge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auge_n_rel" ] ]. augelita_n1 := n_intr_mass_le & [ STEM < "augelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_augelita_n_rel" ] ]. augita_n1 := n_intr_count_le & [ STEM < "augita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_augita_n_rel" ] ]. augur_n1 := n_intr_count_le & [ STEM < "augur" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_augur_n_rel" ] ]. augurar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "augurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, PRED "_augurar_v_rel" ] ]. augurar_v2 := v_ditrans*_le & [ STEM < "augurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro, ARG2.SORT abs_pro, PRED "_augurar_v_rel" ] ]. augurio_n1 := n_intr_count_le & [ STEM < "augurio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_augurio_n_rel" ] ]. aula_n1 := n_intr_count_le & [ STEM < "aula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_aula_n_rel" ] ]. aullador_a1 := a_rel_nonprd_intr_le & [ STEM < "aullador" >, SYNSEM.LKEYS.KEYREL.PRED "_aullador_a_rel" ]. aullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aullar_v_rel" ] ]. aullar_v2 := v_ditrans*_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aullar_v_rel" ] ]. aullar_v3 := v_intr_le & [ STEM < "aullar" >, SYNSEM.LKEYS.KEYREL.PRED "_aullar_v_rel" ]. aullido_n1 := n_result_intr_le & [ STEM < "aullido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aullido_n_rel" ] ]. aumentar_v1 := v_ditrans_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentar_v2 := v_subj_cp_prop_trans_np_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentar_v3 := v_trans_np_caus_int_le & [ STEM < "aumentar" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentar_v_rel" ]. aumentativo_a1 := a_rel_nonprd_intr_le & [ STEM < "aumentativo" >, SYNSEM.LKEYS.KEYREL.PRED "_aumentativo_a_rel" ]. aumento_n1 := n_trans_le & [ STEM < "aumento" >, SYNSEM.LKEYS.KEYREL.PRED "_aumento_n_rel" ]. aun_sc := sc_prop_fin_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_subord_rel" ]. aun_x1 := av_i_foc_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aun_x2 := av_s_cp_prop_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aun_x3 := av_i_np-foc_le & [ STEM < "aun" >, SYNSEM.LKEYS.KEYREL.PRED "_aun_x_rel" ]. aunar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aunar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aunar_v_rel" ] ] ]. aunar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aunar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aunar_v_rel" ] ] ]. aunar_v3 := v_trans_np_le & [ STEM < "aunar" >, SYNSEM.LKEYS.KEYREL.PRED "_aunar_v_rel" ]. aunque_cc := cc_advers_aunque_le & [ STEM < "aunque" > ]. aupar_v := v_trans_np_le & [ STEM < "aupar" >, SYNSEM.LKEYS.KEYREL.PRED "_aupar_v_rel" ]. aura_n1 := n_intr_count_le & [ STEM < "aura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aura_n_rel" ] ]. aural_a1 := a_rel_nonprd_intr_le & [ STEM < "aural" >, SYNSEM.LKEYS.KEYREL.PRED "_aural_a_rel" ]. auramina_n1 := n_intr_mass_le & [ STEM < "auramina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_auramina_n_rel" ] ]. aureola_n1 := n_intr_count_le & [ STEM < "aureola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_aureola_n_rel" ] ]. auricular_a1 := a_rel_nonprd_intr_le & [ STEM < "auricular" >, SYNSEM.LKEYS.KEYREL.PRED "_auricular_a_rel" ]. auricular_n1 := n_intr_count_le & [ STEM < "auricular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auricular_n_rel" ] ]. auriculocervical_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculocervical" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculocervical_a_rel" ]. auriculotemporal_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculotemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculotemporal_a_rel" ]. auriculoventricular_a1 := a_rel_nonprd_intr_le & [ STEM < "auriculoventricular" >, SYNSEM.LKEYS.KEYREL.PRED "_auriculoventricular_a_rel" ]. auriforme_a1 := a_qual_intr_ser_le & [ STEM < "auriforme" >, SYNSEM.LKEYS.KEYREL.PRED "_auriforme_a_rel" ]. auriga_n1 := n_intr_count_le & [ STEM < "auriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auriga_n_rel" ] ]. aurina_n1 := n_intr_count_le & [ STEM < "aurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aurina_n_rel" ] ]. aurora_n1 := n_intr_count_le & [ STEM < "aurora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_pot, PRED "_aurora_n_rel" ] ]. aurosoma_n1 := n_intr_count_le & [ STEM < "aurosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aurosoma_n_rel" ] ]. aurícula_n1 := n_intr_count_le & [ STEM < "aurícula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aurícula_n_rel" ] ]. auscultación_n1 := n_trans_le & [ STEM < "auscultación" >, SYNSEM.LKEYS.KEYREL.PRED "_auscultación_n_rel" ]. auscultar_v := v_trans_np_le & [ STEM < "auscultar" >, SYNSEM.LKEYS.KEYREL.PRED "_auscultar_v_rel" ]. ausencia_n1 := n_intr_uncount_pl_le & [ STEM < "ausencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ausencia_n_rel" ] ]. ausencia_n2 := n_result_intr_le & [ STEM < "ausencia" >, SYNSEM.LKEYS.KEYREL.PRED "_ausencia_n_rel" ]. ausentar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausentar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausentar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "ausentar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_ausentar_v_rel" ] ] ]. ausente_a1 := a_qual_trans*_estar_le & [ STEM < "ausente" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_ausente_a_rel" ] ]. ausentismo_n1 := n_intr_mass_le & [ STEM < "ausentismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ausentismo_n_rel" ] ]. auspiciar_v := v_trans_np_le & [ STEM < "auspiciar" >, SYNSEM.LKEYS.KEYREL.PRED "_auspiciar_v_rel" ]. auspicio_n1 := n_intr_count_le & [ STEM < "auspicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auspicio_n_rel" ] ]. austemple_n1 := n_intr_uncount_le & [ STEM < "austemple" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_austemple_n_rel" ] ]. austeniconformado_n1 := n_intr_count_le & [ STEM < "austeniconformado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austeniconformado_n_rel" ] ]. austenita_n1 := n_intr_mass-or-count_le & [ STEM < "austenita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_austenita_n_rel" ] ]. austenitizar_v := v_trans_np_le & [ STEM < "austenitizar" >, SYNSEM.LKEYS.KEYREL.PRED "_austenitizar_v_rel" ]. austeníticamente_x1 := av_i_spr_le & [ STEM < "austeníticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_austeníticamente_x_rel" ]. austeramente_x1 := av_i_spr_le & [ STEM < "austeramente" >, SYNSEM.LKEYS.KEYREL.PRED "_austeramente_x_rel" ]. austeridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "austeridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_austeridad_n_rel" ] ]. austero_a1 := a_qual_intr_ser_le & [ STEM < "austero" >, SYNSEM.LKEYS.KEYREL.PRED "_austero_a_rel" ]. austral_a1 := a_rel_prd_le & [ STEM < "austral" >, SYNSEM.LKEYS.KEYREL.PRED "_austral_a_rel" ]. australiano_a1 := a_rel_prd_le & [ STEM < "australiano" >, SYNSEM.LKEYS.KEYREL.PRED "_australiano_a_rel" ]. australiano_n1 := n_intr_count_le & [ STEM < "australiano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_australiano_n_rel" ] ]. australita_n1 := n_intr_count_le & [ STEM < "australita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_australita_n_rel" ] ]. austriaco_a1 := a_rel_prd_le & [ STEM < "austriaco" >, SYNSEM.LKEYS.KEYREL.PRED "_austriaco_a_rel" ]. austriaco_n1 := n_intr_count_le & [ STEM < "austriaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austriaco_n_rel" ] ]. austrohúngaro_a1 := a_rel_prd_le & [ STEM < "austrohúngaro" >, SYNSEM.LKEYS.KEYREL.PRED "_austrohúngaro_a_rel" ]. austrohúngaro_n1 := n_intr_count_le & [ STEM < "austrohúngaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austrohúngaro_n_rel" ] ]. austríaco_a1 := a_rel_prd_le & [ STEM < "austríaco" >, SYNSEM.LKEYS.KEYREL.PRED "_austríaco_a_rel" ]. austríaco_n1 := n_intr_count_le & [ STEM < "austríaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_austríaco_n_rel" ] ]. autarquía_n1 := n_intr_count_le & [ STEM < "autarquía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autarquía_n_rel" ] ]. autenticación_n1 := n_trans_le & [ STEM < "autenticación" >, SYNSEM.LKEYS.KEYREL.PRED "_autenticación_n_rel" ]. autenticar_v := v_trans_np_le & [ STEM < "autenticar" >, SYNSEM.LKEYS.KEYREL.PRED "_autenticar_v_rel" ]. autenticidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "autenticidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autenticidad_n_rel" ] ]. autentificación_n1 := n_trans_le & [ STEM < "autentificación" >, SYNSEM.LKEYS.KEYREL.PRED "_autentificación_n_rel" ]. autentificar_v := v_trans_np_le & [ STEM < "autentificar" >, SYNSEM.LKEYS.KEYREL.PRED "_autentificar_v_rel" ]. autillo_n1 := n_intr_count_le & [ STEM < "autillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_autillo_n_rel" ] ]. autismo_n1 := n_intr_uncount_le & [ STEM < "autismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autismo_n_rel" ] ]. autista_a1 := a_qual_intr_ser_le & [ STEM < "autista" >, SYNSEM.LKEYS.KEYREL.PRED "_autista_a_rel" ]. auto_n1 := n_intr_count_le & [ STEM < "auto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_auto_n_rel" ] ]. autoabastecimiento_n1 := n_trans_le & [ STEM < "autoabastecimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_autoabastecimiento_n_rel" ]. autoacusación_n1 := n_intr_count_le & [ STEM < "autoacusación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoacusación_n_rel" ] ]. autoadaptable_a1 := a_qual_trans*_ser_le & [ STEM < "autoadaptable" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_autoadaptable_a_rel" ] ]. autoadaptación_n1 := n_result_intr_ppcomp_le & [ STEM < "autoadaptación" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL.PRED "_autoadaptación_n_rel" ] ]. autoadhesivo_a1 := a_rel_prd_le & [ STEM < "autoadhesivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoadhesivo_a_rel" ]. autoafirmación_n1 := n_intr_mass_le & [ STEM < "autoafirmación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoafirmación_n_rel" ] ]. autoafirmar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autoafirmar" >, SYNSEM.LKEYS [ --COMPKEY _en_p_sel_rel, KEYREL.PRED "_autoafirmar_v_rel" ] ]. autoaglutinina_n1 := n_intr_count_le & [ STEM < "autoaglutinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoaglutinina_n_rel" ] ]. autoanalizador_n1 := n_intr_count_le & [ STEM < "autoanalizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoanalizador_n_rel" ] ]. autoanticuerpo_n2 := n_ppcomp_count_le & [ STEM < "autoanticuerpo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_autoanticuerpo_n_rel" ] ]. autoantígeno_n1 := n_intr_count_le & [ STEM < "autoantígeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoantígeno_n_rel" ] ]. autoaprendizaje_n1 := n_intr_uncount_le & [ STEM < "autoaprendizaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoaprendizaje_n_rel" ] ]. autoayuda_n1 := n_intr_uncount_le & [ STEM < "autoayuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoayuda_n_rel" ] ]. autobiografía_n1 := n_intr_count_le & [ STEM < "autobiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autobiografía_n_rel" ] ]. autobiográficamente_x1 := av_i_spr_le & [ STEM < "autobiográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autobiográficamente_x_rel" ]. autobiográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "autobiográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_autobiográfico_a_rel" ]. autobomba_n1 := n_intr_count_le & [ STEM < "autobomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autobomba_n_rel" ] ]. autobús_n1 := n_intr_count_le & [ STEM < "autobús" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autobús_n_rel" ] ]. autocalentamiento_n1 := n_result_intr_le & [ STEM < "autocalentamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_autocalentamiento_n_rel" ]. autocar_n1 := n_intr_count_le & [ STEM < "autocar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autocar_n_rel" ] ]. autocargable_a1 := a_rel_prd_le & [ STEM < "autocargable" >, SYNSEM.LKEYS.KEYREL.PRED "_autocargable_a_rel" ]. autocargar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autocargar" >, SYNSEM.LKEYS [ --COMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_autocargar_v_rel" ] ]. autocastigo_n1 := n_intr_uncount_pl_le & [ STEM < "autocastigo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocastigo_n_rel" ] ]. autocatalítico_a1 := a_rel_nonprd_intr_le & [ STEM < "autocatalítico" >, SYNSEM.LKEYS.KEYREL.PRED "_autocatalítico_a_rel" ]. autocatálisis_n1 := n_intr_uncount_le & [ STEM < "autocatálisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocatálisis_n_rel" ] ]. autocentrador_n1 := n_intr_count_le & [ STEM < "autocentrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autocentrador_n_rel" ] ]. autocentrante_a1 := a_rel_nonprd_intr_le & [ STEM < "autocentrante" >, SYNSEM.LKEYS.KEYREL.PRED "_autocentrante_a_rel" ]. autocine_n1 := n_intr_count_le & [ STEM < "autocine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autocine_n_rel" ] ]. autocitólisis_n1 := n_intr_uncount_le & [ STEM < "autocitólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocitólisis_n_rel" ] ]. autoclave_n1 := n_intr_count_le & [ STEM < "autoclave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoclave_n_rel" ] ]. autoconciencia_n1 := n_intr_uncount_le & [ STEM < "autoconciencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconciencia_n_rel" ] ]. autoconfianza_n1 := n_intr_mass_le & [ STEM < "autoconfianza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconfianza_n_rel" ] ]. autoconfigurador_n1 := n_intr_count_le & [ STEM < "autoconfigurador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoconfigurador_n_rel" ] ]. autoconsumo_n1 := n_intr_uncount_le & [ STEM < "autoconsumo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoconsumo_n_rel" ] ]. autocontrol_n1 := n_intr_mass_le & [ STEM < "autocontrol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocontrol_n_rel" ] ]. autocontroladamente_x1 := av_i_spr_le & [ STEM < "autocontroladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autocontroladamente_x_rel" ]. autocorrección_n1 := n_intr_count_le & [ STEM < "autocorrección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrección_n_rel" ] ]. autocorrelación_n1 := n_intr_count_le & [ STEM < "autocorrelación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrelación_n_rel" ] ]. autocorrelador_n1 := n_intr_count_le & [ STEM < "autocorrelador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocorrelador_n_rel" ] ]. autocracia_n1 := n_intr_count_le & [ STEM < "autocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocracia_n_rel" ] ]. autocráticamente_x1 := av_i_spr_le & [ STEM < "autocráticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autocráticamente_x_rel" ]. autocrático_a1 := a_rel_nonprd_intr_le & [ STEM < "autocrático" >, SYNSEM.LKEYS.KEYREL.PRED "_autocrático_a_rel" ]. autocrítica_n1 := n_intr_count_le & [ STEM < "autocrítica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autocrítica_n_rel" ] ]. autodefensa_n1 := n_intr_uncount_le & [ STEM < "autodefensa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodefensa_n_rel" ] ]. autodefinible_a1 := a_rel_prd_le & [ STEM < "autodefinible" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinible_a_rel" ]. autodefinir_v := v_pron_intr_le & [ STEM < "autodefinir" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinir_v_rel" ]. autodefinitorio_a1 := a_rel_nonprd_intr_le & [ STEM < "autodefinitorio" >, SYNSEM.LKEYS.KEYREL.PRED "_autodefinitorio_a_rel" ]. autodegradación_n1 := n_event-result_intr_le & [ STEM < "autodegradación" >, SYNSEM.LKEYS.KEYREL.PRED "_autodegradación_n_rel" ]. autodepuración_n1 := n_result_intr_le & [ STEM < "autodepuración" >, SYNSEM.LKEYS.KEYREL.PRED "_autodepuración_n_rel" ]. autodesarrollo_n1 := n_intr_uncount_le & [ STEM < "autodesarrollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodesarrollo_n_rel" ] ]. autodescargable_a1 := a_rel_nonprd_intr_le & [ STEM < "autodescargable" >, SYNSEM.LKEYS.KEYREL.PRED "_autodescargable_a_rel" ]. autodestructible_a1 := a_rel_prd_le & [ STEM < "autodestructible" >, SYNSEM.LKEYS.KEYREL.PRED "_autodestructible_a_rel" ]. autodestructivo_a1 := a_rel_prd_le & [ STEM < "autodestructivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autodestructivo_a_rel" ]. autodeterminación_n1 := n_intr_mass_le & [ STEM < "autodeterminación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodeterminación_n_rel" ] ]. autodidacta_a1 := a_qual_intr_ser_le & [ STEM < "autodidacta" >, SYNSEM.LKEYS.KEYREL.PRED "_autodidacta_a_rel" ]. autodidacta_n1 := n_intr_count_le & [ STEM < "autodidacta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autodidacta_n_rel" ] ]. autodidáctico_a1 := a_rel_prd_le & [ STEM < "autodidáctico" >, SYNSEM.LKEYS.KEYREL.PRED "_autodidáctico_a_rel" ]. autodifusión_n1 := n_result_intr_le & [ STEM < "autodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_autodifusión_n_rel" ]. autodinamente_x1 := av_i_spr_le & [ STEM < "autodinamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinamente_x_rel" ]. autodinámicamente_x1 := av_i_spr_le & [ STEM < "autodinámicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinámicamente_x_rel" ]. autodinámico_a1 := a_rel_prd_le & [ STEM < "autodinámico" >, SYNSEM.LKEYS.KEYREL.PRED "_autodinámico_a_rel" ]. autodisciplina_n1 := n_intr_mass_le & [ STEM < "autodisciplina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodisciplina_n_rel" ] ]. autodominio_n1 := n_intr_mass_le & [ STEM < "autodominio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autodominio_n_rel" ] ]. autoecología_n1 := n_intr_uncount_le & [ STEM < "autoecología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoecología_n_rel" ] ]. autoeducación_n1 := n_intr_mass_le & [ STEM < "autoeducación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoeducación_n_rel" ] ]. autoempleo_n1 := n_intr_uncount_pl_le & [ STEM < "autoempleo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoempleo_n_rel" ] ]. autoencendido_n1 := n_result_intr_le & [ STEM < "autoencendido" >, SYNSEM.LKEYS.KEYREL.PRED "_autoencendido_n_rel" ]. autoengaño_n1 := n_intr_mass_le & [ STEM < "autoengaño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoengaño_n_rel" ] ]. autoequilibrador_a1 := a_rel_prd_le & [ STEM < "autoequilibrador" >, SYNSEM.LKEYS.KEYREL.PRED "_autoequilibrador_a_rel" ]. autoescuela_n1 := n_intr_count_le & [ STEM < "autoescuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_autoescuela_n_rel" ] ]. autoestable_a1 := a_rel_prd_le & [ STEM < "autoestable" >, SYNSEM.LKEYS.KEYREL.PRED "_autoestable_a_rel" ]. autoevaluación_n1 := n_trans_le & [ STEM < "autoevaluación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoevaluación_n_rel" ]. autoexcitación_n1 := n_result_intr_le & [ STEM < "autoexcitación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoexcitación_n_rel" ]. autoexplicativo_a1 := a_rel_prd_le & [ STEM < "autoexplicativo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoexplicativo_a_rel" ]. autoextintor_a1 := a_rel_prd_le & [ STEM < "autoextintor" >, SYNSEM.LKEYS.KEYREL.PRED "_autoextintor_a_rel" ]. autofagia_n1 := n_intr_uncount_le & [ STEM < "autofagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autofagia_n_rel" ] ]. autofagosoma_n1 := n_intr_count_le & [ STEM < "autofagosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autofagosoma_n_rel" ] ]. autofinanciación_n1 := n_result_intr_le & [ STEM < "autofinanciación" >, SYNSEM.LKEYS.KEYREL.PRED "_autofinanciación_n_rel" ]. autofonía_n1 := n_intr_uncount_le & [ STEM < "autofonía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autofonía_n_rel" ] ]. autoformación_n1 := n_result_intr_le & [ STEM < "autoformación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoformación_n_rel" ]. autofágico_a1 := a_rel_prd_le & [ STEM < "autofágico" >, SYNSEM.LKEYS.KEYREL.PRED "_autofágico_a_rel" ]. autogamia_n1 := n_intr_uncount_pl_le & [ STEM < "autogamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogamia_n_rel" ] ]. autogestionario_a1 := a_rel_prd_le & [ STEM < "autogestionario" >, SYNSEM.LKEYS.KEYREL.PRED "_autogestionario_a_rel" ]. autogestión_n1 := n_intr_mass_le & [ STEM < "autogestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogestión_n_rel" ] ]. autogobierno_n1 := n_intr_uncount_pl_le & [ STEM < "autogobierno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogobierno_n_rel" ] ]. autogol_n1 := n_intr_count_le & [ STEM < "autogol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autogol_n_rel" ] ]. autohemoterapia_n1 := n_intr_uncount_le & [ STEM < "autohemoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autohemoterapia_n_rel" ] ]. autohemólisis_n1 := n_intr_uncount_le & [ STEM < "autohemólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autohemólisis_n_rel" ] ]. autoigualador_a1 := a_rel_prd_le & [ STEM < "autoigualador" >, SYNSEM.LKEYS.KEYREL.PRED "_autoigualador_a_rel" ]. autoinducción_n1 := n_result_intr_le & [ STEM < "autoinducción" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinducción_n_rel" ]. autoinductivamente_x1 := av_i_spr_le & [ STEM < "autoinductivamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinductivamente_x_rel" ]. autoinductivo_a1 := a_rel_prd_le & [ STEM < "autoinductivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinductivo_a_rel" ]. autoinflamación_n1 := n_result_intr_le & [ STEM < "autoinflamación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinflamación_n_rel" ]. autoinjerto_n1 := n_trans_le & [ STEM < "autoinjerto" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinjerto_n_rel" ]. autoinmune_a1 := a_rel_prd_le & [ STEM < "autoinmune" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinmune_a_rel" ]. autoinmunidad_n1 := n_intr_uncount_le & [ STEM < "autoinmunidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoinmunidad_n_rel" ] ]. autoinmunitario_a1 := a_rel_prd_le & [ STEM < "autoinmunitario" >, SYNSEM.LKEYS.KEYREL.PRED "_autoinmunitario_a_rel" ]. autoinmunización_n1 := n_intr_mass_le & [ STEM < "autoinmunización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoinmunización_n_rel" ] ]. autoliquidación_n1 := n_intr_count_le & [ STEM < "autoliquidación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoliquidación_n_rel" ] ]. autolisosoma_n1 := n_intr_count_le & [ STEM < "autolisosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autolisosoma_n_rel" ] ]. autolubricante_a1 := a_rel_prd_le & [ STEM < "autolubricante" >, SYNSEM.LKEYS.KEYREL.PRED "_autolubricante_a_rel" ]. autolubrificación_n1 := n_result_intr_le & [ STEM < "autolubrificación" >, SYNSEM.LKEYS.KEYREL.PRED "_autolubrificación_n_rel" ]. automatismo_n1 := n_intr_uncount_le & [ STEM < "automatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automatismo_n_rel" ] ]. automatizable_a1 := a_rel_prd_le & [ STEM < "automatizable" >, SYNSEM.LKEYS.KEYREL.PRED "_automatizable_a_rel" ]. automatización_n1 := n_trans_le & [ STEM < "automatización" >, SYNSEM.LKEYS.KEYREL.PRED "_automatización_n_rel" ]. automatizar_v := v_trans_np_le & [ STEM < "automatizar" >, SYNSEM.LKEYS.KEYREL.PRED "_automatizar_v_rel" ]. automoción_n1 := n_intr_mass_le & [ STEM < "automoción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automoción_n_rel" ] ]. automorfismo_n1 := n_intr_uncount_le & [ STEM < "automorfismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automorfismo_n_rel" ] ]. automotor_n1 := n_intr_count_le & [ STEM < "automotor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_automotor_n_rel" ] ]. automovilismo_n1 := n_intr_uncount_le & [ STEM < "automovilismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_automovilismo_n_rel" ] ]. automovilista_n1 := n_intr_count_le & [ STEM < "automovilista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_automovilista_n_rel" ] ]. automovilístico_a1 := a_rel_nonprd_intr_le & [ STEM < "automovilístico" >, SYNSEM.LKEYS.KEYREL.PRED "_automovilístico_a_rel" ]. automáticamente_x1 := av_i_spr_le & [ STEM < "automáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_automáticamente_x_rel" ]. automático_a1 := a_rel_prd_le & [ STEM < "automático" >, SYNSEM.LKEYS.KEYREL.PRED "_automático_a_rel" ]. automóvil_n1 := n_intr_count_le & [ STEM < "automóvil" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_automóvil_n_rel" ] ]. autoniveladora_n1 := n_intr_count_le & [ STEM < "autoniveladora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoniveladora_n_rel" ] ]. autonomismo_n1 := n_intr_uncount_le & [ STEM < "autonomismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autonomismo_n_rel" ] ]. autonomista_n1 := n_intr_count_le & [ STEM < "autonomista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autonomista_n_rel" ] ]. autonomizar_v := v_pron_intr_le & [ STEM < "autonomizar" >, SYNSEM.LKEYS.KEYREL.PRED "_autonomizar_v_rel" ]. autonomía_n1 := n_intr_mass-or-count_le & [ STEM < "autonomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autonomía_n_rel" ] ]. autonómicamente_x1 := av_i_spr_le & [ STEM < "autonómicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autonómicamente_x_rel" ]. autonómico_a1 := a_rel_prd_le & [ STEM < "autonómico" >, SYNSEM.LKEYS.KEYREL.PRED "_autonómico_a_rel" ]. autooscilación_n1 := n_result_intr_le & [ STEM < "autooscilación" >, SYNSEM.LKEYS.KEYREL.PRED "_autooscilación_n_rel" ]. autooscilador_a1 := a_rel_prd_le & [ STEM < "autooscilador" >, SYNSEM.LKEYS.KEYREL.PRED "_autooscilador_a_rel" ]. autopase_n1 := n_intr_count_le & [ STEM < "autopase" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopase_n_rel" ] ]. autopista_n1 := n_intr_count_le & [ STEM < "autopista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autopista_n_rel" ] ]. autopolarizado_a1 := a_rel_prd_le & [ STEM < "autopolarizado" >, SYNSEM.LKEYS.KEYREL.PRED "_autopolarizado_a_rel" ]. autopolimerización_n1 := n_intr_mass_le & [ STEM < "autopolimerización" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopolimerización_n_rel" ] ]. autoproductor_n1 := n_intr_count_le & [ STEM < "autoproductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autoproductor_n_rel" ] ]. autoproductor_n2 := n_subj-nom_le & [ STEM < "autoproductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autoproductor_n_rel" ] ]. autopropulsión_n1 := n_intr_mass_le & [ STEM < "autopropulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopropulsión_n_rel" ] ]. autopropulsor_a1 := a_rel_prd_le & [ STEM < "autopropulsor" >, SYNSEM.LKEYS.KEYREL.PRED "_autopropulsor_a_rel" ]. autopsia_n1 := n_intr_count_le & [ STEM < "autopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autopsia_n_rel" ] ]. autor_n1 := n_intr_count_le & [ STEM < "autor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autor_n_rel" ] ]. autoreparación_n1 := n_trans_le & [ STEM < "autoreparación" >, SYNSEM.LKEYS.KEYREL.PRED "_autoreparación_n_rel" ]. autoridad_n1 := n_intr_mass_le & [ STEM < "autoridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_soc, PRED "_autoridad_n_rel" ] ]. autoritariamente_x1 := av_i_spr_le & [ STEM < "autoritariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autoritariamente_x_rel" ]. autoritario_a1 := a_qual_intr_ser_le & [ STEM < "autoritario" >, SYNSEM.LKEYS.KEYREL.PRED "_autoritario_a_rel" ]. autoritarismo_n1 := n_ppcomp_mass_le & [ STEM < "autoritarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoritarismo_n_rel" ] ]. autorización_n1 := n_trans_le & [ STEM < "autorización" >, SYNSEM.LKEYS.KEYREL.PRED "_autorización_n_rel" ]. autorizar_v1 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorizar_v2 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorizar_v3 := v_trans_np_mrkd_np*_le & [ STEM < "autorizar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_autorizar_v_rel" ] ] ]. autorradio_n1 := n_intr_count_le & [ STEM < "autorradio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autorradio_n_rel" ] ]. autorradiografía_n1 := n_intr_count_le & [ STEM < "autorradiografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autorradiografía_n_rel" ] ]. autorradiólisis_n1 := n_intr_uncount_le & [ STEM < "autorradiólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autorradiólisis_n_rel" ] ]. autorreactivo_a1 := a_rel_nonprd_intr_le & [ STEM < "autorreactivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autorreactivo_a_rel" ]. autorregenerador_a1 := a_rel_prd_le & [ STEM < "autorregenerador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregenerador_a_rel" ]. autorregistrador_a1 := a_rel_nonprd_intr_le & [ STEM < "autorregistrador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregistrador_a_rel" ]. autorregresivo_a1 := a_rel_prd_le & [ STEM < "autorregresivo" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregresivo_a_rel" ]. autorregulación_n1 := n_result_intr_le & [ STEM < "autorregulación" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulación_n_rel" ]. autorregulador_a1 := a_rel_prd_le & [ STEM < "autorregulador" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulador_a_rel" ]. autorregulatorio_a1 := a_rel_nonprd_intr_le & [ STEM < "autorregulatorio" >, SYNSEM.LKEYS.KEYREL.PRED "_autorregulatorio_a_rel" ]. autorretrato_n1 := n_intr_count_le & [ STEM < "autorretrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autorretrato_n_rel" ] ]. autoría_n1 := n_intr_uncount_pl_le & [ STEM < "autoría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoría_n_rel" ] ]. autosatisfacción_n1 := n_intr_mass_le & [ STEM < "autosatisfacción" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosatisfacción_n_rel" ] ]. autosaturación_n1 := n_result_intr_le & [ STEM < "autosaturación" >, SYNSEM.LKEYS.KEYREL.PRED "_autosaturación_n_rel" ]. autoseguro_n1 := n_intr_count_le & [ STEM < "autoseguro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autoseguro_n_rel" ] ]. autoservicio_n1 := n_intr_count_le & [ STEM < "autoservicio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_autoservicio_n_rel" ] ]. autosincronizar_v := v_pron_intr_mrkd_np*_le & [ STEM < "autosincronizar" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_autosincronizar_v_rel" ] ]. autosoma_n1 := n_intr_count_le & [ STEM < "autosoma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autosoma_n_rel" ] ]. autostop_n1 := n_intr_uncount_le & [ STEM < "autostop" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autostop_n_rel" ] ]. autostopista_n1 := n_intr_count_le & [ STEM < "autostopista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_autostopista_n_rel" ] ]. autosuficiencia_n1 := n_intr_mass_le & [ STEM < "autosuficiencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosuficiencia_n_rel" ] ]. autosuficiente_a1 := a_qual_intr_ser_le & [ STEM < "autosuficiente" >, SYNSEM.LKEYS.KEYREL.PRED "_autosuficiente_a_rel" ]. autosuficientemente_x1 := av_i_spr_le & [ STEM < "autosuficientemente" >, SYNSEM.LKEYS.KEYREL.PRED "_autosuficientemente_x_rel" ]. autosugestión_n1 := n_intr_mass_le & [ STEM < "autosugestión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autosugestión_n_rel" ] ]. autotolerancia_n1 := n_intr_uncount_le & [ STEM < "autotolerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autotolerancia_n_rel" ] ]. autotoque_n1 := n_intr_count_le & [ STEM < "autotoque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autotoque_n_rel" ] ]. autotransductor_n1 := n_intr_count_le & [ STEM < "autotransductor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autotransductor_n_rel" ] ]. autotransformador_n1 := n_intr_count_le & [ STEM < "autotransformador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autotransformador_n_rel" ] ]. autovalor_n1 := n_intr_count_le & [ STEM < "autovalor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autovalor_n_rel" ] ]. autovaloración_n1 := n_result_intr_le & [ STEM < "autovaloración" >, SYNSEM.LKEYS.KEYREL.PRED "_autovaloración_n_rel" ]. autovector_n1 := n_intr_count_le & [ STEM < "autovector" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autovector_n_rel" ] ]. autovolquete_n1 := n_intr_count_le & [ STEM < "autovolquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autovolquete_n_rel" ] ]. autovía_n1 := n_intr_count_le & [ STEM < "autovía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_autovía_n_rel" ] ]. autunita_n1 := n_intr_count_le & [ STEM < "autunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_autunita_n_rel" ] ]. auténticamente_x1 := av_i_spr_le & [ STEM < "auténticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_auténticamente_x_rel" ]. auténtico_a1 := a_qual_intr_scopal_le & [ STEM < "auténtico" >, SYNSEM.LKEYS.KEYREL.PRED "_auténtico_a_rel" ]. autísticamente_x1 := av_i_spr_le & [ STEM < "autísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autísticamente_x_rel" ]. autístico_a1 := a_rel_nonprd_intr_le & [ STEM < "autístico" >, SYNSEM.LKEYS.KEYREL.PRED "_autístico_a_rel" ]. autócrata_n1 := n_intr_count_le & [ STEM < "autócrata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autócrata_n_rel" ] ]. autóctono_a1 := a_qual_trans*_ser_le & [ STEM < "autóctono" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_autóctono_a_rel" ] ]. autógenamente_x1 := av_i_spr_le & [ STEM < "autógenamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autógenamente_x_rel" ]. autógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "autógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_autógeno_a_rel" ]. autógrafo_n1 := n_intr_count_le & [ STEM < "autógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autógrafo_n_rel" ] ]. autólisis_n1 := n_intr_uncount_le & [ STEM < "autólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_autólisis_n_rel" ] ]. autómata_n1 := n_intr_count_le & [ STEM < "autómata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_autómata_n_rel" ] ]. autónomamente_x1 := av_i_spr_le & [ STEM < "autónomamente" >, SYNSEM.LKEYS.KEYREL.PRED "_autónomamente_x_rel" ]. autónomo_a1 := a_rel_prd_le & [ STEM < "autónomo" >, SYNSEM.LKEYS.KEYREL.PRED "_autónomo_a_rel" ]. autótrofo_a1 := a_rel_prd_le & [ STEM < "autótrofo" >, SYNSEM.LKEYS.KEYREL.PRED "_autótrofo_a_rel" ]. autótrofo_n1 := n_intr_count_le & [ STEM < "autótrofo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_autótrofo_n_rel" ] ]. auxiliador_n1 := n_subj-nom_le & [ STEM < "auxiliador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auxiliador_n_rel" ] ]. auxiliar_a1 := a_rel_nonprd_intr_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_auxiliar_a_rel" ]. auxiliar_n1 := n_intr_count_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_auxiliar_n_rel" ] ]. auxiliar_v := v_trans_np_le & [ STEM < "auxiliar" >, SYNSEM.LKEYS.KEYREL.PRED "_auxiliar_v_rel" ]. auxilio_n1 := n_intr_uncount_pl_le & [ STEM < "auxilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_auxilio_n_rel" ] ]. auxocito_n1 := n_intr_count_le & [ STEM < "auxocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auxocito_n_rel" ] ]. auxocromo_n1 := n_intr_count_le & [ STEM < "auxocromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_auxocromo_n_rel" ] ]. aval_n1 := n_intr_count_le & [ STEM < "aval" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aval_n_rel" ] ]. avalador_n1 := n_subj-nom_le & [ STEM < "avalador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avalador_n_rel" ] ]. avalancha_n1 := n_intr_count_le & [ STEM < "avalancha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avalancha_n_rel" ] ]. avalar_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "avalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_cnc_hum_soc, PRED "_avalar_v_rel" ] ]. avalar_v2 := v_trans_np_le & [ STEM < "avalar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_avalar_v_rel" ] ]. avalista_n1 := n_intr_count_le & [ STEM < "avalista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avalista_n_rel" ] ]. avalúo_n1 := n_trans_le & [ STEM < "avalúo" >, SYNSEM.LKEYS.KEYREL.PRED "_avalúo_n_rel" ]. avance_n1 := n_event-result_intr_le & [ STEM < "avance" >, SYNSEM.LKEYS.KEYREL.PRED "_avance_n_rel" ]. avantrén_n1 := n_intr_count_le & [ STEM < "avantrén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avantrén_n_rel" ] ]. avanzadilla_n1 := n_intr_count_le & [ STEM < "avanzadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avanzadilla_n_rel" ] ]. avanzar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_avanzar_v_rel" ] ]. avanzar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avanzar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avanzar_v_rel" ] ] ]. avanzar_v3 := v_trans_np_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avanzar_v_rel" ]. avanzar_v4 := v_unacc_lcomp_dir*_le & [ STEM < "avanzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avanzar_v_rel" ]. avaricia_n1 := n_intr_mass_le & [ STEM < "avaricia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avaricia_n_rel" ] ]. avariciosamente_x1 := av_i_spr_le & [ STEM < "avariciosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_avariciosamente_x_rel" ]. avaricioso_a1 := a_qual_intr_ser_le & [ STEM < "avaricioso" >, SYNSEM.LKEYS.KEYREL.PRED "_avaricioso_a_rel" ]. avaro_a1 := a_qual_intr_ser_le & [ STEM < "avaro" >, SYNSEM.LKEYS.KEYREL.PRED "_avaro_a_rel" ]. avaro_n1 := n_intr_count_le & [ STEM < "avaro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avaro_n_rel" ] ]. avasallador_a1 := a_qual_intr_ser_le & [ STEM < "avasallador" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallador_a_rel" ]. avasalladormente_x1 := av_i_spr_le & [ STEM < "avasalladormente" >, SYNSEM.LKEYS.KEYREL.PRED "_avasalladormente_x_rel" ]. avasallamiento_n1 := n_trans_le & [ STEM < "avasallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallamiento_n_rel" ]. avasallar_v := v_trans_np_le & [ STEM < "avasallar" >, SYNSEM.LKEYS.KEYREL.PRED "_avasallar_v_rel" ]. avatar_n1 := n_intr_count_le & [ STEM < "avatar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avatar_n_rel" ] ]. ave_n1 := n_intr_count_le & [ STEM < "ave" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ave_n_rel" ] ]. avecinar_v1 := v_pron_intr_io*_le & [ STEM < "avecinar" >, SYNSEM.LKEYS.KEYREL.PRED "_avecinar_v_rel" ]. avecindar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avecindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avecindar_v_rel" ] ] ]. avecindar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "avecindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avecindar_v_rel" ] ] ]. avefría_n1 := n_intr_count_le & [ STEM < "avefría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avefría_n_rel" ] ]. avellana_n1 := n_intr_mass_le & [ STEM < "avellana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avellana_n_rel" ] ]. avellanado_n1 := n_trans_le & [ STEM < "avellanado" >, SYNSEM.LKEYS.KEYREL.PRED "_avellanado_n_rel" ]. avellanador_n1 := n_intr_count_le & [ STEM < "avellanador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avellanador_n_rel" ] ]. avellanar_n1 := n_intr_count_le & [ STEM < "avellanar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avellanar_n_rel" ] ]. avellaneda_n1 := n_intr_count_le & [ STEM < "avellaneda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avellaneda_n_rel" ] ]. avellanero_n1 := n_intr_count_le & [ STEM < "avellanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_avellanero_n_rel" ] ]. avellano_n1 := n_intr_count_le & [ STEM < "avellano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_avellano_n_rel" ] ]. avena_n1 := n_intr_mass_le & [ STEM < "avena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avena_n_rel" ] ]. avenencia_n1 := n_intr_count_le & [ STEM < "avenencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avenencia_n_rel" ] ]. avenida_n1 := n_intr_count_le & [ STEM < "avenida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_avenida_n_rel" ] ]. avenir_v1 := v_pron_intr_mrkd_np*_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. avenir_v2 := v_pron_intr_mrkd_np_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. avenir_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "avenir" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_avenir_v_rel" ] ]. aventador_a1 := a_rel_nonprd_intr_le & [ STEM < "aventador" >, SYNSEM.LKEYS.KEYREL.PRED "_aventador_a_rel" ]. aventador_a2 := a_qual_intr_ser_le & [ STEM < "aventador" >, SYNSEM.LKEYS.KEYREL.PRED "_aventador_a_rel" ]. aventadora_n1 := n_intr_count_le & [ STEM < "aventadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aventadora_n_rel" ] ]. aventajar_v := v_trans_np_mrkd_np*_le & [ STEM < "aventajar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_aventajar_v_rel" ] ]. aventar_v1 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "aventar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_aventar_v_rel" ] ] ]. aventar_v2 := v_pron_intr_mrkd_np_le & [ STEM < "aventar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, ARG2.SORT loc, PRED "_aventar_v_rel" ] ] ]. aventura_n1 := n_intr_count_le & [ STEM < "aventura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aventura_n_rel" ] ]. aventurar_v1 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "aventurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aventurar_v_rel" ] ]. aventurar_v2 := v_pron_intr_mrkd_np*_le & [ STEM < "aventurar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_aventurar_v_rel" ] ]. aventurar_v3 := v_trans_cp_prop_fin_le & [ STEM < "aventurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_aventurar_v_rel" ] ]. aventurar_v4 := v_trans_np_le & [ STEM < "aventurar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_aventurar_v_rel" ] ]. aventureramente_x1 := av_i_spr_le & [ STEM < "aventureramente" >, SYNSEM.LKEYS.KEYREL.PRED "_aventureramente_x_rel" ]. aventurero_a1 := a_qual_intr_ser_le & [ STEM < "aventurero" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurero_a_rel" ]. aventurero_n1 := n_intr_count_le & [ STEM < "aventurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aventurero_n_rel" ] ]. aventurina_n1 := n_intr_count_le & [ STEM < "aventurina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_aventurina_n_rel" ] ]. aventurinado_a1 := a_qual_intr_ser_le & [ STEM < "aventurinado" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurinado_a_rel" ]. aventurine_n1 := n_intr_mass_le & [ STEM < "aventurine" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aventurine_n_rel" ] ]. aventurinee_n1 := n_intr_mass_le & [ STEM < "aventurinee" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_aventurinee_n_rel" ] ]. aventurino_a1 := a_qual_intr_ser_le & [ STEM < "aventurino" >, SYNSEM.LKEYS.KEYREL.PRED "_aventurino_a_rel" ]. avergonzar_v1 := v_intr_io*_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avergonzar_v_rel" ]. avergonzar_v2 := v_pron_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_avergonzar_v_rel" ] ] ]. avergonzar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS [ --COMPKEY de_or_por_p_sel_rel, KEYREL.PRED "_avergonzar_v_rel" ] ]. avergonzar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "avergonzar" >, SYNSEM.LKEYS.KEYREL.PRED "_avergonzar_v_rel" ]. averiar_v := v_trans_np_caus_le & [ STEM < "averiar" >, SYNSEM.LKEYS.KEYREL.PRED "_averiar_v_rel" ]. averiguable_a1 := a_rel_nonprd_intr_le & [ STEM < "averiguable" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguable_a_rel" ]. averiguación_n1 := n_trans_le & [ STEM < "averiguación" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguación_n_rel" ]. averiguar_v1 := v_trans_cp_prop_fin_ind_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_averiguar_v_rel" ] ]. averiguar_v2 := v_trans_cp_semi_ques_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL.PRED "_averiguar_v_rel" ]. averiguar_v3 := v_trans_np_le & [ STEM < "averiguar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, ARG2.SORT abs_pro, PRED "_averiguar_v_rel" ] ]. averrugado_a1 := a_qual_intr_ser_le & [ STEM < "averrugado" >, SYNSEM.LKEYS.KEYREL.PRED "_averrugado_a_rel" ]. aversión_n1 := n_intr_mass-or-count_le & [ STEM < "aversión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aversión_n_rel" ] ]. avería_n1 := n_intr_count_le & [ STEM < "avería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avería_n_rel" ] ]. avestruz_n1 := n_intr_count_le & [ STEM < "avestruz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avestruz_n_rel" ] ]. avetoro_n1 := n_intr_count_le & [ STEM < "avetoro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avetoro_n_rel" ] ]. aviación_n1 := n_intr_uncount_le & [ STEM < "aviación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_aviación_n_rel" ] ]. aviador_n1 := n_intr_count_le & [ STEM < "aviador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_aviador_n_rel" ] ]. aviar_v := v_trans_np_le & [ STEM < "aviar" >, SYNSEM.LKEYS.KEYREL.PRED "_aviar_v_rel" ]. avicultor_n1 := n_intr_count_le & [ STEM < "avicultor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avicultor_n_rel" ] ]. avicultura_n1 := n_intr_uncount_le & [ STEM < "avicultura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avicultura_n_rel" ] ]. avidez_n1 := n_ppcomp_uncount_le & [ STEM < "avidez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avidez_n_rel" ] ]. avidina_n1 := n_intr_count_le & [ STEM < "avidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avidina_n_rel" ] ]. avilense_n1 := n_intr_count_le & [ STEM < "avilense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avilense_n_rel" ] ]. avilés_a1 := a_qual_intr_ser_le & [ STEM < "avilés" >, SYNSEM.LKEYS.KEYREL.PRED "_avilés_a_rel" ]. avilés_n1 := n_intr_count_le & [ STEM < "avilés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_avilés_n_rel" ] ]. avioneta_n1 := n_intr_count_le & [ STEM < "avioneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avioneta_n_rel" ] ]. avisador_a1 := a_qual_intr_ser_le & [ STEM < "avisador" >, SYNSEM.LKEYS.KEYREL.PRED "_avisador_a_rel" ]. avisador_n1 := n_intr_count_le & [ STEM < "avisador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avisador_n_rel" ] ]. avisar_v1 := v_trans_np_mrkd_np*_le & [ STEM < "avisar" >, SYNSEM.LKEYS [ --OCOMPKEY de_or_materia_p_sel_rel, KEYREL.PRED "_avisar_v_rel" ] ]. avisar_v2 := v_trans_np*_mrkd_or_unmrkd_cp_prop_fin_ind_le & [ STEM < "avisar" >, SYNSEM.LKEYS [ --OCOMPKEY de_sel_or_indp_rel, KEYREL.PRED "_avisar_v_rel" ] ]. aviso_n1 := n_intr_mass_le & [ STEM < "aviso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_aviso_n_rel" ] ]. avispa_n1 := n_intr_count_le & [ STEM < "avispa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avispa_n_rel" ] ]. avispadamente_x1 := av_i_spr_le & [ STEM < "avispadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_avispadamente_x_rel" ]. avispero_n1 := n_intr_count_le & [ STEM < "avispero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_avispero_n_rel" ] ]. avispón_n1 := n_intr_count_le & [ STEM < "avispón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avispón_n_rel" ] ]. avistamiento_n1 := n_trans_le & [ STEM < "avistamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avistamiento_n_rel" ]. avistar_v := v_trans_np_le & [ STEM < "avistar" >, SYNSEM.LKEYS.KEYREL.PRED "_avistar_v_rel" ]. avituallamiento_n1 := n_trans_le & [ STEM < "avituallamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avituallamiento_n_rel" ]. avivamiento_n1 := n_trans_le & [ STEM < "avivamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_avivamiento_n_rel" ]. avivar_v1 := v_subj_cp_prop_trans_np_le & [ STEM < "avivar" >, SYNSEM.LKEYS.KEYREL.PRED "_avivar_v_rel" ]. avivar_v2 := v_trans_np_le & [ STEM < "avivar" >, SYNSEM.LKEYS.KEYREL.PRED "_avivar_v_rel" ]. avión_n1 := n_intr_count_le & [ STEM < "avión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_avión_n_rel" ] ]. avocación_n1 := n_trans_le & [ STEM < "avocación" >, SYNSEM.LKEYS.KEYREL.PRED "_avocación_n_rel" ]. avocar_v := v_trans_np_mrkd_np*_le & [ STEM < "avocar" >, SYNSEM.LKEYS [ --OCOMPKEY a_or_para_p_sel_rel, KEYREL.PRED "_avocar_v_rel" ] ]. avulsión_n1 := n_intr_count_le & [ STEM < "avulsión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_avulsión_n_rel" ] ]. avutarda_n1 := n_intr_count_le & [ STEM < "avutarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_avutarda_n_rel" ] ]. avícola_a1 := a_rel_nonprd_intr_le & [ STEM < "avícola" >, SYNSEM.LKEYS.KEYREL.PRED "_avícola_a_rel" ]. avío_n1 := n_intr_count_le & [ STEM < "avío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_avío_n_rel" ] ]. axial_a1 := a_rel_nonprd_intr_le & [ STEM < "axial" >, SYNSEM.LKEYS.KEYREL.PRED "_axial_a_rel" ]. axialmente_x1 := av_i_spr_le & [ STEM < "axialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_axialmente_x_rel" ]. axil_a1 := a_rel_nonprd_intr_le & [ STEM < "axil" >, SYNSEM.LKEYS.KEYREL.PRED "_axil_a_rel" ]. axila_n1 := n_ppcomp_count_le & [ STEM < "axila" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_axila_n_rel" ] ]. axilar_a1 := a_rel_nonprd_intr_le & [ STEM < "axilar" >, SYNSEM.LKEYS.KEYREL.PRED "_axilar_a_rel" ]. axinita_n1 := n_intr_count_le & [ STEM < "axinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_axinita_n_rel" ] ]. axiodistal_a1 := a_rel_nonprd_intr_le & [ STEM < "axiodistal" >, SYNSEM.LKEYS.KEYREL.PRED "_axiodistal_a_rel" ]. axiolingual_a1 := a_rel_nonprd_intr_le & [ STEM < "axiolingual" >, SYNSEM.LKEYS.KEYREL.PRED "_axiolingual_a_rel" ]. axiología_n1 := n_intr_uncount_le & [ STEM < "axiología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axiología_n_rel" ] ]. axioma_n1 := n_intr_count_le & [ STEM < "axioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_axioma_n_rel" ] ]. axiomesial_a1 := a_rel_nonprd_intr_le & [ STEM < "axiomesial" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomesial_a_rel" ]. axiomática_n1 := n_intr_uncount_le & [ STEM < "axiomática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axiomática_n_rel" ] ]. axiomáticamente_x1 := av_i_spr_le & [ STEM < "axiomáticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomáticamente_x_rel" ]. axiomático_a1 := a_rel_nonprd_intr_le & [ STEM < "axiomático" >, SYNSEM.LKEYS.KEYREL.PRED "_axiomático_a_rel" ]. axis_n1 := n_intr_count_le & [ STEM < "axis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axis_n_rel" ] ]. axolema_n1 := n_intr_count_le & [ STEM < "axolema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_axolema_n_rel" ] ]. axonema_n1 := n_intr_count_le & [ STEM < "axonema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axonema_n_rel" ] ]. axonometría_n1 := n_intr_uncount_le & [ STEM < "axonometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axonometría_n_rel" ] ]. axonométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "axonométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_axonométrico_a_rel" ]. axón_n1 := n_intr_count_le & [ STEM < "axón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_axón_n_rel" ] ]. axónico_a1 := a_rel_nonprd_intr_le & [ STEM < "axónico" >, SYNSEM.LKEYS.KEYREL.PRED "_axónico_a_rel" ]. axópodo_n1 := n_intr_count_le & [ STEM < "axópodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_axópodo_n_rel" ] ]. ayatolá_n1 := n_intr_count_le & [ STEM < "ayatolá" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ayatolá_n_rel" ] ]. ayer_n1 := av_deic_tmp_le & [ STEM < "ayer" >, SYNSEM.LKEYS.ALT2KEYREL.PRED "_ayer_x_rel" ]. ayer_noche_x1 := av_i_le & [ STEM < "ayer_noche" >, SYNSEM.LKEYS.KEYREL.PRED "_ayer_noche_x_rel" ]. ayuda_humanitaria_n1 := n_intr_mass_le & [ STEM < "ayuda_humanitaria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ayuda_humanitaria_n_rel" ] ]. ayuda_n1 := n_trans_le & [ STEM < "ayuda" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuda_n_rel" ]. ayudante_n1 := n_intr_count_le & [ STEM < "ayudante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ayudante_n_rel" ] ]. ayudantía_n1 := n_intr_count_le & [ STEM < "ayudantía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum_loc, PRED "_ayudantía_n_rel" ] ]. ayudar_v1 := v_intr_io*_le & [ STEM < "ayudar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayudar_v_rel" ]. ayudar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "ayudar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayudar_v_rel" ]. ayudar_v3 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "ayudar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ayudar_v_rel" ] ] ]. ayudar_v4 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "ayudar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_ayudar_v_rel" ] ] ]. ayunar_v := v_intr_le & [ STEM < "ayunar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayunar_v_rel" ]. ayuno_n1 := n_result_intr_le & [ STEM < "ayuno" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuno_n_rel" ]. ayuntamiento_n1 := n_intr_count_le & [ STEM < "ayuntamiento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_ayuntamiento_n_rel" ] ]. ayustar_v := v_trans_np_le & [ STEM < "ayustar" >, SYNSEM.LKEYS.KEYREL.PRED "_ayustar_v_rel" ]. ayuste_n1 := n_trans_le & [ STEM < "ayuste" >, SYNSEM.LKEYS.KEYREL.PRED "_ayuste_n_rel" ]. azabache_n1 := n_intr_mass_le & [ STEM < "azabache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azabache_n_rel" ] ]. azada_n1 := n_intr_count_le & [ STEM < "azada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azada_n_rel" ] ]. azadilla_n1 := n_intr_count_le & [ STEM < "azadilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azadilla_n_rel" ] ]. azadón_n1 := n_intr_count_le & [ STEM < "azadón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azadón_n_rel" ] ]. azafata_n1 := n_intr_count_le & [ STEM < "azafata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azafata_n_rel" ] ]. azafrán_n1 := n_intr_mass_le & [ STEM < "azafrán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_azafrán_n_rel" ] ]. azahar_n1 := n_intr_count_le & [ STEM < "azahar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azahar_n_rel" ] ]. azalea_n1 := n_intr_count_le & [ STEM < "azalea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azalea_n_rel" ] ]. azar_n1 := n_intr_uncount_le & [ STEM < "azar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azar_n_rel" ] ]. azar_n2 := n_intr_count_le & [ STEM < "azar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azar_n_rel" ] ]. azarar_v1 := v_intr_io*_le & [ STEM < "azarar" >, SYNSEM.LKEYS.KEYREL.PRED "_azarar_v_rel" ]. azarar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "azarar" >, SYNSEM.LKEYS.KEYREL.PRED "_azarar_v_rel" ]. azaroso_a1 := a_qual_intr_ser_le & [ STEM < "azaroso" >, SYNSEM.LKEYS.KEYREL.PRED "_azaroso_a_rel" ]. azaserina_n1 := n_intr_count_le & [ STEM < "azaserina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azaserina_n_rel" ] ]. azatioprina_n1 := n_intr_count_le & [ STEM < "azatioprina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azatioprina_n_rel" ] ]. azelato_n1 := n_intr_count_le & [ STEM < "azelato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azelato_n_rel" ] ]. azerbaijano_a1 := a_rel_prd_le & [ STEM < "azerbaijano" >, SYNSEM.LKEYS.KEYREL.PRED "_azerbaijano_a_rel" ]. azerbaijano_n1 := n_intr_count_le & [ STEM < "azerbaijano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azerbaijano_n_rel" ] ]. azida_n1 := n_intr_count_le & [ STEM < "azida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azida_n_rel" ] ]. azimutal_a1 := a_rel_nonprd_intr_le & [ STEM < "azimutal" >, SYNSEM.LKEYS.KEYREL.PRED "_azimutal_a_rel" ]. azina_n1 := n_intr_count_le & [ STEM < "azina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azina_n_rel" ] ]. azobenceno_n1 := n_intr_count_le & [ STEM < "azobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azobenceno_n_rel" ] ]. azofenina_n1 := n_intr_count_le & [ STEM < "azofenina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azofenina_n_rel" ] ]. azoimida_n1 := n_intr_count_le & [ STEM < "azoimida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azoimida_n_rel" ] ]. azoospermia_n1 := n_intr_uncount_le & [ STEM < "azoospermia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azoospermia_n_rel" ] ]. azor_n1 := n_intr_count_le & [ STEM < "azor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_azor_n_rel" ] ]. azorar_v1 := v_intr_io*_le & [ STEM < "azorar" >, SYNSEM.LKEYS.KEYREL.PRED "_azorar_v_rel" ]. azorar_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "azorar" >, SYNSEM.LKEYS.KEYREL.PRED "_azorar_v_rel" ]. azoreño_n1 := n_intr_count_le & [ STEM < "azoreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azoreño_n_rel" ] ]. azotaina_n1 := n_intr_uncount_le & [ STEM < "azotaina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azotaina_n_rel" ] ]. azotar_v1 := v_trans_np_caus_le & [ STEM < "azotar" >, SYNSEM.LKEYS.KEYREL.PRED "_azotar_v_rel" ]. azote_n1 := n_intr_count_le & [ STEM < "azote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_azote_n_rel" ] ]. azotea_n1 := n_intr_count_le & [ STEM < "azotea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_azotea_n_rel" ] ]. azotómetro_n1 := n_intr_count_le & [ STEM < "azotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azotómetro_n_rel" ] ]. azteca_a1 := a_rel_prd_le & [ STEM < "azteca" >, SYNSEM.LKEYS.KEYREL.PRED "_azteca_a_rel" ]. azteca_n1 := n_intr_count_le & [ STEM < "azteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_azteca_n_rel" ] ]. azucarera_n1 := n_intr_count_le & [ STEM < "azucarera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarera_n_rel" ] ]. azucarero_a1 := a_rel_nonprd_intr_le & [ STEM < "azucarero" >, SYNSEM.LKEYS.KEYREL.PRED "_azucarero_a_rel" ]. azucarero_n1 := n_intr_count_le & [ STEM < "azucarero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarero_n_rel" ] ]. azucarería_n1 := n_intr_count_le & [ STEM < "azucarería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarería_n_rel" ] ]. azucarillo_n1 := n_intr_count_le & [ STEM < "azucarillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azucarillo_n_rel" ] ]. azucena_n1 := n_intr_count_le & [ STEM < "azucena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_azucena_n_rel" ] ]. azuche_n1 := n_intr_count_le & [ STEM < "azuche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azuche_n_rel" ] ]. azud_n1 := n_intr_count_le & [ STEM < "azud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azud_n_rel" ] ]. azuda_n1 := n_intr_count_le & [ STEM < "azuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_azuda_n_rel" ] ]. azuela_n1 := n_intr_count_le & [ STEM < "azuela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azuela_n_rel" ] ]. azufaifa_n1 := n_intr_count_le & [ STEM < "azufaifa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_azufaifa_n_rel" ] ]. azufre_n1 := n_intr_mass_le & [ STEM < "azufre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azufre_n_rel" ] ]. azufrera_n1 := n_intr_count_le & [ STEM < "azufrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_azufrera_n_rel" ] ]. azufroso_a1 := a_rel_nonprd_intr_le & [ STEM < "azufroso" >, SYNSEM.LKEYS.KEYREL.PRED "_azufroso_a_rel" ]. azul_a1 := a_qual_intr_ser_le & [ STEM < "azul" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_a_rel" ]. azul_acero_a1 := a_qual_intr_ser_le & [ STEM < "azul_acero" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_acero_a_rel" ]. azul_celeste_a1 := a_qual_intr_ser_le & [ STEM < "azul_celeste" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_celeste_a_rel" ]. azul_cielo_a1 := a_qual_intr_ser_le & [ STEM < "azul_cielo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_cielo_a_rel" ]. azul_claro_a1 := a_qual_intr_ser_le & [ STEM < "azul_claro" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_claro_a_rel" ]. azul_cobalto_a1 := a_qual_intr_ser_le & [ STEM < "azul_cobalto" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_cobalto_a_rel" ]. azul_gris_a1 := a_qual_intr_ser_le & [ STEM < "azul_gris" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_gris_a_rel" ]. azul_marino_a1 := a_qual_intr_ser_le & [ STEM < "azul_marino" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_marino_a_rel" ]. azul_pardo_a1 := a_qual_intr_ser_le & [ STEM < "azul_pardo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_pardo_a_rel" ]. azul_índigo_a1 := a_qual_intr_ser_le & [ STEM < "azul_índigo" >, SYNSEM.LKEYS.KEYREL.PRED "_azul_índigo_a_rel" ]. azulejo_n1 := n_intr_count_le & [ STEM < "azulejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azulejo_n_rel" ] ]. azulgrana_a1 := a_qual_intr_ser_le & [ STEM < "azulgrana" >, SYNSEM.LKEYS.KEYREL.PRED "_azulgrana_a_rel" ]. azur_a1 := a_qual_intr_ser_le & [ STEM < "azur" >, SYNSEM.LKEYS.KEYREL.PRED "_azur_a_rel" ]. azurita_n1 := n_intr_count_le & [ STEM < "azurita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azurita_n_rel" ] ]. azurmalaquita_n1 := n_intr_mass_le & [ STEM < "azurmalaquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_azurmalaquita_n_rel" ] ]. azurófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "azurófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_azurófilo_a_rel" ]. azuzar_v1 := v_trans_np_le & [ STEM < "azuzar" >, SYNSEM.LKEYS.KEYREL.PRED "_azuzar_v_rel" ]. azuzar_v2 := v_trans_np*_mrkd_cp_prop_fin_sub_le & [ STEM < "azuzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_azuzar_v_rel" ] ] ]. azuzar_v3 := v_trans_np*_mrkd_cp_prop_inf_oc_le & [ STEM < "azuzar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG2.SORT hum, PRED "_azuzar_v_rel" ] ] ]. azúcar_n1 := n_intr_mass_le & [ STEM < "azúcar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_azúcar_n_rel" ] ]. aãâ±adir_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_añadir_v_rel" ] ]. aãâ±adir_v2 := v_ditrans*_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_añadir_v_rel" ] ]. aãâ±adir_v3 := v_subj_cp_prop_ditrans*_le & [ STEM < "añadir" >, SYNSEM.LKEYS.KEYREL.PRED "_añadir_v_rel" ]. aãâ±adir_v4 := v_subj_cp_prop_trans_np_mrkd_np_le & [ STEM < "añadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_añadir_v_rel" ] ] ]. aãâ±adir_v5 := v_trans_np_mrkd_np_le & [ STEM < "añadir" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG3.SORT non-hum, PRED "_añadir_v_rel" ] ] ]. aãâ±orar_v1 := v_trans_cp_prop_fin_le & [ STEM < "añorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_añorar_v_rel" ] ]. aãâ±orar_v2 := v_trans_np_le & [ STEM < "añorar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_añorar_v_rel" ] ]. aéreo_a1 := a_rel_nonprd_intr_le & [ STEM < "aéreo" >, SYNSEM.LKEYS.KEYREL.PRED "_aéreo_a_rel" ]. añadido_n1 := n_trans_le & [ STEM < "añadido" >, SYNSEM.LKEYS.KEYREL.PRED "_añadido_n_rel" ]. añejo_a1 := a_qual_intr_scopal_le & [ STEM < "añejo" >, SYNSEM.LKEYS.KEYREL.PRED "_añejo_a_rel" ]. añico_n1 := n_intr_count_le & [ STEM < "añico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_añico_n_rel" ] ]. año_n1 := n_pseudo-part_temp_le & [ STEM < "año" >, SYNSEM.LKEYS.KEYREL.PRED "_año_n_rel" ]. año_n2 := n_intr_temp_le & [ STEM < "año" > ]. añojal_n1 := n_intr_count_le & [ STEM < "añojal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_añojal_n_rel" ] ]. añojo_n1 := n_intr_count_le & [ STEM < "añojo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_añojo_n_rel" ] ]. añoranza_n1 := n_trans_le & [ STEM < "añoranza" >, SYNSEM.LKEYS.KEYREL.PRED "_añoranza_n_rel" ]. aórtico_a1 := a_rel_nonprd_intr_le & [ STEM < "aórtico" >, SYNSEM.LKEYS.KEYREL.PRED "_aórtico_a_rel" ]. aún_así_x1 := av_i_le & [ STEM < "aún_así" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_así_x_rel" ]. aún_con_eso_x1 := av_i_le & [ STEM < "aún_con_eso" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_con_eso_x_rel" ]. aún_cuando_x1 := av_i_le & [ STEM < "aún_cuando" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_cuando_x_rel" ]. aún_x1 := av_i_le & [ STEM < "aún" >, SYNSEM.LKEYS.KEYREL.PRED "_aún_x_rel" ]. baba_n1 := n_intr_mass_le & [ STEM < "baba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baba_n_rel" ] ]. babero_n1 := n_intr_count_le & [ STEM < "babero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_babero_n_rel" ] ]. babilla_n1 := n_intr_count_le & [ STEM < "babilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_babilla_n_rel" ] ]. babilónico_a1 := a_rel_nonprd_intr_le & [ STEM < "babilónico" >, SYNSEM.LKEYS.KEYREL.PRED "_babilónico_a_rel" ]. bable_n1 := n_intr_count_le & [ STEM < "bable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bable_n_rel" ] ]. babor_n1 := n_intr_count_le & [ STEM < "babor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_babor_n_rel" ] ]. babosa_n1 := n_intr_count_le & [ STEM < "babosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_babosa_n_rel" ] ]. baboso_a1 := a_qual_intr_ser_le & [ STEM < "baboso" >, SYNSEM.LKEYS.KEYREL.PRED "_baboso_a_rel" ]. babucha_n1 := n_intr_count_le & [ STEM < "babucha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_babucha_n_rel" ] ]. babuino_n1 := n_intr_count_le & [ STEM < "babuino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_babuino_n_rel" ] ]. baca_n1 := n_intr_count_le & [ STEM < "baca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baca_n_rel" ] ]. bacaladero_n1 := n_intr_count_le & [ STEM < "bacaladero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bacaladero_n_rel" ] ]. bacaladilla_n1 := n_intr_count_le & [ STEM < "bacaladilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacaladilla_n_rel" ] ]. bacalao_n1 := n_intr_count_le & [ STEM < "bacalao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacalao_n_rel" ] ]. bacanal_n1 := n_intr_count_le & [ STEM < "bacanal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacanal_n_rel" ] ]. bacante_n1 := n_intr_count_le & [ STEM < "bacante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bacante_n_rel" ] ]. bacará_n1 := n_intr_count_le & [ STEM < "bacará" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacará_n_rel" ] ]. bache_n1 := n_intr_count_le & [ STEM < "bache" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bache_n_rel" ] ]. bachiller_n1 := n_intr_count_le & [ STEM < "bachiller" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bachiller_n_rel" ] ]. bachillerato_n1 := n_intr_count_le & [ STEM < "bachillerato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bachillerato_n_rel" ] ]. bacilo_n1 := n_intr_count_le & [ STEM < "bacilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacilo_n_rel" ] ]. bacitracina_n1 := n_intr_count_le & [ STEM < "bacitracina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bacitracina_n_rel" ] ]. backgamon_n1 := n_intr_uncount_le & [ STEM < "backgamon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_backgamon_n_rel" ] ]. bacon_n1 := n_intr_count_le & [ STEM < "bacon" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacon_n_rel" ] ]. bacteria_n1 := n_intr_count_le & [ STEM < "bacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacteria_n_rel" ] ]. bacteriano_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriano" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriano_a_rel" ]. bactericida_a1 := a_rel_nonprd_intr_le & [ STEM < "bactericida" >, SYNSEM.LKEYS.KEYREL.PRED "_bactericida_a_rel" ]. bactericida_n1 := n_intr_mass_le & [ STEM < "bactericida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bactericida_n_rel" ] ]. bactericidina_n1 := n_intr_count_le & [ STEM < "bactericidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bactericidina_n_rel" ] ]. bacteriocina_n1 := n_intr_count_le & [ STEM < "bacteriocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriocina_n_rel" ] ]. bacteriolisina_n1 := n_intr_count_le & [ STEM < "bacteriolisina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriolisina_n_rel" ] ]. bacteriología_n1 := n_intr_uncount_le & [ STEM < "bacteriología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriología_n_rel" ] ]. bacteriológicamente_x1 := av_i_spr_le & [ STEM < "bacteriológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriológicamente_x_rel" ]. bacteriológico_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriológico" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriológico_a_rel" ]. bacteriorrodopsina_n1 := n_intr_count_le & [ STEM < "bacteriorrodopsina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriorrodopsina_n_rel" ] ]. bacteriosis_n1 := n_intr_uncount_le & [ STEM < "bacteriosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriosis_n_rel" ] ]. bacteriostato_n1 := n_intr_count_le & [ STEM < "bacteriostato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bacteriostato_n_rel" ] ]. bacteriostático_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriostático" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriostático_a_rel" ]. bacteriófago_n1 := n_intr_count_le & [ STEM < "bacteriófago" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bacteriófago_n_rel" ] ]. bacteriógeno_a1 := a_rel_nonprd_intr_le & [ STEM < "bacteriógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_bacteriógeno_a_rel" ]. bacteriólisis_n1 := n_intr_uncount_le & [ STEM < "bacteriólisis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacteriólisis_n_rel" ] ]. bacteriólogo_n1 := n_intr_count_le & [ STEM < "bacteriólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bacteriólogo_n_rel" ] ]. bacterióstasis_n1 := n_intr_uncount_le & [ STEM < "bacterióstasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bacterióstasis_n_rel" ] ]. baculiforme_a1 := a_qual_intr_ser_le & [ STEM < "baculiforme" >, SYNSEM.LKEYS.KEYREL.PRED "_baculiforme_a_rel" ]. badajo_n1 := n_intr_count_le & [ STEM < "badajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badajo_n_rel" ] ]. badalonés_a1 := a_qual_intr_ser_le & [ STEM < "badalonés" >, SYNSEM.LKEYS.KEYREL.PRED "_badalonés_a_rel" ]. badalonés_n1 := n_intr_count_le & [ STEM < "badalonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_badalonés_n_rel" ] ]. badana_n1 := n_intr_count_le & [ STEM < "badana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badana_n_rel" ] ]. badeleyita_n1 := n_intr_count_le & [ STEM < "badeleyita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badeleyita_n_rel" ] ]. badén_n1 := n_intr_count_le & [ STEM < "badén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_badén_n_rel" ] ]. bagaje_n1 := n_intr_mass_le & [ STEM < "bagaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bagaje_n_rel" ] ]. bagatela_n1 := n_intr_count_le & [ STEM < "bagatela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bagatela_n_rel" ] ]. bagazo_n1 := n_intr_count_le & [ STEM < "bagazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bagazo_n_rel" ] ]. bagurense_n1 := n_intr_count_le & [ STEM < "bagurense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bagurense_n_rel" ] ]. bahameño_a1 := a_qual_intr_ser_le & [ STEM < "bahameño" >, SYNSEM.LKEYS.KEYREL.PRED "_bahameño_a_rel" ]. bahameño_n1 := n_intr_count_le & [ STEM < "bahameño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bahameño_n_rel" ] ]. bahía_n1 := n_intr_count_le & [ STEM < "bahía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bahía_n_rel" ] ]. bailable_a1 := a_rel_nonprd_intr_le & [ STEM < "bailable" >, SYNSEM.LKEYS.KEYREL.PRED "_bailable_a_rel" ]. bailar_v1 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "bailar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ] ]. bailar_v2 := v_intr_mrkd_np_le & [ STEM < "bailar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ] ]. bailar_v3 := v_trans_np*_le & [ STEM < "bailar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bailar_v_rel" ] ]. bailarín_n1 := n_intr_count_le & [ STEM < "bailarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bailarín_n_rel" ] ]. baile_n1 := n_result_intr_le & [ STEM < "baile" >, SYNSEM.LKEYS.KEYREL.PRED "_baile_n_rel" ]. baile_n2 := n_intr_count_le & [ STEM < "baile" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baile_n_rel" ] ]. bailotear_v := v_trans_np*_le & [ STEM < "bailotear" >, SYNSEM.LKEYS.KEYREL.PRED "_bailotear_v_rel" ]. bainita_n1 := n_intr_mass-or-count_le & [ STEM < "bainita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_bainita_n_rel" ] ]. baja_n1 := n_event-result_intr_le & [ STEM < "baja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baja_n_rel" ] ]. bajalengua_n1 := n_intr_count_le & [ STEM < "bajalengua" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajalengua_n_rel" ] ]. bajamar_n1 := n_intr_count_le & [ STEM < "bajamar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajamar_n_rel" ] ]. bajante_n1 := n_intr_count_le & [ STEM < "bajante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajante_n_rel" ] ]. bajapieles_n1 := n_intr_count_le & [ STEM < "bajapieles" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajapieles_n_rel" ] ]. bajar_v1 := v_intr_mrkd_np_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL.PRED "_bajar_v_rel" ] ]. bajar_v2 := v_non_pass_np_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL [ ARG2.SORT mea, PRED "_bajar_v_rel" ] ]. bajar_v3 := v_pron_unacc_lcomp_dir*_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL.PRED "_bajar_v_rel" ]. bajar_v4 := v_trans_np*_mrkd_cp_prop_fin_sub_mov_caus_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --OCOMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_bajar_v_rel" ] ] ]. bajar_v5 := v_trans_np_mrkd_np*_le & [ STEM < "bajar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_bajar_v_rel" ] ]. bajar_v6 := v_trans_np*_lcomp_dir_le & [ STEM < "bajar" >, SYNSEM.LKEYS.KEYREL.PRED "_bajar_v_rel" ]. bajel_n1 := n_intr_count_le & [ STEM < "bajel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajel_n_rel" ] ]. bajero_a1 := a_rel_nonprd_intr_le & [ STEM < "bajero" >, SYNSEM.LKEYS.KEYREL.PRED "_bajero_a_rel" ]. bajeza_n1 := n_ppcomp_count_le & [ STEM < "bajeza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajeza_n_rel" ] ]. bajista_a1 := a_rel_nonprd_intr_le & [ STEM < "bajista" >, SYNSEM.LKEYS.KEYREL.PRED "_bajista_a_rel" ]. bajista_n1 := n_intr_count_le & [ STEM < "bajista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bajista_n_rel" ] ]. bajo_a1 := a_qual_intr_scopal_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_a_rel" ]. bajo_cuerda_x1 := av_i_le & [ STEM < "bajo_cuerda" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_cuerda_x_rel" ]. bajo_juramento_x1 := av_i_le & [ STEM < "bajo_juramento" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_juramento_x_rel" ]. bajo_llave_x1 := av_i_le & [ STEM < "bajo_llave" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_llave_x_rel" ]. bajo_mano_x1 := av_i_le & [ STEM < "bajo_mano" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_mano_x_rel" ]. bajo_n1 := n_intr_count_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_hum, PRED "_bajo_n_rel" ] ]. bajo_ningún_concepto_x1 := av_i_le & [ STEM < "bajo_ningún_concepto" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_ningún_concepto_x_rel" ]. bajo_p_nmod := p_nmod_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED _bajo_p_rel ]. bajo_p_vmod := p_vmod_le & [ STEM < "bajo" >, SYNSEM.LKEYS.KEYREL.PRED _bajo_p_rel ]. bajo_siete_llaves_x1 := av_i_le & [ STEM < "bajo_siete_llaves" >, SYNSEM.LKEYS.KEYREL.PRED "_bajo_siete_llaves_x_rel" ]. bajocarda_n1 := n_intr_count_le & [ STEM < "bajocarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajocarda_n_rel" ] ]. bajorrelieve_n1 := n_intr_count_le & [ STEM < "bajorrelieve" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bajorrelieve_n_rel" ] ]. bajura_n1 := n_ppcomp_count_le & [ STEM < "bajura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajura_n_rel" ] ]. bajío_n1 := n_intr_count_le & [ STEM < "bajío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bajío_n_rel" ] ]. bajón_n1 := n_intr_count_le & [ STEM < "bajón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bajón_n_rel" ] ]. bala_n1 := n_intr_count_le & [ STEM < "bala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bala_n_rel" ] ]. balada_n1 := n_intr_count_le & [ STEM < "balada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balada_n_rel" ] ]. baladí_a1 := a_rel_nonprd_intr_le & [ STEM < "baladí" >, SYNSEM.LKEYS.KEYREL.PRED "_baladí_a_rel" ]. balalaica_n1 := n_intr_count_le & [ STEM < "balalaica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balalaica_n_rel" ] ]. balance_n1 := n_intr_count_le & [ STEM < "balance" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balance_n_rel" ] ]. balanceante_a1 := a_rel_nonprd_intr_le & [ STEM < "balanceante" >, SYNSEM.LKEYS.KEYREL.PRED "_balanceante_a_rel" ]. balancear_v := v_trans_np_caus_le & [ STEM < "balancear" >, SYNSEM.LKEYS.KEYREL.PRED "_balancear_v_rel" ]. balanceo_n1 := n_trans_le & [ STEM < "balanceo" >, SYNSEM.LKEYS.KEYREL.PRED "_balanceo_n_rel" ]. balancímetro_n1 := n_intr_count_le & [ STEM < "balancímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balancímetro_n_rel" ] ]. balancín_n1 := n_intr_count_le & [ STEM < "balancín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balancín_n_rel" ] ]. balandra_n1 := n_intr_count_le & [ STEM < "balandra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balandra_n_rel" ] ]. balandro_n1 := n_intr_count_le & [ STEM < "balandro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balandro_n_rel" ] ]. balanza_n1 := n_intr_count_le & [ STEM < "balanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_balanza_n_rel" ] ]. balar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balar_v_rel" ] ]. balar_v2 := v_ditrans*_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balar_v_rel" ] ]. balar_v3 := v_intr_le & [ STEM < "balar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_balar_v_rel" ] ]. balasto_n1 := n_intr_mass_le & [ STEM < "balasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balasto_n_rel" ] ]. balata_n1 := n_intr_count_le & [ STEM < "balata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_balata_n_rel" ] ]. balaustrada_n1 := n_intr_count_le & [ STEM < "balaustrada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balaustrada_n_rel" ] ]. balaustre_n1 := n_intr_count_le & [ STEM < "balaustre" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balaustre_n_rel" ] ]. balazo_n1 := n_intr_count_le & [ STEM < "balazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balazo_n_rel" ] ]. balbucear_v1 := v_ditrans_cp_prop_fin_ind_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucear_v_rel" ] ]. balbucear_v2 := v_ditrans_cp_ques_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL.PRED "_balbucear_v_rel" ]. balbucear_v3 := v_ditrans*_le & [ STEM < "balbucear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucear_v_rel" ] ]. balbuceo_n1 := n_result_intr_le & [ STEM < "balbuceo" >, SYNSEM.LKEYS.KEYREL.PRED "_balbuceo_n_rel" ]. balbucir_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "balbucir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_balbucir_v_rel" ] ]. balbucir_v2 := v_ditrans*_le & [ STEM < "balbucir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_balbucir_v_rel" ] ]. balcanización_n1 := n_trans_le & [ STEM < "balcanización" >, SYNSEM.LKEYS.KEYREL.PRED "_balcanización_n_rel" ]. balcanizar_v := v_trans_np_caus_le & [ STEM < "balcanizar" >, SYNSEM.LKEYS.KEYREL.PRED "_balcanizar_v_rel" ]. balcánico_a1 := a_rel_prd_le & [ STEM < "balcánico" >, SYNSEM.LKEYS.KEYREL.PRED "_balcánico_a_rel" ]. balcón_n1 := n_intr_count_le & [ STEM < "balcón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_balcón_n_rel" ] ]. balde_n1 := n_intr_count_le & [ STEM < "balde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balde_n_rel" ] ]. baldosa_n1 := n_intr_count_le & [ STEM < "baldosa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baldosa_n_rel" ] ]. baldosín_n1 := n_intr_count_le & [ STEM < "baldosín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baldosín_n_rel" ] ]. baldíamente_x1 := av_i_spr_le & [ STEM < "baldíamente" >, SYNSEM.LKEYS.KEYREL.PRED "_baldíamente_x_rel" ]. baldío_a1 := a_rel_prd_le & [ STEM < "baldío" >, SYNSEM.LKEYS.KEYREL.PRED "_baldío_a_rel" ]. baldío_n1 := n_intr_count_le & [ STEM < "baldío" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_loc, PRED "_baldío_n_rel" ] ]. balear_a1 := a_rel_prd_le & [ STEM < "balear" >, SYNSEM.LKEYS.KEYREL.PRED "_balear_a_rel" ]. balear_n1 := n_intr_count_le & [ STEM < "balear" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balear_n_rel" ] ]. balido_n1 := n_result_intr_le & [ STEM < "balido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balido_n_rel" ] ]. baliza_n1 := n_intr_count_le & [ STEM < "baliza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baliza_n_rel" ] ]. balizamiento_n1 := n_trans_le & [ STEM < "balizamiento" >, SYNSEM.LKEYS.KEYREL.PRED "_balizamiento_n_rel" ]. balizar_v := v_trans_np_le & [ STEM < "balizar" >, SYNSEM.LKEYS.KEYREL.PRED "_balizar_v_rel" ]. ballena_n1 := n_intr_count_le & [ STEM < "ballena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_ballena_n_rel" ] ]. ballenera_n1 := n_intr_count_le & [ STEM < "ballenera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ballenera_n_rel" ] ]. ballenero_a1 := a_rel_nonprd_intr_le & [ STEM < "ballenero" >, SYNSEM.LKEYS.KEYREL.PRED "_ballenero_a_rel" ]. ballenero_n1 := n_intr_count_le & [ STEM < "ballenero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_ballenero_n_rel" ] ]. ballesta_n1 := n_intr_count_le & [ STEM < "ballesta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballesta_n_rel" ] ]. ballestero_n1 := n_intr_count_le & [ STEM < "ballestero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_ballestero_n_rel" ] ]. ballestrinque_n1 := n_intr_count_le & [ STEM < "ballestrinque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballestrinque_n_rel" ] ]. ballestón_n1 := n_intr_count_le & [ STEM < "ballestón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_ballestón_n_rel" ] ]. ballet_n1 := n_intr_uncount_pl_le & [ STEM < "ballet" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_ballet_n_rel" ] ]. balneario_n1 := n_intr_count_le & [ STEM < "balneario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_balneario_n_rel" ] ]. balneoterapia_n1 := n_intr_uncount_le & [ STEM < "balneoterapia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balneoterapia_n_rel" ] ]. balompié_n1 := n_intr_uncount_le & [ STEM < "balompié" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balompié_n_rel" ] ]. baloncestista_n1 := n_intr_count_le & [ STEM < "baloncestista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_baloncestista_n_rel" ] ]. baloncesto_n1 := n_intr_uncount_le & [ STEM < "baloncesto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baloncesto_n_rel" ] ]. balonmanista_n1 := n_intr_count_le & [ STEM < "balonmanista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balonmanista_n_rel" ] ]. balonmano_n1 := n_intr_uncount_le & [ STEM < "balonmano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balonmano_n_rel" ] ]. balonvolea_n1 := n_intr_uncount_le & [ STEM < "balonvolea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balonvolea_n_rel" ] ]. balsa_n1 := n_intr_count_le & [ STEM < "balsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balsa_n_rel" ] ]. balsero_n1 := n_intr_count_le & [ STEM < "balsero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_balsero_n_rel" ] ]. balsámico_a1 := a_rel_nonprd_intr_le & [ STEM < "balsámico" >, SYNSEM.LKEYS.KEYREL.PRED "_balsámico_a_rel" ]. baluarte_n1 := n_intr_count_le & [ STEM < "baluarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baluarte_n_rel" ] ]. baluma_n1 := n_intr_count_le & [ STEM < "baluma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baluma_n_rel" ] ]. balín_n1 := n_intr_count_le & [ STEM < "balín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_balín_n_rel" ] ]. balística_n1 := n_intr_uncount_le & [ STEM < "balística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_balística_n_rel" ] ]. balístico_a1 := a_rel_nonprd_intr_le & [ STEM < "balístico" >, SYNSEM.LKEYS.KEYREL.PRED "_balístico_a_rel" ]. bamba_n1 := n_intr_count_le & [ STEM < "bamba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bamba_n_rel" ] ]. bambalinón_n1 := n_intr_count_le & [ STEM < "bambalinón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bambalinón_n_rel" ] ]. bambolear_v := v_trans_np_caus_le & [ STEM < "bambolear" >, SYNSEM.LKEYS.KEYREL.PRED "_bambolear_v_rel" ]. bamboleo_n1 := n_trans_le & [ STEM < "bamboleo" >, SYNSEM.LKEYS.KEYREL.PRED "_bamboleo_n_rel" ]. bambú_n1 := n_intr_mass_le & [ STEM < "bambú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat_plant, PRED "_bambú_n_rel" ] ]. banal_a1 := a_qual_intr_scopal_le & [ STEM < "banal" >, SYNSEM.LKEYS.KEYREL.PRED "_banal_a_rel" ]. banalidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "banalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_banalidad_n_rel" ] ]. banalizar_v := v_trans_np_le & [ STEM < "banalizar" >, SYNSEM.LKEYS.KEYREL.PRED "_banalizar_v_rel" ]. banana_n1 := n_intr_mass_le & [ STEM < "banana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banana_n_rel" ] ]. bananero_a1 := a_rel_nonprd_intr_le & [ STEM < "bananero" >, SYNSEM.LKEYS.KEYREL.PRED "_bananero_a_rel" ]. bananero_n1 := n_intr_count_le & [ STEM < "bananero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_bananero_n_rel" ] ]. banca_n1 := n_intr_count_le & [ STEM < "banca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_soc, PRED "_banca_n_rel" ] ]. bancada_n1 := n_intr_count_le & [ STEM < "bancada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancada_n_rel" ] ]. bancal_n1 := n_intr_count_le & [ STEM < "bancal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bancal_n_rel" ] ]. bancario_a1 := a_rel_nonprd_intr_le & [ STEM < "bancario" >, SYNSEM.LKEYS.KEYREL.PRED "_bancario_a_rel" ]. bancarrota_n1 := n_intr_uncount_le & [ STEM < "bancarrota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bancarrota_n_rel" ] ]. bancaza_n1 := n_intr_count_le & [ STEM < "bancaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancaza_n_rel" ] ]. banco_n1 := n_intr_count_le & [ STEM < "banco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_banco_n_rel" ] ]. banco_n2 := n_group_le & [ STEM < "banco" >, SYNSEM.LKEYS.KEYREL.PRED "_banco_n_rel" ]. bancocracia_n1 := n_intr_uncount_pl_le & [ STEM < "bancocracia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bancocracia_n_rel" ] ]. bancón_n1 := n_intr_count_le & [ STEM < "bancón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bancón_n_rel" ] ]. banda_n1 := n_intr_count_le & [ STEM < "banda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_soc, PRED "_banda_n_rel" ] ]. bandada_n1 := n_intr_count_le & [ STEM < "bandada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bandada_n_rel" ] ]. bandeja_n1 := n_intr_count_le & [ STEM < "bandeja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandeja_n_rel" ] ]. bandera_n1 := n_intr_count_le & [ STEM < "bandera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandera_n_rel" ] ]. banderilla_n1 := n_intr_count_le & [ STEM < "banderilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderilla_n_rel" ] ]. banderillero_n1 := n_intr_count_le & [ STEM < "banderillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_banderillero_n_rel" ] ]. banderita_n1 := n_intr_count_le & [ STEM < "banderita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderita_n_rel" ] ]. banderola_n1 := n_intr_count_le & [ STEM < "banderola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderola_n_rel" ] ]. banderín_n1 := n_intr_count_le & [ STEM < "banderín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banderín_n_rel" ] ]. bandidaje_n1 := n_intr_mass_le & [ STEM < "bandidaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bandidaje_n_rel" ] ]. bandido_n1 := n_intr_count_le & [ STEM < "bandido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bandido_n_rel" ] ]. bando_n1 := n_intr_count_le & [ STEM < "bando" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem_soc, PRED "_bando_n_rel" ] ]. bandolera_n1 := n_intr_count_le & [ STEM < "bandolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandolera_n_rel" ] ]. bandolero_n1 := n_intr_count_le & [ STEM < "bandolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bandolero_n_rel" ] ]. bandurria_n1 := n_intr_count_le & [ STEM < "bandurria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bandurria_n_rel" ] ]. banjo_n1 := n_intr_count_le & [ STEM < "banjo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banjo_n_rel" ] ]. banquero_n1 := n_intr_count_le & [ STEM < "banquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_banquero_n_rel" ] ]. banqueta_n1 := n_intr_count_le & [ STEM < "banqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banqueta_n_rel" ] ]. banquete_n1 := n_intr_count_le & [ STEM < "banquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_banquete_n_rel" ] ]. banquillo_n1 := n_intr_count_le & [ STEM < "banquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_banquillo_n_rel" ] ]. banquisa_n1 := n_intr_count_le & [ STEM < "banquisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_banquisa_n_rel" ] ]. bantú_n1 := n_intr_count_le & [ STEM < "bantú" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bantú_n_rel" ] ]. bao_n1 := n_intr_count_le & [ STEM < "bao" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bao_n_rel" ] ]. baobab_n1 := n_intr_count_le & [ STEM < "baobab" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_baobab_n_rel" ] ]. baptisterio_n1 := n_intr_count_le & [ STEM < "baptisterio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baptisterio_n_rel" ] ]. baquelita_n1 := n_intr_mass_le & [ STEM < "baquelita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_baquelita_n_rel" ] ]. baqueta_n1 := n_intr_count_le & [ STEM < "baqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baqueta_n_rel" ] ]. baquetilla_n1 := n_intr_count_le & [ STEM < "baquetilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baquetilla_n_rel" ] ]. bar_n1 := n_intr_count_le & [ STEM < "bar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bar_n_rel" ] ]. baraja_n1 := n_intr_count_le & [ STEM < "baraja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baraja_n_rel" ] ]. barajar_v := v_trans_np*_le & [ STEM < "barajar" >, SYNSEM.LKEYS.KEYREL.PRED "_barajar_v_rel" ]. baranda_n1 := n_intr_count_le & [ STEM < "baranda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baranda_n_rel" ] ]. barandilla_n1 := n_intr_count_le & [ STEM < "barandilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barandilla_n_rel" ] ]. baratería_n1 := n_intr_uncount_le & [ STEM < "baratería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baratería_n_rel" ] ]. baratija_n1 := n_intr_count_le & [ STEM < "baratija" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baratija_n_rel" ] ]. baratillo_n1 := n_intr_count_le & [ STEM < "baratillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baratillo_n_rel" ] ]. barato_a1 := a_qual_intr_scopal_le & [ STEM < "barato" >, SYNSEM.LKEYS.KEYREL.PRED "_barato_a_rel" ]. baratura_n1 := n_ppcomp_count_le & [ STEM < "baratura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baratura_n_rel" ] ]. barba_n1 := n_intr_count_le & [ STEM < "barba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barba_n_rel" ] ]. barbacana_n1 := n_intr_count_le & [ STEM < "barbacana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_barbacana_n_rel" ] ]. barbacoa_n1 := n_intr_count_le & [ STEM < "barbacoa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_barbacoa_n_rel" ] ]. barbada_n1 := n_intr_count_le & [ STEM < "barbada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_cnc, PRED "_barbada_n_rel" ] ]. barbar_v1 := v_intr_le & [ STEM < "barbar" >, SYNSEM.LKEYS.KEYREL.PRED "_barbar_v_rel" ]. barbar_v2 := v_trans_np_le & [ STEM < "barbar" >, SYNSEM.LKEYS.KEYREL.PRED "_barbar_v_rel" ]. barbaridad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "barbaridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbaridad_n_rel" ] ]. barbarie_n1 := n_intr_mass-or-count_le & [ STEM < "barbarie" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbarie_n_rel" ] ]. barbarismo_n1 := n_intr_count_le & [ STEM < "barbarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barbarismo_n_rel" ] ]. barbastelo_n1 := n_intr_count_le & [ STEM < "barbastelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbastelo_n_rel" ] ]. barbecho_n1 := n_trans_le & [ STEM < "barbecho" >, SYNSEM.LKEYS.KEYREL.PRED "_barbecho_n_rel" ]. barbecho_n2 := n_intr_count_le & [ STEM < "barbecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barbecho_n_rel" ] ]. barbero_n1 := n_intr_count_le & [ STEM < "barbero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barbero_n_rel" ] ]. barbería_n1 := n_intr_count_le & [ STEM < "barbería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barbería_n_rel" ] ]. barbilampiño_a1 := a_qual_intr_ser_le & [ STEM < "barbilampiño" >, SYNSEM.LKEYS.KEYREL.PRED "_barbilampiño_a_rel" ]. barbilla_n1 := n_ppcomp_count_le & [ STEM < "barbilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_barbilla_n_rel" ] ]. barbillón_n1 := n_intr_count_le & [ STEM < "barbillón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbillón_n_rel" ] ]. barbital_n1 := n_intr_count_le & [ STEM < "barbital" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barbital_n_rel" ] ]. barbitona_n1 := n_intr_count_le & [ STEM < "barbitona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barbitona_n_rel" ] ]. barbitúrico_a1 := a_rel_nonprd_intr_le & [ STEM < "barbitúrico" >, SYNSEM.LKEYS.KEYREL.PRED "_barbitúrico_a_rel" ]. barbitúrico_n1 := n_intr_count_le & [ STEM < "barbitúrico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbitúrico_n_rel" ] ]. barbo_n1 := n_intr_count_le & [ STEM < "barbo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barbo_n_rel" ] ]. barboteo_n1 := n_result_intr_le & [ STEM < "barboteo" >, SYNSEM.LKEYS.KEYREL.PRED "_barboteo_n_rel" ]. barbotina_n1 := n_intr_count_le & [ STEM < "barbotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbotina_n_rel" ] ]. barbour_n1 := n_intr_count_le & [ STEM < "barbour" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barbour_n_rel" ] ]. barbudo_a1 := a_qual_intr_ser_le & [ STEM < "barbudo" >, SYNSEM.LKEYS.KEYREL.PRED "_barbudo_a_rel" ]. barbullar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "barbullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barbullar_v_rel" ] ]. barbullar_v2 := v_ditrans*_le & [ STEM < "barbullar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_barbullar_v_rel" ] ]. barbáricamente_x1 := av_i_spr_le & [ STEM < "barbáricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_barbáricamente_x_rel" ]. barbárico_a1 := a_qual_intr_scopal_le & [ STEM < "barbárico" >, SYNSEM.LKEYS.KEYREL.PRED "_barbárico_a_rel" ]. barca_n1 := n_intr_count_le & [ STEM < "barca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barca_n_rel" ] ]. barcarola_n1 := n_intr_count_le & [ STEM < "barcarola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barcarola_n_rel" ] ]. barcaza_n1 := n_intr_count_le & [ STEM < "barcaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barcaza_n_rel" ] ]. barcelonismo_n1 := n_intr_count_le & [ STEM < "barcelonismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barcelonismo_n_rel" ] ]. barcelonista_a1 := a_rel_prd_le & [ STEM < "barcelonista" >, SYNSEM.LKEYS.KEYREL.PRED "_barcelonista_a_rel" ]. barcelonista_n1 := n_intr_count_le & [ STEM < "barcelonista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barcelonista_n_rel" ] ]. barcelonés_a1 := a_rel_prd_le & [ STEM < "barcelonés" >, SYNSEM.LKEYS.KEYREL.PRED "_barcelonés_a_rel" ]. barcelonés_n1 := n_intr_count_le & [ STEM < "barcelonés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barcelonés_n_rel" ] ]. barco_n1 := n_intr_count_le & [ STEM < "barco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barco_n_rel" ] ]. bardo_n1 := n_intr_count_le & [ STEM < "bardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bardo_n_rel" ] ]. baremo_n1 := n_intr_count_le & [ STEM < "baremo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baremo_n_rel" ] ]. baricentro_n1 := n_intr_count_le & [ STEM < "baricentro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baricentro_n_rel" ] ]. baricéntrico_a1 := a_rel_nonprd_intr_le & [ STEM < "baricéntrico" >, SYNSEM.LKEYS.KEYREL.PRED "_baricéntrico_a_rel" ]. bario_n1 := n_intr_mass_le & [ STEM < "bario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bario_n_rel" ] ]. barisfera_n1 := n_intr_count_le & [ STEM < "barisfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barisfera_n_rel" ] ]. barita_n1 := n_intr_mass_le & [ STEM < "barita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_barita_n_rel" ] ]. baritina_n1 := n_intr_mass-or-count_le & [ STEM < "baritina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_baritina_n_rel" ] ]. barloa_n1 := n_intr_count_le & [ STEM < "barloa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barloa_n_rel" ] ]. barlovento_n1 := n_intr_uncount_le & [ STEM < "barlovento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barlovento_n_rel" ] ]. barniz_n1 := n_intr_mass_le & [ STEM < "barniz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barniz_n_rel" ] ]. barnizado_n1 := n_trans_le & [ STEM < "barnizado" >, SYNSEM.LKEYS.KEYREL.PRED "_barnizado_n_rel" ]. barnizador_n1 := n_subj-nom_le & [ STEM < "barnizador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barnizador_n_rel" ] ]. barnizar_v := v_trans_np_le & [ STEM < "barnizar" >, SYNSEM.LKEYS.KEYREL.PRED "_barnizar_v_rel" ]. baroclínico_a1 := a_rel_nonprd_intr_le & [ STEM < "baroclínico" >, SYNSEM.LKEYS.KEYREL.PRED "_baroclínico_a_rel" ]. barodifusión_n1 := n_trans_le & [ STEM < "barodifusión" >, SYNSEM.LKEYS.KEYREL.PRED "_barodifusión_n_rel" ]. barodontalgia_n1 := n_intr_uncount_le & [ STEM < "barodontalgia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barodontalgia_n_rel" ] ]. barométrico_a1 := a_rel_nonprd_intr_le & [ STEM < "barométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_barométrico_a_rel" ]. baronesa_n1 := n_intr_count_le & [ STEM < "baronesa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_baronesa_n_rel" ] ]. baronía_n1 := n_intr_count_le & [ STEM < "baronía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baronía_n_rel" ] ]. barotitis_n1 := n_intr_uncount_le & [ STEM < "barotitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barotitis_n_rel" ] ]. barotraumatismo_n1 := n_intr_count_le & [ STEM < "barotraumatismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barotraumatismo_n_rel" ] ]. barotraumático_a1 := a_rel_nonprd_intr_le & [ STEM < "barotraumático" >, SYNSEM.LKEYS.KEYREL.PRED "_barotraumático_a_rel" ]. barotrópico_a1 := a_rel_nonprd_intr_le & [ STEM < "barotrópico" >, SYNSEM.LKEYS.KEYREL.PRED "_barotrópico_a_rel" ]. barquero_n1 := n_intr_count_le & [ STEM < "barquero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barquero_n_rel" ] ]. barquilla_n1 := n_intr_count_le & [ STEM < "barquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquilla_n_rel" ] ]. barquillo_n1 := n_intr_count_le & [ STEM < "barquillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquillo_n_rel" ] ]. barquita_n1 := n_intr_count_le & [ STEM < "barquita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barquita_n_rel" ] ]. barra_n1 := n_intr_count_le & [ STEM < "barra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barra_n_rel" ] ]. barra_n2 := n_pseudo-part_le & [ STEM < "barra" >, SYNSEM.LKEYS.KEYREL.PRED "_barra_n_rel" ]. barraca_n1 := n_intr_count_le & [ STEM < "barraca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barraca_n_rel" ] ]. barracuda_n1 := n_intr_count_le & [ STEM < "barracuda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_barracuda_n_rel" ] ]. barracón_n1 := n_intr_count_le & [ STEM < "barracón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barracón_n_rel" ] ]. barranco_n1 := n_intr_count_le & [ STEM < "barranco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barranco_n_rel" ] ]. barranquismo_n1 := n_intr_uncount_le & [ STEM < "barranquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barranquismo_n_rel" ] ]. barrar_v := v_trans_np_le & [ STEM < "barrar" >, SYNSEM.LKEYS.KEYREL.PRED "_barrar_v_rel" ]. barrear_v := v_trans_np_le & [ STEM < "barrear" >, SYNSEM.LKEYS.KEYREL.PRED "_barrear_v_rel" ]. barredora_n1 := n_intr_count_le & [ STEM < "barredora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barredora_n_rel" ] ]. barredura_n1 := n_intr_mass_le & [ STEM < "barredura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barredura_n_rel" ] ]. barreminas_n1 := n_intr_count_le & [ STEM < "barreminas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_barreminas_n_rel" ] ]. barrena_n1 := n_intr_count_le & [ STEM < "barrena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrena_n_rel" ] ]. barrenador_n1 := n_intr_count_le & [ STEM < "barrenador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrenador_n_rel" ] ]. barrenar_v := v_trans_np_le & [ STEM < "barrenar" >, SYNSEM.LKEYS.KEYREL.PRED "_barrenar_v_rel" ]. barrendero_n1 := n_intr_count_le & [ STEM < "barrendero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barrendero_n_rel" ] ]. barreno_n1 := n_intr_count_le & [ STEM < "barreno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreno_n_rel" ] ]. barrer_v1 := v_trans_np_le & [ STEM < "barrer" >, SYNSEM.LKEYS.KEYREL.PRED "_barrer_v_rel" ]. barrer_v2 := v_intr_le & [ STEM < "barrer" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barrer_v_rel" ] ]. barrera_n1 := n_intr_count_le & [ STEM < "barrera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_barrera_n_rel" ] ]. barreta_n1 := n_intr_count_le & [ STEM < "barreta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreta_n_rel" ] ]. barreño_n1 := n_intr_count_le & [ STEM < "barreño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barreño_n_rel" ] ]. barriada_n1 := n_intr_count_le & [ STEM < "barriada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barriada_n_rel" ] ]. barrica_n1 := n_intr_count_le & [ STEM < "barrica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrica_n_rel" ] ]. barricada_n1 := n_intr_count_le & [ STEM < "barricada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barricada_n_rel" ] ]. barrido_n1 := n_trans_le & [ STEM < "barrido" >, SYNSEM.LKEYS.KEYREL.PRED "_barrido_n_rel" ]. barriga_n1 := n_ppcomp_count_le & [ STEM < "barriga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_barriga_n_rel" ] ]. barril_n1 := n_intr_count_le & [ STEM < "barril" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barril_n_rel" ] ]. barrilete_n1 := n_intr_count_le & [ STEM < "barrilete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrilete_n_rel" ] ]. barrilla_n1 := n_intr_count_le & [ STEM < "barrilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrilla_n_rel" ] ]. barrio_n1 := n_intr_count_le & [ STEM < "barrio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barrio_n_rel" ] ]. barrita_n1 := n_intr_count_le & [ STEM < "barrita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrita_n_rel" ] ]. barrizal_n1 := n_intr_count_le & [ STEM < "barrizal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_barrizal_n_rel" ] ]. barro_n1 := n_intr_mass-or-count_le & [ STEM < "barro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_barro_n_rel" ] ]. barrocamente_x1 := av_i_spr_le & [ STEM < "barrocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_barrocamente_x_rel" ]. barroco_a1 := a_rel_nonprd_intr_le & [ STEM < "barroco" >, SYNSEM.LKEYS.KEYREL.PRED "_barroco_a_rel" ]. barroquismo_n1 := n_intr_uncount_le & [ STEM < "barroquismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barroquismo_n_rel" ] ]. barrote_n1 := n_intr_count_le & [ STEM < "barrote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barrote_n_rel" ] ]. barruntar_v1 := v_trans_cp_prop_fin_le & [ STEM < "barruntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barruntar_v_rel" ] ]. barruntar_v2 := v_trans_np_le & [ STEM < "barruntar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_barruntar_v_rel" ] ]. bartrina_n1 := n_intr_count_le & [ STEM < "bartrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bartrina_n_rel" ] ]. barullo_n1 := n_intr_mass_le & [ STEM < "barullo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_barullo_n_rel" ] ]. barítono_n1 := n_intr_count_le & [ STEM < "barítono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barítono_n_rel" ] ]. barógrafo_n1 := n_intr_count_le & [ STEM < "barógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barógrafo_n_rel" ] ]. barómetro_n1 := n_intr_count_le & [ STEM < "barómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_barómetro_n_rel" ] ]. barón_n1 := n_intr_count_le & [ STEM < "barón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_barón_n_rel" ] ]. basal_a1 := a_rel_nonprd_intr_le & [ STEM < "basal" >, SYNSEM.LKEYS.KEYREL.PRED "_basal_a_rel" ]. basalto_n1 := n_intr_mass_le & [ STEM < "basalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_basalto_n_rel" ] ]. basamento_n1 := n_intr_count_le & [ STEM < "basamento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basamento_n_rel" ] ]. basar_v1 := v_trans_np_mrkd_np*_caus_le & [ STEM < "basar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_basar_v_rel" ] ]. basar_v2 := v_trans_np_mrkd_cp_prop_fin_ind_caus_le & [ STEM < "basar" >, SYNSEM.LKEYS [ --OCOMPKEY _en_p_sel_rel, KEYREL.PRED "_basar_v_rel" ] ]. basculable_a1 := a_rel_nonprd_intr_le & [ STEM < "basculable" >, SYNSEM.LKEYS.KEYREL.PRED "_basculable_a_rel" ]. basculación_n1 := n_event-result_intr_le & [ STEM < "basculación" >, SYNSEM.LKEYS.KEYREL.PRED "_basculación_n_rel" ]. basculador_n1 := n_intr_count_le & [ STEM < "basculador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basculador_n_rel" ] ]. basculante_a1 := a_rel_nonprd_intr_le & [ STEM < "basculante" >, SYNSEM.LKEYS.KEYREL.PRED "_basculante_a_rel" ]. bascular_v := v_trans_np*_le & [ STEM < "bascular" >, SYNSEM.LKEYS.KEYREL.PRED "_bascular_v_rel" ]. base_n1 := n_intr_count_le & [ STEM < "base" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc_hum, PRED "_base_n_rel" ] ]. basialveolar_a1 := a_rel_nonprd_intr_le & [ STEM < "basialveolar" >, SYNSEM.LKEYS.KEYREL.PRED "_basialveolar_a_rel" ]. basicidad_n1 := n_ppcomp_mass_le & [ STEM < "basicidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basicidad_n_rel" ] ]. basicraneal_a1 := a_rel_nonprd_intr_le & [ STEM < "basicraneal" >, SYNSEM.LKEYS.KEYREL.PRED "_basicraneal_a_rel" ]. basifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "basifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_basifacial_a_rel" ]. basilar_a1 := a_rel_nonprd_intr_le & [ STEM < "basilar" >, SYNSEM.LKEYS.KEYREL.PRED "_basilar_a_rel" ]. basilisco_n1 := n_intr_count_le & [ STEM < "basilisco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basilisco_n_rel" ] ]. basimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "basimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_basimétrico_a_rel" ]. basiogloso_a1 := a_rel_nonprd_intr_le & [ STEM < "basiogloso" >, SYNSEM.LKEYS.KEYREL.PRED "_basiogloso_a_rel" ]. basivertebral_a1 := a_rel_nonprd_intr_le & [ STEM < "basivertebral" >, SYNSEM.LKEYS.KEYREL.PRED "_basivertebral_a_rel" ]. basión_n1 := n_intr_count_le & [ STEM < "basión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basión_n_rel" ] ]. basión_n2 := n_ppcomp_count_le & [ STEM < "basión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_basión_n_rel" ] ]. basket_n1 := n_intr_uncount_le & [ STEM < "basket" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basket_n_rel" ] ]. basocito_n1 := n_intr_count_le & [ STEM < "basocito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basocito_n_rel" ] ]. basofilia_n1 := n_intr_uncount_le & [ STEM < "basofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_basofilia_n_rel" ] ]. basolateral_a1 := a_rel_nonprd_intr_le & [ STEM < "basolateral" >, SYNSEM.LKEYS.KEYREL.PRED "_basolateral_a_rel" ]. bastamente_x1 := av_i_spr_le & [ STEM < "bastamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bastamente_x_rel" ]. bastante_d := d_qnt-evl-dv_bast_le & [ STEM < "bastante" > ]. bastante_p := pr_part_bastant_le & [ STEM < "bastante" >, SYNSEM.LKEYS.ALTKEYREL.PRED _bastante_q_rel ]. bastante_x1 := av_qnt-deg_le & [ STEM < "bastante" >, SYNSEM.LKEYS.KEYREL.PRED "_bastante_x_deg_rel" ]. bastante_x2 := av_qnt-pron_bast_le & [ STEM < "bastante" > ]. bastantear_v := v_trans_np_le & [ STEM < "bastantear" >, SYNSEM.LKEYS.KEYREL.PRED "_bastantear_v_rel" ]. bastanteo_n1 := n_result_intr_le & [ STEM < "bastanteo" >, SYNSEM.LKEYS.KEYREL.PRED "_bastanteo_n_rel" ]. bastar_v1 := v_intr_io*_le & [ STEM < "bastar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_pro, PRED "_bastar_v_rel" ] ]. bastar_v2 := v_subj_cp_prop_inf_or_fin_sub_intr_io*_le & [ STEM < "bastar" >, SYNSEM.LKEYS.KEYREL.PRED "_bastar_v_rel" ]. bastardo_a1 := a_rel_nonprd_intr_le & [ STEM < "bastardo" >, SYNSEM.LKEYS.KEYREL.PRED "_bastardo_a_rel" ]. bastardo_n1 := n_intr_count_le & [ STEM < "bastardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bastardo_n_rel" ] ]. bastecer_v := v_trans_np_mrkd_np_le & [ STEM < "bastecer" >, SYNSEM.LKEYS [ --OCOMPKEY con_or_de_p_sel_rel, KEYREL.PRED "_bastecer_v_rel" ] ]. bastidor_n1 := n_intr_count_le & [ STEM < "bastidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bastidor_n_rel" ] ]. bastimento_n1 := n_intr_count_le & [ STEM < "bastimento" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastimento_n_rel" ] ]. bastión_n1 := n_intr_count_le & [ STEM < "bastión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastión_n_rel" ] ]. bastnesita_n1 := n_intr_count_le & [ STEM < "bastnesita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bastnesita_n_rel" ] ]. basto_a1 := a_qual_intr_ser_le & [ STEM < "basto" >, SYNSEM.LKEYS.KEYREL.PRED "_basto_a_rel" ]. basto_n1 := n_intr_count_le & [ STEM < "basto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_basto_n_rel" ] ]. bastoncillo_n1 := n_intr_count_le & [ STEM < "bastoncillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastoncillo_n_rel" ] ]. bastón_n1 := n_intr_count_le & [ STEM < "bastón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bastón_n_rel" ] ]. basura_n1 := n_intr_mass_le & [ STEM < "basura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basura_n_rel" ] ]. basurero_n1 := n_intr_count_le & [ STEM < "basurero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_basurero_n_rel" ] ]. basáltico_a1 := a_rel_nonprd_intr_le & [ STEM < "basáltico" >, SYNSEM.LKEYS.KEYREL.PRED "_basáltico_a_rel" ]. basílica_n1 := n_intr_count_le & [ STEM < "basílica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_basílica_n_rel" ] ]. basófilo_a1 := a_rel_nonprd_intr_le & [ STEM < "basófilo" >, SYNSEM.LKEYS.KEYREL.PRED "_basófilo_a_rel" ]. basófilo_n1 := n_intr_count_le & [ STEM < "basófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_basófilo_n_rel" ] ]. bata_n1 := n_intr_count_le & [ STEM < "bata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bata_n_rel" ] ]. batacazo_n1 := n_intr_count_le & [ STEM < "batacazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batacazo_n_rel" ] ]. batalla_n1 := n_result_intr_ppcomp_le & [ STEM < "batalla" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_batalla_n_rel" ] ]. batallar_v := v_intr_le & [ STEM < "batallar" >, SYNSEM.LKEYS.KEYREL.PRED "_batallar_v_rel" ]. batanero_n1 := n_intr_count_le & [ STEM < "batanero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_batanero_n_rel" ] ]. batanga_n1 := n_intr_count_le & [ STEM < "batanga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batanga_n_rel" ] ]. batata_n1 := n_intr_count_le & [ STEM < "batata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_batata_n_rel" ] ]. batazo_n1 := n_intr_count_le & [ STEM < "batazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batazo_n_rel" ] ]. bate_n1 := n_intr_count_le & [ STEM < "bate" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bate_n_rel" ] ]. batea_n1 := n_intr_count_le & [ STEM < "batea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batea_n_rel" ] ]. bateador_a1 := a_rel_nonprd_intr_le & [ STEM < "bateador" >, SYNSEM.LKEYS.KEYREL.PRED "_bateador_a_rel" ]. bateador_n1 := n_subj-nom_le & [ STEM < "bateador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bateador_n_rel" ] ]. batefuegos_n1 := n_intr_count_le & [ STEM < "batefuegos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batefuegos_n_rel" ] ]. bateo_n1 := n_trans_le & [ STEM < "bateo" >, SYNSEM.LKEYS.KEYREL.PRED "_bateo_n_rel" ]. batería_n1 := n_intr_count_le & [ STEM < "batería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batería_n_rel" ] ]. batial_a1 := a_rel_nonprd_intr_le & [ STEM < "batial" >, SYNSEM.LKEYS.KEYREL.PRED "_batial_a_rel" ]. batiburrillo_n1 := n_intr_uncount_pl_le & [ STEM < "batiburrillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batiburrillo_n_rel" ] ]. batida_n1 := n_intr_count_le & [ STEM < "batida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batida_n_rel" ] ]. batidera_n1 := n_intr_count_le & [ STEM < "batidera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batidera_n_rel" ] ]. batido_n1 := n_intr_mass_le & [ STEM < "batido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batido_n_rel" ] ]. batidor_n1 := n_intr_count_le & [ STEM < "batidor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batidor_n_rel" ] ]. batidora_n1 := n_intr_count_le & [ STEM < "batidora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_batidora_n_rel" ] ]. batiente_n1 := n_intr_count_le & [ STEM < "batiente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batiente_n_rel" ] ]. batik_n1 := n_intr_uncount_le & [ STEM < "batik" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batik_n_rel" ] ]. batimetría_n1 := n_intr_count_le & [ STEM < "batimetría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batimetría_n_rel" ] ]. batimiento_n1 := n_trans_le & [ STEM < "batimiento" >, SYNSEM.LKEYS.KEYREL.PRED "_batimiento_n_rel" ]. batimétricamente_x1 := av_i_spr_le & [ STEM < "batimétricamente" >, SYNSEM.LKEYS.KEYREL.PRED "_batimétricamente_x_rel" ]. batimétrico_a1 := a_rel_nonprd_intr_le & [ STEM < "batimétrico" >, SYNSEM.LKEYS.KEYREL.PRED "_batimétrico_a_rel" ]. batipelágico_a1 := a_rel_nonprd_intr_le & [ STEM < "batipelágico" >, SYNSEM.LKEYS.KEYREL.PRED "_batipelágico_a_rel" ]. batir_v1 := v_pron_intr_mrkd_np_sym_le & [ STEM < "batir" >, SYNSEM.LKEYS [ --COMPKEY _con_p_sel_rel, KEYREL.PRED "_batir_v_rel" ] ]. batir_v2 := v_trans_np_le & [ STEM < "batir" >, SYNSEM.LKEYS.KEYREL.PRED "_batir_v_rel" ]. batiscafo_n1 := n_intr_count_le & [ STEM < "batiscafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batiscafo_n_rel" ] ]. batisfera_n1 := n_intr_count_le & [ STEM < "batisfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_batisfera_n_rel" ] ]. batista_n1 := n_intr_mass_le & [ STEM < "batista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_batista_n_rel" ] ]. batitermógrafo_n1 := n_intr_count_le & [ STEM < "batitermógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batitermógrafo_n_rel" ] ]. batuta_n1 := n_intr_count_le & [ STEM < "batuta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batuta_n_rel" ] ]. batán_n1 := n_intr_count_le & [ STEM < "batán" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batán_n_rel" ] ]. batímetro_n1 := n_intr_count_le & [ STEM < "batímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_batímetro_n_rel" ] ]. baud_n := n_intr_count_le & [ STEM < "baud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_baud_n_rel" ] ]. baudio_n := n_intr_count_le & [ STEM < "baudio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_baudio_n_rel" ] ]. bautismal_a1 := a_rel_nonprd_intr_le & [ STEM < "bautismal" >, SYNSEM.LKEYS.KEYREL.PRED "_bautismal_a_rel" ]. bautismo_n1 := n_intr_count_le & [ STEM < "bautismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bautismo_n_rel" ] ]. bautizo_n1 := n_event-result_intr_le & [ STEM < "bautizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bautizo_n_rel" ] ]. bauxita_n1 := n_intr_mass_le & [ STEM < "bauxita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bauxita_n_rel" ] ]. baya_n1 := n_intr_count_le & [ STEM < "baya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baya_n_rel" ] ]. bayadera_n1 := n_intr_count_le & [ STEM < "bayadera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bayadera_n_rel" ] ]. bayesiano_a1 := a_rel_nonprd_intr_le & [ STEM < "bayesiano" >, SYNSEM.LKEYS.KEYREL.PRED "_bayesiano_a_rel" ]. bayeta_n1 := n_intr_count_le & [ STEM < "bayeta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bayeta_n_rel" ] ]. bayoneta_n1 := n_intr_count_le & [ STEM < "bayoneta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bayoneta_n_rel" ] ]. baza_n1 := n_intr_count_le & [ STEM < "baza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_baza_n_rel" ] ]. bazar_n1 := n_intr_count_le & [ STEM < "bazar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bazar_n_rel" ] ]. bazo_n1 := n_intr_count_le & [ STEM < "bazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bazo_n_rel" ] ]. bazofia_n1 := n_intr_mass_le & [ STEM < "bazofia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bazofia_n_rel" ] ]. bañador_n1 := n_intr_count_le & [ STEM < "bañador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bañador_n_rel" ] ]. bañera_n1 := n_intr_count_le & [ STEM < "bañera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bañera_n_rel" ] ]. bañista_n1 := n_intr_count_le & [ STEM < "bañista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bañista_n_rel" ] ]. baño_n1 := n_intr_count_le & [ STEM < "baño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_baño_n_rel" ] ]. baúl_n1 := n_intr_count_le & [ STEM < "baúl" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_baúl_n_rel" ] ]. beatamente_x1 := av_i_spr_le & [ STEM < "beatamente" >, SYNSEM.LKEYS.KEYREL.PRED "_beatamente_x_rel" ]. beatificación_n1 := n_trans_le & [ STEM < "beatificación" >, SYNSEM.LKEYS.KEYREL.PRED "_beatificación_n_rel" ]. beatitud_n1 := n_intr_uncount_le & [ STEM < "beatitud" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beatitud_n_rel" ] ]. beatnik_n1 := n_intr_count_le & [ STEM < "beatnik" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beatnik_n_rel" ] ]. beato_a1 := a_qual_intr_ser_le & [ STEM < "beato" >, SYNSEM.LKEYS.KEYREL.PRED "_beato_a_rel" ]. beato_n1 := n_intr_count_le & [ STEM < "beato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beato_n_rel" ] ]. beatífico_a1 := a_rel_nonprd_intr_le & [ STEM < "beatífico" >, SYNSEM.LKEYS.KEYREL.PRED "_beatífico_a_rel" ]. bebedero_n1 := n_intr_count_le & [ STEM < "bebedero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bebedero_n_rel" ] ]. bebedor_n1 := n_subj-nom_le & [ STEM < "bebedor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bebedor_n_rel" ] ]. beber_v1 := v_pron_trans_np_le & [ STEM < "beber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_beber_v_rel" ] ]. beber_v2 := v_trans_np*_le & [ STEM < "beber" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, ARG2.SORT cnc_mat, PRED "_beber_v_rel" ] ]. bebible_a1 := a_qual_intr_scopal_le & [ STEM < "bebible" >, SYNSEM.LKEYS.KEYREL.PRED "_bebible_a_rel" ]. bebida_n1 := n_intr_mass_le & [ STEM < "bebida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bebida_n_rel" ] ]. bebé_n1 := n_intr_count_le & [ STEM < "bebé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bebé_n_rel" ] ]. beca_n1 := n_intr_count_le & [ STEM < "beca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beca_n_rel" ] ]. becada_n1 := n_intr_count_le & [ STEM < "becada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_becada_n_rel" ] ]. becar_v := v_trans_np_le & [ STEM < "becar" >, SYNSEM.LKEYS.KEYREL.PRED "_becar_v_rel" ]. becario_n1 := n_intr_count_le & [ STEM < "becario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_becario_n_rel" ] ]. becerro_n1 := n_intr_count_le & [ STEM < "becerro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_becerro_n_rel" ] ]. bechamel_n1 := n_intr_count_le & [ STEM < "bechamel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bechamel_n_rel" ] ]. becquerel_n := n_intr_count_le & [ STEM < "becquerel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_becquerel_n_rel" ] ]. becuadro_n1 := n_intr_count_le & [ STEM < "becuadro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_becuadro_n_rel" ] ]. bedel_n1 := n_intr_count_le & [ STEM < "bedel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bedel_n_rel" ] ]. beduino_a1 := a_rel_prd_le & [ STEM < "beduino" >, SYNSEM.LKEYS.KEYREL.PRED "_beduino_a_rel" ]. beduino_n1 := n_intr_count_le & [ STEM < "beduino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beduino_n_rel" ] ]. begonia_n1 := n_intr_count_le & [ STEM < "begonia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_begonia_n_rel" ] ]. behaviorismo_n1 := n_intr_uncount_le & [ STEM < "behaviorismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_behaviorismo_n_rel" ] ]. behenato_n1 := n_intr_count_le & [ STEM < "behenato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_behenato_n_rel" ] ]. beige_a1 := a_qual_intr_ser_le & [ STEM < "beige" >, SYNSEM.LKEYS.KEYREL.PRED "_beige_a_rel" ]. beisbolista_n1 := n_intr_count_le & [ STEM < "beisbolista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beisbolista_n_rel" ] ]. beldad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "beldad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beldad_n_rel" ] ]. beleño_n1 := n_intr_count_le & [ STEM < "beleño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_beleño_n_rel" ] ]. belga_a1 := a_rel_prd_le & [ STEM < "belga" >, SYNSEM.LKEYS.KEYREL.PRED "_belga_a_rel" ]. belga_n1 := n_intr_count_le & [ STEM < "belga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_belga_n_rel" ] ]. beliceño_a1 := a_rel_prd_le & [ STEM < "beliceño" >, SYNSEM.LKEYS.KEYREL.PRED "_beliceño_a_rel" ]. beliceño_n1 := n_intr_count_le & [ STEM < "beliceño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beliceño_n_rel" ] ]. belicismo_n1 := n_ppcomp_uncount_le & [ STEM < "belicismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_belicismo_n_rel" ] ]. belicista_a1 := a_qual_intr_ser_le & [ STEM < "belicista" >, SYNSEM.LKEYS.KEYREL.PRED "_belicista_a_rel" ]. belicista_n1 := n_intr_count_le & [ STEM < "belicista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_belicista_n_rel" ] ]. belicosamente_x1 := av_i_spr_le & [ STEM < "belicosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_belicosamente_x_rel" ]. belicoso_a1 := a_rel_nonprd_intr_le & [ STEM < "belicoso" >, SYNSEM.LKEYS.KEYREL.PRED "_belicoso_a_rel" ]. beligerancia_n1 := n_ppcomp_uncount_le & [ STEM < "beligerancia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beligerancia_n_rel" ] ]. beligerante_a1 := a_rel_nonprd_intr_le & [ STEM < "beligerante" >, SYNSEM.LKEYS.KEYREL.PRED "_beligerante_a_rel" ]. beligerantemente_x1 := av_i_spr_le & [ STEM < "beligerantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_beligerantemente_x_rel" ]. belinógrafo_n1 := n_intr_count_le & [ STEM < "belinógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_belinógrafo_n_rel" ] ]. bellaco_n1 := n_intr_count_le & [ STEM < "bellaco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bellaco_n_rel" ] ]. belladona_n1 := n_intr_mass-or-count_le & [ STEM < "belladona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_belladona_n_rel" ] ]. bellamente_x1 := av_i_spr_le & [ STEM < "bellamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bellamente_x_rel" ]. bellaquería_n1 := n_intr_uncount_pl_le & [ STEM < "bellaquería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bellaquería_n_rel" ] ]. belleza_n1 := n_ppcomp_uncount_le & [ STEM < "belleza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_belleza_n_rel" ] ]. bello_a1 := a_qual_intr_scopal_le & [ STEM < "bello" >, SYNSEM.LKEYS.KEYREL.PRED "_bello_a_rel" ]. bellota_n1 := n_intr_mass_le & [ STEM < "bellota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bellota_n_rel" ] ]. bemol_n1 := n_intr_count_le & [ STEM < "bemol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bemol_n_rel" ] ]. benceno_n1 := n_intr_mass_le & [ STEM < "benceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benceno_n_rel" ] ]. bencenofosfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bencenofosfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bencenofosfónico_a_rel" ]. bencenosulfonbutilamida_n1 := n_intr_count_le & [ STEM < "bencenosulfonbutilamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bencenosulfonbutilamida_n_rel" ] ]. bencenosulfónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bencenosulfónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bencenosulfónico_a_rel" ]. bencidina_n1 := n_intr_count_le & [ STEM < "bencidina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bencidina_n_rel" ] ]. bencilanilina_n1 := n_intr_count_le & [ STEM < "bencilanilina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bencilanilina_n_rel" ] ]. bencina_n1 := n_intr_mass_le & [ STEM < "bencina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bencina_n_rel" ] ]. bendecir_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "bendecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bendecir_v_rel" ] ]. bendecir_v2 := v_trans_np_le & [ STEM < "bendecir" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bendecir_v_rel" ] ]. bendición_n1 := n_trans_le & [ STEM < "bendición" >, SYNSEM.LKEYS.KEYREL.PRED "_bendición_n_rel" ]. bendito_a1 := a_rel_nonprd_intr_le & [ STEM < "bendito" >, SYNSEM.LKEYS.KEYREL.PRED "_bendito_a_rel" ]. benedictino_n1 := n_intr_count_le & [ STEM < "benedictino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benedictino_n_rel" ] ]. benefactor_n1 := n_intr_count_le & [ STEM < "benefactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benefactor_n_rel" ] ]. beneficencia_n1 := n_intr_mass_le & [ STEM < "beneficencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beneficencia_n_rel" ] ]. beneficiar_v1 := v_intr_io*_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v2 := v_pron_intr_mrkd_cp_prop_fin_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, PRED "_beneficiar_v_rel" ] ] ]. beneficiar_v3 := v_pron_intr_mrkd_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS [ --COMPKEY _de_p_sel_rel, KEYREL [ ARG1.SORT ani_hum, ARG2.SORT abs_pro, PRED "_beneficiar_v_rel" ] ] ]. beneficiar_v4 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v5 := v_subj_cp_prop_trans_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiar_v6 := v_trans_np_le & [ STEM < "beneficiar" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiar_v_rel" ]. beneficiario_a1 := a_qual_intr_ser_le & [ STEM < "beneficiario" >, SYNSEM.LKEYS.KEYREL.PRED "_beneficiario_a_rel" ]. beneficiario_n1 := n_intr_count_le & [ STEM < "beneficiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beneficiario_n_rel" ] ]. beneficio_n1 := n_intr_mass_le & [ STEM < "beneficio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beneficio_n_rel" ] ]. beneficioso_a1 := a_qual_trans*_ser_le & [ STEM < "beneficioso" >, SYNSEM.LKEYS [ --COMPKEY _para_p_sel_rel, KEYREL.PRED "_beneficioso_a_rel" ] ]. beneplácito_n1 := n_intr_uncount_pl_le & [ STEM < "beneplácito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beneplácito_n_rel" ] ]. benevolencia_n1 := n_intr_mass_le & [ STEM < "benevolencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_benevolencia_n_rel" ] ]. benevolente_a1 := a_qual_intr_ser_le & [ STEM < "benevolente" >, SYNSEM.LKEYS.KEYREL.PRED "_benevolente_a_rel" ]. benevolentemente_x1 := av_i_spr_le & [ STEM < "benevolentemente" >, SYNSEM.LKEYS.KEYREL.PRED "_benevolentemente_x_rel" ]. bengala_n1 := n_intr_count_le & [ STEM < "bengala" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bengala_n_rel" ] ]. bengalí_a1 := a_rel_prd_le & [ STEM < "bengalí" >, SYNSEM.LKEYS.KEYREL.PRED "_bengalí_a_rel" ]. bengalí_n1 := n_intr_count_le & [ STEM < "bengalí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bengalí_n_rel" ] ]. benignamente_x1 := av_i_spr_le & [ STEM < "benignamente" >, SYNSEM.LKEYS.KEYREL.PRED "_benignamente_x_rel" ]. benignidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "benignidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_benignidad_n_rel" ] ]. benigno_a1 := a_qual_intr_scopal_le & [ STEM < "benigno" >, SYNSEM.LKEYS.KEYREL.PRED "_benigno_a_rel" ]. beninés_n1 := n_intr_count_le & [ STEM < "beninés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_beninés_n_rel" ] ]. benjamín_n1 := n_intr_count_le & [ STEM < "benjamín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_benjamín_n_rel" ] ]. benjuí_n1 := n_intr_count_le & [ STEM < "benjuí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benjuí_n_rel" ] ]. bentonita_n1 := n_intr_mass_le & [ STEM < "bentonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bentonita_n_rel" ] ]. bentos_n1 := n_intr_coll_le & [ STEM < "bentos" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bentos_n_rel" ] ]. bentónico_a1 := a_rel_nonprd_intr_le & [ STEM < "bentónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bentónico_a_rel" ]. benzalconio_n1 := n_intr_count_le & [ STEM < "benzalconio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzalconio_n_rel" ] ]. benzaldehído_n1 := n_intr_mass_le & [ STEM < "benzaldehído" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzaldehído_n_rel" ] ]. benzamida_n1 := n_intr_count_le & [ STEM < "benzamida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzamida_n_rel" ] ]. benzamina_n1 := n_intr_count_le & [ STEM < "benzamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzamina_n_rel" ] ]. benzanilida_n1 := n_intr_count_le & [ STEM < "benzanilida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzanilida_n_rel" ] ]. benzedrina_n1 := n_intr_count_le & [ STEM < "benzedrina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzedrina_n_rel" ] ]. benzoacetato_n1 := n_intr_count_le & [ STEM < "benzoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoacetato_n_rel" ] ]. benzoato_n1 := n_intr_count_le & [ STEM < "benzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoato_n_rel" ] ]. benzocaína_n1 := n_intr_count_le & [ STEM < "benzocaína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzocaína_n_rel" ] ]. benzodiacepina_n1 := n_intr_count_le & [ STEM < "benzodiacepina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_benzodiacepina_n_rel" ] ]. benzofenona_n1 := n_intr_count_le & [ STEM < "benzofenona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzofenona_n_rel" ] ]. benzoguanimina_n1 := n_intr_count_le & [ STEM < "benzoguanimina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoguanimina_n_rel" ] ]. benzoico_a1 := a_rel_nonprd_intr_le & [ STEM < "benzoico" >, SYNSEM.LKEYS.KEYREL.PRED "_benzoico_a_rel" ]. benzoilbenzoato_n1 := n_intr_count_le & [ STEM < "benzoilbenzoato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzoilbenzoato_n_rel" ] ]. benzol_n1 := n_intr_mass-or-count_le & [ STEM < "benzol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_benzol_n_rel" ] ]. benzonitrilo_n1 := n_intr_mass-or-count_le & [ STEM < "benzonitrilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_benzonitrilo_n_rel" ] ]. benzotricloruro_n1 := n_intr_count_le & [ STEM < "benzotricloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzotricloruro_n_rel" ] ]. benzotrifluoruro_n1 := n_intr_count_le & [ STEM < "benzotrifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_benzotrifluoruro_n_rel" ] ]. benéfico_a1 := a_rel_nonprd_intr_le & [ STEM < "benéfico" >, SYNSEM.LKEYS.KEYREL.PRED "_benéfico_a_rel" ]. benévolamente_x1 := av_i_spr_le & [ STEM < "benévolamente" >, SYNSEM.LKEYS.KEYREL.PRED "_benévolamente_x_rel" ]. benévolo_a1 := a_qual_intr_ser_le & [ STEM < "benévolo" >, SYNSEM.LKEYS.KEYREL.PRED "_benévolo_a_rel" ]. beodamente_x1 := av_i_spr_le & [ STEM < "beodamente" >, SYNSEM.LKEYS.KEYREL.PRED "_beodamente_x_rel" ]. beque_n1 := n_intr_count_le & [ STEM < "beque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beque_n_rel" ] ]. berberamina_n1 := n_intr_count_le & [ STEM < "berberamina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berberamina_n_rel" ] ]. berberecho_n1 := n_intr_count_le & [ STEM < "berberecho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_berberecho_n_rel" ] ]. berbiquí_n1 := n_intr_count_le & [ STEM < "berbiquí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berbiquí_n_rel" ] ]. bereber_n1 := n_intr_count_le & [ STEM < "bereber" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bereber_n_rel" ] ]. berenjena_n1 := n_intr_mass_le & [ STEM < "berenjena" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berenjena_n_rel" ] ]. bergamota_n1 := n_intr_count_le & [ STEM < "bergamota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bergamota_n_rel" ] ]. bergantín_n1 := n_intr_count_le & [ STEM < "bergantín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bergantín_n_rel" ] ]. berilio_n1 := n_intr_mass_le & [ STEM < "berilio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berilio_n_rel" ] ]. berilo_n1 := n_intr_count_le & [ STEM < "berilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berilo_n_rel" ] ]. berilonita_n1 := n_intr_count_le & [ STEM < "berilonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berilonita_n_rel" ] ]. berkelio_n1 := n_intr_mass_le & [ STEM < "berkelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berkelio_n_rel" ] ]. berlina_n1 := n_intr_count_le & [ STEM < "berlina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berlina_n_rel" ] ]. berlinga_n1 := n_intr_count_le & [ STEM < "berlinga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_berlinga_n_rel" ] ]. berlinés_a1 := a_rel_prd_le & [ STEM < "berlinés" >, SYNSEM.LKEYS.KEYREL.PRED "_berlinés_a_rel" ]. berlinés_n1 := n_intr_count_le & [ STEM < "berlinés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_berlinés_n_rel" ] ]. berma_n1 := n_intr_count_le & [ STEM < "berma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_berma_n_rel" ] ]. bermejo_a1 := a_qual_intr_ser_le & [ STEM < "bermejo" >, SYNSEM.LKEYS.KEYREL.PRED "_bermejo_a_rel" ]. bermudas_n1 := n_intr_count_le & [ STEM < "bermudas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bermudas_n_rel" ] ]. bermudiana_n1 := n_intr_count_le & [ STEM < "bermudiana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bermudiana_n_rel" ] ]. bernés_a1 := a_rel_prd_le & [ STEM < "bernés" >, SYNSEM.LKEYS.KEYREL.PRED "_bernés_a_rel" ]. bernés_n1 := n_intr_count_le & [ STEM < "bernés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bernés_n_rel" ] ]. berquelio_n1 := n_intr_mass_le & [ STEM < "berquelio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_berquelio_n_rel" ] ]. berrar_v := v_unacc_lcomp_loc*_le & [ STEM < "berrar" >, SYNSEM.LKEYS.KEYREL.PRED "_berrar_v_rel" ]. berrear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "berrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_berrear_v_rel" ] ]. berrear_v2 := v_ditrans*_le & [ STEM < "berrear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_berrear_v_rel" ] ]. berrido_n1 := n_result_intr_le & [ STEM < "berrido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_berrido_n_rel" ] ]. berro_n1 := n_intr_mass_le & [ STEM < "berro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_berro_n_rel" ] ]. berrocal_n1 := n_intr_count_le & [ STEM < "berrocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_berrocal_n_rel" ] ]. beso_n1 := n_intr_count_le & [ STEM < "beso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_beso_n_rel" ] ]. beso_n2 := n_trans_le & [ STEM < "beso" >, SYNSEM.LKEYS.KEYREL.PRED "_beso_n_rel" ]. bestia_n1 := n_intr_count_le & [ STEM < "bestia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bestia_n_rel" ] ]. bestial_a1 := a_qual_intr_scopal_le & [ STEM < "bestial" >, SYNSEM.LKEYS.KEYREL.PRED "_bestial_a_rel" ]. bestialidad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "bestialidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bestialidad_n_rel" ] ]. bestialmente_x1 := av_i_spr_le & [ STEM < "bestialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bestialmente_x_rel" ]. bestiario_n1 := n_intr_count_le & [ STEM < "bestiario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bestiario_n_rel" ] ]. besugo_n1 := n_intr_count_le & [ STEM < "besugo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_besugo_n_rel" ] ]. besuguera_n1 := n_intr_count_le & [ STEM < "besuguera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_besuguera_n_rel" ] ]. besuqueo_n1 := n_trans_le & [ STEM < "besuqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_besuqueo_n_rel" ]. beta_n1 := n_intr_count_le & [ STEM < "beta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_beta_n_rel" ] ]. betabloqueante_n1 := n_intr_count_le & [ STEM < "betabloqueante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betabloqueante_n_rel" ] ]. betacismo_n1 := n_intr_uncount_le & [ STEM < "betacismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_betacismo_n_rel" ] ]. betafita_n1 := n_intr_count_le & [ STEM < "betafita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_betafita_n_rel" ] ]. betaglobulina_n1 := n_intr_count_le & [ STEM < "betaglobulina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betaglobulina_n_rel" ] ]. betalipoproteina_n1 := n_intr_count_le & [ STEM < "betalipoproteina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betalipoproteina_n_rel" ] ]. betatalasemia_n1 := n_intr_count_le & [ STEM < "betatalasemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betatalasemia_n_rel" ] ]. betel_n1 := n_intr_mass_le & [ STEM < "betel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_betel_n_rel" ] ]. betún_n1 := n_intr_mass_le & [ STEM < "betún" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_betún_n_rel" ] ]. bhutanés_n1 := n_intr_count_le & [ STEM < "bhutanés" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bhutanés_n_rel" ] ]. biangular_a1 := a_rel_prd_le & [ STEM < "biangular" >, SYNSEM.LKEYS.KEYREL.PRED "_biangular_a_rel" ]. bianual_a1 := a_rel_prd_le & [ STEM < "bianual" >, SYNSEM.LKEYS.KEYREL.PRED "_bianual_a_rel" ]. biarticular_a1 := a_rel_prd_le & [ STEM < "biarticular" >, SYNSEM.LKEYS.KEYREL.PRED "_biarticular_a_rel" ]. biatlón_n1 := n_intr_count_le & [ STEM < "biatlón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biatlón_n_rel" ] ]. biauditivo_a1 := a_rel_prd_le & [ STEM < "biauditivo" >, SYNSEM.LKEYS.KEYREL.PRED "_biauditivo_a_rel" ]. biauricular_a1 := a_rel_prd_le & [ STEM < "biauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_biauricular_a_rel" ]. biaxial_a1 := a_rel_prd_le & [ STEM < "biaxial" >, SYNSEM.LKEYS.KEYREL.PRED "_biaxial_a_rel" ]. biberón_n1 := n_intr_count_le & [ STEM < "biberón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biberón_n_rel" ] ]. biblia_n1 := n_intr_count_le & [ STEM < "biblia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_biblia_n_rel" ] ]. bibliofilia_n1 := n_intr_uncount_le & [ STEM < "bibliofilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bibliofilia_n_rel" ] ]. bibliografía_n1 := n_intr_mass_le & [ STEM < "bibliografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bibliografía_n_rel" ] ]. bibliográficamente_x1 := av_i_spr_le & [ STEM < "bibliográficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bibliográficamente_x_rel" ]. bibliográfico_a1 := a_rel_nonprd_intr_le & [ STEM < "bibliográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_bibliográfico_a_rel" ]. bibliometría_n1 := n_intr_count_le & [ STEM < "bibliometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bibliometría_n_rel" ] ]. biblioteca_n1 := n_intr_count_le & [ STEM < "biblioteca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_biblioteca_n_rel" ] ]. bibliotecario_n1 := n_intr_count_le & [ STEM < "bibliotecario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliotecario_n_rel" ] ]. biblioteconomía_n1 := n_intr_uncount_le & [ STEM < "biblioteconomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biblioteconomía_n_rel" ] ]. bibliófilo_n1 := n_intr_count_le & [ STEM < "bibliófilo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliófilo_n_rel" ] ]. bibliógrafo_n1 := n_intr_count_le & [ STEM < "bibliógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bibliógrafo_n_rel" ] ]. bicable_n1 := n_intr_count_le & [ STEM < "bicable" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicable_n_rel" ] ]. bicameral_a1 := a_rel_nonprd_intr_le & [ STEM < "bicameral" >, SYNSEM.LKEYS.KEYREL.PRED "_bicameral_a_rel" ]. bicameralismo_n1 := n_intr_uncount_le & [ STEM < "bicameralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicameralismo_n_rel" ] ]. bicampeón_n1 := n_intr_count_le & [ STEM < "bicampeón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bicampeón_n_rel" ] ]. bicapa_n1 := n_intr_count_le & [ STEM < "bicapa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicapa_n_rel" ] ]. bicarbonato_n1 := n_intr_mass_le & [ STEM < "bicarbonato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bicarbonato_n_rel" ] ]. bicasco_n1 := n_intr_count_le & [ STEM < "bicasco" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bicasco_n_rel" ] ]. bicefalia_n1 := n_intr_uncount_le & [ STEM < "bicefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicefalia_n_rel" ] ]. bicelular_a1 := a_rel_prd_le & [ STEM < "bicelular" >, SYNSEM.LKEYS.KEYREL.PRED "_bicelular_a_rel" ]. bicentenario_n1 := n_intr_count_le & [ STEM < "bicentenario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicentenario_n_rel" ] ]. bichero_n1 := n_intr_count_le & [ STEM < "bichero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bichero_n_rel" ] ]. bichito_n1 := n_intr_count_le & [ STEM < "bichito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bichito_n_rel" ] ]. bicho_n1 := n_intr_count_le & [ STEM < "bicho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bicho_n_rel" ] ]. bicicleta_n1 := n_intr_count_le & [ STEM < "bicicleta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bicicleta_n_rel" ] ]. bicicros_n1 := n_intr_uncount_le & [ STEM < "bicicros" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicicros_n_rel" ] ]. bicigomático_a1 := a_rel_prd_le & [ STEM < "bicigomático" >, SYNSEM.LKEYS.KEYREL.PRED "_bicigomático_a_rel" ]. bicipital_a1 := a_rel_prd_le & [ STEM < "bicipital" >, SYNSEM.LKEYS.KEYREL.PRED "_bicipital_a_rel" ]. bicloruro_n1 := n_intr_count_le & [ STEM < "bicloruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bicloruro_n_rel" ] ]. bicolor_a1 := a_rel_prd_le & [ STEM < "bicolor" >, SYNSEM.LKEYS.KEYREL.PRED "_bicolor_a_rel" ]. bicompuesto_a1 := a_rel_prd_le & [ STEM < "bicompuesto" >, SYNSEM.LKEYS.KEYREL.PRED "_bicompuesto_a_rel" ]. bicondíleo_a1 := a_rel_prd_le & [ STEM < "bicondíleo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicondíleo_a_rel" ]. biconvexo_a1 := a_qual_intr_ser_le & [ STEM < "biconvexo" >, SYNSEM.LKEYS.KEYREL.PRED "_biconvexo_a_rel" ]. bicristal_n1 := n_intr_mass-or-count_le & [ STEM < "bicristal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_bicristal_n_rel" ] ]. bicromático_a1 := a_rel_nonprd_intr_le & [ STEM < "bicromático" >, SYNSEM.LKEYS.KEYREL.PRED "_bicromático_a_rel" ]. bicuadrado_a1 := a_qual_intr_ser_le & [ STEM < "bicuadrado" >, SYNSEM.LKEYS.KEYREL.PRED "_bicuadrado_a_rel" ]. bicuadrática_n1 := n_intr_count_le & [ STEM < "bicuadrática" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bicuadrática_n_rel" ] ]. bicéfalo_a1 := a_rel_prd_le & [ STEM < "bicéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicéfalo_a_rel" ]. bicóncavo_a1 := a_rel_prd_le & [ STEM < "bicóncavo" >, SYNSEM.LKEYS.KEYREL.PRED "_bicóncavo_a_rel" ]. bicónico_a1 := a_rel_prd_le & [ STEM < "bicónico" >, SYNSEM.LKEYS.KEYREL.PRED "_bicónico_a_rel" ]. bicúspide_a1 := a_rel_nonprd_intr_le & [ STEM < "bicúspide" >, SYNSEM.LKEYS.KEYREL.PRED "_bicúspide_a_rel" ]. bidimensional_a1 := a_rel_prd_le & [ STEM < "bidimensional" >, SYNSEM.LKEYS.KEYREL.PRED "_bidimensional_a_rel" ]. bidimensionalmente_x1 := av_i_spr_le & [ STEM < "bidimensionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bidimensionalmente_x_rel" ]. bidimensión_n1 := n_intr_uncount_le & [ STEM < "bidimensión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bidimensión_n_rel" ] ]. bidireccional_a1 := a_rel_prd_le & [ STEM < "bidireccional" >, SYNSEM.LKEYS.KEYREL.PRED "_bidireccional_a_rel" ]. bidireccionalmente_x1 := av_i_spr_le & [ STEM < "bidireccionalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bidireccionalmente_x_rel" ]. bidé_n1 := n_intr_count_le & [ STEM < "bidé" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bidé_n_rel" ] ]. bidón_n1 := n_intr_count_le & [ STEM < "bidón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bidón_n_rel" ] ]. biela_n1 := n_intr_count_le & [ STEM < "biela" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biela_n_rel" ] ]. bielda_n1 := n_intr_count_le & [ STEM < "bielda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bielda_n_rel" ] ]. bieldo_n1 := n_intr_count_le & [ STEM < "bieldo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bieldo_n_rel" ] ]. bielorruso_a1 := a_rel_prd_le & [ STEM < "bielorruso" >, SYNSEM.LKEYS.KEYREL.PRED "_bielorruso_a_rel" ]. bielorruso_n1 := n_intr_count_le & [ STEM < "bielorruso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bielorruso_n_rel" ] ]. bien_cc1 := cc_disj_bien_le & [ STEM < "bien" > ]. bien_cc2 := cc_disj_bien-bien_le & [ STEM < "bien" > ]. bien_cc3 := cc_disj_obien_le & [ STEM < "o_bien" > ]. bien_cc4 := cc_disj_obien-bien_le & [ STEM < "o_bien" > ]. bien_cc5 := cc_disj_obien-obien_le & [ STEM < "o_bien" > ]. bien_entendido_que_sc := sc_prop_fin_le & [ STEM < "bien_entendido_que" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_entendido_que_x_subord_rel" ]. bien_mirado_x1 := av_i_le & [ STEM < "bien_mirado" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_mirado_x_rel" ]. bien_n1 := n_intr_count_le & [ STEM < "bien" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_bien_n_rel" ] ]. bien_que_mal_x1 := av_i_le & [ STEM < "bien_que_mal" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_que_mal_x_rel" ]. bien_sabe_dios_que_sc := sc_prop_fin_le & [ STEM < "bien_sabe_Dios_que" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_sabe_Dios_que_x_subord_rel" ]. bien_x1 := av_i_spr_le & [ STEM < "bien" >, SYNSEM.LKEYS.KEYREL.PRED "_bien_x_rel" ]. bienal_a1 := a_rel_prd_le & [ STEM < "bienal" >, SYNSEM.LKEYS.KEYREL.PRED "_bienal_a_rel" ]. bienal_n1 := n_intr_count_le & [ STEM < "bienal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bienal_n_rel" ] ]. bienalmente_x1 := av_s_prhd_le & [ STEM < "bienalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienalmente_x_rel" ]. bienalmente_x2 := av_i_psthd_le & [ STEM < "bienalmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienalmente_x_rel" ]. bienandante_a1 := a_qual_intr_ser_le & [ STEM < "bienandante" >, SYNSEM.LKEYS.KEYREL.PRED "_bienandante_a_rel" ]. bienandanza_n1 := n_intr_uncount_pl_le & [ STEM < "bienandanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienandanza_n_rel" ] ]. bienestar_n1 := n_intr_mass_le & [ STEM < "bienestar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienestar_n_rel" ] ]. bienhablado_a1 := a_qual_intr_ser_le & [ STEM < "bienhablado" >, SYNSEM.LKEYS.KEYREL.PRED "_bienhablado_a_rel" ]. bienhechor_a1 := a_qual_intr_ser_le & [ STEM < "bienhechor" >, SYNSEM.LKEYS.KEYREL.PRED "_bienhechor_a_rel" ]. bienhechor_n1 := n_intr_count_le & [ STEM < "bienhechor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bienhechor_n_rel" ] ]. bienintencionadamente_x1 := av_i_spr_le & [ STEM < "bienintencionadamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bienintencionadamente_x_rel" ]. bienintencionado_a1 := a_qual_intr_ser_le & [ STEM < "bienintencionado" >, SYNSEM.LKEYS.KEYREL.PRED "_bienintencionado_a_rel" ]. bienio_n1 := n_pseudo-part_temp_le & [ STEM < "bienio" >, SYNSEM.LKEYS.KEYREL.PRED "_bienio_n_rel" ]. bienio_n2 := n_intr_temp_le & [ STEM < "bienio" > ]. bienvenida_n1 := n_intr_count_le & [ STEM < "bienvenida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bienvenida_n_rel" ] ]. bienvenido_a1 := a_qual_intr_ser_le & [ STEM < "bienvenido" >, SYNSEM.LKEYS.KEYREL.PRED "_bienvenido_a_rel" ]. bies_n1 := n_intr_count_le & [ STEM < "bies" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bies_n_rel" ] ]. biesfenoide_n1 := n_intr_count_le & [ STEM < "biesfenoide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biesfenoide_n_rel" ] ]. biestable_a1 := a_rel_prd_le & [ STEM < "biestable" >, SYNSEM.LKEYS.KEYREL.PRED "_biestable_a_rel" ]. bifacial_a1 := a_rel_prd_le & [ STEM < "bifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_bifacial_a_rel" ]. bifidobacteria_n1 := n_intr_count_le & [ STEM < "bifidobacteria" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bifidobacteria_n_rel" ] ]. bifilar_a1 := a_rel_nonprd_intr_le & [ STEM < "bifilar" >, SYNSEM.LKEYS.KEYREL.PRED "_bifilar_a_rel" ]. bifluoruro_n1 := n_intr_count_le & [ STEM < "bifluoruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bifluoruro_n_rel" ] ]. bifocal_a1 := a_rel_nonprd_intr_le & [ STEM < "bifocal" >, SYNSEM.LKEYS.KEYREL.PRED "_bifocal_a_rel" ]. bifosfato_n1 := n_intr_count_le & [ STEM < "bifosfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bifosfato_n_rel" ] ]. bifurcación_n1 := n_ppcomp_count_le & [ STEM < "bifurcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bifurcación_n_rel" ] ]. bifurcación_n2 := n_intr_count_le & [ STEM < "bifurcación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bifurcación_n_rel" ] ]. bifurcar_v := v_unacc_perf_le & [ STEM < "bifurcar" >, SYNSEM.LKEYS.KEYREL.PRED "_bifurcar_v_rel" ]. bifásicamente_x1 := av_i_spr_le & [ STEM < "bifásicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bifásicamente_x_rel" ]. bifásico_a1 := a_rel_prd_le & [ STEM < "bifásico" >, SYNSEM.LKEYS.KEYREL.PRED "_bifásico_a_rel" ]. bigamia_n1 := n_intr_uncount_pl_le & [ STEM < "bigamia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bigamia_n_rel" ] ]. bigeminado_a1 := a_rel_nonprd_intr_le & [ STEM < "bigeminado" >, SYNSEM.LKEYS.KEYREL.PRED "_bigeminado_a_rel" ]. bigenérico_a1 := a_rel_nonprd_intr_le & [ STEM < "bigenérico" >, SYNSEM.LKEYS.KEYREL.PRED "_bigenérico_a_rel" ]. bigornia_n1 := n_intr_count_le & [ STEM < "bigornia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigornia_n_rel" ] ]. bigote_n1 := n_intr_count_le & [ STEM < "bigote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigote_n_rel" ] ]. bigotera_n1 := n_intr_count_le & [ STEM < "bigotera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigotera_n_rel" ] ]. bigotudo_a1 := a_qual_intr_ser_le & [ STEM < "bigotudo" >, SYNSEM.LKEYS.KEYREL.PRED "_bigotudo_a_rel" ]. bigudí_n1 := n_intr_count_le & [ STEM < "bigudí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bigudí_n_rel" ] ]. bikini_n1 := n_intr_count_le & [ STEM < "bikini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bikini_n_rel" ] ]. bilabial_a1 := a_rel_nonprd_intr_le & [ STEM < "bilabial" >, SYNSEM.LKEYS.KEYREL.PRED "_bilabial_a_rel" ]. bilateral_a1 := a_rel_nonprd_intr_le & [ STEM < "bilateral" >, SYNSEM.LKEYS.KEYREL.PRED "_bilateral_a_rel" ]. bilateralidad_n1 := n_intr_uncount_le & [ STEM < "bilateralidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilateralidad_n_rel" ] ]. bilateralismo_n1 := n_intr_uncount_le & [ STEM < "bilateralismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilateralismo_n_rel" ] ]. bilateralmente_x1 := av_i_spr_le & [ STEM < "bilateralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bilateralmente_x_rel" ]. bilbaíno_a1 := a_rel_prd_le & [ STEM < "bilbaíno" >, SYNSEM.LKEYS.KEYREL.PRED "_bilbaíno_a_rel" ]. bilbaíno_n1 := n_intr_count_le & [ STEM < "bilbaíno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bilbaíno_n_rel" ] ]. biliar_a1 := a_rel_nonprd_intr_le & [ STEM < "biliar" >, SYNSEM.LKEYS.KEYREL.PRED "_biliar_a_rel" ]. bilineal_a1 := a_rel_nonprd_intr_le & [ STEM < "bilineal" >, SYNSEM.LKEYS.KEYREL.PRED "_bilineal_a_rel" ]. bilinealidad_n1 := n_intr_uncount_le & [ STEM < "bilinealidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilinealidad_n_rel" ] ]. bilinealmente_x1 := av_i_spr_le & [ STEM < "bilinealmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bilinealmente_x_rel" ]. bilinear_a1 := a_rel_nonprd_intr_le & [ STEM < "bilinear" >, SYNSEM.LKEYS.KEYREL.PRED "_bilinear_a_rel" ]. bilingã¼e_a1 := a_rel_nonprd_intr_le & [ STEM < "bilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_bilingüe_a_rel" ]. bilingã¼e_a2 := a_qual_intr_ser_le & [ STEM < "bilingüe" >, SYNSEM.LKEYS.KEYREL.PRED "_bilingüe_a_rel" ]. bilingüismo_n1 := n_ppcomp_uncount_le & [ STEM < "bilingüismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilingüismo_n_rel" ] ]. bilirrubinemia_n1 := n_intr_uncount_le & [ STEM < "bilirrubinemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilirrubinemia_n_rel" ] ]. bilis_n1 := n_intr_mass_le & [ STEM < "bilis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bilis_n_rel" ] ]. biliverdina_n1 := n_intr_count_le & [ STEM < "biliverdina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biliverdina_n_rel" ] ]. billar_n1 := n_intr_count_le & [ STEM < "billar" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_billar_n_rel" ] ]. billetaje_n1 := n_intr_uncount_le & [ STEM < "billetaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_billetaje_n_rel" ] ]. billete_n1 := n_intr_count_le & [ STEM < "billete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_billete_n_rel" ] ]. billetero_n1 := n_intr_count_le & [ STEM < "billetero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_billetero_n_rel" ] ]. billonario_n1 := n_intr_count_le & [ STEM < "billonario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_billonario_n_rel" ] ]. billón_n1 := n_intr_count_le & [ STEM < "billón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_billón_n_rel" ] ]. bilocal_a1 := a_rel_nonprd_intr_le & [ STEM < "bilocal" >, SYNSEM.LKEYS.KEYREL.PRED "_bilocal_a_rel" ]. bilocalidad_n1 := n_intr_uncount_le & [ STEM < "bilocalidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bilocalidad_n_rel" ] ]. bilámina_n1 := n_intr_count_le & [ STEM < "bilámina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bilámina_n_rel" ] ]. bimaxilar_a1 := a_rel_nonprd_intr_le & [ STEM < "bimaxilar" >, SYNSEM.LKEYS.KEYREL.PRED "_bimaxilar_a_rel" ]. bimensual_a1 := a_rel_prd_le & [ STEM < "bimensual" >, SYNSEM.LKEYS.KEYREL.PRED "_bimensual_a_rel" ]. bimestral_a1 := a_rel_prd_le & [ STEM < "bimestral" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestral_a_rel" ]. bimestralmente_x1 := av_s_prhd_le & [ STEM < "bimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestralmente_x_rel" ]. bimestralmente_x2 := av_i_psthd_le & [ STEM < "bimestralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimestralmente_x_rel" ]. bimetalismo_n1 := n_intr_uncount_le & [ STEM < "bimetalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bimetalismo_n_rel" ] ]. bimetálico_a1 := a_rel_nonprd_intr_le & [ STEM < "bimetálico" >, SYNSEM.LKEYS.KEYREL.PRED "_bimetálico_a_rel" ]. bimodal_a1 := a_rel_prd_le & [ STEM < "bimodal" >, SYNSEM.LKEYS.KEYREL.PRED "_bimodal_a_rel" ]. bimolecular_a1 := a_rel_prd_le & [ STEM < "bimolecular" >, SYNSEM.LKEYS.KEYREL.PRED "_bimolecular_a_rel" ]. bimotor_a1 := a_rel_prd_le & [ STEM < "bimotor" >, SYNSEM.LKEYS.KEYREL.PRED "_bimotor_a_rel" ]. bimórficamente_x1 := av_i_spr_le & [ STEM < "bimórficamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bimórficamente_x_rel" ]. bimórfico_a1 := a_qual_intr_ser_le & [ STEM < "bimórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_bimórfico_a_rel" ]. binariamente_x1 := av_i_spr_le & [ STEM < "binariamente" >, SYNSEM.LKEYS.KEYREL.PRED "_binariamente_x_rel" ]. binario_a1 := a_rel_prd_le & [ STEM < "binario" >, SYNSEM.LKEYS.KEYREL.PRED "_binario_a_rel" ]. binarismo_n1 := n_intr_uncount_le & [ STEM < "binarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binarismo_n_rel" ] ]. binasal_a1 := a_rel_prd_le & [ STEM < "binasal" >, SYNSEM.LKEYS.KEYREL.PRED "_binasal_a_rel" ]. binaural_a1 := a_rel_prd_le & [ STEM < "binaural" >, SYNSEM.LKEYS.KEYREL.PRED "_binaural_a_rel" ]. binauralmente_x1 := av_i_spr_le & [ STEM < "binauralmente" >, SYNSEM.LKEYS.KEYREL.PRED "_binauralmente_x_rel" ]. binauricular_a1 := a_rel_prd_le & [ STEM < "binauricular" >, SYNSEM.LKEYS.KEYREL.PRED "_binauricular_a_rel" ]. bingo_n1 := n_intr_count_le & [ STEM < "bingo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bingo_n_rel" ] ]. binocular_a1 := a_rel_prd_le & [ STEM < "binocular" >, SYNSEM.LKEYS.KEYREL.PRED "_binocular_a_rel" ]. binocular_n1 := n_intr_count_le & [ STEM < "binocular" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_binocular_n_rel" ] ]. binodo_n1 := n_intr_count_le & [ STEM < "binodo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binodo_n_rel" ] ]. binomial_a1 := a_rel_prd_le & [ STEM < "binomial" >, SYNSEM.LKEYS.KEYREL.PRED "_binomial_a_rel" ]. binomialmente_x1 := av_i_spr_le & [ STEM < "binomialmente" >, SYNSEM.LKEYS.KEYREL.PRED "_binomialmente_x_rel" ]. binomio_n1 := n_intr_count_le & [ STEM < "binomio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_binomio_n_rel" ] ]. binómico_a1 := a_rel_prd_le & [ STEM < "binómico" >, SYNSEM.LKEYS.KEYREL.PRED "_binómico_a_rel" ]. bioacumulación_n1 := n_result_intr_le & [ STEM < "bioacumulación" >, SYNSEM.LKEYS.KEYREL.PRED "_bioacumulación_n_rel" ]. bioalcohol_n1 := n_intr_count_le & [ STEM < "bioalcohol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioalcohol_n_rel" ] ]. bioblasto_n1 := n_intr_count_le & [ STEM < "bioblasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioblasto_n_rel" ] ]. biocenosis_n1 := n_intr_uncount_le & [ STEM < "biocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocenosis_n_rel" ] ]. biocida_n1 := n_intr_count_le & [ STEM < "biocida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biocida_n_rel" ] ]. bioclima_n1 := n_intr_count_le & [ STEM < "bioclima" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioclima_n_rel" ] ]. bioclimatología_n1 := n_intr_uncount_le & [ STEM < "bioclimatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioclimatología_n_rel" ] ]. biocombustible_n1 := n_intr_count_le & [ STEM < "biocombustible" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biocombustible_n_rel" ] ]. biocompatible_a1 := a_rel_prd_le & [ STEM < "biocompatible" >, SYNSEM.LKEYS.KEYREL.PRED "_biocompatible_a_rel" ]. bioconstrucción_n1 := n_trans_le & [ STEM < "bioconstrucción" >, SYNSEM.LKEYS.KEYREL.PRED "_bioconstrucción_n_rel" ]. biocora_n1 := n_intr_uncount_pl_le & [ STEM < "biocora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocora_n_rel" ] ]. biocosmética_n1 := n_intr_uncount_le & [ STEM < "biocosmética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocosmética_n_rel" ] ]. biocronología_n1 := n_intr_uncount_le & [ STEM < "biocronología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biocronología_n_rel" ] ]. biodegradable_a1 := a_rel_prd_le & [ STEM < "biodegradable" >, SYNSEM.LKEYS.KEYREL.PRED "_biodegradable_a_rel" ]. biodegradablemente_x1 := av_i_spr_le & [ STEM < "biodegradablemente" >, SYNSEM.LKEYS.KEYREL.PRED "_biodegradablemente_x_rel" ]. biodegradación_n1 := n_intr_uncount_le & [ STEM < "biodegradación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biodegradación_n_rel" ] ]. biodiversidad_n1 := n_intr_uncount_le & [ STEM < "biodiversidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biodiversidad_n_rel" ] ]. biodiésel_n1 := n_intr_mass-or-count_le & [ STEM < "biodiésel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_biodiésel_n_rel" ] ]. bioenergética_n1 := n_intr_uncount_le & [ STEM < "bioenergética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioenergética_n_rel" ] ]. bioenergía_n1 := n_intr_uncount_pl_le & [ STEM < "bioenergía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioenergía_n_rel" ] ]. bioerosión_n1 := n_intr_mass_le & [ STEM < "bioerosión" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioerosión_n_rel" ] ]. bioestadística_n1 := n_intr_mass_le & [ STEM < "bioestadística" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bioestadística_n_rel" ] ]. bioestadísticamente_x1 := av_i_spr_le & [ STEM < "bioestadísticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bioestadísticamente_x_rel" ]. bioestadístico_a1 := a_rel_prd_le & [ STEM < "bioestadístico" >, SYNSEM.LKEYS.KEYREL.PRED "_bioestadístico_a_rel" ]. bioetanol_n1 := n_intr_mass_le & [ STEM < "bioetanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioetanol_n_rel" ] ]. biofotómetro_n1 := n_intr_count_le & [ STEM < "biofotómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biofotómetro_n_rel" ] ]. biofísica_n1 := n_intr_uncount_le & [ STEM < "biofísica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biofísica_n_rel" ] ]. biofísico_a1 := a_rel_prd_le & [ STEM < "biofísico" >, SYNSEM.LKEYS.KEYREL.PRED "_biofísico_a_rel" ]. biofísico_n1 := n_intr_count_le & [ STEM < "biofísico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biofísico_n_rel" ] ]. biogenética_n1 := n_intr_uncount_le & [ STEM < "biogenética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogenética_n_rel" ] ]. biogenético_a1 := a_rel_prd_le & [ STEM < "biogenético" >, SYNSEM.LKEYS.KEYREL.PRED "_biogenético_a_rel" ]. biogeocenosis_n1 := n_intr_uncount_le & [ STEM < "biogeocenosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogeocenosis_n_rel" ] ]. biogeografía_n1 := n_intr_uncount_le & [ STEM < "biogeografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogeografía_n_rel" ] ]. biogeoquímicamente_x1 := av_i_spr_le & [ STEM < "biogeoquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biogeoquímicamente_x_rel" ]. biogeoquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "biogeoquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_biogeoquímico_a_rel" ]. biografía_n1 := n_intr_count_le & [ STEM < "biografía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_biografía_n_rel" ] ]. biográfico_a1 := a_rel_prd_le & [ STEM < "biográfico" >, SYNSEM.LKEYS.KEYREL.PRED "_biográfico_a_rel" ]. biogás_n1 := n_intr_mass_le & [ STEM < "biogás" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biogás_n_rel" ] ]. biogénesis_n1 := n_intr_uncount_le & [ STEM < "biogénesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biogénesis_n_rel" ] ]. biogénico_a1 := a_rel_prd_le & [ STEM < "biogénico" >, SYNSEM.LKEYS.KEYREL.PRED "_biogénico_a_rel" ]. biohermo_n1 := n_intr_uncount_pl_le & [ STEM < "biohermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biohermo_n_rel" ] ]. bioindicador_n1 := n_intr_count_le & [ STEM < "bioindicador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioindicador_n_rel" ] ]. bioingeniero_n1 := n_intr_count_le & [ STEM < "bioingeniero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bioingeniero_n_rel" ] ]. biología_n1 := n_intr_uncount_le & [ STEM < "biología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biología_n_rel" ] ]. bioluminiscencia_n1 := n_intr_uncount_le & [ STEM < "bioluminiscencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioluminiscencia_n_rel" ] ]. biolíticamente_x1 := av_i_spr_le & [ STEM < "biolíticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biolíticamente_x_rel" ]. biolítico_a1 := a_rel_prd_le & [ STEM < "biolítico" >, SYNSEM.LKEYS.KEYREL.PRED "_biolítico_a_rel" ]. biológicamente_x1 := av_i_spr_le & [ STEM < "biológicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biológicamente_x_rel" ]. biológico_a1 := a_rel_prd_le & [ STEM < "biológico" >, SYNSEM.LKEYS.KEYREL.PRED "_biológico_a_rel" ]. bioma_n1 := n_intr_count_le & [ STEM < "bioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioma_n_rel" ] ]. biomasa_n1 := n_intr_count_le & [ STEM < "biomasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomasa_n_rel" ] ]. biombo_n1 := n_intr_count_le & [ STEM < "biombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biombo_n_rel" ] ]. biomecánica_n1 := n_intr_uncount_le & [ STEM < "biomecánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomecánica_n_rel" ] ]. biomedicina_n1 := n_intr_uncount_le & [ STEM < "biomedicina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomedicina_n_rel" ] ]. biometanización_n1 := n_trans_le & [ STEM < "biometanización" >, SYNSEM.LKEYS.KEYREL.PRED "_biometanización_n_rel" ]. biometano_n1 := n_intr_mass-or-count_le & [ STEM < "biometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_biometano_n_rel" ] ]. biometrista_n1 := n_intr_count_le & [ STEM < "biometrista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biometrista_n_rel" ] ]. biometría_n1 := n_intr_count_le & [ STEM < "biometría" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biometría_n_rel" ] ]. biomicroscopia_n1 := n_intr_count_le & [ STEM < "biomicroscopia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biomicroscopia_n_rel" ] ]. biomédico_a1 := a_rel_prd_le & [ STEM < "biomédico" >, SYNSEM.LKEYS.KEYREL.PRED "_biomédico_a_rel" ]. biométrico_a1 := a_rel_prd_le & [ STEM < "biométrico" >, SYNSEM.LKEYS.KEYREL.PRED "_biométrico_a_rel" ]. biomórfico_a1 := a_rel_prd_le & [ STEM < "biomórfico" >, SYNSEM.LKEYS.KEYREL.PRED "_biomórfico_a_rel" ]. bionomía_n1 := n_intr_uncount_le & [ STEM < "bionomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bionomía_n_rel" ] ]. biopolímero_n1 := n_intr_count_le & [ STEM < "biopolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biopolímero_n_rel" ] ]. biopsia_n1 := n_intr_count_le & [ STEM < "biopsia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopsia_n_rel" ] ]. biopsicología_n1 := n_intr_uncount_le & [ STEM < "biopsicología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopsicología_n_rel" ] ]. biopulpectomía_n1 := n_intr_count_le & [ STEM < "biopulpectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopulpectomía_n_rel" ] ]. biopulpotomía_n1 := n_intr_count_le & [ STEM < "biopulpotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biopulpotomía_n_rel" ] ]. bioquímica_n1 := n_intr_uncount_le & [ STEM < "bioquímica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioquímica_n_rel" ] ]. bioquímicamente_x1 := av_i_spr_le & [ STEM < "bioquímicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bioquímicamente_x_rel" ]. bioquímico_a1 := a_rel_nonprd_intr_le & [ STEM < "bioquímico" >, SYNSEM.LKEYS.KEYREL.PRED "_bioquímico_a_rel" ]. bioquímico_n1 := n_intr_count_le & [ STEM < "bioquímico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bioquímico_n_rel" ] ]. biorrealimentación_n1 := n_intr_mass_le & [ STEM < "biorrealimentación" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biorrealimentación_n_rel" ] ]. biorretroalimentación_n1 := n_trans_le & [ STEM < "biorretroalimentación" >, SYNSEM.LKEYS.KEYREL.PRED "_biorretroalimentación_n_rel" ]. biorritmo_n1 := n_intr_count_le & [ STEM < "biorritmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biorritmo_n_rel" ] ]. biosecuencia_n1 := n_intr_count_le & [ STEM < "biosecuencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biosecuencia_n_rel" ] ]. bioseguridad_n1 := n_intr_uncount_le & [ STEM < "bioseguridad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioseguridad_n_rel" ] ]. biosfera_n1 := n_intr_count_le & [ STEM < "biosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biosfera_n_rel" ] ]. biostasia_n1 := n_intr_uncount_le & [ STEM < "biostasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostasia_n_rel" ] ]. biostratigrafía_n1 := n_intr_uncount_le & [ STEM < "biostratigrafía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostratigrafía_n_rel" ] ]. biostroma_n1 := n_intr_count_le & [ STEM < "biostroma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biostroma_n_rel" ] ]. biosíntesis_n1 := n_intr_uncount_le & [ STEM < "biosíntesis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biosíntesis_n_rel" ] ]. biotecnología_n1 := n_intr_uncount_le & [ STEM < "biotecnología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biotecnología_n_rel" ] ]. biotina_n1 := n_intr_count_le & [ STEM < "biotina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biotina_n_rel" ] ]. biotipo_n1 := n_intr_count_le & [ STEM < "biotipo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biotipo_n_rel" ] ]. biotita_n1 := n_intr_count_le & [ STEM < "biotita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biotita_n_rel" ] ]. biotopo_n1 := n_intr_count_le & [ STEM < "biotopo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biotopo_n_rel" ] ]. bioturbación_n1 := n_trans_le & [ STEM < "bioturbación" >, SYNSEM.LKEYS.KEYREL.PRED "_bioturbación_n_rel" ]. bioxalato_n1 := n_intr_count_le & [ STEM < "bioxalato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bioxalato_n_rel" ] ]. bioética_n1 := n_intr_uncount_le & [ STEM < "bioética" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bioética_n_rel" ] ]. bioórgano_n1 := n_intr_count_le & [ STEM < "bioórgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bioórgano_n_rel" ] ]. bioórgano_n2 := n_ppcomp_count_le & [ STEM < "bioórgano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bioórgano_n_rel" ] ]. bipartición_n1 := n_intr_uncount_le & [ STEM < "bipartición" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipartición_n_rel" ] ]. bipartidismo_n1 := n_intr_count_le & [ STEM < "bipartidismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipartidismo_n_rel" ] ]. bipartitamente_x1 := av_i_spr_le & [ STEM < "bipartitamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bipartitamente_x_rel" ]. bipartito_a1 := a_rel_prd_le & [ STEM < "bipartito" >, SYNSEM.LKEYS.KEYREL.PRED "_bipartito_a_rel" ]. bipedalismo_n1 := n_intr_uncount_le & [ STEM < "bipedalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipedalismo_n_rel" ] ]. bipiramidal_a1 := a_rel_prd_le & [ STEM < "bipiramidal" >, SYNSEM.LKEYS.KEYREL.PRED "_bipiramidal_a_rel" ]. bipirámide_n1 := n_intr_count_le & [ STEM < "bipirámide" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bipirámide_n_rel" ] ]. biplano_n1 := n_intr_count_le & [ STEM < "biplano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_biplano_n_rel" ] ]. biplaza_n1 := n_intr_count_le & [ STEM < "biplaza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_biplaza_n_rel" ] ]. bipolar_a1 := a_rel_prd_le & [ STEM < "bipolar" >, SYNSEM.LKEYS.KEYREL.PRED "_bipolar_a_rel" ]. bipolarmente_x1 := av_i_spr_le & [ STEM < "bipolarmente" >, SYNSEM.LKEYS.KEYREL.PRED "_bipolarmente_x_rel" ]. bipolo_n1 := n_intr_count_le & [ STEM < "bipolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bipolo_n_rel" ] ]. bipolímero_n1 := n_intr_count_le & [ STEM < "bipolímero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bipolímero_n_rel" ] ]. biposte_a1 := a_rel_prd_le & [ STEM < "biposte" >, SYNSEM.LKEYS.KEYREL.PRED "_biposte_a_rel" ]. biprocesador_n1 := n_intr_count_le & [ STEM < "biprocesador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biprocesador_n_rel" ] ]. bipuerta_n1 := n_intr_count_le & [ STEM < "bipuerta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bipuerta_n_rel" ] ]. bipátrida_n1 := n_intr_count_le & [ STEM < "bipátrida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bipátrida_n_rel" ] ]. biquinario_a1 := a_rel_prd_le & [ STEM < "biquinario" >, SYNSEM.LKEYS.KEYREL.PRED "_biquinario_a_rel" ]. biquini_n1 := n_intr_count_le & [ STEM < "biquini" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biquini_n_rel" ] ]. birmano_a1 := a_rel_prd_le & [ STEM < "birmano" >, SYNSEM.LKEYS.KEYREL.PRED "_birmano_a_rel" ]. birmano_n1 := n_intr_count_le & [ STEM < "birmano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_birmano_n_rel" ] ]. birreactor_n1 := n_intr_count_le & [ STEM < "birreactor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_birreactor_n_rel" ] ]. birrefringencia_n1 := n_intr_uncount_le & [ STEM < "birrefringencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_birrefringencia_n_rel" ] ]. bis_n1 := n_intr_count_le & [ STEM < "bis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bis_n_rel" ] ]. bisabuelo_n1 := n_intr_count_le & [ STEM < "bisabuelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bisabuelo_n_rel" ] ]. bisagra_n1 := n_intr_count_le & [ STEM < "bisagra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisagra_n_rel" ] ]. bisalto_n1 := n_intr_count_le & [ STEM < "bisalto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisalto_n_rel" ] ]. bisbisear_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "bisbisear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bisbisear_v_rel" ] ]. bisbisear_v2 := v_ditrans*_le & [ STEM < "bisbisear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_bisbisear_v_rel" ] ]. biscote_n1 := n_intr_count_le & [ STEM < "biscote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_biscote_n_rel" ] ]. bisecar_v := v_trans_np_le & [ STEM < "bisecar" >, SYNSEM.LKEYS.KEYREL.PRED "_bisecar_v_rel" ]. biseccionar_v := v_trans_np_le & [ STEM < "biseccionar" >, SYNSEM.LKEYS.KEYREL.PRED "_biseccionar_v_rel" ]. bisección_n1 := n_trans_le & [ STEM < "bisección" >, SYNSEM.LKEYS.KEYREL.PRED "_bisección_n_rel" ]. bisector_a1 := a_rel_nonprd_intr_le & [ STEM < "bisector" >, SYNSEM.LKEYS.KEYREL.PRED "_bisector_a_rel" ]. bisectriz_n1 := n_intr_count_le & [ STEM < "bisectriz" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisectriz_n_rel" ] ]. bisel_n1 := n_intr_count_le & [ STEM < "bisel" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisel_n_rel" ] ]. biseladamente_x1 := av_i_spr_le & [ STEM < "biseladamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biseladamente_x_rel" ]. biselar_v := v_trans_np_le & [ STEM < "biselar" >, SYNSEM.LKEYS.KEYREL.PRED "_biselar_v_rel" ]. bisemanal_a1 := a_rel_prd_le & [ STEM < "bisemanal" >, SYNSEM.LKEYS.KEYREL.PRED "_bisemanal_a_rel" ]. bisexual_a1 := a_rel_prd_le & [ STEM < "bisexual" >, SYNSEM.LKEYS.KEYREL.PRED "_bisexual_a_rel" ]. bisexualidad_n1 := n_ppcomp_uncount_le & [ STEM < "bisexualidad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisexualidad_n_rel" ] ]. bisfenol_n1 := n_intr_count_le & [ STEM < "bisfenol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisfenol_n_rel" ] ]. bishidroxicumarina_n1 := n_intr_count_le & [ STEM < "bishidroxicumarina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bishidroxicumarina_n_rel" ] ]. bisiesto_a1 := a_rel_prd_le & [ STEM < "bisiesto" >, SYNSEM.LKEYS.KEYREL.PRED "_bisiesto_a_rel" ]. bisilábico_a1 := a_rel_prd_le & [ STEM < "bisilábico" >, SYNSEM.LKEYS.KEYREL.PRED "_bisilábico_a_rel" ]. bisistema_n1 := n_intr_count_le & [ STEM < "bisistema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisistema_n_rel" ] ]. bismalva_n1 := n_intr_count_le & [ STEM < "bismalva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bismalva_n_rel" ] ]. bismanol_n1 := n_intr_count_le & [ STEM < "bismanol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bismanol_n_rel" ] ]. bismita_n1 := n_intr_count_le & [ STEM < "bismita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismita_n_rel" ] ]. bismutinita_n1 := n_intr_count_le & [ STEM < "bismutinita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismutinita_n_rel" ] ]. bismutita_n1 := n_intr_count_le & [ STEM < "bismutita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismutita_n_rel" ] ]. bismuto_n1 := n_intr_mass_le & [ STEM < "bismuto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bismuto_n_rel" ] ]. bisnieto_n1 := n_intr_count_le & [ STEM < "bisnieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bisnieto_n_rel" ] ]. bisonte_n1 := n_intr_count_le & [ STEM < "bisonte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bisonte_n_rel" ] ]. bisoprolol_n1 := n_intr_count_le & [ STEM < "bisoprolol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisoprolol_n_rel" ] ]. bistec_n1 := n_intr_count_le & [ STEM < "bistec" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bistec_n_rel" ] ]. bistorta_n1 := n_intr_count_le & [ STEM < "bistorta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bistorta_n_rel" ] ]. bisturí_n1 := n_intr_count_le & [ STEM < "bisturí" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisturí_n_rel" ] ]. bisté_n1 := n_intr_count_le & [ STEM < "bisté" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bisté_n_rel" ] ]. bisulfato_n1 := n_intr_count_le & [ STEM < "bisulfato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfato_n_rel" ] ]. bisulfito_n1 := n_intr_count_le & [ STEM < "bisulfito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfito_n_rel" ] ]. bisulfuro_n1 := n_intr_count_le & [ STEM < "bisulfuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bisulfuro_n_rel" ] ]. bisutería_n1 := n_intr_uncount_pl_le & [ STEM < "bisutería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bisutería_n_rel" ] ]. bit_n := n_intr_count_le & [ STEM < "bit" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT unit, PRED "_bit_n_rel" ] ]. bita_n1 := n_intr_count_le & [ STEM < "bita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bita_n_rel" ] ]. bitangente_n1 := n_intr_count_le & [ STEM < "bitangente" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bitangente_n_rel" ] ]. bitartrato_n1 := n_intr_count_le & [ STEM < "bitartrato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bitartrato_n_rel" ] ]. bitemporal_a1 := a_rel_prd_le & [ STEM < "bitemporal" >, SYNSEM.LKEYS.KEYREL.PRED "_bitemporal_a_rel" ]. bitionol_n1 := n_intr_count_le & [ STEM < "bitionol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bitionol_n_rel" ] ]. bitonal_a1 := a_rel_prd_le & [ STEM < "bitonal" >, SYNSEM.LKEYS.KEYREL.PRED "_bitonal_a_rel" ]. bitumen_n1 := n_intr_mass_le & [ STEM < "bitumen" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bitumen_n_rel" ] ]. bituminado_a1 := a_rel_prd_le & [ STEM < "bituminado" >, SYNSEM.LKEYS.KEYREL.PRED "_bituminado_a_rel" ]. bituminadora_n1 := n_intr_count_le & [ STEM < "bituminadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bituminadora_n_rel" ] ]. bituminoso_a1 := a_rel_prd_le & [ STEM < "bituminoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bituminoso_a_rel" ]. bitácora_n1 := n_intr_count_le & [ STEM < "bitácora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bitácora_n_rel" ] ]. biunívocamente_x1 := av_i_spr_le & [ STEM < "biunívocamente" >, SYNSEM.LKEYS.KEYREL.PRED "_biunívocamente_x_rel" ]. biunívoco_a1 := a_rel_prd_le & [ STEM < "biunívoco" >, SYNSEM.LKEYS.KEYREL.PRED "_biunívoco_a_rel" ]. biureto_n1 := n_intr_count_le & [ STEM < "biureto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_biureto_n_rel" ] ]. bivalencia_n1 := n_intr_count_le & [ STEM < "bivalencia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bivalencia_n_rel" ] ]. bivalente_a1 := a_rel_prd_le & [ STEM < "bivalente" >, SYNSEM.LKEYS.KEYREL.PRED "_bivalente_a_rel" ]. bivalvo_a1 := a_rel_prd_le & [ STEM < "bivalvo" >, SYNSEM.LKEYS.KEYREL.PRED "_bivalvo_a_rel" ]. bivalvo_n1 := n_intr_count_le & [ STEM < "bivalvo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bivalvo_n_rel" ] ]. bivariable_a1 := a_rel_prd_le & [ STEM < "bivariable" >, SYNSEM.LKEYS.KEYREL.PRED "_bivariable_a_rel" ]. bivariante_a1 := a_rel_prd_le & [ STEM < "bivariante" >, SYNSEM.LKEYS.KEYREL.PRED "_bivariante_a_rel" ]. biyección_n1 := n_intr_count_le & [ STEM < "biyección" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biyección_n_rel" ] ]. biyectivo_a1 := a_rel_prd_le & [ STEM < "biyectivo" >, SYNSEM.LKEYS.KEYREL.PRED "_biyectivo_a_rel" ]. bizantino_a1 := a_rel_prd_le & [ STEM < "bizantino" >, SYNSEM.LKEYS.KEYREL.PRED "_bizantino_a_rel" ]. bizantino_n1 := n_intr_count_le & [ STEM < "bizantino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bizantino_n_rel" ] ]. bizcamente_x1 := av_i_spr_le & [ STEM < "bizcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bizcamente_x_rel" ]. bizco_a1 := a_qual_intr_scopal_le & [ STEM < "bizco" >, SYNSEM.LKEYS.KEYREL.PRED "_bizco_a_rel" ]. bizcocho_n1 := n_intr_mass_le & [ STEM < "bizcocho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bizcocho_n_rel" ] ]. biznieto_n1 := n_intr_count_le & [ STEM < "biznieto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biznieto_n_rel" ] ]. biáxico_a1 := a_rel_prd_le & [ STEM < "biáxico" >, SYNSEM.LKEYS.KEYREL.PRED "_biáxico_a_rel" ]. biógeno_a1 := a_rel_prd_le & [ STEM < "biógeno" >, SYNSEM.LKEYS.KEYREL.PRED "_biógeno_a_rel" ]. biógrafo_n1 := n_intr_count_le & [ STEM < "biógrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biógrafo_n_rel" ] ]. biólogo_n1 := n_intr_count_le & [ STEM < "biólogo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_biólogo_n_rel" ] ]. biónica_n1 := n_intr_uncount_le & [ STEM < "biónica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_biónica_n_rel" ] ]. biónico_a1 := a_rel_prd_le & [ STEM < "biónico" >, SYNSEM.LKEYS.KEYREL.PRED "_biónico_a_rel" ]. bióticamente_x1 := av_i_spr_le & [ STEM < "bióticamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bióticamente_x_rel" ]. biótico_a1 := a_rel_nonprd_intr_le & [ STEM < "biótico" >, SYNSEM.LKEYS.KEYREL.PRED "_biótico_a_rel" ]. bióxido_n1 := n_intr_mass_le & [ STEM < "bióxido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bióxido_n_rel" ] ]. blanco_a1 := a_qual_intr_ser_le & [ STEM < "blanco" >, SYNSEM.LKEYS.KEYREL.PRED "_blanco_a_rel" ]. blancura_n1 := n_ppcomp_uncount_le & [ STEM < "blancura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blancura_n_rel" ] ]. blancuzcamente_x1 := av_i_spr_le & [ STEM < "blancuzcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_blancuzcamente_x_rel" ]. blancuzco_a1 := a_qual_intr_ser_le & [ STEM < "blancuzco" >, SYNSEM.LKEYS.KEYREL.PRED "_blancuzco_a_rel" ]. blandir_v := v_trans_np_le & [ STEM < "blandir" >, SYNSEM.LKEYS.KEYREL.PRED "_blandir_v_rel" ]. blando_a1 := a_qual_intr_scopal_le & [ STEM < "blando" >, SYNSEM.LKEYS.KEYREL.PRED "_blando_a_rel" ]. blandura_n1 := n_ppcomp_mass-or-count_le & [ STEM < "blandura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blandura_n_rel" ] ]. blanduzcamente_x1 := av_i_spr_le & [ STEM < "blanduzcamente" >, SYNSEM.LKEYS.KEYREL.PRED "_blanduzcamente_x_rel" ]. blanduzco_a1 := a_qual_intr_scopal_le & [ STEM < "blanduzco" >, SYNSEM.LKEYS.KEYREL.PRED "_blanduzco_a_rel" ]. blanqueador_n1 := n_intr_count_le & [ STEM < "blanqueador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blanqueador_n_rel" ] ]. blanqueante_a1 := a_rel_nonprd_intr_le & [ STEM < "blanqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_blanqueante_a_rel" ]. blanquear_v := v_trans_np_caus_le & [ STEM < "blanquear" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquear_v_rel" ]. blanquecino_a1 := a_qual_intr_ser_le & [ STEM < "blanquecino" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquecino_a_rel" ]. blanqueo_n1 := n_trans_le & [ STEM < "blanqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_blanqueo_n_rel" ]. blanquiazul_a1 := a_qual_intr_ser_le & [ STEM < "blanquiazul" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquiazul_a_rel" ]. blanquiazul_n1 := n_intr_count_le & [ STEM < "blanquiazul" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blanquiazul_n_rel" ] ]. blanquillo_a1 := a_qual_intr_ser_le & [ STEM < "blanquillo" >, SYNSEM.LKEYS.KEYREL.PRED "_blanquillo_a_rel" ]. blasfemar_v := v_intr_le & [ STEM < "blasfemar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_blasfemar_v_rel" ] ]. blasfemia_n1 := n_intr_count_le & [ STEM < "blasfemia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blasfemia_n_rel" ] ]. blasfemo_a1 := a_qual_intr_ser_le & [ STEM < "blasfemo" >, SYNSEM.LKEYS.KEYREL.PRED "_blasfemo_a_rel" ]. blasonador_n1 := n_intr_count_le & [ STEM < "blasonador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blasonador_n_rel" ] ]. blastema_n1 := n_intr_count_le & [ STEM < "blastema" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastema_n_rel" ] ]. blastocelo_n1 := n_intr_count_le & [ STEM < "blastocelo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastocelo_n_rel" ] ]. blastocisto_n1 := n_intr_count_le & [ STEM < "blastocisto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastocisto_n_rel" ] ]. blastodermo_n1 := n_intr_count_le & [ STEM < "blastodermo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastodermo_n_rel" ] ]. blastodérmico_a1 := a_rel_nonprd_intr_le & [ STEM < "blastodérmico" >, SYNSEM.LKEYS.KEYREL.PRED "_blastodérmico_a_rel" ]. blastoide_a1 := a_rel_nonprd_intr_le & [ STEM < "blastoide" >, SYNSEM.LKEYS.KEYREL.PRED "_blastoide_a_rel" ]. blastomicosis_n1 := n_intr_uncount_le & [ STEM < "blastomicosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blastomicosis_n_rel" ] ]. blastosfera_n1 := n_intr_count_le & [ STEM < "blastosfera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastosfera_n_rel" ] ]. blastómero_n1 := n_intr_count_le & [ STEM < "blastómero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blastómero_n_rel" ] ]. blasón_n1 := n_intr_count_le & [ STEM < "blasón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blasón_n_rel" ] ]. blaugrana_a1 := a_qual_intr_ser_le & [ STEM < "blaugrana" >, SYNSEM.LKEYS.KEYREL.PRED "_blaugrana_a_rel" ]. blaugrana_n1 := n_intr_count_le & [ STEM < "blaugrana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_blaugrana_n_rel" ] ]. bledo_n1 := n_intr_count_le & [ STEM < "bledo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bledo_n_rel" ] ]. blefarectomía_n1 := n_intr_count_le & [ STEM < "blefarectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarectomía_n_rel" ] ]. blefarismo_n1 := n_intr_uncount_le & [ STEM < "blefarismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarismo_n_rel" ] ]. blefaritis_n1 := n_intr_uncount_le & [ STEM < "blefaritis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaritis_n_rel" ] ]. blefarocalasia_n1 := n_intr_uncount_le & [ STEM < "blefarocalasia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarocalasia_n_rel" ] ]. blefaroclono_n1 := n_intr_count_le & [ STEM < "blefaroclono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blefaroclono_n_rel" ] ]. blefaroconjuntivitis_n1 := n_intr_uncount_le & [ STEM < "blefaroconjuntivitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroconjuntivitis_n_rel" ] ]. blefarodiastasis_n1 := n_intr_uncount_le & [ STEM < "blefarodiastasis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarodiastasis_n_rel" ] ]. blefaroespasmo_n1 := n_intr_count_le & [ STEM < "blefaroespasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroespasmo_n_rel" ] ]. blefarofimosis_n1 := n_intr_uncount_le & [ STEM < "blefarofimosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarofimosis_n_rel" ] ]. blefaroplastia_n1 := n_intr_count_le & [ STEM < "blefaroplastia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroplastia_n_rel" ] ]. blefaroplasto_n1 := n_intr_count_le & [ STEM < "blefaroplasto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blefaroplasto_n_rel" ] ]. blefaroplejía_n1 := n_intr_uncount_le & [ STEM < "blefaroplejía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroplejía_n_rel" ] ]. blefaroptosis_n1 := n_intr_uncount_le & [ STEM < "blefaroptosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaroptosis_n_rel" ] ]. blefarorrafia_n1 := n_intr_uncount_le & [ STEM < "blefarorrafia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarorrafia_n_rel" ] ]. blefarosfinterectomía_n1 := n_intr_count_le & [ STEM < "blefarosfinterectomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarosfinterectomía_n_rel" ] ]. blefarotomía_n1 := n_intr_count_le & [ STEM < "blefarotomía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefarotomía_n_rel" ] ]. blefaróstato_n1 := n_intr_count_le & [ STEM < "blefaróstato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blefaróstato_n_rel" ] ]. blenda_n1 := n_intr_count_le & [ STEM < "blenda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blenda_n_rel" ] ]. blenoftalmía_n1 := n_intr_uncount_le & [ STEM < "blenoftalmía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blenoftalmía_n_rel" ] ]. blindaje_n1 := n_trans_le & [ STEM < "blindaje" >, SYNSEM.LKEYS.KEYREL.PRED "_blindaje_n_rel" ]. blindar_v := v_trans_np*_le & [ STEM < "blindar" >, SYNSEM.LKEYS.KEYREL.PRED "_blindar_v_rel" ]. bloc_n1 := n_intr_count_le & [ STEM < "bloc" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bloc_n_rel" ] ]. blocaje_n1 := n_intr_uncount_le & [ STEM < "blocaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_blocaje_n_rel" ] ]. blocar_v := v_trans_np_le & [ STEM < "blocar" >, SYNSEM.LKEYS.KEYREL.PRED "_blocar_v_rel" ]. blonda_n1 := n_intr_count_le & [ STEM < "blonda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blonda_n_rel" ] ]. bloque_n1 := n_intr_count_le & [ STEM < "bloque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bloque_n_rel" ] ]. bloqueable_a1 := a_rel_prd_le & [ STEM < "bloqueable" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueable_a_rel" ]. bloqueador_a1 := a_rel_nonprd_intr_le & [ STEM < "bloqueador" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueador_a_rel" ]. bloqueador_n1 := n_subj-nom_le & [ STEM < "bloqueador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bloqueador_n_rel" ] ]. bloqueante_a1 := a_rel_nonprd_intr_le & [ STEM < "bloqueante" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueante_a_rel" ]. bloquear_v1 := v_intr_io*_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v2 := v_subj_cp_prop_fin_sub_intr_io*_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v3 := v_subj_cp_prop_trans_cp_prop_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v4 := v_subj_cp_prop_trans_np_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL.PRED "_bloquear_v_rel" ]. bloquear_v5 := v_trans_cp_prop_fin_sub_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_bloquear_v_rel" ] ]. bloquear_v6 := v_trans_np_caus_le & [ STEM < "bloquear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT abs_hum_pro_sem, PRED "_bloquear_v_rel" ] ]. bloqueo_n1 := n_trans_le & [ STEM < "bloqueo" >, SYNSEM.LKEYS.KEYREL.PRED "_bloqueo_n_rel" ]. blusa_n1 := n_intr_count_le & [ STEM < "blusa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_blusa_n_rel" ] ]. blástico_a1 := a_rel_nonprd_intr_le & [ STEM < "blástico" >, SYNSEM.LKEYS.KEYREL.PRED "_blástico_a_rel" ]. blástula_n1 := n_intr_count_le & [ STEM < "blástula" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_plant, PRED "_blástula_n_rel" ] ]. boa_n1 := n_intr_count_le & [ STEM < "boa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_boa_n_rel" ] ]. boato_n1 := n_intr_uncount_le & [ STEM < "boato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boato_n_rel" ] ]. bob_n1 := n_intr_count_le & [ STEM < "bob" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bob_n_rel" ] ]. bobada_n1 := n_intr_count_le & [ STEM < "bobada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bobada_n_rel" ] ]. bobina_n1 := n_intr_count_le & [ STEM < "bobina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bobina_n_rel" ] ]. bobinado_n1 := n_intr_mass_le & [ STEM < "bobinado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobinado_n_rel" ] ]. bobinadora_n1 := n_intr_count_le & [ STEM < "bobinadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobinadora_n_rel" ] ]. bobinar_v := v_trans_np_le & [ STEM < "bobinar" >, SYNSEM.LKEYS.KEYREL.PRED "_bobinar_v_rel" ]. bobo_a1 := a_qual_intr_ser_le & [ STEM < "bobo" >, SYNSEM.LKEYS.KEYREL.PRED "_bobo_a_rel" ]. bobsleigh_n1 := n_intr_count_le & [ STEM < "bobsleigh" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bobsleigh_n_rel" ] ]. boca_arriba_x1 := av_i_le & [ STEM < "boca_arriba" >, SYNSEM.LKEYS.KEYREL.PRED "_boca_arriba_x_rel" ]. boca_n1 := n_intr_count_le & [ STEM < "boca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boca_n_rel" ] ]. boca_n2 := n_ppcomp_count_le & [ STEM < "boca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_boca_n_rel" ] ]. bocacalle_n1 := n_intr_count_le & [ STEM < "bocacalle" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bocacalle_n_rel" ] ]. bocadillería_n1 := n_intr_count_le & [ STEM < "bocadillería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bocadillería_n_rel" ] ]. bocadillo_n1 := n_intr_mass_le & [ STEM < "bocadillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocadillo_n_rel" ] ]. bocado_n1 := n_intr_count_le & [ STEM < "bocado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocado_n_rel" ] ]. bocana_n1 := n_intr_count_le & [ STEM < "bocana" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bocana_n_rel" ] ]. bocanada_n1 := n_intr_count_le & [ STEM < "bocanada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocanada_n_rel" ] ]. bocanada_n2 := n_pseudo-part_le & [ STEM < "bocanada" >, SYNSEM.LKEYS.KEYREL.PRED "_bocanada_n_rel" ]. bocanegra_n1 := n_intr_count_le & [ STEM < "bocanegra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bocanegra_n_rel" ] ]. bocarte_n1 := n_intr_count_le & [ STEM < "bocarte" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocarte_n_rel" ] ]. bocata_n1 := n_intr_count_le & [ STEM < "bocata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocata_n_rel" ] ]. bocateja_n1 := n_intr_count_le & [ STEM < "bocateja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocateja_n_rel" ] ]. bocazas_n1 := n_intr_count_le & [ STEM < "bocazas" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bocazas_n_rel" ] ]. bocelón_n1 := n_intr_count_le & [ STEM < "bocelón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocelón_n_rel" ] ]. bocetista_n1 := n_intr_count_le & [ STEM < "bocetista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bocetista_n_rel" ] ]. boceto_n1 := n_intr_count_le & [ STEM < "boceto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boceto_n_rel" ] ]. bochorno_n1 := n_intr_mass_le & [ STEM < "bochorno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bochorno_n_rel" ] ]. bochornosamente_x1 := av_i_spr_le & [ STEM < "bochornosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bochornosamente_x_rel" ]. bochornoso_a1 := a_qual_intr_scopal_le & [ STEM < "bochornoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bochornoso_a_rel" ]. bocina_n1 := n_intr_count_le & [ STEM < "bocina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocina_n_rel" ] ]. bocinazo_n1 := n_intr_count_le & [ STEM < "bocinazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bocinazo_n_rel" ] ]. bocio_n1 := n_intr_count_le & [ STEM < "bocio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bocio_n_rel" ] ]. boda_n1 := n_intr_count_le & [ STEM < "boda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boda_n_rel" ] ]. bodega_n1 := n_intr_count_le & [ STEM < "bodega" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bodega_n_rel" ] ]. bodeguero_n1 := n_intr_count_le & [ STEM < "bodeguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bodeguero_n_rel" ] ]. bodeguilla_n1 := n_intr_count_le & [ STEM < "bodeguilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_bodeguilla_n_rel" ] ]. bodegón_n1 := n_intr_count_le & [ STEM < "bodegón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bodegón_n_rel" ] ]. body_n1 := n_intr_count_le & [ STEM < "body" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_body_n_rel" ] ]. bofetada_n1 := n_intr_count_le & [ STEM < "bofetada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bofetada_n_rel" ] ]. boga_n1 := n_intr_count_le & [ STEM < "boga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boga_n_rel" ] ]. boga_n2 := n_event-result_intr_le & [ STEM < "boga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boga_n_rel" ] ]. bogador_n1 := n_intr_count_le & [ STEM < "bogador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bogador_n_rel" ] ]. bogar_v := v_intr_le & [ STEM < "bogar" >, SYNSEM.LKEYS.KEYREL.PRED "_bogar_v_rel" ]. bogavante_n1 := n_intr_count_le & [ STEM < "bogavante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani_hum, PRED "_bogavante_n_rel" ] ]. bogotano_n1 := n_intr_count_le & [ STEM < "bogotano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bogotano_n_rel" ] ]. bohemio_a1 := a_qual_intr_ser_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemio_a_rel" ]. bohemio_a2 := a_rel_prd_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemio_a_rel" ]. bohemio_n1 := n_intr_count_le & [ STEM < "bohemio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bohemio_n_rel" ] ]. bohemo_a1 := a_rel_prd_le & [ STEM < "bohemo" >, SYNSEM.LKEYS.KEYREL.PRED "_bohemo_a_rel" ]. bohemo_n1 := n_intr_count_le & [ STEM < "bohemo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bohemo_n_rel" ] ]. boicot_n1 := n_intr_count_le & [ STEM < "boicot" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boicot_n_rel" ] ]. boicoteador_n1 := n_subj-nom_le & [ STEM < "boicoteador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boicoteador_n_rel" ] ]. boicotear_v1 := v_trans_cp_prop_fin_sub_le & [ STEM < "boicotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_boicotear_v_rel" ] ]. boicotear_v2 := v_trans_np_le & [ STEM < "boicotear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_boicotear_v_rel" ] ]. boicoteo_n1 := n_trans_le & [ STEM < "boicoteo" >, SYNSEM.LKEYS.KEYREL.PRED "_boicoteo_n_rel" ]. boina_n1 := n_intr_count_le & [ STEM < "boina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boina_n_rel" ] ]. boje_n1 := n_intr_count_le & [ STEM < "boje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boje_n_rel" ] ]. bojedal_n1 := n_intr_count_le & [ STEM < "bojedal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bojedal_n_rel" ] ]. bol_n1 := n_intr_count_le & [ STEM < "bol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bol_n_rel" ] ]. bola_n1 := n_intr_count_le & [ STEM < "bola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bola_n_rel" ] ]. bolardo_n1 := n_intr_count_le & [ STEM < "bolardo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolardo_n_rel" ] ]. bolchevique_a1 := a_rel_prd_le & [ STEM < "bolchevique" >, SYNSEM.LKEYS.KEYREL.PRED "_bolchevique_a_rel" ]. bolchevismo_n1 := n_intr_uncount_le & [ STEM < "bolchevismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bolchevismo_n_rel" ] ]. bolera_n1 := n_intr_count_le & [ STEM < "bolera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bolera_n_rel" ] ]. bolerista_n1 := n_intr_count_le & [ STEM < "bolerista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bolerista_n_rel" ] ]. bolero_n1 := n_intr_count_le & [ STEM < "bolero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bolero_n_rel" ] ]. boleto_n1 := n_intr_count_le & [ STEM < "boleto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boleto_n_rel" ] ]. boletín_n1 := n_intr_count_le & [ STEM < "boletín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_boletín_n_rel" ] ]. boliche_n1 := n_intr_count_le & [ STEM < "boliche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_boliche_n_rel" ] ]. bolillo_n1 := n_intr_count_le & [ STEM < "bolillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolillo_n_rel" ] ]. bolina_n1 := n_intr_count_le & [ STEM < "bolina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolina_n_rel" ] ]. bolita_n1 := n_intr_count_le & [ STEM < "bolita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolita_n_rel" ] ]. boliviano_a1 := a_rel_prd_le & [ STEM < "boliviano" >, SYNSEM.LKEYS.KEYREL.PRED "_boliviano_a_rel" ]. boliviano_n1 := n_intr_count_le & [ STEM < "boliviano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boliviano_n_rel" ] ]. bollería_n1 := n_intr_uncount_le & [ STEM < "bollería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bollería_n_rel" ] ]. bollo_n1 := n_intr_count_le & [ STEM < "bollo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bollo_n_rel" ] ]. bolo_n1 := n_intr_count_le & [ STEM < "bolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolo_n_rel" ] ]. bolsa_n1 := n_intr_count_le & [ STEM < "bolsa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsa_n_rel" ] ]. bolsillo_n1 := n_intr_count_le & [ STEM < "bolsillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsillo_n_rel" ] ]. bolso_n1 := n_intr_count_le & [ STEM < "bolso" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolso_n_rel" ] ]. bolsín_n1 := n_intr_count_le & [ STEM < "bolsín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolsín_n_rel" ] ]. bolígrafo_n1 := n_intr_count_le & [ STEM < "bolígrafo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolígrafo_n_rel" ] ]. bolómetro_n1 := n_intr_count_le & [ STEM < "bolómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bolómetro_n_rel" ] ]. bomba_n1 := n_intr_count_le & [ STEM < "bomba" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bomba_n_rel" ] ]. bombarda_n1 := n_intr_count_le & [ STEM < "bombarda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bombarda_n_rel" ] ]. bombardear_v := v_trans_np*_le & [ STEM < "bombardear" >, SYNSEM.LKEYS.KEYREL.PRED "_bombardear_v_rel" ]. bombardeo_n1 := n_trans_le & [ STEM < "bombardeo" >, SYNSEM.LKEYS.KEYREL.PRED "_bombardeo_n_rel" ]. bombardero_n1 := n_intr_count_le & [ STEM < "bombardero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_pot, PRED "_bombardero_n_rel" ] ]. bombardino_n1 := n_intr_count_le & [ STEM < "bombardino" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombardino_n_rel" ] ]. bombardón_n1 := n_intr_count_le & [ STEM < "bombardón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombardón_n_rel" ] ]. bombear_v := v_trans_np*_le & [ STEM < "bombear" >, SYNSEM.LKEYS.KEYREL.PRED "_bombear_v_rel" ]. bombeo_n1 := n_trans_le & [ STEM < "bombeo" >, SYNSEM.LKEYS.KEYREL.PRED "_bombeo_n_rel" ]. bombero_n1 := n_intr_count_le & [ STEM < "bombero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bombero_n_rel" ] ]. bombilla_n1 := n_intr_count_le & [ STEM < "bombilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombilla_n_rel" ] ]. bombo_n1 := n_intr_count_le & [ STEM < "bombo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombo_n_rel" ] ]. bombona_n1 := n_intr_count_le & [ STEM < "bombona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombona_n_rel" ] ]. bombonera_n1 := n_intr_count_le & [ STEM < "bombonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombonera_n_rel" ] ]. bombonería_n1 := n_intr_count_le & [ STEM < "bombonería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bombonería_n_rel" ] ]. bombín_n1 := n_intr_count_le & [ STEM < "bombín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombín_n_rel" ] ]. bombón_n1 := n_intr_mass_le & [ STEM < "bombón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bombón_n_rel" ] ]. bonaerense_a1 := a_rel_prd_le & [ STEM < "bonaerense" >, SYNSEM.LKEYS.KEYREL.PRED "_bonaerense_a_rel" ]. bonaerense_n1 := n_intr_count_le & [ STEM < "bonaerense" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bonaerense_n_rel" ] ]. bonancible_a1 := a_qual_intr_scopal_le & [ STEM < "bonancible" >, SYNSEM.LKEYS.KEYREL.PRED "_bonancible_a_rel" ]. bonanciblemente_x1 := av_i_spr_le & [ STEM < "bonanciblemente" >, SYNSEM.LKEYS.KEYREL.PRED "_bonanciblemente_x_rel" ]. bonanza_n1 := n_intr_mass_le & [ STEM < "bonanza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bonanza_n_rel" ] ]. bondad_n1 := n_ppcomp_mass-or-count_le & [ STEM < "bondad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bondad_n_rel" ] ]. bondadosamente_x1 := av_i_spr_le & [ STEM < "bondadosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_bondadosamente_x_rel" ]. bondadoso_a1 := a_qual_intr_ser_le & [ STEM < "bondadoso" >, SYNSEM.LKEYS.KEYREL.PRED "_bondadoso_a_rel" ]. bongo_n1 := n_intr_count_le & [ STEM < "bongo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bongo_n_rel" ] ]. boniato_n1 := n_intr_count_le & [ STEM < "boniato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boniato_n_rel" ] ]. bonificación_n1 := n_trans_le & [ STEM < "bonificación" >, SYNSEM.LKEYS.KEYREL.PRED "_bonificación_n_rel" ]. bonificar_v := v_ditrans*_le & [ STEM < "bonificar" >, SYNSEM.LKEYS.KEYREL.PRED "_bonificar_v_rel" ]. bonito_a1 := a_qual_intr_scopal_le & [ STEM < "bonito" >, SYNSEM.LKEYS.KEYREL.PRED "_bonito_a_rel" ]. bonito_n1 := n_intr_count_le & [ STEM < "bonito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bonito_n_rel" ] ]. bono_n1 := n_intr_count_le & [ STEM < "bono" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bono_n_rel" ] ]. bonobo_n1 := n_intr_count_le & [ STEM < "bonobo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_bonobo_n_rel" ] ]. bonsai_n1 := n_intr_count_le & [ STEM < "bonsai" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_bonsai_n_rel" ] ]. bonzo_n1 := n_intr_count_le & [ STEM < "bonzo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bonzo_n_rel" ] ]. booleano_a1 := a_rel_nonprd_intr_le & [ STEM < "booleano" >, SYNSEM.LKEYS.KEYREL.PRED "_booleano_a_rel" ]. boom_n1 := n_intr_count_le & [ STEM < "boom" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boom_n_rel" ] ]. boomerang_n1 := n_intr_count_le & [ STEM < "boomerang" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boomerang_n_rel" ] ]. boqueada_n1 := n_intr_count_le & [ STEM < "boqueada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_boqueada_n_rel" ] ]. boquera_n1 := n_intr_count_le & [ STEM < "boquera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquera_n_rel" ] ]. boquerón_n1 := n_intr_count_le & [ STEM < "boquerón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_boquerón_n_rel" ] ]. boquete_n1 := n_intr_count_le & [ STEM < "boquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquete_n_rel" ] ]. boquiabierto_a1 := a_qual_intr_estar_le & [ STEM < "boquiabierto" >, SYNSEM.LKEYS.KEYREL.PRED "_boquiabierto_a_rel" ]. boquilla_n1 := n_intr_count_le & [ STEM < "boquilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boquilla_n_rel" ] ]. boracita_n1 := n_intr_count_le & [ STEM < "boracita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boracita_n_rel" ] ]. borato_n1 := n_intr_count_le & [ STEM < "borato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borato_n_rel" ] ]. borbotear_v := v_intr_le & [ STEM < "borbotear" >, SYNSEM.LKEYS.KEYREL.PRED "_borbotear_v_rel" ]. borbónico_a1 := a_rel_nonprd_intr_le & [ STEM < "borbónico" >, SYNSEM.LKEYS.KEYREL.PRED "_borbónico_a_rel" ]. borda_n1 := n_intr_count_le & [ STEM < "borda" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_borda_n_rel" ] ]. bordado_n1 := n_trans_le & [ STEM < "bordado" >, SYNSEM.LKEYS.KEYREL.PRED "_bordado_n_rel" ]. bordador_n1 := n_subj-nom_le & [ STEM < "bordador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bordador_n_rel" ] ]. bordar_v := v_trans_np*_le & [ STEM < "bordar" >, SYNSEM.LKEYS.KEYREL.PRED "_bordar_v_rel" ]. borde_n1 := n_intr_count_le & [ STEM < "borde" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borde_n_rel" ] ]. bordear_v := v_trans_np_le & [ STEM < "bordear" >, SYNSEM.LKEYS.KEYREL.PRED "_bordear_v_rel" ]. borderó_n1 := n_intr_count_le & [ STEM < "borderó" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_cnc, PRED "_borderó_n_rel" ] ]. bordillo_n1 := n_intr_count_le & [ STEM < "bordillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bordillo_n_rel" ] ]. bordo_n1 := n_intr_count_le & [ STEM < "bordo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bordo_n_rel" ] ]. bordonadora_n1 := n_intr_count_le & [ STEM < "bordonadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bordonadora_n_rel" ] ]. bordón_n1 := n_intr_count_le & [ STEM < "bordón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bordón_n_rel" ] ]. boreal_a1 := a_rel_nonprd_intr_le & [ STEM < "boreal" >, SYNSEM.LKEYS.KEYREL.PRED "_boreal_a_rel" ]. boreliano_a1 := a_rel_nonprd_intr_le & [ STEM < "boreliano" >, SYNSEM.LKEYS.KEYREL.PRED "_boreliano_a_rel" ]. borgoñón_a1 := a_rel_prd_le & [ STEM < "borgoñón" >, SYNSEM.LKEYS.KEYREL.PRED "_borgoñón_a_rel" ]. borgoñón_n1 := n_intr_count_le & [ STEM < "borgoñón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_borgoñón_n_rel" ] ]. boriborato_n1 := n_intr_count_le & [ STEM < "boriborato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boriborato_n_rel" ] ]. borla_n1 := n_intr_count_le & [ STEM < "borla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borla_n_rel" ] ]. borne_n1 := n_intr_mass_le & [ STEM < "borne" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borne_n_rel" ] ]. borneadura_n1 := n_trans_le & [ STEM < "borneadura" >, SYNSEM.LKEYS.KEYREL.PRED "_borneadura_n_rel" ]. borneo_n1 := n_trans_le & [ STEM < "borneo" >, SYNSEM.LKEYS.KEYREL.PRED "_borneo_n_rel" ]. borneol_n1 := n_intr_mass-or-count_le & [ STEM < "borneol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_mat, PRED "_borneol_n_rel" ] ]. bornita_n1 := n_intr_count_le & [ STEM < "bornita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bornita_n_rel" ] ]. bornizo_n1 := n_intr_mass_le & [ STEM < "bornizo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bornizo_n_rel" ] ]. boro_n1 := n_intr_mass_le & [ STEM < "boro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boro_n_rel" ] ]. borohidruro_n1 := n_intr_count_le & [ STEM < "borohidruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_borohidruro_n_rel" ] ]. borona_n1 := n_intr_count_le & [ STEM < "borona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_borona_n_rel" ] ]. borosilicato_n1 := n_intr_count_le & [ STEM < "borosilicato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_borosilicato_n_rel" ] ]. borra_n1 := n_intr_count_le & [ STEM < "borra" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borra_n_rel" ] ]. borrable_a1 := a_rel_prd_le & [ STEM < "borrable" >, SYNSEM.LKEYS.KEYREL.PRED "_borrable_a_rel" ]. borrachera_n1 := n_intr_count_le & [ STEM < "borrachera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrachera_n_rel" ] ]. borracho_a1 := a_qual_intr_estar_le & [ STEM < "borracho" >, SYNSEM.LKEYS.KEYREL.PRED "_borracho_a_rel" ]. borracho_n1 := n_intr_count_le & [ STEM < "borracho" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_borracho_n_rel" ] ]. borrachín_n1 := n_intr_count_le & [ STEM < "borrachín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrachín_n_rel" ] ]. borrado_n1 := n_trans_le & [ STEM < "borrado" >, SYNSEM.LKEYS.KEYREL.PRED "_borrado_n_rel" ]. borrador_a1 := a_rel_nonprd_intr_le & [ STEM < "borrador" >, SYNSEM.LKEYS.KEYREL.PRED "_borrador_a_rel" ]. borrador_n1 := n_intr_count_le & [ STEM < "borrador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_borrador_n_rel" ] ]. borradura_n1 := n_trans_le & [ STEM < "borradura" >, SYNSEM.LKEYS.KEYREL.PRED "_borradura_n_rel" ]. borraja_n1 := n_intr_count_le & [ STEM < "borraja" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_borraja_n_rel" ] ]. borrar_v2 := v_trans_np_mrkd_np*_le & [ STEM < "borrar" >, SYNSEM.LKEYS [ --OCOMPKEY _de_p_sel_rel, KEYREL.PRED "_borrar_v_rel" ] ]. borrasca_n1 := n_intr_count_le & [ STEM < "borrasca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_borrasca_n_rel" ] ]. borrascoso_a1 := a_qual_intr_scopal_le & [ STEM < "borrascoso" >, SYNSEM.LKEYS.KEYREL.PRED "_borrascoso_a_rel" ]. borrego_n1 := n_intr_count_le & [ STEM < "borrego" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_borrego_n_rel" ] ]. borroso_a1 := a_qual_intr_scopal_le & [ STEM < "borroso" >, SYNSEM.LKEYS.KEYREL.PRED "_borroso_a_rel" ]. borrén_n1 := n_intr_count_le & [ STEM < "borrén" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_borrén_n_rel" ] ]. boruro_n1 := n_intr_count_le & [ STEM < "boruro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_boruro_n_rel" ] ]. boscaje_n1 := n_intr_mass_le & [ STEM < "boscaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_boscaje_n_rel" ] ]. boscoso_a1 := a_rel_nonprd_intr_le & [ STEM < "boscoso" >, SYNSEM.LKEYS.KEYREL.PRED "_boscoso_a_rel" ]. bosnio_a1 := a_rel_prd_le & [ STEM < "bosnio" >, SYNSEM.LKEYS.KEYREL.PRED "_bosnio_a_rel" ]. bosnio_n1 := n_intr_count_le & [ STEM < "bosnio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bosnio_n_rel" ] ]. bosque_n1 := n_intr_coll_le & [ STEM < "bosque" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_bosque_n_rel" ] ]. bosquejar_v := v_trans_np_le & [ STEM < "bosquejar" >, SYNSEM.LKEYS.KEYREL.PRED "_bosquejar_v_rel" ]. bosquejo_n1 := n_intr_count_le & [ STEM < "bosquejo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_bosquejo_n_rel" ] ]. bosquete_n1 := n_intr_count_le & [ STEM < "bosquete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_bosquete_n_rel" ] ]. bosquimano_n1 := n_intr_count_le & [ STEM < "bosquimano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bosquimano_n_rel" ] ]. bostezar_v := v_intr_le & [ STEM < "bostezar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_bostezar_v_rel" ] ]. bostezo_n1 := n_result_intr_le & [ STEM < "bostezo" >, SYNSEM.LKEYS.KEYREL.PRED "_bostezo_n_rel" ]. bostoniano_a1 := a_rel_prd_le & [ STEM < "bostoniano" >, SYNSEM.LKEYS.KEYREL.PRED "_bostoniano_a_rel" ]. bostoniano_n1 := n_intr_count_le & [ STEM < "bostoniano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bostoniano_n_rel" ] ]. bota_n1 := n_intr_count_le & [ STEM < "bota" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bota_n_rel" ] ]. botador_n1 := n_intr_count_le & [ STEM < "botador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botador_n_rel" ] ]. botadura_n1 := n_event-result_intr_le & [ STEM < "botadura" >, SYNSEM.LKEYS.KEYREL.PRED "_botadura_n_rel" ]. botalón_n1 := n_intr_count_le & [ STEM < "botalón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botalón_n_rel" ] ]. botar_v1 := v_trans_np_le & [ STEM < "botar" >, SYNSEM.LKEYS.KEYREL.PRED "_botar_v_rel" ]. botar_v2 := v_unacc_le & [ STEM < "botar" >, SYNSEM.LKEYS.KEYREL.PRED "_botar_v_rel" ]. botavara_n1 := n_intr_count_le & [ STEM < "botavara" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botavara_n_rel" ] ]. bote_n1 := n_intr_count_le & [ STEM < "bote" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bote_n_rel" ] ]. botella_n1 := n_pseudo-part_le & [ STEM < "botella" >, SYNSEM.LKEYS.KEYREL.PRED "_botella_n_rel" ]. botellero_n1 := n_intr_count_le & [ STEM < "botellero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botellero_n_rel" ] ]. botellín_n1 := n_intr_count_le & [ STEM < "botellín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botellín_n_rel" ] ]. botepronto_n1 := n_intr_uncount_pl_le & [ STEM < "botepronto" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botepronto_n_rel" ] ]. botica_n1 := n_intr_count_le & [ STEM < "botica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc, PRED "_botica_n_rel" ] ]. boticario_n1 := n_intr_count_le & [ STEM < "boticario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boticario_n_rel" ] ]. botijo_n1 := n_intr_count_le & [ STEM < "botijo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botijo_n_rel" ] ]. botillero_n1 := n_intr_count_le & [ STEM < "botillero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botillero_n_rel" ] ]. botiquín_n1 := n_intr_count_le & [ STEM < "botiquín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botiquín_n_rel" ] ]. botonadura_n1 := n_intr_count_le & [ STEM < "botonadura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botonadura_n_rel" ] ]. botoncito_n1 := n_intr_count_le & [ STEM < "botoncito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botoncito_n_rel" ] ]. botonera_n1 := n_intr_count_le & [ STEM < "botonera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botonera_n_rel" ] ]. botones_n1 := n_intr_count_le & [ STEM < "botones" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botones_n_rel" ] ]. botulismo_n1 := n_intr_uncount_le & [ STEM < "botulismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botulismo_n_rel" ] ]. botánica_n1 := n_intr_uncount_le & [ STEM < "botánica" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_botánica_n_rel" ] ]. botánicamente_x1 := av_i_spr_le & [ STEM < "botánicamente" >, SYNSEM.LKEYS.KEYREL.PRED "_botánicamente_x_rel" ]. botánico_a1 := a_rel_nonprd_intr_le & [ STEM < "botánico" >, SYNSEM.LKEYS.KEYREL.PRED "_botánico_a_rel" ]. botánico_n1 := n_intr_count_le & [ STEM < "botánico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_botánico_n_rel" ] ]. botín_n1 := n_intr_count_le & [ STEM < "botín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botín_n_rel" ] ]. botón_n1 := n_intr_count_le & [ STEM < "botón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_botón_n_rel" ] ]. bournonita_n1 := n_intr_count_le & [ STEM < "bournonita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bournonita_n_rel" ] ]. boutique_n1 := n_intr_count_le & [ STEM < "boutique" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_boutique_n_rel" ] ]. bovedilla_n1 := n_intr_count_le & [ STEM < "bovedilla" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bovedilla_n_rel" ] ]. bovino_a1 := a_rel_nonprd_intr_le & [ STEM < "bovino" >, SYNSEM.LKEYS.KEYREL.PRED "_bovino_a_rel" ]. box_n1 := n_intr_count_le & [ STEM < "box" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_loc, PRED "_box_n_rel" ] ]. boxeador_n1 := n_intr_count_le & [ STEM < "boxeador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boxeador_n_rel" ] ]. boxear_v := v_intr_le & [ STEM < "boxear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_boxear_v_rel" ] ]. boxeo_n1 := n_result_intr_le & [ STEM < "boxeo" >, SYNSEM.LKEYS.KEYREL.PRED "_boxeo_n_rel" ]. boya_n1 := n_intr_count_le & [ STEM < "boya" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boya_n_rel" ] ]. boyante_a1 := a_rel_nonprd_intr_le & [ STEM < "boyante" >, SYNSEM.LKEYS.KEYREL.PRED "_boyante_a_rel" ]. boyarín_n1 := n_intr_count_le & [ STEM < "boyarín" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boyarín_n_rel" ] ]. boyero_n1 := n_intr_count_le & [ STEM < "boyero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_boyero_n_rel" ] ]. boza_n1 := n_intr_count_le & [ STEM < "boza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_boza_n_rel" ] ]. bozal_n1 := n_intr_count_le & [ STEM < "bozal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bozal_n_rel" ] ]. bozo_n1 := n_intr_count_le & [ STEM < "bozo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bozo_n_rel" ] ]. braceaje_n1 := n_intr_mass_le & [ STEM < "braceaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braceaje_n_rel" ] ]. bracero_n1 := n_intr_count_le & [ STEM < "bracero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bracero_n_rel" ] ]. bracista_n1 := n_intr_count_le & [ STEM < "bracista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bracista_n_rel" ] ]. bracket_cl_pnct := pnct_fpt_le & [ STEM < "fpt" > ]. bracket_op_pnct := pnct_fpa_le & [ STEM < "fpa" > ]. braco_a1 := a_rel_prd_le & [ STEM < "braco" >, SYNSEM.LKEYS.KEYREL.PRED "_braco_a_rel" ]. bradicardia_n1 := n_intr_uncount_le & [ STEM < "bradicardia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradicardia_n_rel" ] ]. bradicinina_n1 := n_intr_mass_le & [ STEM < "bradicinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bradicinina_n_rel" ] ]. bradifagia_n1 := n_intr_uncount_le & [ STEM < "bradifagia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradifagia_n_rel" ] ]. bradiglosia_n1 := n_intr_uncount_le & [ STEM < "bradiglosia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradiglosia_n_rel" ] ]. bradilexia_n1 := n_intr_uncount_le & [ STEM < "bradilexia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bradilexia_n_rel" ] ]. bradiquinina_n1 := n_intr_count_le & [ STEM < "bradiquinina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bradiquinina_n_rel" ] ]. braga_n1 := n_intr_count_le & [ STEM < "braga" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braga_n_rel" ] ]. braguero_n1 := n_intr_count_le & [ STEM < "braguero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_braguero_n_rel" ] ]. bragueta_n1 := n_intr_count_le & [ STEM < "bragueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bragueta_n_rel" ] ]. braguita_n1 := n_intr_count_le & [ STEM < "braguita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_braguita_n_rel" ] ]. brahmanismo_n1 := n_intr_uncount_le & [ STEM < "brahmanismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brahmanismo_n_rel" ] ]. braille_n1 := n_intr_count_le & [ STEM < "braille" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_sem, PRED "_braille_n_rel" ] ]. bramar_v1 := v_ditrans_cp_prop_fin_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, PRED "_bramar_v_rel" ] ]. bramar_v2 := v_ditrans*_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum, ARG2.SORT abs_pro, PRED "_bramar_v_rel" ] ]. bramar_v3 := v_unacc_le & [ STEM < "bramar" >, SYNSEM.LKEYS.KEYREL.PRED "_bramar_v_rel" ]. bramido_n1 := n_result_intr_le & [ STEM < "bramido" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bramido_n_rel" ] ]. bramor_n1 := n_intr_uncount_le & [ STEM < "bramor" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bramor_n_rel" ] ]. brandy_n1 := n_intr_mass_le & [ STEM < "brandy" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brandy_n_rel" ] ]. branquia_n1 := n_intr_count_le & [ STEM < "branquia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_branquia_n_rel" ] ]. branquial_a1 := a_rel_nonprd_intr_le & [ STEM < "branquial" >, SYNSEM.LKEYS.KEYREL.PRED "_branquial_a_rel" ]. branquioma_n1 := n_intr_count_le & [ STEM < "branquioma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_branquioma_n_rel" ] ]. braquial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquial_a_rel" ]. braquicefalia_n1 := n_intr_uncount_le & [ STEM < "braquicefalia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquicefalia_n_rel" ] ]. braquicefalismo_n1 := n_intr_uncount_le & [ STEM < "braquicefalismo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquicefalismo_n_rel" ] ]. braquicéfalo_a1 := a_rel_nonprd_intr_le & [ STEM < "braquicéfalo" >, SYNSEM.LKEYS.KEYREL.PRED "_braquicéfalo_a_rel" ]. braquiestafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiestafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiestafilino_a_rel" ]. braquifacial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquifacial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquifacial_a_rel" ]. braquignatia_n1 := n_intr_uncount_le & [ STEM < "braquignatia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquignatia_n_rel" ] ]. braquimeiosis_n1 := n_intr_uncount_le & [ STEM < "braquimeiosis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquimeiosis_n_rel" ] ]. braquiocefálico_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiocefálico" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiocefálico_a_rel" ]. braquiodonto_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiodonto" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiodonto_a_rel" ]. braquiorradial_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiorradial" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiorradial_a_rel" ]. braquiqueilia_n1 := n_intr_uncount_le & [ STEM < "braquiqueilia" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_braquiqueilia_n_rel" ] ]. braquistafilino_a1 := a_rel_nonprd_intr_le & [ STEM < "braquistafilino" >, SYNSEM.LKEYS.KEYREL.PRED "_braquistafilino_a_rel" ]. braquiuránico_a1 := a_rel_nonprd_intr_le & [ STEM < "braquiuránico" >, SYNSEM.LKEYS.KEYREL.PRED "_braquiuránico_a_rel" ]. brasa_n1 := n_intr_count_le & [ STEM < "brasa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brasa_n_rel" ] ]. brasero_n1 := n_intr_count_le & [ STEM < "brasero" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brasero_n_rel" ] ]. brasileño_a1 := a_rel_prd_le & [ STEM < "brasileño" >, SYNSEM.LKEYS.KEYREL.PRED "_brasileño_a_rel" ]. brasileño_n1 := n_intr_count_le & [ STEM < "brasileño" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brasileño_n_rel" ] ]. brasilianita_n1 := n_intr_count_le & [ STEM < "brasilianita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brasilianita_n_rel" ] ]. bratislavo_n1 := n_intr_count_le & [ STEM < "bratislavo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bratislavo_n_rel" ] ]. braunita_n1 := n_intr_count_le & [ STEM < "braunita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_braunita_n_rel" ] ]. bravata_n1 := n_intr_count_le & [ STEM < "bravata" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bravata_n_rel" ] ]. bravo_a1 := a_qual_intr_scopal_le & [ STEM < "bravo" >, SYNSEM.LKEYS.KEYREL.PRED "_bravo_a_rel" ]. bravura_n1 := n_ppcomp_mass_le & [ STEM < "bravura" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bravura_n_rel" ] ]. braza_n1 := n_pseudo-part_le & [ STEM < "braza" >, SYNSEM.LKEYS.KEYREL.PRED "_braza_n_rel" ]. brazada_n1 := n_intr_count_le & [ STEM < "brazada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brazada_n_rel" ] ]. brazal_n1 := n_intr_count_le & [ STEM < "brazal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazal_n_rel" ] ]. brazalera_n1 := n_intr_count_le & [ STEM < "brazalera" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazalera_n_rel" ] ]. brazalete_n1 := n_intr_count_le & [ STEM < "brazalete" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazalete_n_rel" ] ]. brazo_n1 := n_ppcomp_count_le & [ STEM < "brazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_brazo_n_rel" ] ]. brazola_n1 := n_intr_count_le & [ STEM < "brazola" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brazola_n_rel" ] ]. brea_n1 := n_intr_mass_le & [ STEM < "brea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brea_n_rel" ] ]. brebaje_n1 := n_intr_count_le & [ STEM < "brebaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brebaje_n_rel" ] ]. brecha_n1 := n_intr_count_le & [ STEM < "brecha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brecha_n_rel" ] ]. brega_n1 := n_result_intr_le & [ STEM < "brega" >, SYNSEM.LKEYS.KEYREL.PRED "_brega_n_rel" ]. bregar_v := v_intr_mrkd_np*_le & [ STEM < "bregar" >, SYNSEM.LKEYS [ --COMPKEY con_or_en_p_sel_rel, KEYREL.PRED "_bregar_v_rel" ] ]. bregma_n1 := n_intr_uncount_le & [ STEM < "bregma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bregma_n_rel" ] ]. bregmático_a1 := a_rel_nonprd_intr_le & [ STEM < "bregmático" >, SYNSEM.LKEYS.KEYREL.PRED "_bregmático_a_rel" ]. bretón_a1 := a_rel_prd_le & [ STEM < "bretón" >, SYNSEM.LKEYS.KEYREL.PRED "_bretón_a_rel" ]. bretón_n1 := n_intr_count_le & [ STEM < "bretón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs_hum, PRED "_bretón_n_rel" ] ]. breva_n1 := n_intr_count_le & [ STEM < "breva" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_breva_n_rel" ] ]. breve_a1 := a_adv_event_le & [ STEM < "breve" >, SYNSEM.LKEYS.KEYREL.PRED "_breve_a_rel" ]. breve_a2 := a_qual_intr_scopal_le & [ STEM < "breve" >, SYNSEM.LKEYS.KEYREL.PRED "_breve_a_rel" ]. brevedad_n1 := n_ppcomp_mass_le & [ STEM < "brevedad" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brevedad_n_rel" ] ]. breviario_n1 := n_intr_count_le & [ STEM < "breviario" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc_sem, PRED "_breviario_n_rel" ] ]. brevísimo_a1 := a_qual_intr_scopal_le & [ STEM < "brevísimo" >, SYNSEM.LKEYS.KEYREL.PRED "_brevísimo_a_rel" ]. brezal_n1 := n_intr_count_le & [ STEM < "brezal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT loc_plant, PRED "_brezal_n_rel" ] ]. brezo_n1 := n_intr_count_le & [ STEM < "brezo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_brezo_n_rel" ] ]. bribón_n1 := n_intr_count_le & [ STEM < "bribón" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bribón_n_rel" ] ]. brick_n1 := n_intr_count_le & [ STEM < "brick" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brick_n_rel" ] ]. bricolaje_n1 := n_intr_uncount_le & [ STEM < "bricolaje" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bricolaje_n_rel" ] ]. bricomanía_n1 := n_intr_uncount_le & [ STEM < "bricomanía" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bricomanía_n_rel" ] ]. brida_n1 := n_intr_count_le & [ STEM < "brida" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brida_n_rel" ] ]. bridar_v := v_trans_np_le & [ STEM < "bridar" >, SYNSEM.LKEYS.KEYREL.PRED "_bridar_v_rel" ]. bridge_n1 := n_intr_uncount_le & [ STEM < "bridge" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bridge_n_rel" ] ]. brigada_n1 := n_intr_coll_le & [ STEM < "brigada" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT soc, PRED "_brigada_n_rel" ] ]. brigadier_n1 := n_intr_count_le & [ STEM < "brigadier" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brigadier_n_rel" ] ]. brigadista_n1 := n_intr_count_le & [ STEM < "brigadista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_brigadista_n_rel" ] ]. brillancímetro_n1 := n_intr_count_le & [ STEM < "brillancímetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillancímetro_n_rel" ] ]. brillante_a1 := a_qual_intr_ser_le & [ STEM < "brillante" >, SYNSEM.LKEYS.KEYREL.PRED "_brillante_a_rel" ]. brillante_n1 := n_intr_count_le & [ STEM < "brillante" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brillante_n_rel" ] ]. brillantemente_x1 := av_i_spr_le & [ STEM < "brillantemente" >, SYNSEM.LKEYS.KEYREL.PRED "_brillantemente_x_rel" ]. brillantez_n1 := n_ppcomp_uncount_le & [ STEM < "brillantez" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brillantez_n_rel" ] ]. brillantina_n1 := n_intr_mass_le & [ STEM < "brillantina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillantina_n_rel" ] ]. brillar_v := v_intr_le & [ STEM < "brillar" >, SYNSEM.LKEYS.KEYREL.PRED "_brillar_v_rel" ]. brillo_n1 := n_intr_mass_le & [ STEM < "brillo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillo_n_rel" ] ]. brillómetro_n1 := n_intr_count_le & [ STEM < "brillómetro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brillómetro_n_rel" ] ]. brincar_v1 := v_intr_le & [ STEM < "brincar" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT ani_hum, PRED "_brincar_v_rel" ] ]. brincar_v2 := v_intr_mrkd_cp_prop_fin_sub_le & [ STEM < "brincar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_brincar_v_rel" ] ] ]. brincar_v3 := v_intr_mrkd_np_le & [ STEM < "brincar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL [ ARG1.SORT hum, PRED "_brincar_v_rel" ] ] ]. brinco_n1 := n_result_intr_le & [ STEM < "brinco" >, SYNSEM.LKEYS.KEYREL.PRED "_brinco_n_rel" ]. brindar_v1 := v_ditrans_le & [ STEM < "brincar" >, SYNSEM.LKEYS.KEYREL.PRED "_brincar_v_rel" ]. brindar_v2 := v_intr_mrkd_np*_le & [ STEM < "brindar" >, SYNSEM.LKEYS [ --COMPKEY _por_p_sel_rel, KEYREL.PRED "_brindar_v_rel" ] ]. brindar_v3 := v_pron_intr_mrkd_cp_prop_inf_le & [ STEM < "brindar" >, SYNSEM.LKEYS [ --COMPKEY _a_p_sel_rel, KEYREL.PRED "_brindar_v_rel" ] ]. brindis_n1 := n_result_intr_ppcomp_le & [ STEM < "brindis" >, SYNSEM.LKEYS [ --OCOMPKEY _por_p_sel_rel, KEYREL.PRED "_brindis_n_rel" ] ]. brioche_n1 := n_intr_count_le & [ STEM < "brioche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brioche_n_rel" ] ]. briosamente_x1 := av_i_spr_le & [ STEM < "briosamente" >, SYNSEM.LKEYS.KEYREL.PRED "_briosamente_x_rel" ]. brioso_a1 := a_qual_intr_scopal_le & [ STEM < "brioso" >, SYNSEM.LKEYS.KEYREL.PRED "_brioso_a_rel" ]. briqueta_n1 := n_intr_mass_le & [ STEM < "briqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_briqueta_n_rel" ] ]. brisa_n1 := n_intr_mass_le & [ STEM < "brisa" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brisa_n_rel" ] ]. británico_a1 := a_rel_prd_le & [ STEM < "británico" >, SYNSEM.LKEYS.KEYREL.PRED "_británico_a_rel" ]. británico_n1 := n_intr_count_le & [ STEM < "británico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_británico_n_rel" ] ]. brizna_n1 := n_pseudo-part_le & [ STEM < "brizna" >, SYNSEM.LKEYS.KEYREL.PRED "_brizna_n_rel" ]. briófito_n1 := n_intr_count_le & [ STEM < "briófito" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT plant, PRED "_briófito_n_rel" ] ]. broca_n1 := n_intr_count_le & [ STEM < "broca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broca_n_rel" ] ]. brocado_n1 := n_intr_mass_le & [ STEM < "brocado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocado_n_rel" ] ]. brocal_n1 := n_intr_mass_le & [ STEM < "brocal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brocal_n_rel" ] ]. brocantita_n1 := n_intr_count_le & [ STEM < "brocantita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brocantita_n_rel" ] ]. brocha_n1 := n_intr_count_le & [ STEM < "brocha" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocha_n_rel" ] ]. brochadora_n1 := n_intr_count_le & [ STEM < "brochadora" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brochadora_n_rel" ] ]. brochal_n1 := n_intr_count_le & [ STEM < "brochal" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brochal_n_rel" ] ]. brochazo_n1 := n_intr_count_le & [ STEM < "brochazo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brochazo_n_rel" ] ]. broche_n1 := n_intr_count_le & [ STEM < "broche" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broche_n_rel" ] ]. brocheta_n1 := n_intr_count_le & [ STEM < "brocheta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_brocheta_n_rel" ] ]. brocárdico_n1 := n_intr_uncount_pl_le & [ STEM < "brocárdico" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_brocárdico_n_rel" ] ]. broker_n1 := n_intr_count_le & [ STEM < "broker" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_broker_n_rel" ] ]. broma_n1 := n_intr_count_le & [ STEM < "broma" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_broma_n_rel" ] ]. bromato_n1 := n_intr_count_le & [ STEM < "bromato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromato_n_rel" ] ]. bromatología_n1 := n_intr_uncount_le & [ STEM < "bromatología" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bromatología_n_rel" ] ]. bromear_v := v_intr_le & [ STEM < "bromear" >, SYNSEM.LKEYS.KEYREL [ ARG1.SORT hum_soc, PRED "_bromear_v_rel" ] ]. bromhídrico_a1 := a_rel_nonprd_intr_le & [ STEM < "bromhídrico" >, SYNSEM.LKEYS.KEYREL.PRED "_bromhídrico_a_rel" ]. bromirita_n1 := n_intr_count_le & [ STEM < "bromirita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromirita_n_rel" ] ]. bromista_n1 := n_intr_count_le & [ STEM < "bromista" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT hum, PRED "_bromista_n_rel" ] ]. bromo_n1 := n_intr_mass_le & [ STEM < "bromo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromo_n_rel" ] ]. bromoacetato_n1 := n_intr_count_le & [ STEM < "bromoacetato" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoacetato_n_rel" ] ]. bromoacetona_n1 := n_intr_count_le & [ STEM < "bromoacetona" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoacetona_n_rel" ] ]. bromobenceno_n1 := n_intr_count_le & [ STEM < "bromobenceno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromobenceno_n_rel" ] ]. bromoclorodimetilhidantoína_n1 := n_intr_count_le & [ STEM < "bromoclorodimetilhidantoína" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoclorodimetilhidantoína_n_rel" ] ]. bromocloroetano_n1 := n_intr_count_le & [ STEM < "bromocloroetano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromocloroetano_n_rel" ] ]. bromodietilacetilurea_n1 := n_intr_count_le & [ STEM < "bromodietilacetilurea" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromodietilacetilurea_n_rel" ] ]. bromoestirol_n1 := n_intr_count_le & [ STEM < "bromoestirol" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromoestirol_n_rel" ] ]. bromoformo_n1 := n_intr_count_le & [ STEM < "bromoformo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bromoformo_n_rel" ] ]. bromofosgeno_n1 := n_intr_count_le & [ STEM < "bromofosgeno" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bromofosgeno_n_rel" ] ]. bromotrifluorometano_n1 := n_intr_count_le & [ STEM < "bromotrifluorometano" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromotrifluorometano_n_rel" ] ]. bromuro_n1 := n_intr_mass_le & [ STEM < "bromuro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bromuro_n_rel" ] ]. bronca_n1 := n_intr_mass-or-count_le & [ STEM < "bronca" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronca_n_rel" ] ]. bronce_n1 := n_intr_count_le & [ STEM < "bronce" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_bronce_n_rel" ] ]. bronceado_n1 := n_intr_count_le & [ STEM < "bronceado" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronceado_n_rel" ] ]. bronceador_n1 := n_intr_count_le & [ STEM < "bronceador" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronceador_n_rel" ] ]. broncear_v := v_trans_np_caus_le & [ STEM < "broncear" >, SYNSEM.LKEYS.KEYREL.PRED "_broncear_v_rel" ]. broncita_n1 := n_intr_count_le & [ STEM < "broncita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_broncita_n_rel" ] ]. bronco_a1 := a_qual_intr_ser_le & [ STEM < "bronco" >, SYNSEM.LKEYS.KEYREL.PRED "_bronco_a_rel" ]. broncoesofágico_a1 := a_rel_nonprd_intr_le & [ STEM < "broncoesofágico" >, SYNSEM.LKEYS.KEYREL.PRED "_broncoesofágico_a_rel" ]. broncoespasmo_n1 := n_intr_count_le & [ STEM < "broncoespasmo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_broncoespasmo_n_rel" ] ]. broncopulmonar_a1 := a_rel_nonprd_intr_le & [ STEM < "broncopulmonar" >, SYNSEM.LKEYS.KEYREL.PRED "_broncopulmonar_a_rel" ]. bronquial_a1 := a_rel_nonprd_intr_le & [ STEM < "bronquial" >, SYNSEM.LKEYS.KEYREL.PRED "_bronquial_a_rel" ]. bronquio_n1 := n_intr_count_le & [ STEM < "bronquio" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronquio_n_rel" ] ]. bronquiolo_n1 := n_intr_count_le & [ STEM < "bronquiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_bronquiolo_n_rel" ] ]. bronquiolo_n2 := n_ppcomp_count_le & [ STEM < "bronquiolo" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT bpart, PRED "_bronquiolo_n_rel" ] ]. bronquitis_n1 := n_intr_uncount_le & [ STEM < "bronquitis" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs, PRED "_bronquitis_n_rel" ] ]. brontosauro_n1 := n_intr_count_le & [ STEM < "brontosauro" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT ani, PRED "_brontosauro_n_rel" ] ]. broqueta_n1 := n_intr_count_le & [ STEM < "broqueta" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT cnc, PRED "_broqueta_n_rel" ] ]. brotar_v1 := v_trans_np_le & [ STEM < "brotar" >, SYNSEM.LKEYS.KEYREL.PRED "_brotar_v_rel" ]. brotar_v2 := v_unacc_lcomp_loc*_perf_le & [ STEM < "brotar" >, SYNSEM.LKEYS.KEYREL.PRED "_brotar_v_rel" ]. brote_n1 := n_event-result_intr_le & [ STEM < "brote" >, SYNSEM.LKEYS.KEYREL.PRED "_brote_n_rel" ]. browniano_a1 := a_rel_prd_le & [ STEM < "browniano" >, SYNSEM.LKEYS.KEYREL.PRED "_browniano_a_rel" ]. broza_n1 := n_intr_count_le & [ STEM < "broza" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_broza_n_rel" ] ]. brucina_n1 := n_intr_count_le & [ STEM < "brucina" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brucina_n_rel" ] ]. brucita_n1 := n_intr_count_le & [ STEM < "brucita" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT mat, PRED "_brucita_n_rel" ] ]. brujería_n1 := n_intr_uncount_pl_le & [ STEM < "brujería" >, SYNSEM.LKEYS.KEYREL [ ARG0.SORT abs,