/* File: term_def_ph.cpp Date and Time: Fri Jan 30 18:55:26 2015 */ #include "term_def_ph.h" using namespace NS_yacco2_T_enum;// enumerate using namespace NS_yacco2_err_symbols;// error symbols using namespace NS_yacco2_k_symbols;// lrk using namespace NS_yacco2_terminals;// terminals using namespace NS_yacco2_characters;// rc using namespace yacco2;// yacco2 library using namespace NS_term_def_ph;// grammar's ns // first set terminals fsm_rules_reuse_table_type::fsm_rules_reuse_table_type(){ no_rules_entries_ = 16; per_rule_s_table_[0] = new Per_rule_s_reuse_table(); per_rule_s_table_[1] = new Per_rule_s_reuse_table(); per_rule_s_table_[2] = new Per_rule_s_reuse_table(); per_rule_s_table_[3] = new Per_rule_s_reuse_table(); per_rule_s_table_[4] = new Per_rule_s_reuse_table(); per_rule_s_table_[5] = new Per_rule_s_reuse_table(); per_rule_s_table_[6] = new Per_rule_s_reuse_table(); per_rule_s_table_[7] = new Per_rule_s_reuse_table(); per_rule_s_table_[8] = new Per_rule_s_reuse_table(); per_rule_s_table_[9] = new Per_rule_s_reuse_table(); per_rule_s_table_[10] = new Per_rule_s_reuse_table(); per_rule_s_table_[11] = new Per_rule_s_reuse_table(); per_rule_s_table_[12] = new Per_rule_s_reuse_table(); per_rule_s_table_[13] = new Per_rule_s_reuse_table(); per_rule_s_table_[14] = new Per_rule_s_reuse_table(); per_rule_s_table_[15] = new Per_rule_s_reuse_table(); } Cterm_def_ph:: Cterm_def_ph() :yacco2::CAbs_fsm ("term_def_ph.lex" ,"1.0" ,"24 mar 2004" ,false ,"Parse a terminal symbol." ,"Fri Jan 30 18:55:26 2015 " ,S1_Cterm_def_ph){ term_def_ = 0; } Cterm_def_ph::~Cterm_def_ph(){ for(int x = 0;x < 16;++x){ ///delete fsm_rules_reuse_table.per_rule_s_table_[x]; } } bool Cterm_def_ph::failed(){ return false; } void Cterm_def_ph::op(){ if(term_def_ != 0){ delete term_def_; term_def_ = 0; } term_def_ = new T_terminal_def; term_def_->set_rc(*parser__->start_token__,__FILE__,__LINE__); } int Cterm_def_ph::rhs_to_rules_mapping_[43] = { -1 ,0 // subrule 1 for rule 1 ,1 // subrule 2 for rule 2 ,1 // subrule 3 for rule 2 ,1 // subrule 4 for rule 2 ,1 // subrule 5 for rule 2 ,1 // subrule 6 for rule 2 ,1 // subrule 7 for rule 2 ,1 // subrule 8 for rule 2 ,2 // subrule 9 for rule 3 ,2 // subrule 10 for rule 3 ,2 // subrule 11 for rule 3 ,3 // subrule 12 for rule 4 ,3 // subrule 13 for rule 4 ,4 // subrule 14 for rule 5 ,4 // subrule 15 for rule 5 ,4 // subrule 16 for rule 5 ,5 // subrule 17 for rule 6 ,6 // subrule 18 for rule 7 ,6 // subrule 19 for rule 7 ,7 // subrule 20 for rule 8 ,7 // subrule 21 for rule 8 ,7 // subrule 22 for rule 8 ,8 // subrule 23 for rule 9 ,8 // subrule 24 for rule 9 ,9 // subrule 25 for rule 10 ,9 // subrule 26 for rule 10 ,10 // subrule 27 for rule 11 ,10 // subrule 28 for rule 11 ,11 // subrule 29 for rule 12 ,11 // subrule 30 for rule 12 ,12 // subrule 31 for rule 13 ,12 // subrule 32 for rule 13 ,13 // subrule 33 for rule 14 ,13 // subrule 34 for rule 14 ,13 // subrule 35 for rule 14 ,13 // subrule 36 for rule 14 ,13 // subrule 37 for rule 14 ,13 // subrule 38 for rule 14 ,14 // subrule 39 for rule 15 ,14 // subrule 40 for rule 15 ,15 // subrule 41 for rule 16 ,15 // subrule 42 for rule 16 }; void Cterm_def_ph:: add_sdc_to_directive(CAbs_lr1_sym* Dir,T_syntax_code* Sdc){ using namespace NS_yacco2_T_enum; using namespace NS_yacco2_terminals; yacco2::INT eid = Dir->enumerated_id__; switch (eid){ case T_Enum::T_T_user_declaration_: { T_user_declaration* k = (T_user_declaration*)Dir; k->syntax_code(Sdc); break; } case T_Enum::T_T_constructor_: { T_constructor* k = (T_constructor*)Dir; k->syntax_code(Sdc); break; } case T_Enum::T_T_destructor_: { T_destructor* k = (T_destructor*)Dir; k->syntax_code(Sdc); break; } case T_Enum::T_T_op_: { T_op* k = (T_op*)Dir; k->syntax_code(Sdc); break; } case T_Enum::T_T_user_implementation_: { T_user_implementation* k = (T_user_implementation*)Dir; k->syntax_code(Sdc); break; } default: { CAbs_lr1_sym* sym = new Err_improper_directive; sym->set_rc(*Dir,__FILE__,__LINE__); RSVP_FSM(sym); parser__->set_stop_parse(true); } } } Rterminal_def_phrase::Rterminal_def_phrase(yacco2::Parser* P) :CAbs_lr1_sym ("Rterminal_def_phrase",0,Cterm_def_ph::R_Rterminal_def_phrase_,P,false,false){ } void Rterminal_def_phrase::sr1(){ Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; RSVP(fsm->term_def_); // add to global symbol table const char* skey = fsm->term_def_->t_name()->c_str(); T_sym_tbl_report_card report_card; T_in_stbl* tin = new T_in_stbl(fsm->term_def_ ,rule_info__.parser__->start_token__,rule_info__.parser__); STBL_T_ITEMS.push_back(tin); using namespace yacco2_stbl; add_sym_to_stbl(report_card,*skey,*tin,table_entry::defed,table_entry::terminal); if(report_card.status_ != T_sym_tbl_report_card::okay){ report_card.err_entry_->set_rc(*rule_info__.parser__->start_token__,__FILE__,__LINE__); ADD_TOKEN_TO_ERROR_QUEUE(*report_card.err_entry_); rule_info__.parser__->set_stop_parse(true); return; } tin->stbl_idx(report_card.pos_); fsm->term_def_ = 0; } Rid::Rid(yacco2::Parser* P) :CAbs_lr1_sym ("Rid",0,Cterm_def_ph::R_Rid_,P,false,false){ } void Rid::sr1(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_c_string* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; const char* skey = sf->p2__->c_string()->c_str(); fsm->term_def_->t_name(skey); sf->p2__->set_auto_delete(true); T_sym_tbl_report_card report_card; using namespace yacco2_stbl; find_sym_in_stbl(report_card,*skey); if(report_card.action_ == T_sym_tbl_report_card::fnd){ CAbs_lr1_sym* sym = new Err_dup_entry_in_sym_table; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); return; } } void Rid::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_identifier* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; const char* skey = sf->p2__->identifier()->c_str(); fsm->term_def_->t_name(skey); sf->p2__->set_auto_delete(true); } void Rid::sr3(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_in_stbl* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); CAbs_lr1_sym* sym = new Err_dup_entry_in_sym_table; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); return; } void Rid::sr4(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; CAbs_lr1_sym* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); RSVP(sf->p2__); rule_info__.parser__->set_stop_parse(true); } void Rid::sr5(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_lrk_sufx* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); sf->p2__->set_auto_delete(true); rule_info__.parser__->set_abort_parse(true); } void Rid::sr6(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_terminals_sufx* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); sf->p2__->set_auto_delete(true); rule_info__.parser__->set_abort_parse(true); } void Rid::sr7(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_terminals_refs* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); sf->p2__->set_auto_delete(true); rule_info__.parser__->set_abort_parse(true); } Rad_ab_tags::Rad_ab_tags(yacco2::Parser* P) :CAbs_lr1_sym ("Rad_ab_tags",0,Cterm_def_ph::R_Rad_ab_tags_,P,false,false){ } Rad_ab_tag::Rad_ab_tag(yacco2::Parser* P) :CAbs_lr1_sym ("Rad_ab_tag",0,Cterm_def_ph::R_Rad_ab_tag_,P,false,false){ } void Rad_ab_tag::sr1(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_AD* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; if(fsm->term_def_->autodelete() == true){ CAbs_lr1_sym* sym = new Err_already_defined_AD; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); return; } fsm->term_def_->autodelete(true); } void Rad_ab_tag::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_AB* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; if(fsm->term_def_->autoabort() == true){ CAbs_lr1_sym* sym = new Err_already_defined_AB; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); return; } fsm->term_def_->autoabort(true); } Rsym_cweb_k::Rsym_cweb_k(yacco2::Parser* P) :CAbs_lr1_sym ("Rsym_cweb_k",0,Cterm_def_ph::R_Rsym_cweb_k_,P,false,false){ } void Rsym_cweb_k::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_cweb_comment* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; T_cweb_comment* k = sf->p2__; AST* cwebk_t_ = new AST(*k); AST* cweb_t_ = new AST(); T_cweb_marker* cw = new T_cweb_marker(cweb_t_); AST::set_content(*cweb_t_,*cw); AST::join_pts(*cweb_t_,*cwebk_t_); cw->set_rc(*k,__FILE__,__LINE__); AST::set_content(*cweb_t_,*cw); fsm->term_def_->add_cweb_marker(cw->ast()); } void Rsym_cweb_k::sr3(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; CAbs_lr1_sym* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); RSVP(sf->p2__); rule_info__.parser__->set_stop_parse(true); } Rsym_class_phrase::Rsym_class_phrase(yacco2::Parser* P) :CAbs_lr1_sym ("Rsym_class_phrase",0,Cterm_def_ph::R_Rsym_class_phrase_,P,false,false){ } Rsym_class::Rsym_class(yacco2::Parser* P) :CAbs_lr1_sym ("Rsym_class",0,Cterm_def_ph::R_Rsym_class_,P,false,false){ } void Rsym_class::sr2(){ CAbs_lr1_sym* sym = new Err_no_sym_class_present; sym->set_rc(*rule_info__.parser__->current_token(),__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rsym_class_id::Rsym_class_id(yacco2::Parser* P) :CAbs_lr1_sym ("Rsym_class_id",0,Cterm_def_ph::R_Rsym_class_id_,P,false,false){ } void Rsym_class_id::sr1(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_identifier* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; fsm->term_def_->classsym(sf->p2__->identifier()->c_str()); sf->p2__->set_auto_delete(true); } void Rsym_class_id::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; CAbs_lr1_sym* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); sf->p2__->set_auto_delete(true); CAbs_lr1_sym* sym = new Err_no_sym_class_id_present; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } void Rsym_class_id::sr3(){ CAbs_lr1_sym* sym = new Err_no_sym_class_id_present; sym->set_rc(*rule_info__.parser__->current_token(),__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rpotential_code_blk::Rpotential_code_blk(yacco2::Parser* P) :CAbs_lr1_sym ("Rpotential_code_blk",0,Cterm_def_ph::R_Rpotential_code_blk_,P,false,false){ } Ropen_par::Ropen_par(yacco2::Parser* P) :CAbs_lr1_sym ("Ropen_par",0,Cterm_def_ph::R_Ropen_par_,P,false,false){ } void Ropen_par::sr1(){ CAbs_lr1_sym* sym = new Err_no_open_parenthesis; sym->set_rc(*rule_info__.parser__->current_token(),__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rclose_par::Rclose_par(yacco2::Parser* P) :CAbs_lr1_sym ("Rclose_par",0,Cterm_def_ph::R_Rclose_par_,P,false,false){ } void Rclose_par::sr1(){ CAbs_lr1_sym* sym = new Err_no_close_parenthesis; sym->set_rc(*rule_info__.parser__->current_token(),__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rclosing_brace::Rclosing_brace(yacco2::Parser* P) :CAbs_lr1_sym ("Rclosing_brace",0,Cterm_def_ph::R_Rclosing_brace_,P,false,false){ } void Rclosing_brace::sr1(){ CAbs_lr1_sym* sym = new Err_no_close_brace; sym->set_rc(*rule_info__.parser__->current_token(),__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rdirectives::Rdirectives(yacco2::Parser* P) :CAbs_lr1_sym ("Rdirectives",0,Cterm_def_ph::R_Rdirectives_,P,false,false){ } void Rdirectives::sr1(){ struct SF{ Rdirective* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; Rsyntax_code* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; Rlint* p3__; State* s3__; bool abort3__; Rule_s_reuse_entry* rule_s_reuse_entry3__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(3); Rdirective* dir = sf->p1__; Rsyntax_code* sdc = sf->p2__; Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; fsm->add_sdc_to_directive(dir->directive_,sdc->syntax_code_); } void Rdirectives::sr2(){ struct SF{ Rdirectives* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; Rdirective* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; Rsyntax_code* p3__; State* s3__; bool abort3__; Rule_s_reuse_entry* rule_s_reuse_entry3__; Rlint* p4__; State* s4__; bool abort4__; Rule_s_reuse_entry* rule_s_reuse_entry4__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(4); Rdirective* dir = sf->p2__; Rsyntax_code* sdc = sf->p3__; Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; fsm->add_sdc_to_directive(dir->directive_,sdc->syntax_code_); } Rdirective::Rdirective(yacco2::Parser* P) :CAbs_lr1_sym ("Rdirective",0,Cterm_def_ph::R_Rdirective_,P,false,false){ } void Rdirective::op(){ sstrace_rulesss if(directive_ == 0) return; Cterm_def_ph* fsm = (Cterm_def_ph*)rule_info__.parser__->fsm_tbl__; CAbs_lr1_sym* result = fsm->term_def_->add_directive_to_map(directive_,rule_info__.parser__); if(result == 0) return;// ok added directive_->set_auto_delete(true);//dup: delete when popped from stack RSVP(result); rule_info__.parser__->set_stop_parse(true); } void Rdirective::sr1(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_user_declaration* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = sf->p2__; } void Rdirective::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_user_implementation* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = sf->p2__; } void Rdirective::sr3(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_constructor* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = sf->p2__; } void Rdirective::sr4(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_destructor* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = sf->p2__; } void Rdirective::sr5(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_op* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = sf->p2__; } void Rdirective::sr6(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; CAbs_lr1_sym* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); directive_ = 0; sf->p2__->set_auto_delete(true); CAbs_lr1_sym* sym = new Err_bad_directive; sym->set_rc(*sf->p2__,__FILE__,__LINE__); RSVP(sym); rule_info__.parser__->set_stop_parse(true); } Rsyntax_code::Rsyntax_code(yacco2::Parser* P) :CAbs_lr1_sym ("Rsyntax_code",0,Cterm_def_ph::R_Rsyntax_code_,P,false,false){ } void Rsyntax_code::sr1(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; T_syntax_code* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); syntax_code_ = sf->p2__; } void Rsyntax_code::sr2(){ struct SF{ LR1_parallel_operator* p1__; State* s1__; bool abort1__; Rule_s_reuse_entry* rule_s_reuse_entry1__; CAbs_lr1_sym* p2__; State* s2__; bool abort2__; Rule_s_reuse_entry* rule_s_reuse_entry2__; }; SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(2); syntax_code_ = 0; RSVP(sf->p2__); rule_info__.parser__->set_stop_parse(true); } Rlint::Rlint(yacco2::Parser* P) :CAbs_lr1_sym ("Rlint",0,Cterm_def_ph::R_Rlint_,P,false,false){ }