/*
File: parallel_monitor_ph.cpp
Date and Time: Fri Jan 30 18:55:18 2015
*/
#include "parallel_monitor_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_parallel_monitor_ph;// grammar's ns
// first set terminals
fsm_rules_reuse_table_type::fsm_rules_reuse_table_type(){
no_rules_entries_ = 8;
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();
}
Cparallel_monitor_ph::
Cparallel_monitor_ph()
:yacco2::CAbs_fsm
("parallel_monitor_ph.lex"
,"1.0"
,"24 mar 2004"
,false
,"Parse a rule's arbitration code: \n into the valley of someone's dementia..."
,"Fri Jan 30 18:55:18 2015 "
,S1_Cparallel_monitor_ph){
parallel_monitor_phrase_ = 0;
}
Cparallel_monitor_ph::~Cparallel_monitor_ph(){
for(int x = 0;x < 8;++x){
///delete fsm_rules_reuse_table.per_rule_s_table_[x];
}
}
bool Cparallel_monitor_ph::failed(){
return false;
}
void Cparallel_monitor_ph::op(){
if(parallel_monitor_phrase_ != 0){
delete parallel_monitor_phrase_;
parallel_monitor_phrase_ = 0;
}
parallel_monitor_phrase_ = new T_parallel_monitor_phrase;
parallel_monitor_phrase_->set_rc(*parser__->start_token__,__FILE__,__LINE__);
AST* t = new AST(*parallel_monitor_phrase_);
parallel_monitor_phrase_->phrase_tree(t);
}
int Cparallel_monitor_ph::rhs_to_rules_mapping_[18] = {
-1
,0 // subrule 1 for rule 1
,1 // subrule 2 for rule 2
,1 // subrule 3 for rule 2
,2 // subrule 4 for rule 3
,2 // subrule 5 for rule 3
,3 // subrule 6 for rule 4
,4 // subrule 7 for rule 5
,4 // subrule 8 for rule 5
,4 // subrule 9 for rule 5
,5 // subrule 10 for rule 6
,5 // subrule 11 for rule 6
,5 // subrule 12 for rule 6
,6 // subrule 13 for rule 7
,6 // subrule 14 for rule 7
,7 // subrule 15 for rule 8
,7 // subrule 16 for rule 8
,7 // subrule 17 for rule 8
};
void Cparallel_monitor_ph::
add_sdc_to_directive(yacco2::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_arbitrator_code_: {
T_arbitrator_code* k = (T_arbitrator_code*)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);
}
}
}
Rparallel_monitor_phrase::Rparallel_monitor_phrase(yacco2::Parser* P)
:CAbs_lr1_sym
("Rparallel_monitor_phrase",0,Cparallel_monitor_ph::R_Rparallel_monitor_phrase_,P,false,false){
}
void Rparallel_monitor_phrase::sr1(){
Cparallel_monitor_ph* fsm =
(Cparallel_monitor_ph*)rule_info__.parser__->fsm_tbl__;
RSVP(fsm->parallel_monitor_phrase_);
fsm->parallel_monitor_phrase_ = 0;
}
Ropen_brace::Ropen_brace(yacco2::Parser* P)
:CAbs_lr1_sym
("Ropen_brace",0,Cparallel_monitor_ph::R_Ropen_brace_,P,false,false){
}
void Ropen_brace::sr1(){
struct SF{
CAbs_lr1_sym* p1__;
State* s1__;
bool abort1__;
Rule_s_reuse_entry* rule_s_reuse_entry1__;
};
SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(1);
CAbs_lr1_sym* sym = new Err_no_open_brace;
sym->set_rc(*sf->p1__,__FILE__,__LINE__);
RSVP(sym);
rule_info__.parser__->set_stop_parse(true);
}
Rclose_brace::Rclose_brace(yacco2::Parser* P)
:CAbs_lr1_sym
("Rclose_brace",0,Cparallel_monitor_ph::R_Rclose_brace_,P,false,false){
}
void Rclose_brace::sr1(){
struct SF{
CAbs_lr1_sym* p1__;
State* s1__;
bool abort1__;
Rule_s_reuse_entry* rule_s_reuse_entry1__;
};
SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(1);
CAbs_lr1_sym* sym = new Err_no_close_brace;
sym->set_rc(*sf->p1__,__FILE__,__LINE__);
RSVP(sym);
rule_info__.parser__->set_stop_parse(true);
}
Rdirective_phrase::Rdirective_phrase(yacco2::Parser* P)
:CAbs_lr1_sym
("Rdirective_phrase",0,Cparallel_monitor_ph::R_Rdirective_phrase_,P,false,false){
}
void Rdirective_phrase::sr1(){
struct SF{
Rlint* p1__;
State* s1__;
bool abort1__;
Rule_s_reuse_entry* rule_s_reuse_entry1__;
Rparallel_directive_cweb_k* 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__;
Rdirective* p4__;
State* s4__;
bool abort4__;
Rule_s_reuse_entry* rule_s_reuse_entry4__;
Rsyntax_code* p5__;
State* s5__;
bool abort5__;
Rule_s_reuse_entry* rule_s_reuse_entry5__;
Rlint* p6__;
State* s6__;
bool abort6__;
Rule_s_reuse_entry* rule_s_reuse_entry6__;
};
SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(6);
AST* cwebt = sf->p2__->cweb_t_;
Rdirective* dir = sf->p4__;
Rsyntax_code* sdc = sf->p5__;
if(cwebt != 0)
sdc->syntax_code_->add_cweb_marker(cwebt);
Cparallel_monitor_ph* fsm =
(Cparallel_monitor_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,Cparallel_monitor_ph::R_Rdirective_,P,false,false){
}
void Rdirective::op(){
sstrace_rulesss
if(directive_ == 0) return;
Cparallel_monitor_ph* fsm = (Cparallel_monitor_ph*)rule_info__.parser__->fsm_tbl__;
CAbs_lr1_sym* result =
fsm->parallel_monitor_phrase_->add_directive_to_mntr(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_arbitrator_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);
directive_ = sf->p2__;
}
void Rdirective::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);
directive_ = 0;
CAbs_lr1_sym* sym = new Err_not_arbitration_code_kw;
sym->set_rc(*sf->p2__,__FILE__,__LINE__);
RSVP(sym);
rule_info__.parser__->set_stop_parse(true);
}
void Rdirective::sr3(){
struct SF{
CAbs_lr1_sym* p1__;
State* s1__;
bool abort1__;
Rule_s_reuse_entry* rule_s_reuse_entry1__;
};
SF* sf = (SF*)rule_info__.parser__->parse_stack__.sf_by_top(1);
CAbs_lr1_sym* sym = new Err_no_directive_present;
sym->set_rc(*sf->p1__,__FILE__,__LINE__);
RSVP(sym);
rule_info__.parser__->set_stop_parse(true);
}
Rsyntax_code::Rsyntax_code(yacco2::Parser* P)
:CAbs_lr1_sym
("Rsyntax_code",0,Cparallel_monitor_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__;
Err_no_syntax_code_present* 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;
sf->p2__->set_auto_delete(true);
}
void Rsyntax_code::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);
syntax_code_ = 0;
RSVP(sf->p2__);
rule_info__.parser__->set_stop_parse(true);
}
Rlint::Rlint(yacco2::Parser* P)
:CAbs_lr1_sym
("Rlint",0,Cparallel_monitor_ph::R_Rlint_,P,false,false){
}
Rparallel_directive_cweb_k::Rparallel_directive_cweb_k(yacco2::Parser* P)
:CAbs_lr1_sym
("Rparallel_directive_cweb_k",0,Cparallel_monitor_ph::R_Rparallel_directive_cweb_k_,P,false,false){
}
void Rparallel_directive_cweb_k::ctor(){
cweb_t_ = 0;
}
void Rparallel_directive_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);
T_cweb_comment* k = sf->p2__;
AST* cwebk_t_ = new AST(*k);
cweb_t_ = new AST();
T_cweb_marker* cw = new T_cweb_marker(cweb_t_);
cw->set_rc(*k,__FILE__,__LINE__);
AST::set_content(*cweb_t_,*cw);
AST::join_pts(*cweb_t_,*cwebk_t_);
}
void Rparallel_directive_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);
}