/* $ANTLR 2.7.7 (20070609): "expandedada.store.g" -> "AdaStoreWalker.cpp"$ */ #include "AdaStoreWalker.hpp" #include #include #include #include #include #include #line 1 "expandedada.store.g" #line 11 "AdaStoreWalker.cpp" AdaStoreWalker::AdaStoreWalker() : ANTLR_USE_NAMESPACE(antlr)TreeParser() { } void AdaStoreWalker::compilation_unit(RefAdaAST _t) { RefAdaAST compilation_unit_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling #line 116 "expandedada.store.g" init(); #line 22 "AdaStoreWalker.cpp" context_items_opt(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case LIBRARY_ITEM: { library_item(_t); _t = _retTree; break; } case SUBUNIT: { subunit(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == PRAGMA)) { pragma(_t); _t = _retTree; } else { goto _loop4; } } _loop4:; } // ( ... )* } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::context_items_opt(RefAdaAST _t) { RefAdaAST context_items_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t70 = _t; RefAdaAST tmp1_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CONTEXT_CLAUSE); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case WITH_CLAUSE: { with_clause(_t); _t = _retTree; break; } case USE_CLAUSE: case USE_TYPE_CLAUSE: { use_clause(_t); _t = _retTree; break; } default: { goto _loop72; } } } _loop72:; } // ( ... )* _t = __t70; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::library_item(RefAdaAST _t) { RefAdaAST library_item_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST pb = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); RefAdaAST gpi = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); RefAdaAST ps = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); RefAdaAST prd = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling RefAdaAST __t17 = _t; RefAdaAST tmp2_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LIBRARY_ITEM); _t = _t->getFirstChild(); RefAdaAST __t18 = _t; RefAdaAST tmp3_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MODIFIERS); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRIVATE: { RefAdaAST tmp4_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRIVATE); _t = _t->getNextSibling(); #line 132 "expandedada.store.g" m_currentAccess = CodeModelItem::Protected; #line 149 "AdaStoreWalker.cpp" break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t18; _t = _t->getNextSibling(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case FUNCTION_BODY: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_PROCEDURE_INSTANTIATION: case PROCEDURE_BODY: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: { lib_subprog_decl_or_rename_or_inst_or_body(_t); _t = _retTree; break; } case PACKAGE_BODY: { RefAdaAST __t21 = _t; RefAdaAST tmp5_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_BODY); _t = _t->getFirstChild(); pb = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; pkg_body_part(_t); _t = _retTree; _t = __t21; _t = _t->getNextSibling(); break; } case GENERIC_PACKAGE_INSTANTIATION: { RefAdaAST __t22 = _t; RefAdaAST tmp6_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PACKAGE_INSTANTIATION); _t = _t->getFirstChild(); gpi = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; #line 136 "expandedada.store.g" defineScope( gpi ); #line 213 "AdaStoreWalker.cpp" generic_inst(_t); _t = _retTree; _t = __t22; _t = _t->getNextSibling(); break; } case PACKAGE_SPECIFICATION: { RefAdaAST __t23 = _t; RefAdaAST tmp7_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_SPECIFICATION); _t = _t->getFirstChild(); ps = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; #line 142 "expandedada.store.g" NamespaceDom psc = defineScope( ps ); m_currentContainer = psc; m_scopeStack.append( psc ); m_addToStore = true; #line 236 "AdaStoreWalker.cpp" pkg_spec_part(_t); _t = _retTree; #line 149 "expandedada.store.g" m_scopeStack.remove(m_scopeStack.last()); if (m_scopeStack.count() == 0) { kdDebug() << "adastore: m_scopeStack is empty!" << endl; m_scopeStack.append( m_model->globalNamespace() ); } m_currentContainer = m_scopeStack.last(); // m_currentContainer->setEndPosition (endLine, 0); m_addToStore = false; #line 250 "AdaStoreWalker.cpp" _t = __t23; _t = _t->getNextSibling(); break; } case PACKAGE_RENAMING_DECLARATION: { RefAdaAST __t24 = _t; RefAdaAST tmp8_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_RENAMING_DECLARATION); _t = _t->getFirstChild(); prd = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; #line 161 "expandedada.store.g" defineScope( prd ); #line 268 "AdaStoreWalker.cpp" renames(_t); _t = _retTree; _t = __t24; _t = _t->getNextSibling(); break; } case GENERIC_PACKAGE_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_RENAMING: { generic_decl(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t17; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subunit(RefAdaAST _t) { RefAdaAST subunit_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t521 = _t; RefAdaAST tmp9_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SUBUNIT); _t = _t->getFirstChild(); compound_name(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case FUNCTION_BODY: case PROCEDURE_BODY: { subprogram_body(_t); _t = _retTree; break; } case PACKAGE_BODY: { package_body(_t); _t = _retTree; break; } case TASK_BODY: { task_body(_t); _t = _retTree; break; } case PROTECTED_BODY: { protected_body(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t521; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::pragma(RefAdaAST _t) { RefAdaAST pragma_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t64 = _t; RefAdaAST tmp10_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRAGMA); _t = _t->getFirstChild(); RefAdaAST tmp11_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_0.member(_t->getType()))) { pragma_arg(_t); _t = _retTree; } else { goto _loop66; } } _loop66:; } // ( ... )* _t = __t64; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::with_clause(RefAdaAST _t) { RefAdaAST with_clause_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t6 = _t; RefAdaAST tmp12_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),WITH_CLAUSE); _t = _t->getFirstChild(); { // ( ... )+ int _cnt8=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER || _t->getType() == DOT)) { compound_name(_t); _t = _retTree; } else { if ( _cnt8>=1 ) { goto _loop8; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt8++; } _loop8:; } // ( ... )+ _t = __t6; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::compound_name(RefAdaAST _t) { RefAdaAST compound_name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp13_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case DOT: { RefAdaAST __t74 = _t; RefAdaAST tmp14_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT); _t = _t->getFirstChild(); compound_name(_t); _t = _retTree; RefAdaAST tmp15_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); _t = __t74; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::use_clause(RefAdaAST _t) { RefAdaAST use_clause_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST c = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case USE_TYPE_CLAUSE: { RefAdaAST __t10 = _t; RefAdaAST tmp16_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),USE_TYPE_CLAUSE); _t = _t->getFirstChild(); { // ( ... )+ int _cnt12=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER || _t->getType() == DOT || _t->getType() == TIC)) { subtype_mark(_t); _t = _retTree; } else { if ( _cnt12>=1 ) { goto _loop12; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt12++; } _loop12:; } // ( ... )+ _t = __t10; _t = _t->getNextSibling(); break; } case USE_CLAUSE: { RefAdaAST __t13 = _t; RefAdaAST tmp17_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),USE_CLAUSE); _t = _t->getFirstChild(); { // ( ... )+ int _cnt15=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER || _t->getType() == DOT)) { c = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; compound_name(_t); _t = _retTree; #line 127 "expandedada.store.g" m_imports.back ().push_back (qtext (c)); #line 527 "AdaStoreWalker.cpp" } else { if ( _cnt15>=1 ) { goto _loop15; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt15++; } _loop15:; } // ( ... )+ _t = __t13; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subtype_mark(RefAdaAST _t) { RefAdaAST subtype_mark_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: { compound_name(_t); _t = _retTree; break; } case TIC: { RefAdaAST __t76 = _t; RefAdaAST tmp18_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TIC); _t = _t->getFirstChild(); compound_name(_t); _t = _retTree; attribute_id(_t); _t = _retTree; _t = __t76; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::lib_subprog_decl_or_rename_or_inst_or_body(RefAdaAST _t) { RefAdaAST lib_subprog_decl_or_rename_or_inst_or_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling #line 310 "expandedada.store.g" m_addToStore = true; #line 603 "AdaStoreWalker.cpp" { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_PROCEDURE_INSTANTIATION: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: { subprog_decl(_t); _t = _retTree; break; } case PROCEDURE_BODY: { procedure_body(_t); _t = _retTree; break; } case FUNCTION_BODY: { function_body(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } #line 315 "expandedada.store.g" m_addToStore = false; #line 643 "AdaStoreWalker.cpp" } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::def_id(RefAdaAST _t) { RefAdaAST def_id_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST cn = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling cn = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; compound_name(_t); _t = _retTree; #line 189 "expandedada.store.g" // kdDebug() << "cn:compound_name started " << endl; if (m_addToStore) { // kdDebug() << "cn:compound_name m_addToStore " << endl; if (m_isSubprogram) { // kdDebug() << "cn:compound_name m_isSubprogram " << endl; FunctionDom method = m_model->create(); method->setName (qtext (cn)); method->setFileName(m_fileName); // kdDebug() << "cn:compound_name method->setStartPosition(" << endl; method->setStartPosition(cn->getLine(), cn->getColumn()); if (m_currentContainer == m_model->globalNamespace()) m_file->addFunction(method); else m_currentContainer->addFunction(method); //FIXME: adymo: is this valid for CodeModel /* ParsedMethod *old = m_currentContainer->getMethod (method); if (old) { delete (method); method = old; } else { m_currentContainer->addMethod (method); }*/ } else { // TBC: what about other declarations? } } #line 691 "AdaStoreWalker.cpp" } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::pkg_body_part(RefAdaAST _t) { RefAdaAST pkg_body_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling declarative_part(_t); _t = _retTree; block_body_opt(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::generic_inst(RefAdaAST _t) { RefAdaAST generic_inst_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling compound_name(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case VALUES: { value_s(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::pkg_spec_part(RefAdaAST _t) { RefAdaAST pkg_spec_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling basic_declarative_items_opt(_t); _t = _retTree; private_declarative_items_opt(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::renames(RefAdaAST _t) { RefAdaAST renames_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case CHARACTER_STRING: { RefAdaAST tmp19_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHARACTER_STRING); _t = _t->getNextSibling(); break; } case OPERATOR_SYMBOL: { RefAdaAST tmp20_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OPERATOR_SYMBOL); _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case INDEXED_COMPONENT: { name(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::generic_decl(RefAdaAST _t) { RefAdaAST generic_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST gpd = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case GENERIC_PACKAGE_RENAMING: { RefAdaAST __t49 = _t; RefAdaAST tmp21_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PACKAGE_RENAMING); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; def_id(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t49; _t = _t->getNextSibling(); break; } case GENERIC_PACKAGE_DECLARATION: { RefAdaAST __t50 = _t; RefAdaAST tmp22_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PACKAGE_DECLARATION); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; gpd = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; #line 284 "expandedada.store.g" NamespaceDom psc = defineScope( gpd ); m_currentContainer = psc; m_scopeStack.append( psc ); m_addToStore = true; #line 860 "AdaStoreWalker.cpp" pkg_spec_part(_t); _t = _retTree; #line 291 "expandedada.store.g" m_scopeStack.remove(m_scopeStack.last()); if (m_scopeStack.count() == 0) m_scopeStack.append( m_model->globalNamespace() ); m_currentContainer = m_scopeStack.last(); // m_currentContainer->setDeclarationEndsOnLine (endLine); m_addToStore = false; #line 872 "AdaStoreWalker.cpp" _t = __t50; _t = _t->getNextSibling(); break; } case GENERIC_PROCEDURE_RENAMING: { RefAdaAST __t51 = _t; RefAdaAST tmp23_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PROCEDURE_RENAMING); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t51; _t = _t->getNextSibling(); break; } case GENERIC_PROCEDURE_DECLARATION: { RefAdaAST __t52 = _t; RefAdaAST tmp24_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PROCEDURE_DECLARATION); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t52; _t = _t->getNextSibling(); break; } case GENERIC_FUNCTION_RENAMING: { RefAdaAST __t53 = _t; RefAdaAST tmp25_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_FUNCTION_RENAMING); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t53; _t = _t->getNextSibling(); break; } case GENERIC_FUNCTION_DECLARATION: { RefAdaAST __t54 = _t; RefAdaAST tmp26_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_FUNCTION_DECLARATION); _t = _t->getFirstChild(); generic_formal_part_opt(_t); _t = _retTree; subprog_def_id(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t54; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprog_def_id(RefAdaAST _t) { RefAdaAST subprog_def_id_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling #line 171 "expandedada.store.g" m_isSubprogram = true; #line 965 "AdaStoreWalker.cpp" def_id(_t); _t = _retTree; #line 173 "expandedada.store.g" m_isSubprogram = false; #line 970 "AdaStoreWalker.cpp" } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprog_decl(RefAdaAST _t) { RefAdaAST subprog_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case GENERIC_PROCEDURE_INSTANTIATION: { RefAdaAST __t27 = _t; RefAdaAST tmp27_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PROCEDURE_INSTANTIATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; generic_inst(_t); _t = _retTree; _t = __t27; _t = _t->getNextSibling(); break; } case PROCEDURE_RENAMING_DECLARATION: { RefAdaAST __t28 = _t; RefAdaAST tmp28_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_RENAMING_DECLARATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t28; _t = _t->getNextSibling(); break; } case PROCEDURE_DECLARATION: { RefAdaAST __t29 = _t; RefAdaAST tmp29_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_DECLARATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t29; _t = _t->getNextSibling(); break; } case PROCEDURE_BODY_STUB: { RefAdaAST __t30 = _t; RefAdaAST tmp30_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_BODY_STUB); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t30; _t = _t->getNextSibling(); break; } case ABSTRACT_PROCEDURE_DECLARATION: { RefAdaAST __t31 = _t; RefAdaAST tmp31_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABSTRACT_PROCEDURE_DECLARATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t31; _t = _t->getNextSibling(); break; } case GENERIC_FUNCTION_INSTANTIATION: { RefAdaAST __t32 = _t; RefAdaAST tmp32_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_FUNCTION_INSTANTIATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; generic_inst(_t); _t = _retTree; _t = __t32; _t = _t->getNextSibling(); break; } case FUNCTION_RENAMING_DECLARATION: { RefAdaAST __t33 = _t; RefAdaAST tmp33_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_RENAMING_DECLARATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t33; _t = _t->getNextSibling(); break; } case FUNCTION_DECLARATION: { RefAdaAST __t34 = _t; RefAdaAST tmp34_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_DECLARATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t34; _t = _t->getNextSibling(); break; } case FUNCTION_BODY_STUB: { RefAdaAST __t35 = _t; RefAdaAST tmp35_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_BODY_STUB); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t35; _t = _t->getNextSibling(); break; } case ABSTRACT_FUNCTION_DECLARATION: { RefAdaAST __t36 = _t; RefAdaAST tmp36_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABSTRACT_FUNCTION_DECLARATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t36; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::formal_part_opt(RefAdaAST _t) { RefAdaAST formal_part_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t112 = _t; RefAdaAST tmp37_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_PART_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == PARAMETER_SPECIFICATION)) { parameter_specification(_t); _t = _retTree; } else { goto _loop114; } } _loop114:; } // ( ... )* _t = __t112; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::def_designator(RefAdaAST _t) { RefAdaAST def_designator_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST cn = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: { cn = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; compound_name(_t); _t = _retTree; #line 221 "expandedada.store.g" // kdDebug() << "def_designator cn:compound_name started" << endl; if (m_addToStore) { // kdDebug() << "def_designator cn:compound_name m_addToStore" << endl; FunctionDom method = m_model->create(); method->setName (qtext (cn)); method->setFileName(m_fileName); // kdDebug() << "def_designator cn:compound_name method->setStartPosition(" << endl; method->setStartPosition(cn->getLine(), cn->getColumn()); if (m_currentContainer == m_model->globalNamespace()) m_file->addFunction(method); else m_currentContainer->addFunction(method); //FIXME: adymo: is this valid for CodeModel /* ParsedMethod *old = m_currentContainer->getMethod (method); if (old) { delete method; method = old; } else { m_currentContainer->addMethod (method); }*/ } #line 1218 "AdaStoreWalker.cpp" break; } case OPERATOR_SYMBOL: { definable_operator_symbol(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::function_tail(RefAdaAST _t) { RefAdaAST function_tail_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling formal_part_opt(_t); _t = _retTree; subtype_mark(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::definable_operator_symbol(RefAdaAST _t) { RefAdaAST definable_operator_symbol_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp38_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OPERATOR_SYMBOL); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::spec_decl_part(RefAdaAST _t) { RefAdaAST spec_decl_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST ps = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case GENERIC_PACKAGE_INSTANTIATION: { RefAdaAST __t40 = _t; RefAdaAST tmp39_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_PACKAGE_INSTANTIATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; generic_inst(_t); _t = _retTree; _t = __t40; _t = _t->getNextSibling(); break; } case PACKAGE_SPECIFICATION: { RefAdaAST __t41 = _t; RefAdaAST tmp40_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_SPECIFICATION); _t = _t->getFirstChild(); ps = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; #line 250 "expandedada.store.g" NamespaceDom psc = defineScope( ps ); m_currentContainer = psc; m_scopeStack.append( psc ); m_addToStore = true; #line 1312 "AdaStoreWalker.cpp" pkg_spec_part(_t); _t = _retTree; #line 257 "expandedada.store.g" m_scopeStack.remove(m_scopeStack.last()); if (m_scopeStack.count() == 0) { kdDebug() << "adastore: m_scopeStack is empty!" << endl; m_scopeStack.append( m_model->globalNamespace() ); } m_currentContainer = m_scopeStack.last(); // m_currentContainer->setDeclarationEndsOnLine (endLine); m_addToStore = false; #line 1326 "AdaStoreWalker.cpp" _t = __t41; _t = _t->getNextSibling(); break; } case PACKAGE_RENAMING_DECLARATION: { RefAdaAST __t42 = _t; RefAdaAST tmp41_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_RENAMING_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; renames(_t); _t = _retTree; _t = __t42; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::basic_declarative_items_opt(RefAdaAST _t) { RefAdaAST basic_declarative_items_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t136 = _t; RefAdaAST tmp42_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BASIC_DECLARATIVE_ITEMS_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_1.member(_t->getType()))) { basic_decl_item(_t); _t = _retTree; } else { goto _loop138; } } _loop138:; } // ( ... )* _t = __t136; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::private_declarative_items_opt(RefAdaAST _t) { RefAdaAST private_declarative_items_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case EXCEPTION_DECLARATION: case EXCEPTION_RENAMING_DECLARATION: case GENERIC_PACKAGE_DECLARATION: case INCOMPLETE_TYPE_DECLARATION: case NUMBER_DECLARATION: case OBJECT_DECLARATION: case OBJECT_RENAMING_DECLARATION: case PACKAGE_RENAMING_DECLARATION: case PACKAGE_SPECIFICATION: case PRIVATE_EXTENSION_DECLARATION: case PRIVATE_TYPE_DECLARATION: case PROTECTED_TYPE_DECLARATION: case RECORD_REPRESENTATION_CLAUSE: case SINGLE_PROTECTED_DECLARATION: case SINGLE_TASK_DECLARATION: case SUBTYPE_DECLARATION: case TASK_TYPE_DECLARATION: case USE_CLAUSE: case USE_TYPE_CLAUSE: case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_OBJECT_DECLARATION: case ARRAY_TYPE_DECLARATION: case DECIMAL_FIXED_POINT_DECLARATION: case DERIVED_RECORD_EXTENSION: case ENUMERATION_TYPE_DECLARATION: case FLOATING_POINT_DECLARATION: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_INSTANTIATION: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_INSTANTIATION: case GENERIC_PROCEDURE_RENAMING: case MODULAR_TYPE_DECLARATION: case ORDINARY_DERIVED_TYPE_DECLARATION: case ORDINARY_FIXED_POINT_DECLARATION: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: case RECORD_TYPE_DECLARATION: case SIGNED_INTEGER_TYPE_DECLARATION: { #line 276 "expandedada.store.g" m_currentAccess = CodeModelItem::Protected; #line 1457 "AdaStoreWalker.cpp" { // ( ... )+ int _cnt47=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case EXCEPTION_DECLARATION: case EXCEPTION_RENAMING_DECLARATION: case GENERIC_PACKAGE_DECLARATION: case INCOMPLETE_TYPE_DECLARATION: case NUMBER_DECLARATION: case OBJECT_DECLARATION: case OBJECT_RENAMING_DECLARATION: case PACKAGE_RENAMING_DECLARATION: case PACKAGE_SPECIFICATION: case PRIVATE_EXTENSION_DECLARATION: case PRIVATE_TYPE_DECLARATION: case PROTECTED_TYPE_DECLARATION: case RECORD_REPRESENTATION_CLAUSE: case SINGLE_PROTECTED_DECLARATION: case SINGLE_TASK_DECLARATION: case SUBTYPE_DECLARATION: case TASK_TYPE_DECLARATION: case USE_CLAUSE: case USE_TYPE_CLAUSE: case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_OBJECT_DECLARATION: case ARRAY_TYPE_DECLARATION: case DECIMAL_FIXED_POINT_DECLARATION: case DERIVED_RECORD_EXTENSION: case ENUMERATION_TYPE_DECLARATION: case FLOATING_POINT_DECLARATION: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_INSTANTIATION: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_INSTANTIATION: case GENERIC_PROCEDURE_RENAMING: case MODULAR_TYPE_DECLARATION: case ORDINARY_DERIVED_TYPE_DECLARATION: case ORDINARY_FIXED_POINT_DECLARATION: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: case RECORD_TYPE_DECLARATION: case SIGNED_INTEGER_TYPE_DECLARATION: { basic_decl_item(_t); _t = _retTree; break; } case PRAGMA: { pragma(_t); _t = _retTree; break; } default: { if ( _cnt47>=1 ) { goto _loop47; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } } _cnt47++; } _loop47:; } // ( ... )+ #line 278 "expandedada.store.g" m_currentAccess = CodeModelItem::Public; #line 1538 "AdaStoreWalker.cpp" break; } case END: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::end_id_opt(RefAdaAST _t) { RefAdaAST end_id_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t86 = _t; RefAdaAST tmp43_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),END); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case OPERATOR_SYMBOL: { def_designator(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t86; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::basic_decl_item(RefAdaAST _t) { RefAdaAST basic_decl_item_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PACKAGE_RENAMING_DECLARATION: case PACKAGE_SPECIFICATION: case GENERIC_PACKAGE_INSTANTIATION: { spec_decl_part(_t); _t = _retTree; break; } case SINGLE_TASK_DECLARATION: case TASK_TYPE_DECLARATION: { task_type_or_single_decl(_t); _t = _retTree; break; } case PROTECTED_TYPE_DECLARATION: case SINGLE_PROTECTED_DECLARATION: { prot_type_or_single_decl(_t); _t = _retTree; break; } case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_PROCEDURE_INSTANTIATION: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: { subprog_decl(_t); _t = _retTree; break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case EXCEPTION_DECLARATION: case EXCEPTION_RENAMING_DECLARATION: case GENERIC_PACKAGE_DECLARATION: case INCOMPLETE_TYPE_DECLARATION: case NUMBER_DECLARATION: case OBJECT_DECLARATION: case OBJECT_RENAMING_DECLARATION: case PRIVATE_EXTENSION_DECLARATION: case PRIVATE_TYPE_DECLARATION: case RECORD_REPRESENTATION_CLAUSE: case SUBTYPE_DECLARATION: case USE_CLAUSE: case USE_TYPE_CLAUSE: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_OBJECT_DECLARATION: case ARRAY_TYPE_DECLARATION: case DECIMAL_FIXED_POINT_DECLARATION: case DERIVED_RECORD_EXTENSION: case ENUMERATION_TYPE_DECLARATION: case FLOATING_POINT_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_RENAMING: case MODULAR_TYPE_DECLARATION: case ORDINARY_DERIVED_TYPE_DECLARATION: case ORDINARY_FIXED_POINT_DECLARATION: case RECORD_TYPE_DECLARATION: case SIGNED_INTEGER_TYPE_DECLARATION: { decl_common(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::generic_formal_part_opt(RefAdaAST _t) { RefAdaAST generic_formal_part_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t295 = _t; RefAdaAST tmp44_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GENERIC_FORMAL_PART); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case USE_CLAUSE: case USE_TYPE_CLAUSE: { use_clause(_t); _t = _retTree; break; } case FORMAL_PACKAGE_DECLARATION: case PARAMETER_SPECIFICATION: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_TYPE_DECLARATION: case FORMAL_DECIMAL_FIXED_POINT_DECLARATION: case FORMAL_DISCRETE_TYPE_DECLARATION: case FORMAL_FLOATING_POINT_DECLARATION: case FORMAL_FUNCTION_DECLARATION: case FORMAL_MODULAR_TYPE_DECLARATION: case FORMAL_ORDINARY_DERIVED_TYPE_DECLARATION: case FORMAL_ORDINARY_FIXED_POINT_DECLARATION: case FORMAL_PRIVATE_EXTENSION_DECLARATION: case FORMAL_PRIVATE_TYPE_DECLARATION: case FORMAL_PROCEDURE_DECLARATION: case FORMAL_SIGNED_INTEGER_TYPE_DECLARATION: { generic_formal_parameter(_t); _t = _retTree; break; } default: { goto _loop297; } } } _loop297:; } // ( ... )* _t = __t295; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::procedure_body(RefAdaAST _t) { RefAdaAST procedure_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t319 = _t; RefAdaAST tmp45_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; body_part(_t); _t = _retTree; _t = __t319; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::function_body(RefAdaAST _t) { RefAdaAST function_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t321 = _t; RefAdaAST tmp46_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_BODY); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; body_part(_t); _t = _retTree; _t = __t321; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprog_decl_or_rename_or_inst_or_body(RefAdaAST _t) { RefAdaAST subprog_decl_or_rename_or_inst_or_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_PROCEDURE_INSTANTIATION: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: { subprog_decl(_t); _t = _retTree; break; } case PROCEDURE_BODY: { procedure_body(_t); _t = _retTree; break; } case FUNCTION_BODY: { function_body(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprog_decl_or_body(RefAdaAST _t) { RefAdaAST subprog_decl_or_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PROCEDURE_BODY: { procedure_body(_t); _t = _retTree; break; } case PROCEDURE_DECLARATION: { RefAdaAST __t59 = _t; RefAdaAST tmp47_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_DECLARATION); _t = _t->getFirstChild(); subprog_def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t59; _t = _t->getNextSibling(); break; } case FUNCTION_BODY: { function_body(_t); _t = _retTree; break; } case FUNCTION_DECLARATION: { RefAdaAST __t60 = _t; RefAdaAST tmp48_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_DECLARATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t60; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::package_body(RefAdaAST _t) { RefAdaAST package_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; RefAdaAST id = RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST); try { // for error handling RefAdaAST __t62 = _t; RefAdaAST tmp49_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_BODY); _t = _t->getFirstChild(); id = (_t == ASTNULL) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; def_id(_t); _t = _retTree; pkg_body_part(_t); _t = _retTree; _t = __t62; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::pragma_arg(RefAdaAST _t) { RefAdaAST pragma_arg_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case RIGHT_SHAFT: { RefAdaAST __t68 = _t; RefAdaAST tmp50_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RIGHT_SHAFT); _t = _t->getFirstChild(); RefAdaAST tmp51_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); expression(_t); _t = _retTree; _t = __t68; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::expression(RefAdaAST _t) { RefAdaAST expression_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case AND: { RefAdaAST __t479 = _t; RefAdaAST tmp52_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),AND); _t = _t->getFirstChild(); expression(_t); _t = _retTree; relation(_t); _t = _retTree; _t = __t479; _t = _t->getNextSibling(); break; } case AND_THEN: { RefAdaAST __t480 = _t; RefAdaAST tmp53_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),AND_THEN); _t = _t->getFirstChild(); expression(_t); _t = _retTree; relation(_t); _t = _retTree; _t = __t480; _t = _t->getNextSibling(); break; } case OR: { RefAdaAST __t481 = _t; RefAdaAST tmp54_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OR); _t = _t->getFirstChild(); expression(_t); _t = _retTree; relation(_t); _t = _retTree; _t = __t481; _t = _t->getNextSibling(); break; } case OR_ELSE: { RefAdaAST __t482 = _t; RefAdaAST tmp55_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OR_ELSE); _t = _t->getFirstChild(); expression(_t); _t = _retTree; relation(_t); _t = _retTree; _t = __t482; _t = _t->getNextSibling(); break; } case XOR: { RefAdaAST __t483 = _t; RefAdaAST tmp56_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),XOR); _t = _t->getFirstChild(); expression(_t); _t = _retTree; relation(_t); _t = _retTree; _t = __t483; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case NOT_IN: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { relation(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::attribute_id(RefAdaAST _t) { RefAdaAST attribute_id_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case RANGE: { RefAdaAST tmp57_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RANGE); _t = _t->getNextSibling(); break; } case DIGITS: { RefAdaAST tmp58_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DIGITS); _t = _t->getNextSibling(); break; } case DELTA: { RefAdaAST tmp59_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DELTA); _t = _t->getNextSibling(); break; } case ACCESS: { RefAdaAST tmp60_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCESS); _t = _t->getNextSibling(); break; } case IDENTIFIER: { RefAdaAST tmp61_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::modifiers(RefAdaAST _t) { RefAdaAST modifiers_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t79 = _t; RefAdaAST tmp62_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MODIFIERS); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ABSTRACT: { RefAdaAST tmp63_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABSTRACT); _t = _t->getNextSibling(); break; } case ACCESS: { RefAdaAST tmp64_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCESS); _t = _t->getNextSibling(); break; } case ALIASED: { RefAdaAST tmp65_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALIASED); _t = _t->getNextSibling(); break; } case ALL: { RefAdaAST tmp66_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALL); _t = _t->getNextSibling(); break; } case CONSTANT: { RefAdaAST tmp67_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CONSTANT); _t = _t->getNextSibling(); break; } case IN: { RefAdaAST tmp68_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IN); _t = _t->getNextSibling(); break; } case LIMITED: { RefAdaAST tmp69_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LIMITED); _t = _t->getNextSibling(); break; } case OUT: { RefAdaAST tmp70_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OUT); _t = _t->getNextSibling(); break; } case PRIVATE: { RefAdaAST tmp71_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRIVATE); _t = _t->getNextSibling(); break; } case PROTECTED: { RefAdaAST tmp72_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROTECTED); _t = _t->getNextSibling(); break; } case REVERSE: { RefAdaAST tmp73_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),REVERSE); _t = _t->getNextSibling(); break; } case TAGGED: { RefAdaAST tmp74_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TAGGED); _t = _t->getNextSibling(); break; } default: { goto _loop81; } } } _loop81:; } // ( ... )* _t = __t79; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::id_opt(RefAdaAST _t) { RefAdaAST id_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t83 = _t; RefAdaAST tmp75_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ID_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case OPERATOR_SYMBOL: { def_designator(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t83; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::value_s(RefAdaAST _t) { RefAdaAST value_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t475 = _t; RefAdaAST tmp76_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),VALUES); _t = _t->getFirstChild(); { // ( ... )+ int _cnt477=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_2.member(_t->getType()))) { value(_t); _t = _retTree; } else { if ( _cnt477>=1 ) { goto _loop477; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt477++; } _loop477:; } // ( ... )+ _t = __t475; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::value(RefAdaAST _t) { RefAdaAST value_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case OTHERS: { RefAdaAST __t91 = _t; RefAdaAST tmp77_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OTHERS); _t = _t->getFirstChild(); expression(_t); _t = _retTree; _t = __t91; _t = _t->getNextSibling(); break; } case RIGHT_SHAFT: { RefAdaAST __t92 = _t; RefAdaAST tmp78_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RIGHT_SHAFT); _t = _t->getFirstChild(); ranged_expr_s(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t92; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case RANGE: case PIPE: case DOT_DOT: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { ranged_expr_s(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::ranged_expr_s(RefAdaAST _t) { RefAdaAST ranged_expr_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PIPE: { RefAdaAST __t94 = _t; RefAdaAST tmp79_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PIPE); _t = _t->getFirstChild(); ranged_expr_s(_t); _t = _retTree; ranged_expr(_t); _t = _retTree; _t = __t94; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case RANGE: case DOT_DOT: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { ranged_expr(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::ranged_expr(RefAdaAST _t) { RefAdaAST ranged_expr_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: { RefAdaAST __t96 = _t; RefAdaAST tmp80_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT_DOT); _t = _t->getFirstChild(); expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t96; _t = _t->getNextSibling(); break; } case RANGE: { RefAdaAST __t97 = _t; RefAdaAST tmp81_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RANGE); _t = _t->getFirstChild(); expression(_t); _t = _retTree; range(_t); _t = _retTree; _t = __t97; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::simple_expression(RefAdaAST _t) { RefAdaAST simple_expression_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PLUS: { RefAdaAST __t495 = _t; RefAdaAST tmp82_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PLUS); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; signed_term(_t); _t = _retTree; _t = __t495; _t = _t->getNextSibling(); break; } case MINUS: { RefAdaAST __t496 = _t; RefAdaAST tmp83_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MINUS); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; signed_term(_t); _t = _retTree; _t = __t496; _t = _t->getNextSibling(); break; } case CONCAT: { RefAdaAST __t497 = _t; RefAdaAST tmp84_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CONCAT); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; signed_term(_t); _t = _retTree; _t = __t497; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { signed_term(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range(RefAdaAST _t) { RefAdaAST range_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: { range_dots(_t); _t = _retTree; break; } case RANGE_ATTRIBUTE_REFERENCE: { range_attrib_ref(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range_constraint(RefAdaAST _t) { RefAdaAST range_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t99 = _t; RefAdaAST tmp85_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RANGE_CONSTRAINT); _t = _t->getFirstChild(); range(_t); _t = _retTree; _t = __t99; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range_dots(RefAdaAST _t) { RefAdaAST range_dots_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t103 = _t; RefAdaAST tmp86_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT_DOT); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t103; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range_attrib_ref(RefAdaAST _t) { RefAdaAST range_attrib_ref_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t105 = _t; RefAdaAST tmp87_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RANGE_ATTRIBUTE_REFERENCE); _t = _t->getFirstChild(); prefix(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t105; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prefix(RefAdaAST _t) { RefAdaAST prefix_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp88_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case DOT: { RefAdaAST __t108 = _t; RefAdaAST tmp89_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT); _t = _t->getFirstChild(); prefix(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ALL: { RefAdaAST tmp90_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALL); _t = _t->getNextSibling(); break; } case IDENTIFIER: { RefAdaAST tmp91_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t108; _t = _t->getNextSibling(); break; } case INDEXED_COMPONENT: { RefAdaAST __t110 = _t; RefAdaAST tmp92_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INDEXED_COMPONENT); _t = _t->getFirstChild(); prefix(_t); _t = _retTree; value_s(_t); _t = _retTree; _t = __t110; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::parameter_specification(RefAdaAST _t) { RefAdaAST parameter_specification_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t116 = _t; RefAdaAST tmp93_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PARAMETER_SPECIFICATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_mark(_t); _t = _retTree; init_opt(_t); _t = _retTree; _t = __t116; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::defining_identifier_list(RefAdaAST _t) { RefAdaAST defining_identifier_list_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t118 = _t; RefAdaAST tmp94_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DEFINING_IDENTIFIER_LIST); _t = _t->getFirstChild(); { // ( ... )+ int _cnt120=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER)) { RefAdaAST tmp95_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); } else { if ( _cnt120>=1 ) { goto _loop120; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt120++; } _loop120:; } // ( ... )+ _t = __t118; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::init_opt(RefAdaAST _t) { RefAdaAST init_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t154 = _t; RefAdaAST tmp96_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INIT_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t154; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::name(RefAdaAST _t) { RefAdaAST name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp97_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case DOT: { RefAdaAST __t123 = _t; RefAdaAST tmp98_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT); _t = _t->getFirstChild(); name(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ALL: { RefAdaAST tmp99_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALL); _t = _t->getNextSibling(); break; } case IDENTIFIER: { RefAdaAST tmp100_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case CHARACTER_LITERAL: { RefAdaAST tmp101_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHARACTER_LITERAL); _t = _t->getNextSibling(); break; } case OPERATOR_SYMBOL: { RefAdaAST tmp102_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OPERATOR_SYMBOL); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t123; _t = _t->getNextSibling(); break; } case INDEXED_COMPONENT: { RefAdaAST __t125 = _t; RefAdaAST tmp103_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INDEXED_COMPONENT); _t = _t->getFirstChild(); name(_t); _t = _retTree; value_s(_t); _t = _retTree; _t = __t125; _t = _t->getNextSibling(); break; } case TIC: { RefAdaAST __t126 = _t; RefAdaAST tmp104_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TIC); _t = _t->getFirstChild(); name(_t); _t = _retTree; attribute_id(_t); _t = _retTree; _t = __t126; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::parenthesized_primary(RefAdaAST _t) { RefAdaAST parenthesized_primary_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t129 = _t; RefAdaAST tmp105_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PARENTHESIZED_PRIMARY); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case NuLL: { RefAdaAST tmp106_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NuLL); _t = _t->getNextSibling(); break; } case VALUES: { value_s(_t); _t = _retTree; extension_opt(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t129; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::extension_opt(RefAdaAST _t) { RefAdaAST extension_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t132 = _t; RefAdaAST tmp107_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXTENSION_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case NuLL: { RefAdaAST tmp108_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NuLL); _t = _t->getNextSibling(); break; } case VALUES: { value_s(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t132; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::task_type_or_single_decl(RefAdaAST _t) { RefAdaAST task_type_or_single_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case TASK_TYPE_DECLARATION: { RefAdaAST __t141 = _t; RefAdaAST tmp109_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TASK_TYPE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; discrim_part_opt(_t); _t = _retTree; task_definition_opt(_t); _t = _retTree; _t = __t141; _t = _t->getNextSibling(); break; } case SINGLE_TASK_DECLARATION: { RefAdaAST __t142 = _t; RefAdaAST tmp110_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SINGLE_TASK_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; task_definition_opt(_t); _t = _retTree; _t = __t142; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_type_or_single_decl(RefAdaAST _t) { RefAdaAST prot_type_or_single_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PROTECTED_TYPE_DECLARATION: { RefAdaAST __t182 = _t; RefAdaAST tmp111_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROTECTED_TYPE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; discrim_part_opt(_t); _t = _retTree; protected_definition(_t); _t = _retTree; _t = __t182; _t = _t->getNextSibling(); break; } case SINGLE_PROTECTED_DECLARATION: { RefAdaAST __t183 = _t; RefAdaAST tmp112_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SINGLE_PROTECTED_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; protected_definition(_t); _t = _retTree; _t = __t183; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::decl_common(RefAdaAST _t) { RefAdaAST decl_common_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ENUMERATION_TYPE_DECLARATION: { RefAdaAST __t202 = _t; RefAdaAST tmp113_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENUMERATION_TYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp114_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); enum_id_s(_t); _t = _retTree; _t = __t202; _t = _t->getNextSibling(); break; } case SIGNED_INTEGER_TYPE_DECLARATION: { RefAdaAST __t203 = _t; RefAdaAST tmp115_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SIGNED_INTEGER_TYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp116_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); range(_t); _t = _retTree; _t = __t203; _t = _t->getNextSibling(); break; } case MODULAR_TYPE_DECLARATION: { RefAdaAST __t204 = _t; RefAdaAST tmp117_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MODULAR_TYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp118_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); expression(_t); _t = _retTree; _t = __t204; _t = _t->getNextSibling(); break; } case FLOATING_POINT_DECLARATION: { RefAdaAST __t205 = _t; RefAdaAST tmp119_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FLOATING_POINT_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp120_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); expression(_t); _t = _retTree; range_constraint_opt(_t); _t = _retTree; _t = __t205; _t = _t->getNextSibling(); break; } case ORDINARY_FIXED_POINT_DECLARATION: { RefAdaAST __t206 = _t; RefAdaAST tmp121_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ORDINARY_FIXED_POINT_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp122_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); expression(_t); _t = _retTree; range(_t); _t = _retTree; _t = __t206; _t = _t->getNextSibling(); break; } case DECIMAL_FIXED_POINT_DECLARATION: { RefAdaAST __t207 = _t; RefAdaAST tmp123_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DECIMAL_FIXED_POINT_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp124_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); expression(_t); _t = _retTree; expression(_t); _t = _retTree; range_constraint_opt(_t); _t = _retTree; _t = __t207; _t = _t->getNextSibling(); break; } case ARRAY_TYPE_DECLARATION: { array_type_declaration(_t); _t = _retTree; break; } case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: { access_type_declaration(_t); _t = _retTree; break; } case INCOMPLETE_TYPE_DECLARATION: { RefAdaAST __t208 = _t; RefAdaAST tmp125_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INCOMPLETE_TYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp126_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); discrim_part_opt(_t); _t = _retTree; _t = __t208; _t = _t->getNextSibling(); break; } case PRIVATE_EXTENSION_DECLARATION: { RefAdaAST __t209 = _t; RefAdaAST tmp127_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRIVATE_EXTENSION_DECLARATION); _t = _t->getFirstChild(); id_and_discrim(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; _t = __t209; _t = _t->getNextSibling(); break; } case DERIVED_RECORD_EXTENSION: { RefAdaAST __t210 = _t; RefAdaAST tmp128_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DERIVED_RECORD_EXTENSION); _t = _t->getFirstChild(); id_and_discrim(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; record_definition(_t); _t = _retTree; _t = __t210; _t = _t->getNextSibling(); break; } case ORDINARY_DERIVED_TYPE_DECLARATION: { RefAdaAST __t211 = _t; RefAdaAST tmp129_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ORDINARY_DERIVED_TYPE_DECLARATION); _t = _t->getFirstChild(); id_and_discrim(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; _t = __t211; _t = _t->getNextSibling(); break; } case PRIVATE_TYPE_DECLARATION: { RefAdaAST __t212 = _t; RefAdaAST tmp130_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRIVATE_TYPE_DECLARATION); _t = _t->getFirstChild(); id_and_discrim(_t); _t = _retTree; modifiers(_t); _t = _retTree; _t = __t212; _t = _t->getNextSibling(); break; } case RECORD_TYPE_DECLARATION: { RefAdaAST __t213 = _t; RefAdaAST tmp131_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RECORD_TYPE_DECLARATION); _t = _t->getFirstChild(); id_and_discrim(_t); _t = _retTree; modifiers(_t); _t = _retTree; record_definition(_t); _t = _retTree; _t = __t213; _t = _t->getNextSibling(); break; } case SUBTYPE_DECLARATION: { RefAdaAST __t214 = _t; RefAdaAST tmp132_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SUBTYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp133_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); subtype_ind(_t); _t = _retTree; _t = __t214; _t = _t->getNextSibling(); break; } case GENERIC_PACKAGE_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_RENAMING: { generic_decl(_t); _t = _retTree; break; } case USE_CLAUSE: case USE_TYPE_CLAUSE: { use_clause(_t); _t = _retTree; break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case RECORD_REPRESENTATION_CLAUSE: { rep_spec(_t); _t = _retTree; break; } case EXCEPTION_RENAMING_DECLARATION: { RefAdaAST __t215 = _t; RefAdaAST tmp134_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXCEPTION_RENAMING_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; compound_name(_t); _t = _retTree; _t = __t215; _t = _t->getNextSibling(); break; } case OBJECT_RENAMING_DECLARATION: { RefAdaAST __t216 = _t; RefAdaAST tmp135_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OBJECT_RENAMING_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; subtype_mark(_t); _t = _retTree; name(_t); _t = _retTree; _t = __t216; _t = _t->getNextSibling(); break; } case EXCEPTION_DECLARATION: { RefAdaAST __t217 = _t; RefAdaAST tmp136_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXCEPTION_DECLARATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; _t = __t217; _t = _t->getNextSibling(); break; } case NUMBER_DECLARATION: { RefAdaAST __t218 = _t; RefAdaAST tmp137_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NUMBER_DECLARATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t218; _t = _t->getNextSibling(); break; } case ARRAY_OBJECT_DECLARATION: { RefAdaAST __t219 = _t; RefAdaAST tmp138_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ARRAY_OBJECT_DECLARATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; modifiers(_t); _t = _retTree; array_type_definition(_t); _t = _retTree; init_opt(_t); _t = _retTree; _t = __t219; _t = _t->getNextSibling(); break; } case OBJECT_DECLARATION: { RefAdaAST __t220 = _t; RefAdaAST tmp139_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OBJECT_DECLARATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; init_opt(_t); _t = _retTree; _t = __t220; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discrim_part_opt(RefAdaAST _t) { RefAdaAST discrim_part_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t145 = _t; RefAdaAST tmp140_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRIM_PART_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case BOX: { RefAdaAST tmp141_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BOX); _t = _t->getNextSibling(); break; } case DISCRIMINANT_SPECIFICATIONS: { discriminant_specifications(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t145; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::task_definition_opt(RefAdaAST _t) { RefAdaAST task_definition_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling task_items_opt(_t); _t = _retTree; private_task_items_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::task_items_opt(RefAdaAST _t) { RefAdaAST task_items_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t157 = _t; RefAdaAST tmp142_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TASK_ITEMS_OPT); _t = _t->getFirstChild(); entrydecls_repspecs_opt(_t); _t = _retTree; _t = __t157; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::private_task_items_opt(RefAdaAST _t) { RefAdaAST private_task_items_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t180 = _t; RefAdaAST tmp143_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PRIVATE_TASK_ITEMS_OPT); _t = _t->getFirstChild(); entrydecls_repspecs_opt(_t); _t = _retTree; _t = __t180; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discriminant_specifications(RefAdaAST _t) { RefAdaAST discriminant_specifications_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t148 = _t; RefAdaAST tmp144_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRIMINANT_SPECIFICATIONS); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == DISCRIMINANT_SPECIFICATION)) { discriminant_specification(_t); _t = _retTree; } else { goto _loop150; } } _loop150:; } // ( ... )* _t = __t148; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discriminant_specification(RefAdaAST _t) { RefAdaAST discriminant_specification_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t152 = _t; RefAdaAST tmp145_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRIMINANT_SPECIFICATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_mark(_t); _t = _retTree; init_opt(_t); _t = _retTree; _t = __t152; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entrydecls_repspecs_opt(RefAdaAST _t) { RefAdaAST entrydecls_repspecs_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ENTRY_DECLARATION: { entry_declaration(_t); _t = _retTree; break; } case PRAGMA: { pragma(_t); _t = _retTree; break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case RECORD_REPRESENTATION_CLAUSE: { rep_spec(_t); _t = _retTree; break; } default: { goto _loop160; } } } _loop160:; } // ( ... )* } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_declaration(RefAdaAST _t) { RefAdaAST entry_declaration_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t162 = _t; RefAdaAST tmp146_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp147_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); discrete_subtype_def_opt(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t162; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::rep_spec(RefAdaAST _t) { RefAdaAST rep_spec_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case RECORD_REPRESENTATION_CLAUSE: { RefAdaAST __t168 = _t; RefAdaAST tmp148_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RECORD_REPRESENTATION_CLAUSE); _t = _t->getFirstChild(); subtype_mark(_t); _t = _retTree; align_opt(_t); _t = _retTree; comp_loc_s(_t); _t = _retTree; _t = __t168; _t = _t->getNextSibling(); break; } case AT_CLAUSE: { RefAdaAST __t169 = _t; RefAdaAST tmp149_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),AT_CLAUSE); _t = _t->getFirstChild(); subtype_mark(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t169; _t = _t->getNextSibling(); break; } case ATTRIBUTE_DEFINITION_CLAUSE: { RefAdaAST __t170 = _t; RefAdaAST tmp150_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ATTRIBUTE_DEFINITION_CLAUSE); _t = _t->getFirstChild(); subtype_mark(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t170; _t = _t->getNextSibling(); break; } case ENUMERATION_REPESENTATION_CLAUSE: { RefAdaAST __t171 = _t; RefAdaAST tmp151_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENUMERATION_REPESENTATION_CLAUSE); _t = _t->getFirstChild(); local_enum_name(_t); _t = _retTree; enumeration_aggregate(_t); _t = _retTree; _t = __t171; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discrete_subtype_def_opt(RefAdaAST _t) { RefAdaAST discrete_subtype_def_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t164 = _t; RefAdaAST tmp152_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRETE_SUBTYPE_DEF_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: case SUBTYPE_INDICATION: { discrete_subtype_definition(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t164; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discrete_subtype_definition(RefAdaAST _t) { RefAdaAST discrete_subtype_definition_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: { range(_t); _t = _retTree; break; } case SUBTYPE_INDICATION: { subtype_ind(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subtype_ind(RefAdaAST _t) { RefAdaAST subtype_ind_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t239 = _t; RefAdaAST tmp153_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SUBTYPE_INDICATION); _t = _t->getFirstChild(); subtype_mark(_t); _t = _retTree; constraint_opt(_t); _t = _retTree; _t = __t239; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::align_opt(RefAdaAST _t) { RefAdaAST align_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t173 = _t; RefAdaAST tmp154_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MOD_CLAUSE_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t173; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::comp_loc_s(RefAdaAST _t) { RefAdaAST comp_loc_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t176 = _t; RefAdaAST tmp155_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),COMPONENT_CLAUSES_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case IDENTIFIER: case DOT: case TIC: { subtype_mark(_t); _t = _retTree; expression(_t); _t = _retTree; range(_t); _t = _retTree; break; } default: { goto _loop178; } } } _loop178:; } // ( ... )* _t = __t176; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::local_enum_name(RefAdaAST _t) { RefAdaAST local_enum_name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp156_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::enumeration_aggregate(RefAdaAST _t) { RefAdaAST enumeration_aggregate_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_2.member(_t->getType()))) { value(_t); _t = _retTree; } else { goto _loop293; } } _loop293:; } // ( ... )* } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::protected_definition(RefAdaAST _t) { RefAdaAST protected_definition_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling prot_op_decl_s(_t); _t = _retTree; prot_private_opt(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_private_opt(RefAdaAST _t) { RefAdaAST prot_private_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t185 = _t; RefAdaAST tmp157_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROT_PRIVATE_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PROT_MEMBER_DECLARATIONS: { prot_member_decl_s(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t185; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_member_decl_s(RefAdaAST _t) { RefAdaAST prot_member_decl_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t196 = _t; RefAdaAST tmp158_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROT_MEMBER_DECLARATIONS); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENTRY_DECLARATION: case ENUMERATION_REPESENTATION_CLAUSE: case RECORD_REPRESENTATION_CLAUSE: case FUNCTION_DECLARATION: case PROCEDURE_DECLARATION: { prot_op_decl(_t); _t = _retTree; break; } case COMPONENT_DECLARATION: { comp_decl(_t); _t = _retTree; break; } default: { goto _loop198; } } } _loop198:; } // ( ... )* _t = __t196; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_op_decl_s(RefAdaAST _t) { RefAdaAST prot_op_decl_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t189 = _t; RefAdaAST tmp159_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROT_OP_DECLARATIONS); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_3.member(_t->getType()))) { prot_op_decl(_t); _t = _retTree; } else { goto _loop191; } } _loop191:; } // ( ... )* _t = __t189; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_op_decl(RefAdaAST _t) { RefAdaAST prot_op_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ENTRY_DECLARATION: { entry_declaration(_t); _t = _retTree; break; } case PROCEDURE_DECLARATION: { RefAdaAST __t193 = _t; RefAdaAST tmp160_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROCEDURE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t193; _t = _t->getNextSibling(); break; } case FUNCTION_DECLARATION: { RefAdaAST __t194 = _t; RefAdaAST tmp161_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FUNCTION_DECLARATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t194; _t = _t->getNextSibling(); break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case RECORD_REPRESENTATION_CLAUSE: { rep_spec(_t); _t = _retTree; break; } case PRAGMA: { pragma(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::comp_decl(RefAdaAST _t) { RefAdaAST comp_decl_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t200 = _t; RefAdaAST tmp162_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),COMPONENT_DECLARATION); _t = _t->getFirstChild(); defining_identifier_list(_t); _t = _retTree; component_subtype_def(_t); _t = _retTree; init_opt(_t); _t = _retTree; _t = __t200; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::component_subtype_def(RefAdaAST _t) { RefAdaAST component_subtype_def_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::enum_id_s(RefAdaAST _t) { RefAdaAST enum_id_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { // ( ... )+ int _cnt224=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER || _t->getType() == CHARACTER_LITERAL)) { enumeration_literal_specification(_t); _t = _retTree; } else { if ( _cnt224>=1 ) { goto _loop224; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt224++; } _loop224:; } // ( ... )+ } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range_constraint_opt(RefAdaAST _t) { RefAdaAST range_constraint_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case RANGE_CONSTRAINT: { range_constraint(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::array_type_declaration(RefAdaAST _t) { RefAdaAST array_type_declaration_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t230 = _t; RefAdaAST tmp163_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ARRAY_TYPE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp164_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); array_type_definition(_t); _t = _retTree; _t = __t230; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::access_type_declaration(RefAdaAST _t) { RefAdaAST access_type_declaration_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ACCESS_TO_PROCEDURE_DECLARATION: { RefAdaAST __t263 = _t; RefAdaAST tmp165_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCESS_TO_PROCEDURE_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp166_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); modifiers(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; _t = __t263; _t = _t->getNextSibling(); break; } case ACCESS_TO_FUNCTION_DECLARATION: { RefAdaAST __t264 = _t; RefAdaAST tmp167_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCESS_TO_FUNCTION_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp168_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); modifiers(_t); _t = _retTree; function_tail(_t); _t = _retTree; _t = __t264; _t = _t->getNextSibling(); break; } case ACCESS_TO_OBJECT_DECLARATION: { RefAdaAST __t265 = _t; RefAdaAST tmp169_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCESS_TO_OBJECT_DECLARATION); _t = _t->getFirstChild(); RefAdaAST tmp170_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; _t = __t265; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::id_and_discrim(RefAdaAST _t) { RefAdaAST id_and_discrim_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp171_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); discrim_part_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::record_definition(RefAdaAST _t) { RefAdaAST record_definition_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case COMPONENT_ITEMS: { component_list(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::array_type_definition(RefAdaAST _t) { RefAdaAST array_type_definition_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling index_or_discrete_range_s(_t); _t = _retTree; component_subtype_def(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::enumeration_literal_specification(RefAdaAST _t) { RefAdaAST enumeration_literal_specification_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp172_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case CHARACTER_LITERAL: { RefAdaAST tmp173_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHARACTER_LITERAL); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::index_or_discrete_range_s(RefAdaAST _t) { RefAdaAST index_or_discrete_range_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case RANGE: case DOT_DOT: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { index_or_discrete_range(_t); _t = _retTree; break; } case COMMA: { RefAdaAST __t232 = _t; RefAdaAST tmp174_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),COMMA); _t = _t->getFirstChild(); index_or_discrete_range_s(_t); _t = _retTree; index_or_discrete_range(_t); _t = _retTree; _t = __t232; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::index_or_discrete_range(RefAdaAST _t) { RefAdaAST index_or_discrete_range_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: { RefAdaAST __t234 = _t; RefAdaAST tmp175_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT_DOT); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t234; _t = _t->getNextSibling(); break; } case RANGE: { RefAdaAST __t235 = _t; RefAdaAST tmp176_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RANGE); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case BOX: { RefAdaAST tmp177_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BOX); _t = _t->getNextSibling(); break; } case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: { range(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t235; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { simple_expression(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::constraint_opt(RefAdaAST _t) { RefAdaAST constraint_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case RANGE_CONSTRAINT: { range_constraint(_t); _t = _retTree; break; } case DIGITS_CONSTRAINT: { digits_constraint(_t); _t = _retTree; break; } case DELTA_CONSTRAINT: { delta_constraint(_t); _t = _retTree; break; } case INDEX_CONSTRAINT: { index_constraint(_t); _t = _retTree; break; } case DISCRIMINANT_CONSTRAINT: { discriminant_constraint(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::digits_constraint(RefAdaAST _t) { RefAdaAST digits_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t243 = _t; RefAdaAST tmp178_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DIGITS_CONSTRAINT); _t = _t->getFirstChild(); expression(_t); _t = _retTree; range_constraint_opt(_t); _t = _retTree; _t = __t243; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::delta_constraint(RefAdaAST _t) { RefAdaAST delta_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t245 = _t; RefAdaAST tmp179_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DELTA_CONSTRAINT); _t = _t->getFirstChild(); expression(_t); _t = _retTree; range_constraint_opt(_t); _t = _retTree; _t = __t245; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::index_constraint(RefAdaAST _t) { RefAdaAST index_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t247 = _t; RefAdaAST tmp180_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INDEX_CONSTRAINT); _t = _t->getFirstChild(); { // ( ... )+ int _cnt249=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == DOT_DOT || _t->getType() == RANGE_ATTRIBUTE_REFERENCE || _t->getType() == SUBTYPE_INDICATION)) { discrete_range(_t); _t = _retTree; } else { if ( _cnt249>=1 ) { goto _loop249; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt249++; } _loop249:; } // ( ... )+ _t = __t247; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discriminant_constraint(RefAdaAST _t) { RefAdaAST discriminant_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t252 = _t; RefAdaAST tmp181_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRIMINANT_CONSTRAINT); _t = _t->getFirstChild(); { // ( ... )+ int _cnt254=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == DISCRIMINANT_ASSOCIATION)) { discriminant_association(_t); _t = _retTree; } else { if ( _cnt254>=1 ) { goto _loop254; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt254++; } _loop254:; } // ( ... )+ _t = __t252; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discrete_range(RefAdaAST _t) { RefAdaAST discrete_range_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: { range(_t); _t = _retTree; break; } case SUBTYPE_INDICATION: { subtype_ind(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discriminant_association(RefAdaAST _t) { RefAdaAST discriminant_association_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t256 = _t; RefAdaAST tmp182_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DISCRIMINANT_ASSOCIATION); _t = _t->getFirstChild(); selector_names_opt(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t256; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::selector_names_opt(RefAdaAST _t) { RefAdaAST selector_names_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t258 = _t; RefAdaAST tmp183_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SELECTOR_NAMES_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == IDENTIFIER)) { selector_name(_t); _t = _retTree; } else { goto _loop260; } } _loop260:; } // ( ... )* _t = __t258; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::selector_name(RefAdaAST _t) { RefAdaAST selector_name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp184_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::component_list(RefAdaAST _t) { RefAdaAST component_list_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling component_items(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case VARIANT_PART: { variant_part(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::component_items(RefAdaAST _t) { RefAdaAST component_items_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t271 = _t; RefAdaAST tmp185_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),COMPONENT_ITEMS); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case COMPONENT_DECLARATION: { comp_decl(_t); _t = _retTree; break; } default: { goto _loop273; } } } _loop273:; } // ( ... )* _t = __t271; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::variant_part(RefAdaAST _t) { RefAdaAST variant_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t275 = _t; RefAdaAST tmp186_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),VARIANT_PART); _t = _t->getFirstChild(); discriminant_direct_name(_t); _t = _retTree; variant_s(_t); _t = _retTree; _t = __t275; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discriminant_direct_name(RefAdaAST _t) { RefAdaAST discriminant_direct_name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp187_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::variant_s(RefAdaAST _t) { RefAdaAST variant_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t278 = _t; RefAdaAST tmp188_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),VARIANTS); _t = _t->getFirstChild(); { // ( ... )+ int _cnt280=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == VARIANT)) { variant(_t); _t = _retTree; } else { if ( _cnt280>=1 ) { goto _loop280; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt280++; } _loop280:; } // ( ... )+ _t = __t278; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::variant(RefAdaAST _t) { RefAdaAST variant_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t282 = _t; RefAdaAST tmp189_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),VARIANT); _t = _t->getFirstChild(); choice_s(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case COMPONENT_ITEMS: { component_list(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t282; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::choice_s(RefAdaAST _t) { RefAdaAST choice_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PIPE: { RefAdaAST __t285 = _t; RefAdaAST tmp190_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PIPE); _t = _t->getFirstChild(); choice_s(_t); _t = _retTree; choice(_t); _t = _retTree; _t = __t285; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case OTHERS: case DOT_DOT: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case RANGE_ATTRIBUTE_REFERENCE: case AND_THEN: case MARK_WITH_CONSTRAINT: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { choice(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::choice(RefAdaAST _t) { RefAdaAST choice_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case OTHERS: { RefAdaAST tmp191_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OTHERS); _t = _t->getNextSibling(); break; } case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: case MARK_WITH_CONSTRAINT: { discrete_with_range(_t); _t = _retTree; break; } case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::discrete_with_range(RefAdaAST _t) { RefAdaAST discrete_with_range_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case MARK_WITH_CONSTRAINT: { mark_with_constraint(_t); _t = _retTree; break; } case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: { range(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::mark_with_constraint(RefAdaAST _t) { RefAdaAST mark_with_constraint_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t289 = _t; RefAdaAST tmp192_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MARK_WITH_CONSTRAINT); _t = _t->getFirstChild(); subtype_mark(_t); _t = _retTree; range_constraint(_t); _t = _retTree; _t = __t289; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::generic_formal_parameter(RefAdaAST _t) { RefAdaAST generic_formal_parameter_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case FORMAL_DISCRETE_TYPE_DECLARATION: { RefAdaAST __t299 = _t; RefAdaAST tmp193_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_DISCRETE_TYPE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t299; _t = _t->getNextSibling(); break; } case FORMAL_SIGNED_INTEGER_TYPE_DECLARATION: { RefAdaAST __t300 = _t; RefAdaAST tmp194_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_SIGNED_INTEGER_TYPE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t300; _t = _t->getNextSibling(); break; } case FORMAL_MODULAR_TYPE_DECLARATION: { RefAdaAST __t301 = _t; RefAdaAST tmp195_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_MODULAR_TYPE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t301; _t = _t->getNextSibling(); break; } case FORMAL_DECIMAL_FIXED_POINT_DECLARATION: { RefAdaAST __t302 = _t; RefAdaAST tmp196_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_DECIMAL_FIXED_POINT_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t302; _t = _t->getNextSibling(); break; } case FORMAL_ORDINARY_FIXED_POINT_DECLARATION: { RefAdaAST __t303 = _t; RefAdaAST tmp197_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_ORDINARY_FIXED_POINT_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t303; _t = _t->getNextSibling(); break; } case FORMAL_FLOATING_POINT_DECLARATION: { RefAdaAST __t304 = _t; RefAdaAST tmp198_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_FLOATING_POINT_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t304; _t = _t->getNextSibling(); break; } case ARRAY_TYPE_DECLARATION: { formal_array_type_declaration(_t); _t = _retTree; break; } case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: { formal_access_type_declaration(_t); _t = _retTree; break; } case FORMAL_PRIVATE_TYPE_DECLARATION: { RefAdaAST __t305 = _t; RefAdaAST tmp199_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_PRIVATE_TYPE_DECLARATION); _t = _t->getFirstChild(); id_part(_t); _t = _retTree; modifiers(_t); _t = _retTree; _t = __t305; _t = _t->getNextSibling(); break; } case FORMAL_ORDINARY_DERIVED_TYPE_DECLARATION: { RefAdaAST __t306 = _t; RefAdaAST tmp200_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_ORDINARY_DERIVED_TYPE_DECLARATION); _t = _t->getFirstChild(); id_part(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; _t = __t306; _t = _t->getNextSibling(); break; } case FORMAL_PRIVATE_EXTENSION_DECLARATION: { RefAdaAST __t307 = _t; RefAdaAST tmp201_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_PRIVATE_EXTENSION_DECLARATION); _t = _t->getFirstChild(); id_part(_t); _t = _retTree; modifiers(_t); _t = _retTree; subtype_ind(_t); _t = _retTree; _t = __t307; _t = _t->getNextSibling(); break; } case FORMAL_PROCEDURE_DECLARATION: { RefAdaAST __t308 = _t; RefAdaAST tmp202_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_PROCEDURE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; subprogram_default_opt(_t); _t = _retTree; _t = __t308; _t = _t->getNextSibling(); break; } case FORMAL_FUNCTION_DECLARATION: { RefAdaAST __t309 = _t; RefAdaAST tmp203_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_FUNCTION_DECLARATION); _t = _t->getFirstChild(); def_designator(_t); _t = _retTree; function_tail(_t); _t = _retTree; subprogram_default_opt(_t); _t = _retTree; _t = __t309; _t = _t->getNextSibling(); break; } case FORMAL_PACKAGE_DECLARATION: { RefAdaAST __t310 = _t; RefAdaAST tmp204_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FORMAL_PACKAGE_DECLARATION); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; compound_name(_t); _t = _retTree; formal_package_actual_part_opt(_t); _t = _retTree; _t = __t310; _t = _t->getNextSibling(); break; } case PARAMETER_SPECIFICATION: { parameter_specification(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::formal_array_type_declaration(RefAdaAST _t) { RefAdaAST formal_array_type_declaration_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling array_type_declaration(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::formal_access_type_declaration(RefAdaAST _t) { RefAdaAST formal_access_type_declaration_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling access_type_declaration(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::id_part(RefAdaAST _t) { RefAdaAST id_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling def_id(_t); _t = _retTree; discrim_part_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprogram_default_opt(RefAdaAST _t) { RefAdaAST subprogram_default_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case BOX: { RefAdaAST tmp205_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BOX); _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case INDEXED_COMPONENT: { name(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::formal_package_actual_part_opt(RefAdaAST _t) { RefAdaAST formal_package_actual_part_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case BOX: { RefAdaAST tmp206_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BOX); _t = _t->getNextSibling(); break; } case DEFINING_IDENTIFIER_LIST: { defining_identifier_list(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::body_part(RefAdaAST _t) { RefAdaAST body_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling declarative_part(_t); _t = _retTree; block_body(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::declarative_part(RefAdaAST _t) { RefAdaAST declarative_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t324 = _t; RefAdaAST tmp207_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DECLARATIVE_PART); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case EXCEPTION_DECLARATION: case EXCEPTION_RENAMING_DECLARATION: case GENERIC_PACKAGE_DECLARATION: case INCOMPLETE_TYPE_DECLARATION: case NUMBER_DECLARATION: case OBJECT_DECLARATION: case OBJECT_RENAMING_DECLARATION: case PACKAGE_BODY: case PACKAGE_BODY_STUB: case PACKAGE_RENAMING_DECLARATION: case PACKAGE_SPECIFICATION: case PRIVATE_EXTENSION_DECLARATION: case PRIVATE_TYPE_DECLARATION: case PROTECTED_BODY: case PROTECTED_BODY_STUB: case PROTECTED_TYPE_DECLARATION: case RECORD_REPRESENTATION_CLAUSE: case SINGLE_PROTECTED_DECLARATION: case SINGLE_TASK_DECLARATION: case SUBTYPE_DECLARATION: case TASK_BODY: case TASK_BODY_STUB: case TASK_TYPE_DECLARATION: case USE_CLAUSE: case USE_TYPE_CLAUSE: case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_OBJECT_DECLARATION: case ARRAY_TYPE_DECLARATION: case DECIMAL_FIXED_POINT_DECLARATION: case DERIVED_RECORD_EXTENSION: case ENUMERATION_TYPE_DECLARATION: case FLOATING_POINT_DECLARATION: case FUNCTION_BODY: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_INSTANTIATION: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_INSTANTIATION: case GENERIC_PROCEDURE_RENAMING: case MODULAR_TYPE_DECLARATION: case ORDINARY_DERIVED_TYPE_DECLARATION: case ORDINARY_FIXED_POINT_DECLARATION: case PROCEDURE_BODY: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: case RECORD_TYPE_DECLARATION: case SIGNED_INTEGER_TYPE_DECLARATION: { declarative_item(_t); _t = _retTree; break; } default: { goto _loop326; } } } _loop326:; } // ( ... )* _t = __t324; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::block_body(RefAdaAST _t) { RefAdaAST block_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t343 = _t; RefAdaAST tmp208_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BLOCK_BODY); _t = _t->getFirstChild(); handled_stmt_s(_t); _t = _retTree; _t = __t343; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::declarative_item(RefAdaAST _t) { RefAdaAST declarative_item_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PACKAGE_BODY_STUB: { RefAdaAST __t328 = _t; RefAdaAST tmp209_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_BODY_STUB); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t328; _t = _t->getNextSibling(); break; } case PACKAGE_BODY: { RefAdaAST __t329 = _t; RefAdaAST tmp210_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PACKAGE_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; pkg_body_part(_t); _t = _retTree; _t = __t329; _t = _t->getNextSibling(); break; } case PACKAGE_RENAMING_DECLARATION: case PACKAGE_SPECIFICATION: case GENERIC_PACKAGE_INSTANTIATION: { spec_decl_part(_t); _t = _retTree; break; } case TASK_BODY_STUB: { RefAdaAST __t330 = _t; RefAdaAST tmp211_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TASK_BODY_STUB); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t330; _t = _t->getNextSibling(); break; } case TASK_BODY: { RefAdaAST __t331 = _t; RefAdaAST tmp212_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TASK_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; body_part(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; _t = __t331; _t = _t->getNextSibling(); break; } case SINGLE_TASK_DECLARATION: case TASK_TYPE_DECLARATION: { task_type_or_single_decl(_t); _t = _retTree; break; } case PROTECTED_BODY_STUB: { RefAdaAST __t332 = _t; RefAdaAST tmp213_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROTECTED_BODY_STUB); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; _t = __t332; _t = _t->getNextSibling(); break; } case PROTECTED_BODY: { RefAdaAST __t333 = _t; RefAdaAST tmp214_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROTECTED_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; prot_op_bodies_opt(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; _t = __t333; _t = _t->getNextSibling(); break; } case PROTECTED_TYPE_DECLARATION: case SINGLE_PROTECTED_DECLARATION: { prot_type_or_single_decl(_t); _t = _retTree; break; } case ABSTRACT_FUNCTION_DECLARATION: case ABSTRACT_PROCEDURE_DECLARATION: case FUNCTION_BODY: case FUNCTION_BODY_STUB: case FUNCTION_DECLARATION: case FUNCTION_RENAMING_DECLARATION: case GENERIC_FUNCTION_INSTANTIATION: case GENERIC_PROCEDURE_INSTANTIATION: case PROCEDURE_BODY: case PROCEDURE_BODY_STUB: case PROCEDURE_DECLARATION: case PROCEDURE_RENAMING_DECLARATION: { subprog_decl_or_rename_or_inst_or_body(_t); _t = _retTree; break; } case ATTRIBUTE_DEFINITION_CLAUSE: case AT_CLAUSE: case ENUMERATION_REPESENTATION_CLAUSE: case EXCEPTION_DECLARATION: case EXCEPTION_RENAMING_DECLARATION: case GENERIC_PACKAGE_DECLARATION: case INCOMPLETE_TYPE_DECLARATION: case NUMBER_DECLARATION: case OBJECT_DECLARATION: case OBJECT_RENAMING_DECLARATION: case PRIVATE_EXTENSION_DECLARATION: case PRIVATE_TYPE_DECLARATION: case RECORD_REPRESENTATION_CLAUSE: case SUBTYPE_DECLARATION: case USE_CLAUSE: case USE_TYPE_CLAUSE: case ACCESS_TO_FUNCTION_DECLARATION: case ACCESS_TO_OBJECT_DECLARATION: case ACCESS_TO_PROCEDURE_DECLARATION: case ARRAY_OBJECT_DECLARATION: case ARRAY_TYPE_DECLARATION: case DECIMAL_FIXED_POINT_DECLARATION: case DERIVED_RECORD_EXTENSION: case ENUMERATION_TYPE_DECLARATION: case FLOATING_POINT_DECLARATION: case GENERIC_FUNCTION_DECLARATION: case GENERIC_FUNCTION_RENAMING: case GENERIC_PACKAGE_RENAMING: case GENERIC_PROCEDURE_DECLARATION: case GENERIC_PROCEDURE_RENAMING: case MODULAR_TYPE_DECLARATION: case ORDINARY_DERIVED_TYPE_DECLARATION: case ORDINARY_FIXED_POINT_DECLARATION: case RECORD_TYPE_DECLARATION: case SIGNED_INTEGER_TYPE_DECLARATION: { decl_common(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::prot_op_bodies_opt(RefAdaAST _t) { RefAdaAST prot_op_bodies_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t339 = _t; RefAdaAST tmp215_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROT_OP_BODIES_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case ENTRY_BODY: { entry_body(_t); _t = _retTree; break; } case FUNCTION_BODY: case FUNCTION_DECLARATION: case PROCEDURE_BODY: case PROCEDURE_DECLARATION: { subprog_decl_or_body(_t); _t = _retTree; break; } default: { goto _loop341; } } } _loop341:; } // ( ... )* _t = __t339; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::block_body_opt(RefAdaAST _t) { RefAdaAST block_body_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t336 = _t; RefAdaAST tmp216_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BLOCK_BODY_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case HANDLED_SEQUENCE_OF_STATEMENTS: { handled_stmt_s(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t336; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::handled_stmt_s(RefAdaAST _t) { RefAdaAST handled_stmt_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t345 = _t; RefAdaAST tmp217_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),HANDLED_SEQUENCE_OF_STATEMENTS); _t = _t->getFirstChild(); statements(_t); _t = _retTree; except_handler_part_opt(_t); _t = _retTree; _t = __t345; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_body(RefAdaAST _t) { RefAdaAST entry_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t405 = _t; RefAdaAST tmp218_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; entry_body_formal_part(_t); _t = _retTree; entry_barrier(_t); _t = _retTree; body_part(_t); _t = _retTree; _t = __t405; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::statements(RefAdaAST _t) { RefAdaAST statements_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t350 = _t; RefAdaAST tmp219_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SEQUENCE_OF_STATEMENTS); _t = _t->getFirstChild(); { // ( ... )+ int _cnt352=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case STATEMENT: { statement(_t); _t = _retTree; break; } default: { if ( _cnt352>=1 ) { goto _loop352; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } } _cnt352++; } _loop352:; } // ( ... )+ _t = __t350; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::except_handler_part_opt(RefAdaAST _t) { RefAdaAST except_handler_part_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t455 = _t; RefAdaAST tmp220_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXCEPT_HANDLER_PART_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == EXCEPTION_HANDLER)) { exception_handler(_t); _t = _retTree; } else { goto _loop457; } } _loop457:; } // ( ... )* _t = __t455; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::handled_stmts_opt(RefAdaAST _t) { RefAdaAST handled_stmts_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t347 = _t; RefAdaAST tmp221_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),HANDLED_STMTS_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case SEQUENCE_OF_STATEMENTS: { statements(_t); _t = _retTree; except_handler_part_opt(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t347; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::statement(RefAdaAST _t) { RefAdaAST statement_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t354 = _t; RefAdaAST tmp222_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),STATEMENT); _t = _t->getFirstChild(); def_label_opt(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case NULL_STATEMENT: { null_stmt(_t); _t = _retTree; break; } case EXIT_STATEMENT: { exit_stmt(_t); _t = _retTree; break; } case RETURN_STATEMENT: { return_stmt(_t); _t = _retTree; break; } case GOTO_STATEMENT: { goto_stmt(_t); _t = _retTree; break; } case DELAY_STATEMENT: { delay_stmt(_t); _t = _retTree; break; } case ABORT_STATEMENT: { abort_stmt(_t); _t = _retTree; break; } case RAISE_STATEMENT: { raise_stmt(_t); _t = _retTree; break; } case REQUEUE_STATEMENT: { requeue_stmt(_t); _t = _retTree; break; } case ACCEPT_STATEMENT: { accept_stmt(_t); _t = _retTree; break; } case ASYNCHRONOUS_SELECT: case CONDITIONAL_ENTRY_CALL: case SELECTIVE_ACCEPT: case TIMED_ENTRY_CALL: { select_stmt(_t); _t = _retTree; break; } case IF_STATEMENT: { if_stmt(_t); _t = _retTree; break; } case CASE_STATEMENT: { case_stmt(_t); _t = _retTree; break; } case LOOP_STATEMENT: { loop_stmt(_t); _t = _retTree; id_opt(_t); _t = _retTree; break; } case BLOCK_STATEMENT: { block(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; break; } case ASSIGNMENT_STATEMENT: case CALL_STATEMENT: { call_or_assignment(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t354; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::def_label_opt(RefAdaAST _t) { RefAdaAST def_label_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t357 = _t; RefAdaAST tmp223_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LABEL_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp224_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t357; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::null_stmt(RefAdaAST _t) { RefAdaAST null_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp225_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NULL_STATEMENT); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::exit_stmt(RefAdaAST _t) { RefAdaAST exit_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t392 = _t; RefAdaAST tmp226_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXIT_STATEMENT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { label_name(_t); _t = _retTree; break; } case 3: case WHEN: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case WHEN: { RefAdaAST tmp227_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),WHEN); _t = _t->getNextSibling(); condition(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t392; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::return_stmt(RefAdaAST _t) { RefAdaAST return_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t397 = _t; RefAdaAST tmp228_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RETURN_STATEMENT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t397; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::goto_stmt(RefAdaAST _t) { RefAdaAST goto_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t400 = _t; RefAdaAST tmp229_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GOTO_STATEMENT); _t = _t->getFirstChild(); label_name(_t); _t = _retTree; _t = __t400; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::delay_stmt(RefAdaAST _t) { RefAdaAST delay_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t419 = _t; RefAdaAST tmp230_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DELAY_STATEMENT); _t = _t->getFirstChild(); modifiers(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t419; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::abort_stmt(RefAdaAST _t) { RefAdaAST abort_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t451 = _t; RefAdaAST tmp231_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABORT_STATEMENT); _t = _t->getFirstChild(); { // ( ... )+ int _cnt453=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_tokenSet_4.member(_t->getType()))) { name(_t); _t = _retTree; } else { if ( _cnt453>=1 ) { goto _loop453; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt453++; } _loop453:; } // ( ... )+ _t = __t451; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::raise_stmt(RefAdaAST _t) { RefAdaAST raise_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t467 = _t; RefAdaAST tmp232_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),RAISE_STATEMENT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: { compound_name(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t467; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::requeue_stmt(RefAdaAST _t) { RefAdaAST requeue_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t470 = _t; RefAdaAST tmp233_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),REQUEUE_STATEMENT); _t = _t->getFirstChild(); name(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ABORT: { RefAdaAST tmp234_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABORT); _t = _t->getNextSibling(); break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t470; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::accept_stmt(RefAdaAST _t) { RefAdaAST accept_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t414 = _t; RefAdaAST tmp235_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCEPT_STATEMENT); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; entry_index_opt(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; handled_stmts_opt(_t); _t = _retTree; end_id_opt(_t); _t = _retTree; _t = __t414; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::select_stmt(RefAdaAST _t) { RefAdaAST select_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ASYNCHRONOUS_SELECT: { RefAdaAST __t421 = _t; RefAdaAST tmp236_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ASYNCHRONOUS_SELECT); _t = _t->getFirstChild(); triggering_alternative(_t); _t = _retTree; abortable_part(_t); _t = _retTree; _t = __t421; _t = _t->getNextSibling(); break; } case SELECTIVE_ACCEPT: { RefAdaAST __t422 = _t; RefAdaAST tmp237_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),SELECTIVE_ACCEPT); _t = _t->getFirstChild(); selective_accept(_t); _t = _retTree; _t = __t422; _t = _t->getNextSibling(); break; } case TIMED_ENTRY_CALL: { RefAdaAST __t423 = _t; RefAdaAST tmp238_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TIMED_ENTRY_CALL); _t = _t->getFirstChild(); entry_call_alternative(_t); _t = _retTree; delay_alternative(_t); _t = _retTree; _t = __t423; _t = _t->getNextSibling(); break; } case CONDITIONAL_ENTRY_CALL: { RefAdaAST __t424 = _t; RefAdaAST tmp239_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CONDITIONAL_ENTRY_CALL); _t = _t->getFirstChild(); entry_call_alternative(_t); _t = _retTree; statements(_t); _t = _retTree; _t = __t424; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::if_stmt(RefAdaAST _t) { RefAdaAST if_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t361 = _t; RefAdaAST tmp240_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IF_STATEMENT); _t = _t->getFirstChild(); cond_clause(_t); _t = _retTree; elsifs_opt(_t); _t = _retTree; else_opt(_t); _t = _retTree; _t = __t361; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::case_stmt(RefAdaAST _t) { RefAdaAST case_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t373 = _t; RefAdaAST tmp241_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CASE_STATEMENT); _t = _t->getFirstChild(); expression(_t); _t = _retTree; alternative_s(_t); _t = _retTree; _t = __t373; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::loop_stmt(RefAdaAST _t) { RefAdaAST loop_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t380 = _t; RefAdaAST tmp242_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LOOP_STATEMENT); _t = _t->getFirstChild(); iteration_scheme_opt(_t); _t = _retTree; statements(_t); _t = _retTree; _t = __t380; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::block(RefAdaAST _t) { RefAdaAST block_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t387 = _t; RefAdaAST tmp243_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),BLOCK_STATEMENT); _t = _t->getFirstChild(); declare_opt(_t); _t = _retTree; block_body(_t); _t = _retTree; _t = __t387; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::call_or_assignment(RefAdaAST _t) { RefAdaAST call_or_assignment_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ASSIGNMENT_STATEMENT: { RefAdaAST __t402 = _t; RefAdaAST tmp244_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ASSIGNMENT_STATEMENT); _t = _t->getFirstChild(); name(_t); _t = _retTree; expression(_t); _t = _retTree; _t = __t402; _t = _t->getNextSibling(); break; } case CALL_STATEMENT: { RefAdaAST __t403 = _t; RefAdaAST tmp245_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CALL_STATEMENT); _t = _t->getFirstChild(); name(_t); _t = _retTree; _t = __t403; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::cond_clause(RefAdaAST _t) { RefAdaAST cond_clause_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t363 = _t; RefAdaAST tmp246_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),COND_CLAUSE); _t = _t->getFirstChild(); condition(_t); _t = _retTree; statements(_t); _t = _retTree; _t = __t363; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::elsifs_opt(RefAdaAST _t) { RefAdaAST elsifs_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t366 = _t; RefAdaAST tmp247_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ELSIFS_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == COND_CLAUSE)) { cond_clause(_t); _t = _retTree; } else { goto _loop368; } } _loop368:; } // ( ... )* _t = __t366; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::else_opt(RefAdaAST _t) { RefAdaAST else_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t370 = _t; RefAdaAST tmp248_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ELSE_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case SEQUENCE_OF_STATEMENTS: { statements(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t370; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::condition(RefAdaAST _t) { RefAdaAST condition_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling expression(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::alternative_s(RefAdaAST _t) { RefAdaAST alternative_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { // ( ... )+ int _cnt376=0; for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == CASE_STATEMENT_ALTERNATIVE)) { case_statement_alternative(_t); _t = _retTree; } else { if ( _cnt376>=1 ) { goto _loop376; } else {throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t));} } _cnt376++; } _loop376:; } // ( ... )+ } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::case_statement_alternative(RefAdaAST _t) { RefAdaAST case_statement_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t378 = _t; RefAdaAST tmp249_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CASE_STATEMENT_ALTERNATIVE); _t = _t->getFirstChild(); choice_s(_t); _t = _retTree; statements(_t); _t = _retTree; _t = __t378; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::iteration_scheme_opt(RefAdaAST _t) { RefAdaAST iteration_scheme_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t382 = _t; RefAdaAST tmp250_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ITERATION_SCHEME_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case WHILE: { RefAdaAST __t384 = _t; RefAdaAST tmp251_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),WHILE); _t = _t->getFirstChild(); condition(_t); _t = _retTree; _t = __t384; _t = _t->getNextSibling(); break; } case FOR: { RefAdaAST __t385 = _t; RefAdaAST tmp252_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),FOR); _t = _t->getFirstChild(); RefAdaAST tmp253_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); modifiers(_t); _t = _retTree; discrete_subtype_definition(_t); _t = _retTree; _t = __t385; _t = _t->getNextSibling(); break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t382; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::declare_opt(RefAdaAST _t) { RefAdaAST declare_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t389 = _t; RefAdaAST tmp254_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DECLARE_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DECLARATIVE_PART: { declarative_part(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t389; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::label_name(RefAdaAST _t) { RefAdaAST label_name_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST tmp255_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_body_formal_part(RefAdaAST _t) { RefAdaAST entry_body_formal_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling entry_index_spec_opt(_t); _t = _retTree; formal_part_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_barrier(RefAdaAST _t) { RefAdaAST entry_barrier_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling condition(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_index_spec_opt(RefAdaAST _t) { RefAdaAST entry_index_spec_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t408 = _t; RefAdaAST tmp256_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_INDEX_SPECIFICATION); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: { def_id(_t); _t = _retTree; discrete_subtype_definition(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t408; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_call_stmt(RefAdaAST _t) { RefAdaAST entry_call_stmt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t412 = _t; RefAdaAST tmp257_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_CALL_STATEMENT); _t = _t->getFirstChild(); name(_t); _t = _retTree; _t = __t412; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_index_opt(RefAdaAST _t) { RefAdaAST entry_index_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t416 = _t; RefAdaAST tmp258_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_INDEX_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { expression(_t); _t = _retTree; break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t416; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::triggering_alternative(RefAdaAST _t) { RefAdaAST triggering_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t426 = _t; RefAdaAST tmp259_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TRIGGERING_ALTERNATIVE); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DELAY_STATEMENT: { delay_stmt(_t); _t = _retTree; break; } case ENTRY_CALL_STATEMENT: { entry_call_stmt(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } stmts_opt(_t); _t = _retTree; _t = __t426; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::abortable_part(RefAdaAST _t) { RefAdaAST abortable_part_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t429 = _t; RefAdaAST tmp260_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABORTABLE_PART); _t = _t->getFirstChild(); stmts_opt(_t); _t = _retTree; _t = __t429; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::selective_accept(RefAdaAST _t) { RefAdaAST selective_accept_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling guard_opt(_t); _t = _retTree; select_alternative(_t); _t = _retTree; or_select_opt(_t); _t = _retTree; else_opt(_t); _t = _retTree; } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::entry_call_alternative(RefAdaAST _t) { RefAdaAST entry_call_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t431 = _t; RefAdaAST tmp261_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ENTRY_CALL_ALTERNATIVE); _t = _t->getFirstChild(); entry_call_stmt(_t); _t = _retTree; stmts_opt(_t); _t = _retTree; _t = __t431; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::delay_alternative(RefAdaAST _t) { RefAdaAST delay_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t442 = _t; RefAdaAST tmp262_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DELAY_ALTERNATIVE); _t = _t->getFirstChild(); delay_stmt(_t); _t = _retTree; stmts_opt(_t); _t = _retTree; _t = __t442; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::stmts_opt(RefAdaAST _t) { RefAdaAST stmts_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PRAGMA: { pragma(_t); _t = _retTree; break; } case STATEMENT: { statement(_t); _t = _retTree; break; } default: { goto _loop445; } } } _loop445:; } // ( ... )* } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::guard_opt(RefAdaAST _t) { RefAdaAST guard_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t434 = _t; RefAdaAST tmp263_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GUARD_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case IN: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case OR: case AND: case XOR: case NOT: case EQ: case NE: case LT_: case LE: case GT: case GE: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case AND_THEN: case NOT_IN: case OR_ELSE: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { condition(_t); _t = _retTree; { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == PRAGMA)) { pragma(_t); _t = _retTree; } else { goto _loop437; } } _loop437:; } // ( ... )* break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t434; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::select_alternative(RefAdaAST _t) { RefAdaAST select_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ACCEPT_ALTERNATIVE: { accept_alternative(_t); _t = _retTree; break; } case DELAY_ALTERNATIVE: { delay_alternative(_t); _t = _retTree; break; } case TERMINATE_ALTERNATIVE: { RefAdaAST tmp264_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TERMINATE_ALTERNATIVE); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::or_select_opt(RefAdaAST _t) { RefAdaAST or_select_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t447 = _t; RefAdaAST tmp265_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OR_SELECT_OPT); _t = _t->getFirstChild(); { // ( ... )* for (;;) { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; if ((_t->getType() == GUARD_OPT)) { guard_opt(_t); _t = _retTree; select_alternative(_t); _t = _retTree; } else { goto _loop449; } } _loop449:; } // ( ... )* _t = __t447; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::accept_alternative(RefAdaAST _t) { RefAdaAST accept_alternative_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t440 = _t; RefAdaAST tmp266_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ACCEPT_ALTERNATIVE); _t = _t->getFirstChild(); accept_stmt(_t); _t = _retTree; stmts_opt(_t); _t = _retTree; _t = __t440; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::exception_handler(RefAdaAST _t) { RefAdaAST exception_handler_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t459 = _t; RefAdaAST tmp267_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXCEPTION_HANDLER); _t = _t->getFirstChild(); identifier_colon_opt(_t); _t = _retTree; except_choice_s(_t); _t = _retTree; statements(_t); _t = _retTree; _t = __t459; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::identifier_colon_opt(RefAdaAST _t) { RefAdaAST identifier_colon_opt_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t461 = _t; RefAdaAST tmp268_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER_COLON_OPT); _t = _t->getFirstChild(); { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp269_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case 3: { break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t461; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::except_choice_s(RefAdaAST _t) { RefAdaAST except_choice_s_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PIPE: { RefAdaAST __t464 = _t; RefAdaAST tmp270_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PIPE); _t = _t->getFirstChild(); except_choice_s(_t); _t = _retTree; exception_choice(_t); _t = _retTree; _t = __t464; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case OTHERS: { exception_choice(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::exception_choice(RefAdaAST _t) { RefAdaAST exception_choice_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: { compound_name(_t); _t = _retTree; break; } case OTHERS: { RefAdaAST tmp271_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OTHERS); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::operator_call(RefAdaAST _t) { RefAdaAST operator_call_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t473 = _t; RefAdaAST tmp272_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OPERATOR_SYMBOL); _t = _t->getFirstChild(); value_s(_t); _t = _retTree; _t = __t473; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::relation(RefAdaAST _t) { RefAdaAST relation_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IN: { RefAdaAST __t485 = _t; RefAdaAST tmp273_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IN); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; range_or_mark(_t); _t = _retTree; _t = __t485; _t = _t->getNextSibling(); break; } case NOT_IN: { RefAdaAST __t486 = _t; RefAdaAST tmp274_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NOT_IN); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; range_or_mark(_t); _t = _retTree; _t = __t486; _t = _t->getNextSibling(); break; } case EQ: { RefAdaAST __t487 = _t; RefAdaAST tmp275_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EQ); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t487; _t = _t->getNextSibling(); break; } case NE: { RefAdaAST __t488 = _t; RefAdaAST tmp276_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NE); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t488; _t = _t->getNextSibling(); break; } case LT_: { RefAdaAST __t489 = _t; RefAdaAST tmp277_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LT_); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t489; _t = _t->getNextSibling(); break; } case LE: { RefAdaAST __t490 = _t; RefAdaAST tmp278_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),LE); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t490; _t = _t->getNextSibling(); break; } case GT: { RefAdaAST __t491 = _t; RefAdaAST tmp279_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GT); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t491; _t = _t->getNextSibling(); break; } case GE: { RefAdaAST __t492 = _t; RefAdaAST tmp280_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),GE); _t = _t->getFirstChild(); simple_expression(_t); _t = _retTree; simple_expression(_t); _t = _retTree; _t = __t492; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case PLUS: case MINUS: case CONCAT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: case UNARY_MINUS: case UNARY_PLUS: { simple_expression(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::range_or_mark(RefAdaAST _t) { RefAdaAST range_or_mark_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case DOT_DOT: case RANGE_ATTRIBUTE_REFERENCE: { range(_t); _t = _retTree; break; } case IDENTIFIER: case DOT: case TIC: { subtype_mark(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::signed_term(RefAdaAST _t) { RefAdaAST signed_term_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case UNARY_PLUS: { RefAdaAST __t499 = _t; RefAdaAST tmp281_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),UNARY_PLUS); _t = _t->getFirstChild(); term(_t); _t = _retTree; _t = __t499; _t = _t->getNextSibling(); break; } case UNARY_MINUS: { RefAdaAST __t500 = _t; RefAdaAST tmp282_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),UNARY_MINUS); _t = _t->getFirstChild(); term(_t); _t = _retTree; _t = __t500; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case MOD: case NOT: case STAR: case DIV: case REM: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: { term(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::term(RefAdaAST _t) { RefAdaAST term_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case STAR: { RefAdaAST __t502 = _t; RefAdaAST tmp283_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),STAR); _t = _t->getFirstChild(); term(_t); _t = _retTree; factor(_t); _t = _retTree; _t = __t502; _t = _t->getNextSibling(); break; } case DIV: { RefAdaAST __t503 = _t; RefAdaAST tmp284_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DIV); _t = _t->getFirstChild(); term(_t); _t = _retTree; factor(_t); _t = _retTree; _t = __t503; _t = _t->getNextSibling(); break; } case MOD: { RefAdaAST __t504 = _t; RefAdaAST tmp285_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),MOD); _t = _t->getFirstChild(); term(_t); _t = _retTree; factor(_t); _t = _retTree; _t = __t504; _t = _t->getNextSibling(); break; } case REM: { RefAdaAST __t505 = _t; RefAdaAST tmp286_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),REM); _t = _t->getFirstChild(); term(_t); _t = _retTree; factor(_t); _t = _retTree; _t = __t505; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case NOT: case ABS: case EXPON: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: { factor(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::factor(RefAdaAST _t) { RefAdaAST factor_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case NOT: { RefAdaAST __t507 = _t; RefAdaAST tmp287_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NOT); _t = _t->getFirstChild(); primary(_t); _t = _retTree; _t = __t507; _t = _t->getNextSibling(); break; } case ABS: { RefAdaAST __t508 = _t; RefAdaAST tmp288_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ABS); _t = _t->getFirstChild(); primary(_t); _t = _retTree; _t = __t508; _t = _t->getNextSibling(); break; } case EXPON: { RefAdaAST __t509 = _t; RefAdaAST tmp289_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),EXPON); _t = _t->getFirstChild(); primary(_t); _t = _retTree; primary(_t); _t = _retTree; _t = __t509; _t = _t->getNextSibling(); break; } case IDENTIFIER: case DOT: case TIC: case CHARACTER_LITERAL: case CHAR_STRING: case NuLL: case NUMERIC_LIT: case ALLOCATOR: case INDEXED_COMPONENT: case OPERATOR_SYMBOL: case PARENTHESIZED_PRIMARY: { primary(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::primary(RefAdaAST _t) { RefAdaAST primary_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: case DOT: case TIC: case INDEXED_COMPONENT: { name_or_qualified(_t); _t = _retTree; break; } case PARENTHESIZED_PRIMARY: { parenthesized_primary(_t); _t = _retTree; break; } case ALLOCATOR: { allocator(_t); _t = _retTree; break; } case NuLL: { RefAdaAST tmp290_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NuLL); _t = _t->getNextSibling(); break; } case NUMERIC_LIT: { RefAdaAST tmp291_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),NUMERIC_LIT); _t = _t->getNextSibling(); break; } case CHARACTER_LITERAL: { RefAdaAST tmp292_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHARACTER_LITERAL); _t = _t->getNextSibling(); break; } case CHAR_STRING: { RefAdaAST tmp293_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHAR_STRING); _t = _t->getNextSibling(); break; } case OPERATOR_SYMBOL: { operator_call(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::name_or_qualified(RefAdaAST _t) { RefAdaAST name_or_qualified_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case IDENTIFIER: { RefAdaAST tmp294_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case DOT: { RefAdaAST __t513 = _t; RefAdaAST tmp295_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),DOT); _t = _t->getFirstChild(); name_or_qualified(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case ALL: { RefAdaAST tmp296_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALL); _t = _t->getNextSibling(); break; } case IDENTIFIER: { RefAdaAST tmp297_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),IDENTIFIER); _t = _t->getNextSibling(); break; } case CHARACTER_LITERAL: { RefAdaAST tmp298_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),CHARACTER_LITERAL); _t = _t->getNextSibling(); break; } case OPERATOR_SYMBOL: { RefAdaAST tmp299_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),OPERATOR_SYMBOL); _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t513; _t = _t->getNextSibling(); break; } case INDEXED_COMPONENT: { RefAdaAST __t515 = _t; RefAdaAST tmp300_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),INDEXED_COMPONENT); _t = _t->getFirstChild(); name_or_qualified(_t); _t = _retTree; value_s(_t); _t = _retTree; _t = __t515; _t = _t->getNextSibling(); break; } case TIC: { RefAdaAST __t516 = _t; RefAdaAST tmp301_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TIC); _t = _t->getFirstChild(); name_or_qualified(_t); _t = _retTree; { if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PARENTHESIZED_PRIMARY: { parenthesized_primary(_t); _t = _retTree; break; } case IDENTIFIER: case RANGE: case DIGITS: case DELTA: case ACCESS: { attribute_id(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } _t = __t516; _t = _t->getNextSibling(); break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::allocator(RefAdaAST _t) { RefAdaAST allocator_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t519 = _t; RefAdaAST tmp302_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),ALLOCATOR); _t = _t->getFirstChild(); name_or_qualified(_t); _t = _retTree; _t = __t519; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::subprogram_body(RefAdaAST _t) { RefAdaAST subprogram_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling if (_t == RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = ASTNULL; switch ( _t->getType()) { case PROCEDURE_BODY: { procedure_body(_t); _t = _retTree; break; } case FUNCTION_BODY: { function_body(_t); _t = _retTree; break; } default: { throw ANTLR_USE_NAMESPACE(antlr)NoViableAltException(ANTLR_USE_NAMESPACE(antlr)RefAST(_t)); } } } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::task_body(RefAdaAST _t) { RefAdaAST task_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t525 = _t; RefAdaAST tmp303_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),TASK_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; body_part(_t); _t = _retTree; _t = __t525; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::protected_body(RefAdaAST _t) { RefAdaAST protected_body_AST_in = (_t == RefAdaAST(ASTNULL)) ? RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) : _t; try { // for error handling RefAdaAST __t527 = _t; RefAdaAST tmp304_AST_in = _t; match(ANTLR_USE_NAMESPACE(antlr)RefAST(_t),PROTECTED_BODY); _t = _t->getFirstChild(); def_id(_t); _t = _retTree; prot_op_bodies_opt(_t); _t = _retTree; _t = __t527; _t = _t->getNextSibling(); } catch (ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex) { reportError(ex); if ( _t != RefAdaAST(ANTLR_USE_NAMESPACE(antlr)nullAST) ) _t = _t->getNextSibling(); } _retTree = _t; } void AdaStoreWalker::initializeASTFactory( ANTLR_USE_NAMESPACE(antlr)ASTFactory& ) { } const char* AdaStoreWalker::tokenNames[] = { "<0>", "EOF", "<2>", "NULL_TREE_LOOKAHEAD", "\"pragma\"", "IDENTIFIER", "SEMI", "LPAREN", "COMMA", "RPAREN", "RIGHT_SHAFT", "\"with\"", "DOT", "\"use\"", "\"type\"", "TIC", "\"range\"", "\"digits\"", "\"delta\"", "\"access\"", "\"private\"", "\"package\"", "\"body\"", "\"is\"", "\"procedure\"", "\"function\"", "\"new\"", "\"others\"", "PIPE", "DOT_DOT", "\"all\"", "COLON", "\"in\"", "\"out\"", "\"renames\"", "CHARACTER_LITERAL", "CHAR_STRING", "\"null\"", "\"record\"", "\"separate\"", "\"abstract\"", "\"return\"", "\"task\"", "\"protected\"", "BOX", "ASSIGN", "\"entry\"", "\"for\"", "\"end\"", "\"at\"", "\"mod\"", "\"subtype\"", "\"exception\"", "\"constant\"", "\"array\"", "\"of\"", "\"aliased\"", "\"case\"", "\"when\"", "\"tagged\"", "\"limited\"", "\"generic\"", "\"begin\"", "LT_LT", "GT_GT", "\"if\"", "\"then\"", "\"elsif\"", "\"else\"", "\"loop\"", "\"while\"", "\"reverse\"", "\"declare\"", "\"exit\"", "\"goto\"", "\"accept\"", "\"do\"", "\"delay\"", "\"until\"", "\"select\"", "\"abort\"", "\"or\"", "\"terminate\"", "\"raise\"", "\"requeue\"", "\"and\"", "\"xor\"", "\"not\"", "EQ", "NE", "LT_", "LE", "GT", "GE", "PLUS", "MINUS", "CONCAT", "STAR", "DIV", "\"rem\"", "\"abs\"", "EXPON", "NUMERIC_LIT", "ABORTABLE_PART", "ABORT_STATEMENT", "ACCEPT_ALTERNATIVE", "ACCEPT_STATEMENT", "ALLOCATOR", "ASSIGNMENT_STATEMENT", "ASYNCHRONOUS_SELECT", "ATTRIBUTE_DEFINITION_CLAUSE", "AT_CLAUSE", "BLOCK_STATEMENT", "CASE_STATEMENT", "CASE_STATEMENT_ALTERNATIVE", "CODE_STATEMENT", "COMPONENT_DECLARATION", "CONDITIONAL_ENTRY_CALL", "CONTEXT_CLAUSE", "DECLARATIVE_PART", "DEFINING_IDENTIFIER_LIST", "DELAY_ALTERNATIVE", "DELAY_STATEMENT", "DELTA_CONSTRAINT", "DIGITS_CONSTRAINT", "DISCRIMINANT_ASSOCIATION", "DISCRIMINANT_CONSTRAINT", "DISCRIMINANT_SPECIFICATION", "ENTRY_BODY", "ENTRY_CALL_ALTERNATIVE", "ENTRY_CALL_STATEMENT", "ENTRY_DECLARATION", "ENTRY_INDEX_SPECIFICATION", "ENUMERATION_REPESENTATION_CLAUSE", "EXCEPTION_DECLARATION", "EXCEPTION_HANDLER", "EXCEPTION_RENAMING_DECLARATION", "EXIT_STATEMENT", "FORMAL_PACKAGE_DECLARATION", "GENERIC_FORMAL_PART", "GENERIC_PACKAGE_DECLARATION", "GOTO_STATEMENT", "HANDLED_SEQUENCE_OF_STATEMENTS", "HANDLED_STMTS_OPT", "IF_STATEMENT", "INCOMPLETE_TYPE_DECLARATION", "INDEXED_COMPONENT", "INDEX_CONSTRAINT", "LIBRARY_ITEM", "LOOP_STATEMENT", "NAME", "NULL_STATEMENT", "NUMBER_DECLARATION", "OBJECT_DECLARATION", "OBJECT_RENAMING_DECLARATION", "OPERATOR_SYMBOL", "PACKAGE_BODY", "PACKAGE_BODY_STUB", "PACKAGE_RENAMING_DECLARATION", "PACKAGE_SPECIFICATION", "PARAMETER_SPECIFICATION", "PRIVATE_EXTENSION_DECLARATION", "PRIVATE_TYPE_DECLARATION", "PROTECTED_BODY", "PROTECTED_BODY_STUB", "PROTECTED_TYPE_DECLARATION", "RAISE_STATEMENT", "RANGE_ATTRIBUTE_REFERENCE", "RECORD_REPRESENTATION_CLAUSE", "REQUEUE_STATEMENT", "RETURN_STATEMENT", "SELECTIVE_ACCEPT", "SEQUENCE_OF_STATEMENTS", "SINGLE_PROTECTED_DECLARATION", "SINGLE_TASK_DECLARATION", "STATEMENT", "SUBTYPE_DECLARATION", "SUBTYPE_INDICATION", "SUBTYPE_MARK", "SUBUNIT", "TASK_BODY", "TASK_BODY_STUB", "TASK_TYPE_DECLARATION", "TERMINATE_ALTERNATIVE", "TIMED_ENTRY_CALL", "TRIGGERING_ALTERNATIVE", "USE_CLAUSE", "USE_TYPE_CLAUSE", "VARIANT", "VARIANT_PART", "WITH_CLAUSE", "ABSTRACT_FUNCTION_DECLARATION", "ABSTRACT_PROCEDURE_DECLARATION", "ACCESS_TO_FUNCTION_DECLARATION", "ACCESS_TO_OBJECT_DECLARATION", "ACCESS_TO_PROCEDURE_DECLARATION", "ARRAY_OBJECT_DECLARATION", "ARRAY_TYPE_DECLARATION", "AND_THEN", "BASIC_DECLARATIVE_ITEMS_OPT", "BLOCK_BODY", "BLOCK_BODY_OPT", "CALL_STATEMENT", "COMPONENT_CLAUSES_OPT", "COMPONENT_ITEMS", "COND_CLAUSE", "DECIMAL_FIXED_POINT_DECLARATION", "DECLARE_OPT", "DERIVED_RECORD_EXTENSION", "DISCRETE_SUBTYPE_DEF_OPT", "DISCRIMINANT_SPECIFICATIONS", "DISCRIM_PART_OPT", "ELSE_OPT", "ELSIFS_OPT", "END_ID_OPT", "ENTRY_INDEX_OPT", "ENUMERATION_TYPE_DECLARATION", "EXCEPT_HANDLER_PART_OPT", "EXTENSION_OPT", "FLOATING_POINT_DECLARATION", "FORMAL_DECIMAL_FIXED_POINT_DECLARATION", "FORMAL_DISCRETE_TYPE_DECLARATION", "FORMAL_FLOATING_POINT_DECLARATION", "FORMAL_FUNCTION_DECLARATION", "FORMAL_MODULAR_TYPE_DECLARATION", "FORMAL_ORDINARY_DERIVED_TYPE_DECLARATION", "FORMAL_ORDINARY_FIXED_POINT_DECLARATION", "FORMAL_PART_OPT", "FORMAL_PRIVATE_EXTENSION_DECLARATION", "FORMAL_PRIVATE_TYPE_DECLARATION", "FORMAL_PROCEDURE_DECLARATION", "FORMAL_SIGNED_INTEGER_TYPE_DECLARATION", "FUNCTION_BODY", "FUNCTION_BODY_STUB", "FUNCTION_DECLARATION", "FUNCTION_RENAMING_DECLARATION", "GENERIC_FUNCTION_DECLARATION", "GENERIC_FUNCTION_INSTANTIATION", "GENERIC_FUNCTION_RENAMING", "GENERIC_PACKAGE_INSTANTIATION", "GENERIC_PACKAGE_RENAMING", "GENERIC_PROCEDURE_DECLARATION", "GENERIC_PROCEDURE_INSTANTIATION", "GENERIC_PROCEDURE_RENAMING", "GUARD_OPT", "IDENTIFIER_COLON_OPT", "ID_OPT", "INIT_OPT", "ITERATION_SCHEME_OPT", "LABEL_OPT", "MARK_WITH_CONSTRAINT", "MODIFIERS", "MODULAR_TYPE_DECLARATION", "MOD_CLAUSE_OPT", "NOT_IN", "ORDINARY_DERIVED_TYPE_DECLARATION", "ORDINARY_FIXED_POINT_DECLARATION", "OR_ELSE", "OR_SELECT_OPT", "PARENTHESIZED_PRIMARY", "PRIVATE_DECLARATIVE_ITEMS_OPT", "PRIVATE_TASK_ITEMS_OPT", "PROCEDURE_BODY", "PROCEDURE_BODY_STUB", "PROCEDURE_DECLARATION", "PROCEDURE_RENAMING_DECLARATION", "PROT_MEMBER_DECLARATIONS", "PROT_OP_BODIES_OPT", "PROT_OP_DECLARATIONS", "PROT_PRIVATE_OPT", "RANGED_EXPRS", "RANGE_CONSTRAINT", "RECORD_TYPE_DECLARATION", "SELECTOR_NAMES_OPT", "SIGNED_INTEGER_TYPE_DECLARATION", "TASK_ITEMS_OPT", "UNARY_MINUS", "UNARY_PLUS", "VALUE", "VALUES", "VARIANTS", "COMMENT_INTRO", "OX", "TIC_OR_CHARACTER_LITERAL", "DIGIT", "EXPONENT", "EXTENDED_DIGIT", "BASED_INTEGER", "WS_", "COMMENT", "CHARACTER_STRING", 0 }; const unsigned long AdaStoreWalker::_tokenSet_0_data_[] = { 37920UL, 262201UL, 4293001216UL, 2175UL, 134479872UL, 0UL, 64UL, 1073741824UL, 3145738UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL }; // IDENTIFIER RIGHT_SHAFT DOT TIC "in" CHARACTER_LITERAL CHAR_STRING "null" // "mod" "or" "and" "xor" "not" EQ NE LT_ LE GT GE PLUS MINUS CONCAT STAR // DIV "rem" "abs" EXPON NUMERIC_LIT ALLOCATOR INDEXED_COMPONENT OPERATOR_SYMBOL // AND_THEN NOT_IN OR_ELSE PARENTHESIZED_PRIMARY UNARY_MINUS UNARY_PLUS const ANTLR_USE_NAMESPACE(antlr)BitSet AdaStoreWalker::_tokenSet_0(_tokenSet_0_data_,20); const unsigned long AdaStoreWalker::_tokenSet_1_data_[] = { 0UL, 0UL, 0UL, 49152UL, 3338801504UL, 2353094950UL, 151076927UL, 2416967168UL, 328577UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL }; // ATTRIBUTE_DEFINITION_CLAUSE AT_CLAUSE ENUMERATION_REPESENTATION_CLAUSE // EXCEPTION_DECLARATION EXCEPTION_RENAMING_DECLARATION GENERIC_PACKAGE_DECLARATION // INCOMPLETE_TYPE_DECLARATION NUMBER_DECLARATION OBJECT_DECLARATION OBJECT_RENAMING_DECLARATION // PACKAGE_RENAMING_DECLARATION PACKAGE_SPECIFICATION PRIVATE_EXTENSION_DECLARATION // PRIVATE_TYPE_DECLARATION PROTECTED_TYPE_DECLARATION RECORD_REPRESENTATION_CLAUSE // SINGLE_PROTECTED_DECLARATION SINGLE_TASK_DECLARATION SUBTYPE_DECLARATION // TASK_TYPE_DECLARATION USE_CLAUSE USE_TYPE_CLAUSE ABSTRACT_FUNCTION_DECLARATION // ABSTRACT_PROCEDURE_DECLARATION ACCESS_TO_FUNCTION_DECLARATION ACCESS_TO_OBJECT_DECLARATION // ACCESS_TO_PROCEDURE_DECLARATION ARRAY_OBJECT_DECLARATION ARRAY_TYPE_DECLARATION // DECIMAL_FIXED_POINT_DECLARATION DERIVED_RECORD_EXTENSION ENUMERATION_TYPE_DECLARATION // FLOATING_POINT_DECLARATION FUNCTION_BODY_STUB FUNCTION_DECLARATION FUNCTION_RENAMING_DECLARATION // GENERIC_FUNCTION_DECLARATION GENERIC_FUNCTION_INSTANTIATION GENERIC_FUNCTION_RENAMING // GENERIC_PACKAGE_INSTANTIATION GENERIC_PACKAGE_RENAMING GENERIC_PROCEDURE_DECLARATION // GENERIC_PROCEDURE_INSTANTIATION GENERIC_PROCEDURE_RENAMING MODULAR_TYPE_DECLARATION // ORDINARY_DERIVED_TYPE_DECLARATION ORDINARY_FIXED_POINT_DECLARATION PROCEDURE_BODY_STUB // PROCEDURE_DECLARATION PROCEDURE_RENAMING_DECLARATION RECORD_TYPE_DECLARATION // SIGNED_INTEGER_TYPE_DECLARATION const ANTLR_USE_NAMESPACE(antlr)BitSet AdaStoreWalker::_tokenSet_1(_tokenSet_1_data_,20); const unsigned long AdaStoreWalker::_tokenSet_2_data_[] = { 939627552UL, 262201UL, 4293001216UL, 2175UL, 134479872UL, 0UL, 64UL, 1073741824UL, 3145738UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL }; // IDENTIFIER RIGHT_SHAFT DOT TIC "range" "others" PIPE DOT_DOT "in" CHARACTER_LITERAL // CHAR_STRING "null" "mod" "or" "and" "xor" "not" EQ NE LT_ LE GT GE PLUS // MINUS CONCAT STAR DIV "rem" "abs" EXPON NUMERIC_LIT ALLOCATOR INDEXED_COMPONENT // OPERATOR_SYMBOL AND_THEN NOT_IN OR_ELSE PARENTHESIZED_PRIMARY UNARY_MINUS // UNARY_PLUS const ANTLR_USE_NAMESPACE(antlr)BitSet AdaStoreWalker::_tokenSet_2(_tokenSet_2_data_,20); const unsigned long AdaStoreWalker::_tokenSet_3_data_[] = { 16UL, 0UL, 0UL, 49152UL, 40UL, 256UL, 0UL, 1024UL, 256UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL }; // "pragma" ATTRIBUTE_DEFINITION_CLAUSE AT_CLAUSE ENTRY_DECLARATION ENUMERATION_REPESENTATION_CLAUSE // RECORD_REPRESENTATION_CLAUSE FUNCTION_DECLARATION PROCEDURE_DECLARATION const ANTLR_USE_NAMESPACE(antlr)BitSet AdaStoreWalker::_tokenSet_3(_tokenSet_3_data_,20); const unsigned long AdaStoreWalker::_tokenSet_4_data_[] = { 36896UL, 0UL, 0UL, 0UL, 262144UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL }; // IDENTIFIER DOT TIC INDEXED_COMPONENT const ANTLR_USE_NAMESPACE(antlr)BitSet AdaStoreWalker::_tokenSet_4(_tokenSet_4_data_,12);