| /* translation of file(s) |
| "abs.k" |
| "main.k" |
| "parse.k" |
| "error.k" |
| "occur.k" |
| "util.k" |
| "gen.k" |
| "gutil.k" |
| "pat.k" |
| */ |
| /* generated by: |
| * @(#)$Author$ |
| */ |
| #define KC_TYPES |
| |
| #include "k.h" |
| #include <stdio.h> |
| #include <ctype.h> |
| #include <string> |
| #include <sys/types.h> |
| #include <stdlib.h> |
| |
| #ifdef _MSC_VER |
| #pragma warning( disable : 4786 ) |
| #endif |
| #include <new> |
| #include <set> |
| #include <list> |
| #include <algorithm> |
| |
| #if !defined(USE_HASHSET) && (defined(__GNUC__) || defined(__ICC) || defined(__ECC)) \ |
| && !defined(DONT_USE_HASHSET) |
| # define USE_HASHSET |
| #endif |
| #ifdef USE_HASHSET |
| # if defined(__GNUC__) && __GNUC__>2 |
| # include <ext/hash_set> |
| # else |
| # include <hash_set> |
| # endif |
| #endif |
| |
| using namespace std; |
| |
| namespace kc { |
| |
| inline bool |
| ht_less(casestring p1, casestring p2){ |
| return kc_strcmp(p1->name, p2->name)<0; |
| } |
| |
| inline bool |
| ht_less(nocasestring p1, nocasestring p2){ |
| return kc_strcasecmp(p1->name, p2->name)<0; |
| } |
| |
| inline bool |
| ht_less(real p1, real p2){ |
| return p1->value < p2->value; |
| } |
| |
| inline bool |
| ht_less(integer p1, integer p2){ |
| return p1->value < p2->value; |
| } |
| |
| inline bool |
| ht_less(voidptr p1, voidptr p2){ |
| return p1->pointer < p2->pointer; |
| } |
| |
| bool |
| ht_less(abstract_phylum p1, abstract_phylum p2) |
| { |
| enum_operators prod_sel=p1->prod_sel(); |
| enum_operators prod_sel2=p2->prod_sel(); |
| if(prod_sel<prod_sel2) |
| return true; |
| if(prod_sel>prod_sel2) |
| return false; |
| switch(prod_sel) { |
| case sel_NoCaseStr: |
| return ht_less(static_cast<nocasestring>(p1),static_cast<nocasestring>(p2)); |
| case sel__Str: |
| return ht_less(static_cast<casestring>(p1),static_cast<casestring>(p2)); |
| case sel__Real: |
| return ht_less(static_cast<real>(p1),static_cast<real>(p2)); |
| case sel__Int: |
| return ht_less(static_cast<integer>(p1),static_cast<integer>(p2)); |
| case sel__VoidPtr: |
| return ht_less(static_cast<voidptr>(p1),static_cast<voidptr>(p2)); |
| default: { |
| int i=0; |
| bool still_unique = kc_storageclass_still_uniq[phylum_info[p1->phylum()].uniq_stored]; |
| abstract_phylum sub1=0; |
| do { |
| sub1=p1->subphylum(i); |
| abstract_phylum sub2=p2->subphylum(i); |
| if(still_unique) { |
| if(sub1<sub2) |
| return true; |
| if(sub2<sub1) |
| return false; |
| } |
| else { |
| if(ht_less(sub1, sub2)) |
| return true; |
| if(ht_less(sub2, sub1)) |
| return false; |
| } |
| ++i; |
| } while(sub1); |
| } |
| } |
| return false; |
| } |
| |
| template<typename T> |
| class phylum_less : std::binary_function<T, T, bool> |
| { |
| public: |
| bool operator()(const T& X, const T& Y) const |
| { return ht_less(X,Y); } |
| }; |
| |
| inline void deletefun(c_abstract_phylum t){ |
| delete const_cast<abstract_phylum>(t); |
| } |
| |
| |
| #ifdef USE_HASHSET |
| struct hashitem { |
| size_t hashvalue; |
| casestring contents; |
| hashitem(casestring cs): contents(cs) { |
| unsigned long h = 0; |
| kc_char const *s = cs->name; |
| for ( ; *s; ++s) |
| h = 5*h + *s; |
| hashvalue=(size_t)h; |
| } |
| }; |
| |
| inline void deletefunhashitem(hashitem t) { |
| delete t.contents; |
| } |
| |
| # ifdef __GNUC__ |
| struct eq_hashitem { bool operator()(hashitem hi1, hashitem hi2) const { |
| return kc_strcmp(hi1.contents->name, hi2.contents->name) == 0; } }; |
| |
| struct hash_hashitem { size_t operator()(hashitem hi) const { |
| return hi.hashvalue; } }; |
| |
| # else |
| struct comp_hashitem { |
| enum { bucket_size = 4, min_buckets = 8 }; |
| // bucket_size and min_buckets are just guesses |
| size_t operator()(const hashitem hi) const { |
| return hi.hashvalue; } |
| bool operator()(const hashitem hi1, const hashitem hi2) const { |
| return kc_strcmp(hi1.contents->name, hi2.contents->name) < 0; } |
| }; |
| # endif // Whether gcc or icc |
| #endif // Whether hash or not |
| |
| struct hashtable_level |
| { |
| hashtable_level(bool cod = true): clean_on_destruction(cod) { } |
| void clear(bool free_entries=true) { |
| if(free_entries) |
| clear_entries(); |
| _casestring.clear(); |
| _nocasestring.clear(); |
| _integer.clear(); |
| _real.clear(); |
| _voidptr.clear(); |
| _abstract_phylum.clear(); |
| } |
| void clear_entries() { |
| #ifdef USE_HASHSET |
| std::for_each(_casestring.begin(),_casestring.end(),deletefunhashitem); |
| #else |
| std::for_each(_casestring.begin(),_casestring.end(),deletefun); |
| #endif |
| std::for_each(_nocasestring.begin(),_nocasestring.end(),deletefun); |
| std::for_each(_integer.begin(),_integer.end(),deletefun); |
| std::for_each(_real.begin(),_real.end(),deletefun); |
| std::for_each(_voidptr.begin(),_voidptr.end(),deletefun); |
| std::for_each(_abstract_phylum.begin(),_abstract_phylum.end(),deletefun); |
| } |
| ~hashtable_level() { |
| clear(clean_on_destruction); |
| } |
| abstract_phylum check_insert(abstract_phylum t) { |
| return *_abstract_phylum.insert(t).first; |
| } |
| casestring check_insert(casestring t) { |
| #ifdef USE_HASHSET |
| return (*_casestring.insert(hashitem(t)).first).contents; |
| #else |
| return *_casestring.insert(t).first; |
| #endif |
| } |
| nocasestring check_insert(nocasestring t) { |
| return *_nocasestring.insert(t).first; |
| } |
| integer check_insert(integer t) { |
| return *_integer.insert(t).first; |
| } |
| real check_insert(real t) { |
| return *_real.insert(t).first; |
| } |
| voidptr check_insert(voidptr t) { |
| return *_voidptr.insert(t).first; |
| } |
| private: |
| bool clean_on_destruction; |
| #ifdef USE_HASHSET |
| # ifdef __GNUC__ |
| # if __GNUC__==2 || (__GNUC__==3 && __GNUC_MINOR__==0) |
| std::hash_set<hashitem, hash_hashitem, eq_hashitem> _casestring; |
| # else |
| __gnu_cxx::hash_set<hashitem, hash_hashitem, eq_hashitem> _casestring; |
| # endif |
| # else |
| std::hash_set<hashitem, comp_hashitem> _casestring; |
| # endif |
| #else |
| std::set<casestring, phylum_less<casestring> > _casestring; |
| #endif |
| std::set<nocasestring, phylum_less<nocasestring> > _nocasestring; |
| std::set<integer, phylum_less<integer> > _integer; |
| std::set<real, phylum_less<real> > _real; |
| std::set<voidptr, phylum_less<voidptr> > _voidptr; |
| std::set<abstract_phylum, phylum_less<abstract_phylum> > _abstract_phylum; |
| }; |
| |
| class hashtable_stack: public std::list<hashtable_level> { |
| public: |
| hashtable_stack(): _pos(begin()) { } |
| |
| void inc_level() { _pos=insert(_pos, hashtable_level()); } |
| void dec_level() { if(valid() && _pos!=end()) ++_pos; } |
| void free_level() { if(_pos!=begin()) { erase(begin(),_pos);_pos=begin(); } } |
| |
| bool valid() const { return !empty(); } |
| hashtable_level& get_level() { return *_pos; } |
| |
| template<typename T> |
| T check_insert(T t) { |
| return dynamic_cast<T>((*_pos).check_insert(t)); |
| } |
| private: |
| iterator _pos; |
| }; |
| |
| class hashtable_struct_t { |
| public: |
| // don't clean _static_level on destruction (program ends) |
| hashtable_struct_t(): _static_level(false), _to_be_freed(false), _dynamic(false) { } |
| |
| template <typename T> |
| T ht_check_insert(T t) { |
| if(_dynamic && _dynamic_level.valid()) |
| return _dynamic_level.check_insert(t); |
| else |
| return dynamic_cast<T>(_static_level.check_insert(t)); |
| } |
| void ht_static() {_dynamic=false; } |
| void ht_dynamic() { |
| _dynamic=true; |
| if(!_dynamic_level.valid()) |
| _dynamic_level.inc_level(); |
| } |
| void ht_inc_level() { _dynamic_level.inc_level(); } |
| void ht_dec_level() { _dynamic_level.dec_level(); } |
| void ht_free_level() { _dynamic_level.free_level(); } |
| void ht_clear() { _static_level.clear(); _dynamic_level.clear(); _dynamic=false; } |
| |
| bool to_be_freed() { return _to_be_freed; } |
| void set_to_be_freed(bool b=true) { _to_be_freed=b; } |
| private: |
| hashtable_level _static_level; |
| hashtable_stack _dynamic_level; |
| bool _to_be_freed; /* should be true for dynamic, false for statically allocated structures */ |
| bool _dynamic; |
| }; |
| |
| impl_nocasestring_NoCaseStr::impl_nocasestring_NoCaseStr(const kc_char* _name) : name(_name) { } |
| void impl_nocasestring_NoCaseStr::make_own(int length) { |
| kc_char *newname=new kc_char[length+1]; |
| for (int i=0; i < length && name[i]; ++i) |
| newname[i] = kc_tolower(name[i]); |
| newname[length]=0; |
| name=newname; |
| } |
| |
| impl_casestring__Str::impl_casestring__Str(const kc_char* _name) : name(_name) { } |
| void impl_casestring__Str::make_own(int length) { |
| kc_char *newname=kc_strncpy(new kc_char[length+1],name,length); |
| newname[length]=0; |
| name=newname; |
| } |
| abstract_phylum impl_bindingidmark_BindingIdMark::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return uniqID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_bindingidmarks::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return bindingidmark_1; |
| case 1: return bindingidmarks_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_countedphylumdeclaration_CountedPhylumdeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return uniqID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_countedphylumdeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return countedphylumdeclaration_1; |
| case 1: return countedphylumdeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_addedphylumdeclaration_AddedPhylumdeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return uniqID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_addedphylumdeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return addedphylumdeclaration_1; |
| case 1: return addedphylumdeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem6::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| case 2: return casestring_3; |
| case 3: return casestring_4; |
| case 4: return casestring_5; |
| case 5: return casestring_6; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem5::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| case 2: return casestring_3; |
| case 3: return casestring_4; |
| case 4: return casestring_5; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem4::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| case 2: return casestring_3; |
| case 3: return casestring_4; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem3int1::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| case 2: return casestring_3; |
| case 3: return integer_1; |
| case 4: return casestring_4; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem3::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| case 2: return casestring_3; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem2::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return casestring_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1storageoption1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return storageoption_1; |
| case 2: return casestring_2; |
| case 3: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1INT1ID1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return INT_1; |
| case 2: return casestring_2; |
| case 3: return ID_1; |
| case 4: return casestring_3; |
| case 5: return ID_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1ID1ID1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return ID_1; |
| case 2: return casestring_2; |
| case 3: return ID_2; |
| case 4: return casestring_3; |
| case 5: return ID_3; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1INT1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return INT_1; |
| case 2: return casestring_2; |
| case 3: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1int1::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return integer_1; |
| case 2: return casestring_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1INT::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1t1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return IDtype_1; |
| case 2: return casestring_2; |
| case 3: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1ID1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return ID_1; |
| case 2: return casestring_2; |
| case 3: return ID_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1we::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return withexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1tID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1ID::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_problem_Problem1::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_error_Warning::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fileline_1; |
| case 1: return problem_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_error_NonFatal::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fileline_1; |
| case 1: return problem_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_error_Fatal::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fileline_1; |
| case 1: return problem_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_baseclass_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return baseclass_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_baseclass_decl_BaseClassDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return baseclass_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_baseclass_declarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return baseclass_decl_1; |
| case 1: return baseclass_declarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_base_init_AcBaseInit::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ac_constant_expression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_base_init_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_base_init_1; |
| case 1: return ac_base_init_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_opt_base_init_list_AcYesBaseInit::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_base_init_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_constant_expression_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_constant_expression_1; |
| case 1: return ac_constant_expression_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_constant_expression_AcConstExpr::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_constant_expression_option_Yesac_constant_expression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_constant_expression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_abstract_declarator_AcDirAbsdeclFn::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_abstract_declarator_option_1; |
| case 1: return ac_parameter_type_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_abstract_declarator_AcDirAbsdeclArray::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_abstract_declarator_option_1; |
| case 1: return ac_constant_expression_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_abstract_declarator_AcDirAbsdeclPack::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_abstract_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_abstract_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_abstract_declarator_AcAbsdeclDirdecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_pointer_option_1; |
| case 1: return ac_direct_abstract_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_abstract_declarator_AcAbsdeclPointer::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_pointer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_identifier_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ac_identifier_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_parameter_declaration_AcParDeclAbsdecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifiers_1; |
| case 1: return ac_abstract_declarator_1; |
| case 2: return ac_constant_expression_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_parameter_declaration_AcParDeclDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifiers_1; |
| case 1: return ac_declarator_1; |
| case 2: return ac_constant_expression_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_parameter_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_parameter_declaration_1; |
| case 1: return ac_parameter_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_parameter_type_list_AcParList3Dot::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_parameter_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_parameter_type_list_AcParList::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_parameter_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_type_qualifier_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_type_qualifier_1; |
| case 1: return ac_type_qualifier_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_class_qualifier_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ac_class_qualifier_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_class_qualifier_help_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_declarator_1; |
| case 1: return ac_class_qualifier_help_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_operator_name_AcOperatorName::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_pointer_AcPointerCons::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_type_qualifier_list_1; |
| case 1: return ac_pointer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_pointer_AcPointerNil::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_type_qualifier_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_pointer_option_Yespointer::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_pointer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcOperatorDeclId::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_operator_name_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcConvOperatorDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ID_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcMemberDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ID_2; |
| case 2: return ac_constant_expression_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcQualifiedDeclProto::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_class_qualifier_list_1; |
| case 1: return ac_direct_declarator_1; |
| case 2: return ac_parameter_type_list_1; |
| case 3: return ac_type_qualifier_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcDirectDeclProto::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_declarator_1; |
| case 1: return ac_parameter_type_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcDirectDeclArray::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_direct_declarator_1; |
| case 1: return ac_constant_expression_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcDirectDeclPack::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_direct_declarator_AcDirectDeclId::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declarator_AcDeclarator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_pointer_option_1; |
| case 1: return ac_ref_option_1; |
| case 2: return ac_direct_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_init_declarator_AcInitDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declarator_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_init_declarator_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_init_declarator_1; |
| case 1: return ac_init_declarator_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_type_specifier_AcTypeSpec::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_specifier_AcDeclSpecTypeQual::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_type_qualifier_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_specifier_AcDeclSpecTypeSpec::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_type_specifier_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_specifier_AcDeclSpecStorageSpec::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_storage_class_specifier_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_specifiers::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifier_1; |
| case 1: return ac_declaration_specifiers_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_list::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_1; |
| case 1: return ac_declaration_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ac_declaration_AcDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifiers_1; |
| case 1: return ac_init_declarator_list_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparsedeclinfo_Unparsedeclinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternrepresentation_1; |
| case 1: return patternrepresentation_2; |
| case 2: return unparseclause_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparsedeclsinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return unparsedeclinfo_1; |
| case 1: return unparsedeclsinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseviewinfo_Unparseviewinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return unparsedeclsinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseviewsinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return unparseviewinfo_1; |
| case 1: return unparseviewsinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriteviewinfo_Rewriteviewinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return rewriterulesinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriteviewsinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return rewriteviewinfo_1; |
| case 1: return rewriteviewsinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withcaseinfo_Withcaseinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternrepresentation_1; |
| case 1: return patternrepresentation_2; |
| case 2: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withcasesinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return withcaseinfo_1; |
| case 1: return withcasesinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriteruleinfo_Rewriteruleinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternrepresentation_1; |
| case 1: return patternrepresentation_2; |
| case 2: return rewriteclause_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriterulesinfo::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return rewriteruleinfo_1; |
| case 1: return rewriterulesinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_argsnumbers::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| case 1: return argsnumbers_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_paths::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return paths_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_path::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| case 1: return path_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRIntLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRStringLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRWildcard::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRNonLeafBinding::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return ID_1; |
| case 2: return patternrepresentation_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRUserPredicate::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PROperPredicate::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRVarPredicate::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return paths_1; |
| case 1: return ID_1; |
| case 2: return patternrepresentation_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_elem_patternrepresentation_PRBinding::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return path_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternrepresentation::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return elem_patternrepresentation_1; |
| case 1: return patternrepresentation_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternrepresentations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternrepresentation_1; |
| case 1: return patternrepresentations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_variables::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return variables_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_phyla::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return phyla_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_operators::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return operators_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITLanguageName::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITPatternVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return integer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITUserFunction::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fnclass_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITUserOperator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternative_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITPredefinedOperator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternative_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITUserPhylum::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return phylumdeclaration_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_IDtype_ITPredefinedPhylum::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return phylumdeclaration_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_scopetypefileline_ScopeTypeFileLine::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| case 1: return IDtype_1; |
| case 2: return casestring_1; |
| case 3: return integer_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_scopetypefilelinestack::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return scopetypefileline_1; |
| case 1: return scopetypefilelinestack_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_languagenames::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return languagenames_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_languageoption_LanguageList::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return languagenames_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_viewnameoption_YesViewname::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpattributes::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return unpattributes_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpsubterm_UnpCastedVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ID_2; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpsubterm_UnpDollarvarAttr::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| case 1: return unpattributes_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpsubterm_UnpSubAttr::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return unpattributes_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpsubterm_UnpDollarvarTerm::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unpsubterm_UnpSubTerm::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitem_UViewVarDecl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ID_2; |
| case 2: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitem_UnpBody::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return languageoption_1; |
| case 1: return unparseitems_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitem_UnpCtext::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return languageoption_1; |
| case 1: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitem_UnpSubexpr::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return languageoption_1; |
| case 1: return unpsubterm_1; |
| case 2: return viewnameoption_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitem_UnpStr::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return languageoption_1; |
| case 1: return CexpressionDQ_1; |
| case 2: return viewnameoption_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseitems::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return unparseitem_1; |
| case 1: return unparseitems_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_viewnames::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return viewnames_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseclause_UnparseClause::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return viewnames_1; |
| case 1: return unparseitems_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparseclauses::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return unparseclause_1; |
| case 1: return unparseclauses_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparsedeclaration_UnparseDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return outmostpatterns_1; |
| case 1: return unparseclauses_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_unparsedeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return unparsedeclaration_1; |
| case 1: return unparsedeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withcase_Withcase::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchains_1; |
| case 1: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withcases::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return withcase_1; |
| case 1: return withcases_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withexpression_WECexpression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withexpression_WEVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_withexpressions::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return withexpression_1; |
| case 1: return withexpressions_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_contextinfo_InForeachContext::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchain_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_foreach_after_ForeachAfter::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchain_1; |
| case 1: return idCexpressions_1; |
| case 2: return withexpressions_1; |
| case 3: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextWithexpression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return withexpressions_1; |
| case 1: return withcases_1; |
| case 2: return contextinfo_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextForeachexpression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchain_1; |
| case 1: return idCexpressions_1; |
| case 2: return withexpressions_1; |
| case 3: return Ctext_1; |
| case 4: return foreach_after_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextCbody::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextCexpressionSQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionSQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextCexpressionDQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextNl::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextDollarVar::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext_elem_CTextLine::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctext::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Ctext_elem_1; |
| case 1: return Ctext_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fnclass_StaticFn::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fndeclaration_AcMemberDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifiers_1; |
| case 1: return ac_declarator_1; |
| case 2: return ac_constant_expression_option_1; |
| case 3: return fnclass_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fndeclaration_FnAcDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ac_declaration_specifiers_1; |
| case 1: return ac_declarator_1; |
| case 2: return ac_declaration_list_1; |
| case 3: return ac_opt_base_init_list_1; |
| case 4: return Ctext_1; |
| case 5: return ID_1; |
| case 6: return fnclass_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fndeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fndeclaration_1; |
| case 1: return fndeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fnfile_FnFile::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_fnfiles::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return fnfile_1; |
| case 1: return fnfiles_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_terms::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return term_1; |
| case 1: return terms_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TIntLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TStringLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TCTerm::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionSQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TMemberVarDot::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return term_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TMemberVar::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return term_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TMethodDot::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return term_1; |
| case 1: return ID_1; |
| case 2: return terms_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TMethod::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return term_1; |
| case 1: return ID_1; |
| case 2: return terms_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TOperator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return terms_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_term_TVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patterns::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return pattern_1; |
| case 1: return patterns_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_pattern_PIntLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_pattern_PStringLiteral::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_pattern_PNonLeafVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return pattern_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_pattern_POperator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return patterns_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_pattern_PVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpattern_OPDefault::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpattern_OPWildcard::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpattern_OPNonLeafVariable::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return outmostpattern_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpattern_OPOperator::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return patterns_1; |
| case 2: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpattern_OPOperatorWildcard::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternchainitem_PatternchainitemDollarid::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternchainitem_PatternchainitemGroup::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchains_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternchainitem_PatternchainitemOutmost::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return outmostpattern_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_outmostpatterns::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return outmostpattern_1; |
| case 1: return outmostpatterns_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternchain::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchainitem_1; |
| case 1: return patternchain_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_patternchains::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return patternchain_1; |
| case 1: return patternchains_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriteclause_RewriteClause::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return viewnames_1; |
| case 1: return term_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rewriteclauses::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return rewriteclause_1; |
| case 1: return rewriteclauses_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rwdeclaration_RwDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return outmostpatterns_1; |
| case 1: return rewriteclauses_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_rwdeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return rwdeclaration_1; |
| case 1: return rwdeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_includedeclaration_IncludeDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_includedeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return includedeclaration_1; |
| case 1: return includedeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_includefile_IncludeFile::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_includefiles::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return includefile_1; |
| case 1: return includefiles_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ctexts::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Ctext_1; |
| case 1: return Ctexts_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_idCexpression_IdCexpression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_idCexpressions::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return idCexpression_1; |
| case 1: return idCexpressions_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_CexpressionSQ_elem_CExpressionSQPart::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_CexpressionSQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionSQ_elem_1; |
| case 1: return CexpressionSQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_CexpressionDQ_elem_CExpressionDQPart::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_CexpressionDQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionDQ_elem_1; |
| case 1: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionArray::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionPack::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionSQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionSQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionDQ::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return CexpressionDQ_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionDollarvar::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return INT_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression_elem_CExpressionPart::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Cexpression::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_elem_1; |
| case 1: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_attribute_initialisation_option_Yesattribute_initialisation::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return Cexpression_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_attribute_Attribute::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return ID_2; |
| case 2: return attribute_initialisation_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_attributes::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return attribute_1; |
| case 1: return attributes_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_Ccode_option_CcodeOption::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return attributes_1; |
| case 1: return Ctexts_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_argument_Argument::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return integer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_arguments::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return arguments_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_alternative_Alternative::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return arguments_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_alternatives::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternative_1; |
| case 1: return alternatives_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_productionblock_PredefinedAlternatives::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternatives_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_productionblock_NonlistAlternatives::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternatives_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_productionblock_ListAlternatives::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return alternatives_1; |
| case 1: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_storageclasses::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return storageclasses_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_storageoption_PositiveStorageOption::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_storageoption_NegativeStorageOption::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_phylumdeclaration_PhylumDeclaration::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return storageoption_1; |
| case 2: return productionblock_1; |
| case 3: return Ccode_option_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_phylumnames::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return ID_1; |
| case 1: return phylumnames_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_phylumdeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return phylumdeclaration_1; |
| case 1: return phylumdeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_phylumdeclarationsroot_PhylumDeclarations::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return phylumdeclarations_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_STRING_String::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_INT_Int::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return integer_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_ID_Id::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return uniqID_1; |
| } |
| return 0; |
| } |
| abstract_phylum impl_uniqID_Str::subphylum(int no) const |
| { |
| switch(no){ |
| case 0: return casestring_1; |
| } |
| return 0; |
| } |
| void impl_bindingidmark_BindingIdMark::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = uniqID_1 = dynamic_cast<uniqID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_bindingidmarks::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = bindingidmark_1 = dynamic_cast<bindingidmark>(val);break; |
| case 1: newval = bindingidmarks_1 = dynamic_cast<bindingidmarks>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_countedphylumdeclaration_CountedPhylumdeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = uniqID_1 = dynamic_cast<uniqID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_countedphylumdeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = countedphylumdeclaration_1 = dynamic_cast<countedphylumdeclaration>(val);break; |
| case 1: newval = countedphylumdeclarations_1 = dynamic_cast<countedphylumdeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_addedphylumdeclaration_AddedPhylumdeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = uniqID_1 = dynamic_cast<uniqID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_addedphylumdeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = addedphylumdeclaration_1 = dynamic_cast<addedphylumdeclaration>(val);break; |
| case 1: newval = addedphylumdeclarations_1 = dynamic_cast<addedphylumdeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem6::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 2: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 3: newval = casestring_4 = dynamic_cast<casestring>(val);break; |
| case 4: newval = casestring_5 = dynamic_cast<casestring>(val);break; |
| case 5: newval = casestring_6 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem5::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 2: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 3: newval = casestring_4 = dynamic_cast<casestring>(val);break; |
| case 4: newval = casestring_5 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem4::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 2: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 3: newval = casestring_4 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem3int1::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 2: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 3: newval = integer_1 = dynamic_cast<integer>(val);break; |
| case 4: newval = casestring_4 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem3::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 2: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem2::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1storageoption1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = storageoption_1 = dynamic_cast<storageoption>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1INT1ID1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = INT_1 = dynamic_cast<INT>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 4: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 5: newval = ID_2 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1ID1ID1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_2 = dynamic_cast<ID>(val);break; |
| case 4: newval = casestring_3 = dynamic_cast<casestring>(val);break; |
| case 5: newval = ID_3 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1INT1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = INT_1 = dynamic_cast<INT>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1int1::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = integer_1 = dynamic_cast<integer>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1INT::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1t1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = IDtype_1 = dynamic_cast<IDtype>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1ID1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = casestring_2 = dynamic_cast<casestring>(val);break; |
| case 3: newval = ID_2 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1we::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = withexpression_1 = dynamic_cast<withexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1tID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1ID::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_problem_Problem1::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_error_Warning::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fileline_1 = dynamic_cast<fileline>(val);break; |
| case 1: newval = problem_1 = dynamic_cast<problem>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_error_NonFatal::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fileline_1 = dynamic_cast<fileline>(val);break; |
| case 1: newval = problem_1 = dynamic_cast<problem>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_error_Fatal::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fileline_1 = dynamic_cast<fileline>(val);break; |
| case 1: newval = problem_1 = dynamic_cast<problem>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_baseclass_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = baseclass_list_1 = dynamic_cast<baseclass_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_baseclass_decl_BaseClassDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = baseclass_list_1 = dynamic_cast<baseclass_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_baseclass_declarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = baseclass_decl_1 = dynamic_cast<baseclass_decl>(val);break; |
| case 1: newval = baseclass_declarations_1 = dynamic_cast<baseclass_declarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_base_init_AcBaseInit::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ac_constant_expression_1 = dynamic_cast<ac_constant_expression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_base_init_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_base_init_1 = dynamic_cast<ac_base_init>(val);break; |
| case 1: newval = ac_base_init_list_1 = dynamic_cast<ac_base_init_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_opt_base_init_list_AcYesBaseInit::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_base_init_list_1 = dynamic_cast<ac_base_init_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_constant_expression_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_constant_expression_1 = dynamic_cast<ac_constant_expression>(val);break; |
| case 1: newval = ac_constant_expression_list_1 = dynamic_cast<ac_constant_expression_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_constant_expression_AcConstExpr::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_constant_expression_option_Yesac_constant_expression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_constant_expression_1 = dynamic_cast<ac_constant_expression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_abstract_declarator_AcDirAbsdeclFn::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_abstract_declarator_option_1 = dynamic_cast<ac_direct_abstract_declarator_option>(val);break; |
| case 1: newval = ac_parameter_type_list_1 = dynamic_cast<ac_parameter_type_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_abstract_declarator_AcDirAbsdeclArray::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_abstract_declarator_option_1 = dynamic_cast<ac_direct_abstract_declarator_option>(val);break; |
| case 1: newval = ac_constant_expression_option_1 = dynamic_cast<ac_constant_expression_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_abstract_declarator_AcDirAbsdeclPack::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_abstract_declarator_1 = dynamic_cast<ac_abstract_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_abstract_declarator_1 = dynamic_cast<ac_direct_abstract_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_abstract_declarator_AcAbsdeclDirdecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_pointer_option_1 = dynamic_cast<ac_pointer_option>(val);break; |
| case 1: newval = ac_direct_abstract_declarator_1 = dynamic_cast<ac_direct_abstract_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_abstract_declarator_AcAbsdeclPointer::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_pointer_1 = dynamic_cast<ac_pointer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_identifier_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ac_identifier_list_1 = dynamic_cast<ac_identifier_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_parameter_declaration_AcParDeclAbsdecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| case 1: newval = ac_abstract_declarator_1 = dynamic_cast<ac_abstract_declarator>(val);break; |
| case 2: newval = ac_constant_expression_option_1 = dynamic_cast<ac_constant_expression_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_parameter_declaration_AcParDeclDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| case 1: newval = ac_declarator_1 = dynamic_cast<ac_declarator>(val);break; |
| case 2: newval = ac_constant_expression_option_1 = dynamic_cast<ac_constant_expression_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_parameter_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_parameter_declaration_1 = dynamic_cast<ac_parameter_declaration>(val);break; |
| case 1: newval = ac_parameter_list_1 = dynamic_cast<ac_parameter_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_parameter_type_list_AcParList3Dot::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_parameter_list_1 = dynamic_cast<ac_parameter_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_parameter_type_list_AcParList::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_parameter_list_1 = dynamic_cast<ac_parameter_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_type_qualifier_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_type_qualifier_1 = dynamic_cast<ac_type_qualifier>(val);break; |
| case 1: newval = ac_type_qualifier_list_1 = dynamic_cast<ac_type_qualifier_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_class_qualifier_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ac_class_qualifier_list_1 = dynamic_cast<ac_class_qualifier_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_class_qualifier_help_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_declarator_1 = dynamic_cast<ac_direct_declarator>(val);break; |
| case 1: newval = ac_class_qualifier_help_list_1 = dynamic_cast<ac_class_qualifier_help_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_operator_name_AcOperatorName::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_pointer_AcPointerCons::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_type_qualifier_list_1 = dynamic_cast<ac_type_qualifier_list>(val);break; |
| case 1: newval = ac_pointer_1 = dynamic_cast<ac_pointer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_pointer_AcPointerNil::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_type_qualifier_list_1 = dynamic_cast<ac_type_qualifier_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_pointer_option_Yespointer::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_pointer_1 = dynamic_cast<ac_pointer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcOperatorDeclId::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_operator_name_1 = dynamic_cast<ac_operator_name>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcConvOperatorDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ID_2 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcMemberDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ID_2 = dynamic_cast<ID>(val);break; |
| case 2: newval = ac_constant_expression_list_1 = dynamic_cast<ac_constant_expression_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcQualifiedDeclProto::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_class_qualifier_list_1 = dynamic_cast<ac_class_qualifier_list>(val);break; |
| case 1: newval = ac_direct_declarator_1 = dynamic_cast<ac_direct_declarator>(val);break; |
| case 2: newval = ac_parameter_type_list_1 = dynamic_cast<ac_parameter_type_list>(val);break; |
| case 3: newval = ac_type_qualifier_1 = dynamic_cast<ac_type_qualifier>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcDirectDeclProto::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_declarator_1 = dynamic_cast<ac_direct_declarator>(val);break; |
| case 1: newval = ac_parameter_type_list_1 = dynamic_cast<ac_parameter_type_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcDirectDeclArray::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_direct_declarator_1 = dynamic_cast<ac_direct_declarator>(val);break; |
| case 1: newval = ac_constant_expression_option_1 = dynamic_cast<ac_constant_expression_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcDirectDeclPack::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declarator_1 = dynamic_cast<ac_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_direct_declarator_AcDirectDeclId::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declarator_AcDeclarator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_pointer_option_1 = dynamic_cast<ac_pointer_option>(val);break; |
| case 1: newval = ac_ref_option_1 = dynamic_cast<ac_ref_option>(val);break; |
| case 2: newval = ac_direct_declarator_1 = dynamic_cast<ac_direct_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_init_declarator_AcInitDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declarator_1 = dynamic_cast<ac_declarator>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_init_declarator_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_init_declarator_1 = dynamic_cast<ac_init_declarator>(val);break; |
| case 1: newval = ac_init_declarator_list_1 = dynamic_cast<ac_init_declarator_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_type_specifier_AcTypeSpec::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_specifier_AcDeclSpecTypeQual::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_type_qualifier_1 = dynamic_cast<ac_type_qualifier>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_specifier_AcDeclSpecTypeSpec::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_type_specifier_1 = dynamic_cast<ac_type_specifier>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_specifier_AcDeclSpecStorageSpec::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_storage_class_specifier_1 = dynamic_cast<ac_storage_class_specifier>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_specifiers::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifier_1 = dynamic_cast<ac_declaration_specifier>(val);break; |
| case 1: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_list::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_1 = dynamic_cast<ac_declaration>(val);break; |
| case 1: newval = ac_declaration_list_1 = dynamic_cast<ac_declaration_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ac_declaration_AcDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| case 1: newval = ac_init_declarator_list_1 = dynamic_cast<ac_init_declarator_list>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparsedeclinfo_Unparsedeclinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| case 1: newval = patternrepresentation_2 = dynamic_cast<patternrepresentation>(val);break; |
| case 2: newval = unparseclause_1 = dynamic_cast<unparseclause>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparsedeclsinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = unparsedeclinfo_1 = dynamic_cast<unparsedeclinfo>(val);break; |
| case 1: newval = unparsedeclsinfo_1 = dynamic_cast<unparsedeclsinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseviewinfo_Unparseviewinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = unparsedeclsinfo_1 = dynamic_cast<unparsedeclsinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseviewsinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = unparseviewinfo_1 = dynamic_cast<unparseviewinfo>(val);break; |
| case 1: newval = unparseviewsinfo_1 = dynamic_cast<unparseviewsinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriteviewinfo_Rewriteviewinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = rewriterulesinfo_1 = dynamic_cast<rewriterulesinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriteviewsinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = rewriteviewinfo_1 = dynamic_cast<rewriteviewinfo>(val);break; |
| case 1: newval = rewriteviewsinfo_1 = dynamic_cast<rewriteviewsinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withcaseinfo_Withcaseinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| case 1: newval = patternrepresentation_2 = dynamic_cast<patternrepresentation>(val);break; |
| case 2: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withcasesinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = withcaseinfo_1 = dynamic_cast<withcaseinfo>(val);break; |
| case 1: newval = withcasesinfo_1 = dynamic_cast<withcasesinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriteruleinfo_Rewriteruleinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| case 1: newval = patternrepresentation_2 = dynamic_cast<patternrepresentation>(val);break; |
| case 2: newval = rewriteclause_1 = dynamic_cast<rewriteclause>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriterulesinfo::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = rewriteruleinfo_1 = dynamic_cast<rewriteruleinfo>(val);break; |
| case 1: newval = rewriterulesinfo_1 = dynamic_cast<rewriterulesinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_argsnumbers::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| case 1: newval = argsnumbers_1 = dynamic_cast<argsnumbers>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_paths::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = paths_1 = dynamic_cast<paths>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_path::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| case 1: newval = path_1 = dynamic_cast<path>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRIntLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRStringLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRWildcard::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRNonLeafBinding::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRUserPredicate::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PROperPredicate::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRVarPredicate::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = paths_1 = dynamic_cast<paths>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_elem_patternrepresentation_PRBinding::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = path_1 = dynamic_cast<path>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternrepresentation::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = elem_patternrepresentation_1 = dynamic_cast<elem_patternrepresentation>(val);break; |
| case 1: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternrepresentations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternrepresentation_1 = dynamic_cast<patternrepresentation>(val);break; |
| case 1: newval = patternrepresentations_1 = dynamic_cast<patternrepresentations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_variables::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = variables_1 = dynamic_cast<variables>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_phyla::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = phyla_1 = dynamic_cast<phyla>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_operators::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = operators_1 = dynamic_cast<operators>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITLanguageName::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITPatternVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = integer_1 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITUserFunction::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fnclass_1 = dynamic_cast<fnclass>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITUserOperator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternative_1 = dynamic_cast<alternative>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITPredefinedOperator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternative_1 = dynamic_cast<alternative>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITUserPhylum::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = phylumdeclaration_1 = dynamic_cast<phylumdeclaration>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_IDtype_ITPredefinedPhylum::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = phylumdeclaration_1 = dynamic_cast<phylumdeclaration>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_scopetypefileline_ScopeTypeFileLine::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| case 1: newval = IDtype_1 = dynamic_cast<IDtype>(val);break; |
| case 2: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| case 3: newval = integer_2 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_scopetypefilelinestack::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = scopetypefileline_1 = dynamic_cast<scopetypefileline>(val);break; |
| case 1: newval = scopetypefilelinestack_1 = dynamic_cast<scopetypefilelinestack>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_languagenames::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = languagenames_1 = dynamic_cast<languagenames>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_languageoption_LanguageList::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = languagenames_1 = dynamic_cast<languagenames>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_viewnameoption_YesViewname::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpattributes::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = unpattributes_1 = dynamic_cast<unpattributes>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpsubterm_UnpCastedVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ID_2 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpsubterm_UnpDollarvarAttr::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| case 1: newval = unpattributes_1 = dynamic_cast<unpattributes>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpsubterm_UnpSubAttr::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = unpattributes_1 = dynamic_cast<unpattributes>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpsubterm_UnpDollarvarTerm::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unpsubterm_UnpSubTerm::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitem_UViewVarDecl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ID_2 = dynamic_cast<ID>(val);break; |
| case 2: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitem_UnpBody::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = languageoption_1 = dynamic_cast<languageoption>(val);break; |
| case 1: newval = unparseitems_1 = dynamic_cast<unparseitems>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitem_UnpCtext::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = languageoption_1 = dynamic_cast<languageoption>(val);break; |
| case 1: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitem_UnpSubexpr::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = languageoption_1 = dynamic_cast<languageoption>(val);break; |
| case 1: newval = unpsubterm_1 = dynamic_cast<unpsubterm>(val);break; |
| case 2: newval = viewnameoption_1 = dynamic_cast<viewnameoption>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitem_UnpStr::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = languageoption_1 = dynamic_cast<languageoption>(val);break; |
| case 1: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| case 2: newval = viewnameoption_1 = dynamic_cast<viewnameoption>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseitems::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = unparseitem_1 = dynamic_cast<unparseitem>(val);break; |
| case 1: newval = unparseitems_1 = dynamic_cast<unparseitems>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_viewnames::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = viewnames_1 = dynamic_cast<viewnames>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseclause_UnparseClause::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = viewnames_1 = dynamic_cast<viewnames>(val);break; |
| case 1: newval = unparseitems_1 = dynamic_cast<unparseitems>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparseclauses::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = unparseclause_1 = dynamic_cast<unparseclause>(val);break; |
| case 1: newval = unparseclauses_1 = dynamic_cast<unparseclauses>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparsedeclaration_UnparseDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = outmostpatterns_1 = dynamic_cast<outmostpatterns>(val);break; |
| case 1: newval = unparseclauses_1 = dynamic_cast<unparseclauses>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_unparsedeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = unparsedeclaration_1 = dynamic_cast<unparsedeclaration>(val);break; |
| case 1: newval = unparsedeclarations_1 = dynamic_cast<unparsedeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withcase_Withcase::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchains_1 = dynamic_cast<patternchains>(val);break; |
| case 1: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withcases::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = withcase_1 = dynamic_cast<withcase>(val);break; |
| case 1: newval = withcases_1 = dynamic_cast<withcases>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withexpression_WECexpression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withexpression_WEVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_withexpressions::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = withexpression_1 = dynamic_cast<withexpression>(val);break; |
| case 1: newval = withexpressions_1 = dynamic_cast<withexpressions>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_contextinfo_InForeachContext::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchain_1 = dynamic_cast<patternchain>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_foreach_after_ForeachAfter::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchain_1 = dynamic_cast<patternchain>(val);break; |
| case 1: newval = idCexpressions_1 = dynamic_cast<idCexpressions>(val);break; |
| case 2: newval = withexpressions_1 = dynamic_cast<withexpressions>(val);break; |
| case 3: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextWithexpression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = withexpressions_1 = dynamic_cast<withexpressions>(val);break; |
| case 1: newval = withcases_1 = dynamic_cast<withcases>(val);break; |
| case 2: newval = contextinfo_1 = dynamic_cast<contextinfo>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextForeachexpression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchain_1 = dynamic_cast<patternchain>(val);break; |
| case 1: newval = idCexpressions_1 = dynamic_cast<idCexpressions>(val);break; |
| case 2: newval = withexpressions_1 = dynamic_cast<withexpressions>(val);break; |
| case 3: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| case 4: newval = foreach_after_1 = dynamic_cast<foreach_after>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextCbody::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextCexpressionSQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionSQ_1 = dynamic_cast<CexpressionSQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextCexpressionDQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextNl::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextDollarVar::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext_elem_CTextLine::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctext::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Ctext_elem_1 = dynamic_cast<Ctext_elem>(val);break; |
| case 1: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fnclass_StaticFn::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fndeclaration_AcMemberDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| case 1: newval = ac_declarator_1 = dynamic_cast<ac_declarator>(val);break; |
| case 2: newval = ac_constant_expression_option_1 = dynamic_cast<ac_constant_expression_option>(val);break; |
| case 3: newval = fnclass_1 = dynamic_cast<fnclass>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fndeclaration_FnAcDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ac_declaration_specifiers_1 = dynamic_cast<ac_declaration_specifiers>(val);break; |
| case 1: newval = ac_declarator_1 = dynamic_cast<ac_declarator>(val);break; |
| case 2: newval = ac_declaration_list_1 = dynamic_cast<ac_declaration_list>(val);break; |
| case 3: newval = ac_opt_base_init_list_1 = dynamic_cast<ac_opt_base_init_list>(val);break; |
| case 4: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| case 5: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 6: newval = fnclass_1 = dynamic_cast<fnclass>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fndeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fndeclaration_1 = dynamic_cast<fndeclaration>(val);break; |
| case 1: newval = fndeclarations_1 = dynamic_cast<fndeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fnfile_FnFile::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_fnfiles::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = fnfile_1 = dynamic_cast<fnfile>(val);break; |
| case 1: newval = fnfiles_1 = dynamic_cast<fnfiles>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_terms::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = term_1 = dynamic_cast<term>(val);break; |
| case 1: newval = terms_1 = dynamic_cast<terms>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TIntLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TStringLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TCTerm::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionSQ_1 = dynamic_cast<CexpressionSQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TMemberVarDot::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = term_1 = dynamic_cast<term>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TMemberVar::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = term_1 = dynamic_cast<term>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TMethodDot::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = term_1 = dynamic_cast<term>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = terms_1 = dynamic_cast<terms>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TMethod::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = term_1 = dynamic_cast<term>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 2: newval = terms_1 = dynamic_cast<terms>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TOperator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = terms_1 = dynamic_cast<terms>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_term_TVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patterns::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = pattern_1 = dynamic_cast<pattern>(val);break; |
| case 1: newval = patterns_1 = dynamic_cast<patterns>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_pattern_PIntLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_pattern_PStringLiteral::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_pattern_PNonLeafVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = pattern_1 = dynamic_cast<pattern>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_pattern_POperator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = patterns_1 = dynamic_cast<patterns>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_pattern_PVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpattern_OPDefault::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpattern_OPWildcard::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpattern_OPNonLeafVariable::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = outmostpattern_1 = dynamic_cast<outmostpattern>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpattern_OPOperator::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = patterns_1 = dynamic_cast<patterns>(val);break; |
| case 2: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpattern_OPOperatorWildcard::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternchainitem_PatternchainitemDollarid::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternchainitem_PatternchainitemGroup::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchains_1 = dynamic_cast<patternchains>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternchainitem_PatternchainitemOutmost::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = outmostpattern_1 = dynamic_cast<outmostpattern>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_outmostpatterns::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = outmostpattern_1 = dynamic_cast<outmostpattern>(val);break; |
| case 1: newval = outmostpatterns_1 = dynamic_cast<outmostpatterns>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternchain::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchainitem_1 = dynamic_cast<patternchainitem>(val);break; |
| case 1: newval = patternchain_1 = dynamic_cast<patternchain>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_patternchains::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = patternchain_1 = dynamic_cast<patternchain>(val);break; |
| case 1: newval = patternchains_1 = dynamic_cast<patternchains>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriteclause_RewriteClause::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = viewnames_1 = dynamic_cast<viewnames>(val);break; |
| case 1: newval = term_1 = dynamic_cast<term>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rewriteclauses::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = rewriteclause_1 = dynamic_cast<rewriteclause>(val);break; |
| case 1: newval = rewriteclauses_1 = dynamic_cast<rewriteclauses>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rwdeclaration_RwDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = outmostpatterns_1 = dynamic_cast<outmostpatterns>(val);break; |
| case 1: newval = rewriteclauses_1 = dynamic_cast<rewriteclauses>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_rwdeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = rwdeclaration_1 = dynamic_cast<rwdeclaration>(val);break; |
| case 1: newval = rwdeclarations_1 = dynamic_cast<rwdeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_includedeclaration_IncludeDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_includedeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = includedeclaration_1 = dynamic_cast<includedeclaration>(val);break; |
| case 1: newval = includedeclarations_1 = dynamic_cast<includedeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_includefile_IncludeFile::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_includefiles::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = includefile_1 = dynamic_cast<includefile>(val);break; |
| case 1: newval = includefiles_1 = dynamic_cast<includefiles>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ctexts::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Ctext_1 = dynamic_cast<Ctext>(val);break; |
| case 1: newval = Ctexts_1 = dynamic_cast<Ctexts>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_idCexpression_IdCexpression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_idCexpressions::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = idCexpression_1 = dynamic_cast<idCexpression>(val);break; |
| case 1: newval = idCexpressions_1 = dynamic_cast<idCexpressions>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_CexpressionSQ_elem_CExpressionSQPart::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_CexpressionSQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionSQ_elem_1 = dynamic_cast<CexpressionSQ_elem>(val);break; |
| case 1: newval = CexpressionSQ_1 = dynamic_cast<CexpressionSQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_CexpressionDQ_elem_CExpressionDQPart::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_CexpressionDQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionDQ_elem_1 = dynamic_cast<CexpressionDQ_elem>(val);break; |
| case 1: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionArray::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionPack::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionSQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionSQ_1 = dynamic_cast<CexpressionSQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionDQ::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = CexpressionDQ_1 = dynamic_cast<CexpressionDQ>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionDollarvar::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = INT_1 = dynamic_cast<INT>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression_elem_CExpressionPart::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Cexpression::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_elem_1 = dynamic_cast<Cexpression_elem>(val);break; |
| case 1: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_attribute_initialisation_option_Yesattribute_initialisation::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = Cexpression_1 = dynamic_cast<Cexpression>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_attribute_Attribute::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = ID_2 = dynamic_cast<ID>(val);break; |
| case 2: newval = attribute_initialisation_option_1 = dynamic_cast<attribute_initialisation_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_attributes::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = attribute_1 = dynamic_cast<attribute>(val);break; |
| case 1: newval = attributes_1 = dynamic_cast<attributes>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_Ccode_option_CcodeOption::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = attributes_1 = dynamic_cast<attributes>(val);break; |
| case 1: newval = Ctexts_1 = dynamic_cast<Ctexts>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_argument_Argument::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = integer_1 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_arguments::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = arguments_1 = dynamic_cast<arguments>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_alternative_Alternative::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = arguments_1 = dynamic_cast<arguments>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_alternatives::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternative_1 = dynamic_cast<alternative>(val);break; |
| case 1: newval = alternatives_1 = dynamic_cast<alternatives>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_productionblock_PredefinedAlternatives::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternatives_1 = dynamic_cast<alternatives>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_productionblock_NonlistAlternatives::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternatives_1 = dynamic_cast<alternatives>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_productionblock_ListAlternatives::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = alternatives_1 = dynamic_cast<alternatives>(val);break; |
| case 1: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_storageclasses::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = storageclasses_1 = dynamic_cast<storageclasses>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_storageoption_PositiveStorageOption::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_storageoption_NegativeStorageOption::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_phylumdeclaration_PhylumDeclaration::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = storageoption_1 = dynamic_cast<storageoption>(val);break; |
| case 2: newval = productionblock_1 = dynamic_cast<productionblock>(val);break; |
| case 3: newval = Ccode_option_1 = dynamic_cast<Ccode_option>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_phylumnames::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = ID_1 = dynamic_cast<ID>(val);break; |
| case 1: newval = phylumnames_1 = dynamic_cast<phylumnames>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_phylumdeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = phylumdeclaration_1 = dynamic_cast<phylumdeclaration>(val);break; |
| case 1: newval = phylumdeclarations_1 = dynamic_cast<phylumdeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_phylumdeclarationsroot_PhylumDeclarations::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = phylumdeclarations_1 = dynamic_cast<phylumdeclarations>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_STRING_String::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_INT_Int::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = integer_1 = dynamic_cast<integer>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_ID_Id::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = uniqID_1 = dynamic_cast<uniqID>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| void impl_uniqID_Str::set_subphylum(int no, abstract_phylum val) |
| { |
| abstract_phylum newval=0; |
| switch(no) { |
| case 0: newval = casestring_1 = dynamic_cast<casestring>(val);break; |
| } |
| assertNonNull(newval); |
| } |
| |
| void |
| copy_attributes(enum_phyla copyPhy, c_abstract_phylum kc_p1, abstract_phylum kc_p2) |
| { |
| switch(copyPhy) { |
| case phylum_uniqID: { |
| c_uniqID p1 = dynamic_cast<c_uniqID>(kc_p1); |
| uniqID p2 = dynamic_cast<uniqID>(kc_p2); |
| p2->type = p1->type; |
| p2->line = p1->line; |
| p2->file = p1->file; |
| p2->scopeinfo = p1->scopeinfo; |
| break; |
| } |
| case phylum_ID: { |
| c_ID p1 = dynamic_cast<c_ID>(kc_p1); |
| ID p2 = dynamic_cast<ID>(kc_p2); |
| p2->type = p1->type; |
| p2->named_subphylum = p1->named_subphylum; |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_INT: { |
| c_INT p1 = dynamic_cast<c_INT>(kc_p1); |
| INT p2 = dynamic_cast<INT>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_STRING: { |
| c_STRING p1 = dynamic_cast<c_STRING>(kc_p1); |
| STRING p2 = dynamic_cast<STRING>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_phylumdeclaration: { |
| c_phylumdeclaration p1 = dynamic_cast<c_phylumdeclaration>(kc_p1); |
| phylumdeclaration p2 = dynamic_cast<phylumdeclaration>(kc_p2); |
| p2->marked = p1->marked; |
| p2->additional_members = p1->additional_members; |
| p2->base_classes = p1->base_classes; |
| break; |
| } |
| case phylum_storageclasses: |
| dynamic_cast<storageclasses>(kc_p2)->phyla = dynamic_cast<c_storageclasses>(kc_p1)->phyla; |
| break; |
| case phylum_alternative: { |
| c_alternative p1 = dynamic_cast<c_alternative>(kc_p1); |
| alternative p2 = dynamic_cast<alternative>(kc_p2); |
| p2->rewriteinfo = p1->rewriteinfo; |
| p2->unparseinfo = p1->unparseinfo; |
| p2->additional_members = p1->additional_members; |
| p2->base_classes = p1->base_classes; |
| break; |
| } |
| case phylum_arguments: |
| dynamic_cast<arguments>(kc_p2)->seqnr = dynamic_cast<c_arguments>(kc_p1)->seqnr; |
| break; |
| case phylum_Cexpression: { |
| c_Cexpression p1 = dynamic_cast<c_Cexpression>(kc_p1); |
| Cexpression p2 = dynamic_cast<Cexpression>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_idCexpression: |
| dynamic_cast<idCexpression>(kc_p2)->id = dynamic_cast<c_idCexpression>(kc_p1)->id; |
| break; |
| case phylum_includefile: { |
| c_includefile p1 = dynamic_cast<c_includefile>(kc_p1); |
| includefile p2 = dynamic_cast<includefile>(kc_p2); |
| p2->inc_type = p1->inc_type; |
| p2->inc = p1->inc; |
| break; |
| } |
| case phylum_includedeclaration: { |
| c_includedeclaration p1 = dynamic_cast<c_includedeclaration>(kc_p1); |
| includedeclaration p2 = dynamic_cast<includedeclaration>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_patternchains: { |
| c_patternchains p1 = dynamic_cast<c_patternchains>(kc_p1); |
| patternchains p2 = dynamic_cast<patternchains>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_patternchain: { |
| c_patternchain p1 = dynamic_cast<c_patternchain>(kc_p1); |
| patternchain p2 = dynamic_cast<patternchain>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_patternchainitem: { |
| c_patternchainitem p1 = dynamic_cast<c_patternchainitem>(kc_p1); |
| patternchainitem p2 = dynamic_cast<patternchainitem>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| p2->type = p1->type; |
| break; |
| } |
| case phylum_outmostpattern: { |
| c_outmostpattern p1 = dynamic_cast<c_outmostpattern>(kc_p1); |
| outmostpattern p2 = dynamic_cast<outmostpattern>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| p2->type = p1->type; |
| break; |
| } |
| case phylum_term: { |
| c_term p1 = dynamic_cast<c_term>(kc_p1); |
| term p2 = dynamic_cast<term>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_fnfile: |
| dynamic_cast<fnfile>(kc_p2)->fns = dynamic_cast<c_fnfile>(kc_p1)->fns; |
| break; |
| case phylum_fndeclaration: { |
| c_fndeclaration p1 = dynamic_cast<c_fndeclaration>(kc_p1); |
| fndeclaration p2 = dynamic_cast<fndeclaration>(kc_p2); |
| p2->sorted = p1->sorted; |
| p2->last_line = p1->last_line; |
| p2->file = p1->file; |
| p2->is_attr = p1->is_attr; |
| break; |
| } |
| case phylum_Ctext: { |
| c_Ctext p1 = dynamic_cast<c_Ctext>(kc_p1); |
| Ctext p2 = dynamic_cast<Ctext>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_Ctext_elem: { |
| c_Ctext_elem p1 = dynamic_cast<c_Ctext_elem>(kc_p1); |
| Ctext_elem p2 = dynamic_cast<Ctext_elem>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_foreach_after: { |
| c_foreach_after p1 = dynamic_cast<c_foreach_after>(kc_p1); |
| foreach_after p2 = dynamic_cast<foreach_after>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_withexpressions: { |
| c_withexpressions p1 = dynamic_cast<c_withexpressions>(kc_p1); |
| withexpressions p2 = dynamic_cast<withexpressions>(kc_p2); |
| p2->type = p1->type; |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_withexpression: { |
| c_withexpression p1 = dynamic_cast<c_withexpression>(kc_p1); |
| withexpression p2 = dynamic_cast<withexpression>(kc_p2); |
| p2->type = p1->type; |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_withcases: |
| dynamic_cast<withcases>(kc_p2)->wcinfo = dynamic_cast<c_withcases>(kc_p1)->wcinfo; |
| break; |
| case phylum_withcase: |
| dynamic_cast<withcase>(kc_p2)->wcinfo = dynamic_cast<c_withcase>(kc_p1)->wcinfo; |
| break; |
| case phylum_unparsedeclaration: |
| dynamic_cast<unparsedeclaration>(kc_p2)->patternreps = dynamic_cast<c_unparsedeclaration>(kc_p1)->patternreps; |
| break; |
| case phylum_viewnames: |
| dynamic_cast<viewnames>(kc_p2)->is_extern = dynamic_cast<c_viewnames>(kc_p1)->is_extern; |
| break; |
| case phylum_unparseitem: |
| dynamic_cast<unparseitem>(kc_p2)->text_nr = dynamic_cast<c_unparseitem>(kc_p1)->text_nr; |
| break; |
| case phylum_fileline: { |
| c_fileline p1 = dynamic_cast<c_fileline>(kc_p1); |
| fileline p2 = dynamic_cast<fileline>(kc_p2); |
| p2->file = p1->file; |
| p2->line = p1->line; |
| break; |
| } |
| case phylum_elem_patternrepresentation: { |
| c_elem_patternrepresentation p1 = dynamic_cast<c_elem_patternrepresentation>(kc_p1); |
| elem_patternrepresentation p2 = dynamic_cast<elem_patternrepresentation>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| p2->type = p1->type; |
| break; |
| } |
| case phylum_path: { |
| c_path p1 = dynamic_cast<c_path>(kc_p1); |
| path p2 = dynamic_cast<path>(kc_p2); |
| p2->op = p1->op; |
| p2->id = p1->id; |
| break; |
| } |
| case phylum_ac_operator_name: { |
| c_ac_operator_name p1 = dynamic_cast<c_ac_operator_name>(kc_p1); |
| ac_operator_name p2 = dynamic_cast<ac_operator_name>(kc_p2); |
| p2->line = p1->line; |
| p2->file = p1->file; |
| break; |
| } |
| case phylum_addedphylumdeclaration: |
| dynamic_cast<addedphylumdeclaration>(kc_p2)->added = dynamic_cast<c_addedphylumdeclaration>(kc_p1)->added; |
| break; |
| case phylum_countedphylumdeclaration: |
| dynamic_cast<countedphylumdeclaration>(kc_p2)->count = dynamic_cast<c_countedphylumdeclaration>(kc_p1)->count; |
| break; |
| case phylum_charruns: |
| dynamic_cast<charruns>(kc_p2)->number = dynamic_cast<c_charruns>(kc_p1)->number; |
| break; |
| case phylum_bindingidmark: |
| dynamic_cast<bindingidmark>(kc_p2)->marked = dynamic_cast<c_bindingidmark>(kc_p1)->marked; |
| break; |
| case one_before_first_phylum: // just to avoid a warning about missing case if empty |
| default: |
| break; // it's alright, no attributes to copy |
| } |
| enum_operators copyOp=kc_p1->prod_sel(); |
| for (int i=operator_info[copyOp].no_attrs-1; i>=0; --i) |
| attributeOf(kc_p2, i)=attributeOf(const_cast<abstract_phylum>(kc_p1), i); |
| } |
| |
| KC_PHYLUM_INFO phylum_info[] = { |
| { "", one_before_first_operator, one_before_first_operator, (kc_storageclass_t)0 }, /* dummy element */ |
| { "nocasestring", sel_NoCaseStr, sel_NoCaseStr, uniq }, |
| { "casestring", sel__Str, sel__Str, uniq }, |
| { "real", sel__Real, sel__Real, uniq }, |
| { "integer", sel__Int, sel__Int, uniq }, |
| { "voidptr", sel__VoidPtr, sel__VoidPtr, uniq }, |
| { "uniqID", sel_Str, sel_Str, uniq }, |
| { "ID", sel_Id, sel_Id, kc_not_uniq }, |
| { "INT", sel_Int, sel_Int, kc_not_uniq }, |
| { "STRING", sel_String, sel_String, kc_not_uniq }, |
| { "phylumdeclarationsroot", sel_PhylumDeclarations, sel_PhylumDeclarations, kc_not_uniq }, |
| { "phylumdeclarations", sel_Nilphylumdeclarations, sel_Consphylumdeclarations, kc_not_uniq }, |
| { "phylumnames", sel_Nilphylumnames, sel_Consphylumnames, kc_not_uniq }, |
| { "phylumdeclaration", sel_PhylumDeclaration, sel_PhylumDeclaration, kc_not_uniq }, |
| { "storageoption", sel_NoStorageOption, sel_PositiveStorageOption, kc_not_uniq }, |
| { "storageclasses", sel_Nilstorageclasses, sel_Consstorageclasses, kc_not_uniq }, |
| { "productionblock", sel_Emptyproductionblock, sel_PredefinedAlternatives, kc_not_uniq }, |
| { "alternatives", sel_Nilalternatives, sel_Consalternatives, kc_not_uniq }, |
| { "alternative", sel_Alternative, sel_Alternative, kc_not_uniq }, |
| { "arguments", sel_Nilarguments, sel_Consarguments, kc_not_uniq }, |
| { "argument", sel_Argument, sel_Argument, kc_not_uniq }, |
| { "Ccode_option", sel_CcodeOption, sel_CcodeOption, kc_not_uniq }, |
| { "attributes", sel_Nilattributes, sel_Consattributes, kc_not_uniq }, |
| { "attribute", sel_Attribute, sel_Attribute, kc_not_uniq }, |
| { "attribute_initialisation_option", sel_Noattribute_initialisation, sel_Yesattribute_initialisation, kc_not_uniq }, |
| { "Cexpression", sel_NilCexpression, sel_ConsCexpression, kc_not_uniq }, |
| { "Cexpression_elem", sel_CExpressionPart, sel_CExpressionArray, kc_not_uniq }, |
| { "CexpressionDQ", sel_NilCexpressionDQ, sel_ConsCexpressionDQ, kc_not_uniq }, |
| { "CexpressionDQ_elem", sel_CExpressionDQPart, sel_CExpressionDQNl, kc_not_uniq }, |
| { "CexpressionSQ", sel_NilCexpressionSQ, sel_ConsCexpressionSQ, kc_not_uniq }, |
| { "CexpressionSQ_elem", sel_CExpressionSQPart, sel_CExpressionSQNl, kc_not_uniq }, |
| { "idCexpressions", sel_NilidCexpressions, sel_ConsidCexpressions, kc_not_uniq }, |
| { "idCexpression", sel_IdCexpression, sel_IdCexpression, kc_not_uniq }, |
| { "Ctexts", sel_NilCtexts, sel_ConsCtexts, kc_not_uniq }, |
| { "includefiles", sel_Nilincludefiles, sel_Consincludefiles, kc_not_uniq }, |
| { "includefile", sel_IncludeFile, sel_IncludeFile, uniq }, |
| { "includedeclarations", sel_Nilincludedeclarations, sel_Consincludedeclarations, kc_not_uniq }, |
| { "includedeclaration", sel_IncludeDeclaration, sel_IncludeDeclaration, kc_not_uniq }, |
| { "rwdeclarations", sel_Nilrwdeclarations, sel_Consrwdeclarations, kc_not_uniq }, |
| { "rwdeclaration", sel_RwDeclaration, sel_RwDeclaration, kc_not_uniq }, |
| { "rewriteclauses", sel_Nilrewriteclauses, sel_Consrewriteclauses, kc_not_uniq }, |
| { "rewriteclause", sel_RewriteClause, sel_RewriteClause, kc_not_uniq }, |
| { "patternchains", sel_Nilpatternchains, sel_Conspatternchains, kc_not_uniq }, |
| { "patternchain", sel_Nilpatternchain, sel_Conspatternchain, kc_not_uniq }, |
| { "outmostpatterns", sel_Niloutmostpatterns, sel_Consoutmostpatterns, kc_not_uniq }, |
| { "patternchainitem", sel_PatternchainitemOutmost, sel_PatternchainitemDollarid, kc_not_uniq }, |
| { "outmostpattern", sel_OPOperatorWildcard, sel_OPDefault, kc_not_uniq }, |
| { "pattern", sel_PVariable, sel_PIntLiteral, kc_not_uniq }, |
| { "patterns", sel_Nilpatterns, sel_Conspatterns, kc_not_uniq }, |
| { "term", sel_TVariable, sel_TIntLiteral, kc_not_uniq }, |
| { "terms", sel_Nilterms, sel_Consterms, kc_not_uniq }, |
| { "fnfiles", sel_Nilfnfiles, sel_Consfnfiles, kc_not_uniq }, |
| { "fnfile", sel_FnFile, sel_FnFile, uniq }, |
| { "fndeclarations", sel_Nilfndeclarations, sel_Consfndeclarations, kc_not_uniq }, |
| { "fndeclaration", sel_FnAcDeclaration, sel_AcMemberDeclaration, kc_not_uniq }, |
| { "fnclass", sel_GlobalFn, sel_ConvOperatorFn, kc_not_uniq }, |
| { "Ctext", sel_NilCtext, sel_ConsCtext, kc_not_uniq }, |
| { "Ctext_elem", sel_CTextLine, sel_CTextWithexpression, kc_not_uniq }, |
| { "foreach_after", sel_NoForeachAfter, sel_ForeachAfter, kc_not_uniq }, |
| { "contextinfo", sel_InForeachContext, sel_NotInForeachContext, kc_not_uniq }, |
| { "withexpressions", sel_Nilwithexpressions, sel_Conswithexpressions, kc_not_uniq }, |
| { "withexpression", sel_WEVariable, sel_WECexpression, kc_not_uniq }, |
| { "withcases", sel_Nilwithcases, sel_Conswithcases, kc_not_uniq }, |
| { "withcase", sel_Withcase, sel_Withcase, kc_not_uniq }, |
| { "unparsedeclarations", sel_Nilunparsedeclarations, sel_Consunparsedeclarations, kc_not_uniq }, |
| { "unparsedeclaration", sel_UnparseDeclaration, sel_UnparseDeclaration, kc_not_uniq }, |
| { "unparseclauses", sel_Nilunparseclauses, sel_Consunparseclauses, kc_not_uniq }, |
| { "unparseclause", sel_UnparseClause, sel_UnparseClause, kc_not_uniq }, |
| { "viewnames", sel_Nilviewnames, sel_Consviewnames, kc_not_uniq }, |
| { "unparseitems", sel_Nilunparseitems, sel_Consunparseitems, kc_not_uniq }, |
| { "unparseitem", sel_UnpStr, sel_UViewVarDecl, kc_not_uniq }, |
| { "unpsubterm", sel_UnpSubTerm, sel_UnpCastedVariable, kc_not_uniq }, |
| { "unpattributes", sel_Nilunpattributes, sel_Consunpattributes, kc_not_uniq }, |
| { "viewnameoption", sel_NoViewname, sel_YesViewname, kc_not_uniq }, |
| { "languageoption", sel_NoLanguagename, sel_LanguageList, kc_not_uniq }, |
| { "languagenames", sel_Nillanguagenames, sel_Conslanguagenames, kc_not_uniq }, |
| { "fileline", sel_FileLine, sel_PosNoFileLine, kc_not_uniq }, |
| { "scopetypefilelinestack", sel_Nilscopetypefilelinestack, sel_Consscopetypefilelinestack, kc_not_uniq }, |
| { "scopetypefileline", sel_ScopeTypeFileLine, sel_ScopeTypeFileLine, kc_not_uniq }, |
| { "IDtype", sel_ITUnknown, sel_ITLanguageName, kc_not_uniq }, |
| { "operators", sel_Niloperators, sel_Consoperators, kc_not_uniq }, |
| { "phyla", sel_Nilphyla, sel_Consphyla, kc_not_uniq }, |
| { "variables", sel_Nilvariables, sel_Consvariables, kc_not_uniq }, |
| { "dollarvarstatus", sel_DVAllowed, sel_DVDisallowed, kc_not_uniq }, |
| { "tribool", sel_Equal, sel_Bigger, kc_not_uniq }, |
| { "patternrepresentations", sel_Nilpatternrepresentations, sel_Conspatternrepresentations, kc_not_uniq }, |
| { "patternrepresentation", sel_Nilpatternrepresentation, sel_Conspatternrepresentation, kc_not_uniq }, |
| { "elem_patternrepresentation", sel_PRBinding, sel_PRIntLiteral, kc_not_uniq }, |
| { "path", sel_Nilpath, sel_Conspath, kc_not_uniq }, |
| { "paths", sel_Nilpaths, sel_Conspaths, kc_not_uniq }, |
| { "argsnumbers", sel_Nilargsnumbers, sel_Consargsnumbers, kc_not_uniq }, |
| { "rewriterulesinfo", sel_Nilrewriterulesinfo, sel_Consrewriterulesinfo, kc_not_uniq }, |
| { "rewriteruleinfo", sel_Rewriteruleinfo, sel_Rewriteruleinfo, kc_not_uniq }, |
| { "withcasesinfo", sel_Nilwithcasesinfo, sel_Conswithcasesinfo, kc_not_uniq }, |
| { "withcaseinfo", sel_Withcaseinfo, sel_Withcaseinfo, kc_not_uniq }, |
| { "rewriteviewsinfo", sel_Nilrewriteviewsinfo, sel_Consrewriteviewsinfo, kc_not_uniq }, |
| { "rewriteviewinfo", sel_Rewriteviewinfo, sel_Rewriteviewinfo, kc_not_uniq }, |
| { "unparseviewsinfo", sel_Nilunparseviewsinfo, sel_Consunparseviewsinfo, kc_not_uniq }, |
| { "unparseviewinfo", sel_Unparseviewinfo, sel_Unparseviewinfo, kc_not_uniq }, |
| { "unparsedeclsinfo", sel_Nilunparsedeclsinfo, sel_Consunparsedeclsinfo, kc_not_uniq }, |
| { "unparsedeclinfo", sel_Unparsedeclinfo, sel_Unparsedeclinfo, kc_not_uniq }, |
| { "ac_declaration", sel_AcDeclaration, sel_AcDeclaration, kc_not_uniq }, |
| { "ac_declaration_list", sel_Nilac_declaration_list, sel_Consac_declaration_list, kc_not_uniq }, |
| { "ac_declaration_specifiers", sel_Nilac_declaration_specifiers, sel_Consac_declaration_specifiers, kc_not_uniq }, |
| { "ac_declaration_specifier", sel_AcDeclSpecStorageSpec, sel_AcDeclSpecTypeQual, kc_not_uniq }, |
| { "ac_storage_class_specifier", sel_AcAuto, sel_AcVirtual, kc_not_uniq }, |
| { "ac_type_specifier", sel_AcTypeSpec, sel_AcTypeSpec, kc_not_uniq }, |
| { "ac_type_qualifier", sel_AcConst, sel_AcNoQualifier, kc_not_uniq }, |
| { "ac_init_declarator_list", sel_Nilac_init_declarator_list, sel_Consac_init_declarator_list, kc_not_uniq }, |
| { "ac_init_declarator", sel_AcInitDecl, sel_AcInitDecl, kc_not_uniq }, |
| { "ac_declarator", sel_AcDeclarator, sel_AcDeclarator, kc_not_uniq }, |
| { "ac_direct_declarator", sel_AcDirectDeclId, sel_AcOperatorDeclId, kc_not_uniq }, |
| { "ac_pointer_option", sel_Nopointer, sel_Yespointer, kc_not_uniq }, |
| { "ac_pointer", sel_AcPointerNil, sel_AcPointerCons, kc_not_uniq }, |
| { "ac_ref_option", sel_AcNoRef, sel_AcRef, kc_not_uniq }, |
| { "ac_operator_name", sel_AcOperatorName, sel_AcOperatorName, kc_not_uniq }, |
| { "ac_class_qualifier_help_list", sel_Nilac_class_qualifier_help_list, sel_Consac_class_qualifier_help_list, kc_not_uniq }, |
| { "ac_class_qualifier_list", sel_Nilac_class_qualifier_list, sel_Consac_class_qualifier_list, kc_not_uniq }, |
| { "ac_type_qualifier_list", sel_Nilac_type_qualifier_list, sel_Consac_type_qualifier_list, kc_not_uniq }, |
| { "ac_parameter_type_list", sel_AcParList, sel_AcParList3Dot, kc_not_uniq }, |
| { "ac_parameter_list", sel_Nilac_parameter_list, sel_Consac_parameter_list, kc_not_uniq }, |
| { "ac_parameter_declaration", sel_AcParDeclDecl, sel_AcParDeclAbsdecl, kc_not_uniq }, |
| { "ac_identifier_list", sel_Nilac_identifier_list, sel_Consac_identifier_list, kc_not_uniq }, |
| { "ac_abstract_declarator", sel_AcAbsdeclPointer, sel_AcAbsdeclDirdecl, kc_not_uniq }, |
| { "ac_direct_abstract_declarator_option", sel_Noac_direct_abstract_declarator, sel_Yesac_direct_abstract_declarator, kc_not_uniq }, |
| { "ac_direct_abstract_declarator", sel_AcDirAbsdeclPack, sel_AcDirAbsdeclFn, kc_not_uniq }, |
| { "ac_constant_expression_option", sel_Yesac_constant_expression, sel_Noac_constant_expression, kc_not_uniq }, |
| { "ac_constant_expression", sel_AcConstExpr, sel_AcConstExpr, kc_not_uniq }, |
| { "ac_constant_expression_list", sel_Nilac_constant_expression_list, sel_Consac_constant_expression_list, kc_not_uniq }, |
| { "ac_opt_base_init_list", sel_AcNoBaseInit, sel_AcYesBaseInit, kc_not_uniq }, |
| { "ac_base_init_list", sel_Nilac_base_init_list, sel_Consac_base_init_list, kc_not_uniq }, |
| { "ac_base_init", sel_AcBaseInit, sel_AcBaseInit, kc_not_uniq }, |
| { "baseclass_declarations", sel_Nilbaseclass_declarations, sel_Consbaseclass_declarations, kc_not_uniq }, |
| { "baseclass_decl", sel_BaseClassDecl, sel_BaseClassDecl, kc_not_uniq }, |
| { "baseclass_list", sel_Nilbaseclass_list, sel_Consbaseclass_list, kc_not_uniq }, |
| { "error", sel_Fatal, sel_Warning, kc_not_uniq }, |
| { "problem", sel_Problem1, sel_Problem6, kc_not_uniq }, |
| { "addedphylumdeclarations", sel_Niladdedphylumdeclarations, sel_Consaddedphylumdeclarations, kc_not_uniq }, |
| { "addedphylumdeclaration", sel_AddedPhylumdeclaration, sel_AddedPhylumdeclaration, kc_not_uniq }, |
| { "countedphylumdeclarations", sel_Nilcountedphylumdeclarations, sel_Conscountedphylumdeclarations, kc_not_uniq }, |
| { "countedphylumdeclaration", sel_CountedPhylumdeclaration, sel_CountedPhylumdeclaration, uniq }, |
| { "charruns", sel_Newlines, sel_Stars, uniq }, |
| { "bindingidmarks", sel_Nilbindingidmarks, sel_Consbindingidmarks, uniq }, |
| { "bindingidmark", sel_BindingIdMark, sel_BindingIdMark, uniq }, |
| { "", one_before_first_operator, one_before_first_operator, (kc_storageclass_t)0 } /* last element */ |
| }; |
| |
| static enum_phyla kc_subphyla_Str[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Id[] = { phylum_uniqID }; |
| static enum_phyla kc_subphyla_Int[] = { phylum_integer }; |
| static enum_phyla kc_subphyla_String[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_PhylumDeclarations[] = { phylum_phylumdeclarations }; |
| static enum_phyla kc_subphyla_Consphylumdeclarations[] = { phylum_phylumdeclaration, phylum_phylumdeclarations }; |
| static enum_phyla kc_subphyla_Consphylumnames[] = { phylum_ID, phylum_phylumnames }; |
| static enum_phyla kc_subphyla_PhylumDeclaration[] = { phylum_ID, phylum_storageoption, phylum_productionblock, phylum_Ccode_option }; |
| static enum_phyla kc_subphyla_NegativeStorageOption[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_PositiveStorageOption[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_Consstorageclasses[] = { phylum_ID, phylum_storageclasses }; |
| static enum_phyla kc_subphyla_ListAlternatives[] = { phylum_alternatives, phylum_ID }; |
| static enum_phyla kc_subphyla_NonlistAlternatives[] = { phylum_alternatives }; |
| static enum_phyla kc_subphyla_PredefinedAlternatives[] = { phylum_alternatives }; |
| static enum_phyla kc_subphyla_Consalternatives[] = { phylum_alternative, phylum_alternatives }; |
| static enum_phyla kc_subphyla_Alternative[] = { phylum_ID, phylum_arguments }; |
| static enum_phyla kc_subphyla_Consarguments[] = { phylum_ID, phylum_arguments }; |
| static enum_phyla kc_subphyla_Argument[] = { phylum_ID, phylum_integer }; |
| static enum_phyla kc_subphyla_CcodeOption[] = { phylum_attributes, phylum_Ctexts }; |
| static enum_phyla kc_subphyla_Consattributes[] = { phylum_attribute, phylum_attributes }; |
| static enum_phyla kc_subphyla_Attribute[] = { phylum_ID, phylum_ID, phylum_attribute_initialisation_option }; |
| static enum_phyla kc_subphyla_Yesattribute_initialisation[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_ConsCexpression[] = { phylum_Cexpression_elem, phylum_Cexpression }; |
| static enum_phyla kc_subphyla_CExpressionPart[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_CExpressionDollarvar[] = { phylum_INT }; |
| static enum_phyla kc_subphyla_CExpressionDQ[] = { phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_CExpressionSQ[] = { phylum_CexpressionSQ }; |
| static enum_phyla kc_subphyla_CExpressionPack[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_CExpressionArray[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_ConsCexpressionDQ[] = { phylum_CexpressionDQ_elem, phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_CExpressionDQPart[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_ConsCexpressionSQ[] = { phylum_CexpressionSQ_elem, phylum_CexpressionSQ }; |
| static enum_phyla kc_subphyla_CExpressionSQPart[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_ConsidCexpressions[] = { phylum_idCexpression, phylum_idCexpressions }; |
| static enum_phyla kc_subphyla_IdCexpression[] = { phylum_ID, phylum_Cexpression }; |
| static enum_phyla kc_subphyla_ConsCtexts[] = { phylum_Ctext, phylum_Ctexts }; |
| static enum_phyla kc_subphyla_Consincludefiles[] = { phylum_includefile, phylum_includefiles }; |
| static enum_phyla kc_subphyla_IncludeFile[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Consincludedeclarations[] = { phylum_includedeclaration, phylum_includedeclarations }; |
| static enum_phyla kc_subphyla_IncludeDeclaration[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Consrwdeclarations[] = { phylum_rwdeclaration, phylum_rwdeclarations }; |
| static enum_phyla kc_subphyla_RwDeclaration[] = { phylum_outmostpatterns, phylum_rewriteclauses }; |
| static enum_phyla kc_subphyla_Consrewriteclauses[] = { phylum_rewriteclause, phylum_rewriteclauses }; |
| static enum_phyla kc_subphyla_RewriteClause[] = { phylum_viewnames, phylum_term }; |
| static enum_phyla kc_subphyla_Conspatternchains[] = { phylum_patternchain, phylum_patternchains }; |
| static enum_phyla kc_subphyla_Conspatternchain[] = { phylum_patternchainitem, phylum_patternchain }; |
| static enum_phyla kc_subphyla_Consoutmostpatterns[] = { phylum_outmostpattern, phylum_outmostpatterns }; |
| static enum_phyla kc_subphyla_PatternchainitemOutmost[] = { phylum_outmostpattern }; |
| static enum_phyla kc_subphyla_PatternchainitemGroup[] = { phylum_patternchains }; |
| static enum_phyla kc_subphyla_PatternchainitemDollarid[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_OPOperatorWildcard[] = { phylum_ID, phylum_Cexpression }; |
| static enum_phyla kc_subphyla_OPOperator[] = { phylum_ID, phylum_patterns, phylum_Cexpression }; |
| static enum_phyla kc_subphyla_OPNonLeafVariable[] = { phylum_ID, phylum_outmostpattern }; |
| static enum_phyla kc_subphyla_OPWildcard[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_OPDefault[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_PVariable[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_POperator[] = { phylum_ID, phylum_patterns }; |
| static enum_phyla kc_subphyla_PNonLeafVariable[] = { phylum_ID, phylum_pattern }; |
| static enum_phyla kc_subphyla_PStringLiteral[] = { phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_PIntLiteral[] = { phylum_INT }; |
| static enum_phyla kc_subphyla_Conspatterns[] = { phylum_pattern, phylum_patterns }; |
| static enum_phyla kc_subphyla_TVariable[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_TOperator[] = { phylum_ID, phylum_terms }; |
| static enum_phyla kc_subphyla_TMethod[] = { phylum_term, phylum_ID, phylum_terms }; |
| static enum_phyla kc_subphyla_TMethodDot[] = { phylum_term, phylum_ID, phylum_terms }; |
| static enum_phyla kc_subphyla_TMemberVar[] = { phylum_term, phylum_ID }; |
| static enum_phyla kc_subphyla_TMemberVarDot[] = { phylum_term, phylum_ID }; |
| static enum_phyla kc_subphyla_TCTerm[] = { phylum_CexpressionSQ }; |
| static enum_phyla kc_subphyla_TStringLiteral[] = { phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_TIntLiteral[] = { phylum_INT }; |
| static enum_phyla kc_subphyla_Consterms[] = { phylum_term, phylum_terms }; |
| static enum_phyla kc_subphyla_Consfnfiles[] = { phylum_fnfile, phylum_fnfiles }; |
| static enum_phyla kc_subphyla_FnFile[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Consfndeclarations[] = { phylum_fndeclaration, phylum_fndeclarations }; |
| static enum_phyla kc_subphyla_FnAcDeclaration[] = { phylum_ac_declaration_specifiers, phylum_ac_declarator, phylum_ac_declaration_list, phylum_ac_opt_base_init_list, phylum_Ctext, phylum_ID, phylum_fnclass }; |
| static enum_phyla kc_subphyla_AcMemberDeclaration[] = { phylum_ac_declaration_specifiers, phylum_ac_declarator, phylum_ac_constant_expression_option, phylum_fnclass }; |
| static enum_phyla kc_subphyla_StaticFn[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_ConsCtext[] = { phylum_Ctext_elem, phylum_Ctext }; |
| static enum_phyla kc_subphyla_CTextLine[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_CTextDollarVar[] = { phylum_INT }; |
| static enum_phyla kc_subphyla_CTextNl[] = { phylum_integer }; |
| static enum_phyla kc_subphyla_CTextCexpressionDQ[] = { phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_CTextCexpressionSQ[] = { phylum_CexpressionSQ }; |
| static enum_phyla kc_subphyla_CTextCbody[] = { phylum_Ctext }; |
| static enum_phyla kc_subphyla_CTextForeachexpression[] = { phylum_patternchain, phylum_idCexpressions, phylum_withexpressions, phylum_Ctext, phylum_foreach_after }; |
| static enum_phyla kc_subphyla_CTextWithexpression[] = { phylum_withexpressions, phylum_withcases, phylum_contextinfo }; |
| static enum_phyla kc_subphyla_ForeachAfter[] = { phylum_patternchain, phylum_idCexpressions, phylum_withexpressions, phylum_Ctext }; |
| static enum_phyla kc_subphyla_InForeachContext[] = { phylum_patternchain }; |
| static enum_phyla kc_subphyla_Conswithexpressions[] = { phylum_withexpression, phylum_withexpressions }; |
| static enum_phyla kc_subphyla_WEVariable[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_WECexpression[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_Conswithcases[] = { phylum_withcase, phylum_withcases }; |
| static enum_phyla kc_subphyla_Withcase[] = { phylum_patternchains, phylum_Ctext }; |
| static enum_phyla kc_subphyla_Consunparsedeclarations[] = { phylum_unparsedeclaration, phylum_unparsedeclarations }; |
| static enum_phyla kc_subphyla_UnparseDeclaration[] = { phylum_outmostpatterns, phylum_unparseclauses }; |
| static enum_phyla kc_subphyla_Consunparseclauses[] = { phylum_unparseclause, phylum_unparseclauses }; |
| static enum_phyla kc_subphyla_UnparseClause[] = { phylum_viewnames, phylum_unparseitems }; |
| static enum_phyla kc_subphyla_Consviewnames[] = { phylum_ID, phylum_viewnames }; |
| static enum_phyla kc_subphyla_Consunparseitems[] = { phylum_unparseitem, phylum_unparseitems }; |
| static enum_phyla kc_subphyla_UnpStr[] = { phylum_languageoption, phylum_CexpressionDQ, phylum_viewnameoption }; |
| static enum_phyla kc_subphyla_UnpSubexpr[] = { phylum_languageoption, phylum_unpsubterm, phylum_viewnameoption }; |
| static enum_phyla kc_subphyla_UnpCtext[] = { phylum_languageoption, phylum_Ctext }; |
| static enum_phyla kc_subphyla_UnpBody[] = { phylum_languageoption, phylum_unparseitems }; |
| static enum_phyla kc_subphyla_UViewVarDecl[] = { phylum_ID, phylum_ID, phylum_Cexpression }; |
| static enum_phyla kc_subphyla_UnpSubTerm[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_UnpDollarvarTerm[] = { phylum_INT }; |
| static enum_phyla kc_subphyla_UnpSubAttr[] = { phylum_ID, phylum_unpattributes }; |
| static enum_phyla kc_subphyla_UnpDollarvarAttr[] = { phylum_INT, phylum_unpattributes }; |
| static enum_phyla kc_subphyla_UnpCastedVariable[] = { phylum_ID, phylum_ID }; |
| static enum_phyla kc_subphyla_Consunpattributes[] = { phylum_ID, phylum_unpattributes }; |
| static enum_phyla kc_subphyla_YesViewname[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_LanguageList[] = { phylum_languagenames }; |
| static enum_phyla kc_subphyla_Conslanguagenames[] = { phylum_ID, phylum_languagenames }; |
| static enum_phyla kc_subphyla_Consscopetypefilelinestack[] = { phylum_scopetypefileline, phylum_scopetypefilelinestack }; |
| static enum_phyla kc_subphyla_ScopeTypeFileLine[] = { phylum_integer, phylum_IDtype, phylum_casestring, phylum_integer }; |
| static enum_phyla kc_subphyla_ITPredefinedPhylum[] = { phylum_phylumdeclaration }; |
| static enum_phyla kc_subphyla_ITUserPhylum[] = { phylum_phylumdeclaration }; |
| static enum_phyla kc_subphyla_ITPredefinedOperator[] = { phylum_alternative, phylum_ID }; |
| static enum_phyla kc_subphyla_ITUserOperator[] = { phylum_alternative, phylum_ID }; |
| static enum_phyla kc_subphyla_ITUserFunction[] = { phylum_fnclass }; |
| static enum_phyla kc_subphyla_ITPatternVariable[] = { phylum_ID, phylum_integer }; |
| static enum_phyla kc_subphyla_ITLanguageName[] = { phylum_integer }; |
| static enum_phyla kc_subphyla_Consoperators[] = { phylum_ID, phylum_operators }; |
| static enum_phyla kc_subphyla_Consphyla[] = { phylum_ID, phylum_phyla }; |
| static enum_phyla kc_subphyla_Consvariables[] = { phylum_ID, phylum_variables }; |
| static enum_phyla kc_subphyla_Conspatternrepresentations[] = { phylum_patternrepresentation, phylum_patternrepresentations }; |
| static enum_phyla kc_subphyla_Conspatternrepresentation[] = { phylum_elem_patternrepresentation, phylum_patternrepresentation }; |
| static enum_phyla kc_subphyla_PRBinding[] = { phylum_path, phylum_ID }; |
| static enum_phyla kc_subphyla_PRVarPredicate[] = { phylum_paths, phylum_ID, phylum_patternrepresentation }; |
| static enum_phyla kc_subphyla_PROperPredicate[] = { phylum_path, phylum_ID }; |
| static enum_phyla kc_subphyla_PRUserPredicate[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_PRNonLeafBinding[] = { phylum_path, phylum_ID, phylum_patternrepresentation }; |
| static enum_phyla kc_subphyla_PRWildcard[] = { phylum_path }; |
| static enum_phyla kc_subphyla_PRStringLiteral[] = { phylum_path, phylum_CexpressionDQ }; |
| static enum_phyla kc_subphyla_PRIntLiteral[] = { phylum_path, phylum_INT }; |
| static enum_phyla kc_subphyla_Conspath[] = { phylum_integer, phylum_path }; |
| static enum_phyla kc_subphyla_Conspaths[] = { phylum_path, phylum_paths }; |
| static enum_phyla kc_subphyla_Consargsnumbers[] = { phylum_integer, phylum_argsnumbers }; |
| static enum_phyla kc_subphyla_Consrewriterulesinfo[] = { phylum_rewriteruleinfo, phylum_rewriterulesinfo }; |
| static enum_phyla kc_subphyla_Rewriteruleinfo[] = { phylum_patternrepresentation, phylum_patternrepresentation, phylum_rewriteclause }; |
| static enum_phyla kc_subphyla_Conswithcasesinfo[] = { phylum_withcaseinfo, phylum_withcasesinfo }; |
| static enum_phyla kc_subphyla_Withcaseinfo[] = { phylum_patternrepresentation, phylum_patternrepresentation, phylum_Ctext }; |
| static enum_phyla kc_subphyla_Consrewriteviewsinfo[] = { phylum_rewriteviewinfo, phylum_rewriteviewsinfo }; |
| static enum_phyla kc_subphyla_Rewriteviewinfo[] = { phylum_ID, phylum_rewriterulesinfo }; |
| static enum_phyla kc_subphyla_Consunparseviewsinfo[] = { phylum_unparseviewinfo, phylum_unparseviewsinfo }; |
| static enum_phyla kc_subphyla_Unparseviewinfo[] = { phylum_ID, phylum_unparsedeclsinfo }; |
| static enum_phyla kc_subphyla_Consunparsedeclsinfo[] = { phylum_unparsedeclinfo, phylum_unparsedeclsinfo }; |
| static enum_phyla kc_subphyla_Unparsedeclinfo[] = { phylum_patternrepresentation, phylum_patternrepresentation, phylum_unparseclause }; |
| static enum_phyla kc_subphyla_AcDeclaration[] = { phylum_ac_declaration_specifiers, phylum_ac_init_declarator_list }; |
| static enum_phyla kc_subphyla_Consac_declaration_list[] = { phylum_ac_declaration, phylum_ac_declaration_list }; |
| static enum_phyla kc_subphyla_Consac_declaration_specifiers[] = { phylum_ac_declaration_specifier, phylum_ac_declaration_specifiers }; |
| static enum_phyla kc_subphyla_AcDeclSpecStorageSpec[] = { phylum_ac_storage_class_specifier }; |
| static enum_phyla kc_subphyla_AcDeclSpecTypeSpec[] = { phylum_ac_type_specifier }; |
| static enum_phyla kc_subphyla_AcDeclSpecTypeQual[] = { phylum_ac_type_qualifier }; |
| static enum_phyla kc_subphyla_AcTypeSpec[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_Consac_init_declarator_list[] = { phylum_ac_init_declarator, phylum_ac_init_declarator_list }; |
| static enum_phyla kc_subphyla_AcInitDecl[] = { phylum_ac_declarator }; |
| static enum_phyla kc_subphyla_AcDeclarator[] = { phylum_ac_pointer_option, phylum_ac_ref_option, phylum_ac_direct_declarator }; |
| static enum_phyla kc_subphyla_AcDirectDeclId[] = { phylum_ID }; |
| static enum_phyla kc_subphyla_AcDirectDeclPack[] = { phylum_ac_declarator }; |
| static enum_phyla kc_subphyla_AcDirectDeclArray[] = { phylum_ac_direct_declarator, phylum_ac_constant_expression_option }; |
| static enum_phyla kc_subphyla_AcDirectDeclProto[] = { phylum_ac_direct_declarator, phylum_ac_parameter_type_list }; |
| static enum_phyla kc_subphyla_AcQualifiedDeclProto[] = { phylum_ac_class_qualifier_list, phylum_ac_direct_declarator, phylum_ac_parameter_type_list, phylum_ac_type_qualifier }; |
| static enum_phyla kc_subphyla_AcMemberDecl[] = { phylum_ID, phylum_ID, phylum_ac_constant_expression_list }; |
| static enum_phyla kc_subphyla_AcConvOperatorDecl[] = { phylum_ID, phylum_ID }; |
| static enum_phyla kc_subphyla_AcOperatorDeclId[] = { phylum_ac_operator_name }; |
| static enum_phyla kc_subphyla_Yespointer[] = { phylum_ac_pointer }; |
| static enum_phyla kc_subphyla_AcPointerNil[] = { phylum_ac_type_qualifier_list }; |
| static enum_phyla kc_subphyla_AcPointerCons[] = { phylum_ac_type_qualifier_list, phylum_ac_pointer }; |
| static enum_phyla kc_subphyla_AcOperatorName[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Consac_class_qualifier_help_list[] = { phylum_ac_direct_declarator, phylum_ac_class_qualifier_help_list }; |
| static enum_phyla kc_subphyla_Consac_class_qualifier_list[] = { phylum_ID, phylum_ac_class_qualifier_list }; |
| static enum_phyla kc_subphyla_Consac_type_qualifier_list[] = { phylum_ac_type_qualifier, phylum_ac_type_qualifier_list }; |
| static enum_phyla kc_subphyla_AcParList[] = { phylum_ac_parameter_list }; |
| static enum_phyla kc_subphyla_AcParList3Dot[] = { phylum_ac_parameter_list }; |
| static enum_phyla kc_subphyla_Consac_parameter_list[] = { phylum_ac_parameter_declaration, phylum_ac_parameter_list }; |
| static enum_phyla kc_subphyla_AcParDeclDecl[] = { phylum_ac_declaration_specifiers, phylum_ac_declarator, phylum_ac_constant_expression_option }; |
| static enum_phyla kc_subphyla_AcParDeclAbsdecl[] = { phylum_ac_declaration_specifiers, phylum_ac_abstract_declarator, phylum_ac_constant_expression_option }; |
| static enum_phyla kc_subphyla_Consac_identifier_list[] = { phylum_ID, phylum_ac_identifier_list }; |
| static enum_phyla kc_subphyla_AcAbsdeclPointer[] = { phylum_ac_pointer }; |
| static enum_phyla kc_subphyla_AcAbsdeclDirdecl[] = { phylum_ac_pointer_option, phylum_ac_direct_abstract_declarator }; |
| static enum_phyla kc_subphyla_Yesac_direct_abstract_declarator[] = { phylum_ac_direct_abstract_declarator }; |
| static enum_phyla kc_subphyla_AcDirAbsdeclPack[] = { phylum_ac_abstract_declarator }; |
| static enum_phyla kc_subphyla_AcDirAbsdeclArray[] = { phylum_ac_direct_abstract_declarator_option, phylum_ac_constant_expression_option }; |
| static enum_phyla kc_subphyla_AcDirAbsdeclFn[] = { phylum_ac_direct_abstract_declarator_option, phylum_ac_parameter_type_list }; |
| static enum_phyla kc_subphyla_Yesac_constant_expression[] = { phylum_ac_constant_expression }; |
| static enum_phyla kc_subphyla_AcConstExpr[] = { phylum_Cexpression }; |
| static enum_phyla kc_subphyla_Consac_constant_expression_list[] = { phylum_ac_constant_expression, phylum_ac_constant_expression_list }; |
| static enum_phyla kc_subphyla_AcYesBaseInit[] = { phylum_ac_base_init_list }; |
| static enum_phyla kc_subphyla_Consac_base_init_list[] = { phylum_ac_base_init, phylum_ac_base_init_list }; |
| static enum_phyla kc_subphyla_AcBaseInit[] = { phylum_ID, phylum_ac_constant_expression }; |
| static enum_phyla kc_subphyla_Consbaseclass_declarations[] = { phylum_baseclass_decl, phylum_baseclass_declarations }; |
| static enum_phyla kc_subphyla_BaseClassDecl[] = { phylum_ID, phylum_baseclass_list }; |
| static enum_phyla kc_subphyla_Consbaseclass_list[] = { phylum_ID, phylum_baseclass_list }; |
| static enum_phyla kc_subphyla_Fatal[] = { phylum_fileline, phylum_problem }; |
| static enum_phyla kc_subphyla_NonFatal[] = { phylum_fileline, phylum_problem }; |
| static enum_phyla kc_subphyla_Warning[] = { phylum_fileline, phylum_problem }; |
| static enum_phyla kc_subphyla_Problem1[] = { phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem1ID[] = { phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1tID[] = { phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1we[] = { phylum_casestring, phylum_withexpression }; |
| static enum_phyla kc_subphyla_Problem1ID1ID[] = { phylum_casestring, phylum_ID, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1t1ID[] = { phylum_casestring, phylum_IDtype, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1INT[] = { phylum_casestring, phylum_INT }; |
| static enum_phyla kc_subphyla_Problem1int1[] = { phylum_casestring, phylum_integer, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem1INT1ID[] = { phylum_casestring, phylum_INT, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1ID1ID1ID[] = { phylum_casestring, phylum_ID, phylum_casestring, phylum_ID, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1INT1ID1ID[] = { phylum_casestring, phylum_INT, phylum_casestring, phylum_ID, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem1storageoption1ID[] = { phylum_casestring, phylum_storageoption, phylum_casestring, phylum_ID }; |
| static enum_phyla kc_subphyla_Problem2[] = { phylum_casestring, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem3[] = { phylum_casestring, phylum_casestring, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem3int1[] = { phylum_casestring, phylum_casestring, phylum_casestring, phylum_integer, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem4[] = { phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem5[] = { phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring }; |
| static enum_phyla kc_subphyla_Problem6[] = { phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring, phylum_casestring }; |
| static enum_phyla kc_subphyla_Consaddedphylumdeclarations[] = { phylum_addedphylumdeclaration, phylum_addedphylumdeclarations }; |
| static enum_phyla kc_subphyla_AddedPhylumdeclaration[] = { phylum_uniqID }; |
| static enum_phyla kc_subphyla_Conscountedphylumdeclarations[] = { phylum_countedphylumdeclaration, phylum_countedphylumdeclarations }; |
| static enum_phyla kc_subphyla_CountedPhylumdeclaration[] = { phylum_uniqID }; |
| static enum_phyla kc_subphyla_Consbindingidmarks[] = { phylum_bindingidmark, phylum_bindingidmarks }; |
| static enum_phyla kc_subphyla_BindingIdMark[] = { phylum_uniqID }; |
| |
| |
| KC_OPERATOR_INFO operator_info[] = { |
| { "", 0, 0, one_before_first_phylum, 0, 0, 0, 0 }, /* dummy element */ |
| { "NoCaseStr", 0, true, phylum_nocasestring, 0, 0, 0, sizeof(impl_nocasestring_NoCaseStr) }, |
| { "_Str", 0, true, phylum_casestring, 0, 0, 0, sizeof(impl_casestring__Str) }, |
| { "_Real", 0, true, phylum_real, 0, 0, 0, sizeof(impl_real__Real) }, |
| { "_Int", 0, true, phylum_integer, 0, 0, 0, sizeof(impl_integer__Int) }, |
| { "_VoidPtr", 0, true, phylum_voidptr, 0, 0, 0, sizeof(impl_voidptr__VoidPtr) }, |
| { "Str", 1, false, phylum_uniqID, kc_subphyla_Str, 0, 0, sizeof(impl_uniqID_Str) }, |
| { "Id", 1, false, phylum_ID, kc_subphyla_Id, 0, 0, sizeof(impl_ID_Id) }, |
| { "Int", 1, false, phylum_INT, kc_subphyla_Int, 0, 0, sizeof(impl_INT_Int) }, |
| { "String", 1, false, phylum_STRING, kc_subphyla_String, 0, 0, sizeof(impl_STRING_String) }, |
| { "PhylumDeclarations", 1, false, phylum_phylumdeclarationsroot, kc_subphyla_PhylumDeclarations, 0, 0, sizeof(impl_phylumdeclarationsroot_PhylumDeclarations) }, |
| { "Nilphylumdeclarations", 0, false, phylum_phylumdeclarations, 0, 0, 0, sizeof(impl_phylumdeclarations) }, |
| { "Consphylumdeclarations", 2, false, phylum_phylumdeclarations, kc_subphyla_Consphylumdeclarations, 0, 0, sizeof(impl_phylumdeclarations) }, |
| { "Nilphylumnames", 0, false, phylum_phylumnames, 0, 0, 0, sizeof(impl_phylumnames) }, |
| { "Consphylumnames", 2, false, phylum_phylumnames, kc_subphyla_Consphylumnames, 0, 0, sizeof(impl_phylumnames) }, |
| { "PhylumDeclaration", 4, false, phylum_phylumdeclaration, kc_subphyla_PhylumDeclaration, 0, 0, sizeof(impl_phylumdeclaration_PhylumDeclaration) }, |
| { "NoStorageOption", 0, false, phylum_storageoption, 0, 0, 0, sizeof(impl_storageoption_NoStorageOption) }, |
| { "NegativeStorageOption", 1, false, phylum_storageoption, kc_subphyla_NegativeStorageOption, 0, 0, sizeof(impl_storageoption_NegativeStorageOption) }, |
| { "PositiveStorageOption", 1, false, phylum_storageoption, kc_subphyla_PositiveStorageOption, 0, 0, sizeof(impl_storageoption_PositiveStorageOption) }, |
| { "Nilstorageclasses", 0, false, phylum_storageclasses, 0, 0, 0, sizeof(impl_storageclasses) }, |
| { "Consstorageclasses", 2, false, phylum_storageclasses, kc_subphyla_Consstorageclasses, 0, 0, sizeof(impl_storageclasses) }, |
| { "Emptyproductionblock", 0, false, phylum_productionblock, 0, 0, 0, sizeof(impl_productionblock_Emptyproductionblock) }, |
| { "ListAlternatives", 2, false, phylum_productionblock, kc_subphyla_ListAlternatives, 0, 0, sizeof(impl_productionblock_ListAlternatives) }, |
| { "NonlistAlternatives", 1, false, phylum_productionblock, kc_subphyla_NonlistAlternatives, 0, 0, sizeof(impl_productionblock_NonlistAlternatives) }, |
| { "PredefinedAlternatives", 1, false, phylum_productionblock, kc_subphyla_PredefinedAlternatives, 0, 0, sizeof(impl_productionblock_PredefinedAlternatives) }, |
| { "Nilalternatives", 0, false, phylum_alternatives, 0, 0, 0, sizeof(impl_alternatives) }, |
| { "Consalternatives", 2, false, phylum_alternatives, kc_subphyla_Consalternatives, 0, 0, sizeof(impl_alternatives) }, |
| { "Alternative", 2, false, phylum_alternative, kc_subphyla_Alternative, 0, 0, sizeof(impl_alternative_Alternative) }, |
| { "Nilarguments", 0, false, phylum_arguments, 0, 0, 0, sizeof(impl_arguments) }, |
| { "Consarguments", 2, false, phylum_arguments, kc_subphyla_Consarguments, 0, 0, sizeof(impl_arguments) }, |
| { "Argument", 2, false, phylum_argument, kc_subphyla_Argument, 0, 0, sizeof(impl_argument_Argument) }, |
| { "CcodeOption", 2, false, phylum_Ccode_option, kc_subphyla_CcodeOption, 0, 0, sizeof(impl_Ccode_option_CcodeOption) }, |
| { "Nilattributes", 0, false, phylum_attributes, 0, 0, 0, sizeof(impl_attributes) }, |
| { "Consattributes", 2, false, phylum_attributes, kc_subphyla_Consattributes, 0, 0, sizeof(impl_attributes) }, |
| { "Attribute", 3, false, phylum_attribute, kc_subphyla_Attribute, 0, 0, sizeof(impl_attribute_Attribute) }, |
| { "Noattribute_initialisation", 0, false, phylum_attribute_initialisation_option, 0, 0, 0, sizeof(impl_attribute_initialisation_option_Noattribute_initialisation) }, |
| { "Yesattribute_initialisation", 1, false, phylum_attribute_initialisation_option, kc_subphyla_Yesattribute_initialisation, 0, 0, sizeof(impl_attribute_initialisation_option_Yesattribute_initialisation) }, |
| { "NilCexpression", 0, false, phylum_Cexpression, 0, 0, 0, sizeof(impl_Cexpression) }, |
| { "ConsCexpression", 2, false, phylum_Cexpression, kc_subphyla_ConsCexpression, 0, 0, sizeof(impl_Cexpression) }, |
| { "CExpressionPart", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionPart, 0, 0, sizeof(impl_Cexpression_elem_CExpressionPart) }, |
| { "CExpressionDollarvar", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionDollarvar, 0, 0, sizeof(impl_Cexpression_elem_CExpressionDollarvar) }, |
| { "CExpressionNl", 0, false, phylum_Cexpression_elem, 0, 0, 0, sizeof(impl_Cexpression_elem_CExpressionNl) }, |
| { "CExpressionDQ", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionDQ, 0, 0, sizeof(impl_Cexpression_elem_CExpressionDQ) }, |
| { "CExpressionSQ", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionSQ, 0, 0, sizeof(impl_Cexpression_elem_CExpressionSQ) }, |
| { "CExpressionPack", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionPack, 0, 0, sizeof(impl_Cexpression_elem_CExpressionPack) }, |
| { "CExpressionArray", 1, false, phylum_Cexpression_elem, kc_subphyla_CExpressionArray, 0, 0, sizeof(impl_Cexpression_elem_CExpressionArray) }, |
| { "NilCexpressionDQ", 0, false, phylum_CexpressionDQ, 0, 0, 0, sizeof(impl_CexpressionDQ) }, |
| { "ConsCexpressionDQ", 2, false, phylum_CexpressionDQ, kc_subphyla_ConsCexpressionDQ, 0, 0, sizeof(impl_CexpressionDQ) }, |
| { "CExpressionDQPart", 1, false, phylum_CexpressionDQ_elem, kc_subphyla_CExpressionDQPart, 0, 0, sizeof(impl_CexpressionDQ_elem_CExpressionDQPart) }, |
| { "CExpressionDQNl", 0, false, phylum_CexpressionDQ_elem, 0, 0, 0, sizeof(impl_CexpressionDQ_elem_CExpressionDQNl) }, |
| { "NilCexpressionSQ", 0, false, phylum_CexpressionSQ, 0, 0, 0, sizeof(impl_CexpressionSQ) }, |
| { "ConsCexpressionSQ", 2, false, phylum_CexpressionSQ, kc_subphyla_ConsCexpressionSQ, 0, 0, sizeof(impl_CexpressionSQ) }, |
| { "CExpressionSQPart", 1, false, phylum_CexpressionSQ_elem, kc_subphyla_CExpressionSQPart, 0, 0, sizeof(impl_CexpressionSQ_elem_CExpressionSQPart) }, |
| { "CExpressionSQNl", 0, false, phylum_CexpressionSQ_elem, 0, 0, 0, sizeof(impl_CexpressionSQ_elem_CExpressionSQNl) }, |
| { "NilidCexpressions", 0, false, phylum_idCexpressions, 0, 0, 0, sizeof(impl_idCexpressions) }, |
| { "ConsidCexpressions", 2, false, phylum_idCexpressions, kc_subphyla_ConsidCexpressions, 0, 0, sizeof(impl_idCexpressions) }, |
| { "IdCexpression", 2, false, phylum_idCexpression, kc_subphyla_IdCexpression, 0, 0, sizeof(impl_idCexpression_IdCexpression) }, |
| { "NilCtexts", 0, false, phylum_Ctexts, 0, 0, 0, sizeof(impl_Ctexts) }, |
| { "ConsCtexts", 2, false, phylum_Ctexts, kc_subphyla_ConsCtexts, 0, 0, sizeof(impl_Ctexts) }, |
| { "Nilincludefiles", 0, false, phylum_includefiles, 0, 0, 0, sizeof(impl_includefiles) }, |
| { "Consincludefiles", 2, false, phylum_includefiles, kc_subphyla_Consincludefiles, 0, 0, sizeof(impl_includefiles) }, |
| { "IncludeFile", 1, false, phylum_includefile, kc_subphyla_IncludeFile, 0, 0, sizeof(impl_includefile_IncludeFile) }, |
| { "Nilincludedeclarations", 0, false, phylum_includedeclarations, 0, 0, 0, sizeof(impl_includedeclarations) }, |
| { "Consincludedeclarations", 2, false, phylum_includedeclarations, kc_subphyla_Consincludedeclarations, 0, 0, sizeof(impl_includedeclarations) }, |
| { "IncludeDeclaration", 1, false, phylum_includedeclaration, kc_subphyla_IncludeDeclaration, 0, 0, sizeof(impl_includedeclaration_IncludeDeclaration) }, |
| { "Nilrwdeclarations", 0, false, phylum_rwdeclarations, 0, 0, 0, sizeof(impl_rwdeclarations) }, |
| { "Consrwdeclarations", 2, false, phylum_rwdeclarations, kc_subphyla_Consrwdeclarations, 0, 0, sizeof(impl_rwdeclarations) }, |
| { "RwDeclaration", 2, false, phylum_rwdeclaration, kc_subphyla_RwDeclaration, 0, 0, sizeof(impl_rwdeclaration_RwDeclaration) }, |
| { "Nilrewriteclauses", 0, false, phylum_rewriteclauses, 0, 0, 0, sizeof(impl_rewriteclauses) }, |
| { "Consrewriteclauses", 2, false, phylum_rewriteclauses, kc_subphyla_Consrewriteclauses, 0, 0, sizeof(impl_rewriteclauses) }, |
| { "RewriteClause", 2, false, phylum_rewriteclause, kc_subphyla_RewriteClause, 0, 0, sizeof(impl_rewriteclause_RewriteClause) }, |
| { "Nilpatternchains", 0, false, phylum_patternchains, 0, 0, 0, sizeof(impl_patternchains) }, |
| { "Conspatternchains", 2, false, phylum_patternchains, kc_subphyla_Conspatternchains, 0, 0, sizeof(impl_patternchains) }, |
| { "Nilpatternchain", 0, false, phylum_patternchain, 0, 0, 0, sizeof(impl_patternchain) }, |
| { "Conspatternchain", 2, false, phylum_patternchain, kc_subphyla_Conspatternchain, 0, 0, sizeof(impl_patternchain) }, |
| { "Niloutmostpatterns", 0, false, phylum_outmostpatterns, 0, 0, 0, sizeof(impl_outmostpatterns) }, |
| { "Consoutmostpatterns", 2, false, phylum_outmostpatterns, kc_subphyla_Consoutmostpatterns, 0, 0, sizeof(impl_outmostpatterns) }, |
| { "PatternchainitemOutmost", 1, false, phylum_patternchainitem, kc_subphyla_PatternchainitemOutmost, 0, 0, sizeof(impl_patternchainitem_PatternchainitemOutmost) }, |
| { "PatternchainitemGroup", 1, false, phylum_patternchainitem, kc_subphyla_PatternchainitemGroup, 0, 0, sizeof(impl_patternchainitem_PatternchainitemGroup) }, |
| { "PatternchainitemDollarid", 1, false, phylum_patternchainitem, kc_subphyla_PatternchainitemDollarid, 0, 0, sizeof(impl_patternchainitem_PatternchainitemDollarid) }, |
| { "OPOperatorWildcard", 2, false, phylum_outmostpattern, kc_subphyla_OPOperatorWildcard, 0, 0, sizeof(impl_outmostpattern_OPOperatorWildcard) }, |
| { "OPOperator", 3, false, phylum_outmostpattern, kc_subphyla_OPOperator, 0, 0, sizeof(impl_outmostpattern_OPOperator) }, |
| { "OPNonLeafVariable", 2, false, phylum_outmostpattern, kc_subphyla_OPNonLeafVariable, 0, 0, sizeof(impl_outmostpattern_OPNonLeafVariable) }, |
| { "OPWildcard", 1, false, phylum_outmostpattern, kc_subphyla_OPWildcard, 0, 0, sizeof(impl_outmostpattern_OPWildcard) }, |
| { "OPDefault", 1, false, phylum_outmostpattern, kc_subphyla_OPDefault, 0, 0, sizeof(impl_outmostpattern_OPDefault) }, |
| { "PVariable", 1, false, phylum_pattern, kc_subphyla_PVariable, 0, 0, sizeof(impl_pattern_PVariable) }, |
| { "POperator", 2, false, phylum_pattern, kc_subphyla_POperator, 0, 0, sizeof(impl_pattern_POperator) }, |
| { "PNonLeafVariable", 2, false, phylum_pattern, kc_subphyla_PNonLeafVariable, 0, 0, sizeof(impl_pattern_PNonLeafVariable) }, |
| { "PWildcard", 0, false, phylum_pattern, 0, 0, 0, sizeof(impl_pattern_PWildcard) }, |
| { "PStringLiteral", 1, false, phylum_pattern, kc_subphyla_PStringLiteral, 0, 0, sizeof(impl_pattern_PStringLiteral) }, |
| { "PIntLiteral", 1, false, phylum_pattern, kc_subphyla_PIntLiteral, 0, 0, sizeof(impl_pattern_PIntLiteral) }, |
| { "Nilpatterns", 0, false, phylum_patterns, 0, 0, 0, sizeof(impl_patterns) }, |
| { "Conspatterns", 2, false, phylum_patterns, kc_subphyla_Conspatterns, 0, 0, sizeof(impl_patterns) }, |
| { "TVariable", 1, false, phylum_term, kc_subphyla_TVariable, 0, 0, sizeof(impl_term_TVariable) }, |
| { "TOperator", 2, false, phylum_term, kc_subphyla_TOperator, 0, 0, sizeof(impl_term_TOperator) }, |
| { "TMethod", 3, false, phylum_term, kc_subphyla_TMethod, 0, 0, sizeof(impl_term_TMethod) }, |
| { "TMethodDot", 3, false, phylum_term, kc_subphyla_TMethodDot, 0, 0, sizeof(impl_term_TMethodDot) }, |
| { "TMemberVar", 2, false, phylum_term, kc_subphyla_TMemberVar, 0, 0, sizeof(impl_term_TMemberVar) }, |
| { "TMemberVarDot", 2, false, phylum_term, kc_subphyla_TMemberVarDot, 0, 0, sizeof(impl_term_TMemberVarDot) }, |
| { "TCTerm", 1, false, phylum_term, kc_subphyla_TCTerm, 0, 0, sizeof(impl_term_TCTerm) }, |
| { "TStringLiteral", 1, false, phylum_term, kc_subphyla_TStringLiteral, 0, 0, sizeof(impl_term_TStringLiteral) }, |
| { "TIntLiteral", 1, false, phylum_term, kc_subphyla_TIntLiteral, 0, 0, sizeof(impl_term_TIntLiteral) }, |
| { "Nilterms", 0, false, phylum_terms, 0, 0, 0, sizeof(impl_terms) }, |
| { "Consterms", 2, false, phylum_terms, kc_subphyla_Consterms, 0, 0, sizeof(impl_terms) }, |
| { "Nilfnfiles", 0, false, phylum_fnfiles, 0, 0, 0, sizeof(impl_fnfiles) }, |
| { "Consfnfiles", 2, false, phylum_fnfiles, kc_subphyla_Consfnfiles, 0, 0, sizeof(impl_fnfiles) }, |
| { "FnFile", 1, false, phylum_fnfile, kc_subphyla_FnFile, 0, 0, sizeof(impl_fnfile_FnFile) }, |
| { "Nilfndeclarations", 0, false, phylum_fndeclarations, 0, 0, 0, sizeof(impl_fndeclarations) }, |
| { "Consfndeclarations", 2, false, phylum_fndeclarations, kc_subphyla_Consfndeclarations, 0, 0, sizeof(impl_fndeclarations) }, |
| { "FnAcDeclaration", 7, false, phylum_fndeclaration, kc_subphyla_FnAcDeclaration, 0, 0, sizeof(impl_fndeclaration_FnAcDeclaration) }, |
| { "AcMemberDeclaration", 4, false, phylum_fndeclaration, kc_subphyla_AcMemberDeclaration, 0, 0, sizeof(impl_fndeclaration_AcMemberDeclaration) }, |
| { "GlobalFn", 0, false, phylum_fnclass, 0, 0, 0, sizeof(impl_fnclass_GlobalFn) }, |
| { "StaticFn", 1, false, phylum_fnclass, kc_subphyla_StaticFn, 0, 0, sizeof(impl_fnclass_StaticFn) }, |
| { "MemberFn", 0, false, phylum_fnclass, 0, 0, 0, sizeof(impl_fnclass_MemberFn) }, |
| { "ConstructorFn", 0, false, phylum_fnclass, 0, 0, 0, sizeof(impl_fnclass_ConstructorFn) }, |
| { "DestructorFn", 0, false, phylum_fnclass, 0, 0, 0, sizeof(impl_fnclass_DestructorFn) }, |
| { "ConvOperatorFn", 0, false, phylum_fnclass, 0, 0, 0, sizeof(impl_fnclass_ConvOperatorFn) }, |
| { "NilCtext", 0, false, phylum_Ctext, 0, 0, 0, sizeof(impl_Ctext) }, |
| { "ConsCtext", 2, false, phylum_Ctext, kc_subphyla_ConsCtext, 0, 0, sizeof(impl_Ctext) }, |
| { "CTextLine", 1, false, phylum_Ctext_elem, kc_subphyla_CTextLine, 0, 0, sizeof(impl_Ctext_elem_CTextLine) }, |
| { "CTextDollarVar", 1, false, phylum_Ctext_elem, kc_subphyla_CTextDollarVar, 0, 0, sizeof(impl_Ctext_elem_CTextDollarVar) }, |
| { "CTextNl", 1, false, phylum_Ctext_elem, kc_subphyla_CTextNl, 0, 0, sizeof(impl_Ctext_elem_CTextNl) }, |
| { "CTextCexpressionDQ", 1, false, phylum_Ctext_elem, kc_subphyla_CTextCexpressionDQ, 0, 0, sizeof(impl_Ctext_elem_CTextCexpressionDQ) }, |
| { "CTextCexpressionSQ", 1, false, phylum_Ctext_elem, kc_subphyla_CTextCexpressionSQ, 0, 0, sizeof(impl_Ctext_elem_CTextCexpressionSQ) }, |
| { "CTextCbody", 1, false, phylum_Ctext_elem, kc_subphyla_CTextCbody, 0, 0, sizeof(impl_Ctext_elem_CTextCbody) }, |
| { "CTextForeachexpression", 5, false, phylum_Ctext_elem, kc_subphyla_CTextForeachexpression, 0, 0, sizeof(impl_Ctext_elem_CTextForeachexpression) }, |
| { "CTextWithexpression", 3, false, phylum_Ctext_elem, kc_subphyla_CTextWithexpression, 0, 0, sizeof(impl_Ctext_elem_CTextWithexpression) }, |
| { "NoForeachAfter", 0, false, phylum_foreach_after, 0, 0, 0, sizeof(impl_foreach_after_NoForeachAfter) }, |
| { "ForeachAfter", 4, false, phylum_foreach_after, kc_subphyla_ForeachAfter, 0, 0, sizeof(impl_foreach_after_ForeachAfter) }, |
| { "InForeachContext", 1, false, phylum_contextinfo, kc_subphyla_InForeachContext, 0, 0, sizeof(impl_contextinfo_InForeachContext) }, |
| { "NotInForeachContext", 0, false, phylum_contextinfo, 0, 0, 0, sizeof(impl_contextinfo_NotInForeachContext) }, |
| { "Nilwithexpressions", 0, false, phylum_withexpressions, 0, 0, 0, sizeof(impl_withexpressions) }, |
| { "Conswithexpressions", 2, false, phylum_withexpressions, kc_subphyla_Conswithexpressions, 0, 0, sizeof(impl_withexpressions) }, |
| { "WEVariable", 1, false, phylum_withexpression, kc_subphyla_WEVariable, 0, 0, sizeof(impl_withexpression_WEVariable) }, |
| { "WECexpression", 1, false, phylum_withexpression, kc_subphyla_WECexpression, 0, 0, sizeof(impl_withexpression_WECexpression) }, |
| { "Nilwithcases", 0, false, phylum_withcases, 0, 0, 0, sizeof(impl_withcases) }, |
| { "Conswithcases", 2, false, phylum_withcases, kc_subphyla_Conswithcases, 0, 0, sizeof(impl_withcases) }, |
| { "Withcase", 2, false, phylum_withcase, kc_subphyla_Withcase, 0, 0, sizeof(impl_withcase_Withcase) }, |
| { "Nilunparsedeclarations", 0, false, phylum_unparsedeclarations, 0, 0, 0, sizeof(impl_unparsedeclarations) }, |
| { "Consunparsedeclarations", 2, false, phylum_unparsedeclarations, kc_subphyla_Consunparsedeclarations, 0, 0, sizeof(impl_unparsedeclarations) }, |
| { "UnparseDeclaration", 2, false, phylum_unparsedeclaration, kc_subphyla_UnparseDeclaration, 0, 0, sizeof(impl_unparsedeclaration_UnparseDeclaration) }, |
| { "Nilunparseclauses", 0, false, phylum_unparseclauses, 0, 0, 0, sizeof(impl_unparseclauses) }, |
| { "Consunparseclauses", 2, false, phylum_unparseclauses, kc_subphyla_Consunparseclauses, 0, 0, sizeof(impl_unparseclauses) }, |
| { "UnparseClause", 2, false, phylum_unparseclause, kc_subphyla_UnparseClause, 0, 0, sizeof(impl_unparseclause_UnparseClause) }, |
| { "Nilviewnames", 0, false, phylum_viewnames, 0, 0, 0, sizeof(impl_viewnames) }, |
| { "Consviewnames", 2, false, phylum_viewnames, kc_subphyla_Consviewnames, 0, 0, sizeof(impl_viewnames) }, |
| { "Nilunparseitems", 0, false, phylum_unparseitems, 0, 0, 0, sizeof(impl_unparseitems) }, |
| { "Consunparseitems", 2, false, phylum_unparseitems, kc_subphyla_Consunparseitems, 0, 0, sizeof(impl_unparseitems) }, |
| { "UnpStr", 3, false, phylum_unparseitem, kc_subphyla_UnpStr, 0, 0, sizeof(impl_unparseitem_UnpStr) }, |
| { "UnpSubexpr", 3, false, phylum_unparseitem, kc_subphyla_UnpSubexpr, 0, 0, sizeof(impl_unparseitem_UnpSubexpr) }, |
| { "UnpCtext", 2, false, phylum_unparseitem, kc_subphyla_UnpCtext, 0, 0, sizeof(impl_unparseitem_UnpCtext) }, |
| { "UnpBody", 2, false, phylum_unparseitem, kc_subphyla_UnpBody, 0, 0, sizeof(impl_unparseitem_UnpBody) }, |
| { "UViewVarDecl", 3, false, phylum_unparseitem, kc_subphyla_UViewVarDecl, 0, 0, sizeof(impl_unparseitem_UViewVarDecl) }, |
| { "UnpSubTerm", 1, false, phylum_unpsubterm, kc_subphyla_UnpSubTerm, 0, 0, sizeof(impl_unpsubterm_UnpSubTerm) }, |
| { "UnpDollarvarTerm", 1, false, phylum_unpsubterm, kc_subphyla_UnpDollarvarTerm, 0, 0, sizeof(impl_unpsubterm_UnpDollarvarTerm) }, |
| { "UnpSubAttr", 2, false, phylum_unpsubterm, kc_subphyla_UnpSubAttr, 0, 0, sizeof(impl_unpsubterm_UnpSubAttr) }, |
| { "UnpDollarvarAttr", 2, false, phylum_unpsubterm, kc_subphyla_UnpDollarvarAttr, 0, 0, sizeof(impl_unpsubterm_UnpDollarvarAttr) }, |
| { "UnpCastedVariable", 2, false, phylum_unpsubterm, kc_subphyla_UnpCastedVariable, 0, 0, sizeof(impl_unpsubterm_UnpCastedVariable) }, |
| { "Nilunpattributes", 0, false, phylum_unpattributes, 0, 0, 0, sizeof(impl_unpattributes) }, |
| { "Consunpattributes", 2, false, phylum_unpattributes, kc_subphyla_Consunpattributes, 0, 0, sizeof(impl_unpattributes) }, |
| { "NoViewname", 0, false, phylum_viewnameoption, 0, 0, 0, sizeof(impl_viewnameoption_NoViewname) }, |
| { "YesViewname", 1, false, phylum_viewnameoption, kc_subphyla_YesViewname, 0, 0, sizeof(impl_viewnameoption_YesViewname) }, |
| { "NoLanguagename", 0, false, phylum_languageoption, 0, 0, 0, sizeof(impl_languageoption_NoLanguagename) }, |
| { "LanguageList", 1, false, phylum_languageoption, kc_subphyla_LanguageList, 0, 0, sizeof(impl_languageoption_LanguageList) }, |
| { "Nillanguagenames", 0, false, phylum_languagenames, 0, 0, 0, sizeof(impl_languagenames) }, |
| { "Conslanguagenames", 2, false, phylum_languagenames, kc_subphyla_Conslanguagenames, 0, 0, sizeof(impl_languagenames) }, |
| { "FileLine", 0, false, phylum_fileline, 0, 0, 0, sizeof(impl_fileline_FileLine) }, |
| { "NoFileLine", 0, false, phylum_fileline, 0, 0, 0, sizeof(impl_fileline_NoFileLine) }, |
| { "PosNoFileLine", 0, false, phylum_fileline, 0, 0, 0, sizeof(impl_fileline_PosNoFileLine) }, |
| { "Nilscopetypefilelinestack", 0, false, phylum_scopetypefilelinestack, 0, 0, 0, sizeof(impl_scopetypefilelinestack) }, |
| { "Consscopetypefilelinestack", 2, false, phylum_scopetypefilelinestack, kc_subphyla_Consscopetypefilelinestack, 0, 0, sizeof(impl_scopetypefilelinestack) }, |
| { "ScopeTypeFileLine", 4, false, phylum_scopetypefileline, kc_subphyla_ScopeTypeFileLine, 0, 0, sizeof(impl_scopetypefileline_ScopeTypeFileLine) }, |
| { "ITUnknown", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITUnknown) }, |
| { "ITPredefinedPhylum", 1, false, phylum_IDtype, kc_subphyla_ITPredefinedPhylum, 0, 0, sizeof(impl_IDtype_ITPredefinedPhylum) }, |
| { "ITUserPhylum", 1, false, phylum_IDtype, kc_subphyla_ITUserPhylum, 0, 0, sizeof(impl_IDtype_ITUserPhylum) }, |
| { "ITPredefinedOperator", 2, false, phylum_IDtype, kc_subphyla_ITPredefinedOperator, 0, 0, sizeof(impl_IDtype_ITPredefinedOperator) }, |
| { "ITUserOperator", 2, false, phylum_IDtype, kc_subphyla_ITUserOperator, 0, 0, sizeof(impl_IDtype_ITUserOperator) }, |
| { "ITPredefinedStorageClass", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITPredefinedStorageClass) }, |
| { "ITStorageClass", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITStorageClass) }, |
| { "ITPredefinedUView", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITPredefinedUView) }, |
| { "ITUserUView", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITUserUView) }, |
| { "ITUViewVar", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITUViewVar) }, |
| { "ITPredefinedRView", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITPredefinedRView) }, |
| { "ITUserRView", 0, false, phylum_IDtype, 0, 0, 0, sizeof(impl_IDtype_ITUserRView) }, |
| { "ITUserFunction", 1, false, phylum_IDtype, kc_subphyla_ITUserFunction, 0, 0, sizeof(impl_IDtype_ITUserFunction) }, |
| { "ITPatternVariable", 2, false, phylum_IDtype, kc_subphyla_ITPatternVariable, 0, 0, sizeof(impl_IDtype_ITPatternVariable) }, |
| { "ITLanguageName", 1, false, phylum_IDtype, kc_subphyla_ITLanguageName, 0, 0, sizeof(impl_IDtype_ITLanguageName) }, |
| { "Niloperators", 0, false, phylum_operators, 0, 0, 0, sizeof(impl_operators) }, |
| { "Consoperators", 2, false, phylum_operators, kc_subphyla_Consoperators, 0, 0, sizeof(impl_operators) }, |
| { "Nilphyla", 0, false, phylum_phyla, 0, 0, 0, sizeof(impl_phyla) }, |
| { "Consphyla", 2, false, phylum_phyla, kc_subphyla_Consphyla, 0, 0, sizeof(impl_phyla) }, |
| { "Nilvariables", 0, false, phylum_variables, 0, 0, 0, sizeof(impl_variables) }, |
| { "Consvariables", 2, false, phylum_variables, kc_subphyla_Consvariables, 0, 0, sizeof(impl_variables) }, |
| { "DVAllowed", 0, false, phylum_dollarvarstatus, 0, 0, 0, sizeof(impl_dollarvarstatus_DVAllowed) }, |
| { "DVDisallowed", 0, false, phylum_dollarvarstatus, 0, 0, 0, sizeof(impl_dollarvarstatus_DVDisallowed) }, |
| { "Equal", 0, false, phylum_tribool, 0, 0, 0, sizeof(impl_tribool_Equal) }, |
| { "Smaller", 0, false, phylum_tribool, 0, 0, 0, sizeof(impl_tribool_Smaller) }, |
| { "Bigger", 0, false, phylum_tribool, 0, 0, 0, sizeof(impl_tribool_Bigger) }, |
| { "Nilpatternrepresentations", 0, false, phylum_patternrepresentations, 0, 0, 0, sizeof(impl_patternrepresentations) }, |
| { "Conspatternrepresentations", 2, false, phylum_patternrepresentations, kc_subphyla_Conspatternrepresentations, 0, 0, sizeof(impl_patternrepresentations) }, |
| { "Nilpatternrepresentation", 0, false, phylum_patternrepresentation, 0, 0, 0, sizeof(impl_patternrepresentation) }, |
| { "Conspatternrepresentation", 2, false, phylum_patternrepresentation, kc_subphyla_Conspatternrepresentation, 0, 0, sizeof(impl_patternrepresentation) }, |
| { "PRBinding", 2, false, phylum_elem_patternrepresentation, kc_subphyla_PRBinding, 0, 0, sizeof(impl_elem_patternrepresentation_PRBinding) }, |
| { "PRVarPredicate", 3, false, phylum_elem_patternrepresentation, kc_subphyla_PRVarPredicate, 0, 0, sizeof(impl_elem_patternrepresentation_PRVarPredicate) }, |
| { "PROperPredicate", 2, false, phylum_elem_patternrepresentation, kc_subphyla_PROperPredicate, 0, 0, sizeof(impl_elem_patternrepresentation_PROperPredicate) }, |
| { "PRUserPredicate", 1, false, phylum_elem_patternrepresentation, kc_subphyla_PRUserPredicate, 0, 0, sizeof(impl_elem_patternrepresentation_PRUserPredicate) }, |
| { "PRNonLeafBinding", 3, false, phylum_elem_patternrepresentation, kc_subphyla_PRNonLeafBinding, 0, 0, sizeof(impl_elem_patternrepresentation_PRNonLeafBinding) }, |
| { "PRWildcard", 1, false, phylum_elem_patternrepresentation, kc_subphyla_PRWildcard, 0, 0, sizeof(impl_elem_patternrepresentation_PRWildcard) }, |
| { "PRDefault", 0, false, phylum_elem_patternrepresentation, 0, 0, 0, sizeof(impl_elem_patternrepresentation_PRDefault) }, |
| { "PRStringLiteral", 2, false, phylum_elem_patternrepresentation, kc_subphyla_PRStringLiteral, 0, 0, sizeof(impl_elem_patternrepresentation_PRStringLiteral) }, |
| { "PRIntLiteral", 2, false, phylum_elem_patternrepresentation, kc_subphyla_PRIntLiteral, 0, 0, sizeof(impl_elem_patternrepresentation_PRIntLiteral) }, |
| { "Nilpath", 0, false, phylum_path, 0, 0, 0, sizeof(impl_path) }, |
| { "Conspath", 2, false, phylum_path, kc_subphyla_Conspath, 0, 0, sizeof(impl_path) }, |
| { "Nilpaths", 0, false, phylum_paths, 0, 0, 0, sizeof(impl_paths) }, |
| { "Conspaths", 2, false, phylum_paths, kc_subphyla_Conspaths, 0, 0, sizeof(impl_paths) }, |
| { "Nilargsnumbers", 0, false, phylum_argsnumbers, 0, 0, 0, sizeof(impl_argsnumbers) }, |
| { "Consargsnumbers", 2, false, phylum_argsnumbers, kc_subphyla_Consargsnumbers, 0, 0, sizeof(impl_argsnumbers) }, |
| { "Nilrewriterulesinfo", 0, false, phylum_rewriterulesinfo, 0, 0, 0, sizeof(impl_rewriterulesinfo) }, |
| { "Consrewriterulesinfo", 2, false, phylum_rewriterulesinfo, kc_subphyla_Consrewriterulesinfo, 0, 0, sizeof(impl_rewriterulesinfo) }, |
| { "Rewriteruleinfo", 3, false, phylum_rewriteruleinfo, kc_subphyla_Rewriteruleinfo, 0, 0, sizeof(impl_rewriteruleinfo_Rewriteruleinfo) }, |
| { "Nilwithcasesinfo", 0, false, phylum_withcasesinfo, 0, 0, 0, sizeof(impl_withcasesinfo) }, |
| { "Conswithcasesinfo", 2, false, phylum_withcasesinfo, kc_subphyla_Conswithcasesinfo, 0, 0, sizeof(impl_withcasesinfo) }, |
| { "Withcaseinfo", 3, false, phylum_withcaseinfo, kc_subphyla_Withcaseinfo, 0, 0, sizeof(impl_withcaseinfo_Withcaseinfo) }, |
| { "Nilrewriteviewsinfo", 0, false, phylum_rewriteviewsinfo, 0, 0, 0, sizeof(impl_rewriteviewsinfo) }, |
| { "Consrewriteviewsinfo", 2, false, phylum_rewriteviewsinfo, kc_subphyla_Consrewriteviewsinfo, 0, 0, sizeof(impl_rewriteviewsinfo) }, |
| { "Rewriteviewinfo", 2, false, phylum_rewriteviewinfo, kc_subphyla_Rewriteviewinfo, 0, 0, sizeof(impl_rewriteviewinfo_Rewriteviewinfo) }, |
| { "Nilunparseviewsinfo", 0, false, phylum_unparseviewsinfo, 0, 0, 0, sizeof(impl_unparseviewsinfo) }, |
| { "Consunparseviewsinfo", 2, false, phylum_unparseviewsinfo, kc_subphyla_Consunparseviewsinfo, 0, 0, sizeof(impl_unparseviewsinfo) }, |
| { "Unparseviewinfo", 2, false, phylum_unparseviewinfo, kc_subphyla_Unparseviewinfo, 0, 0, sizeof(impl_unparseviewinfo_Unparseviewinfo) }, |
| { "Nilunparsedeclsinfo", 0, false, phylum_unparsedeclsinfo, 0, 0, 0, sizeof(impl_unparsedeclsinfo) }, |
| { "Consunparsedeclsinfo", 2, false, phylum_unparsedeclsinfo, kc_subphyla_Consunparsedeclsinfo, 0, 0, sizeof(impl_unparsedeclsinfo) }, |
| { "Unparsedeclinfo", 3, false, phylum_unparsedeclinfo, kc_subphyla_Unparsedeclinfo, 0, 0, sizeof(impl_unparsedeclinfo_Unparsedeclinfo) }, |
| { "AcDeclaration", 2, false, phylum_ac_declaration, kc_subphyla_AcDeclaration, 0, 0, sizeof(impl_ac_declaration_AcDeclaration) }, |
| { "Nilac_declaration_list", 0, false, phylum_ac_declaration_list, 0, 0, 0, sizeof(impl_ac_declaration_list) }, |
| { "Consac_declaration_list", 2, false, phylum_ac_declaration_list, kc_subphyla_Consac_declaration_list, 0, 0, sizeof(impl_ac_declaration_list) }, |
| { "Nilac_declaration_specifiers", 0, false, phylum_ac_declaration_specifiers, 0, 0, 0, sizeof(impl_ac_declaration_specifiers) }, |
| { "Consac_declaration_specifiers", 2, false, phylum_ac_declaration_specifiers, kc_subphyla_Consac_declaration_specifiers, 0, 0, sizeof(impl_ac_declaration_specifiers) }, |
| { "AcDeclSpecStorageSpec", 1, false, phylum_ac_declaration_specifier, kc_subphyla_AcDeclSpecStorageSpec, 0, 0, sizeof(impl_ac_declaration_specifier_AcDeclSpecStorageSpec) }, |
| { "AcDeclSpecTypeSpec", 1, false, phylum_ac_declaration_specifier, kc_subphyla_AcDeclSpecTypeSpec, 0, 0, sizeof(impl_ac_declaration_specifier_AcDeclSpecTypeSpec) }, |
| { "AcDeclSpecTypeQual", 1, false, phylum_ac_declaration_specifier, kc_subphyla_AcDeclSpecTypeQual, 0, 0, sizeof(impl_ac_declaration_specifier_AcDeclSpecTypeQual) }, |
| { "AcAuto", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcAuto) }, |
| { "AcRegister", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcRegister) }, |
| { "AcStatic", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcStatic) }, |
| { "AcExtern", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcExtern) }, |
| { "AcTypedef", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcTypedef) }, |
| { "AcVirtual", 0, false, phylum_ac_storage_class_specifier, 0, 0, 0, sizeof(impl_ac_storage_class_specifier_AcVirtual) }, |
| { "AcTypeSpec", 1, false, phylum_ac_type_specifier, kc_subphyla_AcTypeSpec, 0, 0, sizeof(impl_ac_type_specifier_AcTypeSpec) }, |
| { "AcConst", 0, false, phylum_ac_type_qualifier, 0, 0, 0, sizeof(impl_ac_type_qualifier_AcConst) }, |
| { "AcVolatile", 0, false, phylum_ac_type_qualifier, 0, 0, 0, sizeof(impl_ac_type_qualifier_AcVolatile) }, |
| { "AcUnsigned", 0, false, phylum_ac_type_qualifier, 0, 0, 0, sizeof(impl_ac_type_qualifier_AcUnsigned) }, |
| { "AcNoQualifier", 0, false, phylum_ac_type_qualifier, 0, 0, 0, sizeof(impl_ac_type_qualifier_AcNoQualifier) }, |
| { "Nilac_init_declarator_list", 0, false, phylum_ac_init_declarator_list, 0, 0, 0, sizeof(impl_ac_init_declarator_list) }, |
| { "Consac_init_declarator_list", 2, false, phylum_ac_init_declarator_list, kc_subphyla_Consac_init_declarator_list, 0, 0, sizeof(impl_ac_init_declarator_list) }, |
| { "AcInitDecl", 1, false, phylum_ac_init_declarator, kc_subphyla_AcInitDecl, 0, 0, sizeof(impl_ac_init_declarator_AcInitDecl) }, |
| { "AcDeclarator", 3, false, phylum_ac_declarator, kc_subphyla_AcDeclarator, 0, 0, sizeof(impl_ac_declarator_AcDeclarator) }, |
| { "AcDirectDeclId", 1, false, phylum_ac_direct_declarator, kc_subphyla_AcDirectDeclId, 0, 0, sizeof(impl_ac_direct_declarator_AcDirectDeclId) }, |
| { "AcDirectDeclPack", 1, false, phylum_ac_direct_declarator, kc_subphyla_AcDirectDeclPack, 0, 0, sizeof(impl_ac_direct_declarator_AcDirectDeclPack) }, |
| { "AcDirectDeclArray", 2, false, phylum_ac_direct_declarator, kc_subphyla_AcDirectDeclArray, 0, 0, sizeof(impl_ac_direct_declarator_AcDirectDeclArray) }, |
| { "AcDirectDeclProto", 2, false, phylum_ac_direct_declarator, kc_subphyla_AcDirectDeclProto, 0, 0, sizeof(impl_ac_direct_declarator_AcDirectDeclProto) }, |
| { "AcQualifiedDeclProto", 4, false, phylum_ac_direct_declarator, kc_subphyla_AcQualifiedDeclProto, 0, 0, sizeof(impl_ac_direct_declarator_AcQualifiedDeclProto) }, |
| { "AcMemberDecl", 3, false, phylum_ac_direct_declarator, kc_subphyla_AcMemberDecl, 0, 0, sizeof(impl_ac_direct_declarator_AcMemberDecl) }, |
| { "AcConvOperatorDecl", 2, false, phylum_ac_direct_declarator, kc_subphyla_AcConvOperatorDecl, 0, 0, sizeof(impl_ac_direct_declarator_AcConvOperatorDecl) }, |
| { "AcOperatorDeclId", 1, false, phylum_ac_direct_declarator, kc_subphyla_AcOperatorDeclId, 0, 0, sizeof(impl_ac_direct_declarator_AcOperatorDeclId) }, |
| { "Nopointer", 0, false, phylum_ac_pointer_option, 0, 0, 0, sizeof(impl_ac_pointer_option_Nopointer) }, |
| { "Yespointer", 1, false, phylum_ac_pointer_option, kc_subphyla_Yespointer, 0, 0, sizeof(impl_ac_pointer_option_Yespointer) }, |
| { "AcPointerNil", 1, false, phylum_ac_pointer, kc_subphyla_AcPointerNil, 0, 0, sizeof(impl_ac_pointer_AcPointerNil) }, |
| { "AcPointerCons", 2, false, phylum_ac_pointer, kc_subphyla_AcPointerCons, 0, 0, sizeof(impl_ac_pointer_AcPointerCons) }, |
| { "AcNoRef", 0, false, phylum_ac_ref_option, 0, 0, 0, sizeof(impl_ac_ref_option_AcNoRef) }, |
| { "AcRef", 0, false, phylum_ac_ref_option, 0, 0, 0, sizeof(impl_ac_ref_option_AcRef) }, |
| { "AcOperatorName", 1, false, phylum_ac_operator_name, kc_subphyla_AcOperatorName, 0, 0, sizeof(impl_ac_operator_name_AcOperatorName) }, |
| { "Nilac_class_qualifier_help_list", 0, false, phylum_ac_class_qualifier_help_list, 0, 0, 0, sizeof(impl_ac_class_qualifier_help_list) }, |
| { "Consac_class_qualifier_help_list", 2, false, phylum_ac_class_qualifier_help_list, kc_subphyla_Consac_class_qualifier_help_list, 0, 0, sizeof(impl_ac_class_qualifier_help_list) }, |
| { "Nilac_class_qualifier_list", 0, false, phylum_ac_class_qualifier_list, 0, 0, 0, sizeof(impl_ac_class_qualifier_list) }, |
| { "Consac_class_qualifier_list", 2, false, phylum_ac_class_qualifier_list, kc_subphyla_Consac_class_qualifier_list, 0, 0, sizeof(impl_ac_class_qualifier_list) }, |
| { "Nilac_type_qualifier_list", 0, false, phylum_ac_type_qualifier_list, 0, 0, 0, sizeof(impl_ac_type_qualifier_list) }, |
| { "Consac_type_qualifier_list", 2, false, phylum_ac_type_qualifier_list, kc_subphyla_Consac_type_qualifier_list, 0, 0, sizeof(impl_ac_type_qualifier_list) }, |
| { "AcParList", 1, false, phylum_ac_parameter_type_list, kc_subphyla_AcParList, 0, 0, sizeof(impl_ac_parameter_type_list_AcParList) }, |
| { "AcParList3Dot", 1, false, phylum_ac_parameter_type_list, kc_subphyla_AcParList3Dot, 0, 0, sizeof(impl_ac_parameter_type_list_AcParList3Dot) }, |
| { "Nilac_parameter_list", 0, false, phylum_ac_parameter_list, 0, 0, 0, sizeof(impl_ac_parameter_list) }, |
| { "Consac_parameter_list", 2, false, phylum_ac_parameter_list, kc_subphyla_Consac_parameter_list, 0, 0, sizeof(impl_ac_parameter_list) }, |
| { "AcParDeclDecl", 3, false, phylum_ac_parameter_declaration, kc_subphyla_AcParDeclDecl, 0, 0, sizeof(impl_ac_parameter_declaration_AcParDeclDecl) }, |
| { "AcParDeclAbsdecl", 3, false, phylum_ac_parameter_declaration, kc_subphyla_AcParDeclAbsdecl, 0, 0, sizeof(impl_ac_parameter_declaration_AcParDeclAbsdecl) }, |
| { "Nilac_identifier_list", 0, false, phylum_ac_identifier_list, 0, 0, 0, sizeof(impl_ac_identifier_list) }, |
| { "Consac_identifier_list", 2, false, phylum_ac_identifier_list, kc_subphyla_Consac_identifier_list, 0, 0, sizeof(impl_ac_identifier_list) }, |
| { "AcAbsdeclPointer", 1, false, phylum_ac_abstract_declarator, kc_subphyla_AcAbsdeclPointer, 0, 0, sizeof(impl_ac_abstract_declarator_AcAbsdeclPointer) }, |
| { "AcAbsdeclDirdecl", 2, false, phylum_ac_abstract_declarator, kc_subphyla_AcAbsdeclDirdecl, 0, 0, sizeof(impl_ac_abstract_declarator_AcAbsdeclDirdecl) }, |
| { "Noac_direct_abstract_declarator", 0, false, phylum_ac_direct_abstract_declarator_option, 0, 0, 0, sizeof(impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator) }, |
| { "Yesac_direct_abstract_declarator", 1, false, phylum_ac_direct_abstract_declarator_option, kc_subphyla_Yesac_direct_abstract_declarator, 0, 0, sizeof(impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator) }, |
| { "AcDirAbsdeclPack", 1, false, phylum_ac_direct_abstract_declarator, kc_subphyla_AcDirAbsdeclPack, 0, 0, sizeof(impl_ac_direct_abstract_declarator_AcDirAbsdeclPack) }, |
| { "AcDirAbsdeclArray", 2, false, phylum_ac_direct_abstract_declarator, kc_subphyla_AcDirAbsdeclArray, 0, 0, sizeof(impl_ac_direct_abstract_declarator_AcDirAbsdeclArray) }, |
| { "AcDirAbsdeclFn", 2, false, phylum_ac_direct_abstract_declarator, kc_subphyla_AcDirAbsdeclFn, 0, 0, sizeof(impl_ac_direct_abstract_declarator_AcDirAbsdeclFn) }, |
| { "Yesac_constant_expression", 1, false, phylum_ac_constant_expression_option, kc_subphyla_Yesac_constant_expression, 0, 0, sizeof(impl_ac_constant_expression_option_Yesac_constant_expression) }, |
| { "Noac_constant_expression", 0, false, phylum_ac_constant_expression_option, 0, 0, 0, sizeof(impl_ac_constant_expression_option_Noac_constant_expression) }, |
| { "AcConstExpr", 1, false, phylum_ac_constant_expression, kc_subphyla_AcConstExpr, 0, 0, sizeof(impl_ac_constant_expression_AcConstExpr) }, |
| { "Nilac_constant_expression_list", 0, false, phylum_ac_constant_expression_list, 0, 0, 0, sizeof(impl_ac_constant_expression_list) }, |
| { "Consac_constant_expression_list", 2, false, phylum_ac_constant_expression_list, kc_subphyla_Consac_constant_expression_list, 0, 0, sizeof(impl_ac_constant_expression_list) }, |
| { "AcNoBaseInit", 0, false, phylum_ac_opt_base_init_list, 0, 0, 0, sizeof(impl_ac_opt_base_init_list_AcNoBaseInit) }, |
| { "AcYesBaseInit", 1, false, phylum_ac_opt_base_init_list, kc_subphyla_AcYesBaseInit, 0, 0, sizeof(impl_ac_opt_base_init_list_AcYesBaseInit) }, |
| { "Nilac_base_init_list", 0, false, phylum_ac_base_init_list, 0, 0, 0, sizeof(impl_ac_base_init_list) }, |
| { "Consac_base_init_list", 2, false, phylum_ac_base_init_list, kc_subphyla_Consac_base_init_list, 0, 0, sizeof(impl_ac_base_init_list) }, |
| { "AcBaseInit", 2, false, phylum_ac_base_init, kc_subphyla_AcBaseInit, 0, 0, sizeof(impl_ac_base_init_AcBaseInit) }, |
| { "Nilbaseclass_declarations", 0, false, phylum_baseclass_declarations, 0, 0, 0, sizeof(impl_baseclass_declarations) }, |
| { "Consbaseclass_declarations", 2, false, phylum_baseclass_declarations, kc_subphyla_Consbaseclass_declarations, 0, 0, sizeof(impl_baseclass_declarations) }, |
| { "BaseClassDecl", 2, false, phylum_baseclass_decl, kc_subphyla_BaseClassDecl, 0, 0, sizeof(impl_baseclass_decl_BaseClassDecl) }, |
| { "Nilbaseclass_list", 0, false, phylum_baseclass_list, 0, 0, 0, sizeof(impl_baseclass_list) }, |
| { "Consbaseclass_list", 2, false, phylum_baseclass_list, kc_subphyla_Consbaseclass_list, 0, 0, sizeof(impl_baseclass_list) }, |
| { "Fatal", 2, false, phylum_error, kc_subphyla_Fatal, 0, 0, sizeof(impl_error_Fatal) }, |
| { "NonFatal", 2, false, phylum_error, kc_subphyla_NonFatal, 0, 0, sizeof(impl_error_NonFatal) }, |
| { "Warning", 2, false, phylum_error, kc_subphyla_Warning, 0, 0, sizeof(impl_error_Warning) }, |
| { "Problem1", 1, false, phylum_problem, kc_subphyla_Problem1, 0, 0, sizeof(impl_problem_Problem1) }, |
| { "Problem1ID", 2, false, phylum_problem, kc_subphyla_Problem1ID, 0, 0, sizeof(impl_problem_Problem1ID) }, |
| { "Problem1tID", 2, false, phylum_problem, kc_subphyla_Problem1tID, 0, 0, sizeof(impl_problem_Problem1tID) }, |
| { "Problem1we", 2, false, phylum_problem, kc_subphyla_Problem1we, 0, 0, sizeof(impl_problem_Problem1we) }, |
| { "Problem1ID1ID", 4, false, phylum_problem, kc_subphyla_Problem1ID1ID, 0, 0, sizeof(impl_problem_Problem1ID1ID) }, |
| { "Problem1t1ID", 4, false, phylum_problem, kc_subphyla_Problem1t1ID, 0, 0, sizeof(impl_problem_Problem1t1ID) }, |
| { "Problem1INT", 2, false, phylum_problem, kc_subphyla_Problem1INT, 0, 0, sizeof(impl_problem_Problem1INT) }, |
| { "Problem1int1", 3, false, phylum_problem, kc_subphyla_Problem1int1, 0, 0, sizeof(impl_problem_Problem1int1) }, |
| { "Problem1INT1ID", 4, false, phylum_problem, kc_subphyla_Problem1INT1ID, 0, 0, sizeof(impl_problem_Problem1INT1ID) }, |
| { "Problem1ID1ID1ID", 6, false, phylum_problem, kc_subphyla_Problem1ID1ID1ID, 0, 0, sizeof(impl_problem_Problem1ID1ID1ID) }, |
| { "Problem1INT1ID1ID", 6, false, phylum_problem, kc_subphyla_Problem1INT1ID1ID, 0, 0, sizeof(impl_problem_Problem1INT1ID1ID) }, |
| { "Problem1storageoption1ID", 4, false, phylum_problem, kc_subphyla_Problem1storageoption1ID, 0, 0, sizeof(impl_problem_Problem1storageoption1ID) }, |
| { "Problem2", 2, false, phylum_problem, kc_subphyla_Problem2, 0, 0, sizeof(impl_problem_Problem2) }, |
| { "Problem3", 3, false, phylum_problem, kc_subphyla_Problem3, 0, 0, sizeof(impl_problem_Problem3) }, |
| { "Problem3int1", 5, false, phylum_problem, kc_subphyla_Problem3int1, 0, 0, sizeof(impl_problem_Problem3int1) }, |
| { "Problem4", 4, false, phylum_problem, kc_subphyla_Problem4, 0, 0, sizeof(impl_problem_Problem4) }, |
| { "Problem5", 5, false, phylum_problem, kc_subphyla_Problem5, 0, 0, sizeof(impl_problem_Problem5) }, |
| { "Problem6", 6, false, phylum_problem, kc_subphyla_Problem6, 0, 0, sizeof(impl_problem_Problem6) }, |
| { "Niladdedphylumdeclarations", 0, false, phylum_addedphylumdeclarations, 0, 0, 0, sizeof(impl_addedphylumdeclarations) }, |
| { "Consaddedphylumdeclarations", 2, false, phylum_addedphylumdeclarations, kc_subphyla_Consaddedphylumdeclarations, 0, 0, sizeof(impl_addedphylumdeclarations) }, |
| { "AddedPhylumdeclaration", 1, false, phylum_addedphylumdeclaration, kc_subphyla_AddedPhylumdeclaration, 0, 0, sizeof(impl_addedphylumdeclaration_AddedPhylumdeclaration) }, |
| { "Nilcountedphylumdeclarations", 0, false, phylum_countedphylumdeclarations, 0, 0, 0, sizeof(impl_countedphylumdeclarations) }, |
| { "Conscountedphylumdeclarations", 2, false, phylum_countedphylumdeclarations, kc_subphyla_Conscountedphylumdeclarations, 0, 0, sizeof(impl_countedphylumdeclarations) }, |
| { "CountedPhylumdeclaration", 1, false, phylum_countedphylumdeclaration, kc_subphyla_CountedPhylumdeclaration, 0, 0, sizeof(impl_countedphylumdeclaration_CountedPhylumdeclaration) }, |
| { "Newlines", 0, false, phylum_charruns, 0, 0, 0, sizeof(impl_charruns_Newlines) }, |
| { "QuotedNewlines", 0, false, phylum_charruns, 0, 0, 0, sizeof(impl_charruns_QuotedNewlines) }, |
| { "Stars", 0, false, phylum_charruns, 0, 0, 0, sizeof(impl_charruns_Stars) }, |
| { "Nilbindingidmarks", 0, false, phylum_bindingidmarks, 0, 0, 0, sizeof(impl_bindingidmarks) }, |
| { "Consbindingidmarks", 2, false, phylum_bindingidmarks, kc_subphyla_Consbindingidmarks, 0, 0, sizeof(impl_bindingidmarks) }, |
| { "BindingIdMark", 1, false, phylum_bindingidmark, kc_subphyla_BindingIdMark, 0, 0, sizeof(impl_bindingidmark_BindingIdMark) }, |
| { "", 0, 0, one_before_first_phylum, 0, 0, 0, 0 } /* last element */ |
| }; |
| |
| static enum_phyla phylumstorageclass_uniq[] = { one_before_first_phylum, phylum_nocasestring, phylum_casestring, phylum_real, phylum_integer, phylum_voidptr, phylum_uniqID, phylum_includefile, phylum_fnfile, phylum_countedphylumdeclaration, phylum_charruns, phylum_bindingidmarks, phylum_bindingidmark, last_phylum }; |
| |
| KC_UNIQ_INFO kc_UniqInfo[] = { |
| (KC_UNIQ_INFO)0, |
| phylumstorageclass_uniq |
| }; |
| |
| } // namespace kc |
| namespace kc { } |
| using namespace kc; |
| /* included stuff */ |
| #include "gutil.h" |
| |
| // |
| // The Termprocessor Kimwitu++ |
| // |
| // Copyright (C) 1991 University of Twente, Dept TIOS. |
| // Copyright (C) 1998-2003 Humboldt-University of Berlin, Institute of Informatics |
| // All rights reserved. |
| // |
| // Kimwitu++ is free software; you can redistribute it and/or modify |
| // it under the terms of the GNU General Public License as published by |
| // the Free Software Foundation; either version 2 of the License, or |
| // (at your option) any later version. |
| // |
| // Kimwitu++ is distributed in the hope that it will be useful, |
| // but WITHOUT ANY WARRANTY; without even the implied warranty of |
| // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| // GNU General Public License for more details. |
| // |
| // You should have received a copy of the GNU General Public License |
| // along with Kimwitu++; if not, write to the Free Software |
| // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
| // |
| |
| /* end included stuff */ |
| |
| |
| namespace kc { |
| |
| void |
| kc_no_default_in_with( const char *kc_func, int kc_line, const char *kc_file ) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=A2CT(KC_NO_DEFAULT_IN_WITH); |
| const _TCHAR* tkc_func=A2CT(kc_func); |
| const _TCHAR* tkc_file=A2CT(kc_file); |
| TRACE( format, tkc_func, tkc_file, kc_line ); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_file, kc_line)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, KC_NO_DEFAULT_IN_WITH, kc_func, kc_file, kc_line ); |
| #ifndef KC_NODEFAULT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void |
| kc_returnless_function( const char *kc_func, int kc_line, const char *kc_file ) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: function %s does not return a value, at %s:%d"); |
| const _TCHAR* tkc_func=A2CT(kc_func); |
| const _TCHAR* tkc_file=A2CT(kc_file); |
| TRACE( format, tkc_func, tkc_file, kc_line ); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_file, kc_line)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, "Internal Error: function %s does not return a value, at %s:%d", kc_func, kc_file, kc_line ); |
| #ifndef KC_NODEFAULT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void |
| kc_assertionFailed(const char *kc_fn, int kc_l) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: Assertion failed at %s:%d\n"); |
| const _TCHAR* tkc_func=A2CT(kc_fn); |
| TRACE( format, tkc_func, kc_l ); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_fn, kc_l)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, "Internal Error: Assertion failed at %s:%d\n", kc_fn, kc_l ); |
| #ifndef KC_ASSERT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void |
| kc_assertionReasonFailed(const char *kc_fn, int kc_l, const char *kc_s) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: Assertion failed at file %s:%d: %s\n"); |
| const _TCHAR* tkc_func=A2CT(kc_fn); |
| const _TCHAR* tkc_s=A2CT(kc_s); |
| TRACE( format, tkc_func, kc_l, tkc_s ); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_fn, kc_l)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, "Internal Error: Assertion failed at file %s:%d: %s\n", kc_fn, kc_l, kc_s ); |
| #ifndef KC_ASSERT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void |
| kc_assertionNonNullFailed(const char *kc_fn, int kc_l, const char *kc_str) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: Assertion failed at %s:%d: pointer %s is NULL\n"); |
| const _TCHAR* tkc_func=A2CT(kc_fn); |
| const _TCHAR* tkc_s=A2CT(kc_str); |
| TRACE( format , tkc_func, kc_l, tkc_s); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_fn, kc_l)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, "Internal Error: Assertion failed at %s:%d: pointer %s is NULL\n", kc_fn, kc_l, kc_str ); |
| #ifndef KC_ASSERT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void |
| kc_assertionOperatorInPhylumFailed(int kc_op, const char *kc_str1, const char *kc_str2, const char *kc_phy, const char *kc_fn, int kc_l) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: Assertion failed at %s:%d: illegal value for (%s) %s%s: %d not a valid operator\n"); |
| const _TCHAR* tkc_func=A2CT(kc_fn); |
| const _TCHAR* tkc_s1=A2CT(kc_str1); |
| const _TCHAR* tkc_s2=A2CT(kc_str2); |
| const _TCHAR* tname=A2CT(kc_phy); |
| if ((kc_op <= one_before_first_operator) || (kc_op >= last_operator)) { |
| TRACE (format, tkc_func, kc_l, tname, tkc_s1, tkc_s2, kc_op ); |
| } else { |
| format=_T("Internal Error: Assertion failed at %s:%d: illegal value for (%s) %s%s: %s (%d) is a value of %s\n"); |
| const _TCHAR* tname2=A2CT(operator_info[kc_op].name); |
| const _TCHAR* tname3=A2CT(phylum_info[operator_info[kc_op].phylum].name); |
| TRACE(format,tkc_func, kc_l, tname, tkc_s1, tkc_s2, tname2, kc_op, tname3 ); |
| } |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_fn, kc_l)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| if ((kc_op <= one_before_first_operator) || (kc_op >= last_operator)) { |
| fprintf( stderr, "Internal Error: Assertion failed at %s:%d: illegal value for (%s) %s%s: %d not a valid operator\n", |
| kc_fn, kc_l, kc_phy, kc_str1, kc_str2, kc_op ); |
| } else { |
| fprintf( stderr, "Internal Error: Assertion failed at %s:%d: illegal value for (%s) %s%s: %s (%d) is a value of %s\n", |
| kc_fn, kc_l, kc_phy, kc_str1, kc_str2, operator_info[kc_op].name, kc_op, phylum_info[operator_info[kc_op].phylum].name ); |
| } |
| #ifndef KC_ASSERT_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| |
| void kc_invalid_operator( const char *kc_func_prefix, enum_phyla kc_phy, int kc_line, const char *kc_file, enum_operators kc_oper ) |
| { |
| fflush(stdout); |
| #ifdef _AFX |
| USES_CONVERSION; |
| const _TCHAR* format=_T("Internal Error: invalid operator code in %s%s at %s:%d: %s\n"); |
| const _TCHAR* tkc_func=A2CT(kc_func_prefix); |
| const _TCHAR* tkc_file=A2CT(kc_file); |
| const _TCHAR* ts1=A2CT(phylumname_or_error( kc_phy )); |
| const _TCHAR* ts2=A2CT(kc_operatorname_or_error( kc_oper )); |
| TRACE( format, tkc_func, ts1, tkc_file, kc_line, ts2); |
| #ifdef _DEBUG |
| if (AfxAssertFailedLine(kc_file, kc_line)) |
| #endif |
| AfxDebugBreak(); |
| #else |
| fprintf( stderr, "Internal Error: invalid operator code in %s%s at %s:%d: %s\n", kc_func_prefix, phylumname_or_error( kc_phy ), kc_file, kc_line, kc_operatorname_or_error( kc_oper )); |
| #ifndef KC_INVALID_OPERATOR_NO_ABORT |
| abort(); |
| #else |
| exit( 1 ); |
| #endif |
| #endif |
| } |
| const enum_phyla impl_nocasestring::phylum_sel_ = phylum_nocasestring; |
| const enum_phyla impl_casestring::phylum_sel_ = phylum_casestring; |
| const enum_phyla impl_real::phylum_sel_ = phylum_real; |
| impl_real__Real::impl_real__Real(REAL _value) |
| : value(_value) { } |
| const enum_phyla impl_integer::phylum_sel_ = phylum_integer; |
| impl_integer__Int::impl_integer__Int(INTEGER _value) |
| : value(_value) { } |
| const enum_phyla impl_voidptr::phylum_sel_ = phylum_voidptr; |
| impl_voidptr__VoidPtr::impl_voidptr__VoidPtr(void* _pointer) |
| : pointer(_pointer) { } |
| const enum_phyla impl_uniqID::phylum_sel_ = phylum_uniqID; |
| impl_uniqID_Str::impl_uniqID_Str(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_ID::phylum_sel_ = phylum_ID; |
| impl_ID_Id::impl_ID_Id(uniqID _uniqID_1) |
| : uniqID_1(_uniqID_1) { } |
| const enum_phyla impl_INT::phylum_sel_ = phylum_INT; |
| impl_INT_Int::impl_INT_Int(integer _integer_1) |
| : integer_1(_integer_1) { } |
| const enum_phyla impl_STRING::phylum_sel_ = phylum_STRING; |
| impl_STRING_String::impl_STRING_String(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_phylumdeclarationsroot::phylum_sel_ = phylum_phylumdeclarationsroot; |
| impl_phylumdeclarationsroot_PhylumDeclarations::impl_phylumdeclarationsroot_PhylumDeclarations(phylumdeclarations _phylumdeclarations_1) |
| : phylumdeclarations_1(_phylumdeclarations_1) { } |
| const enum_phyla impl_phylumdeclarations::phylum_sel_ = phylum_phylumdeclarations; |
| impl_phylumdeclarations::impl_phylumdeclarations(phylumdeclaration p1 , phylumdeclarations p2) |
| : phylumdeclaration_1(p1), phylumdeclarations_1(p2) { } |
| const enum_phyla impl_phylumnames::phylum_sel_ = phylum_phylumnames; |
| impl_phylumnames::impl_phylumnames(ID p1 , phylumnames p2) |
| : ID_1(p1), phylumnames_1(p2) { } |
| const enum_phyla impl_phylumdeclaration::phylum_sel_ = phylum_phylumdeclaration; |
| impl_phylumdeclaration_PhylumDeclaration::impl_phylumdeclaration_PhylumDeclaration(ID _ID_1, storageoption _storageoption_1, productionblock _productionblock_1, Ccode_option _Ccode_option_1) |
| : ID_1(_ID_1), storageoption_1(_storageoption_1), productionblock_1(_productionblock_1), Ccode_option_1(_Ccode_option_1) { } |
| const enum_phyla impl_storageoption::phylum_sel_ = phylum_storageoption; |
| impl_storageoption_PositiveStorageOption::impl_storageoption_PositiveStorageOption(ID _ID_1) |
| : ID_1(_ID_1) { } |
| impl_storageoption_NegativeStorageOption::impl_storageoption_NegativeStorageOption(ID _ID_1) |
| : ID_1(_ID_1) { } |
| impl_storageoption_NoStorageOption::impl_storageoption_NoStorageOption() |
| { } |
| const enum_phyla impl_storageclasses::phylum_sel_ = phylum_storageclasses; |
| impl_storageclasses::impl_storageclasses(ID p1 , storageclasses p2) |
| : ID_1(p1), storageclasses_1(p2) { } |
| const enum_phyla impl_productionblock::phylum_sel_ = phylum_productionblock; |
| impl_productionblock_PredefinedAlternatives::impl_productionblock_PredefinedAlternatives(alternatives _alternatives_1) |
| : alternatives_1(_alternatives_1) { } |
| impl_productionblock_NonlistAlternatives::impl_productionblock_NonlistAlternatives(alternatives _alternatives_1) |
| : alternatives_1(_alternatives_1) { } |
| impl_productionblock_ListAlternatives::impl_productionblock_ListAlternatives(alternatives _alternatives_1, ID _ID_1) |
| : alternatives_1(_alternatives_1), ID_1(_ID_1) { } |
| impl_productionblock_Emptyproductionblock::impl_productionblock_Emptyproductionblock() |
| { } |
| const enum_phyla impl_alternatives::phylum_sel_ = phylum_alternatives; |
| impl_alternatives::impl_alternatives(alternative p1 , alternatives p2) |
| : alternative_1(p1), alternatives_1(p2) { } |
| const enum_phyla impl_alternative::phylum_sel_ = phylum_alternative; |
| impl_alternative_Alternative::impl_alternative_Alternative(ID _ID_1, arguments _arguments_1) |
| : ID_1(_ID_1), arguments_1(_arguments_1) { } |
| const enum_phyla impl_arguments::phylum_sel_ = phylum_arguments; |
| impl_arguments::impl_arguments(ID p1 , arguments p2) |
| : ID_1(p1), arguments_1(p2) { } |
| const enum_phyla impl_argument::phylum_sel_ = phylum_argument; |
| impl_argument_Argument::impl_argument_Argument(ID _ID_1, integer _integer_1) |
| : ID_1(_ID_1), integer_1(_integer_1) { } |
| const enum_phyla impl_Ccode_option::phylum_sel_ = phylum_Ccode_option; |
| impl_Ccode_option_CcodeOption::impl_Ccode_option_CcodeOption(attributes _attributes_1, Ctexts _Ctexts_1) |
| : attributes_1(_attributes_1), Ctexts_1(_Ctexts_1) { } |
| const enum_phyla impl_attributes::phylum_sel_ = phylum_attributes; |
| impl_attributes::impl_attributes(attribute p1 , attributes p2) |
| : attribute_1(p1), attributes_1(p2) { } |
| const enum_phyla impl_attribute::phylum_sel_ = phylum_attribute; |
| impl_attribute_Attribute::impl_attribute_Attribute(ID _ID_1, ID _ID_2, attribute_initialisation_option _attribute_initialisation_option_1) |
| : ID_1(_ID_1), ID_2(_ID_2), attribute_initialisation_option_1(_attribute_initialisation_option_1) { } |
| const enum_phyla impl_attribute_initialisation_option::phylum_sel_ = phylum_attribute_initialisation_option; |
| impl_attribute_initialisation_option_Yesattribute_initialisation::impl_attribute_initialisation_option_Yesattribute_initialisation(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_attribute_initialisation_option_Noattribute_initialisation::impl_attribute_initialisation_option_Noattribute_initialisation() |
| { } |
| const enum_phyla impl_Cexpression::phylum_sel_ = phylum_Cexpression; |
| impl_Cexpression::impl_Cexpression(Cexpression_elem p1 , Cexpression p2) |
| : Cexpression_elem_1(p1), Cexpression_1(p2) { } |
| const enum_phyla impl_Cexpression_elem::phylum_sel_ = phylum_Cexpression_elem; |
| impl_Cexpression_elem_CExpressionArray::impl_Cexpression_elem_CExpressionArray(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_Cexpression_elem_CExpressionPack::impl_Cexpression_elem_CExpressionPack(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_Cexpression_elem_CExpressionSQ::impl_Cexpression_elem_CExpressionSQ(CexpressionSQ _CexpressionSQ_1) |
| : CexpressionSQ_1(_CexpressionSQ_1) { } |
| impl_Cexpression_elem_CExpressionDQ::impl_Cexpression_elem_CExpressionDQ(CexpressionDQ _CexpressionDQ_1) |
| : CexpressionDQ_1(_CexpressionDQ_1) { } |
| impl_Cexpression_elem_CExpressionNl::impl_Cexpression_elem_CExpressionNl() |
| { } |
| impl_Cexpression_elem_CExpressionDollarvar::impl_Cexpression_elem_CExpressionDollarvar(INT _INT_1) |
| : INT_1(_INT_1) { } |
| impl_Cexpression_elem_CExpressionPart::impl_Cexpression_elem_CExpressionPart(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_CexpressionDQ::phylum_sel_ = phylum_CexpressionDQ; |
| impl_CexpressionDQ::impl_CexpressionDQ(CexpressionDQ_elem p1 , CexpressionDQ p2) |
| : CexpressionDQ_elem_1(p1), CexpressionDQ_1(p2) { } |
| const enum_phyla impl_CexpressionDQ_elem::phylum_sel_ = phylum_CexpressionDQ_elem; |
| impl_CexpressionDQ_elem_CExpressionDQNl::impl_CexpressionDQ_elem_CExpressionDQNl() |
| { } |
| impl_CexpressionDQ_elem_CExpressionDQPart::impl_CexpressionDQ_elem_CExpressionDQPart(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_CexpressionSQ::phylum_sel_ = phylum_CexpressionSQ; |
| impl_CexpressionSQ::impl_CexpressionSQ(CexpressionSQ_elem p1 , CexpressionSQ p2) |
| : CexpressionSQ_elem_1(p1), CexpressionSQ_1(p2) { } |
| const enum_phyla impl_CexpressionSQ_elem::phylum_sel_ = phylum_CexpressionSQ_elem; |
| impl_CexpressionSQ_elem_CExpressionSQNl::impl_CexpressionSQ_elem_CExpressionSQNl() |
| { } |
| impl_CexpressionSQ_elem_CExpressionSQPart::impl_CexpressionSQ_elem_CExpressionSQPart(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_idCexpressions::phylum_sel_ = phylum_idCexpressions; |
| impl_idCexpressions::impl_idCexpressions(idCexpression p1 , idCexpressions p2) |
| : idCexpression_1(p1), idCexpressions_1(p2) { } |
| const enum_phyla impl_idCexpression::phylum_sel_ = phylum_idCexpression; |
| impl_idCexpression_IdCexpression::impl_idCexpression_IdCexpression(ID _ID_1, Cexpression _Cexpression_1) |
| : ID_1(_ID_1), Cexpression_1(_Cexpression_1) { } |
| const enum_phyla impl_Ctexts::phylum_sel_ = phylum_Ctexts; |
| impl_Ctexts::impl_Ctexts(Ctext p1 , Ctexts p2) |
| : Ctext_1(p1), Ctexts_1(p2) { } |
| const enum_phyla impl_includefiles::phylum_sel_ = phylum_includefiles; |
| impl_includefiles::impl_includefiles(includefile p1 , includefiles p2) |
| : includefile_1(p1), includefiles_1(p2) { } |
| const enum_phyla impl_includefile::phylum_sel_ = phylum_includefile; |
| impl_includefile_IncludeFile::impl_includefile_IncludeFile(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_includedeclarations::phylum_sel_ = phylum_includedeclarations; |
| impl_includedeclarations::impl_includedeclarations(includedeclaration p1 , includedeclarations p2) |
| : includedeclaration_1(p1), includedeclarations_1(p2) { } |
| const enum_phyla impl_includedeclaration::phylum_sel_ = phylum_includedeclaration; |
| impl_includedeclaration_IncludeDeclaration::impl_includedeclaration_IncludeDeclaration(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_rwdeclarations::phylum_sel_ = phylum_rwdeclarations; |
| impl_rwdeclarations::impl_rwdeclarations(rwdeclaration p1 , rwdeclarations p2) |
| : rwdeclaration_1(p1), rwdeclarations_1(p2) { } |
| const enum_phyla impl_rwdeclaration::phylum_sel_ = phylum_rwdeclaration; |
| impl_rwdeclaration_RwDeclaration::impl_rwdeclaration_RwDeclaration(outmostpatterns _outmostpatterns_1, rewriteclauses _rewriteclauses_1) |
| : outmostpatterns_1(_outmostpatterns_1), rewriteclauses_1(_rewriteclauses_1) { } |
| const enum_phyla impl_rewriteclauses::phylum_sel_ = phylum_rewriteclauses; |
| impl_rewriteclauses::impl_rewriteclauses(rewriteclause p1 , rewriteclauses p2) |
| : rewriteclause_1(p1), rewriteclauses_1(p2) { } |
| const enum_phyla impl_rewriteclause::phylum_sel_ = phylum_rewriteclause; |
| impl_rewriteclause_RewriteClause::impl_rewriteclause_RewriteClause(viewnames _viewnames_1, term _term_1) |
| : viewnames_1(_viewnames_1), term_1(_term_1) { } |
| const enum_phyla impl_patternchains::phylum_sel_ = phylum_patternchains; |
| impl_patternchains::impl_patternchains(patternchain p1 , patternchains p2) |
| : patternchain_1(p1), patternchains_1(p2) { } |
| const enum_phyla impl_patternchain::phylum_sel_ = phylum_patternchain; |
| impl_patternchain::impl_patternchain(patternchainitem p1 , patternchain p2) |
| : patternchainitem_1(p1), patternchain_1(p2) { } |
| const enum_phyla impl_outmostpatterns::phylum_sel_ = phylum_outmostpatterns; |
| impl_outmostpatterns::impl_outmostpatterns(outmostpattern p1 , outmostpatterns p2) |
| : outmostpattern_1(p1), outmostpatterns_1(p2) { } |
| const enum_phyla impl_patternchainitem::phylum_sel_ = phylum_patternchainitem; |
| impl_patternchainitem_PatternchainitemDollarid::impl_patternchainitem_PatternchainitemDollarid(ID _ID_1) |
| : ID_1(_ID_1) { } |
| impl_patternchainitem_PatternchainitemGroup::impl_patternchainitem_PatternchainitemGroup(patternchains _patternchains_1) |
| : patternchains_1(_patternchains_1) { } |
| impl_patternchainitem_PatternchainitemOutmost::impl_patternchainitem_PatternchainitemOutmost(outmostpattern _outmostpattern_1) |
| : outmostpattern_1(_outmostpattern_1) { } |
| const enum_phyla impl_outmostpattern::phylum_sel_ = phylum_outmostpattern; |
| impl_outmostpattern_OPDefault::impl_outmostpattern_OPDefault(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_outmostpattern_OPWildcard::impl_outmostpattern_OPWildcard(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_outmostpattern_OPNonLeafVariable::impl_outmostpattern_OPNonLeafVariable(ID _ID_1, outmostpattern _outmostpattern_1) |
| : ID_1(_ID_1), outmostpattern_1(_outmostpattern_1) { } |
| impl_outmostpattern_OPOperator::impl_outmostpattern_OPOperator(ID _ID_1, patterns _patterns_1, Cexpression _Cexpression_1) |
| : ID_1(_ID_1), patterns_1(_patterns_1), Cexpression_1(_Cexpression_1) { } |
| impl_outmostpattern_OPOperatorWildcard::impl_outmostpattern_OPOperatorWildcard(ID _ID_1, Cexpression _Cexpression_1) |
| : ID_1(_ID_1), Cexpression_1(_Cexpression_1) { } |
| const enum_phyla impl_pattern::phylum_sel_ = phylum_pattern; |
| impl_pattern_PIntLiteral::impl_pattern_PIntLiteral(INT _INT_1) |
| : INT_1(_INT_1) { } |
| impl_pattern_PStringLiteral::impl_pattern_PStringLiteral(CexpressionDQ _CexpressionDQ_1) |
| : CexpressionDQ_1(_CexpressionDQ_1) { } |
| impl_pattern_PWildcard::impl_pattern_PWildcard() |
| { } |
| impl_pattern_PNonLeafVariable::impl_pattern_PNonLeafVariable(ID _ID_1, pattern _pattern_1) |
| : ID_1(_ID_1), pattern_1(_pattern_1) { } |
| impl_pattern_POperator::impl_pattern_POperator(ID _ID_1, patterns _patterns_1) |
| : ID_1(_ID_1), patterns_1(_patterns_1) { } |
| impl_pattern_PVariable::impl_pattern_PVariable(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_patterns::phylum_sel_ = phylum_patterns; |
| impl_patterns::impl_patterns(pattern p1 , patterns p2) |
| : pattern_1(p1), patterns_1(p2) { } |
| const enum_phyla impl_term::phylum_sel_ = phylum_term; |
| impl_term_TIntLiteral::impl_term_TIntLiteral(INT _INT_1) |
| : INT_1(_INT_1) { } |
| impl_term_TStringLiteral::impl_term_TStringLiteral(CexpressionDQ _CexpressionDQ_1) |
| : CexpressionDQ_1(_CexpressionDQ_1) { } |
| impl_term_TCTerm::impl_term_TCTerm(CexpressionSQ _CexpressionSQ_1) |
| : CexpressionSQ_1(_CexpressionSQ_1) { } |
| impl_term_TMemberVarDot::impl_term_TMemberVarDot(term _term_1, ID _ID_1) |
| : term_1(_term_1), ID_1(_ID_1) { } |
| impl_term_TMemberVar::impl_term_TMemberVar(term _term_1, ID _ID_1) |
| : term_1(_term_1), ID_1(_ID_1) { } |
| impl_term_TMethodDot::impl_term_TMethodDot(term _term_1, ID _ID_1, terms _terms_1) |
| : term_1(_term_1), ID_1(_ID_1), terms_1(_terms_1) { } |
| impl_term_TMethod::impl_term_TMethod(term _term_1, ID _ID_1, terms _terms_1) |
| : term_1(_term_1), ID_1(_ID_1), terms_1(_terms_1) { } |
| impl_term_TOperator::impl_term_TOperator(ID _ID_1, terms _terms_1) |
| : ID_1(_ID_1), terms_1(_terms_1) { } |
| impl_term_TVariable::impl_term_TVariable(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_terms::phylum_sel_ = phylum_terms; |
| impl_terms::impl_terms(term p1 , terms p2) |
| : term_1(p1), terms_1(p2) { } |
| const enum_phyla impl_fnfiles::phylum_sel_ = phylum_fnfiles; |
| impl_fnfiles::impl_fnfiles(fnfile p1 , fnfiles p2) |
| : fnfile_1(p1), fnfiles_1(p2) { } |
| const enum_phyla impl_fnfile::phylum_sel_ = phylum_fnfile; |
| impl_fnfile_FnFile::impl_fnfile_FnFile(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_fndeclarations::phylum_sel_ = phylum_fndeclarations; |
| impl_fndeclarations::impl_fndeclarations(fndeclaration p1 , fndeclarations p2) |
| : fndeclaration_1(p1), fndeclarations_1(p2) { } |
| const enum_phyla impl_fndeclaration::phylum_sel_ = phylum_fndeclaration; |
| impl_fndeclaration_AcMemberDeclaration::impl_fndeclaration_AcMemberDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1, fnclass _fnclass_1) |
| : ac_declaration_specifiers_1(_ac_declaration_specifiers_1), ac_declarator_1(_ac_declarator_1), ac_constant_expression_option_1(_ac_constant_expression_option_1), fnclass_1(_fnclass_1) { } |
| impl_fndeclaration_FnAcDeclaration::impl_fndeclaration_FnAcDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_declaration_list _ac_declaration_list_1, ac_opt_base_init_list _ac_opt_base_init_list_1, Ctext _Ctext_1, ID _ID_1, fnclass _fnclass_1) |
| : ac_declaration_specifiers_1(_ac_declaration_specifiers_1), ac_declarator_1(_ac_declarator_1), ac_declaration_list_1(_ac_declaration_list_1), ac_opt_base_init_list_1(_ac_opt_base_init_list_1), Ctext_1(_Ctext_1), ID_1(_ID_1), fnclass_1(_fnclass_1) { } |
| const enum_phyla impl_fnclass::phylum_sel_ = phylum_fnclass; |
| impl_fnclass_ConvOperatorFn::impl_fnclass_ConvOperatorFn() |
| { } |
| impl_fnclass_DestructorFn::impl_fnclass_DestructorFn() |
| { } |
| impl_fnclass_ConstructorFn::impl_fnclass_ConstructorFn() |
| { } |
| impl_fnclass_MemberFn::impl_fnclass_MemberFn() |
| { } |
| impl_fnclass_StaticFn::impl_fnclass_StaticFn(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| impl_fnclass_GlobalFn::impl_fnclass_GlobalFn() |
| { } |
| const enum_phyla impl_Ctext::phylum_sel_ = phylum_Ctext; |
| impl_Ctext::impl_Ctext(Ctext_elem p1 , Ctext p2) |
| : Ctext_elem_1(p1), Ctext_1(p2) { } |
| const enum_phyla impl_Ctext_elem::phylum_sel_ = phylum_Ctext_elem; |
| impl_Ctext_elem_CTextWithexpression::impl_Ctext_elem_CTextWithexpression(withexpressions _withexpressions_1, withcases _withcases_1, contextinfo _contextinfo_1) |
| : withexpressions_1(_withexpressions_1), withcases_1(_withcases_1), contextinfo_1(_contextinfo_1) { } |
| impl_Ctext_elem_CTextForeachexpression::impl_Ctext_elem_CTextForeachexpression(patternchain _patternchain_1, idCexpressions _idCexpressions_1, withexpressions _withexpressions_1, Ctext _Ctext_1, foreach_after _foreach_after_1) |
| : patternchain_1(_patternchain_1), idCexpressions_1(_idCexpressions_1), withexpressions_1(_withexpressions_1), Ctext_1(_Ctext_1), foreach_after_1(_foreach_after_1) { } |
| impl_Ctext_elem_CTextCbody::impl_Ctext_elem_CTextCbody(Ctext _Ctext_1) |
| : Ctext_1(_Ctext_1) { } |
| impl_Ctext_elem_CTextCexpressionSQ::impl_Ctext_elem_CTextCexpressionSQ(CexpressionSQ _CexpressionSQ_1) |
| : CexpressionSQ_1(_CexpressionSQ_1) { } |
| impl_Ctext_elem_CTextCexpressionDQ::impl_Ctext_elem_CTextCexpressionDQ(CexpressionDQ _CexpressionDQ_1) |
| : CexpressionDQ_1(_CexpressionDQ_1) { } |
| impl_Ctext_elem_CTextNl::impl_Ctext_elem_CTextNl(integer _integer_1) |
| : integer_1(_integer_1) { } |
| impl_Ctext_elem_CTextDollarVar::impl_Ctext_elem_CTextDollarVar(INT _INT_1) |
| : INT_1(_INT_1) { } |
| impl_Ctext_elem_CTextLine::impl_Ctext_elem_CTextLine(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_foreach_after::phylum_sel_ = phylum_foreach_after; |
| impl_foreach_after_ForeachAfter::impl_foreach_after_ForeachAfter(patternchain _patternchain_1, idCexpressions _idCexpressions_1, withexpressions _withexpressions_1, Ctext _Ctext_1) |
| : patternchain_1(_patternchain_1), idCexpressions_1(_idCexpressions_1), withexpressions_1(_withexpressions_1), Ctext_1(_Ctext_1) { } |
| impl_foreach_after_NoForeachAfter::impl_foreach_after_NoForeachAfter() |
| { } |
| const enum_phyla impl_contextinfo::phylum_sel_ = phylum_contextinfo; |
| impl_contextinfo_NotInForeachContext::impl_contextinfo_NotInForeachContext() |
| { } |
| impl_contextinfo_InForeachContext::impl_contextinfo_InForeachContext(patternchain _patternchain_1) |
| : patternchain_1(_patternchain_1) { } |
| const enum_phyla impl_withexpressions::phylum_sel_ = phylum_withexpressions; |
| impl_withexpressions::impl_withexpressions(withexpression p1 , withexpressions p2) |
| : withexpression_1(p1), withexpressions_1(p2) { } |
| const enum_phyla impl_withexpression::phylum_sel_ = phylum_withexpression; |
| impl_withexpression_WECexpression::impl_withexpression_WECexpression(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_withexpression_WEVariable::impl_withexpression_WEVariable(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_withcases::phylum_sel_ = phylum_withcases; |
| impl_withcases::impl_withcases(withcase p1 , withcases p2) |
| : withcase_1(p1), withcases_1(p2) { } |
| const enum_phyla impl_withcase::phylum_sel_ = phylum_withcase; |
| impl_withcase_Withcase::impl_withcase_Withcase(patternchains _patternchains_1, Ctext _Ctext_1) |
| : patternchains_1(_patternchains_1), Ctext_1(_Ctext_1) { } |
| const enum_phyla impl_unparsedeclarations::phylum_sel_ = phylum_unparsedeclarations; |
| impl_unparsedeclarations::impl_unparsedeclarations(unparsedeclaration p1 , unparsedeclarations p2) |
| : unparsedeclaration_1(p1), unparsedeclarations_1(p2) { } |
| const enum_phyla impl_unparsedeclaration::phylum_sel_ = phylum_unparsedeclaration; |
| impl_unparsedeclaration_UnparseDeclaration::impl_unparsedeclaration_UnparseDeclaration(outmostpatterns _outmostpatterns_1, unparseclauses _unparseclauses_1) |
| : outmostpatterns_1(_outmostpatterns_1), unparseclauses_1(_unparseclauses_1) { } |
| const enum_phyla impl_unparseclauses::phylum_sel_ = phylum_unparseclauses; |
| impl_unparseclauses::impl_unparseclauses(unparseclause p1 , unparseclauses p2) |
| : unparseclause_1(p1), unparseclauses_1(p2) { } |
| const enum_phyla impl_unparseclause::phylum_sel_ = phylum_unparseclause; |
| impl_unparseclause_UnparseClause::impl_unparseclause_UnparseClause(viewnames _viewnames_1, unparseitems _unparseitems_1) |
| : viewnames_1(_viewnames_1), unparseitems_1(_unparseitems_1) { } |
| const enum_phyla impl_viewnames::phylum_sel_ = phylum_viewnames; |
| impl_viewnames::impl_viewnames(ID p1 , viewnames p2) |
| : ID_1(p1), viewnames_1(p2) { } |
| const enum_phyla impl_unparseitems::phylum_sel_ = phylum_unparseitems; |
| impl_unparseitems::impl_unparseitems(unparseitem p1 , unparseitems p2) |
| : unparseitem_1(p1), unparseitems_1(p2) { } |
| const enum_phyla impl_unparseitem::phylum_sel_ = phylum_unparseitem; |
| impl_unparseitem_UViewVarDecl::impl_unparseitem_UViewVarDecl(ID _ID_1, ID _ID_2, Cexpression _Cexpression_1) |
| : ID_1(_ID_1), ID_2(_ID_2), Cexpression_1(_Cexpression_1) { } |
| impl_unparseitem_UnpBody::impl_unparseitem_UnpBody(languageoption _languageoption_1, unparseitems _unparseitems_1) |
| : languageoption_1(_languageoption_1), unparseitems_1(_unparseitems_1) { } |
| impl_unparseitem_UnpCtext::impl_unparseitem_UnpCtext(languageoption _languageoption_1, Ctext _Ctext_1) |
| : languageoption_1(_languageoption_1), Ctext_1(_Ctext_1) { } |
| impl_unparseitem_UnpSubexpr::impl_unparseitem_UnpSubexpr(languageoption _languageoption_1, unpsubterm _unpsubterm_1, viewnameoption _viewnameoption_1) |
| : languageoption_1(_languageoption_1), unpsubterm_1(_unpsubterm_1), viewnameoption_1(_viewnameoption_1) { } |
| impl_unparseitem_UnpStr::impl_unparseitem_UnpStr(languageoption _languageoption_1, CexpressionDQ _CexpressionDQ_1, viewnameoption _viewnameoption_1) |
| : languageoption_1(_languageoption_1), CexpressionDQ_1(_CexpressionDQ_1), viewnameoption_1(_viewnameoption_1) { } |
| const enum_phyla impl_unpsubterm::phylum_sel_ = phylum_unpsubterm; |
| impl_unpsubterm_UnpCastedVariable::impl_unpsubterm_UnpCastedVariable(ID _ID_1, ID _ID_2) |
| : ID_1(_ID_1), ID_2(_ID_2) { } |
| impl_unpsubterm_UnpDollarvarAttr::impl_unpsubterm_UnpDollarvarAttr(INT _INT_1, unpattributes _unpattributes_1) |
| : INT_1(_INT_1), unpattributes_1(_unpattributes_1) { } |
| impl_unpsubterm_UnpSubAttr::impl_unpsubterm_UnpSubAttr(ID _ID_1, unpattributes _unpattributes_1) |
| : ID_1(_ID_1), unpattributes_1(_unpattributes_1) { } |
| impl_unpsubterm_UnpDollarvarTerm::impl_unpsubterm_UnpDollarvarTerm(INT _INT_1) |
| : INT_1(_INT_1) { } |
| impl_unpsubterm_UnpSubTerm::impl_unpsubterm_UnpSubTerm(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_unpattributes::phylum_sel_ = phylum_unpattributes; |
| impl_unpattributes::impl_unpattributes(ID p1 , unpattributes p2) |
| : ID_1(p1), unpattributes_1(p2) { } |
| const enum_phyla impl_viewnameoption::phylum_sel_ = phylum_viewnameoption; |
| impl_viewnameoption_YesViewname::impl_viewnameoption_YesViewname(ID _ID_1) |
| : ID_1(_ID_1) { } |
| impl_viewnameoption_NoViewname::impl_viewnameoption_NoViewname() |
| { } |
| const enum_phyla impl_languageoption::phylum_sel_ = phylum_languageoption; |
| impl_languageoption_LanguageList::impl_languageoption_LanguageList(languagenames _languagenames_1) |
| : languagenames_1(_languagenames_1) { } |
| impl_languageoption_NoLanguagename::impl_languageoption_NoLanguagename() |
| { } |
| const enum_phyla impl_languagenames::phylum_sel_ = phylum_languagenames; |
| impl_languagenames::impl_languagenames(ID p1 , languagenames p2) |
| : ID_1(p1), languagenames_1(p2) { } |
| const enum_phyla impl_fileline::phylum_sel_ = phylum_fileline; |
| impl_fileline_PosNoFileLine::impl_fileline_PosNoFileLine() |
| { } |
| impl_fileline_NoFileLine::impl_fileline_NoFileLine() |
| { } |
| const enum_phyla impl_scopetypefilelinestack::phylum_sel_ = phylum_scopetypefilelinestack; |
| impl_scopetypefilelinestack::impl_scopetypefilelinestack(scopetypefileline p1 , scopetypefilelinestack p2) |
| : scopetypefileline_1(p1), scopetypefilelinestack_1(p2) { } |
| const enum_phyla impl_scopetypefileline::phylum_sel_ = phylum_scopetypefileline; |
| impl_scopetypefileline_ScopeTypeFileLine::impl_scopetypefileline_ScopeTypeFileLine(integer _integer_1, IDtype _IDtype_1, casestring _casestring_1, integer _integer_2) |
| : integer_1(_integer_1), IDtype_1(_IDtype_1), casestring_1(_casestring_1), integer_2(_integer_2) { } |
| const enum_phyla impl_IDtype::phylum_sel_ = phylum_IDtype; |
| impl_IDtype_ITLanguageName::impl_IDtype_ITLanguageName(integer _integer_1) |
| : integer_1(_integer_1) { } |
| impl_IDtype_ITPatternVariable::impl_IDtype_ITPatternVariable(ID _ID_1, integer _integer_1) |
| : ID_1(_ID_1), integer_1(_integer_1) { } |
| impl_IDtype_ITUserFunction::impl_IDtype_ITUserFunction(fnclass _fnclass_1) |
| : fnclass_1(_fnclass_1) { } |
| impl_IDtype_ITUserRView::impl_IDtype_ITUserRView() |
| { } |
| impl_IDtype_ITPredefinedRView::impl_IDtype_ITPredefinedRView() |
| { } |
| impl_IDtype_ITUViewVar::impl_IDtype_ITUViewVar() |
| { } |
| impl_IDtype_ITUserUView::impl_IDtype_ITUserUView() |
| { } |
| impl_IDtype_ITPredefinedUView::impl_IDtype_ITPredefinedUView() |
| { } |
| impl_IDtype_ITStorageClass::impl_IDtype_ITStorageClass() |
| { } |
| impl_IDtype_ITPredefinedStorageClass::impl_IDtype_ITPredefinedStorageClass() |
| { } |
| impl_IDtype_ITUserOperator::impl_IDtype_ITUserOperator(alternative _alternative_1, ID _ID_1) |
| : alternative_1(_alternative_1), ID_1(_ID_1) { } |
| impl_IDtype_ITPredefinedOperator::impl_IDtype_ITPredefinedOperator(alternative _alternative_1, ID _ID_1) |
| : alternative_1(_alternative_1), ID_1(_ID_1) { } |
| impl_IDtype_ITUserPhylum::impl_IDtype_ITUserPhylum(phylumdeclaration _phylumdeclaration_1) |
| : phylumdeclaration_1(_phylumdeclaration_1) { } |
| impl_IDtype_ITPredefinedPhylum::impl_IDtype_ITPredefinedPhylum(phylumdeclaration _phylumdeclaration_1) |
| : phylumdeclaration_1(_phylumdeclaration_1) { } |
| impl_IDtype_ITUnknown::impl_IDtype_ITUnknown() |
| { } |
| const enum_phyla impl_operators::phylum_sel_ = phylum_operators; |
| impl_operators::impl_operators(ID p1 , operators p2) |
| : ID_1(p1), operators_1(p2) { } |
| const enum_phyla impl_phyla::phylum_sel_ = phylum_phyla; |
| impl_phyla::impl_phyla(ID p1 , phyla p2) |
| : ID_1(p1), phyla_1(p2) { } |
| const enum_phyla impl_variables::phylum_sel_ = phylum_variables; |
| impl_variables::impl_variables(ID p1 , variables p2) |
| : ID_1(p1), variables_1(p2) { } |
| const enum_phyla impl_dollarvarstatus::phylum_sel_ = phylum_dollarvarstatus; |
| impl_dollarvarstatus_DVDisallowed::impl_dollarvarstatus_DVDisallowed() |
| { } |
| impl_dollarvarstatus_DVAllowed::impl_dollarvarstatus_DVAllowed() |
| { } |
| const enum_phyla impl_tribool::phylum_sel_ = phylum_tribool; |
| impl_tribool_Bigger::impl_tribool_Bigger() |
| { } |
| impl_tribool_Smaller::impl_tribool_Smaller() |
| { } |
| impl_tribool_Equal::impl_tribool_Equal() |
| { } |
| const enum_phyla impl_patternrepresentations::phylum_sel_ = phylum_patternrepresentations; |
| impl_patternrepresentations::impl_patternrepresentations(patternrepresentation p1 , patternrepresentations p2) |
| : patternrepresentation_1(p1), patternrepresentations_1(p2) { } |
| const enum_phyla impl_patternrepresentation::phylum_sel_ = phylum_patternrepresentation; |
| impl_patternrepresentation::impl_patternrepresentation(elem_patternrepresentation p1 , patternrepresentation p2) |
| : elem_patternrepresentation_1(p1), patternrepresentation_1(p2) { } |
| const enum_phyla impl_elem_patternrepresentation::phylum_sel_ = phylum_elem_patternrepresentation; |
| impl_elem_patternrepresentation_PRIntLiteral::impl_elem_patternrepresentation_PRIntLiteral(path _path_1, INT _INT_1) |
| : path_1(_path_1), INT_1(_INT_1) { } |
| impl_elem_patternrepresentation_PRStringLiteral::impl_elem_patternrepresentation_PRStringLiteral(path _path_1, CexpressionDQ _CexpressionDQ_1) |
| : path_1(_path_1), CexpressionDQ_1(_CexpressionDQ_1) { } |
| impl_elem_patternrepresentation_PRDefault::impl_elem_patternrepresentation_PRDefault() |
| { } |
| impl_elem_patternrepresentation_PRWildcard::impl_elem_patternrepresentation_PRWildcard(path _path_1) |
| : path_1(_path_1) { } |
| impl_elem_patternrepresentation_PRNonLeafBinding::impl_elem_patternrepresentation_PRNonLeafBinding(path _path_1, ID _ID_1, patternrepresentation _patternrepresentation_1) |
| : path_1(_path_1), ID_1(_ID_1), patternrepresentation_1(_patternrepresentation_1) { } |
| impl_elem_patternrepresentation_PRUserPredicate::impl_elem_patternrepresentation_PRUserPredicate(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| impl_elem_patternrepresentation_PROperPredicate::impl_elem_patternrepresentation_PROperPredicate(path _path_1, ID _ID_1) |
| : path_1(_path_1), ID_1(_ID_1) { } |
| impl_elem_patternrepresentation_PRVarPredicate::impl_elem_patternrepresentation_PRVarPredicate(paths _paths_1, ID _ID_1, patternrepresentation _patternrepresentation_1) |
| : paths_1(_paths_1), ID_1(_ID_1), patternrepresentation_1(_patternrepresentation_1) { } |
| impl_elem_patternrepresentation_PRBinding::impl_elem_patternrepresentation_PRBinding(path _path_1, ID _ID_1) |
| : path_1(_path_1), ID_1(_ID_1) { } |
| const enum_phyla impl_path::phylum_sel_ = phylum_path; |
| impl_path::impl_path(integer p1 , path p2) |
| : integer_1(p1), path_1(p2) { } |
| const enum_phyla impl_paths::phylum_sel_ = phylum_paths; |
| impl_paths::impl_paths(path p1 , paths p2) |
| : path_1(p1), paths_1(p2) { } |
| const enum_phyla impl_argsnumbers::phylum_sel_ = phylum_argsnumbers; |
| impl_argsnumbers::impl_argsnumbers(integer p1 , argsnumbers p2) |
| : integer_1(p1), argsnumbers_1(p2) { } |
| const enum_phyla impl_rewriterulesinfo::phylum_sel_ = phylum_rewriterulesinfo; |
| impl_rewriterulesinfo::impl_rewriterulesinfo(rewriteruleinfo p1 , rewriterulesinfo p2) |
| : rewriteruleinfo_1(p1), rewriterulesinfo_1(p2) { } |
| const enum_phyla impl_rewriteruleinfo::phylum_sel_ = phylum_rewriteruleinfo; |
| impl_rewriteruleinfo_Rewriteruleinfo::impl_rewriteruleinfo_Rewriteruleinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, rewriteclause _rewriteclause_1) |
| : patternrepresentation_1(_patternrepresentation_1), patternrepresentation_2(_patternrepresentation_2), rewriteclause_1(_rewriteclause_1) { } |
| const enum_phyla impl_withcasesinfo::phylum_sel_ = phylum_withcasesinfo; |
| impl_withcasesinfo::impl_withcasesinfo(withcaseinfo p1 , withcasesinfo p2) |
| : withcaseinfo_1(p1), withcasesinfo_1(p2) { } |
| const enum_phyla impl_withcaseinfo::phylum_sel_ = phylum_withcaseinfo; |
| impl_withcaseinfo_Withcaseinfo::impl_withcaseinfo_Withcaseinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, Ctext _Ctext_1) |
| : patternrepresentation_1(_patternrepresentation_1), patternrepresentation_2(_patternrepresentation_2), Ctext_1(_Ctext_1) { } |
| const enum_phyla impl_rewriteviewsinfo::phylum_sel_ = phylum_rewriteviewsinfo; |
| impl_rewriteviewsinfo::impl_rewriteviewsinfo(rewriteviewinfo p1 , rewriteviewsinfo p2) |
| : rewriteviewinfo_1(p1), rewriteviewsinfo_1(p2) { } |
| const enum_phyla impl_rewriteviewinfo::phylum_sel_ = phylum_rewriteviewinfo; |
| impl_rewriteviewinfo_Rewriteviewinfo::impl_rewriteviewinfo_Rewriteviewinfo(ID _ID_1, rewriterulesinfo _rewriterulesinfo_1) |
| : ID_1(_ID_1), rewriterulesinfo_1(_rewriterulesinfo_1) { } |
| const enum_phyla impl_unparseviewsinfo::phylum_sel_ = phylum_unparseviewsinfo; |
| impl_unparseviewsinfo::impl_unparseviewsinfo(unparseviewinfo p1 , unparseviewsinfo p2) |
| : unparseviewinfo_1(p1), unparseviewsinfo_1(p2) { } |
| const enum_phyla impl_unparseviewinfo::phylum_sel_ = phylum_unparseviewinfo; |
| impl_unparseviewinfo_Unparseviewinfo::impl_unparseviewinfo_Unparseviewinfo(ID _ID_1, unparsedeclsinfo _unparsedeclsinfo_1) |
| : ID_1(_ID_1), unparsedeclsinfo_1(_unparsedeclsinfo_1) { } |
| const enum_phyla impl_unparsedeclsinfo::phylum_sel_ = phylum_unparsedeclsinfo; |
| impl_unparsedeclsinfo::impl_unparsedeclsinfo(unparsedeclinfo p1 , unparsedeclsinfo p2) |
| : unparsedeclinfo_1(p1), unparsedeclsinfo_1(p2) { } |
| const enum_phyla impl_unparsedeclinfo::phylum_sel_ = phylum_unparsedeclinfo; |
| impl_unparsedeclinfo_Unparsedeclinfo::impl_unparsedeclinfo_Unparsedeclinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, unparseclause _unparseclause_1) |
| : patternrepresentation_1(_patternrepresentation_1), patternrepresentation_2(_patternrepresentation_2), unparseclause_1(_unparseclause_1) { } |
| const enum_phyla impl_ac_declaration::phylum_sel_ = phylum_ac_declaration; |
| impl_ac_declaration_AcDeclaration::impl_ac_declaration_AcDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_init_declarator_list _ac_init_declarator_list_1) |
| : ac_declaration_specifiers_1(_ac_declaration_specifiers_1), ac_init_declarator_list_1(_ac_init_declarator_list_1) { } |
| const enum_phyla impl_ac_declaration_list::phylum_sel_ = phylum_ac_declaration_list; |
| impl_ac_declaration_list::impl_ac_declaration_list(ac_declaration p1 , ac_declaration_list p2) |
| : ac_declaration_1(p1), ac_declaration_list_1(p2) { } |
| const enum_phyla impl_ac_declaration_specifiers::phylum_sel_ = phylum_ac_declaration_specifiers; |
| impl_ac_declaration_specifiers::impl_ac_declaration_specifiers(ac_declaration_specifier p1 , ac_declaration_specifiers p2) |
| : ac_declaration_specifier_1(p1), ac_declaration_specifiers_1(p2) { } |
| const enum_phyla impl_ac_declaration_specifier::phylum_sel_ = phylum_ac_declaration_specifier; |
| impl_ac_declaration_specifier_AcDeclSpecTypeQual::impl_ac_declaration_specifier_AcDeclSpecTypeQual(ac_type_qualifier _ac_type_qualifier_1) |
| : ac_type_qualifier_1(_ac_type_qualifier_1) { } |
| impl_ac_declaration_specifier_AcDeclSpecTypeSpec::impl_ac_declaration_specifier_AcDeclSpecTypeSpec(ac_type_specifier _ac_type_specifier_1) |
| : ac_type_specifier_1(_ac_type_specifier_1) { } |
| impl_ac_declaration_specifier_AcDeclSpecStorageSpec::impl_ac_declaration_specifier_AcDeclSpecStorageSpec(ac_storage_class_specifier _ac_storage_class_specifier_1) |
| : ac_storage_class_specifier_1(_ac_storage_class_specifier_1) { } |
| const enum_phyla impl_ac_storage_class_specifier::phylum_sel_ = phylum_ac_storage_class_specifier; |
| impl_ac_storage_class_specifier_AcVirtual::impl_ac_storage_class_specifier_AcVirtual() |
| { } |
| impl_ac_storage_class_specifier_AcTypedef::impl_ac_storage_class_specifier_AcTypedef() |
| { } |
| impl_ac_storage_class_specifier_AcExtern::impl_ac_storage_class_specifier_AcExtern() |
| { } |
| impl_ac_storage_class_specifier_AcStatic::impl_ac_storage_class_specifier_AcStatic() |
| { } |
| impl_ac_storage_class_specifier_AcRegister::impl_ac_storage_class_specifier_AcRegister() |
| { } |
| impl_ac_storage_class_specifier_AcAuto::impl_ac_storage_class_specifier_AcAuto() |
| { } |
| const enum_phyla impl_ac_type_specifier::phylum_sel_ = phylum_ac_type_specifier; |
| impl_ac_type_specifier_AcTypeSpec::impl_ac_type_specifier_AcTypeSpec(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_ac_type_qualifier::phylum_sel_ = phylum_ac_type_qualifier; |
| impl_ac_type_qualifier_AcNoQualifier::impl_ac_type_qualifier_AcNoQualifier() |
| { } |
| impl_ac_type_qualifier_AcUnsigned::impl_ac_type_qualifier_AcUnsigned() |
| { } |
| impl_ac_type_qualifier_AcVolatile::impl_ac_type_qualifier_AcVolatile() |
| { } |
| impl_ac_type_qualifier_AcConst::impl_ac_type_qualifier_AcConst() |
| { } |
| const enum_phyla impl_ac_init_declarator_list::phylum_sel_ = phylum_ac_init_declarator_list; |
| impl_ac_init_declarator_list::impl_ac_init_declarator_list(ac_init_declarator p1 , ac_init_declarator_list p2) |
| : ac_init_declarator_1(p1), ac_init_declarator_list_1(p2) { } |
| const enum_phyla impl_ac_init_declarator::phylum_sel_ = phylum_ac_init_declarator; |
| impl_ac_init_declarator_AcInitDecl::impl_ac_init_declarator_AcInitDecl(ac_declarator _ac_declarator_1) |
| : ac_declarator_1(_ac_declarator_1) { } |
| const enum_phyla impl_ac_declarator::phylum_sel_ = phylum_ac_declarator; |
| impl_ac_declarator_AcDeclarator::impl_ac_declarator_AcDeclarator(ac_pointer_option _ac_pointer_option_1, ac_ref_option _ac_ref_option_1, ac_direct_declarator _ac_direct_declarator_1) |
| : ac_pointer_option_1(_ac_pointer_option_1), ac_ref_option_1(_ac_ref_option_1), ac_direct_declarator_1(_ac_direct_declarator_1) { } |
| const enum_phyla impl_ac_direct_declarator::phylum_sel_ = phylum_ac_direct_declarator; |
| impl_ac_direct_declarator_AcOperatorDeclId::impl_ac_direct_declarator_AcOperatorDeclId(ac_operator_name _ac_operator_name_1) |
| : ac_operator_name_1(_ac_operator_name_1) { } |
| impl_ac_direct_declarator_AcConvOperatorDecl::impl_ac_direct_declarator_AcConvOperatorDecl(ID _ID_1, ID _ID_2) |
| : ID_1(_ID_1), ID_2(_ID_2) { } |
| impl_ac_direct_declarator_AcMemberDecl::impl_ac_direct_declarator_AcMemberDecl(ID _ID_1, ID _ID_2, ac_constant_expression_list _ac_constant_expression_list_1) |
| : ID_1(_ID_1), ID_2(_ID_2), ac_constant_expression_list_1(_ac_constant_expression_list_1) { } |
| impl_ac_direct_declarator_AcQualifiedDeclProto::impl_ac_direct_declarator_AcQualifiedDeclProto(ac_class_qualifier_list _ac_class_qualifier_list_1, ac_direct_declarator _ac_direct_declarator_1, ac_parameter_type_list _ac_parameter_type_list_1, ac_type_qualifier _ac_type_qualifier_1) |
| : ac_class_qualifier_list_1(_ac_class_qualifier_list_1), ac_direct_declarator_1(_ac_direct_declarator_1), ac_parameter_type_list_1(_ac_parameter_type_list_1), ac_type_qualifier_1(_ac_type_qualifier_1) { } |
| impl_ac_direct_declarator_AcDirectDeclProto::impl_ac_direct_declarator_AcDirectDeclProto(ac_direct_declarator _ac_direct_declarator_1, ac_parameter_type_list _ac_parameter_type_list_1) |
| : ac_direct_declarator_1(_ac_direct_declarator_1), ac_parameter_type_list_1(_ac_parameter_type_list_1) { } |
| impl_ac_direct_declarator_AcDirectDeclArray::impl_ac_direct_declarator_AcDirectDeclArray(ac_direct_declarator _ac_direct_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) |
| : ac_direct_declarator_1(_ac_direct_declarator_1), ac_constant_expression_option_1(_ac_constant_expression_option_1) { } |
| impl_ac_direct_declarator_AcDirectDeclPack::impl_ac_direct_declarator_AcDirectDeclPack(ac_declarator _ac_declarator_1) |
| : ac_declarator_1(_ac_declarator_1) { } |
| impl_ac_direct_declarator_AcDirectDeclId::impl_ac_direct_declarator_AcDirectDeclId(ID _ID_1) |
| : ID_1(_ID_1) { } |
| const enum_phyla impl_ac_pointer_option::phylum_sel_ = phylum_ac_pointer_option; |
| impl_ac_pointer_option_Yespointer::impl_ac_pointer_option_Yespointer(ac_pointer _ac_pointer_1) |
| : ac_pointer_1(_ac_pointer_1) { } |
| impl_ac_pointer_option_Nopointer::impl_ac_pointer_option_Nopointer() |
| { } |
| const enum_phyla impl_ac_pointer::phylum_sel_ = phylum_ac_pointer; |
| impl_ac_pointer_AcPointerCons::impl_ac_pointer_AcPointerCons(ac_type_qualifier_list _ac_type_qualifier_list_1, ac_pointer _ac_pointer_1) |
| : ac_type_qualifier_list_1(_ac_type_qualifier_list_1), ac_pointer_1(_ac_pointer_1) { } |
| impl_ac_pointer_AcPointerNil::impl_ac_pointer_AcPointerNil(ac_type_qualifier_list _ac_type_qualifier_list_1) |
| : ac_type_qualifier_list_1(_ac_type_qualifier_list_1) { } |
| const enum_phyla impl_ac_ref_option::phylum_sel_ = phylum_ac_ref_option; |
| impl_ac_ref_option_AcRef::impl_ac_ref_option_AcRef() |
| { } |
| impl_ac_ref_option_AcNoRef::impl_ac_ref_option_AcNoRef() |
| { } |
| const enum_phyla impl_ac_operator_name::phylum_sel_ = phylum_ac_operator_name; |
| impl_ac_operator_name_AcOperatorName::impl_ac_operator_name_AcOperatorName(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_ac_class_qualifier_help_list::phylum_sel_ = phylum_ac_class_qualifier_help_list; |
| impl_ac_class_qualifier_help_list::impl_ac_class_qualifier_help_list(ac_direct_declarator p1 , ac_class_qualifier_help_list p2) |
| : ac_direct_declarator_1(p1), ac_class_qualifier_help_list_1(p2) { } |
| const enum_phyla impl_ac_class_qualifier_list::phylum_sel_ = phylum_ac_class_qualifier_list; |
| impl_ac_class_qualifier_list::impl_ac_class_qualifier_list(ID p1 , ac_class_qualifier_list p2) |
| : ID_1(p1), ac_class_qualifier_list_1(p2) { } |
| const enum_phyla impl_ac_type_qualifier_list::phylum_sel_ = phylum_ac_type_qualifier_list; |
| impl_ac_type_qualifier_list::impl_ac_type_qualifier_list(ac_type_qualifier p1 , ac_type_qualifier_list p2) |
| : ac_type_qualifier_1(p1), ac_type_qualifier_list_1(p2) { } |
| const enum_phyla impl_ac_parameter_type_list::phylum_sel_ = phylum_ac_parameter_type_list; |
| impl_ac_parameter_type_list_AcParList3Dot::impl_ac_parameter_type_list_AcParList3Dot(ac_parameter_list _ac_parameter_list_1) |
| : ac_parameter_list_1(_ac_parameter_list_1) { } |
| impl_ac_parameter_type_list_AcParList::impl_ac_parameter_type_list_AcParList(ac_parameter_list _ac_parameter_list_1) |
| : ac_parameter_list_1(_ac_parameter_list_1) { } |
| const enum_phyla impl_ac_parameter_list::phylum_sel_ = phylum_ac_parameter_list; |
| impl_ac_parameter_list::impl_ac_parameter_list(ac_parameter_declaration p1 , ac_parameter_list p2) |
| : ac_parameter_declaration_1(p1), ac_parameter_list_1(p2) { } |
| const enum_phyla impl_ac_parameter_declaration::phylum_sel_ = phylum_ac_parameter_declaration; |
| impl_ac_parameter_declaration_AcParDeclAbsdecl::impl_ac_parameter_declaration_AcParDeclAbsdecl(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_abstract_declarator _ac_abstract_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) |
| : ac_declaration_specifiers_1(_ac_declaration_specifiers_1), ac_abstract_declarator_1(_ac_abstract_declarator_1), ac_constant_expression_option_1(_ac_constant_expression_option_1) { } |
| impl_ac_parameter_declaration_AcParDeclDecl::impl_ac_parameter_declaration_AcParDeclDecl(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) |
| : ac_declaration_specifiers_1(_ac_declaration_specifiers_1), ac_declarator_1(_ac_declarator_1), ac_constant_expression_option_1(_ac_constant_expression_option_1) { } |
| const enum_phyla impl_ac_identifier_list::phylum_sel_ = phylum_ac_identifier_list; |
| impl_ac_identifier_list::impl_ac_identifier_list(ID p1 , ac_identifier_list p2) |
| : ID_1(p1), ac_identifier_list_1(p2) { } |
| const enum_phyla impl_ac_abstract_declarator::phylum_sel_ = phylum_ac_abstract_declarator; |
| impl_ac_abstract_declarator_AcAbsdeclDirdecl::impl_ac_abstract_declarator_AcAbsdeclDirdecl(ac_pointer_option _ac_pointer_option_1, ac_direct_abstract_declarator _ac_direct_abstract_declarator_1) |
| : ac_pointer_option_1(_ac_pointer_option_1), ac_direct_abstract_declarator_1(_ac_direct_abstract_declarator_1) { } |
| impl_ac_abstract_declarator_AcAbsdeclPointer::impl_ac_abstract_declarator_AcAbsdeclPointer(ac_pointer _ac_pointer_1) |
| : ac_pointer_1(_ac_pointer_1) { } |
| const enum_phyla impl_ac_direct_abstract_declarator_option::phylum_sel_ = phylum_ac_direct_abstract_declarator_option; |
| impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator::impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator(ac_direct_abstract_declarator _ac_direct_abstract_declarator_1) |
| : ac_direct_abstract_declarator_1(_ac_direct_abstract_declarator_1) { } |
| impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator::impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator() |
| { } |
| const enum_phyla impl_ac_direct_abstract_declarator::phylum_sel_ = phylum_ac_direct_abstract_declarator; |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclFn::impl_ac_direct_abstract_declarator_AcDirAbsdeclFn(ac_direct_abstract_declarator_option _ac_direct_abstract_declarator_option_1, ac_parameter_type_list _ac_parameter_type_list_1) |
| : ac_direct_abstract_declarator_option_1(_ac_direct_abstract_declarator_option_1), ac_parameter_type_list_1(_ac_parameter_type_list_1) { } |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclArray::impl_ac_direct_abstract_declarator_AcDirAbsdeclArray(ac_direct_abstract_declarator_option _ac_direct_abstract_declarator_option_1, ac_constant_expression_option _ac_constant_expression_option_1) |
| : ac_direct_abstract_declarator_option_1(_ac_direct_abstract_declarator_option_1), ac_constant_expression_option_1(_ac_constant_expression_option_1) { } |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclPack::impl_ac_direct_abstract_declarator_AcDirAbsdeclPack(ac_abstract_declarator _ac_abstract_declarator_1) |
| : ac_abstract_declarator_1(_ac_abstract_declarator_1) { } |
| const enum_phyla impl_ac_constant_expression_option::phylum_sel_ = phylum_ac_constant_expression_option; |
| impl_ac_constant_expression_option_Noac_constant_expression::impl_ac_constant_expression_option_Noac_constant_expression() |
| { } |
| impl_ac_constant_expression_option_Yesac_constant_expression::impl_ac_constant_expression_option_Yesac_constant_expression(ac_constant_expression _ac_constant_expression_1) |
| : ac_constant_expression_1(_ac_constant_expression_1) { } |
| const enum_phyla impl_ac_constant_expression::phylum_sel_ = phylum_ac_constant_expression; |
| impl_ac_constant_expression_AcConstExpr::impl_ac_constant_expression_AcConstExpr(Cexpression _Cexpression_1) |
| : Cexpression_1(_Cexpression_1) { } |
| const enum_phyla impl_ac_constant_expression_list::phylum_sel_ = phylum_ac_constant_expression_list; |
| impl_ac_constant_expression_list::impl_ac_constant_expression_list(ac_constant_expression p1 , ac_constant_expression_list p2) |
| : ac_constant_expression_1(p1), ac_constant_expression_list_1(p2) { } |
| const enum_phyla impl_ac_opt_base_init_list::phylum_sel_ = phylum_ac_opt_base_init_list; |
| impl_ac_opt_base_init_list_AcYesBaseInit::impl_ac_opt_base_init_list_AcYesBaseInit(ac_base_init_list _ac_base_init_list_1) |
| : ac_base_init_list_1(_ac_base_init_list_1) { } |
| impl_ac_opt_base_init_list_AcNoBaseInit::impl_ac_opt_base_init_list_AcNoBaseInit() |
| { } |
| const enum_phyla impl_ac_base_init_list::phylum_sel_ = phylum_ac_base_init_list; |
| impl_ac_base_init_list::impl_ac_base_init_list(ac_base_init p1 , ac_base_init_list p2) |
| : ac_base_init_1(p1), ac_base_init_list_1(p2) { } |
| const enum_phyla impl_ac_base_init::phylum_sel_ = phylum_ac_base_init; |
| impl_ac_base_init_AcBaseInit::impl_ac_base_init_AcBaseInit(ID _ID_1, ac_constant_expression _ac_constant_expression_1) |
| : ID_1(_ID_1), ac_constant_expression_1(_ac_constant_expression_1) { } |
| const enum_phyla impl_baseclass_declarations::phylum_sel_ = phylum_baseclass_declarations; |
| impl_baseclass_declarations::impl_baseclass_declarations(baseclass_decl p1 , baseclass_declarations p2) |
| : baseclass_decl_1(p1), baseclass_declarations_1(p2) { } |
| const enum_phyla impl_baseclass_decl::phylum_sel_ = phylum_baseclass_decl; |
| impl_baseclass_decl_BaseClassDecl::impl_baseclass_decl_BaseClassDecl(ID _ID_1, baseclass_list _baseclass_list_1) |
| : ID_1(_ID_1), baseclass_list_1(_baseclass_list_1) { } |
| const enum_phyla impl_baseclass_list::phylum_sel_ = phylum_baseclass_list; |
| impl_baseclass_list::impl_baseclass_list(ID p1 , baseclass_list p2) |
| : ID_1(p1), baseclass_list_1(p2) { } |
| const enum_phyla impl_error::phylum_sel_ = phylum_error; |
| impl_error_Warning::impl_error_Warning(fileline _fileline_1, problem _problem_1) |
| : fileline_1(_fileline_1), problem_1(_problem_1) { } |
| impl_error_NonFatal::impl_error_NonFatal(fileline _fileline_1, problem _problem_1) |
| : fileline_1(_fileline_1), problem_1(_problem_1) { } |
| impl_error_Fatal::impl_error_Fatal(fileline _fileline_1, problem _problem_1) |
| : fileline_1(_fileline_1), problem_1(_problem_1) { } |
| const enum_phyla impl_problem::phylum_sel_ = phylum_problem; |
| impl_problem_Problem6::impl_problem_Problem6(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4, casestring _casestring_5, casestring _casestring_6) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2), casestring_3(_casestring_3), casestring_4(_casestring_4), casestring_5(_casestring_5), casestring_6(_casestring_6) { } |
| impl_problem_Problem5::impl_problem_Problem5(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4, casestring _casestring_5) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2), casestring_3(_casestring_3), casestring_4(_casestring_4), casestring_5(_casestring_5) { } |
| impl_problem_Problem4::impl_problem_Problem4(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2), casestring_3(_casestring_3), casestring_4(_casestring_4) { } |
| impl_problem_Problem3int1::impl_problem_Problem3int1(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, integer _integer_1, casestring _casestring_4) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2), casestring_3(_casestring_3), integer_1(_integer_1), casestring_4(_casestring_4) { } |
| impl_problem_Problem3::impl_problem_Problem3(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2), casestring_3(_casestring_3) { } |
| impl_problem_Problem2::impl_problem_Problem2(casestring _casestring_1, casestring _casestring_2) |
| : casestring_1(_casestring_1), casestring_2(_casestring_2) { } |
| impl_problem_Problem1storageoption1ID::impl_problem_Problem1storageoption1ID(casestring _casestring_1, storageoption _storageoption_1, casestring _casestring_2, ID _ID_1) |
| : casestring_1(_casestring_1), storageoption_1(_storageoption_1), casestring_2(_casestring_2), ID_1(_ID_1) { } |
| impl_problem_Problem1INT1ID1ID::impl_problem_Problem1INT1ID1ID(casestring _casestring_1, INT _INT_1, casestring _casestring_2, ID _ID_1, casestring _casestring_3, ID _ID_2) |
| : casestring_1(_casestring_1), INT_1(_INT_1), casestring_2(_casestring_2), ID_1(_ID_1), casestring_3(_casestring_3), ID_2(_ID_2) { } |
| impl_problem_Problem1ID1ID1ID::impl_problem_Problem1ID1ID1ID(casestring _casestring_1, ID _ID_1, casestring _casestring_2, ID _ID_2, casestring _casestring_3, ID _ID_3) |
| : casestring_1(_casestring_1), ID_1(_ID_1), casestring_2(_casestring_2), ID_2(_ID_2), casestring_3(_casestring_3), ID_3(_ID_3) { } |
| impl_problem_Problem1INT1ID::impl_problem_Problem1INT1ID(casestring _casestring_1, INT _INT_1, casestring _casestring_2, ID _ID_1) |
| : casestring_1(_casestring_1), INT_1(_INT_1), casestring_2(_casestring_2), ID_1(_ID_1) { } |
| impl_problem_Problem1int1::impl_problem_Problem1int1(casestring _casestring_1, integer _integer_1, casestring _casestring_2) |
| : casestring_1(_casestring_1), integer_1(_integer_1), casestring_2(_casestring_2) { } |
| impl_problem_Problem1INT::impl_problem_Problem1INT(casestring _casestring_1, INT _INT_1) |
| : casestring_1(_casestring_1), INT_1(_INT_1) { } |
| impl_problem_Problem1t1ID::impl_problem_Problem1t1ID(casestring _casestring_1, IDtype _IDtype_1, casestring _casestring_2, ID _ID_1) |
| : casestring_1(_casestring_1), IDtype_1(_IDtype_1), casestring_2(_casestring_2), ID_1(_ID_1) { } |
| impl_problem_Problem1ID1ID::impl_problem_Problem1ID1ID(casestring _casestring_1, ID _ID_1, casestring _casestring_2, ID _ID_2) |
| : casestring_1(_casestring_1), ID_1(_ID_1), casestring_2(_casestring_2), ID_2(_ID_2) { } |
| impl_problem_Problem1we::impl_problem_Problem1we(casestring _casestring_1, withexpression _withexpression_1) |
| : casestring_1(_casestring_1), withexpression_1(_withexpression_1) { } |
| impl_problem_Problem1tID::impl_problem_Problem1tID(casestring _casestring_1, ID _ID_1) |
| : casestring_1(_casestring_1), ID_1(_ID_1) { } |
| impl_problem_Problem1ID::impl_problem_Problem1ID(casestring _casestring_1, ID _ID_1) |
| : casestring_1(_casestring_1), ID_1(_ID_1) { } |
| impl_problem_Problem1::impl_problem_Problem1(casestring _casestring_1) |
| : casestring_1(_casestring_1) { } |
| const enum_phyla impl_addedphylumdeclarations::phylum_sel_ = phylum_addedphylumdeclarations; |
| impl_addedphylumdeclarations::impl_addedphylumdeclarations(addedphylumdeclaration p1 , addedphylumdeclarations p2) |
| : addedphylumdeclaration_1(p1), addedphylumdeclarations_1(p2) { } |
| const enum_phyla impl_addedphylumdeclaration::phylum_sel_ = phylum_addedphylumdeclaration; |
| impl_addedphylumdeclaration_AddedPhylumdeclaration::impl_addedphylumdeclaration_AddedPhylumdeclaration(uniqID _uniqID_1) |
| : uniqID_1(_uniqID_1) { } |
| const enum_phyla impl_countedphylumdeclarations::phylum_sel_ = phylum_countedphylumdeclarations; |
| impl_countedphylumdeclarations::impl_countedphylumdeclarations(countedphylumdeclaration p1 , countedphylumdeclarations p2) |
| : countedphylumdeclaration_1(p1), countedphylumdeclarations_1(p2) { } |
| const enum_phyla impl_countedphylumdeclaration::phylum_sel_ = phylum_countedphylumdeclaration; |
| impl_countedphylumdeclaration_CountedPhylumdeclaration::impl_countedphylumdeclaration_CountedPhylumdeclaration(uniqID _uniqID_1) |
| : uniqID_1(_uniqID_1) { } |
| const enum_phyla impl_charruns::phylum_sel_ = phylum_charruns; |
| impl_charruns_Stars::impl_charruns_Stars() |
| { } |
| impl_charruns_QuotedNewlines::impl_charruns_QuotedNewlines() |
| { } |
| impl_charruns_Newlines::impl_charruns_Newlines() |
| { } |
| const enum_phyla impl_bindingidmarks::phylum_sel_ = phylum_bindingidmarks; |
| impl_bindingidmarks::impl_bindingidmarks(bindingidmark p1 , bindingidmarks p2) |
| : bindingidmark_1(p1), bindingidmarks_1(p2) { } |
| const enum_phyla impl_bindingidmark::phylum_sel_ = phylum_bindingidmark; |
| impl_bindingidmark_BindingIdMark::impl_bindingidmark_BindingIdMark(uniqID _uniqID_1) |
| : uniqID_1(_uniqID_1) { } |
| |
| #ifdef KC_STATISTICS |
| KC_OPERATOR_STATISTICS operator_statistics[KC_NO_OF_OPERATORS]; |
| static int kc_casestring_strlen =0; |
| static int kc_nocasestring_strlen =0; |
| # define KC_COLLECT_STATS0(v) v |
| #else |
| # define KC_COLLECT_STATS0(v) |
| #endif |
| |
| #ifndef KC_CREATE_STATS |
| # define KC_CREATE_STATS(oper) operator_statistics[oper].created++; |
| #endif |
| #ifndef KC_EXISTINGNOTFOUND_STATS |
| # define KC_EXISTINGNOTFOUND_STATS(oper) operator_statistics[oper].existing_not_found++; |
| #endif |
| |
| #ifndef KC_FREE_CALLED_STATS |
| # define KC_FREE_CALLED_STATS(oper,rec) operator_statistics[oper].free_called[(rec?true:false)]++; |
| #endif |
| |
| #ifndef KC_FREED_STATS |
| # define KC_FREED_STATS(oper,rec) operator_statistics[oper].freed[(rec?true:false)]++; |
| #endif |
| static hashtable_struct_t kc_not_uniq_static_hashtable; |
| static hashtable_struct_t uniq_static_hashtable; |
| |
| bool kc_storageclass_still_uniq[] = { |
| true, true }; |
| |
| hashtable_t hashtables[] = { |
| &kc_not_uniq_static_hashtable, |
| &uniq_static_hashtable, |
| }; |
| |
| const char* kc_storageclassnames[] = { "kc_not_uniq", "uniq" }; |
| |
| namespace { // all local to k.cc |
| |
| uniqID kc_initialize_uniqID(uniqID kc_x) |
| { |
| kc_x->type = ITUnknown(); |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| kc_x->scopeinfo = Nilscopetypefilelinestack(); |
| |
| return kc_x; |
| } |
| |
| ID kc_initialize_ID(ID kc_x) |
| { |
| kc_x->type = ITUnknown(); |
| kc_x->named_subphylum = 0; |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| INT kc_initialize_INT(INT kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| STRING kc_initialize_STRING(STRING kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| phylumdeclaration kc_initialize_phylumdeclaration(phylumdeclaration kc_x) |
| { |
| kc_x->marked = 0; |
| kc_x->additional_members = Nilfndeclarations(); |
| kc_x->base_classes = Nilbaseclass_list(); |
| |
| return kc_x; |
| } |
| |
| storageclasses kc_initialize_storageclasses(storageclasses kc_x) |
| { |
| kc_x->phyla = Nilphylumnames(); |
| |
| return kc_x; |
| } |
| |
| alternative kc_initialize_alternative(alternative kc_x) |
| { |
| kc_x->rewriteinfo = Nilrewriterulesinfo(); |
| kc_x->unparseinfo = Nilunparsedeclsinfo(); |
| kc_x->additional_members = Nilfndeclarations(); |
| kc_x->base_classes = Nilbaseclass_list(); |
| |
| return kc_x; |
| } |
| |
| Cexpression kc_initialize_Cexpression(Cexpression kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| idCexpression kc_initialize_idCexpression(idCexpression kc_x) |
| { |
| kc_x->id = f_emptyId(); |
| |
| return kc_x; |
| } |
| |
| includefile kc_initialize_includefile(includefile kc_x) |
| { |
| kc_x->inc_type = include_unknown; |
| kc_x->inc[0] = Nilincludedeclarations(); |
| kc_x->inc[1] = Nilincludedeclarations(); |
| if (Theincludefiles == 0) { |
| Theincludefiles = Consincludefiles( kc_x, Nilincludefiles()); |
| } else { |
| Theincludefiles = Consincludefiles( kc_x, Theincludefiles); |
| } |
| |
| |
| return kc_x; |
| } |
| |
| includedeclaration kc_initialize_includedeclaration(includedeclaration kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| patternchains kc_initialize_patternchains(patternchains kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| patternchain kc_initialize_patternchain(patternchain kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| patternchainitem kc_initialize_patternchainitem(patternchainitem kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| kc_x->type = f_emptyId(); |
| |
| return kc_x; |
| } |
| |
| outmostpattern kc_initialize_outmostpattern(outmostpattern kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| kc_x->type = f_emptyId(); |
| |
| return kc_x; |
| } |
| |
| term kc_initialize_term(term kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| fnfile kc_initialize_fnfile(fnfile kc_x) |
| { |
| kc_x->fns = Nilfndeclarations(); |
| if (Thefnfiles == 0) { |
| Thefnfiles = Consfnfiles( kc_x, Nilfnfiles()); |
| } else { |
| Thefnfiles = Consfnfiles( kc_x, Thefnfiles); |
| } |
| |
| |
| return kc_x; |
| } |
| |
| fndeclaration kc_initialize_fndeclaration(fndeclaration kc_x) |
| { |
| kc_x->last_line = 0; |
| kc_x->file = mkcasestring(""); |
| { |
| fndeclaration kc_selvar_0_1 = phylum_cast<fndeclaration>(kc_x); |
| if ((kc_selvar_0_1->prod_sel() == sel_FnAcDeclaration)) { |
| const ac_declarator fn_args = phylum_cast<const impl_fndeclaration_FnAcDeclaration*>(kc_selvar_0_1)->ac_declarator_1; |
| const ac_declaration_list C_vardecls = phylum_cast<const impl_fndeclaration_FnAcDeclaration*>(kc_selvar_0_1)->ac_declaration_list_1; |
| |
| kc_selvar_0_1->sorted = sort_extend_parameter_type_list( C_vardecls, fn_args ); |
| |
| } else |
| { |
| kc_selvar_0_1->sorted = AcParList( Nilac_parameter_list() ); |
| } |
| } |
| |
| |
| return kc_x; |
| } |
| |
| Ctext kc_initialize_Ctext(Ctext kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| Ctext_elem kc_initialize_Ctext_elem(Ctext_elem kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| foreach_after kc_initialize_foreach_after(foreach_after kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| withexpressions kc_initialize_withexpressions(withexpressions kc_x) |
| { |
| kc_x->type = 0; |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| { |
| withexpressions kc_selvar_0_1 = phylum_cast<withexpressions>(kc_x); |
| if ((kc_selvar_0_1->prod_sel() == sel_Conswithexpressions)) { |
| const withexpression h = (kc_selvar_0_1)->withexpression_1; |
| const withexpressions t = (kc_selvar_0_1)->withexpressions_1; |
| |
| kc_selvar_0_1->type = Consphylumnames( h->type, t->type ); |
| kc_selvar_0_1->line = h->line; |
| kc_selvar_0_1->file = h->file; |
| |
| } else |
| if ((kc_selvar_0_1->prod_sel() == sel_Nilwithexpressions)) { |
| |
| kc_selvar_0_1->type = Nilphylumnames(); |
| |
| } else |
| kc_no_default_in_with( "", __LINE__, __FILE__ ); |
| } |
| |
| |
| return kc_x; |
| } |
| |
| withexpression kc_initialize_withexpression(withexpression kc_x) |
| { |
| kc_x->type = f_emptyId(); |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| { |
| withexpression kc_selvar_0_1 = phylum_cast<withexpression>(kc_x); |
| if ((kc_selvar_0_1->prod_sel() == sel_WECexpression)) { |
| const Cexpression e = phylum_cast<const impl_withexpression_WECexpression*>(kc_selvar_0_1)->Cexpression_1; |
| |
| kc_selvar_0_1->line = e->line; |
| kc_selvar_0_1->file = e->file; |
| |
| } else |
| if ((kc_selvar_0_1->prod_sel() == sel_WEVariable)) { |
| const ID id = phylum_cast<const impl_withexpression_WEVariable*>(kc_selvar_0_1)->ID_1; |
| |
| kc_selvar_0_1->line = id->line; |
| kc_selvar_0_1->file = id->file; |
| |
| } else |
| kc_no_default_in_with( "", __LINE__, __FILE__ ); |
| } |
| |
| |
| return kc_x; |
| } |
| |
| viewnames kc_initialize_viewnames(viewnames kc_x) |
| { |
| kc_x->is_extern = false; |
| |
| return kc_x; |
| } |
| |
| unparseitem kc_initialize_unparseitem(unparseitem kc_x) |
| { |
| kc_x->text_nr = 0; |
| |
| return kc_x; |
| } |
| |
| elem_patternrepresentation kc_initialize_elem_patternrepresentation(elem_patternrepresentation kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| kc_x->type = f_emptyId(); |
| |
| return kc_x; |
| } |
| |
| path kc_initialize_path(path kc_x) |
| { |
| kc_x->op = f_emptyId(); |
| kc_x->id = f_emptyId(); |
| |
| return kc_x; |
| } |
| |
| ac_operator_name kc_initialize_ac_operator_name(ac_operator_name kc_x) |
| { |
| kc_x->line = 0; |
| kc_x->file = mkcasestring(""); |
| |
| return kc_x; |
| } |
| |
| addedphylumdeclaration kc_initialize_addedphylumdeclaration(addedphylumdeclaration kc_x) |
| { |
| kc_x->added = false; |
| if (!pl_addedphylumdeclarations) |
| pl_addedphylumdeclarations = |
| Consaddedphylumdeclarations( kc_x, Niladdedphylumdeclarations() ); |
| else |
| pl_addedphylumdeclarations = |
| Consaddedphylumdeclarations( kc_x, pl_addedphylumdeclarations ); |
| |
| |
| return kc_x; |
| } |
| |
| countedphylumdeclaration kc_initialize_countedphylumdeclaration(countedphylumdeclaration kc_x) |
| { |
| kc_x->count = 0; |
| if (!pl_countedphylumdeclarations) |
| pl_countedphylumdeclarations = |
| Conscountedphylumdeclarations( kc_x, Nilcountedphylumdeclarations() ); |
| else |
| pl_countedphylumdeclarations = |
| Conscountedphylumdeclarations( kc_x, pl_countedphylumdeclarations ); |
| |
| |
| return kc_x; |
| } |
| |
| bindingidmark kc_initialize_bindingidmark(bindingidmark kc_x) |
| { |
| kc_x->marked = false; |
| |
| if (! Thebindingidmarks) |
| Thebindingidmarks = Consbindingidmarks( kc_x, Nilbindingidmarks() ); |
| else |
| Thebindingidmarks = Consbindingidmarks( kc_x, Thebindingidmarks ); |
| |
| |
| return kc_x; |
| } |
| |
| |
| } // namespace |
| |
| enum_phyla |
| impl_abstract_phylum::phylum() const { |
| return operator_info[prod_sel()].phylum; |
| } |
| |
| const char* |
| impl_abstract_phylum::phylum_name() const { |
| return phylum_info[phylum()].name; |
| } |
| |
| const char* |
| impl_abstract_phylum::op_name() const { |
| return operator_info[prod_sel()].name; |
| } |
| |
| casestring |
| mkcasestring(const kc_char *kc_s, int length) |
| { |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel__Str)); |
| |
| casestring kc_x=new impl_casestring__Str(kc_s); |
| if(length>=0) |
| kc_x->make_own(length); |
| |
| casestring unique_kc_x=hashtables[uniq]->ht_check_insert((casestring)kc_x); |
| if(unique_kc_x!=kc_x) { |
| if(length<0) |
| kc_x->name=0; |
| |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel__Str)); |
| if(length<0) |
| kc_x->make_own(static_cast<int>(kc_strlen(kc_s))); |
| |
| kc_x->post_create(); |
| } |
| return kc_x; |
| } |
| |
| nocasestring |
| mknocasestring(const kc_char *kc_s, int length) |
| { |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoCaseStr)); |
| |
| nocasestring kc_x=new impl_nocasestring_NoCaseStr(kc_s); |
| if(length>=0) |
| kc_x->make_own(length); |
| nocasestring unique_kc_x=hashtables[uniq]->ht_check_insert((nocasestring)kc_x); |
| if(unique_kc_x!=kc_x) { |
| if(length<0) |
| kc_x->name=0; |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoCaseStr)); |
| if(length<0) |
| kc_x->make_own(static_cast<int>(kc_strlen(kc_s))); |
| kc_x->post_create(); |
| } |
| |
| return kc_x; |
| } |
| |
| integer |
| mkinteger(const INTEGER kc_i) |
| { |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel__Int)); |
| |
| integer kc_x =new impl_integer__Int(kc_i); |
| integer unique_kc_x=hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel__Int)); |
| kc_x->post_create(); |
| } |
| |
| return kc_x; |
| } |
| |
| real |
| mkreal(const REAL kc_r) |
| { |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel__Real)); |
| |
| real kc_x=new impl_real__Real(kc_r); |
| real unique_kc_x=hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel__Real)); |
| kc_x->post_create(); |
| } |
| |
| return kc_x; |
| } |
| |
| voidptr |
| mkvoidptr(void *kc_p) |
| { |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel__VoidPtr)); |
| voidptr kc_x=new impl_voidptr__VoidPtr(kc_p); |
| voidptr unique_kc_x=hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel__VoidPtr)); |
| kc_x->post_create(); |
| } |
| return kc_x; |
| } |
| |
| impl_uniqID_Str* |
| Str(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| uniqID kc_x=new impl_uniqID_Str(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Str)); |
| uniqID unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Str)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_uniqID(kc_x); |
| } |
| return static_cast<impl_uniqID_Str*>(kc_x); |
| } |
| |
| impl_ID_Id* |
| Id(uniqID _uniqID_1) { |
| assertPhylum(_uniqID_1, phylum_uniqID); |
| ID kc_x = new impl_ID_Id(_uniqID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Id)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Id)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_ID(kc_x); |
| return static_cast<impl_ID_Id*>(kc_x); |
| } |
| |
| impl_INT_Int* |
| Int(integer _integer_1) { |
| assertPhylum(_integer_1, phylum_integer); |
| INT kc_x = new impl_INT_Int(_integer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Int)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Int)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_INT(kc_x); |
| return static_cast<impl_INT_Int*>(kc_x); |
| } |
| |
| impl_STRING_String* |
| String(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| STRING kc_x = new impl_STRING_String(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_String)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_String)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_STRING(kc_x); |
| return static_cast<impl_STRING_String*>(kc_x); |
| } |
| |
| impl_phylumdeclarationsroot_PhylumDeclarations* |
| PhylumDeclarations(phylumdeclarations _phylumdeclarations_1) { |
| assertPhylum(_phylumdeclarations_1, phylum_phylumdeclarations); |
| phylumdeclarationsroot kc_x = new impl_phylumdeclarationsroot_PhylumDeclarations(_phylumdeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PhylumDeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PhylumDeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_phylumdeclarationsroot_PhylumDeclarations*>(kc_x); |
| } |
| |
| impl_phylumdeclarations* |
| Nilphylumdeclarations() { |
| phylumdeclarations kc_x = new impl_phylumdeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_phylumdeclarations*>(kc_x); |
| } |
| |
| impl_phylumdeclarations* |
| Consphylumdeclarations(phylumdeclaration _phylumdeclaration_1, phylumdeclarations _phylumdeclarations_1) { |
| assertPhylum(_phylumdeclaration_1, phylum_phylumdeclaration); |
| assertPhylum(_phylumdeclarations_1, phylum_phylumdeclarations); |
| phylumdeclarations kc_x = new impl_phylumdeclarations(_phylumdeclaration_1, _phylumdeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_phylumdeclarations*>(kc_x); |
| } |
| |
| impl_phylumnames* |
| Nilphylumnames() { |
| phylumnames kc_x = new impl_phylumnames(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilphylumnames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilphylumnames)); |
| kc_x->post_create(); |
| return static_cast<impl_phylumnames*>(kc_x); |
| } |
| |
| impl_phylumnames* |
| Consphylumnames(ID _ID_1, phylumnames _phylumnames_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_phylumnames_1, phylum_phylumnames); |
| phylumnames kc_x = new impl_phylumnames(_ID_1, _phylumnames_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consphylumnames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consphylumnames)); |
| kc_x->post_create(); |
| return static_cast<impl_phylumnames*>(kc_x); |
| } |
| |
| impl_phylumdeclaration_PhylumDeclaration* |
| PhylumDeclaration(ID _ID_1, storageoption _storageoption_1, productionblock _productionblock_1, Ccode_option _Ccode_option_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_storageoption_1, phylum_storageoption); |
| assertPhylum(_productionblock_1, phylum_productionblock); |
| assertPhylum(_Ccode_option_1, phylum_Ccode_option); |
| phylumdeclaration kc_x = new impl_phylumdeclaration_PhylumDeclaration(_ID_1, _storageoption_1, _productionblock_1, _Ccode_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PhylumDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PhylumDeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_phylumdeclaration(kc_x); |
| return static_cast<impl_phylumdeclaration_PhylumDeclaration*>(kc_x); |
| } |
| |
| impl_storageoption_NoStorageOption* |
| NoStorageOption() { |
| storageoption kc_x = new impl_storageoption_NoStorageOption(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoStorageOption)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoStorageOption)); |
| kc_x->post_create(); |
| return static_cast<impl_storageoption_NoStorageOption*>(kc_x); |
| } |
| |
| impl_storageoption_NegativeStorageOption* |
| NegativeStorageOption(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| storageoption kc_x = new impl_storageoption_NegativeStorageOption(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NegativeStorageOption)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NegativeStorageOption)); |
| kc_x->post_create(); |
| return static_cast<impl_storageoption_NegativeStorageOption*>(kc_x); |
| } |
| |
| impl_storageoption_PositiveStorageOption* |
| PositiveStorageOption(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| storageoption kc_x = new impl_storageoption_PositiveStorageOption(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PositiveStorageOption)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PositiveStorageOption)); |
| kc_x->post_create(); |
| return static_cast<impl_storageoption_PositiveStorageOption*>(kc_x); |
| } |
| |
| impl_storageclasses* |
| Nilstorageclasses() { |
| storageclasses kc_x = new impl_storageclasses(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilstorageclasses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilstorageclasses)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_storageclasses(kc_x); |
| return static_cast<impl_storageclasses*>(kc_x); |
| } |
| |
| impl_storageclasses* |
| Consstorageclasses(ID _ID_1, storageclasses _storageclasses_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_storageclasses_1, phylum_storageclasses); |
| storageclasses kc_x = new impl_storageclasses(_ID_1, _storageclasses_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consstorageclasses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consstorageclasses)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_storageclasses(kc_x); |
| return static_cast<impl_storageclasses*>(kc_x); |
| } |
| |
| impl_productionblock_Emptyproductionblock* |
| Emptyproductionblock() { |
| productionblock kc_x = new impl_productionblock_Emptyproductionblock(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Emptyproductionblock)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Emptyproductionblock)); |
| kc_x->post_create(); |
| return static_cast<impl_productionblock_Emptyproductionblock*>(kc_x); |
| } |
| |
| impl_productionblock_ListAlternatives* |
| ListAlternatives(alternatives _alternatives_1, ID _ID_1) { |
| assertPhylum(_alternatives_1, phylum_alternatives); |
| assertPhylum(_ID_1, phylum_ID); |
| productionblock kc_x = new impl_productionblock_ListAlternatives(_alternatives_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ListAlternatives)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ListAlternatives)); |
| kc_x->post_create(); |
| return static_cast<impl_productionblock_ListAlternatives*>(kc_x); |
| } |
| |
| impl_productionblock_NonlistAlternatives* |
| NonlistAlternatives(alternatives _alternatives_1) { |
| assertPhylum(_alternatives_1, phylum_alternatives); |
| productionblock kc_x = new impl_productionblock_NonlistAlternatives(_alternatives_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NonlistAlternatives)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NonlistAlternatives)); |
| kc_x->post_create(); |
| return static_cast<impl_productionblock_NonlistAlternatives*>(kc_x); |
| } |
| |
| impl_productionblock_PredefinedAlternatives* |
| PredefinedAlternatives(alternatives _alternatives_1) { |
| assertPhylum(_alternatives_1, phylum_alternatives); |
| productionblock kc_x = new impl_productionblock_PredefinedAlternatives(_alternatives_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PredefinedAlternatives)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PredefinedAlternatives)); |
| kc_x->post_create(); |
| return static_cast<impl_productionblock_PredefinedAlternatives*>(kc_x); |
| } |
| |
| impl_alternatives* |
| Nilalternatives() { |
| alternatives kc_x = new impl_alternatives(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilalternatives)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilalternatives)); |
| kc_x->post_create(); |
| return static_cast<impl_alternatives*>(kc_x); |
| } |
| |
| impl_alternatives* |
| Consalternatives(alternative _alternative_1, alternatives _alternatives_1) { |
| assertPhylum(_alternative_1, phylum_alternative); |
| assertPhylum(_alternatives_1, phylum_alternatives); |
| alternatives kc_x = new impl_alternatives(_alternative_1, _alternatives_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consalternatives)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consalternatives)); |
| kc_x->post_create(); |
| return static_cast<impl_alternatives*>(kc_x); |
| } |
| |
| impl_alternative_Alternative* |
| Alternative(ID _ID_1, arguments _arguments_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_arguments_1, phylum_arguments); |
| alternative kc_x = new impl_alternative_Alternative(_ID_1, _arguments_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Alternative)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Alternative)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_alternative(kc_x); |
| return static_cast<impl_alternative_Alternative*>(kc_x); |
| } |
| |
| impl_arguments* |
| Nilarguments() { |
| arguments kc_x = new impl_arguments(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilarguments)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilarguments)); |
| kc_x->post_create(); |
| return static_cast<impl_arguments*>(kc_x); |
| } |
| |
| impl_arguments* |
| Consarguments(ID _ID_1, arguments _arguments_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_arguments_1, phylum_arguments); |
| arguments kc_x = new impl_arguments(_ID_1, _arguments_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consarguments)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consarguments)); |
| kc_x->post_create(); |
| return static_cast<impl_arguments*>(kc_x); |
| } |
| |
| impl_argument_Argument* |
| Argument(ID _ID_1, integer _integer_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_integer_1, phylum_integer); |
| argument kc_x = new impl_argument_Argument(_ID_1, _integer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Argument)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Argument)); |
| kc_x->post_create(); |
| return static_cast<impl_argument_Argument*>(kc_x); |
| } |
| |
| impl_Ccode_option_CcodeOption* |
| CcodeOption(attributes _attributes_1, Ctexts _Ctexts_1) { |
| assertPhylum(_attributes_1, phylum_attributes); |
| assertPhylum(_Ctexts_1, phylum_Ctexts); |
| Ccode_option kc_x = new impl_Ccode_option_CcodeOption(_attributes_1, _Ctexts_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CcodeOption)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CcodeOption)); |
| kc_x->post_create(); |
| return static_cast<impl_Ccode_option_CcodeOption*>(kc_x); |
| } |
| |
| impl_attributes* |
| Nilattributes() { |
| attributes kc_x = new impl_attributes(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilattributes)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilattributes)); |
| kc_x->post_create(); |
| return static_cast<impl_attributes*>(kc_x); |
| } |
| |
| impl_attributes* |
| Consattributes(attribute _attribute_1, attributes _attributes_1) { |
| assertPhylum(_attribute_1, phylum_attribute); |
| assertPhylum(_attributes_1, phylum_attributes); |
| attributes kc_x = new impl_attributes(_attribute_1, _attributes_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consattributes)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consattributes)); |
| kc_x->post_create(); |
| return static_cast<impl_attributes*>(kc_x); |
| } |
| |
| impl_attribute_Attribute* |
| Attribute(ID _ID_1, ID _ID_2, attribute_initialisation_option _attribute_initialisation_option_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ID_2, phylum_ID); |
| assertPhylum(_attribute_initialisation_option_1, phylum_attribute_initialisation_option); |
| attribute kc_x = new impl_attribute_Attribute(_ID_1, _ID_2, _attribute_initialisation_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Attribute)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Attribute)); |
| kc_x->post_create(); |
| return static_cast<impl_attribute_Attribute*>(kc_x); |
| } |
| |
| impl_attribute_initialisation_option_Noattribute_initialisation* |
| Noattribute_initialisation() { |
| attribute_initialisation_option kc_x = new impl_attribute_initialisation_option_Noattribute_initialisation(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Noattribute_initialisation)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Noattribute_initialisation)); |
| kc_x->post_create(); |
| return static_cast<impl_attribute_initialisation_option_Noattribute_initialisation*>(kc_x); |
| } |
| |
| impl_attribute_initialisation_option_Yesattribute_initialisation* |
| Yesattribute_initialisation(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| attribute_initialisation_option kc_x = new impl_attribute_initialisation_option_Yesattribute_initialisation(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Yesattribute_initialisation)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Yesattribute_initialisation)); |
| kc_x->post_create(); |
| return static_cast<impl_attribute_initialisation_option_Yesattribute_initialisation*>(kc_x); |
| } |
| |
| impl_Cexpression* |
| NilCexpression() { |
| Cexpression kc_x = new impl_Cexpression(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilCexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilCexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Cexpression(kc_x); |
| return static_cast<impl_Cexpression*>(kc_x); |
| } |
| |
| impl_Cexpression* |
| ConsCexpression(Cexpression_elem _Cexpression_elem_1, Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_elem_1, phylum_Cexpression_elem); |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| Cexpression kc_x = new impl_Cexpression(_Cexpression_elem_1, _Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsCexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsCexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Cexpression(kc_x); |
| return static_cast<impl_Cexpression*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionPart* |
| CExpressionPart(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionPart(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionPart)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionPart)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionPart*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionDollarvar* |
| CExpressionDollarvar(INT _INT_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionDollarvar(_INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionDollarvar)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionDollarvar)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionDollarvar*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionNl* |
| CExpressionNl() { |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionNl(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionNl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionNl)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionNl*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionDQ* |
| CExpressionDQ(CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionDQ(_CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionDQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionDQ)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionDQ*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionSQ* |
| CExpressionSQ(CexpressionSQ _CexpressionSQ_1) { |
| assertPhylum(_CexpressionSQ_1, phylum_CexpressionSQ); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionSQ(_CexpressionSQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionSQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionSQ)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionSQ*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionPack* |
| CExpressionPack(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionPack(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionPack)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionPack)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionPack*>(kc_x); |
| } |
| |
| impl_Cexpression_elem_CExpressionArray* |
| CExpressionArray(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| Cexpression_elem kc_x = new impl_Cexpression_elem_CExpressionArray(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionArray)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionArray)); |
| kc_x->post_create(); |
| return static_cast<impl_Cexpression_elem_CExpressionArray*>(kc_x); |
| } |
| |
| impl_CexpressionDQ* |
| NilCexpressionDQ() { |
| CexpressionDQ kc_x = new impl_CexpressionDQ(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilCexpressionDQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilCexpressionDQ)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionDQ*>(kc_x); |
| } |
| |
| impl_CexpressionDQ* |
| ConsCexpressionDQ(CexpressionDQ_elem _CexpressionDQ_elem_1, CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_CexpressionDQ_elem_1, phylum_CexpressionDQ_elem); |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| CexpressionDQ kc_x = new impl_CexpressionDQ(_CexpressionDQ_elem_1, _CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsCexpressionDQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsCexpressionDQ)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionDQ*>(kc_x); |
| } |
| |
| impl_CexpressionDQ_elem_CExpressionDQPart* |
| CExpressionDQPart(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| CexpressionDQ_elem kc_x = new impl_CexpressionDQ_elem_CExpressionDQPart(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionDQPart)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionDQPart)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionDQ_elem_CExpressionDQPart*>(kc_x); |
| } |
| |
| impl_CexpressionDQ_elem_CExpressionDQNl* |
| CExpressionDQNl() { |
| CexpressionDQ_elem kc_x = new impl_CexpressionDQ_elem_CExpressionDQNl(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionDQNl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionDQNl)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionDQ_elem_CExpressionDQNl*>(kc_x); |
| } |
| |
| impl_CexpressionSQ* |
| NilCexpressionSQ() { |
| CexpressionSQ kc_x = new impl_CexpressionSQ(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilCexpressionSQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilCexpressionSQ)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionSQ*>(kc_x); |
| } |
| |
| impl_CexpressionSQ* |
| ConsCexpressionSQ(CexpressionSQ_elem _CexpressionSQ_elem_1, CexpressionSQ _CexpressionSQ_1) { |
| assertPhylum(_CexpressionSQ_elem_1, phylum_CexpressionSQ_elem); |
| assertPhylum(_CexpressionSQ_1, phylum_CexpressionSQ); |
| CexpressionSQ kc_x = new impl_CexpressionSQ(_CexpressionSQ_elem_1, _CexpressionSQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsCexpressionSQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsCexpressionSQ)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionSQ*>(kc_x); |
| } |
| |
| impl_CexpressionSQ_elem_CExpressionSQPart* |
| CExpressionSQPart(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| CexpressionSQ_elem kc_x = new impl_CexpressionSQ_elem_CExpressionSQPart(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionSQPart)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionSQPart)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionSQ_elem_CExpressionSQPart*>(kc_x); |
| } |
| |
| impl_CexpressionSQ_elem_CExpressionSQNl* |
| CExpressionSQNl() { |
| CexpressionSQ_elem kc_x = new impl_CexpressionSQ_elem_CExpressionSQNl(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CExpressionSQNl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CExpressionSQNl)); |
| kc_x->post_create(); |
| return static_cast<impl_CexpressionSQ_elem_CExpressionSQNl*>(kc_x); |
| } |
| |
| impl_idCexpressions* |
| NilidCexpressions() { |
| idCexpressions kc_x = new impl_idCexpressions(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilidCexpressions)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilidCexpressions)); |
| kc_x->post_create(); |
| return static_cast<impl_idCexpressions*>(kc_x); |
| } |
| |
| impl_idCexpressions* |
| ConsidCexpressions(idCexpression _idCexpression_1, idCexpressions _idCexpressions_1) { |
| assertPhylum(_idCexpression_1, phylum_idCexpression); |
| assertPhylum(_idCexpressions_1, phylum_idCexpressions); |
| idCexpressions kc_x = new impl_idCexpressions(_idCexpression_1, _idCexpressions_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsidCexpressions)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsidCexpressions)); |
| kc_x->post_create(); |
| return static_cast<impl_idCexpressions*>(kc_x); |
| } |
| |
| impl_idCexpression_IdCexpression* |
| IdCexpression(ID _ID_1, Cexpression _Cexpression_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| idCexpression kc_x = new impl_idCexpression_IdCexpression(_ID_1, _Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_IdCexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_IdCexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_idCexpression(kc_x); |
| return static_cast<impl_idCexpression_IdCexpression*>(kc_x); |
| } |
| |
| impl_Ctexts* |
| NilCtexts() { |
| Ctexts kc_x = new impl_Ctexts(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilCtexts)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilCtexts)); |
| kc_x->post_create(); |
| return static_cast<impl_Ctexts*>(kc_x); |
| } |
| |
| impl_Ctexts* |
| ConsCtexts(Ctext _Ctext_1, Ctexts _Ctexts_1) { |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| assertPhylum(_Ctexts_1, phylum_Ctexts); |
| Ctexts kc_x = new impl_Ctexts(_Ctext_1, _Ctexts_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsCtexts)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsCtexts)); |
| kc_x->post_create(); |
| return static_cast<impl_Ctexts*>(kc_x); |
| } |
| |
| impl_includefiles* |
| Nilincludefiles() { |
| includefiles kc_x = new impl_includefiles(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilincludefiles)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilincludefiles)); |
| kc_x->post_create(); |
| return static_cast<impl_includefiles*>(kc_x); |
| } |
| |
| impl_includefiles* |
| Consincludefiles(includefile _includefile_1, includefiles _includefiles_1) { |
| assertPhylum(_includefile_1, phylum_includefile); |
| assertPhylum(_includefiles_1, phylum_includefiles); |
| includefiles kc_x = new impl_includefiles(_includefile_1, _includefiles_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consincludefiles)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consincludefiles)); |
| kc_x->post_create(); |
| return static_cast<impl_includefiles*>(kc_x); |
| } |
| |
| impl_includefile_IncludeFile* |
| IncludeFile(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| includefile kc_x=new impl_includefile_IncludeFile(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_IncludeFile)); |
| includefile unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_IncludeFile)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_includefile(kc_x); |
| } |
| return static_cast<impl_includefile_IncludeFile*>(kc_x); |
| } |
| |
| impl_includedeclarations* |
| Nilincludedeclarations() { |
| includedeclarations kc_x = new impl_includedeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilincludedeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilincludedeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_includedeclarations*>(kc_x); |
| } |
| |
| impl_includedeclarations* |
| Consincludedeclarations(includedeclaration _includedeclaration_1, includedeclarations _includedeclarations_1) { |
| assertPhylum(_includedeclaration_1, phylum_includedeclaration); |
| assertPhylum(_includedeclarations_1, phylum_includedeclarations); |
| includedeclarations kc_x = new impl_includedeclarations(_includedeclaration_1, _includedeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consincludedeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consincludedeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_includedeclarations*>(kc_x); |
| } |
| |
| impl_includedeclaration_IncludeDeclaration* |
| IncludeDeclaration(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| includedeclaration kc_x = new impl_includedeclaration_IncludeDeclaration(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_IncludeDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_IncludeDeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_includedeclaration(kc_x); |
| return static_cast<impl_includedeclaration_IncludeDeclaration*>(kc_x); |
| } |
| |
| impl_rwdeclarations* |
| Nilrwdeclarations() { |
| rwdeclarations kc_x = new impl_rwdeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilrwdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilrwdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_rwdeclarations*>(kc_x); |
| } |
| |
| impl_rwdeclarations* |
| Consrwdeclarations(rwdeclaration _rwdeclaration_1, rwdeclarations _rwdeclarations_1) { |
| assertPhylum(_rwdeclaration_1, phylum_rwdeclaration); |
| assertPhylum(_rwdeclarations_1, phylum_rwdeclarations); |
| rwdeclarations kc_x = new impl_rwdeclarations(_rwdeclaration_1, _rwdeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consrwdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consrwdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_rwdeclarations*>(kc_x); |
| } |
| |
| impl_rwdeclaration_RwDeclaration* |
| RwDeclaration(outmostpatterns _outmostpatterns_1, rewriteclauses _rewriteclauses_1) { |
| assertPhylum(_outmostpatterns_1, phylum_outmostpatterns); |
| assertPhylum(_rewriteclauses_1, phylum_rewriteclauses); |
| rwdeclaration kc_x = new impl_rwdeclaration_RwDeclaration(_outmostpatterns_1, _rewriteclauses_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_RwDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_RwDeclaration)); |
| kc_x->post_create(); |
| return static_cast<impl_rwdeclaration_RwDeclaration*>(kc_x); |
| } |
| |
| impl_rewriteclauses* |
| Nilrewriteclauses() { |
| rewriteclauses kc_x = new impl_rewriteclauses(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilrewriteclauses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilrewriteclauses)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteclauses*>(kc_x); |
| } |
| |
| impl_rewriteclauses* |
| Consrewriteclauses(rewriteclause _rewriteclause_1, rewriteclauses _rewriteclauses_1) { |
| assertPhylum(_rewriteclause_1, phylum_rewriteclause); |
| assertPhylum(_rewriteclauses_1, phylum_rewriteclauses); |
| rewriteclauses kc_x = new impl_rewriteclauses(_rewriteclause_1, _rewriteclauses_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consrewriteclauses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consrewriteclauses)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteclauses*>(kc_x); |
| } |
| |
| impl_rewriteclause_RewriteClause* |
| RewriteClause(viewnames _viewnames_1, term _term_1) { |
| assertPhylum(_viewnames_1, phylum_viewnames); |
| assertPhylum(_term_1, phylum_term); |
| rewriteclause kc_x = new impl_rewriteclause_RewriteClause(_viewnames_1, _term_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_RewriteClause)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_RewriteClause)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteclause_RewriteClause*>(kc_x); |
| } |
| |
| impl_patternchains* |
| Nilpatternchains() { |
| patternchains kc_x = new impl_patternchains(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpatternchains)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpatternchains)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchains(kc_x); |
| return static_cast<impl_patternchains*>(kc_x); |
| } |
| |
| impl_patternchains* |
| Conspatternchains(patternchain _patternchain_1, patternchains _patternchains_1) { |
| assertPhylum(_patternchain_1, phylum_patternchain); |
| assertPhylum(_patternchains_1, phylum_patternchains); |
| patternchains kc_x = new impl_patternchains(_patternchain_1, _patternchains_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspatternchains)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspatternchains)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchains(kc_x); |
| return static_cast<impl_patternchains*>(kc_x); |
| } |
| |
| impl_patternchain* |
| Nilpatternchain() { |
| patternchain kc_x = new impl_patternchain(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpatternchain)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpatternchain)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchain(kc_x); |
| return static_cast<impl_patternchain*>(kc_x); |
| } |
| |
| impl_patternchain* |
| Conspatternchain(patternchainitem _patternchainitem_1, patternchain _patternchain_1) { |
| assertPhylum(_patternchainitem_1, phylum_patternchainitem); |
| assertPhylum(_patternchain_1, phylum_patternchain); |
| patternchain kc_x = new impl_patternchain(_patternchainitem_1, _patternchain_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspatternchain)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspatternchain)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchain(kc_x); |
| return static_cast<impl_patternchain*>(kc_x); |
| } |
| |
| impl_outmostpatterns* |
| Niloutmostpatterns() { |
| outmostpatterns kc_x = new impl_outmostpatterns(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Niloutmostpatterns)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Niloutmostpatterns)); |
| kc_x->post_create(); |
| return static_cast<impl_outmostpatterns*>(kc_x); |
| } |
| |
| impl_outmostpatterns* |
| Consoutmostpatterns(outmostpattern _outmostpattern_1, outmostpatterns _outmostpatterns_1) { |
| assertPhylum(_outmostpattern_1, phylum_outmostpattern); |
| assertPhylum(_outmostpatterns_1, phylum_outmostpatterns); |
| outmostpatterns kc_x = new impl_outmostpatterns(_outmostpattern_1, _outmostpatterns_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consoutmostpatterns)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consoutmostpatterns)); |
| kc_x->post_create(); |
| return static_cast<impl_outmostpatterns*>(kc_x); |
| } |
| |
| impl_patternchainitem_PatternchainitemOutmost* |
| PatternchainitemOutmost(outmostpattern _outmostpattern_1) { |
| assertPhylum(_outmostpattern_1, phylum_outmostpattern); |
| patternchainitem kc_x = new impl_patternchainitem_PatternchainitemOutmost(_outmostpattern_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PatternchainitemOutmost)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PatternchainitemOutmost)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchainitem(kc_x); |
| return static_cast<impl_patternchainitem_PatternchainitemOutmost*>(kc_x); |
| } |
| |
| impl_patternchainitem_PatternchainitemGroup* |
| PatternchainitemGroup(patternchains _patternchains_1) { |
| assertPhylum(_patternchains_1, phylum_patternchains); |
| patternchainitem kc_x = new impl_patternchainitem_PatternchainitemGroup(_patternchains_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PatternchainitemGroup)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PatternchainitemGroup)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchainitem(kc_x); |
| return static_cast<impl_patternchainitem_PatternchainitemGroup*>(kc_x); |
| } |
| |
| impl_patternchainitem_PatternchainitemDollarid* |
| PatternchainitemDollarid(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| patternchainitem kc_x = new impl_patternchainitem_PatternchainitemDollarid(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PatternchainitemDollarid)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PatternchainitemDollarid)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_patternchainitem(kc_x); |
| return static_cast<impl_patternchainitem_PatternchainitemDollarid*>(kc_x); |
| } |
| |
| impl_outmostpattern_OPOperatorWildcard* |
| OPOperatorWildcard(ID _ID_1, Cexpression _Cexpression_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| outmostpattern kc_x = new impl_outmostpattern_OPOperatorWildcard(_ID_1, _Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_OPOperatorWildcard)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_OPOperatorWildcard)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_outmostpattern(kc_x); |
| return static_cast<impl_outmostpattern_OPOperatorWildcard*>(kc_x); |
| } |
| |
| impl_outmostpattern_OPOperator* |
| OPOperator(ID _ID_1, patterns _patterns_1, Cexpression _Cexpression_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_patterns_1, phylum_patterns); |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| outmostpattern kc_x = new impl_outmostpattern_OPOperator(_ID_1, _patterns_1, _Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_OPOperator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_OPOperator)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_outmostpattern(kc_x); |
| return static_cast<impl_outmostpattern_OPOperator*>(kc_x); |
| } |
| |
| impl_outmostpattern_OPNonLeafVariable* |
| OPNonLeafVariable(ID _ID_1, outmostpattern _outmostpattern_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_outmostpattern_1, phylum_outmostpattern); |
| outmostpattern kc_x = new impl_outmostpattern_OPNonLeafVariable(_ID_1, _outmostpattern_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_OPNonLeafVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_OPNonLeafVariable)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_outmostpattern(kc_x); |
| return static_cast<impl_outmostpattern_OPNonLeafVariable*>(kc_x); |
| } |
| |
| impl_outmostpattern_OPWildcard* |
| OPWildcard(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| outmostpattern kc_x = new impl_outmostpattern_OPWildcard(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_OPWildcard)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_OPWildcard)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_outmostpattern(kc_x); |
| return static_cast<impl_outmostpattern_OPWildcard*>(kc_x); |
| } |
| |
| impl_outmostpattern_OPDefault* |
| OPDefault(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| outmostpattern kc_x = new impl_outmostpattern_OPDefault(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_OPDefault)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_OPDefault)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_outmostpattern(kc_x); |
| return static_cast<impl_outmostpattern_OPDefault*>(kc_x); |
| } |
| |
| impl_pattern_PVariable* |
| PVariable(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| pattern kc_x = new impl_pattern_PVariable(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PVariable)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_PVariable*>(kc_x); |
| } |
| |
| impl_pattern_POperator* |
| POperator(ID _ID_1, patterns _patterns_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_patterns_1, phylum_patterns); |
| pattern kc_x = new impl_pattern_POperator(_ID_1, _patterns_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_POperator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_POperator)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_POperator*>(kc_x); |
| } |
| |
| impl_pattern_PNonLeafVariable* |
| PNonLeafVariable(ID _ID_1, pattern _pattern_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_pattern_1, phylum_pattern); |
| pattern kc_x = new impl_pattern_PNonLeafVariable(_ID_1, _pattern_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PNonLeafVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PNonLeafVariable)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_PNonLeafVariable*>(kc_x); |
| } |
| |
| impl_pattern_PWildcard* |
| PWildcard() { |
| pattern kc_x = new impl_pattern_PWildcard(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PWildcard)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PWildcard)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_PWildcard*>(kc_x); |
| } |
| |
| impl_pattern_PStringLiteral* |
| PStringLiteral(CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| pattern kc_x = new impl_pattern_PStringLiteral(_CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PStringLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PStringLiteral)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_PStringLiteral*>(kc_x); |
| } |
| |
| impl_pattern_PIntLiteral* |
| PIntLiteral(INT _INT_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| pattern kc_x = new impl_pattern_PIntLiteral(_INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PIntLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PIntLiteral)); |
| kc_x->post_create(); |
| return static_cast<impl_pattern_PIntLiteral*>(kc_x); |
| } |
| |
| impl_patterns* |
| Nilpatterns() { |
| patterns kc_x = new impl_patterns(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpatterns)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpatterns)); |
| kc_x->post_create(); |
| return static_cast<impl_patterns*>(kc_x); |
| } |
| |
| impl_patterns* |
| Conspatterns(pattern _pattern_1, patterns _patterns_1) { |
| assertPhylum(_pattern_1, phylum_pattern); |
| assertPhylum(_patterns_1, phylum_patterns); |
| patterns kc_x = new impl_patterns(_pattern_1, _patterns_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspatterns)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspatterns)); |
| kc_x->post_create(); |
| return static_cast<impl_patterns*>(kc_x); |
| } |
| |
| impl_term_TVariable* |
| TVariable(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| term kc_x = new impl_term_TVariable(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TVariable)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TVariable*>(kc_x); |
| } |
| |
| impl_term_TOperator* |
| TOperator(ID _ID_1, terms _terms_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_terms_1, phylum_terms); |
| term kc_x = new impl_term_TOperator(_ID_1, _terms_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TOperator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TOperator)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TOperator*>(kc_x); |
| } |
| |
| impl_term_TMethod* |
| TMethod(term _term_1, ID _ID_1, terms _terms_1) { |
| assertPhylum(_term_1, phylum_term); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_terms_1, phylum_terms); |
| term kc_x = new impl_term_TMethod(_term_1, _ID_1, _terms_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TMethod)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TMethod)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TMethod*>(kc_x); |
| } |
| |
| impl_term_TMethodDot* |
| TMethodDot(term _term_1, ID _ID_1, terms _terms_1) { |
| assertPhylum(_term_1, phylum_term); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_terms_1, phylum_terms); |
| term kc_x = new impl_term_TMethodDot(_term_1, _ID_1, _terms_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TMethodDot)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TMethodDot)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TMethodDot*>(kc_x); |
| } |
| |
| impl_term_TMemberVar* |
| TMemberVar(term _term_1, ID _ID_1) { |
| assertPhylum(_term_1, phylum_term); |
| assertPhylum(_ID_1, phylum_ID); |
| term kc_x = new impl_term_TMemberVar(_term_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TMemberVar)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TMemberVar)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TMemberVar*>(kc_x); |
| } |
| |
| impl_term_TMemberVarDot* |
| TMemberVarDot(term _term_1, ID _ID_1) { |
| assertPhylum(_term_1, phylum_term); |
| assertPhylum(_ID_1, phylum_ID); |
| term kc_x = new impl_term_TMemberVarDot(_term_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TMemberVarDot)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TMemberVarDot)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TMemberVarDot*>(kc_x); |
| } |
| |
| impl_term_TCTerm* |
| TCTerm(CexpressionSQ _CexpressionSQ_1) { |
| assertPhylum(_CexpressionSQ_1, phylum_CexpressionSQ); |
| term kc_x = new impl_term_TCTerm(_CexpressionSQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TCTerm)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TCTerm)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TCTerm*>(kc_x); |
| } |
| |
| impl_term_TStringLiteral* |
| TStringLiteral(CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| term kc_x = new impl_term_TStringLiteral(_CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TStringLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TStringLiteral)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TStringLiteral*>(kc_x); |
| } |
| |
| impl_term_TIntLiteral* |
| TIntLiteral(INT _INT_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| term kc_x = new impl_term_TIntLiteral(_INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_TIntLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_TIntLiteral)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_term(kc_x); |
| return static_cast<impl_term_TIntLiteral*>(kc_x); |
| } |
| |
| impl_terms* |
| Nilterms() { |
| terms kc_x = new impl_terms(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilterms)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilterms)); |
| kc_x->post_create(); |
| return static_cast<impl_terms*>(kc_x); |
| } |
| |
| impl_terms* |
| Consterms(term _term_1, terms _terms_1) { |
| assertPhylum(_term_1, phylum_term); |
| assertPhylum(_terms_1, phylum_terms); |
| terms kc_x = new impl_terms(_term_1, _terms_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consterms)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consterms)); |
| kc_x->post_create(); |
| return static_cast<impl_terms*>(kc_x); |
| } |
| |
| impl_fnfiles* |
| Nilfnfiles() { |
| fnfiles kc_x = new impl_fnfiles(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilfnfiles)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilfnfiles)); |
| kc_x->post_create(); |
| return static_cast<impl_fnfiles*>(kc_x); |
| } |
| |
| impl_fnfiles* |
| Consfnfiles(fnfile _fnfile_1, fnfiles _fnfiles_1) { |
| assertPhylum(_fnfile_1, phylum_fnfile); |
| assertPhylum(_fnfiles_1, phylum_fnfiles); |
| fnfiles kc_x = new impl_fnfiles(_fnfile_1, _fnfiles_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consfnfiles)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consfnfiles)); |
| kc_x->post_create(); |
| return static_cast<impl_fnfiles*>(kc_x); |
| } |
| |
| impl_fnfile_FnFile* |
| FnFile(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| fnfile kc_x=new impl_fnfile_FnFile(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_FnFile)); |
| fnfile unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_FnFile)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_fnfile(kc_x); |
| } |
| return static_cast<impl_fnfile_FnFile*>(kc_x); |
| } |
| |
| impl_fndeclarations* |
| Nilfndeclarations() { |
| fndeclarations kc_x = new impl_fndeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilfndeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilfndeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_fndeclarations*>(kc_x); |
| } |
| |
| impl_fndeclarations* |
| Consfndeclarations(fndeclaration _fndeclaration_1, fndeclarations _fndeclarations_1) { |
| assertPhylum(_fndeclaration_1, phylum_fndeclaration); |
| assertPhylum(_fndeclarations_1, phylum_fndeclarations); |
| fndeclarations kc_x = new impl_fndeclarations(_fndeclaration_1, _fndeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consfndeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consfndeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_fndeclarations*>(kc_x); |
| } |
| |
| impl_fndeclaration_FnAcDeclaration* |
| FnAcDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_declaration_list _ac_declaration_list_1, ac_opt_base_init_list _ac_opt_base_init_list_1, Ctext _Ctext_1, ID _ID_1, fnclass _fnclass_1) { |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| assertPhylum(_ac_declarator_1, phylum_ac_declarator); |
| assertPhylum(_ac_declaration_list_1, phylum_ac_declaration_list); |
| assertPhylum(_ac_opt_base_init_list_1, phylum_ac_opt_base_init_list); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_fnclass_1, phylum_fnclass); |
| fndeclaration kc_x = new impl_fndeclaration_FnAcDeclaration(_ac_declaration_specifiers_1, _ac_declarator_1, _ac_declaration_list_1, _ac_opt_base_init_list_1, _Ctext_1, _ID_1, _fnclass_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_FnAcDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_FnAcDeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_fndeclaration(kc_x); |
| return static_cast<impl_fndeclaration_FnAcDeclaration*>(kc_x); |
| } |
| |
| impl_fndeclaration_AcMemberDeclaration* |
| AcMemberDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1, fnclass _fnclass_1) { |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| assertPhylum(_ac_declarator_1, phylum_ac_declarator); |
| assertPhylum(_ac_constant_expression_option_1, phylum_ac_constant_expression_option); |
| assertPhylum(_fnclass_1, phylum_fnclass); |
| fndeclaration kc_x = new impl_fndeclaration_AcMemberDeclaration(_ac_declaration_specifiers_1, _ac_declarator_1, _ac_constant_expression_option_1, _fnclass_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcMemberDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcMemberDeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_fndeclaration(kc_x); |
| return static_cast<impl_fndeclaration_AcMemberDeclaration*>(kc_x); |
| } |
| |
| impl_fnclass_GlobalFn* |
| GlobalFn() { |
| fnclass kc_x = new impl_fnclass_GlobalFn(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_GlobalFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_GlobalFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_GlobalFn*>(kc_x); |
| } |
| |
| impl_fnclass_StaticFn* |
| StaticFn(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| fnclass kc_x = new impl_fnclass_StaticFn(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_StaticFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_StaticFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_StaticFn*>(kc_x); |
| } |
| |
| impl_fnclass_MemberFn* |
| MemberFn() { |
| fnclass kc_x = new impl_fnclass_MemberFn(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_MemberFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_MemberFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_MemberFn*>(kc_x); |
| } |
| |
| impl_fnclass_ConstructorFn* |
| ConstructorFn() { |
| fnclass kc_x = new impl_fnclass_ConstructorFn(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConstructorFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConstructorFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_ConstructorFn*>(kc_x); |
| } |
| |
| impl_fnclass_DestructorFn* |
| DestructorFn() { |
| fnclass kc_x = new impl_fnclass_DestructorFn(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_DestructorFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_DestructorFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_DestructorFn*>(kc_x); |
| } |
| |
| impl_fnclass_ConvOperatorFn* |
| ConvOperatorFn() { |
| fnclass kc_x = new impl_fnclass_ConvOperatorFn(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConvOperatorFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConvOperatorFn)); |
| kc_x->post_create(); |
| return static_cast<impl_fnclass_ConvOperatorFn*>(kc_x); |
| } |
| |
| impl_Ctext* |
| NilCtext() { |
| Ctext kc_x = new impl_Ctext(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NilCtext)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NilCtext)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext(kc_x); |
| return static_cast<impl_Ctext*>(kc_x); |
| } |
| |
| impl_Ctext* |
| ConsCtext(Ctext_elem _Ctext_elem_1, Ctext _Ctext_1) { |
| assertPhylum(_Ctext_elem_1, phylum_Ctext_elem); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| Ctext kc_x = new impl_Ctext(_Ctext_elem_1, _Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ConsCtext)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ConsCtext)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext(kc_x); |
| return static_cast<impl_Ctext*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextLine* |
| CTextLine(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextLine(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextLine)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextLine)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextLine*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextDollarVar* |
| CTextDollarVar(INT _INT_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextDollarVar(_INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextDollarVar)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextDollarVar)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextDollarVar*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextNl* |
| CTextNl(integer _integer_1) { |
| assertPhylum(_integer_1, phylum_integer); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextNl(_integer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextNl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextNl)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextNl*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextCexpressionDQ* |
| CTextCexpressionDQ(CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextCexpressionDQ(_CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextCexpressionDQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextCexpressionDQ)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextCexpressionDQ*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextCexpressionSQ* |
| CTextCexpressionSQ(CexpressionSQ _CexpressionSQ_1) { |
| assertPhylum(_CexpressionSQ_1, phylum_CexpressionSQ); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextCexpressionSQ(_CexpressionSQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextCexpressionSQ)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextCexpressionSQ)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextCexpressionSQ*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextCbody* |
| CTextCbody(Ctext _Ctext_1) { |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextCbody(_Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextCbody)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextCbody)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextCbody*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextForeachexpression* |
| CTextForeachexpression(patternchain _patternchain_1, idCexpressions _idCexpressions_1, withexpressions _withexpressions_1, Ctext _Ctext_1, foreach_after _foreach_after_1) { |
| assertPhylum(_patternchain_1, phylum_patternchain); |
| assertPhylum(_idCexpressions_1, phylum_idCexpressions); |
| assertPhylum(_withexpressions_1, phylum_withexpressions); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| assertPhylum(_foreach_after_1, phylum_foreach_after); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextForeachexpression(_patternchain_1, _idCexpressions_1, _withexpressions_1, _Ctext_1, _foreach_after_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextForeachexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextForeachexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextForeachexpression*>(kc_x); |
| } |
| |
| impl_Ctext_elem_CTextWithexpression* |
| CTextWithexpression(withexpressions _withexpressions_1, withcases _withcases_1, contextinfo _contextinfo_1) { |
| assertPhylum(_withexpressions_1, phylum_withexpressions); |
| assertPhylum(_withcases_1, phylum_withcases); |
| assertPhylum(_contextinfo_1, phylum_contextinfo); |
| Ctext_elem kc_x = new impl_Ctext_elem_CTextWithexpression(_withexpressions_1, _withcases_1, _contextinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CTextWithexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CTextWithexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_Ctext_elem(kc_x); |
| return static_cast<impl_Ctext_elem_CTextWithexpression*>(kc_x); |
| } |
| |
| impl_foreach_after_NoForeachAfter* |
| NoForeachAfter() { |
| foreach_after kc_x = new impl_foreach_after_NoForeachAfter(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoForeachAfter)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoForeachAfter)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_foreach_after(kc_x); |
| return static_cast<impl_foreach_after_NoForeachAfter*>(kc_x); |
| } |
| |
| impl_foreach_after_ForeachAfter* |
| ForeachAfter(patternchain _patternchain_1, idCexpressions _idCexpressions_1, withexpressions _withexpressions_1, Ctext _Ctext_1) { |
| assertPhylum(_patternchain_1, phylum_patternchain); |
| assertPhylum(_idCexpressions_1, phylum_idCexpressions); |
| assertPhylum(_withexpressions_1, phylum_withexpressions); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| foreach_after kc_x = new impl_foreach_after_ForeachAfter(_patternchain_1, _idCexpressions_1, _withexpressions_1, _Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ForeachAfter)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ForeachAfter)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_foreach_after(kc_x); |
| return static_cast<impl_foreach_after_ForeachAfter*>(kc_x); |
| } |
| |
| impl_contextinfo_InForeachContext* |
| InForeachContext(patternchain _patternchain_1) { |
| assertPhylum(_patternchain_1, phylum_patternchain); |
| contextinfo kc_x = new impl_contextinfo_InForeachContext(_patternchain_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_InForeachContext)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_InForeachContext)); |
| kc_x->post_create(); |
| return static_cast<impl_contextinfo_InForeachContext*>(kc_x); |
| } |
| |
| impl_contextinfo_NotInForeachContext* |
| NotInForeachContext() { |
| contextinfo kc_x = new impl_contextinfo_NotInForeachContext(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NotInForeachContext)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NotInForeachContext)); |
| kc_x->post_create(); |
| return static_cast<impl_contextinfo_NotInForeachContext*>(kc_x); |
| } |
| |
| impl_withexpressions* |
| Nilwithexpressions() { |
| withexpressions kc_x = new impl_withexpressions(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilwithexpressions)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilwithexpressions)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_withexpressions(kc_x); |
| return static_cast<impl_withexpressions*>(kc_x); |
| } |
| |
| impl_withexpressions* |
| Conswithexpressions(withexpression _withexpression_1, withexpressions _withexpressions_1) { |
| assertPhylum(_withexpression_1, phylum_withexpression); |
| assertPhylum(_withexpressions_1, phylum_withexpressions); |
| withexpressions kc_x = new impl_withexpressions(_withexpression_1, _withexpressions_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conswithexpressions)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conswithexpressions)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_withexpressions(kc_x); |
| return static_cast<impl_withexpressions*>(kc_x); |
| } |
| |
| impl_withexpression_WEVariable* |
| WEVariable(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| withexpression kc_x = new impl_withexpression_WEVariable(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_WEVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_WEVariable)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_withexpression(kc_x); |
| return static_cast<impl_withexpression_WEVariable*>(kc_x); |
| } |
| |
| impl_withexpression_WECexpression* |
| WECexpression(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| withexpression kc_x = new impl_withexpression_WECexpression(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_WECexpression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_WECexpression)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_withexpression(kc_x); |
| return static_cast<impl_withexpression_WECexpression*>(kc_x); |
| } |
| |
| impl_withcases* |
| Nilwithcases() { |
| withcases kc_x = new impl_withcases(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilwithcases)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilwithcases)); |
| kc_x->post_create(); |
| return static_cast<impl_withcases*>(kc_x); |
| } |
| |
| impl_withcases* |
| Conswithcases(withcase _withcase_1, withcases _withcases_1) { |
| assertPhylum(_withcase_1, phylum_withcase); |
| assertPhylum(_withcases_1, phylum_withcases); |
| withcases kc_x = new impl_withcases(_withcase_1, _withcases_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conswithcases)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conswithcases)); |
| kc_x->post_create(); |
| return static_cast<impl_withcases*>(kc_x); |
| } |
| |
| impl_withcase_Withcase* |
| Withcase(patternchains _patternchains_1, Ctext _Ctext_1) { |
| assertPhylum(_patternchains_1, phylum_patternchains); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| withcase kc_x = new impl_withcase_Withcase(_patternchains_1, _Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Withcase)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Withcase)); |
| kc_x->post_create(); |
| return static_cast<impl_withcase_Withcase*>(kc_x); |
| } |
| |
| impl_unparsedeclarations* |
| Nilunparsedeclarations() { |
| unparsedeclarations kc_x = new impl_unparsedeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunparsedeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunparsedeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclarations*>(kc_x); |
| } |
| |
| impl_unparsedeclarations* |
| Consunparsedeclarations(unparsedeclaration _unparsedeclaration_1, unparsedeclarations _unparsedeclarations_1) { |
| assertPhylum(_unparsedeclaration_1, phylum_unparsedeclaration); |
| assertPhylum(_unparsedeclarations_1, phylum_unparsedeclarations); |
| unparsedeclarations kc_x = new impl_unparsedeclarations(_unparsedeclaration_1, _unparsedeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunparsedeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunparsedeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclarations*>(kc_x); |
| } |
| |
| impl_unparsedeclaration_UnparseDeclaration* |
| UnparseDeclaration(outmostpatterns _outmostpatterns_1, unparseclauses _unparseclauses_1) { |
| assertPhylum(_outmostpatterns_1, phylum_outmostpatterns); |
| assertPhylum(_unparseclauses_1, phylum_unparseclauses); |
| unparsedeclaration kc_x = new impl_unparsedeclaration_UnparseDeclaration(_outmostpatterns_1, _unparseclauses_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnparseDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnparseDeclaration)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclaration_UnparseDeclaration*>(kc_x); |
| } |
| |
| impl_unparseclauses* |
| Nilunparseclauses() { |
| unparseclauses kc_x = new impl_unparseclauses(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunparseclauses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunparseclauses)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseclauses*>(kc_x); |
| } |
| |
| impl_unparseclauses* |
| Consunparseclauses(unparseclause _unparseclause_1, unparseclauses _unparseclauses_1) { |
| assertPhylum(_unparseclause_1, phylum_unparseclause); |
| assertPhylum(_unparseclauses_1, phylum_unparseclauses); |
| unparseclauses kc_x = new impl_unparseclauses(_unparseclause_1, _unparseclauses_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunparseclauses)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunparseclauses)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseclauses*>(kc_x); |
| } |
| |
| impl_unparseclause_UnparseClause* |
| UnparseClause(viewnames _viewnames_1, unparseitems _unparseitems_1) { |
| assertPhylum(_viewnames_1, phylum_viewnames); |
| assertPhylum(_unparseitems_1, phylum_unparseitems); |
| unparseclause kc_x = new impl_unparseclause_UnparseClause(_viewnames_1, _unparseitems_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnparseClause)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnparseClause)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseclause_UnparseClause*>(kc_x); |
| } |
| |
| impl_viewnames* |
| Nilviewnames() { |
| viewnames kc_x = new impl_viewnames(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilviewnames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilviewnames)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_viewnames(kc_x); |
| return static_cast<impl_viewnames*>(kc_x); |
| } |
| |
| impl_viewnames* |
| Consviewnames(ID _ID_1, viewnames _viewnames_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_viewnames_1, phylum_viewnames); |
| viewnames kc_x = new impl_viewnames(_ID_1, _viewnames_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consviewnames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consviewnames)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_viewnames(kc_x); |
| return static_cast<impl_viewnames*>(kc_x); |
| } |
| |
| impl_unparseitems* |
| Nilunparseitems() { |
| unparseitems kc_x = new impl_unparseitems(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunparseitems)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunparseitems)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseitems*>(kc_x); |
| } |
| |
| impl_unparseitems* |
| Consunparseitems(unparseitem _unparseitem_1, unparseitems _unparseitems_1) { |
| assertPhylum(_unparseitem_1, phylum_unparseitem); |
| assertPhylum(_unparseitems_1, phylum_unparseitems); |
| unparseitems kc_x = new impl_unparseitems(_unparseitem_1, _unparseitems_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunparseitems)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunparseitems)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseitems*>(kc_x); |
| } |
| |
| impl_unparseitem_UnpStr* |
| UnpStr(languageoption _languageoption_1, CexpressionDQ _CexpressionDQ_1, viewnameoption _viewnameoption_1) { |
| assertPhylum(_languageoption_1, phylum_languageoption); |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| assertPhylum(_viewnameoption_1, phylum_viewnameoption); |
| unparseitem kc_x = new impl_unparseitem_UnpStr(_languageoption_1, _CexpressionDQ_1, _viewnameoption_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpStr)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpStr)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_unparseitem(kc_x); |
| return static_cast<impl_unparseitem_UnpStr*>(kc_x); |
| } |
| |
| impl_unparseitem_UnpSubexpr* |
| UnpSubexpr(languageoption _languageoption_1, unpsubterm _unpsubterm_1, viewnameoption _viewnameoption_1) { |
| assertPhylum(_languageoption_1, phylum_languageoption); |
| assertPhylum(_unpsubterm_1, phylum_unpsubterm); |
| assertPhylum(_viewnameoption_1, phylum_viewnameoption); |
| unparseitem kc_x = new impl_unparseitem_UnpSubexpr(_languageoption_1, _unpsubterm_1, _viewnameoption_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpSubexpr)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpSubexpr)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_unparseitem(kc_x); |
| return static_cast<impl_unparseitem_UnpSubexpr*>(kc_x); |
| } |
| |
| impl_unparseitem_UnpCtext* |
| UnpCtext(languageoption _languageoption_1, Ctext _Ctext_1) { |
| assertPhylum(_languageoption_1, phylum_languageoption); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| unparseitem kc_x = new impl_unparseitem_UnpCtext(_languageoption_1, _Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpCtext)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpCtext)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_unparseitem(kc_x); |
| return static_cast<impl_unparseitem_UnpCtext*>(kc_x); |
| } |
| |
| impl_unparseitem_UnpBody* |
| UnpBody(languageoption _languageoption_1, unparseitems _unparseitems_1) { |
| assertPhylum(_languageoption_1, phylum_languageoption); |
| assertPhylum(_unparseitems_1, phylum_unparseitems); |
| unparseitem kc_x = new impl_unparseitem_UnpBody(_languageoption_1, _unparseitems_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpBody)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpBody)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_unparseitem(kc_x); |
| return static_cast<impl_unparseitem_UnpBody*>(kc_x); |
| } |
| |
| impl_unparseitem_UViewVarDecl* |
| UViewVarDecl(ID _ID_1, ID _ID_2, Cexpression _Cexpression_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ID_2, phylum_ID); |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| unparseitem kc_x = new impl_unparseitem_UViewVarDecl(_ID_1, _ID_2, _Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UViewVarDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UViewVarDecl)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_unparseitem(kc_x); |
| return static_cast<impl_unparseitem_UViewVarDecl*>(kc_x); |
| } |
| |
| impl_unpsubterm_UnpSubTerm* |
| UnpSubTerm(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| unpsubterm kc_x = new impl_unpsubterm_UnpSubTerm(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpSubTerm)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpSubTerm)); |
| kc_x->post_create(); |
| return static_cast<impl_unpsubterm_UnpSubTerm*>(kc_x); |
| } |
| |
| impl_unpsubterm_UnpDollarvarTerm* |
| UnpDollarvarTerm(INT _INT_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| unpsubterm kc_x = new impl_unpsubterm_UnpDollarvarTerm(_INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpDollarvarTerm)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpDollarvarTerm)); |
| kc_x->post_create(); |
| return static_cast<impl_unpsubterm_UnpDollarvarTerm*>(kc_x); |
| } |
| |
| impl_unpsubterm_UnpSubAttr* |
| UnpSubAttr(ID _ID_1, unpattributes _unpattributes_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_unpattributes_1, phylum_unpattributes); |
| unpsubterm kc_x = new impl_unpsubterm_UnpSubAttr(_ID_1, _unpattributes_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpSubAttr)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpSubAttr)); |
| kc_x->post_create(); |
| return static_cast<impl_unpsubterm_UnpSubAttr*>(kc_x); |
| } |
| |
| impl_unpsubterm_UnpDollarvarAttr* |
| UnpDollarvarAttr(INT _INT_1, unpattributes _unpattributes_1) { |
| assertPhylum(_INT_1, phylum_INT); |
| assertPhylum(_unpattributes_1, phylum_unpattributes); |
| unpsubterm kc_x = new impl_unpsubterm_UnpDollarvarAttr(_INT_1, _unpattributes_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpDollarvarAttr)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpDollarvarAttr)); |
| kc_x->post_create(); |
| return static_cast<impl_unpsubterm_UnpDollarvarAttr*>(kc_x); |
| } |
| |
| impl_unpsubterm_UnpCastedVariable* |
| UnpCastedVariable(ID _ID_1, ID _ID_2) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ID_2, phylum_ID); |
| unpsubterm kc_x = new impl_unpsubterm_UnpCastedVariable(_ID_1, _ID_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_UnpCastedVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_UnpCastedVariable)); |
| kc_x->post_create(); |
| return static_cast<impl_unpsubterm_UnpCastedVariable*>(kc_x); |
| } |
| |
| impl_unpattributes* |
| Nilunpattributes() { |
| unpattributes kc_x = new impl_unpattributes(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunpattributes)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunpattributes)); |
| kc_x->post_create(); |
| return static_cast<impl_unpattributes*>(kc_x); |
| } |
| |
| impl_unpattributes* |
| Consunpattributes(ID _ID_1, unpattributes _unpattributes_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_unpattributes_1, phylum_unpattributes); |
| unpattributes kc_x = new impl_unpattributes(_ID_1, _unpattributes_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunpattributes)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunpattributes)); |
| kc_x->post_create(); |
| return static_cast<impl_unpattributes*>(kc_x); |
| } |
| |
| impl_viewnameoption_NoViewname* |
| NoViewname() { |
| viewnameoption kc_x = new impl_viewnameoption_NoViewname(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoViewname)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoViewname)); |
| kc_x->post_create(); |
| return static_cast<impl_viewnameoption_NoViewname*>(kc_x); |
| } |
| |
| impl_viewnameoption_YesViewname* |
| YesViewname(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| viewnameoption kc_x = new impl_viewnameoption_YesViewname(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_YesViewname)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_YesViewname)); |
| kc_x->post_create(); |
| return static_cast<impl_viewnameoption_YesViewname*>(kc_x); |
| } |
| |
| impl_languageoption_NoLanguagename* |
| NoLanguagename() { |
| languageoption kc_x = new impl_languageoption_NoLanguagename(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoLanguagename)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoLanguagename)); |
| kc_x->post_create(); |
| return static_cast<impl_languageoption_NoLanguagename*>(kc_x); |
| } |
| |
| impl_languageoption_LanguageList* |
| LanguageList(languagenames _languagenames_1) { |
| assertPhylum(_languagenames_1, phylum_languagenames); |
| languageoption kc_x = new impl_languageoption_LanguageList(_languagenames_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_LanguageList)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_LanguageList)); |
| kc_x->post_create(); |
| return static_cast<impl_languageoption_LanguageList*>(kc_x); |
| } |
| |
| impl_languagenames* |
| Nillanguagenames() { |
| languagenames kc_x = new impl_languagenames(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nillanguagenames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nillanguagenames)); |
| kc_x->post_create(); |
| return static_cast<impl_languagenames*>(kc_x); |
| } |
| |
| impl_languagenames* |
| Conslanguagenames(ID _ID_1, languagenames _languagenames_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_languagenames_1, phylum_languagenames); |
| languagenames kc_x = new impl_languagenames(_ID_1, _languagenames_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conslanguagenames)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conslanguagenames)); |
| kc_x->post_create(); |
| return static_cast<impl_languagenames*>(kc_x); |
| } |
| |
| impl_fileline_FileLine* |
| FileLine(casestring _file, int _line) { |
| fileline kc_x = new impl_fileline_FileLine(_file, _line); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_FileLine)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_FileLine)); |
| kc_x->post_create(); |
| return static_cast<impl_fileline_FileLine*>(kc_x); |
| } |
| |
| impl_fileline_NoFileLine* |
| NoFileLine() { |
| fileline kc_x = new impl_fileline_NoFileLine(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NoFileLine)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NoFileLine)); |
| kc_x->post_create(); |
| return static_cast<impl_fileline_NoFileLine*>(kc_x); |
| } |
| |
| impl_fileline_PosNoFileLine* |
| PosNoFileLine() { |
| fileline kc_x = new impl_fileline_PosNoFileLine(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PosNoFileLine)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PosNoFileLine)); |
| kc_x->post_create(); |
| return static_cast<impl_fileline_PosNoFileLine*>(kc_x); |
| } |
| |
| impl_scopetypefilelinestack* |
| Nilscopetypefilelinestack() { |
| scopetypefilelinestack kc_x = new impl_scopetypefilelinestack(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilscopetypefilelinestack)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilscopetypefilelinestack)); |
| kc_x->post_create(); |
| return static_cast<impl_scopetypefilelinestack*>(kc_x); |
| } |
| |
| impl_scopetypefilelinestack* |
| Consscopetypefilelinestack(scopetypefileline _scopetypefileline_1, scopetypefilelinestack _scopetypefilelinestack_1) { |
| assertPhylum(_scopetypefileline_1, phylum_scopetypefileline); |
| assertPhylum(_scopetypefilelinestack_1, phylum_scopetypefilelinestack); |
| scopetypefilelinestack kc_x = new impl_scopetypefilelinestack(_scopetypefileline_1, _scopetypefilelinestack_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consscopetypefilelinestack)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consscopetypefilelinestack)); |
| kc_x->post_create(); |
| return static_cast<impl_scopetypefilelinestack*>(kc_x); |
| } |
| |
| impl_scopetypefileline_ScopeTypeFileLine* |
| ScopeTypeFileLine(integer _integer_1, IDtype _IDtype_1, casestring _casestring_1, integer _integer_2) { |
| assertPhylum(_integer_1, phylum_integer); |
| assertPhylum(_IDtype_1, phylum_IDtype); |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_integer_2, phylum_integer); |
| scopetypefileline kc_x = new impl_scopetypefileline_ScopeTypeFileLine(_integer_1, _IDtype_1, _casestring_1, _integer_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ScopeTypeFileLine)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ScopeTypeFileLine)); |
| kc_x->post_create(); |
| return static_cast<impl_scopetypefileline_ScopeTypeFileLine*>(kc_x); |
| } |
| |
| impl_IDtype_ITUnknown* |
| ITUnknown() { |
| IDtype kc_x = new impl_IDtype_ITUnknown(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUnknown)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUnknown)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUnknown*>(kc_x); |
| } |
| |
| impl_IDtype_ITPredefinedPhylum* |
| ITPredefinedPhylum(phylumdeclaration _phylumdeclaration_1) { |
| assertPhylum(_phylumdeclaration_1, phylum_phylumdeclaration); |
| IDtype kc_x = new impl_IDtype_ITPredefinedPhylum(_phylumdeclaration_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPredefinedPhylum)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPredefinedPhylum)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPredefinedPhylum*>(kc_x); |
| } |
| |
| impl_IDtype_ITUserPhylum* |
| ITUserPhylum(phylumdeclaration _phylumdeclaration_1) { |
| assertPhylum(_phylumdeclaration_1, phylum_phylumdeclaration); |
| IDtype kc_x = new impl_IDtype_ITUserPhylum(_phylumdeclaration_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUserPhylum)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUserPhylum)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUserPhylum*>(kc_x); |
| } |
| |
| impl_IDtype_ITPredefinedOperator* |
| ITPredefinedOperator(alternative _alternative_1, ID _ID_1) { |
| assertPhylum(_alternative_1, phylum_alternative); |
| assertPhylum(_ID_1, phylum_ID); |
| IDtype kc_x = new impl_IDtype_ITPredefinedOperator(_alternative_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPredefinedOperator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPredefinedOperator)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPredefinedOperator*>(kc_x); |
| } |
| |
| impl_IDtype_ITUserOperator* |
| ITUserOperator(alternative _alternative_1, ID _ID_1) { |
| assertPhylum(_alternative_1, phylum_alternative); |
| assertPhylum(_ID_1, phylum_ID); |
| IDtype kc_x = new impl_IDtype_ITUserOperator(_alternative_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUserOperator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUserOperator)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUserOperator*>(kc_x); |
| } |
| |
| impl_IDtype_ITPredefinedStorageClass* |
| ITPredefinedStorageClass() { |
| IDtype kc_x = new impl_IDtype_ITPredefinedStorageClass(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPredefinedStorageClass)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPredefinedStorageClass)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPredefinedStorageClass*>(kc_x); |
| } |
| |
| impl_IDtype_ITStorageClass* |
| ITStorageClass() { |
| IDtype kc_x = new impl_IDtype_ITStorageClass(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITStorageClass)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITStorageClass)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITStorageClass*>(kc_x); |
| } |
| |
| impl_IDtype_ITPredefinedUView* |
| ITPredefinedUView() { |
| IDtype kc_x = new impl_IDtype_ITPredefinedUView(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPredefinedUView)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPredefinedUView)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPredefinedUView*>(kc_x); |
| } |
| |
| impl_IDtype_ITUserUView* |
| ITUserUView() { |
| IDtype kc_x = new impl_IDtype_ITUserUView(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUserUView)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUserUView)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUserUView*>(kc_x); |
| } |
| |
| impl_IDtype_ITUViewVar* |
| ITUViewVar() { |
| IDtype kc_x = new impl_IDtype_ITUViewVar(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUViewVar)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUViewVar)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUViewVar*>(kc_x); |
| } |
| |
| impl_IDtype_ITPredefinedRView* |
| ITPredefinedRView() { |
| IDtype kc_x = new impl_IDtype_ITPredefinedRView(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPredefinedRView)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPredefinedRView)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPredefinedRView*>(kc_x); |
| } |
| |
| impl_IDtype_ITUserRView* |
| ITUserRView() { |
| IDtype kc_x = new impl_IDtype_ITUserRView(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUserRView)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUserRView)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUserRView*>(kc_x); |
| } |
| |
| impl_IDtype_ITUserFunction* |
| ITUserFunction(fnclass _fnclass_1) { |
| assertPhylum(_fnclass_1, phylum_fnclass); |
| IDtype kc_x = new impl_IDtype_ITUserFunction(_fnclass_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITUserFunction)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITUserFunction)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITUserFunction*>(kc_x); |
| } |
| |
| impl_IDtype_ITPatternVariable* |
| ITPatternVariable(ID _ID_1, integer _integer_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_integer_1, phylum_integer); |
| IDtype kc_x = new impl_IDtype_ITPatternVariable(_ID_1, _integer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITPatternVariable)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITPatternVariable)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITPatternVariable*>(kc_x); |
| } |
| |
| impl_IDtype_ITLanguageName* |
| ITLanguageName(integer _integer_1) { |
| assertPhylum(_integer_1, phylum_integer); |
| IDtype kc_x = new impl_IDtype_ITLanguageName(_integer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_ITLanguageName)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_ITLanguageName)); |
| kc_x->post_create(); |
| return static_cast<impl_IDtype_ITLanguageName*>(kc_x); |
| } |
| |
| impl_operators* |
| Niloperators() { |
| operators kc_x = new impl_operators(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Niloperators)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Niloperators)); |
| kc_x->post_create(); |
| return static_cast<impl_operators*>(kc_x); |
| } |
| |
| impl_operators* |
| Consoperators(ID _ID_1, operators _operators_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_operators_1, phylum_operators); |
| operators kc_x = new impl_operators(_ID_1, _operators_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consoperators)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consoperators)); |
| kc_x->post_create(); |
| return static_cast<impl_operators*>(kc_x); |
| } |
| |
| impl_phyla* |
| Nilphyla() { |
| phyla kc_x = new impl_phyla(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilphyla)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilphyla)); |
| kc_x->post_create(); |
| return static_cast<impl_phyla*>(kc_x); |
| } |
| |
| impl_phyla* |
| Consphyla(ID _ID_1, phyla _phyla_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_phyla_1, phylum_phyla); |
| phyla kc_x = new impl_phyla(_ID_1, _phyla_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consphyla)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consphyla)); |
| kc_x->post_create(); |
| return static_cast<impl_phyla*>(kc_x); |
| } |
| |
| impl_variables* |
| Nilvariables() { |
| variables kc_x = new impl_variables(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilvariables)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilvariables)); |
| kc_x->post_create(); |
| return static_cast<impl_variables*>(kc_x); |
| } |
| |
| impl_variables* |
| Consvariables(ID _ID_1, variables _variables_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_variables_1, phylum_variables); |
| variables kc_x = new impl_variables(_ID_1, _variables_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consvariables)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consvariables)); |
| kc_x->post_create(); |
| return static_cast<impl_variables*>(kc_x); |
| } |
| |
| impl_dollarvarstatus_DVAllowed* |
| DVAllowed() { |
| dollarvarstatus kc_x = new impl_dollarvarstatus_DVAllowed(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_DVAllowed)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_DVAllowed)); |
| kc_x->post_create(); |
| return static_cast<impl_dollarvarstatus_DVAllowed*>(kc_x); |
| } |
| |
| impl_dollarvarstatus_DVDisallowed* |
| DVDisallowed() { |
| dollarvarstatus kc_x = new impl_dollarvarstatus_DVDisallowed(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_DVDisallowed)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_DVDisallowed)); |
| kc_x->post_create(); |
| return static_cast<impl_dollarvarstatus_DVDisallowed*>(kc_x); |
| } |
| |
| impl_tribool_Equal* |
| Equal() { |
| tribool kc_x = new impl_tribool_Equal(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Equal)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Equal)); |
| kc_x->post_create(); |
| return static_cast<impl_tribool_Equal*>(kc_x); |
| } |
| |
| impl_tribool_Smaller* |
| Smaller() { |
| tribool kc_x = new impl_tribool_Smaller(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Smaller)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Smaller)); |
| kc_x->post_create(); |
| return static_cast<impl_tribool_Smaller*>(kc_x); |
| } |
| |
| impl_tribool_Bigger* |
| Bigger() { |
| tribool kc_x = new impl_tribool_Bigger(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Bigger)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Bigger)); |
| kc_x->post_create(); |
| return static_cast<impl_tribool_Bigger*>(kc_x); |
| } |
| |
| impl_patternrepresentations* |
| Nilpatternrepresentations() { |
| patternrepresentations kc_x = new impl_patternrepresentations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpatternrepresentations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpatternrepresentations)); |
| kc_x->post_create(); |
| return static_cast<impl_patternrepresentations*>(kc_x); |
| } |
| |
| impl_patternrepresentations* |
| Conspatternrepresentations(patternrepresentation _patternrepresentation_1, patternrepresentations _patternrepresentations_1) { |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| assertPhylum(_patternrepresentations_1, phylum_patternrepresentations); |
| patternrepresentations kc_x = new impl_patternrepresentations(_patternrepresentation_1, _patternrepresentations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspatternrepresentations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspatternrepresentations)); |
| kc_x->post_create(); |
| return static_cast<impl_patternrepresentations*>(kc_x); |
| } |
| |
| impl_patternrepresentation* |
| Nilpatternrepresentation() { |
| patternrepresentation kc_x = new impl_patternrepresentation(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpatternrepresentation)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpatternrepresentation)); |
| kc_x->post_create(); |
| return static_cast<impl_patternrepresentation*>(kc_x); |
| } |
| |
| impl_patternrepresentation* |
| Conspatternrepresentation(elem_patternrepresentation _elem_patternrepresentation_1, patternrepresentation _patternrepresentation_1) { |
| assertPhylum(_elem_patternrepresentation_1, phylum_elem_patternrepresentation); |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| patternrepresentation kc_x = new impl_patternrepresentation(_elem_patternrepresentation_1, _patternrepresentation_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspatternrepresentation)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspatternrepresentation)); |
| kc_x->post_create(); |
| return static_cast<impl_patternrepresentation*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRBinding* |
| PRBinding(path _path_1, ID _ID_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_ID_1, phylum_ID); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRBinding(_path_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRBinding)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRBinding)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRBinding*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRVarPredicate* |
| PRVarPredicate(paths _paths_1, ID _ID_1, patternrepresentation _patternrepresentation_1) { |
| assertPhylum(_paths_1, phylum_paths); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRVarPredicate(_paths_1, _ID_1, _patternrepresentation_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRVarPredicate)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRVarPredicate)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRVarPredicate*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PROperPredicate* |
| PROperPredicate(path _path_1, ID _ID_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_ID_1, phylum_ID); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PROperPredicate(_path_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PROperPredicate)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PROperPredicate)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PROperPredicate*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRUserPredicate* |
| PRUserPredicate(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRUserPredicate(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRUserPredicate)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRUserPredicate)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRUserPredicate*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRNonLeafBinding* |
| PRNonLeafBinding(path _path_1, ID _ID_1, patternrepresentation _patternrepresentation_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRNonLeafBinding(_path_1, _ID_1, _patternrepresentation_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRNonLeafBinding)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRNonLeafBinding)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRNonLeafBinding*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRWildcard* |
| PRWildcard(path _path_1) { |
| assertPhylum(_path_1, phylum_path); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRWildcard(_path_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRWildcard)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRWildcard)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRWildcard*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRDefault* |
| PRDefault() { |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRDefault(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRDefault)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRDefault)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRDefault*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRStringLiteral* |
| PRStringLiteral(path _path_1, CexpressionDQ _CexpressionDQ_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_CexpressionDQ_1, phylum_CexpressionDQ); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRStringLiteral(_path_1, _CexpressionDQ_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRStringLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRStringLiteral)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRStringLiteral*>(kc_x); |
| } |
| |
| impl_elem_patternrepresentation_PRIntLiteral* |
| PRIntLiteral(path _path_1, INT _INT_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_INT_1, phylum_INT); |
| elem_patternrepresentation kc_x = new impl_elem_patternrepresentation_PRIntLiteral(_path_1, _INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_PRIntLiteral)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_PRIntLiteral)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_elem_patternrepresentation(kc_x); |
| return static_cast<impl_elem_patternrepresentation_PRIntLiteral*>(kc_x); |
| } |
| |
| impl_path* |
| Nilpath() { |
| path kc_x = new impl_path(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpath)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpath)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_path(kc_x); |
| return static_cast<impl_path*>(kc_x); |
| } |
| |
| impl_path* |
| Conspath(integer _integer_1, path _path_1) { |
| assertPhylum(_integer_1, phylum_integer); |
| assertPhylum(_path_1, phylum_path); |
| path kc_x = new impl_path(_integer_1, _path_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspath)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspath)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_path(kc_x); |
| return static_cast<impl_path*>(kc_x); |
| } |
| |
| impl_paths* |
| Nilpaths() { |
| paths kc_x = new impl_paths(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilpaths)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilpaths)); |
| kc_x->post_create(); |
| return static_cast<impl_paths*>(kc_x); |
| } |
| |
| impl_paths* |
| Conspaths(path _path_1, paths _paths_1) { |
| assertPhylum(_path_1, phylum_path); |
| assertPhylum(_paths_1, phylum_paths); |
| paths kc_x = new impl_paths(_path_1, _paths_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conspaths)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conspaths)); |
| kc_x->post_create(); |
| return static_cast<impl_paths*>(kc_x); |
| } |
| |
| impl_argsnumbers* |
| Nilargsnumbers() { |
| argsnumbers kc_x = new impl_argsnumbers(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilargsnumbers)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilargsnumbers)); |
| kc_x->post_create(); |
| return static_cast<impl_argsnumbers*>(kc_x); |
| } |
| |
| impl_argsnumbers* |
| Consargsnumbers(integer _integer_1, argsnumbers _argsnumbers_1) { |
| assertPhylum(_integer_1, phylum_integer); |
| assertPhylum(_argsnumbers_1, phylum_argsnumbers); |
| argsnumbers kc_x = new impl_argsnumbers(_integer_1, _argsnumbers_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consargsnumbers)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consargsnumbers)); |
| kc_x->post_create(); |
| return static_cast<impl_argsnumbers*>(kc_x); |
| } |
| |
| impl_rewriterulesinfo* |
| Nilrewriterulesinfo() { |
| rewriterulesinfo kc_x = new impl_rewriterulesinfo(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilrewriterulesinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilrewriterulesinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriterulesinfo*>(kc_x); |
| } |
| |
| impl_rewriterulesinfo* |
| Consrewriterulesinfo(rewriteruleinfo _rewriteruleinfo_1, rewriterulesinfo _rewriterulesinfo_1) { |
| assertPhylum(_rewriteruleinfo_1, phylum_rewriteruleinfo); |
| assertPhylum(_rewriterulesinfo_1, phylum_rewriterulesinfo); |
| rewriterulesinfo kc_x = new impl_rewriterulesinfo(_rewriteruleinfo_1, _rewriterulesinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consrewriterulesinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consrewriterulesinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriterulesinfo*>(kc_x); |
| } |
| |
| impl_rewriteruleinfo_Rewriteruleinfo* |
| Rewriteruleinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, rewriteclause _rewriteclause_1) { |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| assertPhylum(_patternrepresentation_2, phylum_patternrepresentation); |
| assertPhylum(_rewriteclause_1, phylum_rewriteclause); |
| rewriteruleinfo kc_x = new impl_rewriteruleinfo_Rewriteruleinfo(_patternrepresentation_1, _patternrepresentation_2, _rewriteclause_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Rewriteruleinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Rewriteruleinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteruleinfo_Rewriteruleinfo*>(kc_x); |
| } |
| |
| impl_withcasesinfo* |
| Nilwithcasesinfo() { |
| withcasesinfo kc_x = new impl_withcasesinfo(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilwithcasesinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilwithcasesinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_withcasesinfo*>(kc_x); |
| } |
| |
| impl_withcasesinfo* |
| Conswithcasesinfo(withcaseinfo _withcaseinfo_1, withcasesinfo _withcasesinfo_1) { |
| assertPhylum(_withcaseinfo_1, phylum_withcaseinfo); |
| assertPhylum(_withcasesinfo_1, phylum_withcasesinfo); |
| withcasesinfo kc_x = new impl_withcasesinfo(_withcaseinfo_1, _withcasesinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conswithcasesinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conswithcasesinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_withcasesinfo*>(kc_x); |
| } |
| |
| impl_withcaseinfo_Withcaseinfo* |
| Withcaseinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, Ctext _Ctext_1) { |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| assertPhylum(_patternrepresentation_2, phylum_patternrepresentation); |
| assertPhylum(_Ctext_1, phylum_Ctext); |
| withcaseinfo kc_x = new impl_withcaseinfo_Withcaseinfo(_patternrepresentation_1, _patternrepresentation_2, _Ctext_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Withcaseinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Withcaseinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_withcaseinfo_Withcaseinfo*>(kc_x); |
| } |
| |
| impl_rewriteviewsinfo* |
| Nilrewriteviewsinfo() { |
| rewriteviewsinfo kc_x = new impl_rewriteviewsinfo(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilrewriteviewsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilrewriteviewsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteviewsinfo*>(kc_x); |
| } |
| |
| impl_rewriteviewsinfo* |
| Consrewriteviewsinfo(rewriteviewinfo _rewriteviewinfo_1, rewriteviewsinfo _rewriteviewsinfo_1) { |
| assertPhylum(_rewriteviewinfo_1, phylum_rewriteviewinfo); |
| assertPhylum(_rewriteviewsinfo_1, phylum_rewriteviewsinfo); |
| rewriteviewsinfo kc_x = new impl_rewriteviewsinfo(_rewriteviewinfo_1, _rewriteviewsinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consrewriteviewsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consrewriteviewsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteviewsinfo*>(kc_x); |
| } |
| |
| impl_rewriteviewinfo_Rewriteviewinfo* |
| Rewriteviewinfo(ID _ID_1, rewriterulesinfo _rewriterulesinfo_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_rewriterulesinfo_1, phylum_rewriterulesinfo); |
| rewriteviewinfo kc_x = new impl_rewriteviewinfo_Rewriteviewinfo(_ID_1, _rewriterulesinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Rewriteviewinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Rewriteviewinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_rewriteviewinfo_Rewriteviewinfo*>(kc_x); |
| } |
| |
| impl_unparseviewsinfo* |
| Nilunparseviewsinfo() { |
| unparseviewsinfo kc_x = new impl_unparseviewsinfo(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunparseviewsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunparseviewsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseviewsinfo*>(kc_x); |
| } |
| |
| impl_unparseviewsinfo* |
| Consunparseviewsinfo(unparseviewinfo _unparseviewinfo_1, unparseviewsinfo _unparseviewsinfo_1) { |
| assertPhylum(_unparseviewinfo_1, phylum_unparseviewinfo); |
| assertPhylum(_unparseviewsinfo_1, phylum_unparseviewsinfo); |
| unparseviewsinfo kc_x = new impl_unparseviewsinfo(_unparseviewinfo_1, _unparseviewsinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunparseviewsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunparseviewsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseviewsinfo*>(kc_x); |
| } |
| |
| impl_unparseviewinfo_Unparseviewinfo* |
| Unparseviewinfo(ID _ID_1, unparsedeclsinfo _unparsedeclsinfo_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_unparsedeclsinfo_1, phylum_unparsedeclsinfo); |
| unparseviewinfo kc_x = new impl_unparseviewinfo_Unparseviewinfo(_ID_1, _unparsedeclsinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Unparseviewinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Unparseviewinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparseviewinfo_Unparseviewinfo*>(kc_x); |
| } |
| |
| impl_unparsedeclsinfo* |
| Nilunparsedeclsinfo() { |
| unparsedeclsinfo kc_x = new impl_unparsedeclsinfo(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilunparsedeclsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilunparsedeclsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclsinfo*>(kc_x); |
| } |
| |
| impl_unparsedeclsinfo* |
| Consunparsedeclsinfo(unparsedeclinfo _unparsedeclinfo_1, unparsedeclsinfo _unparsedeclsinfo_1) { |
| assertPhylum(_unparsedeclinfo_1, phylum_unparsedeclinfo); |
| assertPhylum(_unparsedeclsinfo_1, phylum_unparsedeclsinfo); |
| unparsedeclsinfo kc_x = new impl_unparsedeclsinfo(_unparsedeclinfo_1, _unparsedeclsinfo_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consunparsedeclsinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consunparsedeclsinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclsinfo*>(kc_x); |
| } |
| |
| impl_unparsedeclinfo_Unparsedeclinfo* |
| Unparsedeclinfo(patternrepresentation _patternrepresentation_1, patternrepresentation _patternrepresentation_2, unparseclause _unparseclause_1) { |
| assertPhylum(_patternrepresentation_1, phylum_patternrepresentation); |
| assertPhylum(_patternrepresentation_2, phylum_patternrepresentation); |
| assertPhylum(_unparseclause_1, phylum_unparseclause); |
| unparsedeclinfo kc_x = new impl_unparsedeclinfo_Unparsedeclinfo(_patternrepresentation_1, _patternrepresentation_2, _unparseclause_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Unparsedeclinfo)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Unparsedeclinfo)); |
| kc_x->post_create(); |
| return static_cast<impl_unparsedeclinfo_Unparsedeclinfo*>(kc_x); |
| } |
| |
| impl_ac_declaration_AcDeclaration* |
| AcDeclaration(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_init_declarator_list _ac_init_declarator_list_1) { |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| assertPhylum(_ac_init_declarator_list_1, phylum_ac_init_declarator_list); |
| ac_declaration kc_x = new impl_ac_declaration_AcDeclaration(_ac_declaration_specifiers_1, _ac_init_declarator_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDeclaration)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_AcDeclaration*>(kc_x); |
| } |
| |
| impl_ac_declaration_list* |
| Nilac_declaration_list() { |
| ac_declaration_list kc_x = new impl_ac_declaration_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_declaration_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_declaration_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_list*>(kc_x); |
| } |
| |
| impl_ac_declaration_list* |
| Consac_declaration_list(ac_declaration _ac_declaration_1, ac_declaration_list _ac_declaration_list_1) { |
| assertPhylum(_ac_declaration_1, phylum_ac_declaration); |
| assertPhylum(_ac_declaration_list_1, phylum_ac_declaration_list); |
| ac_declaration_list kc_x = new impl_ac_declaration_list(_ac_declaration_1, _ac_declaration_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_declaration_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_declaration_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_list*>(kc_x); |
| } |
| |
| impl_ac_declaration_specifiers* |
| Nilac_declaration_specifiers() { |
| ac_declaration_specifiers kc_x = new impl_ac_declaration_specifiers(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_declaration_specifiers)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_declaration_specifiers)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_specifiers*>(kc_x); |
| } |
| |
| impl_ac_declaration_specifiers* |
| Consac_declaration_specifiers(ac_declaration_specifier _ac_declaration_specifier_1, ac_declaration_specifiers _ac_declaration_specifiers_1) { |
| assertPhylum(_ac_declaration_specifier_1, phylum_ac_declaration_specifier); |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| ac_declaration_specifiers kc_x = new impl_ac_declaration_specifiers(_ac_declaration_specifier_1, _ac_declaration_specifiers_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_declaration_specifiers)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_declaration_specifiers)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_specifiers*>(kc_x); |
| } |
| |
| impl_ac_declaration_specifier_AcDeclSpecStorageSpec* |
| AcDeclSpecStorageSpec(ac_storage_class_specifier _ac_storage_class_specifier_1) { |
| assertPhylum(_ac_storage_class_specifier_1, phylum_ac_storage_class_specifier); |
| ac_declaration_specifier kc_x = new impl_ac_declaration_specifier_AcDeclSpecStorageSpec(_ac_storage_class_specifier_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDeclSpecStorageSpec)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDeclSpecStorageSpec)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_specifier_AcDeclSpecStorageSpec*>(kc_x); |
| } |
| |
| impl_ac_declaration_specifier_AcDeclSpecTypeSpec* |
| AcDeclSpecTypeSpec(ac_type_specifier _ac_type_specifier_1) { |
| assertPhylum(_ac_type_specifier_1, phylum_ac_type_specifier); |
| ac_declaration_specifier kc_x = new impl_ac_declaration_specifier_AcDeclSpecTypeSpec(_ac_type_specifier_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDeclSpecTypeSpec)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDeclSpecTypeSpec)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_specifier_AcDeclSpecTypeSpec*>(kc_x); |
| } |
| |
| impl_ac_declaration_specifier_AcDeclSpecTypeQual* |
| AcDeclSpecTypeQual(ac_type_qualifier _ac_type_qualifier_1) { |
| assertPhylum(_ac_type_qualifier_1, phylum_ac_type_qualifier); |
| ac_declaration_specifier kc_x = new impl_ac_declaration_specifier_AcDeclSpecTypeQual(_ac_type_qualifier_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDeclSpecTypeQual)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDeclSpecTypeQual)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declaration_specifier_AcDeclSpecTypeQual*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcAuto* |
| AcAuto() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcAuto(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcAuto)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcAuto)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcAuto*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcRegister* |
| AcRegister() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcRegister(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcRegister)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcRegister)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcRegister*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcStatic* |
| AcStatic() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcStatic(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcStatic)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcStatic)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcStatic*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcExtern* |
| AcExtern() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcExtern(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcExtern)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcExtern)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcExtern*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcTypedef* |
| AcTypedef() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcTypedef(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcTypedef)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcTypedef)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcTypedef*>(kc_x); |
| } |
| |
| impl_ac_storage_class_specifier_AcVirtual* |
| AcVirtual() { |
| ac_storage_class_specifier kc_x = new impl_ac_storage_class_specifier_AcVirtual(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcVirtual)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcVirtual)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_storage_class_specifier_AcVirtual*>(kc_x); |
| } |
| |
| impl_ac_type_specifier_AcTypeSpec* |
| AcTypeSpec(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| ac_type_specifier kc_x = new impl_ac_type_specifier_AcTypeSpec(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcTypeSpec)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcTypeSpec)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_specifier_AcTypeSpec*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_AcConst* |
| AcConst() { |
| ac_type_qualifier kc_x = new impl_ac_type_qualifier_AcConst(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcConst)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcConst)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_AcConst*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_AcVolatile* |
| AcVolatile() { |
| ac_type_qualifier kc_x = new impl_ac_type_qualifier_AcVolatile(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcVolatile)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcVolatile)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_AcVolatile*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_AcUnsigned* |
| AcUnsigned() { |
| ac_type_qualifier kc_x = new impl_ac_type_qualifier_AcUnsigned(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcUnsigned)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcUnsigned)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_AcUnsigned*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_AcNoQualifier* |
| AcNoQualifier() { |
| ac_type_qualifier kc_x = new impl_ac_type_qualifier_AcNoQualifier(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcNoQualifier)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcNoQualifier)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_AcNoQualifier*>(kc_x); |
| } |
| |
| impl_ac_init_declarator_list* |
| Nilac_init_declarator_list() { |
| ac_init_declarator_list kc_x = new impl_ac_init_declarator_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_init_declarator_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_init_declarator_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_init_declarator_list*>(kc_x); |
| } |
| |
| impl_ac_init_declarator_list* |
| Consac_init_declarator_list(ac_init_declarator _ac_init_declarator_1, ac_init_declarator_list _ac_init_declarator_list_1) { |
| assertPhylum(_ac_init_declarator_1, phylum_ac_init_declarator); |
| assertPhylum(_ac_init_declarator_list_1, phylum_ac_init_declarator_list); |
| ac_init_declarator_list kc_x = new impl_ac_init_declarator_list(_ac_init_declarator_1, _ac_init_declarator_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_init_declarator_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_init_declarator_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_init_declarator_list*>(kc_x); |
| } |
| |
| impl_ac_init_declarator_AcInitDecl* |
| AcInitDecl(ac_declarator _ac_declarator_1) { |
| assertPhylum(_ac_declarator_1, phylum_ac_declarator); |
| ac_init_declarator kc_x = new impl_ac_init_declarator_AcInitDecl(_ac_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcInitDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcInitDecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_init_declarator_AcInitDecl*>(kc_x); |
| } |
| |
| impl_ac_declarator_AcDeclarator* |
| AcDeclarator(ac_pointer_option _ac_pointer_option_1, ac_ref_option _ac_ref_option_1, ac_direct_declarator _ac_direct_declarator_1) { |
| assertPhylum(_ac_pointer_option_1, phylum_ac_pointer_option); |
| assertPhylum(_ac_ref_option_1, phylum_ac_ref_option); |
| assertPhylum(_ac_direct_declarator_1, phylum_ac_direct_declarator); |
| ac_declarator kc_x = new impl_ac_declarator_AcDeclarator(_ac_pointer_option_1, _ac_ref_option_1, _ac_direct_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDeclarator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDeclarator)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_declarator_AcDeclarator*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcDirectDeclId* |
| AcDirectDeclId(ID _ID_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcDirectDeclId(_ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirectDeclId)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirectDeclId)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcDirectDeclId*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcDirectDeclPack* |
| AcDirectDeclPack(ac_declarator _ac_declarator_1) { |
| assertPhylum(_ac_declarator_1, phylum_ac_declarator); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcDirectDeclPack(_ac_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirectDeclPack)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirectDeclPack)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcDirectDeclPack*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcDirectDeclArray* |
| AcDirectDeclArray(ac_direct_declarator _ac_direct_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) { |
| assertPhylum(_ac_direct_declarator_1, phylum_ac_direct_declarator); |
| assertPhylum(_ac_constant_expression_option_1, phylum_ac_constant_expression_option); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcDirectDeclArray(_ac_direct_declarator_1, _ac_constant_expression_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirectDeclArray)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirectDeclArray)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcDirectDeclArray*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcDirectDeclProto* |
| AcDirectDeclProto(ac_direct_declarator _ac_direct_declarator_1, ac_parameter_type_list _ac_parameter_type_list_1) { |
| assertPhylum(_ac_direct_declarator_1, phylum_ac_direct_declarator); |
| assertPhylum(_ac_parameter_type_list_1, phylum_ac_parameter_type_list); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcDirectDeclProto(_ac_direct_declarator_1, _ac_parameter_type_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirectDeclProto)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirectDeclProto)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcDirectDeclProto*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcQualifiedDeclProto* |
| AcQualifiedDeclProto(ac_class_qualifier_list _ac_class_qualifier_list_1, ac_direct_declarator _ac_direct_declarator_1, ac_parameter_type_list _ac_parameter_type_list_1, ac_type_qualifier _ac_type_qualifier_1) { |
| assertPhylum(_ac_class_qualifier_list_1, phylum_ac_class_qualifier_list); |
| assertPhylum(_ac_direct_declarator_1, phylum_ac_direct_declarator); |
| assertPhylum(_ac_parameter_type_list_1, phylum_ac_parameter_type_list); |
| assertPhylum(_ac_type_qualifier_1, phylum_ac_type_qualifier); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcQualifiedDeclProto(_ac_class_qualifier_list_1, _ac_direct_declarator_1, _ac_parameter_type_list_1, _ac_type_qualifier_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcQualifiedDeclProto)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcQualifiedDeclProto)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcQualifiedDeclProto*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcMemberDecl* |
| AcMemberDecl(ID _ID_1, ID _ID_2, ac_constant_expression_list _ac_constant_expression_list_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ID_2, phylum_ID); |
| assertPhylum(_ac_constant_expression_list_1, phylum_ac_constant_expression_list); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcMemberDecl(_ID_1, _ID_2, _ac_constant_expression_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcMemberDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcMemberDecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcMemberDecl*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcConvOperatorDecl* |
| AcConvOperatorDecl(ID _ID_1, ID _ID_2) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ID_2, phylum_ID); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcConvOperatorDecl(_ID_1, _ID_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcConvOperatorDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcConvOperatorDecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcConvOperatorDecl*>(kc_x); |
| } |
| |
| impl_ac_direct_declarator_AcOperatorDeclId* |
| AcOperatorDeclId(ac_operator_name _ac_operator_name_1) { |
| assertPhylum(_ac_operator_name_1, phylum_ac_operator_name); |
| ac_direct_declarator kc_x = new impl_ac_direct_declarator_AcOperatorDeclId(_ac_operator_name_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcOperatorDeclId)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcOperatorDeclId)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_declarator_AcOperatorDeclId*>(kc_x); |
| } |
| |
| impl_ac_pointer_option_Nopointer* |
| Nopointer() { |
| ac_pointer_option kc_x = new impl_ac_pointer_option_Nopointer(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nopointer)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nopointer)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_pointer_option_Nopointer*>(kc_x); |
| } |
| |
| impl_ac_pointer_option_Yespointer* |
| Yespointer(ac_pointer _ac_pointer_1) { |
| assertPhylum(_ac_pointer_1, phylum_ac_pointer); |
| ac_pointer_option kc_x = new impl_ac_pointer_option_Yespointer(_ac_pointer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Yespointer)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Yespointer)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_pointer_option_Yespointer*>(kc_x); |
| } |
| |
| impl_ac_pointer_AcPointerNil* |
| AcPointerNil(ac_type_qualifier_list _ac_type_qualifier_list_1) { |
| assertPhylum(_ac_type_qualifier_list_1, phylum_ac_type_qualifier_list); |
| ac_pointer kc_x = new impl_ac_pointer_AcPointerNil(_ac_type_qualifier_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcPointerNil)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcPointerNil)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_pointer_AcPointerNil*>(kc_x); |
| } |
| |
| impl_ac_pointer_AcPointerCons* |
| AcPointerCons(ac_type_qualifier_list _ac_type_qualifier_list_1, ac_pointer _ac_pointer_1) { |
| assertPhylum(_ac_type_qualifier_list_1, phylum_ac_type_qualifier_list); |
| assertPhylum(_ac_pointer_1, phylum_ac_pointer); |
| ac_pointer kc_x = new impl_ac_pointer_AcPointerCons(_ac_type_qualifier_list_1, _ac_pointer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcPointerCons)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcPointerCons)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_pointer_AcPointerCons*>(kc_x); |
| } |
| |
| impl_ac_ref_option_AcNoRef* |
| AcNoRef() { |
| ac_ref_option kc_x = new impl_ac_ref_option_AcNoRef(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcNoRef)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcNoRef)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_ref_option_AcNoRef*>(kc_x); |
| } |
| |
| impl_ac_ref_option_AcRef* |
| AcRef() { |
| ac_ref_option kc_x = new impl_ac_ref_option_AcRef(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcRef)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcRef)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_ref_option_AcRef*>(kc_x); |
| } |
| |
| impl_ac_operator_name_AcOperatorName* |
| AcOperatorName(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| ac_operator_name kc_x = new impl_ac_operator_name_AcOperatorName(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcOperatorName)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcOperatorName)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_ac_operator_name(kc_x); |
| return static_cast<impl_ac_operator_name_AcOperatorName*>(kc_x); |
| } |
| |
| impl_ac_class_qualifier_help_list* |
| Nilac_class_qualifier_help_list() { |
| ac_class_qualifier_help_list kc_x = new impl_ac_class_qualifier_help_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_class_qualifier_help_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_class_qualifier_help_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_class_qualifier_help_list*>(kc_x); |
| } |
| |
| impl_ac_class_qualifier_help_list* |
| Consac_class_qualifier_help_list(ac_direct_declarator _ac_direct_declarator_1, ac_class_qualifier_help_list _ac_class_qualifier_help_list_1) { |
| assertPhylum(_ac_direct_declarator_1, phylum_ac_direct_declarator); |
| assertPhylum(_ac_class_qualifier_help_list_1, phylum_ac_class_qualifier_help_list); |
| ac_class_qualifier_help_list kc_x = new impl_ac_class_qualifier_help_list(_ac_direct_declarator_1, _ac_class_qualifier_help_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_class_qualifier_help_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_class_qualifier_help_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_class_qualifier_help_list*>(kc_x); |
| } |
| |
| impl_ac_class_qualifier_list* |
| Nilac_class_qualifier_list() { |
| ac_class_qualifier_list kc_x = new impl_ac_class_qualifier_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_class_qualifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_class_qualifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_class_qualifier_list*>(kc_x); |
| } |
| |
| impl_ac_class_qualifier_list* |
| Consac_class_qualifier_list(ID _ID_1, ac_class_qualifier_list _ac_class_qualifier_list_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ac_class_qualifier_list_1, phylum_ac_class_qualifier_list); |
| ac_class_qualifier_list kc_x = new impl_ac_class_qualifier_list(_ID_1, _ac_class_qualifier_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_class_qualifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_class_qualifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_class_qualifier_list*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_list* |
| Nilac_type_qualifier_list() { |
| ac_type_qualifier_list kc_x = new impl_ac_type_qualifier_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_type_qualifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_type_qualifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_list*>(kc_x); |
| } |
| |
| impl_ac_type_qualifier_list* |
| Consac_type_qualifier_list(ac_type_qualifier _ac_type_qualifier_1, ac_type_qualifier_list _ac_type_qualifier_list_1) { |
| assertPhylum(_ac_type_qualifier_1, phylum_ac_type_qualifier); |
| assertPhylum(_ac_type_qualifier_list_1, phylum_ac_type_qualifier_list); |
| ac_type_qualifier_list kc_x = new impl_ac_type_qualifier_list(_ac_type_qualifier_1, _ac_type_qualifier_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_type_qualifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_type_qualifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_type_qualifier_list*>(kc_x); |
| } |
| |
| impl_ac_parameter_type_list_AcParList* |
| AcParList(ac_parameter_list _ac_parameter_list_1) { |
| assertPhylum(_ac_parameter_list_1, phylum_ac_parameter_list); |
| ac_parameter_type_list kc_x = new impl_ac_parameter_type_list_AcParList(_ac_parameter_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcParList)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcParList)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_type_list_AcParList*>(kc_x); |
| } |
| |
| impl_ac_parameter_type_list_AcParList3Dot* |
| AcParList3Dot(ac_parameter_list _ac_parameter_list_1) { |
| assertPhylum(_ac_parameter_list_1, phylum_ac_parameter_list); |
| ac_parameter_type_list kc_x = new impl_ac_parameter_type_list_AcParList3Dot(_ac_parameter_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcParList3Dot)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcParList3Dot)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_type_list_AcParList3Dot*>(kc_x); |
| } |
| |
| impl_ac_parameter_list* |
| Nilac_parameter_list() { |
| ac_parameter_list kc_x = new impl_ac_parameter_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_parameter_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_parameter_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_list*>(kc_x); |
| } |
| |
| impl_ac_parameter_list* |
| Consac_parameter_list(ac_parameter_declaration _ac_parameter_declaration_1, ac_parameter_list _ac_parameter_list_1) { |
| assertPhylum(_ac_parameter_declaration_1, phylum_ac_parameter_declaration); |
| assertPhylum(_ac_parameter_list_1, phylum_ac_parameter_list); |
| ac_parameter_list kc_x = new impl_ac_parameter_list(_ac_parameter_declaration_1, _ac_parameter_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_parameter_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_parameter_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_list*>(kc_x); |
| } |
| |
| impl_ac_parameter_declaration_AcParDeclDecl* |
| AcParDeclDecl(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_declarator _ac_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) { |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| assertPhylum(_ac_declarator_1, phylum_ac_declarator); |
| assertPhylum(_ac_constant_expression_option_1, phylum_ac_constant_expression_option); |
| ac_parameter_declaration kc_x = new impl_ac_parameter_declaration_AcParDeclDecl(_ac_declaration_specifiers_1, _ac_declarator_1, _ac_constant_expression_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcParDeclDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcParDeclDecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_declaration_AcParDeclDecl*>(kc_x); |
| } |
| |
| impl_ac_parameter_declaration_AcParDeclAbsdecl* |
| AcParDeclAbsdecl(ac_declaration_specifiers _ac_declaration_specifiers_1, ac_abstract_declarator _ac_abstract_declarator_1, ac_constant_expression_option _ac_constant_expression_option_1) { |
| assertPhylum(_ac_declaration_specifiers_1, phylum_ac_declaration_specifiers); |
| assertPhylum(_ac_abstract_declarator_1, phylum_ac_abstract_declarator); |
| assertPhylum(_ac_constant_expression_option_1, phylum_ac_constant_expression_option); |
| ac_parameter_declaration kc_x = new impl_ac_parameter_declaration_AcParDeclAbsdecl(_ac_declaration_specifiers_1, _ac_abstract_declarator_1, _ac_constant_expression_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcParDeclAbsdecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcParDeclAbsdecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_parameter_declaration_AcParDeclAbsdecl*>(kc_x); |
| } |
| |
| impl_ac_identifier_list* |
| Nilac_identifier_list() { |
| ac_identifier_list kc_x = new impl_ac_identifier_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_identifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_identifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_identifier_list*>(kc_x); |
| } |
| |
| impl_ac_identifier_list* |
| Consac_identifier_list(ID _ID_1, ac_identifier_list _ac_identifier_list_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ac_identifier_list_1, phylum_ac_identifier_list); |
| ac_identifier_list kc_x = new impl_ac_identifier_list(_ID_1, _ac_identifier_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_identifier_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_identifier_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_identifier_list*>(kc_x); |
| } |
| |
| impl_ac_abstract_declarator_AcAbsdeclPointer* |
| AcAbsdeclPointer(ac_pointer _ac_pointer_1) { |
| assertPhylum(_ac_pointer_1, phylum_ac_pointer); |
| ac_abstract_declarator kc_x = new impl_ac_abstract_declarator_AcAbsdeclPointer(_ac_pointer_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcAbsdeclPointer)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcAbsdeclPointer)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_abstract_declarator_AcAbsdeclPointer*>(kc_x); |
| } |
| |
| impl_ac_abstract_declarator_AcAbsdeclDirdecl* |
| AcAbsdeclDirdecl(ac_pointer_option _ac_pointer_option_1, ac_direct_abstract_declarator _ac_direct_abstract_declarator_1) { |
| assertPhylum(_ac_pointer_option_1, phylum_ac_pointer_option); |
| assertPhylum(_ac_direct_abstract_declarator_1, phylum_ac_direct_abstract_declarator); |
| ac_abstract_declarator kc_x = new impl_ac_abstract_declarator_AcAbsdeclDirdecl(_ac_pointer_option_1, _ac_direct_abstract_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcAbsdeclDirdecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcAbsdeclDirdecl)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_abstract_declarator_AcAbsdeclDirdecl*>(kc_x); |
| } |
| |
| impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator* |
| Noac_direct_abstract_declarator() { |
| ac_direct_abstract_declarator_option kc_x = new impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Noac_direct_abstract_declarator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Noac_direct_abstract_declarator)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_abstract_declarator_option_Noac_direct_abstract_declarator*>(kc_x); |
| } |
| |
| impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator* |
| Yesac_direct_abstract_declarator(ac_direct_abstract_declarator _ac_direct_abstract_declarator_1) { |
| assertPhylum(_ac_direct_abstract_declarator_1, phylum_ac_direct_abstract_declarator); |
| ac_direct_abstract_declarator_option kc_x = new impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator(_ac_direct_abstract_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Yesac_direct_abstract_declarator)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Yesac_direct_abstract_declarator)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_abstract_declarator_option_Yesac_direct_abstract_declarator*>(kc_x); |
| } |
| |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclPack* |
| AcDirAbsdeclPack(ac_abstract_declarator _ac_abstract_declarator_1) { |
| assertPhylum(_ac_abstract_declarator_1, phylum_ac_abstract_declarator); |
| ac_direct_abstract_declarator kc_x = new impl_ac_direct_abstract_declarator_AcDirAbsdeclPack(_ac_abstract_declarator_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirAbsdeclPack)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirAbsdeclPack)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_abstract_declarator_AcDirAbsdeclPack*>(kc_x); |
| } |
| |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclArray* |
| AcDirAbsdeclArray(ac_direct_abstract_declarator_option _ac_direct_abstract_declarator_option_1, ac_constant_expression_option _ac_constant_expression_option_1) { |
| assertPhylum(_ac_direct_abstract_declarator_option_1, phylum_ac_direct_abstract_declarator_option); |
| assertPhylum(_ac_constant_expression_option_1, phylum_ac_constant_expression_option); |
| ac_direct_abstract_declarator kc_x = new impl_ac_direct_abstract_declarator_AcDirAbsdeclArray(_ac_direct_abstract_declarator_option_1, _ac_constant_expression_option_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirAbsdeclArray)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirAbsdeclArray)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_abstract_declarator_AcDirAbsdeclArray*>(kc_x); |
| } |
| |
| impl_ac_direct_abstract_declarator_AcDirAbsdeclFn* |
| AcDirAbsdeclFn(ac_direct_abstract_declarator_option _ac_direct_abstract_declarator_option_1, ac_parameter_type_list _ac_parameter_type_list_1) { |
| assertPhylum(_ac_direct_abstract_declarator_option_1, phylum_ac_direct_abstract_declarator_option); |
| assertPhylum(_ac_parameter_type_list_1, phylum_ac_parameter_type_list); |
| ac_direct_abstract_declarator kc_x = new impl_ac_direct_abstract_declarator_AcDirAbsdeclFn(_ac_direct_abstract_declarator_option_1, _ac_parameter_type_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcDirAbsdeclFn)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcDirAbsdeclFn)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_direct_abstract_declarator_AcDirAbsdeclFn*>(kc_x); |
| } |
| |
| impl_ac_constant_expression_option_Yesac_constant_expression* |
| Yesac_constant_expression(ac_constant_expression _ac_constant_expression_1) { |
| assertPhylum(_ac_constant_expression_1, phylum_ac_constant_expression); |
| ac_constant_expression_option kc_x = new impl_ac_constant_expression_option_Yesac_constant_expression(_ac_constant_expression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Yesac_constant_expression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Yesac_constant_expression)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_constant_expression_option_Yesac_constant_expression*>(kc_x); |
| } |
| |
| impl_ac_constant_expression_option_Noac_constant_expression* |
| Noac_constant_expression() { |
| ac_constant_expression_option kc_x = new impl_ac_constant_expression_option_Noac_constant_expression(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Noac_constant_expression)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Noac_constant_expression)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_constant_expression_option_Noac_constant_expression*>(kc_x); |
| } |
| |
| impl_ac_constant_expression_AcConstExpr* |
| AcConstExpr(Cexpression _Cexpression_1) { |
| assertPhylum(_Cexpression_1, phylum_Cexpression); |
| ac_constant_expression kc_x = new impl_ac_constant_expression_AcConstExpr(_Cexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcConstExpr)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcConstExpr)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_constant_expression_AcConstExpr*>(kc_x); |
| } |
| |
| impl_ac_constant_expression_list* |
| Nilac_constant_expression_list() { |
| ac_constant_expression_list kc_x = new impl_ac_constant_expression_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_constant_expression_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_constant_expression_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_constant_expression_list*>(kc_x); |
| } |
| |
| impl_ac_constant_expression_list* |
| Consac_constant_expression_list(ac_constant_expression _ac_constant_expression_1, ac_constant_expression_list _ac_constant_expression_list_1) { |
| assertPhylum(_ac_constant_expression_1, phylum_ac_constant_expression); |
| assertPhylum(_ac_constant_expression_list_1, phylum_ac_constant_expression_list); |
| ac_constant_expression_list kc_x = new impl_ac_constant_expression_list(_ac_constant_expression_1, _ac_constant_expression_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_constant_expression_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_constant_expression_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_constant_expression_list*>(kc_x); |
| } |
| |
| impl_ac_opt_base_init_list_AcNoBaseInit* |
| AcNoBaseInit() { |
| ac_opt_base_init_list kc_x = new impl_ac_opt_base_init_list_AcNoBaseInit(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcNoBaseInit)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcNoBaseInit)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_opt_base_init_list_AcNoBaseInit*>(kc_x); |
| } |
| |
| impl_ac_opt_base_init_list_AcYesBaseInit* |
| AcYesBaseInit(ac_base_init_list _ac_base_init_list_1) { |
| assertPhylum(_ac_base_init_list_1, phylum_ac_base_init_list); |
| ac_opt_base_init_list kc_x = new impl_ac_opt_base_init_list_AcYesBaseInit(_ac_base_init_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcYesBaseInit)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcYesBaseInit)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_opt_base_init_list_AcYesBaseInit*>(kc_x); |
| } |
| |
| impl_ac_base_init_list* |
| Nilac_base_init_list() { |
| ac_base_init_list kc_x = new impl_ac_base_init_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilac_base_init_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilac_base_init_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_base_init_list*>(kc_x); |
| } |
| |
| impl_ac_base_init_list* |
| Consac_base_init_list(ac_base_init _ac_base_init_1, ac_base_init_list _ac_base_init_list_1) { |
| assertPhylum(_ac_base_init_1, phylum_ac_base_init); |
| assertPhylum(_ac_base_init_list_1, phylum_ac_base_init_list); |
| ac_base_init_list kc_x = new impl_ac_base_init_list(_ac_base_init_1, _ac_base_init_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consac_base_init_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consac_base_init_list)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_base_init_list*>(kc_x); |
| } |
| |
| impl_ac_base_init_AcBaseInit* |
| AcBaseInit(ID _ID_1, ac_constant_expression _ac_constant_expression_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_ac_constant_expression_1, phylum_ac_constant_expression); |
| ac_base_init kc_x = new impl_ac_base_init_AcBaseInit(_ID_1, _ac_constant_expression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AcBaseInit)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AcBaseInit)); |
| kc_x->post_create(); |
| return static_cast<impl_ac_base_init_AcBaseInit*>(kc_x); |
| } |
| |
| impl_baseclass_declarations* |
| Nilbaseclass_declarations() { |
| baseclass_declarations kc_x = new impl_baseclass_declarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilbaseclass_declarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilbaseclass_declarations)); |
| kc_x->post_create(); |
| return static_cast<impl_baseclass_declarations*>(kc_x); |
| } |
| |
| impl_baseclass_declarations* |
| Consbaseclass_declarations(baseclass_decl _baseclass_decl_1, baseclass_declarations _baseclass_declarations_1) { |
| assertPhylum(_baseclass_decl_1, phylum_baseclass_decl); |
| assertPhylum(_baseclass_declarations_1, phylum_baseclass_declarations); |
| baseclass_declarations kc_x = new impl_baseclass_declarations(_baseclass_decl_1, _baseclass_declarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consbaseclass_declarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consbaseclass_declarations)); |
| kc_x->post_create(); |
| return static_cast<impl_baseclass_declarations*>(kc_x); |
| } |
| |
| impl_baseclass_decl_BaseClassDecl* |
| BaseClassDecl(ID _ID_1, baseclass_list _baseclass_list_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_baseclass_list_1, phylum_baseclass_list); |
| baseclass_decl kc_x = new impl_baseclass_decl_BaseClassDecl(_ID_1, _baseclass_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_BaseClassDecl)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_BaseClassDecl)); |
| kc_x->post_create(); |
| return static_cast<impl_baseclass_decl_BaseClassDecl*>(kc_x); |
| } |
| |
| impl_baseclass_list* |
| Nilbaseclass_list() { |
| baseclass_list kc_x = new impl_baseclass_list(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilbaseclass_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilbaseclass_list)); |
| kc_x->post_create(); |
| return static_cast<impl_baseclass_list*>(kc_x); |
| } |
| |
| impl_baseclass_list* |
| Consbaseclass_list(ID _ID_1, baseclass_list _baseclass_list_1) { |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_baseclass_list_1, phylum_baseclass_list); |
| baseclass_list kc_x = new impl_baseclass_list(_ID_1, _baseclass_list_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consbaseclass_list)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consbaseclass_list)); |
| kc_x->post_create(); |
| return static_cast<impl_baseclass_list*>(kc_x); |
| } |
| |
| impl_error_Fatal* |
| Fatal(fileline _fileline_1, problem _problem_1) { |
| assertPhylum(_fileline_1, phylum_fileline); |
| assertPhylum(_problem_1, phylum_problem); |
| error kc_x = new impl_error_Fatal(_fileline_1, _problem_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Fatal)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Fatal)); |
| kc_x->post_create(); |
| return static_cast<impl_error_Fatal*>(kc_x); |
| } |
| |
| impl_error_NonFatal* |
| NonFatal(fileline _fileline_1, problem _problem_1) { |
| assertPhylum(_fileline_1, phylum_fileline); |
| assertPhylum(_problem_1, phylum_problem); |
| error kc_x = new impl_error_NonFatal(_fileline_1, _problem_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_NonFatal)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_NonFatal)); |
| kc_x->post_create(); |
| return static_cast<impl_error_NonFatal*>(kc_x); |
| } |
| |
| impl_error_Warning* |
| Warning(fileline _fileline_1, problem _problem_1) { |
| assertPhylum(_fileline_1, phylum_fileline); |
| assertPhylum(_problem_1, phylum_problem); |
| error kc_x = new impl_error_Warning(_fileline_1, _problem_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Warning)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Warning)); |
| kc_x->post_create(); |
| return static_cast<impl_error_Warning*>(kc_x); |
| } |
| |
| impl_problem_Problem1* |
| Problem1(casestring _casestring_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| problem kc_x = new impl_problem_Problem1(_casestring_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1*>(kc_x); |
| } |
| |
| impl_problem_Problem1ID* |
| Problem1ID(casestring _casestring_1, ID _ID_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| problem kc_x = new impl_problem_Problem1ID(_casestring_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1tID* |
| Problem1tID(casestring _casestring_1, ID _ID_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| problem kc_x = new impl_problem_Problem1tID(_casestring_1, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1tID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1tID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1tID*>(kc_x); |
| } |
| |
| impl_problem_Problem1we* |
| Problem1we(casestring _casestring_1, withexpression _withexpression_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_withexpression_1, phylum_withexpression); |
| problem kc_x = new impl_problem_Problem1we(_casestring_1, _withexpression_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1we)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1we)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1we*>(kc_x); |
| } |
| |
| impl_problem_Problem1ID1ID* |
| Problem1ID1ID(casestring _casestring_1, ID _ID_1, casestring _casestring_2, ID _ID_2) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_2, phylum_ID); |
| problem kc_x = new impl_problem_Problem1ID1ID(_casestring_1, _ID_1, _casestring_2, _ID_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1ID1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1ID1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1ID1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1t1ID* |
| Problem1t1ID(casestring _casestring_1, IDtype _IDtype_1, casestring _casestring_2, ID _ID_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_IDtype_1, phylum_IDtype); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| problem kc_x = new impl_problem_Problem1t1ID(_casestring_1, _IDtype_1, _casestring_2, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1t1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1t1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1t1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1INT* |
| Problem1INT(casestring _casestring_1, INT _INT_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_INT_1, phylum_INT); |
| problem kc_x = new impl_problem_Problem1INT(_casestring_1, _INT_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1INT)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1INT)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1INT*>(kc_x); |
| } |
| |
| impl_problem_Problem1int1* |
| Problem1int1(casestring _casestring_1, integer _integer_1, casestring _casestring_2) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_integer_1, phylum_integer); |
| assertPhylum(_casestring_2, phylum_casestring); |
| problem kc_x = new impl_problem_Problem1int1(_casestring_1, _integer_1, _casestring_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1int1)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1int1)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1int1*>(kc_x); |
| } |
| |
| impl_problem_Problem1INT1ID* |
| Problem1INT1ID(casestring _casestring_1, INT _INT_1, casestring _casestring_2, ID _ID_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_INT_1, phylum_INT); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| problem kc_x = new impl_problem_Problem1INT1ID(_casestring_1, _INT_1, _casestring_2, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1INT1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1INT1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1INT1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1ID1ID1ID* |
| Problem1ID1ID1ID(casestring _casestring_1, ID _ID_1, casestring _casestring_2, ID _ID_2, casestring _casestring_3, ID _ID_3) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_2, phylum_ID); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_ID_3, phylum_ID); |
| problem kc_x = new impl_problem_Problem1ID1ID1ID(_casestring_1, _ID_1, _casestring_2, _ID_2, _casestring_3, _ID_3); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1ID1ID1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1ID1ID1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1ID1ID1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1INT1ID1ID* |
| Problem1INT1ID1ID(casestring _casestring_1, INT _INT_1, casestring _casestring_2, ID _ID_1, casestring _casestring_3, ID _ID_2) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_INT_1, phylum_INT); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_ID_2, phylum_ID); |
| problem kc_x = new impl_problem_Problem1INT1ID1ID(_casestring_1, _INT_1, _casestring_2, _ID_1, _casestring_3, _ID_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1INT1ID1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1INT1ID1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1INT1ID1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem1storageoption1ID* |
| Problem1storageoption1ID(casestring _casestring_1, storageoption _storageoption_1, casestring _casestring_2, ID _ID_1) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_storageoption_1, phylum_storageoption); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_ID_1, phylum_ID); |
| problem kc_x = new impl_problem_Problem1storageoption1ID(_casestring_1, _storageoption_1, _casestring_2, _ID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem1storageoption1ID)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem1storageoption1ID)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem1storageoption1ID*>(kc_x); |
| } |
| |
| impl_problem_Problem2* |
| Problem2(casestring _casestring_1, casestring _casestring_2) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| problem kc_x = new impl_problem_Problem2(_casestring_1, _casestring_2); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem2)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem2)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem2*>(kc_x); |
| } |
| |
| impl_problem_Problem3* |
| Problem3(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_casestring_3, phylum_casestring); |
| problem kc_x = new impl_problem_Problem3(_casestring_1, _casestring_2, _casestring_3); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem3)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem3)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem3*>(kc_x); |
| } |
| |
| impl_problem_Problem3int1* |
| Problem3int1(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, integer _integer_1, casestring _casestring_4) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_integer_1, phylum_integer); |
| assertPhylum(_casestring_4, phylum_casestring); |
| problem kc_x = new impl_problem_Problem3int1(_casestring_1, _casestring_2, _casestring_3, _integer_1, _casestring_4); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem3int1)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem3int1)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem3int1*>(kc_x); |
| } |
| |
| impl_problem_Problem4* |
| Problem4(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_casestring_4, phylum_casestring); |
| problem kc_x = new impl_problem_Problem4(_casestring_1, _casestring_2, _casestring_3, _casestring_4); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem4)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem4)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem4*>(kc_x); |
| } |
| |
| impl_problem_Problem5* |
| Problem5(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4, casestring _casestring_5) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_casestring_4, phylum_casestring); |
| assertPhylum(_casestring_5, phylum_casestring); |
| problem kc_x = new impl_problem_Problem5(_casestring_1, _casestring_2, _casestring_3, _casestring_4, _casestring_5); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem5)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem5)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem5*>(kc_x); |
| } |
| |
| impl_problem_Problem6* |
| Problem6(casestring _casestring_1, casestring _casestring_2, casestring _casestring_3, casestring _casestring_4, casestring _casestring_5, casestring _casestring_6) { |
| assertPhylum(_casestring_1, phylum_casestring); |
| assertPhylum(_casestring_2, phylum_casestring); |
| assertPhylum(_casestring_3, phylum_casestring); |
| assertPhylum(_casestring_4, phylum_casestring); |
| assertPhylum(_casestring_5, phylum_casestring); |
| assertPhylum(_casestring_6, phylum_casestring); |
| problem kc_x = new impl_problem_Problem6(_casestring_1, _casestring_2, _casestring_3, _casestring_4, _casestring_5, _casestring_6); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Problem6)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Problem6)); |
| kc_x->post_create(); |
| return static_cast<impl_problem_Problem6*>(kc_x); |
| } |
| |
| impl_addedphylumdeclarations* |
| Niladdedphylumdeclarations() { |
| addedphylumdeclarations kc_x = new impl_addedphylumdeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Niladdedphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Niladdedphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_addedphylumdeclarations*>(kc_x); |
| } |
| |
| impl_addedphylumdeclarations* |
| Consaddedphylumdeclarations(addedphylumdeclaration _addedphylumdeclaration_1, addedphylumdeclarations _addedphylumdeclarations_1) { |
| assertPhylum(_addedphylumdeclaration_1, phylum_addedphylumdeclaration); |
| assertPhylum(_addedphylumdeclarations_1, phylum_addedphylumdeclarations); |
| addedphylumdeclarations kc_x = new impl_addedphylumdeclarations(_addedphylumdeclaration_1, _addedphylumdeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consaddedphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consaddedphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_addedphylumdeclarations*>(kc_x); |
| } |
| |
| impl_addedphylumdeclaration_AddedPhylumdeclaration* |
| AddedPhylumdeclaration(uniqID _uniqID_1) { |
| assertPhylum(_uniqID_1, phylum_uniqID); |
| addedphylumdeclaration kc_x = new impl_addedphylumdeclaration_AddedPhylumdeclaration(_uniqID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_AddedPhylumdeclaration)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_AddedPhylumdeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_addedphylumdeclaration(kc_x); |
| return static_cast<impl_addedphylumdeclaration_AddedPhylumdeclaration*>(kc_x); |
| } |
| |
| impl_countedphylumdeclarations* |
| Nilcountedphylumdeclarations() { |
| countedphylumdeclarations kc_x = new impl_countedphylumdeclarations(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilcountedphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilcountedphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_countedphylumdeclarations*>(kc_x); |
| } |
| |
| impl_countedphylumdeclarations* |
| Conscountedphylumdeclarations(countedphylumdeclaration _countedphylumdeclaration_1, countedphylumdeclarations _countedphylumdeclarations_1) { |
| assertPhylum(_countedphylumdeclaration_1, phylum_countedphylumdeclaration); |
| assertPhylum(_countedphylumdeclarations_1, phylum_countedphylumdeclarations); |
| countedphylumdeclarations kc_x = new impl_countedphylumdeclarations(_countedphylumdeclaration_1, _countedphylumdeclarations_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Conscountedphylumdeclarations)); |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Conscountedphylumdeclarations)); |
| kc_x->post_create(); |
| return static_cast<impl_countedphylumdeclarations*>(kc_x); |
| } |
| |
| impl_countedphylumdeclaration_CountedPhylumdeclaration* |
| CountedPhylumdeclaration(uniqID _uniqID_1) { |
| assertPhylum(_uniqID_1, phylum_uniqID); |
| countedphylumdeclaration kc_x=new impl_countedphylumdeclaration_CountedPhylumdeclaration(_uniqID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_CountedPhylumdeclaration)); |
| countedphylumdeclaration unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_CountedPhylumdeclaration)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_countedphylumdeclaration(kc_x); |
| } |
| return static_cast<impl_countedphylumdeclaration_CountedPhylumdeclaration*>(kc_x); |
| } |
| |
| impl_charruns_Newlines* |
| Newlines() { |
| charruns kc_x=new impl_charruns_Newlines(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Newlines)); |
| charruns unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Newlines)); |
| kc_x->post_create(); |
| } |
| return static_cast<impl_charruns_Newlines*>(kc_x); |
| } |
| |
| impl_charruns_QuotedNewlines* |
| QuotedNewlines() { |
| charruns kc_x=new impl_charruns_QuotedNewlines(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_QuotedNewlines)); |
| charruns unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_QuotedNewlines)); |
| kc_x->post_create(); |
| } |
| return static_cast<impl_charruns_QuotedNewlines*>(kc_x); |
| } |
| |
| impl_charruns_Stars* |
| Stars() { |
| charruns kc_x=new impl_charruns_Stars(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Stars)); |
| charruns unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Stars)); |
| kc_x->post_create(); |
| } |
| return static_cast<impl_charruns_Stars*>(kc_x); |
| } |
| |
| impl_bindingidmarks* |
| Nilbindingidmarks() { |
| bindingidmarks kc_x=new impl_bindingidmarks(); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Nilbindingidmarks)); |
| bindingidmarks unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Nilbindingidmarks)); |
| kc_x->post_create(); |
| } |
| return static_cast<impl_bindingidmarks*>(kc_x); |
| } |
| |
| impl_bindingidmarks* |
| Consbindingidmarks(bindingidmark _bindingidmark_1, bindingidmarks _bindingidmarks_1) { |
| assertPhylum(_bindingidmark_1, phylum_bindingidmark); |
| assertPhylum(_bindingidmarks_1, phylum_bindingidmarks); |
| bindingidmarks kc_x=new impl_bindingidmarks(_bindingidmark_1, _bindingidmarks_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_Consbindingidmarks)); |
| bindingidmarks unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_Consbindingidmarks)); |
| kc_x->post_create(); |
| } |
| return static_cast<impl_bindingidmarks*>(kc_x); |
| } |
| |
| impl_bindingidmark_BindingIdMark* |
| BindingIdMark(uniqID _uniqID_1) { |
| assertPhylum(_uniqID_1, phylum_uniqID); |
| bindingidmark kc_x=new impl_bindingidmark_BindingIdMark(_uniqID_1); |
| KC_COLLECT_STATS0(KC_CREATE_STATS(sel_BindingIdMark)); |
| bindingidmark unique_kc_x= hashtables[uniq]->ht_check_insert(kc_x); |
| if(unique_kc_x!=kc_x) { |
| delete kc_x; |
| kc_x=unique_kc_x; |
| } else { |
| KC_COLLECT_STATS0(KC_EXISTINGNOTFOUND_STATS(sel_BindingIdMark)); |
| kc_x->post_create(); |
| kc_x = kc_initialize_bindingidmark(kc_x); |
| } |
| return static_cast<impl_bindingidmark_BindingIdMark*>(kc_x); |
| } |
| |
| |
| abstract_phylum |
| kc_create(enum_operators createOp, abstract_phylum kc_p1, abstract_phylum kc_p2, abstract_phylum kc_p3, abstract_phylum kc_p4, abstract_phylum kc_p5, abstract_phylum kc_p6, abstract_phylum kc_p7) |
| { |
| switch(createOp) { |
| case sel__VoidPtr: |
| case sel__Int: |
| case sel__Real: |
| case sel__Str: |
| case sel_NoCaseStr: |
| assertionFailed("Cannot create this kind of phylum - predefined phyla must be handled seperately");break; |
| case sel_BindingIdMark: |
| return BindingIdMark(phylum_cast<uniqID>(kc_p1)); |
| case sel_Consbindingidmarks: |
| return Consbindingidmarks(phylum_cast<bindingidmark>(kc_p1), phylum_cast<bindingidmarks>(kc_p2)); |
| case sel_Nilbindingidmarks: |
| return Nilbindingidmarks(); |
| case sel_Stars: |
| return Stars(); |
| case sel_QuotedNewlines: |
| return QuotedNewlines(); |
| case sel_Newlines: |
| return Newlines(); |
| case sel_CountedPhylumdeclaration: |
| return CountedPhylumdeclaration(phylum_cast<uniqID>(kc_p1)); |
| case sel_Conscountedphylumdeclarations: |
| return Conscountedphylumdeclarations(phylum_cast<countedphylumdeclaration>(kc_p1), phylum_cast<countedphylumdeclarations>(kc_p2)); |
| case sel_Nilcountedphylumdeclarations: |
| return Nilcountedphylumdeclarations(); |
| case sel_AddedPhylumdeclaration: |
| return AddedPhylumdeclaration(phylum_cast<uniqID>(kc_p1)); |
| case sel_Consaddedphylumdeclarations: |
| return Consaddedphylumdeclarations(phylum_cast<addedphylumdeclaration>(kc_p1), phylum_cast<addedphylumdeclarations>(kc_p2)); |
| case sel_Niladdedphylumdeclarations: |
| return Niladdedphylumdeclarations(); |
| case sel_Problem6: |
| return Problem6(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<casestring>(kc_p4), phylum_cast<casestring>(kc_p5), phylum_cast<casestring>(kc_p6)); |
| case sel_Problem5: |
| return Problem5(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<casestring>(kc_p4), phylum_cast<casestring>(kc_p5)); |
| case sel_Problem4: |
| return Problem4(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<casestring>(kc_p4)); |
| case sel_Problem3int1: |
| return Problem3int1(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<integer>(kc_p4), phylum_cast<casestring>(kc_p5)); |
| case sel_Problem3: |
| return Problem3(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2), phylum_cast<casestring>(kc_p3)); |
| case sel_Problem2: |
| return Problem2(phylum_cast<casestring>(kc_p1), phylum_cast<casestring>(kc_p2)); |
| case sel_Problem1storageoption1ID: |
| return Problem1storageoption1ID(phylum_cast<casestring>(kc_p1), phylum_cast<storageoption>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4)); |
| case sel_Problem1INT1ID1ID: |
| return Problem1INT1ID1ID(phylum_cast<casestring>(kc_p1), phylum_cast<INT>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4), phylum_cast<casestring>(kc_p5), phylum_cast<ID>(kc_p6)); |
| case sel_Problem1ID1ID1ID: |
| return Problem1ID1ID1ID(phylum_cast<casestring>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4), phylum_cast<casestring>(kc_p5), phylum_cast<ID>(kc_p6)); |
| case sel_Problem1INT1ID: |
| return Problem1INT1ID(phylum_cast<casestring>(kc_p1), phylum_cast<INT>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4)); |
| case sel_Problem1int1: |
| return Problem1int1(phylum_cast<casestring>(kc_p1), phylum_cast<integer>(kc_p2), phylum_cast<casestring>(kc_p3)); |
| case sel_Problem1INT: |
| return Problem1INT(phylum_cast<casestring>(kc_p1), phylum_cast<INT>(kc_p2)); |
| case sel_Problem1t1ID: |
| return Problem1t1ID(phylum_cast<casestring>(kc_p1), phylum_cast<IDtype>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4)); |
| case sel_Problem1ID1ID: |
| return Problem1ID1ID(phylum_cast<casestring>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<ID>(kc_p4)); |
| case sel_Problem1we: |
| return Problem1we(phylum_cast<casestring>(kc_p1), phylum_cast<withexpression>(kc_p2)); |
| case sel_Problem1tID: |
| return Problem1tID(phylum_cast<casestring>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_Problem1ID: |
| return Problem1ID(phylum_cast<casestring>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_Problem1: |
| return Problem1(phylum_cast<casestring>(kc_p1)); |
| case sel_Warning: |
| return Warning(phylum_cast<fileline>(kc_p1), phylum_cast<problem>(kc_p2)); |
| case sel_NonFatal: |
| return NonFatal(phylum_cast<fileline>(kc_p1), phylum_cast<problem>(kc_p2)); |
| case sel_Fatal: |
| return Fatal(phylum_cast<fileline>(kc_p1), phylum_cast<problem>(kc_p2)); |
| case sel_Consbaseclass_list: |
| return Consbaseclass_list(phylum_cast<ID>(kc_p1), phylum_cast<baseclass_list>(kc_p2)); |
| case sel_Nilbaseclass_list: |
| return Nilbaseclass_list(); |
| case sel_BaseClassDecl: |
| return BaseClassDecl(phylum_cast<ID>(kc_p1), phylum_cast<baseclass_list>(kc_p2)); |
| case sel_Consbaseclass_declarations: |
| return Consbaseclass_declarations(phylum_cast<baseclass_decl>(kc_p1), phylum_cast<baseclass_declarations>(kc_p2)); |
| case sel_Nilbaseclass_declarations: |
| return Nilbaseclass_declarations(); |
| case sel_AcBaseInit: |
| return AcBaseInit(phylum_cast<ID>(kc_p1), phylum_cast<ac_constant_expression>(kc_p2)); |
| case sel_Consac_base_init_list: |
| return Consac_base_init_list(phylum_cast<ac_base_init>(kc_p1), phylum_cast<ac_base_init_list>(kc_p2)); |
| case sel_Nilac_base_init_list: |
| return Nilac_base_init_list(); |
| case sel_AcYesBaseInit: |
| return AcYesBaseInit(phylum_cast<ac_base_init_list>(kc_p1)); |
| case sel_AcNoBaseInit: |
| return AcNoBaseInit(); |
| case sel_Consac_constant_expression_list: |
| return Consac_constant_expression_list(phylum_cast<ac_constant_expression>(kc_p1), phylum_cast<ac_constant_expression_list>(kc_p2)); |
| case sel_Nilac_constant_expression_list: |
| return Nilac_constant_expression_list(); |
| case sel_AcConstExpr: |
| return AcConstExpr(phylum_cast<Cexpression>(kc_p1)); |
| case sel_Noac_constant_expression: |
| return Noac_constant_expression(); |
| case sel_Yesac_constant_expression: |
| return Yesac_constant_expression(phylum_cast<ac_constant_expression>(kc_p1)); |
| case sel_AcDirAbsdeclFn: |
| return AcDirAbsdeclFn(phylum_cast<ac_direct_abstract_declarator_option>(kc_p1), phylum_cast<ac_parameter_type_list>(kc_p2)); |
| case sel_AcDirAbsdeclArray: |
| return AcDirAbsdeclArray(phylum_cast<ac_direct_abstract_declarator_option>(kc_p1), phylum_cast<ac_constant_expression_option>(kc_p2)); |
| case sel_AcDirAbsdeclPack: |
| return AcDirAbsdeclPack(phylum_cast<ac_abstract_declarator>(kc_p1)); |
| case sel_Yesac_direct_abstract_declarator: |
| return Yesac_direct_abstract_declarator(phylum_cast<ac_direct_abstract_declarator>(kc_p1)); |
| case sel_Noac_direct_abstract_declarator: |
| return Noac_direct_abstract_declarator(); |
| case sel_AcAbsdeclDirdecl: |
| return AcAbsdeclDirdecl(phylum_cast<ac_pointer_option>(kc_p1), phylum_cast<ac_direct_abstract_declarator>(kc_p2)); |
| case sel_AcAbsdeclPointer: |
| return AcAbsdeclPointer(phylum_cast<ac_pointer>(kc_p1)); |
| case sel_Consac_identifier_list: |
| return Consac_identifier_list(phylum_cast<ID>(kc_p1), phylum_cast<ac_identifier_list>(kc_p2)); |
| case sel_Nilac_identifier_list: |
| return Nilac_identifier_list(); |
| case sel_AcParDeclAbsdecl: |
| return AcParDeclAbsdecl(phylum_cast<ac_declaration_specifiers>(kc_p1), phylum_cast<ac_abstract_declarator>(kc_p2), phylum_cast<ac_constant_expression_option>(kc_p3)); |
| case sel_AcParDeclDecl: |
| return AcParDeclDecl(phylum_cast<ac_declaration_specifiers>(kc_p1), phylum_cast<ac_declarator>(kc_p2), phylum_cast<ac_constant_expression_option>(kc_p3)); |
| case sel_Consac_parameter_list: |
| return Consac_parameter_list(phylum_cast<ac_parameter_declaration>(kc_p1), phylum_cast<ac_parameter_list>(kc_p2)); |
| case sel_Nilac_parameter_list: |
| return Nilac_parameter_list(); |
| case sel_AcParList3Dot: |
| return AcParList3Dot(phylum_cast<ac_parameter_list>(kc_p1)); |
| case sel_AcParList: |
| return AcParList(phylum_cast<ac_parameter_list>(kc_p1)); |
| case sel_Consac_type_qualifier_list: |
| return Consac_type_qualifier_list(phylum_cast<ac_type_qualifier>(kc_p1), phylum_cast<ac_type_qualifier_list>(kc_p2)); |
| case sel_Nilac_type_qualifier_list: |
| return Nilac_type_qualifier_list(); |
| case sel_Consac_class_qualifier_list: |
| return Consac_class_qualifier_list(phylum_cast<ID>(kc_p1), phylum_cast<ac_class_qualifier_list>(kc_p2)); |
| case sel_Nilac_class_qualifier_list: |
| return Nilac_class_qualifier_list(); |
| case sel_Consac_class_qualifier_help_list: |
| return Consac_class_qualifier_help_list(phylum_cast<ac_direct_declarator>(kc_p1), phylum_cast<ac_class_qualifier_help_list>(kc_p2)); |
| case sel_Nilac_class_qualifier_help_list: |
| return Nilac_class_qualifier_help_list(); |
| case sel_AcOperatorName: |
| return AcOperatorName(phylum_cast<casestring>(kc_p1)); |
| case sel_AcRef: |
| return AcRef(); |
| case sel_AcNoRef: |
| return AcNoRef(); |
| case sel_AcPointerCons: |
| return AcPointerCons(phylum_cast<ac_type_qualifier_list>(kc_p1), phylum_cast<ac_pointer>(kc_p2)); |
| case sel_AcPointerNil: |
| return AcPointerNil(phylum_cast<ac_type_qualifier_list>(kc_p1)); |
| case sel_Yespointer: |
| return Yespointer(phylum_cast<ac_pointer>(kc_p1)); |
| case sel_Nopointer: |
| return Nopointer(); |
| case sel_AcOperatorDeclId: |
| return AcOperatorDeclId(phylum_cast<ac_operator_name>(kc_p1)); |
| case sel_AcConvOperatorDecl: |
| return AcConvOperatorDecl(phylum_cast<ID>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_AcMemberDecl: |
| return AcMemberDecl(phylum_cast<ID>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<ac_constant_expression_list>(kc_p3)); |
| case sel_AcQualifiedDeclProto: |
| return AcQualifiedDeclProto(phylum_cast<ac_class_qualifier_list>(kc_p1), phylum_cast<ac_direct_declarator>(kc_p2), phylum_cast<ac_parameter_type_list>(kc_p3), phylum_cast<ac_type_qualifier>(kc_p4)); |
| case sel_AcDirectDeclProto: |
| return AcDirectDeclProto(phylum_cast<ac_direct_declarator>(kc_p1), phylum_cast<ac_parameter_type_list>(kc_p2)); |
| case sel_AcDirectDeclArray: |
| return AcDirectDeclArray(phylum_cast<ac_direct_declarator>(kc_p1), phylum_cast<ac_constant_expression_option>(kc_p2)); |
| case sel_AcDirectDeclPack: |
| return AcDirectDeclPack(phylum_cast<ac_declarator>(kc_p1)); |
| case sel_AcDirectDeclId: |
| return AcDirectDeclId(phylum_cast<ID>(kc_p1)); |
| case sel_AcDeclarator: |
| return AcDeclarator(phylum_cast<ac_pointer_option>(kc_p1), phylum_cast<ac_ref_option>(kc_p2), phylum_cast<ac_direct_declarator>(kc_p3)); |
| case sel_AcInitDecl: |
| return AcInitDecl(phylum_cast<ac_declarator>(kc_p1)); |
| case sel_Consac_init_declarator_list: |
| return Consac_init_declarator_list(phylum_cast<ac_init_declarator>(kc_p1), phylum_cast<ac_init_declarator_list>(kc_p2)); |
| case sel_Nilac_init_declarator_list: |
| return Nilac_init_declarator_list(); |
| case sel_AcNoQualifier: |
| return AcNoQualifier(); |
| case sel_AcUnsigned: |
| return AcUnsigned(); |
| case sel_AcVolatile: |
| return AcVolatile(); |
| case sel_AcConst: |
| return AcConst(); |
| case sel_AcTypeSpec: |
| return AcTypeSpec(phylum_cast<ID>(kc_p1)); |
| case sel_AcVirtual: |
| return AcVirtual(); |
| case sel_AcTypedef: |
| return AcTypedef(); |
| case sel_AcExtern: |
| return AcExtern(); |
| case sel_AcStatic: |
| return AcStatic(); |
| case sel_AcRegister: |
| return AcRegister(); |
| case sel_AcAuto: |
| return AcAuto(); |
| case sel_AcDeclSpecTypeQual: |
| return AcDeclSpecTypeQual(phylum_cast<ac_type_qualifier>(kc_p1)); |
| case sel_AcDeclSpecTypeSpec: |
| return AcDeclSpecTypeSpec(phylum_cast<ac_type_specifier>(kc_p1)); |
| case sel_AcDeclSpecStorageSpec: |
| return AcDeclSpecStorageSpec(phylum_cast<ac_storage_class_specifier>(kc_p1)); |
| case sel_Consac_declaration_specifiers: |
| return Consac_declaration_specifiers(phylum_cast<ac_declaration_specifier>(kc_p1), phylum_cast<ac_declaration_specifiers>(kc_p2)); |
| case sel_Nilac_declaration_specifiers: |
| return Nilac_declaration_specifiers(); |
| case sel_Consac_declaration_list: |
| return Consac_declaration_list(phylum_cast<ac_declaration>(kc_p1), phylum_cast<ac_declaration_list>(kc_p2)); |
| case sel_Nilac_declaration_list: |
| return Nilac_declaration_list(); |
| case sel_AcDeclaration: |
| return AcDeclaration(phylum_cast<ac_declaration_specifiers>(kc_p1), phylum_cast<ac_init_declarator_list>(kc_p2)); |
| case sel_Unparsedeclinfo: |
| return Unparsedeclinfo(phylum_cast<patternrepresentation>(kc_p1), phylum_cast<patternrepresentation>(kc_p2), phylum_cast<unparseclause>(kc_p3)); |
| case sel_Consunparsedeclsinfo: |
| return Consunparsedeclsinfo(phylum_cast<unparsedeclinfo>(kc_p1), phylum_cast<unparsedeclsinfo>(kc_p2)); |
| case sel_Nilunparsedeclsinfo: |
| return Nilunparsedeclsinfo(); |
| case sel_Unparseviewinfo: |
| return Unparseviewinfo(phylum_cast<ID>(kc_p1), phylum_cast<unparsedeclsinfo>(kc_p2)); |
| case sel_Consunparseviewsinfo: |
| return Consunparseviewsinfo(phylum_cast<unparseviewinfo>(kc_p1), phylum_cast<unparseviewsinfo>(kc_p2)); |
| case sel_Nilunparseviewsinfo: |
| return Nilunparseviewsinfo(); |
| case sel_Rewriteviewinfo: |
| return Rewriteviewinfo(phylum_cast<ID>(kc_p1), phylum_cast<rewriterulesinfo>(kc_p2)); |
| case sel_Consrewriteviewsinfo: |
| return Consrewriteviewsinfo(phylum_cast<rewriteviewinfo>(kc_p1), phylum_cast<rewriteviewsinfo>(kc_p2)); |
| case sel_Nilrewriteviewsinfo: |
| return Nilrewriteviewsinfo(); |
| case sel_Withcaseinfo: |
| return Withcaseinfo(phylum_cast<patternrepresentation>(kc_p1), phylum_cast<patternrepresentation>(kc_p2), phylum_cast<Ctext>(kc_p3)); |
| case sel_Conswithcasesinfo: |
| return Conswithcasesinfo(phylum_cast<withcaseinfo>(kc_p1), phylum_cast<withcasesinfo>(kc_p2)); |
| case sel_Nilwithcasesinfo: |
| return Nilwithcasesinfo(); |
| case sel_Rewriteruleinfo: |
| return Rewriteruleinfo(phylum_cast<patternrepresentation>(kc_p1), phylum_cast<patternrepresentation>(kc_p2), phylum_cast<rewriteclause>(kc_p3)); |
| case sel_Consrewriterulesinfo: |
| return Consrewriterulesinfo(phylum_cast<rewriteruleinfo>(kc_p1), phylum_cast<rewriterulesinfo>(kc_p2)); |
| case sel_Nilrewriterulesinfo: |
| return Nilrewriterulesinfo(); |
| case sel_Consargsnumbers: |
| return Consargsnumbers(phylum_cast<integer>(kc_p1), phylum_cast<argsnumbers>(kc_p2)); |
| case sel_Nilargsnumbers: |
| return Nilargsnumbers(); |
| case sel_Conspaths: |
| return Conspaths(phylum_cast<path>(kc_p1), phylum_cast<paths>(kc_p2)); |
| case sel_Nilpaths: |
| return Nilpaths(); |
| case sel_Conspath: |
| return Conspath(phylum_cast<integer>(kc_p1), phylum_cast<path>(kc_p2)); |
| case sel_Nilpath: |
| return Nilpath(); |
| case sel_PRIntLiteral: |
| return PRIntLiteral(phylum_cast<path>(kc_p1), phylum_cast<INT>(kc_p2)); |
| case sel_PRStringLiteral: |
| return PRStringLiteral(phylum_cast<path>(kc_p1), phylum_cast<CexpressionDQ>(kc_p2)); |
| case sel_PRDefault: |
| return PRDefault(); |
| case sel_PRWildcard: |
| return PRWildcard(phylum_cast<path>(kc_p1)); |
| case sel_PRNonLeafBinding: |
| return PRNonLeafBinding(phylum_cast<path>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<patternrepresentation>(kc_p3)); |
| case sel_PRUserPredicate: |
| return PRUserPredicate(phylum_cast<Cexpression>(kc_p1)); |
| case sel_PROperPredicate: |
| return PROperPredicate(phylum_cast<path>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_PRVarPredicate: |
| return PRVarPredicate(phylum_cast<paths>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<patternrepresentation>(kc_p3)); |
| case sel_PRBinding: |
| return PRBinding(phylum_cast<path>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_Conspatternrepresentation: |
| return Conspatternrepresentation(phylum_cast<elem_patternrepresentation>(kc_p1), phylum_cast<patternrepresentation>(kc_p2)); |
| case sel_Nilpatternrepresentation: |
| return Nilpatternrepresentation(); |
| case sel_Conspatternrepresentations: |
| return Conspatternrepresentations(phylum_cast<patternrepresentation>(kc_p1), phylum_cast<patternrepresentations>(kc_p2)); |
| case sel_Nilpatternrepresentations: |
| return Nilpatternrepresentations(); |
| case sel_Bigger: |
| return Bigger(); |
| case sel_Smaller: |
| return Smaller(); |
| case sel_Equal: |
| return Equal(); |
| case sel_DVDisallowed: |
| return DVDisallowed(); |
| case sel_DVAllowed: |
| return DVAllowed(); |
| case sel_Consvariables: |
| return Consvariables(phylum_cast<ID>(kc_p1), phylum_cast<variables>(kc_p2)); |
| case sel_Nilvariables: |
| return Nilvariables(); |
| case sel_Consphyla: |
| return Consphyla(phylum_cast<ID>(kc_p1), phylum_cast<phyla>(kc_p2)); |
| case sel_Nilphyla: |
| return Nilphyla(); |
| case sel_Consoperators: |
| return Consoperators(phylum_cast<ID>(kc_p1), phylum_cast<operators>(kc_p2)); |
| case sel_Niloperators: |
| return Niloperators(); |
| case sel_ITLanguageName: |
| return ITLanguageName(phylum_cast<integer>(kc_p1)); |
| case sel_ITPatternVariable: |
| return ITPatternVariable(phylum_cast<ID>(kc_p1), phylum_cast<integer>(kc_p2)); |
| case sel_ITUserFunction: |
| return ITUserFunction(phylum_cast<fnclass>(kc_p1)); |
| case sel_ITUserRView: |
| return ITUserRView(); |
| case sel_ITPredefinedRView: |
| return ITPredefinedRView(); |
| case sel_ITUViewVar: |
| return ITUViewVar(); |
| case sel_ITUserUView: |
| return ITUserUView(); |
| case sel_ITPredefinedUView: |
| return ITPredefinedUView(); |
| case sel_ITStorageClass: |
| return ITStorageClass(); |
| case sel_ITPredefinedStorageClass: |
| return ITPredefinedStorageClass(); |
| case sel_ITUserOperator: |
| return ITUserOperator(phylum_cast<alternative>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_ITPredefinedOperator: |
| return ITPredefinedOperator(phylum_cast<alternative>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_ITUserPhylum: |
| return ITUserPhylum(phylum_cast<phylumdeclaration>(kc_p1)); |
| case sel_ITPredefinedPhylum: |
| return ITPredefinedPhylum(phylum_cast<phylumdeclaration>(kc_p1)); |
| case sel_ITUnknown: |
| return ITUnknown(); |
| case sel_ScopeTypeFileLine: |
| return ScopeTypeFileLine(phylum_cast<integer>(kc_p1), phylum_cast<IDtype>(kc_p2), phylum_cast<casestring>(kc_p3), phylum_cast<integer>(kc_p4)); |
| case sel_Consscopetypefilelinestack: |
| return Consscopetypefilelinestack(phylum_cast<scopetypefileline>(kc_p1), phylum_cast<scopetypefilelinestack>(kc_p2)); |
| case sel_Nilscopetypefilelinestack: |
| return Nilscopetypefilelinestack(); |
| case sel_PosNoFileLine: |
| return PosNoFileLine(); |
| case sel_NoFileLine: |
| return NoFileLine(); |
| case sel_FileLine: |
| return FileLine(); |
| case sel_Conslanguagenames: |
| return Conslanguagenames(phylum_cast<ID>(kc_p1), phylum_cast<languagenames>(kc_p2)); |
| case sel_Nillanguagenames: |
| return Nillanguagenames(); |
| case sel_LanguageList: |
| return LanguageList(phylum_cast<languagenames>(kc_p1)); |
| case sel_NoLanguagename: |
| return NoLanguagename(); |
| case sel_YesViewname: |
| return YesViewname(phylum_cast<ID>(kc_p1)); |
| case sel_NoViewname: |
| return NoViewname(); |
| case sel_Consunpattributes: |
| return Consunpattributes(phylum_cast<ID>(kc_p1), phylum_cast<unpattributes>(kc_p2)); |
| case sel_Nilunpattributes: |
| return Nilunpattributes(); |
| case sel_UnpCastedVariable: |
| return UnpCastedVariable(phylum_cast<ID>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_UnpDollarvarAttr: |
| return UnpDollarvarAttr(phylum_cast<INT>(kc_p1), phylum_cast<unpattributes>(kc_p2)); |
| case sel_UnpSubAttr: |
| return UnpSubAttr(phylum_cast<ID>(kc_p1), phylum_cast<unpattributes>(kc_p2)); |
| case sel_UnpDollarvarTerm: |
| return UnpDollarvarTerm(phylum_cast<INT>(kc_p1)); |
| case sel_UnpSubTerm: |
| return UnpSubTerm(phylum_cast<ID>(kc_p1)); |
| case sel_UViewVarDecl: |
| return UViewVarDecl(phylum_cast<ID>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<Cexpression>(kc_p3)); |
| case sel_UnpBody: |
| return UnpBody(phylum_cast<languageoption>(kc_p1), phylum_cast<unparseitems>(kc_p2)); |
| case sel_UnpCtext: |
| return UnpCtext(phylum_cast<languageoption>(kc_p1), phylum_cast<Ctext>(kc_p2)); |
| case sel_UnpSubexpr: |
| return UnpSubexpr(phylum_cast<languageoption>(kc_p1), phylum_cast<unpsubterm>(kc_p2), phylum_cast<viewnameoption>(kc_p3)); |
| case sel_UnpStr: |
| return UnpStr(phylum_cast<languageoption>(kc_p1), phylum_cast<CexpressionDQ>(kc_p2), phylum_cast<viewnameoption>(kc_p3)); |
| case sel_Consunparseitems: |
| return Consunparseitems(phylum_cast<unparseitem>(kc_p1), phylum_cast<unparseitems>(kc_p2)); |
| case sel_Nilunparseitems: |
| return Nilunparseitems(); |
| case sel_Consviewnames: |
| return Consviewnames(phylum_cast<ID>(kc_p1), phylum_cast<viewnames>(kc_p2)); |
| case sel_Nilviewnames: |
| return Nilviewnames(); |
| case sel_UnparseClause: |
| return UnparseClause(phylum_cast<viewnames>(kc_p1), phylum_cast<unparseitems>(kc_p2)); |
| case sel_Consunparseclauses: |
| return Consunparseclauses(phylum_cast<unparseclause>(kc_p1), phylum_cast<unparseclauses>(kc_p2)); |
| case sel_Nilunparseclauses: |
| return Nilunparseclauses(); |
| case sel_UnparseDeclaration: |
| return UnparseDeclaration(phylum_cast<outmostpatterns>(kc_p1), phylum_cast<unparseclauses>(kc_p2)); |
| case sel_Consunparsedeclarations: |
| return Consunparsedeclarations(phylum_cast<unparsedeclaration>(kc_p1), phylum_cast<unparsedeclarations>(kc_p2)); |
| case sel_Nilunparsedeclarations: |
| return Nilunparsedeclarations(); |
| case sel_Withcase: |
| return Withcase(phylum_cast<patternchains>(kc_p1), phylum_cast<Ctext>(kc_p2)); |
| case sel_Conswithcases: |
| return Conswithcases(phylum_cast<withcase>(kc_p1), phylum_cast<withcases>(kc_p2)); |
| case sel_Nilwithcases: |
| return Nilwithcases(); |
| case sel_WECexpression: |
| return WECexpression(phylum_cast<Cexpression>(kc_p1)); |
| case sel_WEVariable: |
| return WEVariable(phylum_cast<ID>(kc_p1)); |
| case sel_Conswithexpressions: |
| return Conswithexpressions(phylum_cast<withexpression>(kc_p1), phylum_cast<withexpressions>(kc_p2)); |
| case sel_Nilwithexpressions: |
| return Nilwithexpressions(); |
| case sel_NotInForeachContext: |
| return NotInForeachContext(); |
| case sel_InForeachContext: |
| return InForeachContext(phylum_cast<patternchain>(kc_p1)); |
| case sel_ForeachAfter: |
| return ForeachAfter(phylum_cast<patternchain>(kc_p1), phylum_cast<idCexpressions>(kc_p2), phylum_cast<withexpressions>(kc_p3), phylum_cast<Ctext>(kc_p4)); |
| case sel_NoForeachAfter: |
| return NoForeachAfter(); |
| case sel_CTextWithexpression: |
| return CTextWithexpression(phylum_cast<withexpressions>(kc_p1), phylum_cast<withcases>(kc_p2), phylum_cast<contextinfo>(kc_p3)); |
| case sel_CTextForeachexpression: |
| return CTextForeachexpression(phylum_cast<patternchain>(kc_p1), phylum_cast<idCexpressions>(kc_p2), phylum_cast<withexpressions>(kc_p3), phylum_cast<Ctext>(kc_p4), phylum_cast<foreach_after>(kc_p5)); |
| case sel_CTextCbody: |
| return CTextCbody(phylum_cast<Ctext>(kc_p1)); |
| case sel_CTextCexpressionSQ: |
| return CTextCexpressionSQ(phylum_cast<CexpressionSQ>(kc_p1)); |
| case sel_CTextCexpressionDQ: |
| return CTextCexpressionDQ(phylum_cast<CexpressionDQ>(kc_p1)); |
| case sel_CTextNl: |
| return CTextNl(phylum_cast<integer>(kc_p1)); |
| case sel_CTextDollarVar: |
| return CTextDollarVar(phylum_cast<INT>(kc_p1)); |
| case sel_CTextLine: |
| return CTextLine(phylum_cast<casestring>(kc_p1)); |
| case sel_ConsCtext: |
| return ConsCtext(phylum_cast<Ctext_elem>(kc_p1), phylum_cast<Ctext>(kc_p2)); |
| case sel_NilCtext: |
| return NilCtext(); |
| case sel_ConvOperatorFn: |
| return ConvOperatorFn(); |
| case sel_DestructorFn: |
| return DestructorFn(); |
| case sel_ConstructorFn: |
| return ConstructorFn(); |
| case sel_MemberFn: |
| return MemberFn(); |
| case sel_StaticFn: |
| return StaticFn(phylum_cast<casestring>(kc_p1)); |
| case sel_GlobalFn: |
| return GlobalFn(); |
| case sel_AcMemberDeclaration: |
| return AcMemberDeclaration(phylum_cast<ac_declaration_specifiers>(kc_p1), phylum_cast<ac_declarator>(kc_p2), phylum_cast<ac_constant_expression_option>(kc_p3), phylum_cast<fnclass>(kc_p4)); |
| case sel_FnAcDeclaration: |
| return FnAcDeclaration(phylum_cast<ac_declaration_specifiers>(kc_p1), phylum_cast<ac_declarator>(kc_p2), phylum_cast<ac_declaration_list>(kc_p3), phylum_cast<ac_opt_base_init_list>(kc_p4), phylum_cast<Ctext>(kc_p5), phylum_cast<ID>(kc_p6), phylum_cast<fnclass>(kc_p7)); |
| case sel_Consfndeclarations: |
| return Consfndeclarations(phylum_cast<fndeclaration>(kc_p1), phylum_cast<fndeclarations>(kc_p2)); |
| case sel_Nilfndeclarations: |
| return Nilfndeclarations(); |
| case sel_FnFile: |
| return FnFile(phylum_cast<casestring>(kc_p1)); |
| case sel_Consfnfiles: |
| return Consfnfiles(phylum_cast<fnfile>(kc_p1), phylum_cast<fnfiles>(kc_p2)); |
| case sel_Nilfnfiles: |
| return Nilfnfiles(); |
| case sel_Consterms: |
| return Consterms(phylum_cast<term>(kc_p1), phylum_cast<terms>(kc_p2)); |
| case sel_Nilterms: |
| return Nilterms(); |
| case sel_TIntLiteral: |
| return TIntLiteral(phylum_cast<INT>(kc_p1)); |
| case sel_TStringLiteral: |
| return TStringLiteral(phylum_cast<CexpressionDQ>(kc_p1)); |
| case sel_TCTerm: |
| return TCTerm(phylum_cast<CexpressionSQ>(kc_p1)); |
| case sel_TMemberVarDot: |
| return TMemberVarDot(phylum_cast<term>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_TMemberVar: |
| return TMemberVar(phylum_cast<term>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_TMethodDot: |
| return TMethodDot(phylum_cast<term>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<terms>(kc_p3)); |
| case sel_TMethod: |
| return TMethod(phylum_cast<term>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<terms>(kc_p3)); |
| case sel_TOperator: |
| return TOperator(phylum_cast<ID>(kc_p1), phylum_cast<terms>(kc_p2)); |
| case sel_TVariable: |
| return TVariable(phylum_cast<ID>(kc_p1)); |
| case sel_Conspatterns: |
| return Conspatterns(phylum_cast<pattern>(kc_p1), phylum_cast<patterns>(kc_p2)); |
| case sel_Nilpatterns: |
| return Nilpatterns(); |
| case sel_PIntLiteral: |
| return PIntLiteral(phylum_cast<INT>(kc_p1)); |
| case sel_PStringLiteral: |
| return PStringLiteral(phylum_cast<CexpressionDQ>(kc_p1)); |
| case sel_PWildcard: |
| return PWildcard(); |
| case sel_PNonLeafVariable: |
| return PNonLeafVariable(phylum_cast<ID>(kc_p1), phylum_cast<pattern>(kc_p2)); |
| case sel_POperator: |
| return POperator(phylum_cast<ID>(kc_p1), phylum_cast<patterns>(kc_p2)); |
| case sel_PVariable: |
| return PVariable(phylum_cast<ID>(kc_p1)); |
| case sel_OPDefault: |
| return OPDefault(phylum_cast<Cexpression>(kc_p1)); |
| case sel_OPWildcard: |
| return OPWildcard(phylum_cast<Cexpression>(kc_p1)); |
| case sel_OPNonLeafVariable: |
| return OPNonLeafVariable(phylum_cast<ID>(kc_p1), phylum_cast<outmostpattern>(kc_p2)); |
| case sel_OPOperator: |
| return OPOperator(phylum_cast<ID>(kc_p1), phylum_cast<patterns>(kc_p2), phylum_cast<Cexpression>(kc_p3)); |
| case sel_OPOperatorWildcard: |
| return OPOperatorWildcard(phylum_cast<ID>(kc_p1), phylum_cast<Cexpression>(kc_p2)); |
| case sel_PatternchainitemDollarid: |
| return PatternchainitemDollarid(phylum_cast<ID>(kc_p1)); |
| case sel_PatternchainitemGroup: |
| return PatternchainitemGroup(phylum_cast<patternchains>(kc_p1)); |
| case sel_PatternchainitemOutmost: |
| return PatternchainitemOutmost(phylum_cast<outmostpattern>(kc_p1)); |
| case sel_Consoutmostpatterns: |
| return Consoutmostpatterns(phylum_cast<outmostpattern>(kc_p1), phylum_cast<outmostpatterns>(kc_p2)); |
| case sel_Niloutmostpatterns: |
| return Niloutmostpatterns(); |
| case sel_Conspatternchain: |
| return Conspatternchain(phylum_cast<patternchainitem>(kc_p1), phylum_cast<patternchain>(kc_p2)); |
| case sel_Nilpatternchain: |
| return Nilpatternchain(); |
| case sel_Conspatternchains: |
| return Conspatternchains(phylum_cast<patternchain>(kc_p1), phylum_cast<patternchains>(kc_p2)); |
| case sel_Nilpatternchains: |
| return Nilpatternchains(); |
| case sel_RewriteClause: |
| return RewriteClause(phylum_cast<viewnames>(kc_p1), phylum_cast<term>(kc_p2)); |
| case sel_Consrewriteclauses: |
| return Consrewriteclauses(phylum_cast<rewriteclause>(kc_p1), phylum_cast<rewriteclauses>(kc_p2)); |
| case sel_Nilrewriteclauses: |
| return Nilrewriteclauses(); |
| case sel_RwDeclaration: |
| return RwDeclaration(phylum_cast<outmostpatterns>(kc_p1), phylum_cast<rewriteclauses>(kc_p2)); |
| case sel_Consrwdeclarations: |
| return Consrwdeclarations(phylum_cast<rwdeclaration>(kc_p1), phylum_cast<rwdeclarations>(kc_p2)); |
| case sel_Nilrwdeclarations: |
| return Nilrwdeclarations(); |
| case sel_IncludeDeclaration: |
| return IncludeDeclaration(phylum_cast<casestring>(kc_p1)); |
| case sel_Consincludedeclarations: |
| return Consincludedeclarations(phylum_cast<includedeclaration>(kc_p1), phylum_cast<includedeclarations>(kc_p2)); |
| case sel_Nilincludedeclarations: |
| return Nilincludedeclarations(); |
| case sel_IncludeFile: |
| return IncludeFile(phylum_cast<casestring>(kc_p1)); |
| case sel_Consincludefiles: |
| return Consincludefiles(phylum_cast<includefile>(kc_p1), phylum_cast<includefiles>(kc_p2)); |
| case sel_Nilincludefiles: |
| return Nilincludefiles(); |
| case sel_ConsCtexts: |
| return ConsCtexts(phylum_cast<Ctext>(kc_p1), phylum_cast<Ctexts>(kc_p2)); |
| case sel_NilCtexts: |
| return NilCtexts(); |
| case sel_IdCexpression: |
| return IdCexpression(phylum_cast<ID>(kc_p1), phylum_cast<Cexpression>(kc_p2)); |
| case sel_ConsidCexpressions: |
| return ConsidCexpressions(phylum_cast<idCexpression>(kc_p1), phylum_cast<idCexpressions>(kc_p2)); |
| case sel_NilidCexpressions: |
| return NilidCexpressions(); |
| case sel_CExpressionSQNl: |
| return CExpressionSQNl(); |
| case sel_CExpressionSQPart: |
| return CExpressionSQPart(phylum_cast<casestring>(kc_p1)); |
| case sel_ConsCexpressionSQ: |
| return ConsCexpressionSQ(phylum_cast<CexpressionSQ_elem>(kc_p1), phylum_cast<CexpressionSQ>(kc_p2)); |
| case sel_NilCexpressionSQ: |
| return NilCexpressionSQ(); |
| case sel_CExpressionDQNl: |
| return CExpressionDQNl(); |
| case sel_CExpressionDQPart: |
| return CExpressionDQPart(phylum_cast<casestring>(kc_p1)); |
| case sel_ConsCexpressionDQ: |
| return ConsCexpressionDQ(phylum_cast<CexpressionDQ_elem>(kc_p1), phylum_cast<CexpressionDQ>(kc_p2)); |
| case sel_NilCexpressionDQ: |
| return NilCexpressionDQ(); |
| case sel_CExpressionArray: |
| return CExpressionArray(phylum_cast<Cexpression>(kc_p1)); |
| case sel_CExpressionPack: |
| return CExpressionPack(phylum_cast<Cexpression>(kc_p1)); |
| case sel_CExpressionSQ: |
| return CExpressionSQ(phylum_cast<CexpressionSQ>(kc_p1)); |
| case sel_CExpressionDQ: |
| return CExpressionDQ(phylum_cast<CexpressionDQ>(kc_p1)); |
| case sel_CExpressionNl: |
| return CExpressionNl(); |
| case sel_CExpressionDollarvar: |
| return CExpressionDollarvar(phylum_cast<INT>(kc_p1)); |
| case sel_CExpressionPart: |
| return CExpressionPart(phylum_cast<casestring>(kc_p1)); |
| case sel_ConsCexpression: |
| return ConsCexpression(phylum_cast<Cexpression_elem>(kc_p1), phylum_cast<Cexpression>(kc_p2)); |
| case sel_NilCexpression: |
| return NilCexpression(); |
| case sel_Yesattribute_initialisation: |
| return Yesattribute_initialisation(phylum_cast<Cexpression>(kc_p1)); |
| case sel_Noattribute_initialisation: |
| return Noattribute_initialisation(); |
| case sel_Attribute: |
| return Attribute(phylum_cast<ID>(kc_p1), phylum_cast<ID>(kc_p2), phylum_cast<attribute_initialisation_option>(kc_p3)); |
| case sel_Consattributes: |
| return Consattributes(phylum_cast<attribute>(kc_p1), phylum_cast<attributes>(kc_p2)); |
| case sel_Nilattributes: |
| return Nilattributes(); |
| case sel_CcodeOption: |
| return CcodeOption(phylum_cast<attributes>(kc_p1), phylum_cast<Ctexts>(kc_p2)); |
| case sel_Argument: |
| return Argument(phylum_cast<ID>(kc_p1), phylum_cast<integer>(kc_p2)); |
| case sel_Consarguments: |
| return Consarguments(phylum_cast<ID>(kc_p1), phylum_cast<arguments>(kc_p2)); |
| case sel_Nilarguments: |
| return Nilarguments(); |
| case sel_Alternative: |
| return Alternative(phylum_cast<ID>(kc_p1), phylum_cast<arguments>(kc_p2)); |
| case sel_Consalternatives: |
| return Consalternatives(phylum_cast<alternative>(kc_p1), phylum_cast<alternatives>(kc_p2)); |
| case sel_Nilalternatives: |
| return Nilalternatives(); |
| case sel_PredefinedAlternatives: |
| return PredefinedAlternatives(phylum_cast<alternatives>(kc_p1)); |
| case sel_NonlistAlternatives: |
| return NonlistAlternatives(phylum_cast<alternatives>(kc_p1)); |
| case sel_ListAlternatives: |
| return ListAlternatives(phylum_cast<alternatives>(kc_p1), phylum_cast<ID>(kc_p2)); |
| case sel_Emptyproductionblock: |
| return Emptyproductionblock(); |
| case sel_Consstorageclasses: |
| return Consstorageclasses(phylum_cast<ID>(kc_p1), phylum_cast<storageclasses>(kc_p2)); |
| case sel_Nilstorageclasses: |
| return Nilstorageclasses(); |
| case sel_PositiveStorageOption: |
| return PositiveStorageOption(phylum_cast<ID>(kc_p1)); |
| case sel_NegativeStorageOption: |
| return NegativeStorageOption(phylum_cast<ID>(kc_p1)); |
| case sel_NoStorageOption: |
| return NoStorageOption(); |
| case sel_PhylumDeclaration: |
| return PhylumDeclaration(phylum_cast<ID>(kc_p1), phylum_cast<storageoption>(kc_p2), phylum_cast<productionblock>(kc_p3), phylum_cast<Ccode_option>(kc_p4)); |
| case sel_Consphylumnames: |
| return Consphylumnames(phylum_cast<ID>(kc_p1), phylum_cast<phylumnames>(kc_p2)); |
| case sel_Nilphylumnames: |
| return Nilphylumnames(); |
| case sel_Consphylumdeclarations: |
| return Consphylumdeclarations(phylum_cast<phylumdeclaration>(kc_p1), phylum_cast<phylumdeclarations>(kc_p2)); |
| case sel_Nilphylumdeclarations: |
| return Nilphylumdeclarations(); |
| case sel_PhylumDeclarations: |
| return PhylumDeclarations(phylum_cast<phylumdeclarations>(kc_p1)); |
| case sel_String: |
| return String(phylum_cast<casestring>(kc_p1)); |
| case sel_Int: |
| return Int(phylum_cast<integer>(kc_p1)); |
| case sel_Id: |
| return Id(phylum_cast<uniqID>(kc_p1)); |
| case sel_Str: |
| return Str(phylum_cast<casestring>(kc_p1)); |
| default: |
| assertionFailed("Cannot create this kind of phylum - unkown operator id"); |
| } |
| NORETURN |
| } |
| |
| abstract_phylum& |
| attributeOf(abstract_phylum kc_p, int no) |
| { |
| assertionFailed("Cannot select attribute for this kind of phylum - has no attributes"); |
| NORETURN |
| } |
| |
| abstract_phylum |
| impl_abstract_phylum::subphylum(int) const |
| { |
| return 0; |
| } |
| |
| void |
| impl_abstract_phylum::set_subphylum(int,abstract_phylum) |
| { |
| } |
| |
| void |
| impl_abstract_phylum::free(bool kc_rec) |
| { |
| KC_COLLECT_STATS0(KC_FREE_CALLED_STATS(prod_sel(), kc_rec)); |
| if (!phylum_info[phylum()].uniq_stored) { |
| if (kc_rec) { |
| abstract_phylum son; |
| for (int kc_i=0; (son = subphylum(kc_i)); kc_i++) |
| { |
| if (son!=0) son->free(kc_rec); |
| son=0; |
| } |
| } |
| KC_COLLECT_STATS0(KC_FREED_STATS(prod_sel(), kc_rec)); |
| delete this; |
| } |
| } |
| |
| bool |
| impl_abstract_phylum::eq(c_abstract_phylum kc_p2) const |
| { |
| if (this == kc_p2) |
| return true; |
| if (prod_sel() != kc_p2->prod_sel()) |
| return false; |
| |
| int kc_st = phylum_info[phylum()].uniq_stored; |
| if (kc_st && kc_storageclass_still_uniq[kc_st]) |
| return false; |
| |
| c_abstract_phylum son1; |
| for (int kc_i=0; (son1 = subphylum(kc_i)); kc_i++) { |
| if (!son1->eq(kc_p2->subphylum(kc_i))) |
| return false; |
| } |
| |
| return true; |
| } |
| |
| static string kc_indentation = ""; |
| static const char *kc_printformat_not_nullary_open = "%s%s(\n"; |
| static const char *kc_printformat_list_open = "%s%s\n"; |
| |
| static const char *kc_printformat_not_nullary_close = "%s)\n"; |
| static const char *kc_printformat_nullary = "%s%s()\n"; |
| |
| void |
| impl_abstract_phylum::fprint(FILE*kc_f) |
| { |
| int kc_i; |
| |
| if (!kc_f) kc_f = stdout; |
| abstract_list al = dynamic_cast<abstract_list>(this); |
| if (al != 0 && !al->is_nil()) { |
| fprintf(kc_f, kc_printformat_list_open, kc_indentation.c_str(), op_name()); |
| kc_indentation+="| "; |
| subphylum(0)->fprint(kc_f); |
| kc_indentation=kc_indentation.substr(0, kc_indentation.length()-2); |
| phylum_cast<abstract_list>(subphylum(1))->fprint_list(kc_f); |
| kc_indentation=kc_indentation.substr(0, kc_indentation.length()-2); |
| } else // not list |
| switch(phylum()) { |
| case phylum_voidptr: |
| fprintf(kc_f, "%s%p\n", kc_indentation.c_str(), static_cast<voidptr>(this)->pointer); |
| break; |
| case phylum_casestring: |
| case phylum_nocasestring: |
| fprintf(kc_f, "%s%s\n", kc_indentation.c_str(), static_cast<casestring>(this)->name); |
| break; |
| case phylum_integer: |
| fprintf(kc_f, "%s%i\n", kc_indentation.c_str(), static_cast<integer>(this)->value); |
| break; |
| case phylum_real: |
| fprintf(kc_f, "%s%f\n", kc_indentation.c_str(), static_cast<real>(this)->value); |
| break; |
| default: |
| if (!subphylum(0)) { |
| fprintf(kc_f, kc_printformat_nullary, kc_indentation.c_str(), op_name()); |
| } else { |
| fprintf(kc_f, kc_printformat_not_nullary_open, kc_indentation.c_str(), op_name()); |
| kc_indentation+=" "; |
| abstract_phylum son; |
| for (kc_i=0; (son = subphylum(kc_i)); kc_i++) { |
| son->fprint(kc_f); |
| } |
| kc_indentation=kc_indentation.substr(0, kc_indentation.length()-2); |
| fprintf(kc_f, kc_printformat_not_nullary_close, kc_indentation.c_str()); |
| } |
| } |
| } |
| |
| void |
| impl_abstract_phylum::print() |
| { |
| fprint(stdout); |
| } |
| |
| void |
| impl_abstract_list::fprint_list(FILE*kc_f) |
| { |
| if (!kc_f) |
| kc_f = stdout; |
| if (this->is_nil()) { |
| kc_indentation+="`-"; |
| fprintf(kc_f, kc_printformat_nullary, kc_indentation.c_str(), op_name()); |
| } else { |
| kc_indentation+="|-"; |
| fprintf(kc_f, kc_printformat_list_open, kc_indentation.c_str(), op_name()); |
| kc_indentation=kc_indentation.substr(0, kc_indentation.length()-2); |
| kc_indentation+="| "; |
| subphylum(0)->fprint(kc_f); |
| kc_indentation=kc_indentation.substr(0, kc_indentation.length()-2); |
| phylum_cast<abstract_list>(subphylum(1))->fprint_list(kc_f); |
| } |
| } |
| |
| int |
| impl_abstract_list::length() const |
| { |
| int kc_length = 0; |
| c_abstract_phylum kc_p = this; |
| while((kc_p = kc_p->subphylum(1))) |
| kc_length++; |
| return kc_length; |
| } |
| void impl_abstract_list::freelist() |
| { |
| abstract_phylum kc_p = this, kc_tmp_p; |
| do { |
| kc_tmp_p=kc_p->subphylum(1); |
| kc_p->free(false); |
| kc_p=kc_tmp_p; |
| } while(kc_p); |
| } |
| abstract_phylum |
| impl_abstract_list::do_concat(c_abstract_phylum kc_p2, enum_operators mk) const |
| { |
| abstract_phylum next = subphylum(1); |
| if(!next) |
| return const_cast<abstract_phylum>(kc_p2); |
| return kc_create(mk, subphylum(0), static_cast<abstract_list>(next)->do_concat(kc_p2, mk)); |
| } |
| |
| abstract_phylum |
| impl_abstract_list::do_reverse(c_abstract_phylum tail, enum_operators mk) const |
| { |
| for (impl_abstract_list const* iterator_ = this; iterator_->subphylum(1) != 0; |
| iterator_ = static_cast<impl_abstract_list const*>(iterator_->subphylum(1)) ) |
| tail = kc_create(mk, iterator_->subphylum(0), const_cast<abstract_phylum>(tail)); |
| return const_cast<abstract_phylum>(tail); |
| } |
| |
| abstract_phylum |
| impl_abstract_list::last() const |
| { |
| c_abstract_phylum kc_p = this, next = subphylum(1), nextnext; |
| #ifdef _AFX |
| ASSERT(next); |
| if(!next) |
| return NULL; |
| #else |
| if(!next){ |
| fflush(stdout); |
| fprintf(stderr, "Internal Error: list::last was called with argument Nil%s\n", phylum_name()); |
| exit(1); |
| } |
| #endif |
| while ((nextnext = next->subphylum(1))) { |
| kc_p = next; |
| next = nextnext; |
| } |
| return const_cast<abstract_phylum>(kc_p->subphylum(0));/* XXX remove cast */ |
| } |
| |
| abstract_phylum |
| impl_abstract_list::do_map(abstract_phylum (*kc_fp)(abstract_phylum), enum_operators mk) |
| { |
| abstract_phylum el = subphylum(0); |
| if (!el) |
| return this; |
| abstract_list next = static_cast<abstract_list>(subphylum(1)); |
| return kc_create(mk, kc_fp(el), next->do_map(kc_fp, mk)); |
| } |
| |
| abstract_phylum |
| impl_abstract_list::do_filter(bool (*kc_fp)(abstract_phylum), enum_operators mk) |
| { |
| abstract_phylum el = subphylum(0); |
| if (!el) |
| return this; |
| abstract_list next = static_cast<abstract_list>(subphylum(1)); |
| if ((*kc_fp)(el)) { |
| return kc_create(mk, el, next->do_filter(kc_fp, mk)); |
| } else { |
| return next->do_filter(kc_fp, mk); |
| } |
| } |
| |
| abstract_list |
| impl_abstract_list::do_append(abstract_phylum new_last, abstract_list eol) |
| { |
| abstract_list next = this; |
| while (!next->is_nil()) |
| next = phylum_cast<abstract_list>(next->subphylum(1)); |
| next->set_subphylum(0, new_last); |
| next->set_subphylum(1, eol); |
| return next; |
| } |
| |
| abstract_phylum |
| impl_abstract_list::do_merge(abstract_list second,abstract_phylum(*kc_fp)(abstract_phylum,abstract_phylum), enum_operators mk) |
| { |
| abstract_phylum el = subphylum(0); |
| if (!el) |
| return this; |
| abstract_phylum el2 = second->subphylum(0); |
| if (!el2) |
| return el2; |
| abstract_list next = static_cast<abstract_list>(subphylum(1)); |
| abstract_list next2 = static_cast<abstract_list>(second->subphylum(1)); |
| return kc_create(mk, kc_fp(el,el2), next->do_merge(next2, kc_fp, mk)); |
| } |
| |
| abstract_phylum |
| impl_abstract_list::do_reduce(abstract_phylum neutral, abstract_phylum(*kc_fp)(abstract_phylum,abstract_phylum)) { |
| abstract_phylum el = subphylum(0); |
| if (!el) |
| return neutral; |
| abstract_list next = static_cast<abstract_list>(subphylum(1)); |
| return kc_fp(el,next->do_reduce(neutral,kc_fp)); |
| } |
| |
| |
| extern const char* kc_storageclassnames[]; |
| |
| #ifdef KC_STATISTICS |
| void do_print_operator_statistics(FILE * kc_f) |
| { |
| unsigned int kc_i; |
| assertNonNull( kc_f ); |
| fprintf(kc_f, "%-*s| %-*s| %-*s| %-*s| %-*s| %-*s| %-*s| %-*s| %-*s| %-*s\n", 38 , "Operator", 3, "Sz", 8, "#oper", 8, "#new", 8, "#exist", 8, "#frnrec", 8, "#frrec", 8, "#freed", 8, "#rem", 9, "total (bytes)"); |
| fprintf(kc_f, "%-*s|%*s |%*d |%*d |%*d |%*d |%*d |%*d |%*d |%*d\n", 38, "case sensitive strings", 3, "-", 8, operator_statistics[sel__Str].created, 8, operator_statistics[sel__Str].existing_not_found, 8, operator_statistics[sel__Str].created-operator_statistics[sel__Str].existing_not_found, 8, 0, 8, 0, 8, 0, 8, 0, 9, kc_casestring_strlen); |
| fprintf(kc_f, "%-*s|%*s |%*d |%*d |%*d |%*d |%*d |%*d |%*d |%*d\n", 38, "case insensitive strings", 3, "-", 8, operator_statistics[sel_NoCaseStr].created, 8, operator_statistics[sel_NoCaseStr].existing_not_found, 8, operator_statistics[sel_NoCaseStr].created-operator_statistics[sel_NoCaseStr].existing_not_found, 8, 0, 8, 0, 8, 0, 8, 0, 9, kc_nocasestring_strlen); |
| for (kc_i = one_before_first_operator+1; kc_i < last_operator; kc_i++) { |
| fprintf(kc_f, "%-*s|%*d |%*d |%*d |%*d |%*d |%*d |%*d |%*d |%*d\n", 38, operator_info[kc_i].name, 3, operator_info[kc_i].size, 8, operator_statistics[kc_i].created, 8, operator_statistics[kc_i].existing_not_found, 8, operator_statistics[kc_i].created-operator_statistics[kc_i].existing_not_found, 8, operator_statistics[kc_i].free_called[false], 8, operator_statistics[kc_i].free_called[true], 8, operator_statistics[kc_i].freed[false]+operator_statistics[kc_i].freed[true], 8, operator_statistics[kc_i].existing_not_found-(operator_statistics[kc_i].freed[false]+operator_statistics[kc_i].freed[true]), 9, operator_info[kc_i].size*(operator_statistics[kc_i].existing_not_found-(operator_statistics[kc_i].freed[false]+operator_statistics[kc_i].freed[true]))); |
| } |
| } |
| #endif // KC_STATISTICS |
| |
| const char* |
| phylumname_or_error(enum_phyla kc_phy) |
| { |
| if ((kc_phy <= one_before_first_phylum) || (kc_phy >= last_phylum)) { |
| char *kc_strof_error; |
| sprintf((kc_strof_error=new char[69]), "Internal Error: unknown phylum number: %d", kc_phy); |
| return kc_strof_error; |
| } else { |
| return phylum_info[kc_phy].name; |
| } } |
| |
| |
| const char* |
| kc_operatorname_or_error(enum_operators kc_operator) |
| { |
| if ((kc_operator <= one_before_first_operator) || (kc_operator >= last_operator)) { |
| char *kc_strof_error; |
| sprintf((kc_strof_error=new char[71]), "Internal Error: unknown operator number: %d", kc_operator); |
| return kc_strof_error; |
| } else { |
| return operator_info[kc_operator].name; |
| } } |
| |
| phylumdeclarations |
| concat(c_phylumdeclarations kc_p1, c_phylumdeclarations kc_p2) |
| { return dynamic_cast<phylumdeclarations>(kc_p1->do_concat(kc_p2, sel_Consphylumdeclarations)); } |
| |
| phylumdeclarations |
| impl_phylumdeclarations::reverse() const |
| { return dynamic_cast<phylumdeclarations>(do_reverse(Nilphylumdeclarations(), sel_Consphylumdeclarations)); } |
| |
| phylumdeclaration |
| impl_phylumdeclarations::last() const |
| { return dynamic_cast<phylumdeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_phylumdeclarations::is_nil() const |
| { |
| return phylumdeclaration_1==0 && phylumdeclarations_1==0; |
| } |
| |
| phylumdeclarations |
| impl_phylumdeclarations::map(phylumdeclaration (*kc_fp)(phylumdeclaration)) |
| { return dynamic_cast<phylumdeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consphylumdeclarations)); } |
| phylumdeclarations |
| impl_phylumdeclarations::filter(bool (*kc_fp)(phylumdeclaration)) |
| { return dynamic_cast<phylumdeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consphylumdeclarations)); } |
| |
| phylumdeclarations |
| impl_phylumdeclarations::append(phylumdeclaration new_last) |
| { |
| return dynamic_cast<phylumdeclarations>(do_append(new_last, Nilphylumdeclarations())); |
| } |
| phylumdeclarations |
| impl_phylumdeclarations::merge( phylumdeclarations second, phylumdeclaration (*kc_fp)(phylumdeclaration, phylumdeclaration)) |
| { |
| return dynamic_cast<phylumdeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consphylumdeclarations)); |
| } |
| phylumdeclaration |
| impl_phylumdeclarations::reduce( phylumdeclaration neutral, phylumdeclaration (*kc_fp)(phylumdeclaration, phylumdeclaration)) |
| { |
| return dynamic_cast<phylumdeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| phylumnames |
| concat(c_phylumnames kc_p1, c_phylumnames kc_p2) |
| { return dynamic_cast<phylumnames>(kc_p1->do_concat(kc_p2, sel_Consphylumnames)); } |
| |
| phylumnames |
| impl_phylumnames::reverse() const |
| { return dynamic_cast<phylumnames>(do_reverse(Nilphylumnames(), sel_Consphylumnames)); } |
| |
| ID |
| impl_phylumnames::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_phylumnames::is_nil() const |
| { |
| return ID_1==0 && phylumnames_1==0; |
| } |
| |
| phylumnames |
| impl_phylumnames::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<phylumnames>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consphylumnames)); } |
| phylumnames |
| impl_phylumnames::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<phylumnames>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consphylumnames)); } |
| |
| phylumnames |
| impl_phylumnames::append(ID new_last) |
| { |
| return dynamic_cast<phylumnames>(do_append(new_last, Nilphylumnames())); |
| } |
| phylumnames |
| impl_phylumnames::merge( phylumnames second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<phylumnames>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consphylumnames)); |
| } |
| ID |
| impl_phylumnames::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| storageclasses |
| concat(c_storageclasses kc_p1, c_storageclasses kc_p2) |
| { return dynamic_cast<storageclasses>(kc_p1->do_concat(kc_p2, sel_Consstorageclasses)); } |
| |
| storageclasses |
| impl_storageclasses::reverse() const |
| { return dynamic_cast<storageclasses>(do_reverse(Nilstorageclasses(), sel_Consstorageclasses)); } |
| |
| ID |
| impl_storageclasses::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_storageclasses::is_nil() const |
| { |
| return ID_1==0 && storageclasses_1==0; |
| } |
| |
| storageclasses |
| impl_storageclasses::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<storageclasses>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consstorageclasses)); } |
| storageclasses |
| impl_storageclasses::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<storageclasses>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consstorageclasses)); } |
| |
| storageclasses |
| impl_storageclasses::append(ID new_last) |
| { |
| return dynamic_cast<storageclasses>(do_append(new_last, Nilstorageclasses())); |
| } |
| storageclasses |
| impl_storageclasses::merge( storageclasses second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<storageclasses>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consstorageclasses)); |
| } |
| ID |
| impl_storageclasses::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| alternatives |
| concat(c_alternatives kc_p1, c_alternatives kc_p2) |
| { return dynamic_cast<alternatives>(kc_p1->do_concat(kc_p2, sel_Consalternatives)); } |
| |
| alternatives |
| impl_alternatives::reverse() const |
| { return dynamic_cast<alternatives>(do_reverse(Nilalternatives(), sel_Consalternatives)); } |
| |
| alternative |
| impl_alternatives::last() const |
| { return dynamic_cast<alternative>(impl_abstract_list::last()); } |
| |
| bool |
| impl_alternatives::is_nil() const |
| { |
| return alternative_1==0 && alternatives_1==0; |
| } |
| |
| alternatives |
| impl_alternatives::map(alternative (*kc_fp)(alternative)) |
| { return dynamic_cast<alternatives>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consalternatives)); } |
| alternatives |
| impl_alternatives::filter(bool (*kc_fp)(alternative)) |
| { return dynamic_cast<alternatives>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consalternatives)); } |
| |
| alternatives |
| impl_alternatives::append(alternative new_last) |
| { |
| return dynamic_cast<alternatives>(do_append(new_last, Nilalternatives())); |
| } |
| alternatives |
| impl_alternatives::merge( alternatives second, alternative (*kc_fp)(alternative, alternative)) |
| { |
| return dynamic_cast<alternatives>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consalternatives)); |
| } |
| alternative |
| impl_alternatives::reduce( alternative neutral, alternative (*kc_fp)(alternative, alternative)) |
| { |
| return dynamic_cast<alternative>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| arguments |
| concat(c_arguments kc_p1, c_arguments kc_p2) |
| { return dynamic_cast<arguments>(kc_p1->do_concat(kc_p2, sel_Consarguments)); } |
| |
| arguments |
| impl_arguments::reverse() const |
| { return dynamic_cast<arguments>(do_reverse(Nilarguments(), sel_Consarguments)); } |
| |
| ID |
| impl_arguments::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_arguments::is_nil() const |
| { |
| return ID_1==0 && arguments_1==0; |
| } |
| |
| arguments |
| impl_arguments::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<arguments>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consarguments)); } |
| arguments |
| impl_arguments::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<arguments>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consarguments)); } |
| |
| arguments |
| impl_arguments::append(ID new_last) |
| { |
| return dynamic_cast<arguments>(do_append(new_last, Nilarguments())); |
| } |
| arguments |
| impl_arguments::merge( arguments second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<arguments>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consarguments)); |
| } |
| ID |
| impl_arguments::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| attributes |
| concat(c_attributes kc_p1, c_attributes kc_p2) |
| { return dynamic_cast<attributes>(kc_p1->do_concat(kc_p2, sel_Consattributes)); } |
| |
| attributes |
| impl_attributes::reverse() const |
| { return dynamic_cast<attributes>(do_reverse(Nilattributes(), sel_Consattributes)); } |
| |
| attribute |
| impl_attributes::last() const |
| { return dynamic_cast<attribute>(impl_abstract_list::last()); } |
| |
| bool |
| impl_attributes::is_nil() const |
| { |
| return attribute_1==0 && attributes_1==0; |
| } |
| |
| attributes |
| impl_attributes::map(attribute (*kc_fp)(attribute)) |
| { return dynamic_cast<attributes>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consattributes)); } |
| attributes |
| impl_attributes::filter(bool (*kc_fp)(attribute)) |
| { return dynamic_cast<attributes>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consattributes)); } |
| |
| attributes |
| impl_attributes::append(attribute new_last) |
| { |
| return dynamic_cast<attributes>(do_append(new_last, Nilattributes())); |
| } |
| attributes |
| impl_attributes::merge( attributes second, attribute (*kc_fp)(attribute, attribute)) |
| { |
| return dynamic_cast<attributes>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consattributes)); |
| } |
| attribute |
| impl_attributes::reduce( attribute neutral, attribute (*kc_fp)(attribute, attribute)) |
| { |
| return dynamic_cast<attribute>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| Cexpression |
| concat(c_Cexpression kc_p1, c_Cexpression kc_p2) |
| { return dynamic_cast<Cexpression>(kc_p1->do_concat(kc_p2, sel_ConsCexpression)); } |
| |
| Cexpression |
| impl_Cexpression::reverse() const |
| { return dynamic_cast<Cexpression>(do_reverse(NilCexpression(), sel_ConsCexpression)); } |
| |
| Cexpression_elem |
| impl_Cexpression::last() const |
| { return dynamic_cast<Cexpression_elem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_Cexpression::is_nil() const |
| { |
| return Cexpression_elem_1==0 && Cexpression_1==0; |
| } |
| |
| Cexpression |
| impl_Cexpression::map(Cexpression_elem (*kc_fp)(Cexpression_elem)) |
| { return dynamic_cast<Cexpression>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsCexpression)); } |
| Cexpression |
| impl_Cexpression::filter(bool (*kc_fp)(Cexpression_elem)) |
| { return dynamic_cast<Cexpression>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsCexpression)); } |
| |
| Cexpression |
| impl_Cexpression::append(Cexpression_elem new_last) |
| { |
| return dynamic_cast<Cexpression>(do_append(new_last, NilCexpression())); |
| } |
| Cexpression |
| impl_Cexpression::merge( Cexpression second, Cexpression_elem (*kc_fp)(Cexpression_elem, Cexpression_elem)) |
| { |
| return dynamic_cast<Cexpression>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsCexpression)); |
| } |
| Cexpression_elem |
| impl_Cexpression::reduce( Cexpression_elem neutral, Cexpression_elem (*kc_fp)(Cexpression_elem, Cexpression_elem)) |
| { |
| return dynamic_cast<Cexpression_elem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| CexpressionDQ |
| concat(c_CexpressionDQ kc_p1, c_CexpressionDQ kc_p2) |
| { return dynamic_cast<CexpressionDQ>(kc_p1->do_concat(kc_p2, sel_ConsCexpressionDQ)); } |
| |
| CexpressionDQ |
| impl_CexpressionDQ::reverse() const |
| { return dynamic_cast<CexpressionDQ>(do_reverse(NilCexpressionDQ(), sel_ConsCexpressionDQ)); } |
| |
| CexpressionDQ_elem |
| impl_CexpressionDQ::last() const |
| { return dynamic_cast<CexpressionDQ_elem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_CexpressionDQ::is_nil() const |
| { |
| return CexpressionDQ_elem_1==0 && CexpressionDQ_1==0; |
| } |
| |
| CexpressionDQ |
| impl_CexpressionDQ::map(CexpressionDQ_elem (*kc_fp)(CexpressionDQ_elem)) |
| { return dynamic_cast<CexpressionDQ>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsCexpressionDQ)); } |
| CexpressionDQ |
| impl_CexpressionDQ::filter(bool (*kc_fp)(CexpressionDQ_elem)) |
| { return dynamic_cast<CexpressionDQ>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsCexpressionDQ)); } |
| |
| CexpressionDQ |
| impl_CexpressionDQ::append(CexpressionDQ_elem new_last) |
| { |
| return dynamic_cast<CexpressionDQ>(do_append(new_last, NilCexpressionDQ())); |
| } |
| CexpressionDQ |
| impl_CexpressionDQ::merge( CexpressionDQ second, CexpressionDQ_elem (*kc_fp)(CexpressionDQ_elem, CexpressionDQ_elem)) |
| { |
| return dynamic_cast<CexpressionDQ>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsCexpressionDQ)); |
| } |
| CexpressionDQ_elem |
| impl_CexpressionDQ::reduce( CexpressionDQ_elem neutral, CexpressionDQ_elem (*kc_fp)(CexpressionDQ_elem, CexpressionDQ_elem)) |
| { |
| return dynamic_cast<CexpressionDQ_elem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| CexpressionSQ |
| concat(c_CexpressionSQ kc_p1, c_CexpressionSQ kc_p2) |
| { return dynamic_cast<CexpressionSQ>(kc_p1->do_concat(kc_p2, sel_ConsCexpressionSQ)); } |
| |
| CexpressionSQ |
| impl_CexpressionSQ::reverse() const |
| { return dynamic_cast<CexpressionSQ>(do_reverse(NilCexpressionSQ(), sel_ConsCexpressionSQ)); } |
| |
| CexpressionSQ_elem |
| impl_CexpressionSQ::last() const |
| { return dynamic_cast<CexpressionSQ_elem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_CexpressionSQ::is_nil() const |
| { |
| return CexpressionSQ_elem_1==0 && CexpressionSQ_1==0; |
| } |
| |
| CexpressionSQ |
| impl_CexpressionSQ::map(CexpressionSQ_elem (*kc_fp)(CexpressionSQ_elem)) |
| { return dynamic_cast<CexpressionSQ>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsCexpressionSQ)); } |
| CexpressionSQ |
| impl_CexpressionSQ::filter(bool (*kc_fp)(CexpressionSQ_elem)) |
| { return dynamic_cast<CexpressionSQ>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsCexpressionSQ)); } |
| |
| CexpressionSQ |
| impl_CexpressionSQ::append(CexpressionSQ_elem new_last) |
| { |
| return dynamic_cast<CexpressionSQ>(do_append(new_last, NilCexpressionSQ())); |
| } |
| CexpressionSQ |
| impl_CexpressionSQ::merge( CexpressionSQ second, CexpressionSQ_elem (*kc_fp)(CexpressionSQ_elem, CexpressionSQ_elem)) |
| { |
| return dynamic_cast<CexpressionSQ>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsCexpressionSQ)); |
| } |
| CexpressionSQ_elem |
| impl_CexpressionSQ::reduce( CexpressionSQ_elem neutral, CexpressionSQ_elem (*kc_fp)(CexpressionSQ_elem, CexpressionSQ_elem)) |
| { |
| return dynamic_cast<CexpressionSQ_elem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| idCexpressions |
| concat(c_idCexpressions kc_p1, c_idCexpressions kc_p2) |
| { return dynamic_cast<idCexpressions>(kc_p1->do_concat(kc_p2, sel_ConsidCexpressions)); } |
| |
| idCexpressions |
| impl_idCexpressions::reverse() const |
| { return dynamic_cast<idCexpressions>(do_reverse(NilidCexpressions(), sel_ConsidCexpressions)); } |
| |
| idCexpression |
| impl_idCexpressions::last() const |
| { return dynamic_cast<idCexpression>(impl_abstract_list::last()); } |
| |
| bool |
| impl_idCexpressions::is_nil() const |
| { |
| return idCexpression_1==0 && idCexpressions_1==0; |
| } |
| |
| idCexpressions |
| impl_idCexpressions::map(idCexpression (*kc_fp)(idCexpression)) |
| { return dynamic_cast<idCexpressions>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsidCexpressions)); } |
| idCexpressions |
| impl_idCexpressions::filter(bool (*kc_fp)(idCexpression)) |
| { return dynamic_cast<idCexpressions>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsidCexpressions)); } |
| |
| idCexpressions |
| impl_idCexpressions::append(idCexpression new_last) |
| { |
| return dynamic_cast<idCexpressions>(do_append(new_last, NilidCexpressions())); |
| } |
| idCexpressions |
| impl_idCexpressions::merge( idCexpressions second, idCexpression (*kc_fp)(idCexpression, idCexpression)) |
| { |
| return dynamic_cast<idCexpressions>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsidCexpressions)); |
| } |
| idCexpression |
| impl_idCexpressions::reduce( idCexpression neutral, idCexpression (*kc_fp)(idCexpression, idCexpression)) |
| { |
| return dynamic_cast<idCexpression>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| Ctexts |
| concat(c_Ctexts kc_p1, c_Ctexts kc_p2) |
| { return dynamic_cast<Ctexts>(kc_p1->do_concat(kc_p2, sel_ConsCtexts)); } |
| |
| Ctexts |
| impl_Ctexts::reverse() const |
| { return dynamic_cast<Ctexts>(do_reverse(NilCtexts(), sel_ConsCtexts)); } |
| |
| Ctext |
| impl_Ctexts::last() const |
| { return dynamic_cast<Ctext>(impl_abstract_list::last()); } |
| |
| bool |
| impl_Ctexts::is_nil() const |
| { |
| return Ctext_1==0 && Ctexts_1==0; |
| } |
| |
| Ctexts |
| impl_Ctexts::map(Ctext (*kc_fp)(Ctext)) |
| { return dynamic_cast<Ctexts>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsCtexts)); } |
| Ctexts |
| impl_Ctexts::filter(bool (*kc_fp)(Ctext)) |
| { return dynamic_cast<Ctexts>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsCtexts)); } |
| |
| Ctexts |
| impl_Ctexts::append(Ctext new_last) |
| { |
| return dynamic_cast<Ctexts>(do_append(new_last, NilCtexts())); |
| } |
| Ctexts |
| impl_Ctexts::merge( Ctexts second, Ctext (*kc_fp)(Ctext, Ctext)) |
| { |
| return dynamic_cast<Ctexts>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsCtexts)); |
| } |
| Ctext |
| impl_Ctexts::reduce( Ctext neutral, Ctext (*kc_fp)(Ctext, Ctext)) |
| { |
| return dynamic_cast<Ctext>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| includefiles |
| concat(c_includefiles kc_p1, c_includefiles kc_p2) |
| { return dynamic_cast<includefiles>(kc_p1->do_concat(kc_p2, sel_Consincludefiles)); } |
| |
| includefiles |
| impl_includefiles::reverse() const |
| { return dynamic_cast<includefiles>(do_reverse(Nilincludefiles(), sel_Consincludefiles)); } |
| |
| includefile |
| impl_includefiles::last() const |
| { return dynamic_cast<includefile>(impl_abstract_list::last()); } |
| |
| bool |
| impl_includefiles::is_nil() const |
| { |
| return includefile_1==0 && includefiles_1==0; |
| } |
| |
| includefiles |
| impl_includefiles::map(includefile (*kc_fp)(includefile)) |
| { return dynamic_cast<includefiles>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consincludefiles)); } |
| includefiles |
| impl_includefiles::filter(bool (*kc_fp)(includefile)) |
| { return dynamic_cast<includefiles>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consincludefiles)); } |
| |
| includefiles |
| impl_includefiles::append(includefile new_last) |
| { |
| return dynamic_cast<includefiles>(do_append(new_last, Nilincludefiles())); |
| } |
| includefiles |
| impl_includefiles::merge( includefiles second, includefile (*kc_fp)(includefile, includefile)) |
| { |
| return dynamic_cast<includefiles>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consincludefiles)); |
| } |
| includefile |
| impl_includefiles::reduce( includefile neutral, includefile (*kc_fp)(includefile, includefile)) |
| { |
| return dynamic_cast<includefile>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| includedeclarations |
| concat(c_includedeclarations kc_p1, c_includedeclarations kc_p2) |
| { return dynamic_cast<includedeclarations>(kc_p1->do_concat(kc_p2, sel_Consincludedeclarations)); } |
| |
| includedeclarations |
| impl_includedeclarations::reverse() const |
| { return dynamic_cast<includedeclarations>(do_reverse(Nilincludedeclarations(), sel_Consincludedeclarations)); } |
| |
| includedeclaration |
| impl_includedeclarations::last() const |
| { return dynamic_cast<includedeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_includedeclarations::is_nil() const |
| { |
| return includedeclaration_1==0 && includedeclarations_1==0; |
| } |
| |
| includedeclarations |
| impl_includedeclarations::map(includedeclaration (*kc_fp)(includedeclaration)) |
| { return dynamic_cast<includedeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consincludedeclarations)); } |
| includedeclarations |
| impl_includedeclarations::filter(bool (*kc_fp)(includedeclaration)) |
| { return dynamic_cast<includedeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consincludedeclarations)); } |
| |
| includedeclarations |
| impl_includedeclarations::append(includedeclaration new_last) |
| { |
| return dynamic_cast<includedeclarations>(do_append(new_last, Nilincludedeclarations())); |
| } |
| includedeclarations |
| impl_includedeclarations::merge( includedeclarations second, includedeclaration (*kc_fp)(includedeclaration, includedeclaration)) |
| { |
| return dynamic_cast<includedeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consincludedeclarations)); |
| } |
| includedeclaration |
| impl_includedeclarations::reduce( includedeclaration neutral, includedeclaration (*kc_fp)(includedeclaration, includedeclaration)) |
| { |
| return dynamic_cast<includedeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| rwdeclarations |
| concat(c_rwdeclarations kc_p1, c_rwdeclarations kc_p2) |
| { return dynamic_cast<rwdeclarations>(kc_p1->do_concat(kc_p2, sel_Consrwdeclarations)); } |
| |
| rwdeclarations |
| impl_rwdeclarations::reverse() const |
| { return dynamic_cast<rwdeclarations>(do_reverse(Nilrwdeclarations(), sel_Consrwdeclarations)); } |
| |
| rwdeclaration |
| impl_rwdeclarations::last() const |
| { return dynamic_cast<rwdeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_rwdeclarations::is_nil() const |
| { |
| return rwdeclaration_1==0 && rwdeclarations_1==0; |
| } |
| |
| rwdeclarations |
| impl_rwdeclarations::map(rwdeclaration (*kc_fp)(rwdeclaration)) |
| { return dynamic_cast<rwdeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consrwdeclarations)); } |
| rwdeclarations |
| impl_rwdeclarations::filter(bool (*kc_fp)(rwdeclaration)) |
| { return dynamic_cast<rwdeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consrwdeclarations)); } |
| |
| rwdeclarations |
| impl_rwdeclarations::append(rwdeclaration new_last) |
| { |
| return dynamic_cast<rwdeclarations>(do_append(new_last, Nilrwdeclarations())); |
| } |
| rwdeclarations |
| impl_rwdeclarations::merge( rwdeclarations second, rwdeclaration (*kc_fp)(rwdeclaration, rwdeclaration)) |
| { |
| return dynamic_cast<rwdeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consrwdeclarations)); |
| } |
| rwdeclaration |
| impl_rwdeclarations::reduce( rwdeclaration neutral, rwdeclaration (*kc_fp)(rwdeclaration, rwdeclaration)) |
| { |
| return dynamic_cast<rwdeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| rewriteclauses |
| concat(c_rewriteclauses kc_p1, c_rewriteclauses kc_p2) |
| { return dynamic_cast<rewriteclauses>(kc_p1->do_concat(kc_p2, sel_Consrewriteclauses)); } |
| |
| rewriteclauses |
| impl_rewriteclauses::reverse() const |
| { return dynamic_cast<rewriteclauses>(do_reverse(Nilrewriteclauses(), sel_Consrewriteclauses)); } |
| |
| rewriteclause |
| impl_rewriteclauses::last() const |
| { return dynamic_cast<rewriteclause>(impl_abstract_list::last()); } |
| |
| bool |
| impl_rewriteclauses::is_nil() const |
| { |
| return rewriteclause_1==0 && rewriteclauses_1==0; |
| } |
| |
| rewriteclauses |
| impl_rewriteclauses::map(rewriteclause (*kc_fp)(rewriteclause)) |
| { return dynamic_cast<rewriteclauses>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consrewriteclauses)); } |
| rewriteclauses |
| impl_rewriteclauses::filter(bool (*kc_fp)(rewriteclause)) |
| { return dynamic_cast<rewriteclauses>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consrewriteclauses)); } |
| |
| rewriteclauses |
| impl_rewriteclauses::append(rewriteclause new_last) |
| { |
| return dynamic_cast<rewriteclauses>(do_append(new_last, Nilrewriteclauses())); |
| } |
| rewriteclauses |
| impl_rewriteclauses::merge( rewriteclauses second, rewriteclause (*kc_fp)(rewriteclause, rewriteclause)) |
| { |
| return dynamic_cast<rewriteclauses>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consrewriteclauses)); |
| } |
| rewriteclause |
| impl_rewriteclauses::reduce( rewriteclause neutral, rewriteclause (*kc_fp)(rewriteclause, rewriteclause)) |
| { |
| return dynamic_cast<rewriteclause>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| patternchains |
| concat(c_patternchains kc_p1, c_patternchains kc_p2) |
| { return dynamic_cast<patternchains>(kc_p1->do_concat(kc_p2, sel_Conspatternchains)); } |
| |
| patternchains |
| impl_patternchains::reverse() const |
| { return dynamic_cast<patternchains>(do_reverse(Nilpatternchains(), sel_Conspatternchains)); } |
| |
| patternchain |
| impl_patternchains::last() const |
| { return dynamic_cast<patternchain>(impl_abstract_list::last()); } |
| |
| bool |
| impl_patternchains::is_nil() const |
| { |
| return patternchain_1==0 && patternchains_1==0; |
| } |
| |
| patternchains |
| impl_patternchains::map(patternchain (*kc_fp)(patternchain)) |
| { return dynamic_cast<patternchains>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspatternchains)); } |
| patternchains |
| impl_patternchains::filter(bool (*kc_fp)(patternchain)) |
| { return dynamic_cast<patternchains>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspatternchains)); } |
| |
| patternchains |
| impl_patternchains::append(patternchain new_last) |
| { |
| return dynamic_cast<patternchains>(do_append(new_last, Nilpatternchains())); |
| } |
| patternchains |
| impl_patternchains::merge( patternchains second, patternchain (*kc_fp)(patternchain, patternchain)) |
| { |
| return dynamic_cast<patternchains>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspatternchains)); |
| } |
| patternchain |
| impl_patternchains::reduce( patternchain neutral, patternchain (*kc_fp)(patternchain, patternchain)) |
| { |
| return dynamic_cast<patternchain>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| patternchain |
| concat(c_patternchain kc_p1, c_patternchain kc_p2) |
| { return dynamic_cast<patternchain>(kc_p1->do_concat(kc_p2, sel_Conspatternchain)); } |
| |
| patternchain |
| impl_patternchain::reverse() const |
| { return dynamic_cast<patternchain>(do_reverse(Nilpatternchain(), sel_Conspatternchain)); } |
| |
| patternchainitem |
| impl_patternchain::last() const |
| { return dynamic_cast<patternchainitem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_patternchain::is_nil() const |
| { |
| return patternchainitem_1==0 && patternchain_1==0; |
| } |
| |
| patternchain |
| impl_patternchain::map(patternchainitem (*kc_fp)(patternchainitem)) |
| { return dynamic_cast<patternchain>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspatternchain)); } |
| patternchain |
| impl_patternchain::filter(bool (*kc_fp)(patternchainitem)) |
| { return dynamic_cast<patternchain>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspatternchain)); } |
| |
| patternchain |
| impl_patternchain::append(patternchainitem new_last) |
| { |
| return dynamic_cast<patternchain>(do_append(new_last, Nilpatternchain())); |
| } |
| patternchain |
| impl_patternchain::merge( patternchain second, patternchainitem (*kc_fp)(patternchainitem, patternchainitem)) |
| { |
| return dynamic_cast<patternchain>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspatternchain)); |
| } |
| patternchainitem |
| impl_patternchain::reduce( patternchainitem neutral, patternchainitem (*kc_fp)(patternchainitem, patternchainitem)) |
| { |
| return dynamic_cast<patternchainitem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| outmostpatterns |
| concat(c_outmostpatterns kc_p1, c_outmostpatterns kc_p2) |
| { return dynamic_cast<outmostpatterns>(kc_p1->do_concat(kc_p2, sel_Consoutmostpatterns)); } |
| |
| outmostpatterns |
| impl_outmostpatterns::reverse() const |
| { return dynamic_cast<outmostpatterns>(do_reverse(Niloutmostpatterns(), sel_Consoutmostpatterns)); } |
| |
| outmostpattern |
| impl_outmostpatterns::last() const |
| { return dynamic_cast<outmostpattern>(impl_abstract_list::last()); } |
| |
| bool |
| impl_outmostpatterns::is_nil() const |
| { |
| return outmostpattern_1==0 && outmostpatterns_1==0; |
| } |
| |
| outmostpatterns |
| impl_outmostpatterns::map(outmostpattern (*kc_fp)(outmostpattern)) |
| { return dynamic_cast<outmostpatterns>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consoutmostpatterns)); } |
| outmostpatterns |
| impl_outmostpatterns::filter(bool (*kc_fp)(outmostpattern)) |
| { return dynamic_cast<outmostpatterns>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consoutmostpatterns)); } |
| |
| outmostpatterns |
| impl_outmostpatterns::append(outmostpattern new_last) |
| { |
| return dynamic_cast<outmostpatterns>(do_append(new_last, Niloutmostpatterns())); |
| } |
| outmostpatterns |
| impl_outmostpatterns::merge( outmostpatterns second, outmostpattern (*kc_fp)(outmostpattern, outmostpattern)) |
| { |
| return dynamic_cast<outmostpatterns>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consoutmostpatterns)); |
| } |
| outmostpattern |
| impl_outmostpatterns::reduce( outmostpattern neutral, outmostpattern (*kc_fp)(outmostpattern, outmostpattern)) |
| { |
| return dynamic_cast<outmostpattern>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| patterns |
| concat(c_patterns kc_p1, c_patterns kc_p2) |
| { return dynamic_cast<patterns>(kc_p1->do_concat(kc_p2, sel_Conspatterns)); } |
| |
| patterns |
| impl_patterns::reverse() const |
| { return dynamic_cast<patterns>(do_reverse(Nilpatterns(), sel_Conspatterns)); } |
| |
| pattern |
| impl_patterns::last() const |
| { return dynamic_cast<pattern>(impl_abstract_list::last()); } |
| |
| bool |
| impl_patterns::is_nil() const |
| { |
| return pattern_1==0 && patterns_1==0; |
| } |
| |
| patterns |
| impl_patterns::map(pattern (*kc_fp)(pattern)) |
| { return dynamic_cast<patterns>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspatterns)); } |
| patterns |
| impl_patterns::filter(bool (*kc_fp)(pattern)) |
| { return dynamic_cast<patterns>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspatterns)); } |
| |
| patterns |
| impl_patterns::append(pattern new_last) |
| { |
| return dynamic_cast<patterns>(do_append(new_last, Nilpatterns())); |
| } |
| patterns |
| impl_patterns::merge( patterns second, pattern (*kc_fp)(pattern, pattern)) |
| { |
| return dynamic_cast<patterns>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspatterns)); |
| } |
| pattern |
| impl_patterns::reduce( pattern neutral, pattern (*kc_fp)(pattern, pattern)) |
| { |
| return dynamic_cast<pattern>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| terms |
| concat(c_terms kc_p1, c_terms kc_p2) |
| { return dynamic_cast<terms>(kc_p1->do_concat(kc_p2, sel_Consterms)); } |
| |
| terms |
| impl_terms::reverse() const |
| { return dynamic_cast<terms>(do_reverse(Nilterms(), sel_Consterms)); } |
| |
| term |
| impl_terms::last() const |
| { return dynamic_cast<term>(impl_abstract_list::last()); } |
| |
| bool |
| impl_terms::is_nil() const |
| { |
| return term_1==0 && terms_1==0; |
| } |
| |
| terms |
| impl_terms::map(term (*kc_fp)(term)) |
| { return dynamic_cast<terms>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consterms)); } |
| terms |
| impl_terms::filter(bool (*kc_fp)(term)) |
| { return dynamic_cast<terms>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consterms)); } |
| |
| terms |
| impl_terms::append(term new_last) |
| { |
| return dynamic_cast<terms>(do_append(new_last, Nilterms())); |
| } |
| terms |
| impl_terms::merge( terms second, term (*kc_fp)(term, term)) |
| { |
| return dynamic_cast<terms>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consterms)); |
| } |
| term |
| impl_terms::reduce( term neutral, term (*kc_fp)(term, term)) |
| { |
| return dynamic_cast<term>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| fnfiles |
| concat(c_fnfiles kc_p1, c_fnfiles kc_p2) |
| { return dynamic_cast<fnfiles>(kc_p1->do_concat(kc_p2, sel_Consfnfiles)); } |
| |
| fnfiles |
| impl_fnfiles::reverse() const |
| { return dynamic_cast<fnfiles>(do_reverse(Nilfnfiles(), sel_Consfnfiles)); } |
| |
| fnfile |
| impl_fnfiles::last() const |
| { return dynamic_cast<fnfile>(impl_abstract_list::last()); } |
| |
| bool |
| impl_fnfiles::is_nil() const |
| { |
| return fnfile_1==0 && fnfiles_1==0; |
| } |
| |
| fnfiles |
| impl_fnfiles::map(fnfile (*kc_fp)(fnfile)) |
| { return dynamic_cast<fnfiles>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consfnfiles)); } |
| fnfiles |
| impl_fnfiles::filter(bool (*kc_fp)(fnfile)) |
| { return dynamic_cast<fnfiles>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consfnfiles)); } |
| |
| fnfiles |
| impl_fnfiles::append(fnfile new_last) |
| { |
| return dynamic_cast<fnfiles>(do_append(new_last, Nilfnfiles())); |
| } |
| fnfiles |
| impl_fnfiles::merge( fnfiles second, fnfile (*kc_fp)(fnfile, fnfile)) |
| { |
| return dynamic_cast<fnfiles>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consfnfiles)); |
| } |
| fnfile |
| impl_fnfiles::reduce( fnfile neutral, fnfile (*kc_fp)(fnfile, fnfile)) |
| { |
| return dynamic_cast<fnfile>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| fndeclarations |
| concat(c_fndeclarations kc_p1, c_fndeclarations kc_p2) |
| { return dynamic_cast<fndeclarations>(kc_p1->do_concat(kc_p2, sel_Consfndeclarations)); } |
| |
| fndeclarations |
| impl_fndeclarations::reverse() const |
| { return dynamic_cast<fndeclarations>(do_reverse(Nilfndeclarations(), sel_Consfndeclarations)); } |
| |
| fndeclaration |
| impl_fndeclarations::last() const |
| { return dynamic_cast<fndeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_fndeclarations::is_nil() const |
| { |
| return fndeclaration_1==0 && fndeclarations_1==0; |
| } |
| |
| fndeclarations |
| impl_fndeclarations::map(fndeclaration (*kc_fp)(fndeclaration)) |
| { return dynamic_cast<fndeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consfndeclarations)); } |
| fndeclarations |
| impl_fndeclarations::filter(bool (*kc_fp)(fndeclaration)) |
| { return dynamic_cast<fndeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consfndeclarations)); } |
| |
| fndeclarations |
| impl_fndeclarations::append(fndeclaration new_last) |
| { |
| return dynamic_cast<fndeclarations>(do_append(new_last, Nilfndeclarations())); |
| } |
| fndeclarations |
| impl_fndeclarations::merge( fndeclarations second, fndeclaration (*kc_fp)(fndeclaration, fndeclaration)) |
| { |
| return dynamic_cast<fndeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consfndeclarations)); |
| } |
| fndeclaration |
| impl_fndeclarations::reduce( fndeclaration neutral, fndeclaration (*kc_fp)(fndeclaration, fndeclaration)) |
| { |
| return dynamic_cast<fndeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| Ctext |
| concat(c_Ctext kc_p1, c_Ctext kc_p2) |
| { return dynamic_cast<Ctext>(kc_p1->do_concat(kc_p2, sel_ConsCtext)); } |
| |
| Ctext |
| impl_Ctext::reverse() const |
| { return dynamic_cast<Ctext>(do_reverse(NilCtext(), sel_ConsCtext)); } |
| |
| Ctext_elem |
| impl_Ctext::last() const |
| { return dynamic_cast<Ctext_elem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_Ctext::is_nil() const |
| { |
| return Ctext_elem_1==0 && Ctext_1==0; |
| } |
| |
| Ctext |
| impl_Ctext::map(Ctext_elem (*kc_fp)(Ctext_elem)) |
| { return dynamic_cast<Ctext>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_ConsCtext)); } |
| Ctext |
| impl_Ctext::filter(bool (*kc_fp)(Ctext_elem)) |
| { return dynamic_cast<Ctext>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_ConsCtext)); } |
| |
| Ctext |
| impl_Ctext::append(Ctext_elem new_last) |
| { |
| return dynamic_cast<Ctext>(do_append(new_last, NilCtext())); |
| } |
| Ctext |
| impl_Ctext::merge( Ctext second, Ctext_elem (*kc_fp)(Ctext_elem, Ctext_elem)) |
| { |
| return dynamic_cast<Ctext>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_ConsCtext)); |
| } |
| Ctext_elem |
| impl_Ctext::reduce( Ctext_elem neutral, Ctext_elem (*kc_fp)(Ctext_elem, Ctext_elem)) |
| { |
| return dynamic_cast<Ctext_elem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| withexpressions |
| concat(c_withexpressions kc_p1, c_withexpressions kc_p2) |
| { return dynamic_cast<withexpressions>(kc_p1->do_concat(kc_p2, sel_Conswithexpressions)); } |
| |
| withexpressions |
| impl_withexpressions::reverse() const |
| { return dynamic_cast<withexpressions>(do_reverse(Nilwithexpressions(), sel_Conswithexpressions)); } |
| |
| withexpression |
| impl_withexpressions::last() const |
| { return dynamic_cast<withexpression>(impl_abstract_list::last()); } |
| |
| bool |
| impl_withexpressions::is_nil() const |
| { |
| return withexpression_1==0 && withexpressions_1==0; |
| } |
| |
| withexpressions |
| impl_withexpressions::map(withexpression (*kc_fp)(withexpression)) |
| { return dynamic_cast<withexpressions>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conswithexpressions)); } |
| withexpressions |
| impl_withexpressions::filter(bool (*kc_fp)(withexpression)) |
| { return dynamic_cast<withexpressions>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conswithexpressions)); } |
| |
| withexpressions |
| impl_withexpressions::append(withexpression new_last) |
| { |
| return dynamic_cast<withexpressions>(do_append(new_last, Nilwithexpressions())); |
| } |
| withexpressions |
| impl_withexpressions::merge( withexpressions second, withexpression (*kc_fp)(withexpression, withexpression)) |
| { |
| return dynamic_cast<withexpressions>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conswithexpressions)); |
| } |
| withexpression |
| impl_withexpressions::reduce( withexpression neutral, withexpression (*kc_fp)(withexpression, withexpression)) |
| { |
| return dynamic_cast<withexpression>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| withcases |
| concat(c_withcases kc_p1, c_withcases kc_p2) |
| { return dynamic_cast<withcases>(kc_p1->do_concat(kc_p2, sel_Conswithcases)); } |
| |
| withcases |
| impl_withcases::reverse() const |
| { return dynamic_cast<withcases>(do_reverse(Nilwithcases(), sel_Conswithcases)); } |
| |
| withcase |
| impl_withcases::last() const |
| { return dynamic_cast<withcase>(impl_abstract_list::last()); } |
| |
| bool |
| impl_withcases::is_nil() const |
| { |
| return withcase_1==0 && withcases_1==0; |
| } |
| |
| withcases |
| impl_withcases::map(withcase (*kc_fp)(withcase)) |
| { return dynamic_cast<withcases>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conswithcases)); } |
| withcases |
| impl_withcases::filter(bool (*kc_fp)(withcase)) |
| { return dynamic_cast<withcases>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conswithcases)); } |
| |
| withcases |
| impl_withcases::append(withcase new_last) |
| { |
| return dynamic_cast<withcases>(do_append(new_last, Nilwithcases())); |
| } |
| withcases |
| impl_withcases::merge( withcases second, withcase (*kc_fp)(withcase, withcase)) |
| { |
| return dynamic_cast<withcases>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conswithcases)); |
| } |
| withcase |
| impl_withcases::reduce( withcase neutral, withcase (*kc_fp)(withcase, withcase)) |
| { |
| return dynamic_cast<withcase>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unparsedeclarations |
| concat(c_unparsedeclarations kc_p1, c_unparsedeclarations kc_p2) |
| { return dynamic_cast<unparsedeclarations>(kc_p1->do_concat(kc_p2, sel_Consunparsedeclarations)); } |
| |
| unparsedeclarations |
| impl_unparsedeclarations::reverse() const |
| { return dynamic_cast<unparsedeclarations>(do_reverse(Nilunparsedeclarations(), sel_Consunparsedeclarations)); } |
| |
| unparsedeclaration |
| impl_unparsedeclarations::last() const |
| { return dynamic_cast<unparsedeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unparsedeclarations::is_nil() const |
| { |
| return unparsedeclaration_1==0 && unparsedeclarations_1==0; |
| } |
| |
| unparsedeclarations |
| impl_unparsedeclarations::map(unparsedeclaration (*kc_fp)(unparsedeclaration)) |
| { return dynamic_cast<unparsedeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunparsedeclarations)); } |
| unparsedeclarations |
| impl_unparsedeclarations::filter(bool (*kc_fp)(unparsedeclaration)) |
| { return dynamic_cast<unparsedeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunparsedeclarations)); } |
| |
| unparsedeclarations |
| impl_unparsedeclarations::append(unparsedeclaration new_last) |
| { |
| return dynamic_cast<unparsedeclarations>(do_append(new_last, Nilunparsedeclarations())); |
| } |
| unparsedeclarations |
| impl_unparsedeclarations::merge( unparsedeclarations second, unparsedeclaration (*kc_fp)(unparsedeclaration, unparsedeclaration)) |
| { |
| return dynamic_cast<unparsedeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunparsedeclarations)); |
| } |
| unparsedeclaration |
| impl_unparsedeclarations::reduce( unparsedeclaration neutral, unparsedeclaration (*kc_fp)(unparsedeclaration, unparsedeclaration)) |
| { |
| return dynamic_cast<unparsedeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unparseclauses |
| concat(c_unparseclauses kc_p1, c_unparseclauses kc_p2) |
| { return dynamic_cast<unparseclauses>(kc_p1->do_concat(kc_p2, sel_Consunparseclauses)); } |
| |
| unparseclauses |
| impl_unparseclauses::reverse() const |
| { return dynamic_cast<unparseclauses>(do_reverse(Nilunparseclauses(), sel_Consunparseclauses)); } |
| |
| unparseclause |
| impl_unparseclauses::last() const |
| { return dynamic_cast<unparseclause>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unparseclauses::is_nil() const |
| { |
| return unparseclause_1==0 && unparseclauses_1==0; |
| } |
| |
| unparseclauses |
| impl_unparseclauses::map(unparseclause (*kc_fp)(unparseclause)) |
| { return dynamic_cast<unparseclauses>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunparseclauses)); } |
| unparseclauses |
| impl_unparseclauses::filter(bool (*kc_fp)(unparseclause)) |
| { return dynamic_cast<unparseclauses>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunparseclauses)); } |
| |
| unparseclauses |
| impl_unparseclauses::append(unparseclause new_last) |
| { |
| return dynamic_cast<unparseclauses>(do_append(new_last, Nilunparseclauses())); |
| } |
| unparseclauses |
| impl_unparseclauses::merge( unparseclauses second, unparseclause (*kc_fp)(unparseclause, unparseclause)) |
| { |
| return dynamic_cast<unparseclauses>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunparseclauses)); |
| } |
| unparseclause |
| impl_unparseclauses::reduce( unparseclause neutral, unparseclause (*kc_fp)(unparseclause, unparseclause)) |
| { |
| return dynamic_cast<unparseclause>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| viewnames |
| concat(c_viewnames kc_p1, c_viewnames kc_p2) |
| { return dynamic_cast<viewnames>(kc_p1->do_concat(kc_p2, sel_Consviewnames)); } |
| |
| viewnames |
| impl_viewnames::reverse() const |
| { return dynamic_cast<viewnames>(do_reverse(Nilviewnames(), sel_Consviewnames)); } |
| |
| ID |
| impl_viewnames::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_viewnames::is_nil() const |
| { |
| return ID_1==0 && viewnames_1==0; |
| } |
| |
| viewnames |
| impl_viewnames::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<viewnames>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consviewnames)); } |
| viewnames |
| impl_viewnames::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<viewnames>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consviewnames)); } |
| |
| viewnames |
| impl_viewnames::append(ID new_last) |
| { |
| return dynamic_cast<viewnames>(do_append(new_last, Nilviewnames())); |
| } |
| viewnames |
| impl_viewnames::merge( viewnames second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<viewnames>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consviewnames)); |
| } |
| ID |
| impl_viewnames::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unparseitems |
| concat(c_unparseitems kc_p1, c_unparseitems kc_p2) |
| { return dynamic_cast<unparseitems>(kc_p1->do_concat(kc_p2, sel_Consunparseitems)); } |
| |
| unparseitems |
| impl_unparseitems::reverse() const |
| { return dynamic_cast<unparseitems>(do_reverse(Nilunparseitems(), sel_Consunparseitems)); } |
| |
| unparseitem |
| impl_unparseitems::last() const |
| { return dynamic_cast<unparseitem>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unparseitems::is_nil() const |
| { |
| return unparseitem_1==0 && unparseitems_1==0; |
| } |
| |
| unparseitems |
| impl_unparseitems::map(unparseitem (*kc_fp)(unparseitem)) |
| { return dynamic_cast<unparseitems>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunparseitems)); } |
| unparseitems |
| impl_unparseitems::filter(bool (*kc_fp)(unparseitem)) |
| { return dynamic_cast<unparseitems>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunparseitems)); } |
| |
| unparseitems |
| impl_unparseitems::append(unparseitem new_last) |
| { |
| return dynamic_cast<unparseitems>(do_append(new_last, Nilunparseitems())); |
| } |
| unparseitems |
| impl_unparseitems::merge( unparseitems second, unparseitem (*kc_fp)(unparseitem, unparseitem)) |
| { |
| return dynamic_cast<unparseitems>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunparseitems)); |
| } |
| unparseitem |
| impl_unparseitems::reduce( unparseitem neutral, unparseitem (*kc_fp)(unparseitem, unparseitem)) |
| { |
| return dynamic_cast<unparseitem>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unpattributes |
| concat(c_unpattributes kc_p1, c_unpattributes kc_p2) |
| { return dynamic_cast<unpattributes>(kc_p1->do_concat(kc_p2, sel_Consunpattributes)); } |
| |
| unpattributes |
| impl_unpattributes::reverse() const |
| { return dynamic_cast<unpattributes>(do_reverse(Nilunpattributes(), sel_Consunpattributes)); } |
| |
| ID |
| impl_unpattributes::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unpattributes::is_nil() const |
| { |
| return ID_1==0 && unpattributes_1==0; |
| } |
| |
| unpattributes |
| impl_unpattributes::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<unpattributes>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunpattributes)); } |
| unpattributes |
| impl_unpattributes::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<unpattributes>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunpattributes)); } |
| |
| unpattributes |
| impl_unpattributes::append(ID new_last) |
| { |
| return dynamic_cast<unpattributes>(do_append(new_last, Nilunpattributes())); |
| } |
| unpattributes |
| impl_unpattributes::merge( unpattributes second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<unpattributes>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunpattributes)); |
| } |
| ID |
| impl_unpattributes::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| languagenames |
| concat(c_languagenames kc_p1, c_languagenames kc_p2) |
| { return dynamic_cast<languagenames>(kc_p1->do_concat(kc_p2, sel_Conslanguagenames)); } |
| |
| languagenames |
| impl_languagenames::reverse() const |
| { return dynamic_cast<languagenames>(do_reverse(Nillanguagenames(), sel_Conslanguagenames)); } |
| |
| ID |
| impl_languagenames::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_languagenames::is_nil() const |
| { |
| return ID_1==0 && languagenames_1==0; |
| } |
| |
| languagenames |
| impl_languagenames::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<languagenames>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conslanguagenames)); } |
| languagenames |
| impl_languagenames::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<languagenames>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conslanguagenames)); } |
| |
| languagenames |
| impl_languagenames::append(ID new_last) |
| { |
| return dynamic_cast<languagenames>(do_append(new_last, Nillanguagenames())); |
| } |
| languagenames |
| impl_languagenames::merge( languagenames second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<languagenames>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conslanguagenames)); |
| } |
| ID |
| impl_languagenames::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| scopetypefilelinestack |
| concat(c_scopetypefilelinestack kc_p1, c_scopetypefilelinestack kc_p2) |
| { return dynamic_cast<scopetypefilelinestack>(kc_p1->do_concat(kc_p2, sel_Consscopetypefilelinestack)); } |
| |
| scopetypefilelinestack |
| impl_scopetypefilelinestack::reverse() const |
| { return dynamic_cast<scopetypefilelinestack>(do_reverse(Nilscopetypefilelinestack(), sel_Consscopetypefilelinestack)); } |
| |
| scopetypefileline |
| impl_scopetypefilelinestack::last() const |
| { return dynamic_cast<scopetypefileline>(impl_abstract_list::last()); } |
| |
| bool |
| impl_scopetypefilelinestack::is_nil() const |
| { |
| return scopetypefileline_1==0 && scopetypefilelinestack_1==0; |
| } |
| |
| scopetypefilelinestack |
| impl_scopetypefilelinestack::map(scopetypefileline (*kc_fp)(scopetypefileline)) |
| { return dynamic_cast<scopetypefilelinestack>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consscopetypefilelinestack)); } |
| scopetypefilelinestack |
| impl_scopetypefilelinestack::filter(bool (*kc_fp)(scopetypefileline)) |
| { return dynamic_cast<scopetypefilelinestack>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consscopetypefilelinestack)); } |
| |
| scopetypefilelinestack |
| impl_scopetypefilelinestack::append(scopetypefileline new_last) |
| { |
| return dynamic_cast<scopetypefilelinestack>(do_append(new_last, Nilscopetypefilelinestack())); |
| } |
| scopetypefilelinestack |
| impl_scopetypefilelinestack::merge( scopetypefilelinestack second, scopetypefileline (*kc_fp)(scopetypefileline, scopetypefileline)) |
| { |
| return dynamic_cast<scopetypefilelinestack>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consscopetypefilelinestack)); |
| } |
| scopetypefileline |
| impl_scopetypefilelinestack::reduce( scopetypefileline neutral, scopetypefileline (*kc_fp)(scopetypefileline, scopetypefileline)) |
| { |
| return dynamic_cast<scopetypefileline>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| operators |
| concat(c_operators kc_p1, c_operators kc_p2) |
| { return dynamic_cast<operators>(kc_p1->do_concat(kc_p2, sel_Consoperators)); } |
| |
| operators |
| impl_operators::reverse() const |
| { return dynamic_cast<operators>(do_reverse(Niloperators(), sel_Consoperators)); } |
| |
| ID |
| impl_operators::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_operators::is_nil() const |
| { |
| return ID_1==0 && operators_1==0; |
| } |
| |
| operators |
| impl_operators::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<operators>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consoperators)); } |
| operators |
| impl_operators::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<operators>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consoperators)); } |
| |
| operators |
| impl_operators::append(ID new_last) |
| { |
| return dynamic_cast<operators>(do_append(new_last, Niloperators())); |
| } |
| operators |
| impl_operators::merge( operators second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<operators>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consoperators)); |
| } |
| ID |
| impl_operators::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| phyla |
| concat(c_phyla kc_p1, c_phyla kc_p2) |
| { return dynamic_cast<phyla>(kc_p1->do_concat(kc_p2, sel_Consphyla)); } |
| |
| phyla |
| impl_phyla::reverse() const |
| { return dynamic_cast<phyla>(do_reverse(Nilphyla(), sel_Consphyla)); } |
| |
| ID |
| impl_phyla::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_phyla::is_nil() const |
| { |
| return ID_1==0 && phyla_1==0; |
| } |
| |
| phyla |
| impl_phyla::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<phyla>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consphyla)); } |
| phyla |
| impl_phyla::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<phyla>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consphyla)); } |
| |
| phyla |
| impl_phyla::append(ID new_last) |
| { |
| return dynamic_cast<phyla>(do_append(new_last, Nilphyla())); |
| } |
| phyla |
| impl_phyla::merge( phyla second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<phyla>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consphyla)); |
| } |
| ID |
| impl_phyla::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| variables |
| concat(c_variables kc_p1, c_variables kc_p2) |
| { return dynamic_cast<variables>(kc_p1->do_concat(kc_p2, sel_Consvariables)); } |
| |
| variables |
| impl_variables::reverse() const |
| { return dynamic_cast<variables>(do_reverse(Nilvariables(), sel_Consvariables)); } |
| |
| ID |
| impl_variables::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_variables::is_nil() const |
| { |
| return ID_1==0 && variables_1==0; |
| } |
| |
| variables |
| impl_variables::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<variables>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consvariables)); } |
| variables |
| impl_variables::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<variables>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consvariables)); } |
| |
| variables |
| impl_variables::append(ID new_last) |
| { |
| return dynamic_cast<variables>(do_append(new_last, Nilvariables())); |
| } |
| variables |
| impl_variables::merge( variables second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<variables>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consvariables)); |
| } |
| ID |
| impl_variables::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| patternrepresentations |
| concat(c_patternrepresentations kc_p1, c_patternrepresentations kc_p2) |
| { return dynamic_cast<patternrepresentations>(kc_p1->do_concat(kc_p2, sel_Conspatternrepresentations)); } |
| |
| patternrepresentations |
| impl_patternrepresentations::reverse() const |
| { return dynamic_cast<patternrepresentations>(do_reverse(Nilpatternrepresentations(), sel_Conspatternrepresentations)); } |
| |
| patternrepresentation |
| impl_patternrepresentations::last() const |
| { return dynamic_cast<patternrepresentation>(impl_abstract_list::last()); } |
| |
| bool |
| impl_patternrepresentations::is_nil() const |
| { |
| return patternrepresentation_1==0 && patternrepresentations_1==0; |
| } |
| |
| patternrepresentations |
| impl_patternrepresentations::map(patternrepresentation (*kc_fp)(patternrepresentation)) |
| { return dynamic_cast<patternrepresentations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspatternrepresentations)); } |
| patternrepresentations |
| impl_patternrepresentations::filter(bool (*kc_fp)(patternrepresentation)) |
| { return dynamic_cast<patternrepresentations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspatternrepresentations)); } |
| |
| patternrepresentations |
| impl_patternrepresentations::append(patternrepresentation new_last) |
| { |
| return dynamic_cast<patternrepresentations>(do_append(new_last, Nilpatternrepresentations())); |
| } |
| patternrepresentations |
| impl_patternrepresentations::merge( patternrepresentations second, patternrepresentation (*kc_fp)(patternrepresentation, patternrepresentation)) |
| { |
| return dynamic_cast<patternrepresentations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspatternrepresentations)); |
| } |
| patternrepresentation |
| impl_patternrepresentations::reduce( patternrepresentation neutral, patternrepresentation (*kc_fp)(patternrepresentation, patternrepresentation)) |
| { |
| return dynamic_cast<patternrepresentation>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| patternrepresentation |
| concat(c_patternrepresentation kc_p1, c_patternrepresentation kc_p2) |
| { return dynamic_cast<patternrepresentation>(kc_p1->do_concat(kc_p2, sel_Conspatternrepresentation)); } |
| |
| patternrepresentation |
| impl_patternrepresentation::reverse() const |
| { return dynamic_cast<patternrepresentation>(do_reverse(Nilpatternrepresentation(), sel_Conspatternrepresentation)); } |
| |
| elem_patternrepresentation |
| impl_patternrepresentation::last() const |
| { return dynamic_cast<elem_patternrepresentation>(impl_abstract_list::last()); } |
| |
| bool |
| impl_patternrepresentation::is_nil() const |
| { |
| return elem_patternrepresentation_1==0 && patternrepresentation_1==0; |
| } |
| |
| patternrepresentation |
| impl_patternrepresentation::map(elem_patternrepresentation (*kc_fp)(elem_patternrepresentation)) |
| { return dynamic_cast<patternrepresentation>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspatternrepresentation)); } |
| patternrepresentation |
| impl_patternrepresentation::filter(bool (*kc_fp)(elem_patternrepresentation)) |
| { return dynamic_cast<patternrepresentation>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspatternrepresentation)); } |
| |
| patternrepresentation |
| impl_patternrepresentation::append(elem_patternrepresentation new_last) |
| { |
| return dynamic_cast<patternrepresentation>(do_append(new_last, Nilpatternrepresentation())); |
| } |
| patternrepresentation |
| impl_patternrepresentation::merge( patternrepresentation second, elem_patternrepresentation (*kc_fp)(elem_patternrepresentation, elem_patternrepresentation)) |
| { |
| return dynamic_cast<patternrepresentation>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspatternrepresentation)); |
| } |
| elem_patternrepresentation |
| impl_patternrepresentation::reduce( elem_patternrepresentation neutral, elem_patternrepresentation (*kc_fp)(elem_patternrepresentation, elem_patternrepresentation)) |
| { |
| return dynamic_cast<elem_patternrepresentation>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| path |
| concat(c_path kc_p1, c_path kc_p2) |
| { return dynamic_cast<path>(kc_p1->do_concat(kc_p2, sel_Conspath)); } |
| |
| path |
| impl_path::reverse() const |
| { return dynamic_cast<path>(do_reverse(Nilpath(), sel_Conspath)); } |
| |
| integer |
| impl_path::last() const |
| { return dynamic_cast<integer>(impl_abstract_list::last()); } |
| |
| bool |
| impl_path::is_nil() const |
| { |
| return integer_1==0 && path_1==0; |
| } |
| |
| path |
| impl_path::map(integer (*kc_fp)(integer)) |
| { return dynamic_cast<path>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspath)); } |
| path |
| impl_path::filter(bool (*kc_fp)(integer)) |
| { return dynamic_cast<path>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspath)); } |
| |
| path |
| impl_path::append(integer new_last) |
| { |
| return dynamic_cast<path>(do_append(new_last, Nilpath())); |
| } |
| path |
| impl_path::merge( path second, integer (*kc_fp)(integer, integer)) |
| { |
| return dynamic_cast<path>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspath)); |
| } |
| integer |
| impl_path::reduce( integer neutral, integer (*kc_fp)(integer, integer)) |
| { |
| return dynamic_cast<integer>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| paths |
| concat(c_paths kc_p1, c_paths kc_p2) |
| { return dynamic_cast<paths>(kc_p1->do_concat(kc_p2, sel_Conspaths)); } |
| |
| paths |
| impl_paths::reverse() const |
| { return dynamic_cast<paths>(do_reverse(Nilpaths(), sel_Conspaths)); } |
| |
| path |
| impl_paths::last() const |
| { return dynamic_cast<path>(impl_abstract_list::last()); } |
| |
| bool |
| impl_paths::is_nil() const |
| { |
| return path_1==0 && paths_1==0; |
| } |
| |
| paths |
| impl_paths::map(path (*kc_fp)(path)) |
| { return dynamic_cast<paths>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conspaths)); } |
| paths |
| impl_paths::filter(bool (*kc_fp)(path)) |
| { return dynamic_cast<paths>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conspaths)); } |
| |
| paths |
| impl_paths::append(path new_last) |
| { |
| return dynamic_cast<paths>(do_append(new_last, Nilpaths())); |
| } |
| paths |
| impl_paths::merge( paths second, path (*kc_fp)(path, path)) |
| { |
| return dynamic_cast<paths>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conspaths)); |
| } |
| path |
| impl_paths::reduce( path neutral, path (*kc_fp)(path, path)) |
| { |
| return dynamic_cast<path>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| argsnumbers |
| concat(c_argsnumbers kc_p1, c_argsnumbers kc_p2) |
| { return dynamic_cast<argsnumbers>(kc_p1->do_concat(kc_p2, sel_Consargsnumbers)); } |
| |
| argsnumbers |
| impl_argsnumbers::reverse() const |
| { return dynamic_cast<argsnumbers>(do_reverse(Nilargsnumbers(), sel_Consargsnumbers)); } |
| |
| integer |
| impl_argsnumbers::last() const |
| { return dynamic_cast<integer>(impl_abstract_list::last()); } |
| |
| bool |
| impl_argsnumbers::is_nil() const |
| { |
| return integer_1==0 && argsnumbers_1==0; |
| } |
| |
| argsnumbers |
| impl_argsnumbers::map(integer (*kc_fp)(integer)) |
| { return dynamic_cast<argsnumbers>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consargsnumbers)); } |
| argsnumbers |
| impl_argsnumbers::filter(bool (*kc_fp)(integer)) |
| { return dynamic_cast<argsnumbers>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consargsnumbers)); } |
| |
| argsnumbers |
| impl_argsnumbers::append(integer new_last) |
| { |
| return dynamic_cast<argsnumbers>(do_append(new_last, Nilargsnumbers())); |
| } |
| argsnumbers |
| impl_argsnumbers::merge( argsnumbers second, integer (*kc_fp)(integer, integer)) |
| { |
| return dynamic_cast<argsnumbers>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consargsnumbers)); |
| } |
| integer |
| impl_argsnumbers::reduce( integer neutral, integer (*kc_fp)(integer, integer)) |
| { |
| return dynamic_cast<integer>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| rewriterulesinfo |
| concat(c_rewriterulesinfo kc_p1, c_rewriterulesinfo kc_p2) |
| { return dynamic_cast<rewriterulesinfo>(kc_p1->do_concat(kc_p2, sel_Consrewriterulesinfo)); } |
| |
| rewriterulesinfo |
| impl_rewriterulesinfo::reverse() const |
| { return dynamic_cast<rewriterulesinfo>(do_reverse(Nilrewriterulesinfo(), sel_Consrewriterulesinfo)); } |
| |
| rewriteruleinfo |
| impl_rewriterulesinfo::last() const |
| { return dynamic_cast<rewriteruleinfo>(impl_abstract_list::last()); } |
| |
| bool |
| impl_rewriterulesinfo::is_nil() const |
| { |
| return rewriteruleinfo_1==0 && rewriterulesinfo_1==0; |
| } |
| |
| rewriterulesinfo |
| impl_rewriterulesinfo::map(rewriteruleinfo (*kc_fp)(rewriteruleinfo)) |
| { return dynamic_cast<rewriterulesinfo>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consrewriterulesinfo)); } |
| rewriterulesinfo |
| impl_rewriterulesinfo::filter(bool (*kc_fp)(rewriteruleinfo)) |
| { return dynamic_cast<rewriterulesinfo>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consrewriterulesinfo)); } |
| |
| rewriterulesinfo |
| impl_rewriterulesinfo::append(rewriteruleinfo new_last) |
| { |
| return dynamic_cast<rewriterulesinfo>(do_append(new_last, Nilrewriterulesinfo())); |
| } |
| rewriterulesinfo |
| impl_rewriterulesinfo::merge( rewriterulesinfo second, rewriteruleinfo (*kc_fp)(rewriteruleinfo, rewriteruleinfo)) |
| { |
| return dynamic_cast<rewriterulesinfo>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consrewriterulesinfo)); |
| } |
| rewriteruleinfo |
| impl_rewriterulesinfo::reduce( rewriteruleinfo neutral, rewriteruleinfo (*kc_fp)(rewriteruleinfo, rewriteruleinfo)) |
| { |
| return dynamic_cast<rewriteruleinfo>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| withcasesinfo |
| concat(c_withcasesinfo kc_p1, c_withcasesinfo kc_p2) |
| { return dynamic_cast<withcasesinfo>(kc_p1->do_concat(kc_p2, sel_Conswithcasesinfo)); } |
| |
| withcasesinfo |
| impl_withcasesinfo::reverse() const |
| { return dynamic_cast<withcasesinfo>(do_reverse(Nilwithcasesinfo(), sel_Conswithcasesinfo)); } |
| |
| withcaseinfo |
| impl_withcasesinfo::last() const |
| { return dynamic_cast<withcaseinfo>(impl_abstract_list::last()); } |
| |
| bool |
| impl_withcasesinfo::is_nil() const |
| { |
| return withcaseinfo_1==0 && withcasesinfo_1==0; |
| } |
| |
| withcasesinfo |
| impl_withcasesinfo::map(withcaseinfo (*kc_fp)(withcaseinfo)) |
| { return dynamic_cast<withcasesinfo>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conswithcasesinfo)); } |
| withcasesinfo |
| impl_withcasesinfo::filter(bool (*kc_fp)(withcaseinfo)) |
| { return dynamic_cast<withcasesinfo>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conswithcasesinfo)); } |
| |
| withcasesinfo |
| impl_withcasesinfo::append(withcaseinfo new_last) |
| { |
| return dynamic_cast<withcasesinfo>(do_append(new_last, Nilwithcasesinfo())); |
| } |
| withcasesinfo |
| impl_withcasesinfo::merge( withcasesinfo second, withcaseinfo (*kc_fp)(withcaseinfo, withcaseinfo)) |
| { |
| return dynamic_cast<withcasesinfo>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conswithcasesinfo)); |
| } |
| withcaseinfo |
| impl_withcasesinfo::reduce( withcaseinfo neutral, withcaseinfo (*kc_fp)(withcaseinfo, withcaseinfo)) |
| { |
| return dynamic_cast<withcaseinfo>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| rewriteviewsinfo |
| concat(c_rewriteviewsinfo kc_p1, c_rewriteviewsinfo kc_p2) |
| { return dynamic_cast<rewriteviewsinfo>(kc_p1->do_concat(kc_p2, sel_Consrewriteviewsinfo)); } |
| |
| rewriteviewsinfo |
| impl_rewriteviewsinfo::reverse() const |
| { return dynamic_cast<rewriteviewsinfo>(do_reverse(Nilrewriteviewsinfo(), sel_Consrewriteviewsinfo)); } |
| |
| rewriteviewinfo |
| impl_rewriteviewsinfo::last() const |
| { return dynamic_cast<rewriteviewinfo>(impl_abstract_list::last()); } |
| |
| bool |
| impl_rewriteviewsinfo::is_nil() const |
| { |
| return rewriteviewinfo_1==0 && rewriteviewsinfo_1==0; |
| } |
| |
| rewriteviewsinfo |
| impl_rewriteviewsinfo::map(rewriteviewinfo (*kc_fp)(rewriteviewinfo)) |
| { return dynamic_cast<rewriteviewsinfo>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consrewriteviewsinfo)); } |
| rewriteviewsinfo |
| impl_rewriteviewsinfo::filter(bool (*kc_fp)(rewriteviewinfo)) |
| { return dynamic_cast<rewriteviewsinfo>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consrewriteviewsinfo)); } |
| |
| rewriteviewsinfo |
| impl_rewriteviewsinfo::append(rewriteviewinfo new_last) |
| { |
| return dynamic_cast<rewriteviewsinfo>(do_append(new_last, Nilrewriteviewsinfo())); |
| } |
| rewriteviewsinfo |
| impl_rewriteviewsinfo::merge( rewriteviewsinfo second, rewriteviewinfo (*kc_fp)(rewriteviewinfo, rewriteviewinfo)) |
| { |
| return dynamic_cast<rewriteviewsinfo>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consrewriteviewsinfo)); |
| } |
| rewriteviewinfo |
| impl_rewriteviewsinfo::reduce( rewriteviewinfo neutral, rewriteviewinfo (*kc_fp)(rewriteviewinfo, rewriteviewinfo)) |
| { |
| return dynamic_cast<rewriteviewinfo>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unparseviewsinfo |
| concat(c_unparseviewsinfo kc_p1, c_unparseviewsinfo kc_p2) |
| { return dynamic_cast<unparseviewsinfo>(kc_p1->do_concat(kc_p2, sel_Consunparseviewsinfo)); } |
| |
| unparseviewsinfo |
| impl_unparseviewsinfo::reverse() const |
| { return dynamic_cast<unparseviewsinfo>(do_reverse(Nilunparseviewsinfo(), sel_Consunparseviewsinfo)); } |
| |
| unparseviewinfo |
| impl_unparseviewsinfo::last() const |
| { return dynamic_cast<unparseviewinfo>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unparseviewsinfo::is_nil() const |
| { |
| return unparseviewinfo_1==0 && unparseviewsinfo_1==0; |
| } |
| |
| unparseviewsinfo |
| impl_unparseviewsinfo::map(unparseviewinfo (*kc_fp)(unparseviewinfo)) |
| { return dynamic_cast<unparseviewsinfo>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunparseviewsinfo)); } |
| unparseviewsinfo |
| impl_unparseviewsinfo::filter(bool (*kc_fp)(unparseviewinfo)) |
| { return dynamic_cast<unparseviewsinfo>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunparseviewsinfo)); } |
| |
| unparseviewsinfo |
| impl_unparseviewsinfo::append(unparseviewinfo new_last) |
| { |
| return dynamic_cast<unparseviewsinfo>(do_append(new_last, Nilunparseviewsinfo())); |
| } |
| unparseviewsinfo |
| impl_unparseviewsinfo::merge( unparseviewsinfo second, unparseviewinfo (*kc_fp)(unparseviewinfo, unparseviewinfo)) |
| { |
| return dynamic_cast<unparseviewsinfo>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunparseviewsinfo)); |
| } |
| unparseviewinfo |
| impl_unparseviewsinfo::reduce( unparseviewinfo neutral, unparseviewinfo (*kc_fp)(unparseviewinfo, unparseviewinfo)) |
| { |
| return dynamic_cast<unparseviewinfo>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| unparsedeclsinfo |
| concat(c_unparsedeclsinfo kc_p1, c_unparsedeclsinfo kc_p2) |
| { return dynamic_cast<unparsedeclsinfo>(kc_p1->do_concat(kc_p2, sel_Consunparsedeclsinfo)); } |
| |
| unparsedeclsinfo |
| impl_unparsedeclsinfo::reverse() const |
| { return dynamic_cast<unparsedeclsinfo>(do_reverse(Nilunparsedeclsinfo(), sel_Consunparsedeclsinfo)); } |
| |
| unparsedeclinfo |
| impl_unparsedeclsinfo::last() const |
| { return dynamic_cast<unparsedeclinfo>(impl_abstract_list::last()); } |
| |
| bool |
| impl_unparsedeclsinfo::is_nil() const |
| { |
| return unparsedeclinfo_1==0 && unparsedeclsinfo_1==0; |
| } |
| |
| unparsedeclsinfo |
| impl_unparsedeclsinfo::map(unparsedeclinfo (*kc_fp)(unparsedeclinfo)) |
| { return dynamic_cast<unparsedeclsinfo>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consunparsedeclsinfo)); } |
| unparsedeclsinfo |
| impl_unparsedeclsinfo::filter(bool (*kc_fp)(unparsedeclinfo)) |
| { return dynamic_cast<unparsedeclsinfo>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consunparsedeclsinfo)); } |
| |
| unparsedeclsinfo |
| impl_unparsedeclsinfo::append(unparsedeclinfo new_last) |
| { |
| return dynamic_cast<unparsedeclsinfo>(do_append(new_last, Nilunparsedeclsinfo())); |
| } |
| unparsedeclsinfo |
| impl_unparsedeclsinfo::merge( unparsedeclsinfo second, unparsedeclinfo (*kc_fp)(unparsedeclinfo, unparsedeclinfo)) |
| { |
| return dynamic_cast<unparsedeclsinfo>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consunparsedeclsinfo)); |
| } |
| unparsedeclinfo |
| impl_unparsedeclsinfo::reduce( unparsedeclinfo neutral, unparsedeclinfo (*kc_fp)(unparsedeclinfo, unparsedeclinfo)) |
| { |
| return dynamic_cast<unparsedeclinfo>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_declaration_list |
| concat(c_ac_declaration_list kc_p1, c_ac_declaration_list kc_p2) |
| { return dynamic_cast<ac_declaration_list>(kc_p1->do_concat(kc_p2, sel_Consac_declaration_list)); } |
| |
| ac_declaration_list |
| impl_ac_declaration_list::reverse() const |
| { return dynamic_cast<ac_declaration_list>(do_reverse(Nilac_declaration_list(), sel_Consac_declaration_list)); } |
| |
| ac_declaration |
| impl_ac_declaration_list::last() const |
| { return dynamic_cast<ac_declaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_declaration_list::is_nil() const |
| { |
| return ac_declaration_1==0 && ac_declaration_list_1==0; |
| } |
| |
| ac_declaration_list |
| impl_ac_declaration_list::map(ac_declaration (*kc_fp)(ac_declaration)) |
| { return dynamic_cast<ac_declaration_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_declaration_list)); } |
| ac_declaration_list |
| impl_ac_declaration_list::filter(bool (*kc_fp)(ac_declaration)) |
| { return dynamic_cast<ac_declaration_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_declaration_list)); } |
| |
| ac_declaration_list |
| impl_ac_declaration_list::append(ac_declaration new_last) |
| { |
| return dynamic_cast<ac_declaration_list>(do_append(new_last, Nilac_declaration_list())); |
| } |
| ac_declaration_list |
| impl_ac_declaration_list::merge( ac_declaration_list second, ac_declaration (*kc_fp)(ac_declaration, ac_declaration)) |
| { |
| return dynamic_cast<ac_declaration_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_declaration_list)); |
| } |
| ac_declaration |
| impl_ac_declaration_list::reduce( ac_declaration neutral, ac_declaration (*kc_fp)(ac_declaration, ac_declaration)) |
| { |
| return dynamic_cast<ac_declaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_declaration_specifiers |
| concat(c_ac_declaration_specifiers kc_p1, c_ac_declaration_specifiers kc_p2) |
| { return dynamic_cast<ac_declaration_specifiers>(kc_p1->do_concat(kc_p2, sel_Consac_declaration_specifiers)); } |
| |
| ac_declaration_specifiers |
| impl_ac_declaration_specifiers::reverse() const |
| { return dynamic_cast<ac_declaration_specifiers>(do_reverse(Nilac_declaration_specifiers(), sel_Consac_declaration_specifiers)); } |
| |
| ac_declaration_specifier |
| impl_ac_declaration_specifiers::last() const |
| { return dynamic_cast<ac_declaration_specifier>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_declaration_specifiers::is_nil() const |
| { |
| return ac_declaration_specifier_1==0 && ac_declaration_specifiers_1==0; |
| } |
| |
| ac_declaration_specifiers |
| impl_ac_declaration_specifiers::map(ac_declaration_specifier (*kc_fp)(ac_declaration_specifier)) |
| { return dynamic_cast<ac_declaration_specifiers>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_declaration_specifiers)); } |
| ac_declaration_specifiers |
| impl_ac_declaration_specifiers::filter(bool (*kc_fp)(ac_declaration_specifier)) |
| { return dynamic_cast<ac_declaration_specifiers>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_declaration_specifiers)); } |
| |
| ac_declaration_specifiers |
| impl_ac_declaration_specifiers::append(ac_declaration_specifier new_last) |
| { |
| return dynamic_cast<ac_declaration_specifiers>(do_append(new_last, Nilac_declaration_specifiers())); |
| } |
| ac_declaration_specifiers |
| impl_ac_declaration_specifiers::merge( ac_declaration_specifiers second, ac_declaration_specifier (*kc_fp)(ac_declaration_specifier, ac_declaration_specifier)) |
| { |
| return dynamic_cast<ac_declaration_specifiers>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_declaration_specifiers)); |
| } |
| ac_declaration_specifier |
| impl_ac_declaration_specifiers::reduce( ac_declaration_specifier neutral, ac_declaration_specifier (*kc_fp)(ac_declaration_specifier, ac_declaration_specifier)) |
| { |
| return dynamic_cast<ac_declaration_specifier>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_init_declarator_list |
| concat(c_ac_init_declarator_list kc_p1, c_ac_init_declarator_list kc_p2) |
| { return dynamic_cast<ac_init_declarator_list>(kc_p1->do_concat(kc_p2, sel_Consac_init_declarator_list)); } |
| |
| ac_init_declarator_list |
| impl_ac_init_declarator_list::reverse() const |
| { return dynamic_cast<ac_init_declarator_list>(do_reverse(Nilac_init_declarator_list(), sel_Consac_init_declarator_list)); } |
| |
| ac_init_declarator |
| impl_ac_init_declarator_list::last() const |
| { return dynamic_cast<ac_init_declarator>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_init_declarator_list::is_nil() const |
| { |
| return ac_init_declarator_1==0 && ac_init_declarator_list_1==0; |
| } |
| |
| ac_init_declarator_list |
| impl_ac_init_declarator_list::map(ac_init_declarator (*kc_fp)(ac_init_declarator)) |
| { return dynamic_cast<ac_init_declarator_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_init_declarator_list)); } |
| ac_init_declarator_list |
| impl_ac_init_declarator_list::filter(bool (*kc_fp)(ac_init_declarator)) |
| { return dynamic_cast<ac_init_declarator_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_init_declarator_list)); } |
| |
| ac_init_declarator_list |
| impl_ac_init_declarator_list::append(ac_init_declarator new_last) |
| { |
| return dynamic_cast<ac_init_declarator_list>(do_append(new_last, Nilac_init_declarator_list())); |
| } |
| ac_init_declarator_list |
| impl_ac_init_declarator_list::merge( ac_init_declarator_list second, ac_init_declarator (*kc_fp)(ac_init_declarator, ac_init_declarator)) |
| { |
| return dynamic_cast<ac_init_declarator_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_init_declarator_list)); |
| } |
| ac_init_declarator |
| impl_ac_init_declarator_list::reduce( ac_init_declarator neutral, ac_init_declarator (*kc_fp)(ac_init_declarator, ac_init_declarator)) |
| { |
| return dynamic_cast<ac_init_declarator>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_class_qualifier_help_list |
| concat(c_ac_class_qualifier_help_list kc_p1, c_ac_class_qualifier_help_list kc_p2) |
| { return dynamic_cast<ac_class_qualifier_help_list>(kc_p1->do_concat(kc_p2, sel_Consac_class_qualifier_help_list)); } |
| |
| ac_class_qualifier_help_list |
| impl_ac_class_qualifier_help_list::reverse() const |
| { return dynamic_cast<ac_class_qualifier_help_list>(do_reverse(Nilac_class_qualifier_help_list(), sel_Consac_class_qualifier_help_list)); } |
| |
| ac_direct_declarator |
| impl_ac_class_qualifier_help_list::last() const |
| { return dynamic_cast<ac_direct_declarator>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_class_qualifier_help_list::is_nil() const |
| { |
| return ac_direct_declarator_1==0 && ac_class_qualifier_help_list_1==0; |
| } |
| |
| ac_class_qualifier_help_list |
| impl_ac_class_qualifier_help_list::map(ac_direct_declarator (*kc_fp)(ac_direct_declarator)) |
| { return dynamic_cast<ac_class_qualifier_help_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_class_qualifier_help_list)); } |
| ac_class_qualifier_help_list |
| impl_ac_class_qualifier_help_list::filter(bool (*kc_fp)(ac_direct_declarator)) |
| { return dynamic_cast<ac_class_qualifier_help_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_class_qualifier_help_list)); } |
| |
| ac_class_qualifier_help_list |
| impl_ac_class_qualifier_help_list::append(ac_direct_declarator new_last) |
| { |
| return dynamic_cast<ac_class_qualifier_help_list>(do_append(new_last, Nilac_class_qualifier_help_list())); |
| } |
| ac_class_qualifier_help_list |
| impl_ac_class_qualifier_help_list::merge( ac_class_qualifier_help_list second, ac_direct_declarator (*kc_fp)(ac_direct_declarator, ac_direct_declarator)) |
| { |
| return dynamic_cast<ac_class_qualifier_help_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_class_qualifier_help_list)); |
| } |
| ac_direct_declarator |
| impl_ac_class_qualifier_help_list::reduce( ac_direct_declarator neutral, ac_direct_declarator (*kc_fp)(ac_direct_declarator, ac_direct_declarator)) |
| { |
| return dynamic_cast<ac_direct_declarator>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_class_qualifier_list |
| concat(c_ac_class_qualifier_list kc_p1, c_ac_class_qualifier_list kc_p2) |
| { return dynamic_cast<ac_class_qualifier_list>(kc_p1->do_concat(kc_p2, sel_Consac_class_qualifier_list)); } |
| |
| ac_class_qualifier_list |
| impl_ac_class_qualifier_list::reverse() const |
| { return dynamic_cast<ac_class_qualifier_list>(do_reverse(Nilac_class_qualifier_list(), sel_Consac_class_qualifier_list)); } |
| |
| ID |
| impl_ac_class_qualifier_list::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_class_qualifier_list::is_nil() const |
| { |
| return ID_1==0 && ac_class_qualifier_list_1==0; |
| } |
| |
| ac_class_qualifier_list |
| impl_ac_class_qualifier_list::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<ac_class_qualifier_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_class_qualifier_list)); } |
| ac_class_qualifier_list |
| impl_ac_class_qualifier_list::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<ac_class_qualifier_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_class_qualifier_list)); } |
| |
| ac_class_qualifier_list |
| impl_ac_class_qualifier_list::append(ID new_last) |
| { |
| return dynamic_cast<ac_class_qualifier_list>(do_append(new_last, Nilac_class_qualifier_list())); |
| } |
| ac_class_qualifier_list |
| impl_ac_class_qualifier_list::merge( ac_class_qualifier_list second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ac_class_qualifier_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_class_qualifier_list)); |
| } |
| ID |
| impl_ac_class_qualifier_list::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_type_qualifier_list |
| concat(c_ac_type_qualifier_list kc_p1, c_ac_type_qualifier_list kc_p2) |
| { return dynamic_cast<ac_type_qualifier_list>(kc_p1->do_concat(kc_p2, sel_Consac_type_qualifier_list)); } |
| |
| ac_type_qualifier_list |
| impl_ac_type_qualifier_list::reverse() const |
| { return dynamic_cast<ac_type_qualifier_list>(do_reverse(Nilac_type_qualifier_list(), sel_Consac_type_qualifier_list)); } |
| |
| ac_type_qualifier |
| impl_ac_type_qualifier_list::last() const |
| { return dynamic_cast<ac_type_qualifier>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_type_qualifier_list::is_nil() const |
| { |
| return ac_type_qualifier_1==0 && ac_type_qualifier_list_1==0; |
| } |
| |
| ac_type_qualifier_list |
| impl_ac_type_qualifier_list::map(ac_type_qualifier (*kc_fp)(ac_type_qualifier)) |
| { return dynamic_cast<ac_type_qualifier_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_type_qualifier_list)); } |
| ac_type_qualifier_list |
| impl_ac_type_qualifier_list::filter(bool (*kc_fp)(ac_type_qualifier)) |
| { return dynamic_cast<ac_type_qualifier_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_type_qualifier_list)); } |
| |
| ac_type_qualifier_list |
| impl_ac_type_qualifier_list::append(ac_type_qualifier new_last) |
| { |
| return dynamic_cast<ac_type_qualifier_list>(do_append(new_last, Nilac_type_qualifier_list())); |
| } |
| ac_type_qualifier_list |
| impl_ac_type_qualifier_list::merge( ac_type_qualifier_list second, ac_type_qualifier (*kc_fp)(ac_type_qualifier, ac_type_qualifier)) |
| { |
| return dynamic_cast<ac_type_qualifier_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_type_qualifier_list)); |
| } |
| ac_type_qualifier |
| impl_ac_type_qualifier_list::reduce( ac_type_qualifier neutral, ac_type_qualifier (*kc_fp)(ac_type_qualifier, ac_type_qualifier)) |
| { |
| return dynamic_cast<ac_type_qualifier>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_parameter_list |
| concat(c_ac_parameter_list kc_p1, c_ac_parameter_list kc_p2) |
| { return dynamic_cast<ac_parameter_list>(kc_p1->do_concat(kc_p2, sel_Consac_parameter_list)); } |
| |
| ac_parameter_list |
| impl_ac_parameter_list::reverse() const |
| { return dynamic_cast<ac_parameter_list>(do_reverse(Nilac_parameter_list(), sel_Consac_parameter_list)); } |
| |
| ac_parameter_declaration |
| impl_ac_parameter_list::last() const |
| { return dynamic_cast<ac_parameter_declaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_parameter_list::is_nil() const |
| { |
| return ac_parameter_declaration_1==0 && ac_parameter_list_1==0; |
| } |
| |
| ac_parameter_list |
| impl_ac_parameter_list::map(ac_parameter_declaration (*kc_fp)(ac_parameter_declaration)) |
| { return dynamic_cast<ac_parameter_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_parameter_list)); } |
| ac_parameter_list |
| impl_ac_parameter_list::filter(bool (*kc_fp)(ac_parameter_declaration)) |
| { return dynamic_cast<ac_parameter_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_parameter_list)); } |
| |
| ac_parameter_list |
| impl_ac_parameter_list::append(ac_parameter_declaration new_last) |
| { |
| return dynamic_cast<ac_parameter_list>(do_append(new_last, Nilac_parameter_list())); |
| } |
| ac_parameter_list |
| impl_ac_parameter_list::merge( ac_parameter_list second, ac_parameter_declaration (*kc_fp)(ac_parameter_declaration, ac_parameter_declaration)) |
| { |
| return dynamic_cast<ac_parameter_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_parameter_list)); |
| } |
| ac_parameter_declaration |
| impl_ac_parameter_list::reduce( ac_parameter_declaration neutral, ac_parameter_declaration (*kc_fp)(ac_parameter_declaration, ac_parameter_declaration)) |
| { |
| return dynamic_cast<ac_parameter_declaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_identifier_list |
| concat(c_ac_identifier_list kc_p1, c_ac_identifier_list kc_p2) |
| { return dynamic_cast<ac_identifier_list>(kc_p1->do_concat(kc_p2, sel_Consac_identifier_list)); } |
| |
| ac_identifier_list |
| impl_ac_identifier_list::reverse() const |
| { return dynamic_cast<ac_identifier_list>(do_reverse(Nilac_identifier_list(), sel_Consac_identifier_list)); } |
| |
| ID |
| impl_ac_identifier_list::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_identifier_list::is_nil() const |
| { |
| return ID_1==0 && ac_identifier_list_1==0; |
| } |
| |
| ac_identifier_list |
| impl_ac_identifier_list::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<ac_identifier_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_identifier_list)); } |
| ac_identifier_list |
| impl_ac_identifier_list::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<ac_identifier_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_identifier_list)); } |
| |
| ac_identifier_list |
| impl_ac_identifier_list::append(ID new_last) |
| { |
| return dynamic_cast<ac_identifier_list>(do_append(new_last, Nilac_identifier_list())); |
| } |
| ac_identifier_list |
| impl_ac_identifier_list::merge( ac_identifier_list second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ac_identifier_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_identifier_list)); |
| } |
| ID |
| impl_ac_identifier_list::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_constant_expression_list |
| concat(c_ac_constant_expression_list kc_p1, c_ac_constant_expression_list kc_p2) |
| { return dynamic_cast<ac_constant_expression_list>(kc_p1->do_concat(kc_p2, sel_Consac_constant_expression_list)); } |
| |
| ac_constant_expression_list |
| impl_ac_constant_expression_list::reverse() const |
| { return dynamic_cast<ac_constant_expression_list>(do_reverse(Nilac_constant_expression_list(), sel_Consac_constant_expression_list)); } |
| |
| ac_constant_expression |
| impl_ac_constant_expression_list::last() const |
| { return dynamic_cast<ac_constant_expression>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_constant_expression_list::is_nil() const |
| { |
| return ac_constant_expression_1==0 && ac_constant_expression_list_1==0; |
| } |
| |
| ac_constant_expression_list |
| impl_ac_constant_expression_list::map(ac_constant_expression (*kc_fp)(ac_constant_expression)) |
| { return dynamic_cast<ac_constant_expression_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_constant_expression_list)); } |
| ac_constant_expression_list |
| impl_ac_constant_expression_list::filter(bool (*kc_fp)(ac_constant_expression)) |
| { return dynamic_cast<ac_constant_expression_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_constant_expression_list)); } |
| |
| ac_constant_expression_list |
| impl_ac_constant_expression_list::append(ac_constant_expression new_last) |
| { |
| return dynamic_cast<ac_constant_expression_list>(do_append(new_last, Nilac_constant_expression_list())); |
| } |
| ac_constant_expression_list |
| impl_ac_constant_expression_list::merge( ac_constant_expression_list second, ac_constant_expression (*kc_fp)(ac_constant_expression, ac_constant_expression)) |
| { |
| return dynamic_cast<ac_constant_expression_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_constant_expression_list)); |
| } |
| ac_constant_expression |
| impl_ac_constant_expression_list::reduce( ac_constant_expression neutral, ac_constant_expression (*kc_fp)(ac_constant_expression, ac_constant_expression)) |
| { |
| return dynamic_cast<ac_constant_expression>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| ac_base_init_list |
| concat(c_ac_base_init_list kc_p1, c_ac_base_init_list kc_p2) |
| { return dynamic_cast<ac_base_init_list>(kc_p1->do_concat(kc_p2, sel_Consac_base_init_list)); } |
| |
| ac_base_init_list |
| impl_ac_base_init_list::reverse() const |
| { return dynamic_cast<ac_base_init_list>(do_reverse(Nilac_base_init_list(), sel_Consac_base_init_list)); } |
| |
| ac_base_init |
| impl_ac_base_init_list::last() const |
| { return dynamic_cast<ac_base_init>(impl_abstract_list::last()); } |
| |
| bool |
| impl_ac_base_init_list::is_nil() const |
| { |
| return ac_base_init_1==0 && ac_base_init_list_1==0; |
| } |
| |
| ac_base_init_list |
| impl_ac_base_init_list::map(ac_base_init (*kc_fp)(ac_base_init)) |
| { return dynamic_cast<ac_base_init_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consac_base_init_list)); } |
| ac_base_init_list |
| impl_ac_base_init_list::filter(bool (*kc_fp)(ac_base_init)) |
| { return dynamic_cast<ac_base_init_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consac_base_init_list)); } |
| |
| ac_base_init_list |
| impl_ac_base_init_list::append(ac_base_init new_last) |
| { |
| return dynamic_cast<ac_base_init_list>(do_append(new_last, Nilac_base_init_list())); |
| } |
| ac_base_init_list |
| impl_ac_base_init_list::merge( ac_base_init_list second, ac_base_init (*kc_fp)(ac_base_init, ac_base_init)) |
| { |
| return dynamic_cast<ac_base_init_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consac_base_init_list)); |
| } |
| ac_base_init |
| impl_ac_base_init_list::reduce( ac_base_init neutral, ac_base_init (*kc_fp)(ac_base_init, ac_base_init)) |
| { |
| return dynamic_cast<ac_base_init>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| baseclass_declarations |
| concat(c_baseclass_declarations kc_p1, c_baseclass_declarations kc_p2) |
| { return dynamic_cast<baseclass_declarations>(kc_p1->do_concat(kc_p2, sel_Consbaseclass_declarations)); } |
| |
| baseclass_declarations |
| impl_baseclass_declarations::reverse() const |
| { return dynamic_cast<baseclass_declarations>(do_reverse(Nilbaseclass_declarations(), sel_Consbaseclass_declarations)); } |
| |
| baseclass_decl |
| impl_baseclass_declarations::last() const |
| { return dynamic_cast<baseclass_decl>(impl_abstract_list::last()); } |
| |
| bool |
| impl_baseclass_declarations::is_nil() const |
| { |
| return baseclass_decl_1==0 && baseclass_declarations_1==0; |
| } |
| |
| baseclass_declarations |
| impl_baseclass_declarations::map(baseclass_decl (*kc_fp)(baseclass_decl)) |
| { return dynamic_cast<baseclass_declarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consbaseclass_declarations)); } |
| baseclass_declarations |
| impl_baseclass_declarations::filter(bool (*kc_fp)(baseclass_decl)) |
| { return dynamic_cast<baseclass_declarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consbaseclass_declarations)); } |
| |
| baseclass_declarations |
| impl_baseclass_declarations::append(baseclass_decl new_last) |
| { |
| return dynamic_cast<baseclass_declarations>(do_append(new_last, Nilbaseclass_declarations())); |
| } |
| baseclass_declarations |
| impl_baseclass_declarations::merge( baseclass_declarations second, baseclass_decl (*kc_fp)(baseclass_decl, baseclass_decl)) |
| { |
| return dynamic_cast<baseclass_declarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consbaseclass_declarations)); |
| } |
| baseclass_decl |
| impl_baseclass_declarations::reduce( baseclass_decl neutral, baseclass_decl (*kc_fp)(baseclass_decl, baseclass_decl)) |
| { |
| return dynamic_cast<baseclass_decl>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| baseclass_list |
| concat(c_baseclass_list kc_p1, c_baseclass_list kc_p2) |
| { return dynamic_cast<baseclass_list>(kc_p1->do_concat(kc_p2, sel_Consbaseclass_list)); } |
| |
| baseclass_list |
| impl_baseclass_list::reverse() const |
| { return dynamic_cast<baseclass_list>(do_reverse(Nilbaseclass_list(), sel_Consbaseclass_list)); } |
| |
| ID |
| impl_baseclass_list::last() const |
| { return dynamic_cast<ID>(impl_abstract_list::last()); } |
| |
| bool |
| impl_baseclass_list::is_nil() const |
| { |
| return ID_1==0 && baseclass_list_1==0; |
| } |
| |
| baseclass_list |
| impl_baseclass_list::map(ID (*kc_fp)(ID)) |
| { return dynamic_cast<baseclass_list>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consbaseclass_list)); } |
| baseclass_list |
| impl_baseclass_list::filter(bool (*kc_fp)(ID)) |
| { return dynamic_cast<baseclass_list>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consbaseclass_list)); } |
| |
| baseclass_list |
| impl_baseclass_list::append(ID new_last) |
| { |
| return dynamic_cast<baseclass_list>(do_append(new_last, Nilbaseclass_list())); |
| } |
| baseclass_list |
| impl_baseclass_list::merge( baseclass_list second, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<baseclass_list>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consbaseclass_list)); |
| } |
| ID |
| impl_baseclass_list::reduce( ID neutral, ID (*kc_fp)(ID, ID)) |
| { |
| return dynamic_cast<ID>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| addedphylumdeclarations |
| concat(c_addedphylumdeclarations kc_p1, c_addedphylumdeclarations kc_p2) |
| { return dynamic_cast<addedphylumdeclarations>(kc_p1->do_concat(kc_p2, sel_Consaddedphylumdeclarations)); } |
| |
| addedphylumdeclarations |
| impl_addedphylumdeclarations::reverse() const |
| { return dynamic_cast<addedphylumdeclarations>(do_reverse(Niladdedphylumdeclarations(), sel_Consaddedphylumdeclarations)); } |
| |
| addedphylumdeclaration |
| impl_addedphylumdeclarations::last() const |
| { return dynamic_cast<addedphylumdeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_addedphylumdeclarations::is_nil() const |
| { |
| return addedphylumdeclaration_1==0 && addedphylumdeclarations_1==0; |
| } |
| |
| addedphylumdeclarations |
| impl_addedphylumdeclarations::map(addedphylumdeclaration (*kc_fp)(addedphylumdeclaration)) |
| { return dynamic_cast<addedphylumdeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consaddedphylumdeclarations)); } |
| addedphylumdeclarations |
| impl_addedphylumdeclarations::filter(bool (*kc_fp)(addedphylumdeclaration)) |
| { return dynamic_cast<addedphylumdeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consaddedphylumdeclarations)); } |
| |
| addedphylumdeclarations |
| impl_addedphylumdeclarations::append(addedphylumdeclaration new_last) |
| { |
| return dynamic_cast<addedphylumdeclarations>(do_append(new_last, Niladdedphylumdeclarations())); |
| } |
| addedphylumdeclarations |
| impl_addedphylumdeclarations::merge( addedphylumdeclarations second, addedphylumdeclaration (*kc_fp)(addedphylumdeclaration, addedphylumdeclaration)) |
| { |
| return dynamic_cast<addedphylumdeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consaddedphylumdeclarations)); |
| } |
| addedphylumdeclaration |
| impl_addedphylumdeclarations::reduce( addedphylumdeclaration neutral, addedphylumdeclaration (*kc_fp)(addedphylumdeclaration, addedphylumdeclaration)) |
| { |
| return dynamic_cast<addedphylumdeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| countedphylumdeclarations |
| concat(c_countedphylumdeclarations kc_p1, c_countedphylumdeclarations kc_p2) |
| { return dynamic_cast<countedphylumdeclarations>(kc_p1->do_concat(kc_p2, sel_Conscountedphylumdeclarations)); } |
| |
| countedphylumdeclarations |
| impl_countedphylumdeclarations::reverse() const |
| { return dynamic_cast<countedphylumdeclarations>(do_reverse(Nilcountedphylumdeclarations(), sel_Conscountedphylumdeclarations)); } |
| |
| countedphylumdeclaration |
| impl_countedphylumdeclarations::last() const |
| { return dynamic_cast<countedphylumdeclaration>(impl_abstract_list::last()); } |
| |
| bool |
| impl_countedphylumdeclarations::is_nil() const |
| { |
| return countedphylumdeclaration_1==0 && countedphylumdeclarations_1==0; |
| } |
| |
| countedphylumdeclarations |
| impl_countedphylumdeclarations::map(countedphylumdeclaration (*kc_fp)(countedphylumdeclaration)) |
| { return dynamic_cast<countedphylumdeclarations>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Conscountedphylumdeclarations)); } |
| countedphylumdeclarations |
| impl_countedphylumdeclarations::filter(bool (*kc_fp)(countedphylumdeclaration)) |
| { return dynamic_cast<countedphylumdeclarations>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Conscountedphylumdeclarations)); } |
| |
| countedphylumdeclarations |
| impl_countedphylumdeclarations::append(countedphylumdeclaration new_last) |
| { |
| return dynamic_cast<countedphylumdeclarations>(do_append(new_last, Nilcountedphylumdeclarations())); |
| } |
| countedphylumdeclarations |
| impl_countedphylumdeclarations::merge( countedphylumdeclarations second, countedphylumdeclaration (*kc_fp)(countedphylumdeclaration, countedphylumdeclaration)) |
| { |
| return dynamic_cast<countedphylumdeclarations>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Conscountedphylumdeclarations)); |
| } |
| countedphylumdeclaration |
| impl_countedphylumdeclarations::reduce( countedphylumdeclaration neutral, countedphylumdeclaration (*kc_fp)(countedphylumdeclaration, countedphylumdeclaration)) |
| { |
| return dynamic_cast<countedphylumdeclaration>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| bindingidmarks |
| concat(c_bindingidmarks kc_p1, c_bindingidmarks kc_p2) |
| { return dynamic_cast<bindingidmarks>(kc_p1->do_concat(kc_p2, sel_Consbindingidmarks)); } |
| |
| bindingidmarks |
| impl_bindingidmarks::reverse() const |
| { return dynamic_cast<bindingidmarks>(do_reverse(Nilbindingidmarks(), sel_Consbindingidmarks)); } |
| |
| bindingidmark |
| impl_bindingidmarks::last() const |
| { return dynamic_cast<bindingidmark>(impl_abstract_list::last()); } |
| |
| bool |
| impl_bindingidmarks::is_nil() const |
| { |
| return bindingidmark_1==0 && bindingidmarks_1==0; |
| } |
| |
| bindingidmarks |
| impl_bindingidmarks::map(bindingidmark (*kc_fp)(bindingidmark)) |
| { return dynamic_cast<bindingidmarks>(do_map((abstract_phylum (*)(abstract_phylum))kc_fp, sel_Consbindingidmarks)); } |
| bindingidmarks |
| impl_bindingidmarks::filter(bool (*kc_fp)(bindingidmark)) |
| { return dynamic_cast<bindingidmarks>(do_filter((bool (*)(abstract_phylum))kc_fp, sel_Consbindingidmarks)); } |
| |
| bindingidmarks |
| impl_bindingidmarks::append(bindingidmark new_last) |
| { |
| return dynamic_cast<bindingidmarks>(do_append(new_last, Nilbindingidmarks())); |
| } |
| bindingidmarks |
| impl_bindingidmarks::merge( bindingidmarks second, bindingidmark (*kc_fp)(bindingidmark, bindingidmark)) |
| { |
| return dynamic_cast<bindingidmarks>(do_merge(second,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp, sel_Consbindingidmarks)); |
| } |
| bindingidmark |
| impl_bindingidmarks::reduce( bindingidmark neutral, bindingidmark (*kc_fp)(bindingidmark, bindingidmark)) |
| { |
| return dynamic_cast<bindingidmark>(do_reduce(neutral,(abstract_phylum(*)(abstract_phylum,abstract_phylum))kc_fp)); |
| } |
| |
| abstract_phylum |
| impl_abstract_phylum::copy(bool kc_copy_attributes) const |
| { |
| enum_phyla kc_phy = phylum(); // XXX - implement special cases in subclasses - MvL |
| KC_OPERATOR_INFO *kc_op_info = &operator_info[prod_sel()]; |
| kc_storageclass_t kc_st = phylum_info[kc_op_info->phylum].uniq_stored; |
| if (kc_st && kc_storageclass_still_uniq[kc_st]) |
| return const_cast<abstract_phylum>(this); |
| abstract_phylum kc_answer=0; |
| if (kc_phy == phylum_casestring) { |
| kc_answer=mkcasestring((dynamic_cast<c_casestring>(this))->name); |
| } else if (kc_phy == phylum_nocasestring) { |
| kc_answer=mknocasestring((dynamic_cast<c_nocasestring>(this))->name); |
| } else if (kc_phy == phylum_voidptr) { |
| kc_answer=mkvoidptr((dynamic_cast<c_voidptr>(this))->pointer); |
| } else if (kc_phy == phylum_integer) { |
| kc_answer=mkinteger((dynamic_cast<c_integer>(this))->value); |
| } else if (kc_phy == phylum_real) { |
| kc_answer=mkreal((dynamic_cast<c_real>(this))->value); |
| } else { |
| abstract_phylum kc_subtmp[7], child; |
| for (int kc_i = 0; (child = subphylum(kc_i)); kc_i++) { |
| kc_subtmp[kc_i] = child->copy(kc_copy_attributes); |
| } |
| switch(kc_op_info->no_sons) { |
| case 0: kc_answer = kc_create(prod_sel()); break; |
| case 1: kc_answer = kc_create(prod_sel(), kc_subtmp[0]); break; |
| case 2: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1]); break; |
| case 3: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1], kc_subtmp[2]); break; |
| case 4: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1], kc_subtmp[2], kc_subtmp[3]); break; |
| case 5: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1], kc_subtmp[2], kc_subtmp[3], kc_subtmp[4]); break; |
| case 6: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1], kc_subtmp[2], kc_subtmp[3], kc_subtmp[4], kc_subtmp[5]); break; |
| case 7: kc_answer = kc_create(prod_sel(), kc_subtmp[0], kc_subtmp[1], kc_subtmp[2], kc_subtmp[3], kc_subtmp[4], kc_subtmp[5], kc_subtmp[6]); break; |
| default: assertionFailed("unexpected number of sub-phyla"); |
| } |
| } |
| if (kc_copy_attributes) |
| copy_attributes(kc_phy, this, kc_answer); |
| return kc_answer; |
| } |
| |
| |
| } // namespace kc |