void containment_expander::inject_global_module(intermediate_model& im) { BOOST_LOG_SEV(lg, debug) << "Injecting global module for: " << im.name().id(); const auto gm(create_global_module(im.origin_type())); const auto gmn(gm.name()); const auto i(im.modules().find(gmn.id())); if (i != im.modules().end()) { const auto id(im.name().id()); BOOST_LOG_SEV(lg, error) << model_already_has_global_module << id; BOOST_THROW_EXCEPTION( injection_error(model_already_has_global_module + id)); } im.modules().insert(std::make_pair(gmn.id(), gm)); add_containing_module_to_non_contained_entities(gmn, im.modules()); add_containing_module_to_non_contained_entities(gmn, im.concepts()); add_containing_module_to_non_contained_entities(gmn, im.primitives()); add_containing_module_to_non_contained_entities(gmn, im.enumerations()); add_containing_module_to_non_contained_entities(gmn, im.objects()); add_containing_module_to_non_contained_entities(gmn, im.exceptions()); add_containing_module_to_non_contained_entities(gmn, im.visitors()); BOOST_LOG_SEV(lg, debug) << "Done injecting global module"; }
std::size_t intermediate_model_hasher::hash(const intermediate_model& v) { std::size_t seed(0); combine(seed, v.name()); combine(seed, v.origin_type()); combine(seed, v.original_model_name()); combine(seed, v.generation_type()); combine(seed, hash_std_unordered_map_dogen_yarn_name_dogen_yarn_origin_types(v.references())); combine(seed, hash_std_unordered_set_dogen_yarn_name(v.leaves())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_module(v.modules())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_concept(v.concepts())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_primitive(v.primitives())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_enumeration(v.enumerations())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_object(v.objects())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_exception(v.exceptions())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_visitor(v.visitors())); combine(seed, v.is_target()); combine(seed, v.has_generatable_types()); return seed; }
void injector::inject_global_module(intermediate_model& m) { const auto gm(create_global_module()); const auto gmn(gm.name()); const auto i(m.modules().find(gmn.qualified())); if (i != m.modules().end()) { const auto qn(m.name().qualified()); BOOST_LOG_SEV(lg, error) << model_already_has_global_module << qn; BOOST_THROW_EXCEPTION(injection_error( model_already_has_global_module + qn)); } m.modules().insert(std::make_pair(gmn.qualified(), gm)); add_containing_module_to_non_contained_entities(gmn, m.modules()); add_containing_module_to_non_contained_entities(gmn, m.concepts()); add_containing_module_to_non_contained_entities(gmn, m.primitives()); add_containing_module_to_non_contained_entities(gmn, m.enumerations()); add_containing_module_to_non_contained_entities(gmn, m.objects()); add_containing_module_to_non_contained_entities(gmn, m.exceptions()); add_containing_module_to_non_contained_entities(gmn, m.visitors()); }
inline void elements_traversal(intermediate_model& m, TraversalVisitor& v) { for (auto& pair : m.modules()) v(pair.second); for (auto& pair : m.concepts()) v(pair.second); for (auto& pair : m.primitives()) v(pair.second); for (auto& pair : m.enumerations()) v(pair.second); for (auto& pair : m.objects()) v(pair.second); for (auto& pair : m.exceptions()) v(pair.second); for (auto& pair : m.visitors()) v(pair.second); }
std::size_t intermediate_model_hasher::hash(const intermediate_model& v) { std::size_t seed(0); combine(seed, v.name()); combine(seed, v.origin_type()); combine(seed, hash_std_unordered_map_dogen_yarn_name_dogen_yarn_origin_types(v.references())); combine(seed, hash_std_unordered_set_dogen_yarn_name(v.leaves())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_module(v.modules())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_concept(v.concepts())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_primitive(v.primitives())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_enumeration(v.enumerations())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_object(v.objects())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_exception(v.exceptions())); combine(seed, hash_std_unordered_map_std_string_dogen_yarn_visitor(v.visitors())); combine(seed, hash_std_unordered_map_std_string_boost_shared_ptr_dogen_yarn_element(v.injected_elements())); combine(seed, v.has_generatable_types()); combine(seed, v.indices()); combine(seed, v.root_module()); combine(seed, v.language()); return seed; }
void injector::inject_visitors(intermediate_model& m) { BOOST_LOG_SEV(lg, debug) << "Injecting visitors."; std::list<visitor> visitors; for (auto& pair : m.objects()) { auto& o(pair.second); if (!o.is_visitable()) continue; if (o.leaves().empty()) { const auto qn(o.name().qualified()); BOOST_LOG_SEV(lg, error) << zero_leaves << qn; BOOST_THROW_EXCEPTION(injection_error(zero_leaves + qn)); } const auto v(create_visitor(o, o.leaves())); inject_visitable_by(o, o.leaves(), v.name(), m); visitors.push_back(v); } for (const auto v : visitors) { BOOST_LOG_SEV(lg, debug) << "Adding visitor: " << v.name().qualified(); const auto pair(std::make_pair(v.name().qualified(), v)); const auto i(m.visitors().insert(pair)); if (!i.second) { const auto qn(v.name().qualified()); BOOST_LOG_SEV(lg, error) << duplicate_name << qn; BOOST_THROW_EXCEPTION(injection_error(duplicate_name + qn)); } } BOOST_LOG_SEV(lg, debug) << "Done injecting visitors."; }