boost::optional<qname> containing_module(model& m, const qname& qn) { if (qn.model_name().empty() || qn.simple_name() == m.name().model_name()) { BOOST_LOG_SEV(lg, debug) << "Type has no containing module: " << string_converter::convert(qn); return boost::optional<qname>(); } qname module_qn; module_qn.model_name(qn.model_name()); if (qn.module_path().empty()) { module_qn.simple_name(qn.model_name()); } else { module_qn.simple_name(qn.module_path().back()); module_qn.module_path(qn.module_path()); module_qn.module_path().pop_back(); } const auto i(m.modules().find(module_qn)); if (i != m.modules().end()) return module_qn; BOOST_LOG_SEV(lg, debug) << "Could not find containing module: " << string_converter::convert(module_qn); return boost::optional<qname>();; }
void json_hydrator::read_module_path(const boost::property_tree::ptree& pt, model& m, qname& qn) const { const auto i(pt.find(module_path_key)); if (i == pt.not_found()) return; for (auto j(i->second.begin()); j != i->second.end(); ++j) { const auto module_name(j->second.get_value<std::string>()); qn.module_path().push_back(module_name); qname module_qn; module_qn.simple_name(module_name); module_qn.model_name(model_name(m)); auto mp(qn.module_path()); mp.pop_back(); module_qn.module_path(mp); const auto i(m.modules().find(module_qn)); if (i == m.modules().end()) { module mod; mod.name(module_qn); mod.origin_type(m.origin_type()); mod.generation_type(m.generation_type()); m.modules().insert(std::make_pair(module_qn, mod)); } } }
void merger::merge_model(const model& m) { const auto mn(m.name().model_name()); BOOST_LOG_SEV(lg, info) << "Merging model: '" << mn << " modules: " << m.modules().size() << " concepts: " << m.concepts().size() << " primitives: " << m.primitives().size() << " enumerations: " << m.enumerations().size() << " objects: " << m.objects().size(); for (const auto& c : m.concepts()) { check_qname(m.name().model_name(), c.first, c.second.name()); merged_model_.concepts().insert(c); } for (const auto& p : m.primitives()) { // FIXME: mega hack to handle primitive model. const auto pmn(mn == primitive_model_name ? empty : mn); check_qname(pmn, p.first, p.second.name()); merged_model_.primitives().insert(p); } for (const auto& p : m.enumerations()) { check_qname(mn, p.first, p.second.name()); merged_model_.enumerations().insert(p); } for (const auto& o : m.objects()) { check_qname(mn, o.first, o.second->name()); merged_model_.objects().insert(o); } }
void json_hydrator::post_process(model& m) const { update_containing_module(m, m.objects()); update_containing_module(m, m.primitives()); update_containing_module(m, m.enumerations()); update_containing_module(m, m.concepts()); update_containing_module(m, m.modules()); }
void modules_expander::expand_containing_module(model& m) const { update_containing_module(m, m.objects()); update_containing_module(m, m.primitives()); update_containing_module(m, m.enumerations()); update_containing_module(m, m.concepts()); update_containing_module(m, m.modules()); }
inline void update_containing_module(model& m, AssociativeContainerOfContainable& c) { for (auto& pair : c) { auto& s(pair.second); s.containing_module(containing_module(m, s.name())); if (!s.containing_module()) continue; auto i(m.modules().find(*s.containing_module())); if (i == m.modules().end()) { const auto sn(s.containing_module()->simple()); BOOST_LOG_SEV(lg, error) << missing_module << sn; BOOST_THROW_EXCEPTION(expansion_error(missing_module + sn)); } BOOST_LOG_SEV(lg, debug) << "Adding type to module. Type: '" << s.name().qualified() << "' Module: '" << i->first.qualified(); i->second.members().push_back(s.name()); } }
void merger::merge_model(const model& m) { BOOST_LOG_SEV(lg, info) << "Merging model: '" << m.name().qualified() << " modules: " << m.modules().size() << " concepts: " << m.concepts().size() << " primitives: " << m.primitives().size() << " enumerations: " << m.enumerations().size() << " objects: " << m.objects().size(); const auto mn(m.name().location().original_model_name()); for (const auto& c : m.concepts()) { check_name(mn, c.first, c.second.name()); merged_model_.concepts().insert(c); } for (const auto& pair : m.primitives()) { // FIXME: mega hack to handle primitive model. const auto pmn(mn == hardware_model_name ? empty : mn); check_name(pmn, pair.first, pair.second.name()); merged_model_.primitives().insert(pair); } for (const auto& pair : m.enumerations()) { check_name(mn, pair.first, pair.second.name()); merged_model_.enumerations().insert(pair); } for (const auto& pair : m.objects()) { check_name(mn, pair.first, pair.second.name()); merged_model_.objects().insert(pair); } for (const auto& pair : m.modules()) { if (!pair.first.simple().empty()) check_name(mn, pair.first, pair.second.name()); merged_model_.modules().insert(pair); } }
void merger::add_target(const model& target) { require_not_has_target(target.name().simple_name()); has_target_ = true; merged_model_.name(target.name()); merged_model_.documentation(target.documentation()); merged_model_.leaves(target.leaves()); merged_model_.modules(target.modules()); merged_model_.references(target.references()); add(target); BOOST_LOG_SEV(lg, debug) << "added target model: " << target.name().simple_name(); }
void merger::add_target(const model& target) { const auto qn(target.name().qualified()); require_not_has_target(qn); has_target_ = true; merged_model_.name(target.name()); merged_model_.documentation(target.documentation()); merged_model_.leaves(target.leaves()); merged_model_.modules(target.modules()); merged_model_.references(target.references()); merged_model_.extensions(target.extensions()); merged_model_.is_target(true); BOOST_LOG_SEV(lg, debug) << "added target model: " << qn; }
std::size_t model_hasher::hash(const model& v) { std::size_t seed(0); combine(seed, v.documentation()); combine(seed, v.extensions()); combine(seed, v.name()); combine(seed, v.generation_type()); combine(seed, v.origin_type()); combine(seed, hash_boost_optional_dogen_tack_name(v.containing_module())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_origin_types(v.references())); combine(seed, hash_std_unordered_set_dogen_tack_name(v.leaves())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_module(v.modules())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_concept(v.concepts())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_primitive(v.primitives())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_enumeration(v.enumerations())); combine(seed, hash_std_unordered_map_dogen_tack_name_dogen_tack_object(v.objects())); combine(seed, v.is_target()); combine(seed, v.has_generatable_types()); return seed; }