#ifndef SCHEMA_HPP #define SCHEMA_HPP #include "matador/object/error_code.hpp" #include "matador/object/schema_node.hpp" #include "matador/object/schema_node_iterator.hpp" #include "matador/utils/result.hpp" #include "matador/utils/error.hpp" #include #include #include #include namespace matador::object { utils::error make_error(error_code ec, const std::string& msg); class schema; template class type_analyzer final { public: using value_type = Type; static void analyze(schema &scm) { type_analyzer analyzer(scm); Type obj; const auto ti = std::type_index(typeid(Type)); analyzer.known_types_.emplace(ti); access::process(analyzer, obj); analyzer.known_types_.erase(ti); } template < class PrimaryKeyType > void on_primary_key(const char * /*id*/, PrimaryKeyType &/*pk*/, std::enable_if_t && !std::is_same_v>* = nullptr) {} void on_primary_key(const char * /*id*/, std::string &/*pk*/, size_t /*size*/) {} void on_revision(const char * /*id*/, uint64_t &/*rev*/) {} template void on_attribute(const char * /*id*/, AttributeType &/*val*/, const utils::field_attributes &/*attr*/ = utils::null_attributes) {} template void on_attribute(const char * /*id*/, std::optional &/*val*/, const utils::field_attributes &/*attr*/ = utils::null_attributes) {} template void on_belongs_to(const char * /*id*/, ForeignPointerType &/*obj*/, const utils::foreign_attributes &/*attr*/) { // const auto [ref_table, ref_column] = determine_foreign_ref(std::type_index(typeid(typename Pointer::value_type))); // columns_.push_back(fk_column_generator_.generate(id, *x, ref_table, ref_column)); } template void on_has_one(const char * /*id*/, ForeignPointerType &/*obj*/, const utils::foreign_attributes &/*attr*/); template void on_has_many(const char * /*id*/, CollectionType &, const char *, const utils::foreign_attributes &/*attr*/) {} template void on_has_many_to_many(const char * /*id*/, CollectionType &/*col*/, const char * /*join_column*/, const char * /*inverse_join_column*/, const utils::foreign_attributes &/*attr*/) {} template void on_has_many_to_many(const char * /*id*/, ContainerType &/*col*/, const utils::foreign_attributes &/*attr*/) {} private: explicit type_analyzer(schema& schema) : schema_(schema) {}; private: schema &schema_; std::unordered_set known_types_; }; class schema { public: typedef const_schema_node_iterator const_iterator; /**< Shortcut for the list const iterator. */ /** * Creates an empty schema */ explicit schema( const std::string& name = ""); template [[nodiscard]] utils::result attach(const std::string& name, const std::string &parent = "") { if (has_node(name)) { return utils::failure(make_error(error_code::NodeAlreadyExists, "Node '" + name + "' already exists")); } // analyze node (collect unknown types by type index) type_analyzer::analyze(*this); auto node = schema_node::make_node(*this, name); auto result = attach_node(node, parent); if (!result) { return utils::failure(result.err()); } return utils::ok(); } template [[nodiscard]] utils::result attach(const std::string name) { const auto ti = std::type_index(typeid(ParentType)); auto result = find_node(ti); if (!result) { return utils::failure(make_error(error_code::NodeNotFound, "Parent node '" + std::string(ti.name()) + "' not found")); } return attach(name, (*result)->name()); } /** * Return the first schema node. * * @return The first schema node iterator. */ [[nodiscard]] const_iterator begin() const; /** * Return the last schema node. * * @return The last schema node iterator. */ [[nodiscard]] const_iterator end() const; /** * Returns true if the schema contains * no schema nodes. * * @return True if schema is empty */ [[nodiscard]] bool empty() const; /** * Returns the current number of schema node. * * @return Number of schema nodes */ [[nodiscard]] size_t size() const; /** * Returns the name of the schema. * * @return The name of the schema */ [[nodiscard]] std::string name() const; template [[nodiscard]] utils::result, utils::error> info() const { auto result = find_node(std::type_index(typeid(Type))); if (!result) { return utils::failure(result.err()); } return utils::ok(result.value()->info()); } template [[nodiscard]] utils::result basic_info() const { auto result = find_node(std::type_index(typeid(Type))); if (!result) { return utils::failure(result.err()); } return utils::ok(basic_object_info_ref{result.value()->basic_info()}); } [[nodiscard]] utils::result, utils::error> reference(const std::type_index &type_index) const; private: using node_ptr = std::shared_ptr; using t_node_map = std::unordered_map; using t_type_index_node_map = std::unordered_map; [[nodiscard]] utils::result, utils::error> attach_node(const std::shared_ptr &node, const std::string &parent); [[nodiscard]] utils::result, utils::error> attach_node(const std::shared_ptr &node, const std::type_index &type_index); [[nodiscard]] utils::result, utils::error> find_node(const std::string &name) const; [[nodiscard]] utils::result, utils::error> find_node(const std::type_index &type_index) const; [[nodiscard]] bool has_node(const std::string &name) const; [[nodiscard]] bool has_node(const std::type_index& index) const; [[nodiscard]] bool has_node(const std::type_index& index, const std::string &name) const; static void push_back_child(const node_ptr &parent, const node_ptr &child); private: template friend class type_analyzer; std::string name_; std::shared_ptr root_; t_node_map node_map_; t_type_index_node_map type_index_node_map_; }; template template void type_analyzer::on_has_one(const char *, ForeignPointerType &, const utils::foreign_attributes &) { auto ti = std::type_index(typeid(typename ForeignPointerType::value_type)); if (schema_.has_node(ti)) { return; } auto info = std::make_unique>(); known_types_.insert(ti); // const auto [ref_table, ref_column] = determine_foreign_ref(std::type_index(typeid(typename Pointer::value_type))); // columns_.push_back(fk_column_generator_.generate(id, *x, ref_table, ref_column)); } } #endif //SCHEMA_HPP