// file : odb/context.hxx // author : Boris Kolpackov // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v3; see accompanying LICENSE file #ifndef ODB_CONTEXT_HXX #define ODB_CONTEXT_HXX #include #include #include #include #include #include #include // std::size_t #include #include #include #include #include #include using std::endl; using std::cerr; // Regex. // using cutl::re::regex; using cutl::re::regexsub; typedef std::vector regex_mapping; // // class generation_failed {}; // Keep this enum synchronized with the one in libodb/odb/pointer-traits.hxx. // enum pointer_kind { pk_raw, pk_unique, pk_shared, pk_weak }; // Keep this enum synchronized with the one in libodb/odb/container-traits.hxx. // enum container_kind { ck_ordered, ck_set, ck_multiset, ck_map, ck_multimap }; class context { public: typedef std::size_t size_t; typedef std::string string; typedef std::vector strings; typedef std::ostream ostream; typedef ::options options_type; static string upcase (string const&); public: semantics::type& member_type (semantics::data_member& m, string const& key_prefix); // Predicates. // public: // Composite value type is a class type that was explicitly marked // as value type and there was no database type mapping provided for // it by the user (specifying the database type makes the value type // simple). // static bool comp_value (semantics::class_& c) { if (c.count ("composite-value")) return c.get ("composite-value"); else return comp_value_ (c); } // Return the class object if this type is a composite value type // and NULL otherwise. // static semantics::class_* comp_value (semantics::type& t) { semantics::class_* c (dynamic_cast (&t)); return c != 0 && comp_value (*c) ? c : 0; } static bool container (semantics::type& t) { return t.count ("container-kind"); } static semantics::class_* object_pointer (semantics::type& t) { return t.get ("element-type", 0); } static bool abstract (semantics::class_& c) { // If a class is abstract in the C++ sense then it is also abstract in // the database sense. // return c.abstract () || c.count ("abstract"); } bool null (semantics::data_member&); bool null (semantics::data_member&, string const& key_prefix); // Database names and types. // public: string table_name (semantics::class_&) const; // Table name for the container member. // struct table_prefix { table_prefix (): level (0) {} table_prefix (string const& p, size_t l): prefix (p), level (l) {} string prefix; size_t level; }; string table_name (semantics::data_member&, table_prefix const&) const; string column_name (semantics::data_member&) const; string column_name (semantics::data_member&, string const& key_prefix, string const& default_name) const; string column_type (semantics::data_member&, string const& key_prefix = string ()); string column_options (semantics::data_member&); string column_options (semantics::data_member&, string const& key_prefix); // Cleaned-up member name that can be used for database names. // string public_name_db (semantics::data_member&) const; // C++ names. // public: // Cleaned-up and escaped member name that can be used in public C++ // interfaces. // string public_name (semantics::data_member&) const; // "Flatten" fully-qualified C++ name by replacing '::' with '_' // and removing leading '::', if any. // static string flat_name (string const& fqname); // Escape C++ keywords, reserved names, and illegal characters. // string escape (string const&) const; // Return a string literal that can be used in C++ source code. It // includes "". // string strlit (string const&); // Counts and other information. // public: static size_t in_column_count (semantics::class_&); static size_t out_column_count (semantics::class_&); static semantics::data_member* id_member (semantics::class_& c) { // Set by the validator. May not be there for abstract objects. // return c.get ("id-member", 0); } // Object pointer information. // public: typedef ::pointer_kind pointer_kind_type; pointer_kind_type pointer_kind (semantics::type& p) { return p.get ("pointer-kind"); } bool lazy_pointer (semantics::type& p) { return p.get ("pointer-lazy"); } bool weak_pointer (semantics::type& p) { return pointer_kind (p) == pk_weak; } semantics::data_member* inverse (semantics::data_member& m) { return object_pointer (m.type ()) ? m.get ("inverse", 0) : 0; } semantics::data_member* inverse (semantics::data_member& m, string const& key_prefix) { if (key_prefix.empty ()) return inverse (m); return object_pointer (member_type (m, key_prefix)) ? m.get (key_prefix + "-inverse", 0) : 0; } // Container information. // public: typedef ::container_kind container_kind_type; static container_kind_type container_kind (semantics::type& c) { return c.get ("container-kind"); } static semantics::type& container_idt (semantics::type& c) { return *c.get ("id-tree-type"); } static semantics::type& container_vt (semantics::type& c) { return *c.get ("value-tree-type"); } static semantics::type& container_it (semantics::type& c) { return *c.get ("index-tree-type"); } static semantics::type& container_kt (semantics::type& c) { return *c.get ("key-tree-type"); } static bool unordered (semantics::data_member& m) { return m.count ("unordered") || m.type ().count ("unordered"); } // The 'is a' and 'has a' tests. The has_a test currently does not // cross the container boundaries. // public: static unsigned short const test_pointer = 0x01; static unsigned short const test_eager_pointer = 0x02; static unsigned short const test_lazy_pointer = 0x04; static unsigned short const test_container = 0x08; static unsigned short const test_straight_container = 0x10; static unsigned short const test_inverse_container = 0x20; bool is_a (semantics::data_member& m, unsigned short flags) { return is_a (m, flags, m.type (), ""); } bool is_a (semantics::data_member&, unsigned short flags, semantics::type&, string const& key_prefix); bool has_a (semantics::type&, unsigned short flags); public: // Process include path by adding the prefix, putting it through // the include regex list, and adding opening and closing include // characters ("" or <>) if necessary. The prefix argument indicates // whether the include prefix specified with the --include-prefix // option should be added. The open argument can be used to specify // the opening character. It can have three values: ", <, or \0. In // case of \0, the character is determined based on the value of the // --include-with-bracket option. // string process_include_path (string const&, bool prefix = true, char open = '\0'); // Diverge output. // public: void diverge (std::ostream& os) { diverge (os.rdbuf ()); } void diverge (std::streambuf* sb); void restore (); // Implementation details. // private: static bool comp_value_ (semantics::class_&); template X indirect_value (semantics::context const& c, string const& key) { typedef X (*func) (); std::type_info const& ti (c.type_info (key)); if (ti == typeid (func)) return c.get (key) (); else return c.get (key); } public: typedef std::set keyword_set_type; struct db_type_type { db_type_type () {} db_type_type (string const& t, string const& it) : type (t), id_type (it) { } string type; string id_type; }; typedef std::map type_map_type; protected: struct data { virtual ~data () {} data (std::ostream& os) : os_ (os.rdbuf ()), top_object_ (0), object_ (0) { } public: std::ostream os_; std::stack os_stack_; semantics::class_* top_object_; semantics::class_* object_; keyword_set_type keyword_set_; type_map_type type_map_; regex_mapping include_regex_; }; typedef cutl::shared_ptr data_ptr; data_ptr data_; public: std::ostream& os; semantics::unit& unit; options_type const& options; database const db; keyword_set_type const& keyword_set; regex_mapping const& include_regex; bool embedded_schema; // Outermost object currently being traversed. // semantics::class_*& top_object; // Object currently being traversed. It can be the same as top_object // or it can a base of top_object. // semantics::class_*& object; // Per-database customizable functionality. // protected: // Return empty string if there is no mapping. // string database_type (semantics::type& t, semantics::names* hint, bool id) { return current ().database_type_impl (t, hint, id); } // The default implementation uses the type map (populated by the database- // specific context implementation) to come up with a mapping. // virtual string database_type_impl (semantics::type&, semantics::names*, bool); public: typedef context root_context; virtual ~context (); context (); context (std::ostream&, semantics::unit&, options_type const&, data_ptr = data_ptr ()); static context& current () { return *current_; } private: static context* current_; private: context& operator= (context const&); }; // Checks if scope Y names any of X. // template bool has (Y& y) { for (semantics::scope::names_iterator i (y.names_begin ()), e (y.names_end ()); i != e; ++i) if (i->named (). template is_a ()) return true; return false; } // Standard namespace traverser. // struct namespace_: traversal::namespace_, context { virtual void traverse (type&); }; #endif // ODB_CONTEXT_HXX