// file : odb/relational/oracle/common.hxx // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v3; see accompanying LICENSE file #ifndef ODB_RELATIONAL_ORACLE_COMMON_HXX #define ODB_RELATIONAL_ORACLE_COMMON_HXX #include #include namespace relational { namespace oracle { struct member_base: virtual relational::member_base, context { member_base (base const& x): base (x) {} // This c-tor is for the direct use inside the oracle namespace. // If you do use this c-tor, you should also explicitly call // relational::member_base. // member_base () {} virtual void traverse (semantics::data_member& m); struct member_info { semantics::data_member& m; // Member. semantics::type& t; // Cvr-unqualified member C++ type, note // that m.type () may not be the same as t. semantics::type* wrapper; // Wrapper type if member is a composite or // container wrapper, also cvr-unqualified. // In this case t is the wrapped type. bool cq; // True if the original (wrapper) type // is const-qualified. sql_type const* st; // Member SQL type (only simple values). string& var; // Member variable name with trailing '_'. // C++ type fq-name. // string fq_type (bool unwrap = true) const { semantics::names* hint; if (wrapper != 0 && unwrap) { // Use the hint from the wrapper unless the wrapped type // is qualified. // hint = wrapper->get ("wrapper-hint"); utype (*context::wrapper (*wrapper), hint); return t.fq_name (hint); } // Use the original type from 'm' instead of 't' since the hint // may be invalid for a different type. Plus, if a type is // overriden, then the fq_type must be as well. // if (fq_type_.empty ()) { semantics::type& t (utype (m, hint)); return t.fq_name (hint); } else return fq_type_; } string const& fq_type_; member_info (semantics::data_member& m_, semantics::type& t_, semantics::type* wrapper_, bool cq_, string& var_, string const& fq_type) : m (m_), t (t_), wrapper (wrapper_), cq (cq_), st (0), var (var_), fq_type_ (fq_type) { } }; bool container (member_info& mi) { // This cannot be a container if we have a type override. // return type_override_ == 0 && context::container (mi.m); } // The false return value indicates that no further callbacks // should be called for this member. // virtual bool pre (member_info&) { return true; } virtual void post (member_info&) { } virtual void traverse_composite (member_info&) { } virtual void traverse_container (member_info&) { } virtual void traverse_object_pointer (member_info& mi) { traverse_simple (mi); } virtual void traverse_simple (member_info&); virtual void traverse_int32 (member_info&) { } virtual void traverse_int64 (member_info&) { } virtual void traverse_big_int (member_info&) { } virtual void traverse_float (member_info&) { } virtual void traverse_double (member_info&) { } virtual void traverse_big_float (member_info&) { } virtual void traverse_date (member_info&) { } virtual void traverse_timestamp (member_info&) { } virtual void traverse_interval_ym (member_info&) { } virtual void traverse_interval_ds (member_info&) { } virtual void traverse_string (member_info&) { } virtual void traverse_lob (member_info&) { } }; struct member_image_type: member_base { member_image_type (semantics::type* type = 0, string const& fq_type = string (), string const& key_prefix = string ()); string image_type (semantics::data_member&); virtual void traverse_composite (member_info&); virtual void traverse_int32 (member_info&); virtual void traverse_int64 (member_info&); virtual void traverse_big_int (member_info&); virtual void traverse_float (member_info&); virtual void traverse_double (member_info&); virtual void traverse_big_float (member_info&); virtual void traverse_date (member_info&); virtual void traverse_timestamp (member_info&); virtual void traverse_interval_ym (member_info&); virtual void traverse_interval_ds (member_info&); virtual void traverse_string (member_info&); virtual void traverse_lob (member_info&); private: string type_; }; struct member_database_type_id: member_base { member_database_type_id (semantics::type* type = 0, string const& fq_type = string (), string const& key_prefix = string ()); string database_type_id (type&); virtual void traverse_composite (member_info&); virtual void traverse_int32 (member_info&); virtual void traverse_int64 (member_info&); virtual void traverse_big_int (member_info&); virtual void traverse_float (member_info&); virtual void traverse_double (member_info&); virtual void traverse_big_float (member_info&); virtual void traverse_date (member_info&); virtual void traverse_timestamp (member_info&); virtual void traverse_interval_ym (member_info&); virtual void traverse_interval_ds (member_info&); virtual void traverse_string (member_info&); virtual void traverse_lob (member_info&); private: string type_id_; }; } } #endif // ODB_RELATIONAL_ORACLE_COMMON_HXX