// file : common/inverse/test.hxx // author : Boris Kolpackov <boris@codesynthesis.com> // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #ifndef TEST_HXX #define TEST_HXX #include <common/config.hxx> // HAVE_TR1_MEMORY #include <set> #include <vector> #include <string> #include <memory> #include <odb/core.hxx> #ifdef HAVE_TR1_MEMORY # include <odb/tr1/memory.hxx> #endif struct obj1; struct obj2; struct obj3; struct obj4; struct obj5; typedef obj1* obj1_ptr; typedef obj2* obj2_ptr; typedef obj3* obj3_ptr; typedef obj4* obj4_ptr; typedef obj5* obj5_ptr; typedef std::set<obj1_ptr> obj1_ptr_set; typedef std::set<obj3_ptr> obj3_ptr_set; typedef std::set<obj5_ptr> obj5_ptr_set; #pragma db object struct obj1 { obj1 (): o2 (0), o4 (0) {} ~obj1 (); #pragma db id std::string id; obj2_ptr o2; #pragma db id_column("obj1_id") value_column("obj3_id") obj3_ptr_set o3; obj4_ptr o4; obj5_ptr_set o5; }; #pragma db object struct obj2 { #pragma db id auto int id; // one-to-one // #pragma db inverse(o2) obj1_ptr o1; std::string str; }; #pragma db object struct obj3 { std::string str; // one(i)-to-many // #pragma db inverse (o3) obj1_ptr o1; #pragma db id auto int id; }; #pragma db object struct obj4 { #pragma db id auto int id; std::string str; // many(i)-to-one // #pragma db inverse (o4) obj1_ptr_set o1; }; #pragma db object struct obj5 { #pragma db id auto int id; std::string str; // many(i)-to-many // #pragma db inverse (o5) obj1_ptr_set o1; }; inline obj1:: ~obj1 () { delete o2; for (obj3_ptr_set::iterator i (o3.begin ()); i != o3.end (); ++i) delete *i; delete o4; for (obj5_ptr_set::iterator i (o5.begin ()); i != o5.end (); ++i) delete *i; } // TR1 version // #ifdef HAVE_TR1_MEMORY struct tr1_obj1; struct tr1_obj2; struct tr1_obj3; struct tr1_obj4; struct tr1_obj5; typedef std::tr1::shared_ptr<tr1_obj1> tr1_obj1_ptr; typedef std::tr1::shared_ptr<tr1_obj2> tr1_obj2_ptr; typedef std::tr1::shared_ptr<tr1_obj3> tr1_obj3_ptr; typedef std::tr1::shared_ptr<tr1_obj4> tr1_obj4_ptr; typedef std::tr1::shared_ptr<tr1_obj5> tr1_obj5_ptr; typedef std::tr1::weak_ptr<tr1_obj1> tr1_obj1_wptr; typedef std::vector<tr1_obj1_wptr> tr1_obj1_wptr_vec; typedef std::vector<tr1_obj3_ptr> tr1_obj3_ptr_vec; typedef std::vector<tr1_obj5_ptr> tr1_obj5_ptr_vec; #pragma db object pointer(tr1_obj1_ptr) struct tr1_obj1 { #pragma db id std::string id; tr1_obj2_ptr o2; #pragma db id_column("tr1_obj1_id") value_column("tr1_obj3_id") tr1_obj3_ptr_vec o3; tr1_obj4_ptr o4; tr1_obj5_ptr_vec o5; }; #pragma db object pointer(tr1_obj2_ptr) struct tr1_obj2 { #pragma db id auto int id; std::string str; // one(i)-to-one // #pragma db inverse(o2) tr1_obj1_wptr o1; }; #pragma db object pointer(tr1_obj3_ptr) struct tr1_obj3 { #pragma db id auto int id; std::string str; // one(i)-to-many // #pragma db inverse (o3) tr1_obj1_wptr o1; }; #pragma db object pointer(tr1_obj4_ptr) struct tr1_obj4 { #pragma db id auto int id; std::string str; // many(i)-to-one // #pragma db inverse (o4) tr1_obj1_wptr_vec o1; }; #pragma db object pointer(tr1_obj5_ptr) struct tr1_obj5 { #pragma db id auto int id; std::string str; // many(i)-to-many // #pragma db inverse (o5) tr1_obj1_wptr_vec o1; }; #endif #endif // TEST_HXX