// file : common/wrapper/test.hxx // copyright : Copyright (c) 2009-2013 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #ifndef TEST_HXX #define TEST_HXX #include <common/config.hxx> // HAVE_CXX11, HAVE_TR1_MEMORY #include <string> #include <memory> // std::auto_ptr #include <vector> #include <odb/core.hxx> #include <odb/nullable.hxx> #if !defined(HAVE_CXX11) && defined(HAVE_TR1_MEMORY) # include <odb/tr1/memory.hxx> #endif using odb::nullable; // Test 1: simple values. // #pragma db namespace table("t1_") namespace test1 { typedef nullable<std::string> nullable_string; #ifdef HAVE_CXX11 typedef std::unique_ptr<int> num_uptr; typedef std::unique_ptr<std::string> str_uptr; typedef std::shared_ptr<std::string> str_sptr; #else typedef std::auto_ptr<int> num_uptr; typedef std::auto_ptr<std::string> str_uptr; # ifdef HAVE_TR1_MEMORY typedef std::tr1::shared_ptr<std::string> str_sptr; # endif #endif #pragma db object table("obj1") struct object1 { #pragma db id auto unsigned long id_; num_uptr num; #pragma db null str_uptr str; nullable_string nstr; std::vector<nullable_string> nstrs; }; #pragma db object struct object2 { #pragma db id auto unsigned long id_; #if defined(HAVE_CXX11) || defined(HAVE_TR1_MEMORY) #pragma db null str_sptr sstr; #pragma db value_null std::vector<str_sptr> sstrs; #endif }; } // // Composite values. // #pragma db value struct comp1 { comp1 () {} comp1 (const std::string& s, int n): str (s), num (n) {} std::string str; int num; }; inline bool operator== (const comp1& x, const comp1& y) { return x.str == y.str && x.num == y.num; } #pragma db value struct comp2 { comp2 () {} comp2 (const std::string& s, int n): str (s), num (n) {} std::string str; int num; std::vector<std::string> strs; }; inline bool operator== (const comp2& x, const comp2& y) { return x.str == y.str && x.num == y.num && x.strs == y.strs; } struct comp3; #ifdef HAVE_CXX11 typedef std::unique_ptr<comp1> comp1_uptr; typedef std::unique_ptr<comp2> comp2_uptr; typedef std::unique_ptr<comp3> comp3_uptr; #else typedef std::auto_ptr<comp1> comp1_uptr; typedef std::auto_ptr<comp2> comp2_uptr; typedef std::auto_ptr<comp3> comp3_uptr; #endif #pragma db object struct comp_object { #pragma db id auto unsigned long id_; comp1_uptr c1; // Wrapped comp value. std::vector<nullable<comp1> > vc1; // Container of wrapped comp values. comp2_uptr c2; // Container inside wrapped comp value. }; // This one is just a compilation test to cover more convolute cases. // #pragma db value struct comp3: comp2 { comp1_uptr c1; std::vector<nullable<comp1> > vc1; }; #pragma db object struct comp_object2 { #pragma db id auto unsigned long id_; comp3_uptr c3; }; // // Containers. // #ifdef HAVE_CXX11 typedef std::unique_ptr<std::vector<int>> nums_uptr; typedef std::unique_ptr<std::vector<std::string>> strs_uptr; #else typedef std::auto_ptr<std::vector<int> > nums_uptr; typedef std::auto_ptr<std::vector<std::string> > strs_uptr; #endif #pragma db value struct cont_comp { int num; strs_uptr strs; }; inline bool operator== (const cont_comp& x, const cont_comp& y) { return x.num == y.num && *x.strs == *y.strs; } #pragma db object struct cont_object { #pragma db id auto unsigned long id_; nums_uptr nums; // Wrapped container. cont_comp c; // Wrapped container in comp value. }; // Test composite NULL values. // #pragma db namespace table("t5_") namespace test5 { #pragma db value struct base { base () {} base (int n): num (n) {} int num; }; inline bool operator== (const base& x, const base& y) { return x.num == y.num; } #pragma db value struct comp: base { comp () {} comp (int n, const std::string s): base (n), str (s), extra (n + 1) {} std::string str; base extra; odb::nullable<int> always_null; }; inline bool operator== (const comp& x, const comp& y) { return static_cast<const base&> (x) == y && x.str == y.str && x.extra == y.extra; } #pragma db object struct object { #pragma db id auto unsigned long id; #pragma db null std::auto_ptr<comp> p; odb::nullable<comp> n; std::vector< odb::nullable<comp> > v; }; } #endif // TEST_HXX