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// file : common/inverse/test.hxx
// copyright : Copyright (c) 2009-2015 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 <set>
#include <vector>
#include <string>
#include <memory>
#include <odb/core.hxx>
#if !defined(HAVE_CXX11) && defined(HAVE_TR1_MEMORY)
# include <odb/tr1/memory.hxx>
#endif
// Test raw pointers.
//
#pragma db namespace table("t1_")
namespace test1
{
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;
}
}
// Test shared_ptr/weak_ptr.
//
#if defined(HAVE_CXX11) || defined(HAVE_TR1_MEMORY)
#pragma db namespace table("t2_")
namespace test2
{
#ifdef HAVE_CXX11
using std::shared_ptr;
using std::weak_ptr;
#else
using std::tr1::shared_ptr;
using std::tr1::weak_ptr;
#endif
struct obj1;
struct obj2;
struct obj3;
struct obj4;
struct obj5;
typedef shared_ptr<obj1> obj1_ptr;
typedef shared_ptr<obj2> obj2_ptr;
typedef shared_ptr<obj3> obj3_ptr;
typedef shared_ptr<obj4> obj4_ptr;
typedef shared_ptr<obj5> obj5_ptr;
typedef weak_ptr<obj1> obj1_wptr;
typedef std::vector<obj1_wptr> obj1_wptr_vec;
typedef std::vector<obj3_ptr> obj3_ptr_vec;
typedef std::vector<obj5_ptr> obj5_ptr_vec;
#pragma db object pointer(obj1_ptr)
struct obj1
{
#pragma db id
std::string id;
obj2_ptr o2;
#pragma db id_column("obj1_id") value_column("obj3_id")
obj3_ptr_vec o3;
obj4_ptr o4;
obj5_ptr_vec o5;
};
#pragma db object pointer(obj2_ptr)
struct obj2
{
#pragma db id auto
int id;
std::string str;
// one(i)-to-one
//
#pragma db inverse(o2)
obj1_wptr o1;
};
#pragma db object pointer(obj3_ptr)
struct obj3
{
#pragma db id auto
int id;
std::string str;
// one(i)-to-many
//
#pragma db inverse (o3)
obj1_wptr o1;
};
#pragma db object pointer(obj4_ptr)
struct obj4
{
#pragma db id auto
int id;
std::string str;
// many(i)-to-one
//
#pragma db inverse (o4)
obj1_wptr_vec o1;
};
#pragma db object pointer(obj5_ptr)
struct obj5
{
#pragma db id auto
int id;
std::string str;
// many(i)-to-many
//
#pragma db inverse (o5)
obj1_wptr_vec o1;
};
}
#endif
// Test inverse based on points_to.
//
#pragma db namespace table("t3_")
namespace test3
{
// Inverse pointer.
//
#pragma db value
struct comp
{
int i;
int j;
};
inline bool
operator< (comp x, comp y) {return x.i < y.i || (x.i == y.i && x.j < y.j);}
struct obj2;
#pragma db object
struct obj1
{
#pragma db id
comp id;
#pragma db inverse(o1)
obj2* o2;
obj1 (int i = 0, int j = 0): o2 (0) {id.i = i; id.j = j;}
~obj1 ();
};
#pragma db object
struct obj2
{
#pragma db id auto
int id;
#pragma db points_to(obj1)
comp o1;
#ifndef ODB_DATABASE_MYSQL
#pragma db member(o1) on_delete(cascade)
#endif
};
inline obj1::
~obj1 () {delete o2;}
// Inverse container of pointers.
//
struct obj4;
#pragma db object
struct obj3
{
#pragma db id auto
int id;
#pragma db inverse(o3)
std::vector<obj4*> o4;
~obj3 ();
};
#pragma db object
struct obj4
{
#pragma db id auto
int id;
#pragma db points_to(obj3)
int o3;
};
inline obj3::
~obj3 ()
{
for (std::vector<obj4*>::iterator i (o4.begin ()); i != o4.end (); ++i)
delete *i;
}
};
// Test inverse with nested data members.
//
#pragma db namespace table("t4_")
namespace test4
{
// Inverse pointer.
//
struct obj1;
struct obj2;
#pragma db value
struct obj2_id
{
#pragma db points_to(obj1)
int i;
int j;
};
inline bool
operator< (obj2_id x, obj2_id y)
{return x.i < y.i || (x.i == y.i && x.j < y.j);}
#pragma db object
struct obj1
{
#pragma db id auto
int id;
#pragma db inverse(id.i)
obj2* o2;
obj1 (): o2 (0) {}
~obj1 ();
};
#pragma db object
struct obj2
{
#pragma db id
obj2_id id;
};
inline obj1::
~obj1 () {delete o2;}
// Inverse container of pointers.
//
struct obj3;
struct obj4;
#pragma db value
struct obj4_id
{
#pragma db points_to(obj3)
int i;
int j;
};
inline bool
operator< (obj4_id x, obj4_id y)
{return x.i < y.i || (x.i == y.i && x.j < y.j);}
#pragma db object
struct obj3
{
#pragma db id auto
int id;
#pragma db inverse(id.i)
std::vector<obj4*> o4;
~obj3 ();
};
#pragma db object
struct obj4
{
#pragma db id
obj4_id id;
};
inline obj3::
~obj3 ()
{
for (std::vector<obj4*>::iterator i (o4.begin ()); i != o4.end (); ++i)
delete *i;
}
};
#endif // TEST_HXX
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