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// file : odb/cache-traits.hxx
// copyright : Copyright (c) 2009-2012 Code Synthesis Tools CC
// license : GNU GPL v2; see accompanying LICENSE file
#ifndef ODB_CACHE_TRAITS_HXX
#define ODB_CACHE_TRAITS_HXX
#include <odb/pre.hxx>
#include <odb/traits.hxx>
#include <odb/forward.hxx>
#include <odb/session.hxx>
#include <odb/pointer-traits.hxx>
namespace odb
{
// pointer_cache_type
//
// Used to convert an object pointer to the canonical form (non-const),
// suitable for insertion into the cache.
//
template <typename P,
typename E = typename pointer_traits<P>::element_type,
typename O = typename object_traits<E>::object_type,
pointer_kind pk = pointer_traits<P>::kind>
struct pointer_cache_type
{
typedef typename object_traits<O>::pointer_type pointer_type;
static pointer_type
convert (const P& p)
{
return pointer_traits<P>::const_pointer_cast (p);
}
};
template <typename P, typename T, pointer_kind pk>
struct pointer_cache_type<P, T, T, pk>
{
// If element_type and object_type are the same, then it is already
// the canonical pointer.
//
static const P&
convert (const P& p) {return p;}
};
template <typename P, typename E, typename O>
struct pointer_cache_type<P, E, O, pk_unique>
{
// If the pointer is unique, then casting it can transfer ownership.
// So return null pointer, which will be ignored down the chain.
//
typedef typename object_traits<O>::pointer_type pointer_type;
static pointer_type
convert (const P&) {return pointer_type ();}
};
template <typename P, typename T>
struct pointer_cache_type<P, T, T, pk_unique>
{
typedef typename object_traits<T>::pointer_type pointer_type;
static pointer_type
convert (const P&) {return pointer_type ();}
};
// reference_cache_type
//
// Used to convert an object reference to the canonical form (non-const),
// suitable for insertion into the cache.
//
template <typename T,
typename O = typename object_traits<T>::object_type>
struct reference_cache_type
{
static O&
convert (T& r)
{
return const_cast<O&> (r);
}
};
template <typename T>
struct reference_cache_type<T, T>
{
// If the types are the same, then it is already the canonical form.
//
static T&
convert (T& r) {return r;}
};
// pointer_cache_traits
//
// Caching traits for objects passed by pointer. P should be the canonical
// pointer (non-const).
//
template <typename P>
struct no_id_pointer_cache_traits
{
typedef P pointer_type;
struct position_type {};
static position_type
insert (odb::database&, const pointer_type&)
{
return position_type ();
}
};
template <typename P>
struct no_op_pointer_cache_traits
{
typedef P pointer_type;
typedef typename pointer_traits<pointer_type>::element_type object_type;
typedef typename object_traits<object_type>::id_type id_type;
struct position_type {};
struct insert_guard
{
insert_guard () {}
insert_guard (const position_type&) {}
position_type
position () const {return position_type ();}
void
release () {}
void
reset (const position_type&) {}
};
static position_type
insert (odb::database&, const id_type&, const pointer_type&)
{
return position_type ();
}
static position_type
insert (odb::database&, const pointer_type&) {return position_type ();}
static pointer_type
find (odb::database&, const id_type&) {return pointer_type ();}
static void
erase (odb::database&, const id_type&) {}
static void
erase (const position_type&) {}
};
template <typename P, pointer_kind pk>
struct pointer_cache_traits_impl
{
typedef P pointer_type;
typedef odb::pointer_traits<pointer_type> pointer_traits;
typedef typename pointer_traits::element_type object_type;
typedef typename object_traits<object_type>::id_type id_type;
typedef session::object_position<object_type> position_type;
struct insert_guard
{
insert_guard () {}
insert_guard (const position_type& pos): pos_ (pos) {}
~insert_guard () {erase (pos_);}
position_type
position () const {return pos_;}
void
release () {pos_.map_ = 0;}
// Note: doesn't call erase() on the old position (assumes not set).
//
void
reset (const position_type& pos) {pos_ = pos;}
private:
position_type pos_;
};
// We need the insert() overload with explicit id to handle self-
// references. In such cases the object is not yet loaded and the
// id member does not contain the correct id.
//
// Qualify the database type to resolve a phony ambiguity in VC 10.
//
static position_type
insert (odb::database& db, const id_type& id, const pointer_type& p)
{
if (session::has_current ())
return session::current ().insert<object_type> (db, id, p);
else
return position_type ();
}
static position_type
insert (odb::database& db, const pointer_type& p)
{
const id_type& id (
object_traits<object_type>::id (
pointer_traits::get_ref (p)));
return insert (db, id, p);
}
static pointer_type
find (odb::database& db, const id_type& id)
{
if (session::has_current ())
return session::current ().find<object_type> (db, id);
else
return pointer_type ();
}
static void
erase (odb::database& db, const id_type& id)
{
if (session::has_current ())
session::current ().erase<object_type> (db, id);
}
static void
erase (const position_type& p)
{
if (p.map_ != 0)
session::current ().erase<object_type> (p);
}
};
// Unique pointers don't work with the object cache.
//
template <typename P>
struct pointer_cache_traits_impl<P, pk_unique>:
no_op_pointer_cache_traits<P> {};
template <typename P>
struct pointer_cache_traits:
pointer_cache_traits_impl<P, pointer_traits<P>::kind> {};
// reference_cache_traits
//
// Caching traits for objects passed by reference. T should be the
// canonical object type (non-const). Only if the object pointer
// kind is raw do we add the object to the session.
//
template <typename T>
struct no_id_reference_cache_traits
{
typedef T object_type;
struct position_type {};
static position_type
insert (odb::database&, object_type&)
{
return position_type ();
}
};
template <typename T>
struct no_op_reference_cache_traits
{
typedef T object_type;
typedef typename object_traits<object_type>::id_type id_type;
struct position_type {};
struct insert_guard
{
insert_guard () {}
insert_guard (const position_type&) {}
position_type
position () const {return position_type ();}
void
release () {}
void
reset () {}
};
static position_type
insert (odb::database&, const id_type&, object_type&)
{
return position_type ();
}
static position_type
insert (odb::database&, object_type&)
{
return position_type ();
}
};
template <typename T, pointer_kind pk>
struct reference_cache_traits_impl: no_op_reference_cache_traits<T> {};
template <typename T>
struct reference_cache_traits_impl<T, pk_raw>
{
typedef T object_type;
typedef typename object_traits<object_type>::pointer_type pointer_type;
typedef typename object_traits<object_type>::id_type id_type;
typedef pointer_cache_traits<pointer_type> pointer_traits;
typedef typename pointer_traits::position_type position_type;
typedef typename pointer_traits::insert_guard insert_guard;
static position_type
insert (odb::database& db, const id_type& id, object_type& obj)
{
pointer_type p (&obj);
return pointer_traits::insert (db, id, p);
}
static position_type
insert (odb::database& db, object_type& obj)
{
pointer_type p (&obj);
return pointer_traits::insert (db, p);
}
};
template <typename T>
struct reference_cache_traits:
reference_cache_traits_impl<
T, pointer_traits<typename object_traits<T>::pointer_type>::kind> {};
}
#include <odb/post.hxx>
#endif // ODB_CACHE_TRAITS_HXX
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