/usr/include/odb/sqlite/simple-object-statements.hxx is in libodb-sqlite-dev 2.4.0-1build1.
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// copyright : Copyright (c) 2005-2015 Code Synthesis Tools CC
// license : GNU GPL v2; see accompanying LICENSE file
#ifndef ODB_SQLITE_SIMPLE_OBJECT_STATEMENTS_HXX
#define ODB_SQLITE_SIMPLE_OBJECT_STATEMENTS_HXX
#include <odb/pre.hxx>
#include <vector>
#include <cassert>
#include <cstddef> // std::size_t
#include <odb/forward.hxx>
#include <odb/traits.hxx>
#include <odb/details/shared-ptr.hxx>
#include <odb/sqlite/version.hxx>
#include <odb/sqlite/forward.hxx>
#include <odb/sqlite/sqlite-types.hxx>
#include <odb/sqlite/binding.hxx>
#include <odb/sqlite/statement.hxx>
#include <odb/sqlite/statements-base.hxx>
#include <odb/sqlite/details/export.hxx>
namespace odb
{
namespace sqlite
{
// The extra_statement_cache class is only defined (and used) in
// the generated source file. However, object_statements may be
// referenced from another source file in the case of a polymorphic
// hierarchy (though in this case the extra statement cache is
// not used). As a result, we cannot have a by-value member and
// instead will store a pointer and lazily allocate the cache if
// and when needed. We will also need to store a pointer to the
// deleter function which will be initialized during allocation
// (at that point we know that the cache class is defined).
//
template <typename T, typename I, typename ID>
struct extra_statement_cache_ptr
{
typedef I image_type;
typedef ID id_image_type;
typedef sqlite::connection connection_type;
extra_statement_cache_ptr (): p_ (0) {}
~extra_statement_cache_ptr ()
{
if (p_ != 0)
(this->*deleter_) (0, 0, 0, 0, 0);
}
T&
get (connection_type& c,
image_type& im, id_image_type& idim,
binding& id, binding* idv)
{
if (p_ == 0)
allocate (&c, &im, &idim, &id, (idv != 0 ? idv : &id));
return *p_;
}
private:
void
allocate (connection_type*,
image_type*, id_image_type*,
binding*, binding*);
private:
T* p_;
void (extra_statement_cache_ptr::*deleter_) (
connection_type*, image_type*, id_image_type*, binding*, binding*);
};
template <typename T, typename I, typename ID>
void extra_statement_cache_ptr<T, I, ID>::
allocate (connection_type* c,
image_type* im, id_image_type* idim,
binding* id, binding* idv)
{
// To reduce object code size, this function acts as both allocator
// and deleter.
//
if (p_ == 0)
{
p_ = new T (*c, *im, *idim, *id, *idv);
deleter_ = &extra_statement_cache_ptr<T, I, ID>::allocate;
}
else
delete p_;
}
//
// Implementation for objects with object id.
//
class LIBODB_SQLITE_EXPORT object_statements_base: public statements_base
{
public:
// Locking.
//
void
lock ()
{
assert (!locked_);
locked_ = true;
}
void
unlock ()
{
assert (locked_);
locked_ = false;
}
bool
locked () const
{
return locked_;
}
struct auto_unlock
{
// Unlocks the statement on construction and re-locks it on
// destruction.
//
auto_unlock (object_statements_base&);
~auto_unlock ();
private:
auto_unlock (const auto_unlock&);
auto_unlock& operator= (const auto_unlock&);
private:
object_statements_base& s_;
};
public:
virtual
~object_statements_base ();
protected:
object_statements_base (connection_type& conn)
: statements_base (conn), locked_ (false)
{
}
protected:
bool locked_;
};
template <typename T, bool optimistic>
struct optimistic_data;
template <typename T>
struct optimistic_data<T, true>
{
typedef T object_type;
typedef object_traits_impl<object_type, id_sqlite> object_traits;
optimistic_data (bind*);
binding*
id_image_binding () {return &id_image_binding_;}
// The id + optimistic column binding.
//
binding id_image_binding_;
details::shared_ptr<delete_statement> erase_;
};
template <typename T>
struct optimistic_data<T, false>
{
optimistic_data (bind*) {}
binding*
id_image_binding () {return 0;}
};
template <typename T>
class object_statements: public object_statements_base
{
public:
typedef T object_type;
typedef object_traits_impl<object_type, id_sqlite> object_traits;
typedef typename object_traits::id_type id_type;
typedef typename object_traits::pointer_type pointer_type;
typedef typename object_traits::image_type image_type;
typedef typename object_traits::id_image_type id_image_type;
typedef
typename object_traits::pointer_cache_traits
pointer_cache_traits;
typedef
typename object_traits::extra_statement_cache_type
extra_statement_cache_type;
typedef sqlite::insert_statement insert_statement_type;
typedef sqlite::select_statement select_statement_type;
typedef sqlite::update_statement update_statement_type;
typedef sqlite::delete_statement delete_statement_type;
// Automatic lock.
//
struct auto_lock
{
// Lock the statements unless they are already locked in which
// case subsequent calls to locked() will return false.
//
auto_lock (object_statements&);
// Unlock the statemens if we are holding the lock and clear
// the delayed loads. This should only happen in case an
// exception is thrown. In normal circumstances, the user
// should call unlock() explicitly.
//
~auto_lock ();
// Return true if this auto_lock instance holds the lock.
//
bool
locked () const;
// Unlock the statemens.
//
void
unlock ();
private:
auto_lock (const auto_lock&);
auto_lock& operator= (const auto_lock&);
private:
object_statements& s_;
bool locked_;
};
public:
object_statements (connection_type&);
virtual
~object_statements ();
// Delayed loading.
//
typedef void (*loader_function) (odb::database&,
const id_type&,
object_type&,
const schema_version_migration*);
void
delay_load (const id_type& id,
object_type& obj,
const typename pointer_cache_traits::position_type& p,
loader_function l = 0)
{
delayed_.push_back (delayed_load (id, obj, p, l));
}
void
load_delayed (const schema_version_migration* svm)
{
assert (locked ());
if (!delayed_.empty ())
load_delayed_<object_statements> (svm);
}
void
clear_delayed ()
{
if (!delayed_.empty ())
clear_delayed_ ();
}
// Object image.
//
image_type&
image () {return image_;}
// Insert binding.
//
std::size_t
insert_image_version () const { return insert_image_version_;}
void
insert_image_version (std::size_t v) {insert_image_version_ = v;}
binding&
insert_image_binding () {return insert_image_binding_;}
// Update binding.
//
std::size_t
update_image_version () const { return update_image_version_;}
void
update_image_version (std::size_t v) {update_image_version_ = v;}
std::size_t
update_id_image_version () const { return update_id_image_version_;}
void
update_id_image_version (std::size_t v) {update_id_image_version_ = v;}
binding&
update_image_binding () {return update_image_binding_;}
// Select binding.
//
std::size_t
select_image_version () const { return select_image_version_;}
void
select_image_version (std::size_t v) {select_image_version_ = v;}
binding&
select_image_binding () {return select_image_binding_;}
bool*
select_image_truncated () {return select_image_truncated_;}
// Object id image and binding.
//
id_image_type&
id_image () {return id_image_;}
std::size_t
id_image_version () const {return id_image_version_;}
void
id_image_version (std::size_t v) {id_image_version_ = v;}
binding&
id_image_binding () {return id_image_binding_;}
// Optimistic id + managed column image binding. It points to
// the same suffix as id binding and they are always updated
// at the same time.
//
binding&
optimistic_id_image_binding () {return od_.id_image_binding_;}
// Statements.
//
insert_statement_type&
persist_statement ()
{
if (persist_ == 0)
{
persist_.reset (
new (details::shared) insert_statement_type (
conn_,
object_traits::persist_statement,
object_traits::versioned, // Process if versioned.
insert_image_binding_,
(object_traits::auto_id ? &id_image_binding_ : 0)));
}
return *persist_;
}
select_statement_type&
find_statement ()
{
if (find_ == 0)
{
find_.reset (
new (details::shared) select_statement_type (
conn_,
object_traits::find_statement,
object_traits::versioned, // Process if versioned.
false, // Don't optimize.
id_image_binding_,
select_image_binding_));
}
return *find_;
}
update_statement_type&
update_statement ()
{
if (update_ == 0)
{
update_.reset (
new (details::shared) update_statement_type (
conn_,
object_traits::update_statement,
object_traits::versioned, // Process if versioned.
update_image_binding_));
}
return *update_;
}
delete_statement_type&
erase_statement ()
{
if (erase_ == 0)
{
erase_.reset (
new (details::shared) delete_statement_type (
conn_,
object_traits::erase_statement,
id_image_binding_));
}
return *erase_;
}
delete_statement_type&
optimistic_erase_statement ()
{
if (od_.erase_ == 0)
{
od_.erase_.reset (
new (details::shared) delete_statement_type (
conn_,
object_traits::optimistic_erase_statement,
od_.id_image_binding_));
}
return *od_.erase_;
}
// Extra (container, section) statement cache.
//
extra_statement_cache_type&
extra_statement_cache ()
{
return extra_statement_cache_.get (
conn_,
image_, id_image_,
id_image_binding_, od_.id_image_binding ());
}
public:
// select = total - separate_load
// insert = total - inverse - managed_optimistic
// update = total - inverse - managed_optimistic - id - readonly
// - separate_update
//
static const std::size_t id_column_count =
object_traits::id_column_count;
static const std::size_t managed_optimistic_column_count =
object_traits::managed_optimistic_column_count;
static const std::size_t select_column_count =
object_traits::column_count -
object_traits::separate_load_column_count;
static const std::size_t insert_column_count =
object_traits::column_count -
object_traits::inverse_column_count -
object_traits::managed_optimistic_column_count;
static const std::size_t update_column_count =
insert_column_count -
id_column_count -
object_traits::readonly_column_count -
object_traits::separate_update_column_count;
private:
object_statements (const object_statements&);
object_statements& operator= (const object_statements&);
protected:
template <typename STS>
void
load_delayed_ (const schema_version_migration*);
void
clear_delayed_ ();
protected:
template <typename T1>
friend class polymorphic_derived_object_statements;
extra_statement_cache_ptr<extra_statement_cache_type,
image_type,
id_image_type> extra_statement_cache_;
image_type image_;
// Select binding.
//
std::size_t select_image_version_;
binding select_image_binding_;
bind select_image_bind_[select_column_count];
bool select_image_truncated_[select_column_count];
// Insert binding.
//
std::size_t insert_image_version_;
binding insert_image_binding_;
bind insert_image_bind_[insert_column_count];
// Update binding. Note that the id suffix is bound to id_image_
// below instead of image_ which makes this binding effectively
// bound to two images. As a result, we have to track versions
// for both of them. If this object uses optimistic concurrency,
// then the binding for the managed column (version, timestamp,
// etc) comes after the id and the image for such a column is
// stored as part of the id image.
//
std::size_t update_image_version_;
std::size_t update_id_image_version_;
binding update_image_binding_;
bind update_image_bind_[update_column_count + id_column_count +
managed_optimistic_column_count];
// Id image binding (only used as a parameter). Uses the suffix in
// the update bind.
//
id_image_type id_image_;
std::size_t id_image_version_;
binding id_image_binding_;
// Extra data for objects with optimistic concurrency support.
//
optimistic_data<T, managed_optimistic_column_count != 0> od_;
details::shared_ptr<insert_statement_type> persist_;
details::shared_ptr<select_statement_type> find_;
details::shared_ptr<update_statement_type> update_;
details::shared_ptr<delete_statement_type> erase_;
// Delayed loading.
//
struct delayed_load
{
typedef typename pointer_cache_traits::position_type position_type;
delayed_load () {}
delayed_load (const id_type& i,
object_type& o,
const position_type& p,
loader_function l)
: id (i), obj (&o), pos (p), loader (l)
{
}
id_type id;
object_type* obj;
position_type pos;
loader_function loader;
};
typedef std::vector<delayed_load> delayed_loads;
delayed_loads delayed_;
// Delayed vectors swap guard. See the load_delayed_() function for
// details.
//
struct swap_guard
{
swap_guard (object_statements& os, delayed_loads& dl)
: os_ (os), dl_ (dl)
{
dl_.swap (os_.delayed_);
}
~swap_guard ()
{
os_.clear_delayed ();
dl_.swap (os_.delayed_);
}
private:
object_statements& os_;
delayed_loads& dl_;
};
};
}
}
#include <odb/sqlite/simple-object-statements.ixx>
#include <odb/sqlite/simple-object-statements.txx>
#include <odb/post.hxx>
#endif // ODB_SQLITE_SIMPLE_OBJECT_STATEMENTS_HXX
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