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/**
* This file is part of TelepathyQt
*
* @copyright Copyright (C) 2008-2009 Collabora Ltd. <http://www.collabora.co.uk/>
* @copyright Copyright (C) 2008-2009 Nokia Corporation
* @license LGPL 2.1
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <TelepathyQt/ReferencedHandles>
#include "TelepathyQt/debug-internal.h"
#include <TelepathyQt/Connection>
#include <QSharedData>
namespace Tp
{
struct TP_QT_NO_EXPORT ReferencedHandles::Private : public QSharedData
{
WeakPtr<Connection> connection;
HandleType handleType;
UIntList handles;
Private()
{
handleType = HandleTypeNone;
}
Private(const ConnectionPtr &conn, HandleType handleType,
const UIntList &handles)
: connection(conn), handleType(handleType), handles(handles)
{
Q_ASSERT(!conn.isNull());
Q_ASSERT(handleType != 0);
foreach (uint handle, handles) {
conn->refHandle(handleType, handle);
}
}
Private(const Private &a)
: QSharedData(a),
connection(a.connection),
handleType(a.handleType),
handles(a.handles)
{
if (!handles.isEmpty()) {
ConnectionPtr conn(connection);
if (!conn) {
debug() << " Destroyed after Connection, so the Connection "
"has already released the handles";
return;
}
for (const_iterator i = handles.constBegin(); i != handles.constEnd(); ++i) {
conn->refHandle(handleType, *i);
}
}
}
~Private()
{
if (!handles.isEmpty()) {
ConnectionPtr conn(connection);
if (!conn) {
debug() << " Destroyed after Connection, so the Connection "
"has already released the handles";
return;
}
for (const_iterator i = handles.constBegin(); i != handles.constEnd(); ++i) {
conn->unrefHandle(handleType, *i);
}
}
}
private:
void operator=(const Private&);
};
/**
* \class ReferencedHandles
* \ingroup clientconn
* \headerfile TelepathyQt/referenced-handles.h <TelepathyQt/ReferencedHandles>
*
* \brief Helper container for safe management of handle lifetimes. Every handle
* in a ReferencedHandles container is guaranteed to be valid (and stay valid,
* as long it's in at least one ReferencedHandles container).
*
* The class offers a QList-style API. However, from the mutable operations,
* only the operations for which the validity guarantees can be preserved are
* provided. This means no functions which can add an arbitrary handle to the
* container are included - the only way to add handles to the container is to
* reference them using Connection::referenceHandles() and appending the
* resulting ReferenceHandles instance.
*
* ReferencedHandles is a implicitly shared class.
*/
ReferencedHandles::ReferencedHandles()
: mPriv(new Private)
{
}
ReferencedHandles::ReferencedHandles(const ReferencedHandles &other)
: mPriv(other.mPriv)
{
}
ReferencedHandles::~ReferencedHandles()
{
}
ConnectionPtr ReferencedHandles::connection() const
{
return ConnectionPtr(mPriv->connection);
}
HandleType ReferencedHandles::handleType() const
{
return mPriv->handleType;
}
uint ReferencedHandles::at(int i) const
{
return mPriv->handles[i];
}
uint ReferencedHandles::value(int i, uint defaultValue) const
{
return mPriv->handles.value(i, defaultValue);
}
ReferencedHandles::const_iterator ReferencedHandles::begin() const
{
return mPriv->handles.begin();
}
ReferencedHandles::const_iterator ReferencedHandles::end() const
{
return mPriv->handles.end();
}
bool ReferencedHandles::contains(uint handle) const
{
return mPriv->handles.contains(handle);
}
int ReferencedHandles::count(uint handle) const
{
return mPriv->handles.count(handle);
}
int ReferencedHandles::indexOf(uint handle, int from) const
{
return mPriv->handles.indexOf(handle, from);
}
bool ReferencedHandles::isEmpty() const
{
return mPriv->handles.isEmpty();
}
int ReferencedHandles::lastIndexOf(uint handle, int from) const
{
return mPriv->handles.lastIndexOf(handle, from);
}
ReferencedHandles ReferencedHandles::mid(int pos, int length) const
{
return ReferencedHandles(connection(), handleType(),
mPriv->handles.mid(pos, length));
}
int ReferencedHandles::size() const
{
return mPriv->handles.size();
}
void ReferencedHandles::clear()
{
if (!mPriv->handles.empty()) {
ConnectionPtr conn(mPriv->connection);
if (conn) {
foreach (uint handle, mPriv->handles) {
conn->unrefHandle(handleType(), handle);
}
} else {
warning() << "Connection already destroyed in "
"ReferencedHandles::clear() so can't unref!";
}
}
mPriv->handles.clear();
}
void ReferencedHandles::move(int from, int to)
{
mPriv->handles.move(from, to);
}
int ReferencedHandles::removeAll(uint handle)
{
int count = mPriv->handles.removeAll(handle);
if (count > 0) {
ConnectionPtr conn(mPriv->connection);
if (conn) {
for (int i = 0; i < count; ++i) {
conn->unrefHandle(handleType(), handle);
}
} else {
warning() << "Connection already destroyed in "
"ReferencedHandles::removeAll() with handle ==" <<
handle << "so can't unref!";
}
}
return count;
}
void ReferencedHandles::removeAt(int i)
{
ConnectionPtr conn(mPriv->connection);
if (conn) {
conn->unrefHandle(handleType(), at(i));
} else {
warning() << "Connection already destroyed in "
"ReferencedHandles::removeAt() with i ==" <<
i << "so can't unref!";
}
mPriv->handles.removeAt(i);
}
bool ReferencedHandles::removeOne(uint handle)
{
bool wasThere = mPriv->handles.removeOne(handle);
if (wasThere) {
ConnectionPtr conn(mPriv->connection);
if (conn) {
conn->unrefHandle(handleType(), handle);
} else {
warning() << "Connection already destroyed in "
"ReferencedHandles::removeOne() with handle ==" <<
handle << "so can't unref!";
}
}
return wasThere;
}
void ReferencedHandles::swap(int i, int j)
{
mPriv->handles.swap(i, j);
}
uint ReferencedHandles::takeAt(int i)
{
ConnectionPtr conn(mPriv->connection);
if (conn) {
conn->unrefHandle(handleType(), at(i));
} else {
warning() << "Connection already destroyed in "
"ReferencedHandles::takeAt() with i ==" <<
i << "so can't unref!";
}
return mPriv->handles.takeAt(i);
}
ReferencedHandles ReferencedHandles::operator+(const ReferencedHandles &another) const
{
if (connection() != another.connection() ||
handleType() != another.handleType()) {
warning() << "Tried to concatenate ReferencedHandles instances "
"with different connection and/or handle type";
return *this;
}
return ReferencedHandles(connection(), handleType(),
mPriv->handles + another.mPriv->handles);
}
ReferencedHandles &ReferencedHandles::operator=(
const ReferencedHandles &another)
{
mPriv = another.mPriv;
return *this;
}
bool ReferencedHandles::operator==(const ReferencedHandles &another) const
{
return connection() == another.connection() &&
handleType() == another.handleType() &&
mPriv->handles == another.mPriv->handles;
}
bool ReferencedHandles::operator==(const UIntList &list) const
{
return mPriv->handles == list;
}
UIntList ReferencedHandles::toList() const
{
return mPriv->handles;
}
ReferencedHandles::ReferencedHandles(const ConnectionPtr &connection,
HandleType handleType, const UIntList &handles)
: mPriv(new Private(connection, handleType, handles))
{
}
} // Tp
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