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arts/qtmcop/qiomanager.cc

300 lines
6.5 KiB

/*
Copyright (C) 1999-2001 Stefan Westerfeld
stefan@space.twc.de
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "qiomanager.h"
#include "qiomanager_p.h"
#include <tqsocketnotifier.h>
#include <tqapplication.h>
#include "debug.h"
#include "dispatcher.h"
#include "thread.h"
using namespace std;
using namespace Arts;
/*
* Collected incompatibilities of QIOManager (compared against StdIOManager):
*
* - StdIOManager catches up timers (i.e. if a 100ms timer hasn't been
* notified for half a second, it will get notified five times to
* catch up the lost time
* - StdIOManager is able to watch the same filedescriptor twice for reading
* - StdIOManager sends notifications soon after they have been produced,
* whereas we use a hackish 50ms timer to deliver them
*/
/*
* Fallback for the case where we should perform blocking
*/
namespace Arts {
class QIOManagerBlocking : public StdIOManager {
public:
void setLevel(int newLevel) { level = newLevel; }
};
}
/*
* QIOManager is a singleton (or at least supposed to be used only once at
* most, and the behaviour would pretty undefined if you violate this), so we
* use static variables for private data here.
*/
static int qioLevel;
static QIOManager *qioManager = 0;
static QIOManagerBlocking *qioManagerBlocking = 0;
static bool qioBlocking;
/*
* QIOWatch:
*/
QIOWatch::QIOWatch(int fd, int type, IONotify *notify,
TQSocketNotifier::Type qtype, bool reentrant)
: _fd(fd), _type(type), _client(notify), _reentrant(reentrant)
{
qsocketnotify = new TQSocketNotifier(fd,qtype,this);
connect(qsocketnotify,TQT_SIGNAL(activated(int)),this,TQT_SLOT(notify(int)));
}
void QIOWatch::notify(int socket)
{
arts_assert(socket == _fd);
qioManager->dispatch(this);
}
/*
* QTimeWatch:
*/
QTimeWatch::QTimeWatch(int milliseconds, TimeNotify *notify)
{
timer = new TQTimer(this);
connect( timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(notify()) );
timer->start(milliseconds);
_client = notify;
}
void QTimeWatch::notify()
{
qioManager->dispatch(this);
}
/*
* Handle NotificationManager::the()->run() from time to time
*/
namespace Arts {
class HandleNotifications : public TimeNotify {
public:
void notifyTime()
{
Arts::Dispatcher::the()->ioManager()->removeTimer(this);
NotificationManager::the()->run();
delete this;
}
};
}
/*
* QIOManager:
*/
QIOManager::QIOManager()
{
assert(!qioManager);
qioManager = this;
qioLevel = 0;
qioBlocking = true;
qioManagerBlocking = new QIOManagerBlocking();
}
QIOManager::~QIOManager()
{
assert(qioManager);
qioManager = 0;
delete qioManagerBlocking;
qioManagerBlocking = 0;
}
void QIOManager::processOneEvent(bool blocking)
{
assert(SystemThreads::the()->isMainThread());
if(qioBlocking)
{
qioLevel++;
if(qioLevel == 1)
Dispatcher::lock();
/*
* we explicitly take the level to qioManagerBlocking, so that it
* will process reentrant watchFDs only
*/
qioManagerBlocking->setLevel(qioLevel);
qioManagerBlocking->processOneEvent(blocking);
if(qioLevel == 1)
Dispatcher::unlock();
qioLevel--;
}
else
{
if(blocking)
qApp->processOneEvent();
else
qApp->processEvents(0);
}
}
void QIOManager::run()
{
arts_warning("QIOManager::run() not implemented.");
}
void QIOManager::terminate()
{
arts_warning("QIOManager::terminate() not implemented.");
}
void QIOManager::watchFD(int fd, int types, IONotify *notify)
{
bool r = (types & IOType::reentrant) != 0;
if(types & IOType::read)
{
fdList.push_back(
new QIOWatch(fd, IOType::read, notify, TQSocketNotifier::Read, r)
);
}
if(types & IOType::write)
{
fdList.push_back(
new QIOWatch(fd, IOType::write, notify, TQSocketNotifier::Write, r)
);
}
if(types & IOType::except)
{
fdList.push_back(
new QIOWatch(fd, IOType::except, notify, TQSocketNotifier::Exception,
r)
);
}
if(r) qioManagerBlocking->watchFD(fd, types, notify);
}
void QIOManager::remove(IONotify *notify, int types)
{
list<QIOWatch *>::iterator i;
i = fdList.begin();
while(i != fdList.end())
{
QIOWatch *w = *i;
if(w->type() & types && w->client() == notify)
{
delete w;
fdList.erase(i);
i = fdList.begin();
}
else i++;
}
qioManagerBlocking->remove(notify, types);
}
void QIOManager::addTimer(int milliseconds, TimeNotify *notify)
{
if (milliseconds == -1 && notify == 0)
{
// HACK: in order to not add a virtual function to IOManager we're calling addTimer with
// magic values. This call tells the ioManager that notifications are pending and
// NotificationManager::run() should get called soon.
notify = new HandleNotifications();
milliseconds = 0;
}
timeList.push_back(new QTimeWatch(milliseconds,notify));
}
void QIOManager::removeTimer(TimeNotify *notify)
{
list<QTimeWatch *>::iterator i;
i = timeList.begin();
while(i != timeList.end())
{
QTimeWatch *w = *i;
if(w->client() == notify)
{
delete w;
timeList.erase(i);
i = timeList.begin();
}
else i++;
}
}
void QIOManager::dispatch(QIOWatch *ioWatch)
{
qioLevel++;
if(qioLevel == 1)
Dispatcher::lock();
/*
* FIXME: there is main loop pollution for (qioBlocking == false) here:
*
* As QIOManager will never disable the socket notifiers that are not
* to be carried out reentrant, these will (maybe) fire again and again,
* so that CPU is wasted.
*/
if(qioLevel == 1 || ioWatch->reentrant())
ioWatch->client()->notifyIO(ioWatch->fd(),ioWatch->type());
if(qioLevel == 1)
Dispatcher::unlock();
qioLevel--;
}
void QIOManager::dispatch(QTimeWatch *timeWatch)
{
qioLevel++;
if(qioLevel == 1)
Dispatcher::lock();
// timers are never done reentrant
if(qioLevel == 1)
timeWatch->client()->notifyTime();
if(qioLevel == 1)
Dispatcher::unlock();
qioLevel--;
}
bool QIOManager::blocking()
{
return qioBlocking;
}
void QIOManager::setBlocking(bool blocking)
{
qioBlocking = blocking;
}
#include "qiomanager_p.moc"