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tdepim/libkdepim/weaver.cpp

551 lines
12 KiB

/* -*- C++ -*-
This file implements the Weaver, Job and Thread classes.
$ Author: Mirko Boehm $
$ Copyright: (C) 2004, Mirko Boehm $
$ Contact: mirko@kde.org
http://www.kde.org
http://www.hackerbuero.org $
$ License: LGPL with the following explicit clarification:
This code may be linked against any version of the Qt toolkit
from Troll Tech, Norway. $
*/
extern "C" {
#include <signal.h>
}
#include <tqevent.h>
#include <tqapplication.h>
#include "weaver.h"
namespace KPIM {
namespace ThreadWeaver {
bool Debug = true;
int DebugLevel = 2;
Job::Job (TQObject* parent, const char* name)
: TQObject (parent, name),
m_finished (false),
m_mutex (new TQMutex (true) ),
m_thread (0)
{
}
Job::~Job()
{
}
void Job::lock()
{
m_mutex->lock();
}
void Job::unlock()
{
m_mutex->unlock();
}
void Job::execute(Thread *th)
{
m_mutex->lock();
m_thread = th;
m_mutex->unlock();
run ();
m_mutex->lock();
setFinished (true);
m_thread = 0;
m_mutex->unlock();
}
Thread *Job::thread ()
{
TQMutexLocker l (m_mutex);
return m_thread;
}
bool Job::isFinished() const
{
TQMutexLocker l (m_mutex);
return m_finished;
}
void Job::setFinished(bool status)
{
TQMutexLocker l (m_mutex);
m_finished = status;
}
void Job::processEvent (Event *e)
{
switch ( e->action() )
{
case Event::JobStarted:
emit ( started() );
break;
case Event::JobFinished:
emit ( done() );
break;
case Event::JobSPR:
emit ( SPR () );
m_wc->wakeOne ();
break;
case Event::JobAPR:
emit ( APR () );
// no wake here !
break;
default:
break;
}
}
void Job::triggerSPR ()
{
m_mutex->lock ();
m_wc = new QWaitCondition;
m_mutex->unlock ();
thread()->post (KPIM::ThreadWeaver::Event::JobSPR, this);
m_wc->wait ();
m_mutex->lock ();
delete m_wc;
m_wc = 0;
m_mutex->unlock ();
}
void Job::triggerAPR ()
{
m_mutex->lock ();
m_wc = new QWaitCondition;
m_mutex->unlock ();
thread()->post (KPIM::ThreadWeaver::Event::JobAPR, this);
m_wc->wait ();
}
void Job::wakeAPR ()
{
TQMutexLocker l(m_mutex);
if ( m_wc!=0 )
{
m_wc->wakeOne ();
delete m_wc;
m_wc = 0;
}
}
const int Event::Type = TQEvent::User + 1000;
Event::Event ( Action action, Thread *thread, Job *job)
: TQCustomEvent ( type () ),
m_action (action),
m_thread (thread),
m_job (job)
{
}
int Event::type ()
{
return Type;
}
Thread* Event::thread () const
{
if ( m_thread != 0)
{
return m_thread;
} else {
return 0;
}
}
Job* Event::job () const
{
return m_job;
}
Event::Action Event::action () const
{
return m_action;
}
unsigned int Thread::sm_Id;
Thread::Thread (Weaver *parent)
: TQThread (),
m_parent ( parent ),
m_id ( makeId() )
{
}
Thread::~Thread()
{
}
unsigned int Thread::makeId()
{
static TQMutex mutex;
TQMutexLocker l (&mutex);
return ++sm_Id;
}
unsigned int Thread::id() const
{
return m_id;
}
void Thread::run()
{
Job *job = 0;
post ( Event::ThreadStarted );
while (true)
{
debug ( 3, "Thread::run [%u]: trying to execute the next job.\n", id() );
job = m_parent->applyForWork ( this, job );
if (job == 0)
{
break;
} else {
post ( Event::JobStarted, job );
job->execute (this);
post ( Event::JobFinished, job );
}
}
post ( Event::ThreadExiting );
}
void Thread::post (Event::Action a, Job *j)
{
m_parent->post ( a, this, j);
}
void Thread::msleep(unsigned long msec)
{
TQThread::msleep(msec);
}
Weaver::Weaver(TQObject* parent, const char* name,
int inventoryMin, int inventoryMax)
: TQObject(parent, name),
m_active(0),
m_inventoryMin(inventoryMin),
m_inventoryMax(inventoryMax),
m_shuttingDown(false),
m_running (false),
m_suspend (false),
m_mutex ( new TQMutex(true) )
{
lock();
for ( int count = 0; count < m_inventoryMin; ++count)
{
Thread *th = new Thread(this);
m_inventory.append(th);
// this will idle the thread, waiting for a job
th->start();
emit (threadCreated (th) );
}
unlock();
}
Weaver::~Weaver()
{
lock();
debug ( 1, "Weaver dtor: destroying inventory.\n" );
m_shuttingDown = true;
unlock();
m_jobAvailable.wakeAll();
// problem: Some threads might not be asleep yet, just finding
// out if a job is available. Those threads will suspend
// waiting for their next job (a rare case, but not impossible).
// Therefore, if we encounter a thread that has not exited, we
// have to wake it again (which we do in the following for
// loop).
for ( Thread *th = m_inventory.first(); th; th = m_inventory.next() )
{
if ( !th->finished() )
{
m_jobAvailable.wakeAll();
th->wait();
}
emit (threadDestroyed (th) );
delete th;
}
m_inventory.clear();
delete m_mutex;
debug ( 1, "Weaver dtor: done\n" );
}
void Weaver::lock()
{
debug ( 3 , "Weaver::lock: lock (mutex is %s).\n",
( m_mutex->locked() ? "locked" : "not locked" ) );
m_mutex->lock();
}
void Weaver::unlock()
{
m_mutex->unlock();
debug ( 3 , "Weaver::unlock: unlock (mutex is %s).\n",
( m_mutex->locked() ? "locked" : "not locked" ) );
}
int Weaver::threads () const
{
TQMutexLocker l (m_mutex);
return m_inventory.count ();
}
void Weaver::enqueue(Job* job)
{
lock();
m_assignments.append(job);
m_running = true;
unlock();
assignJobs();
}
void Weaver::enqueue (TQPtrList <Job> jobs)
{
lock();
for ( Job * job = jobs.first(); job; job = jobs.next() )
{
m_assignments.append (job);
}
unlock();
assignJobs();
}
bool Weaver::dequeue ( Job* job )
{
TQMutexLocker l (m_mutex);
return m_assignments.remove (job);
}
void Weaver::dequeue ()
{
TQMutexLocker l (m_mutex);
m_assignments.clear();
}
void Weaver::suspend (bool state)
{
lock();
if (state)
{
// no need to wake any threads here
m_suspend = true;
if ( m_active == 0 && isEmpty() )
{ // instead of waking up threads:
post (Event::Suspended);
}
} else {
m_suspend = false;
// make sure we emit suspended () even if all threads are sleeping:
assignJobs ();
debug (2, "Weaver::suspend: queueing resumed.\n" );
}
unlock();
}
void Weaver::assignJobs()
{
m_jobAvailable.wakeAll();
}
bool Weaver::event (TQEvent *e )
{
if ( e->type() >= TQEvent::User )
{
if ( e->type() == Event::type() )
{
Event *event = (Event*) e;
switch (event->action() )
{
case Event::JobFinished:
if ( event->job() !=0 )
{
emit (jobDone (event->job() ) );
}
break;
case Event::Finished:
emit ( finished() );
break;
case Event::Suspended:
emit ( suspended() );
break;
case Event::ThreadSuspended:
if (!m_shuttingDown )
{
emit (threadSuspended ( event->thread() ) );
}
break;
case Event::ThreadBusy:
if (!m_shuttingDown )
{
emit (threadBusy (event->thread() ) );
}
break;
default:
break;
}
if ( event->job() !=0 )
{
event->job()->processEvent (event);
}
} else {
debug ( 0, "Weaver::event: Strange: received unknown user event.\n" );
}
return true;
} else {
// others - please make sure we are a QObject!
return TQObject::event ( e );
}
}
void Weaver::post (Event::Action a, Thread* t, Job* j)
{
Event *e = new Event ( a, t, j);
TQApplication::postEvent (this, e);
}
bool Weaver::isEmpty() const
{
TQMutexLocker l (m_mutex);
return m_assignments.count()==0;
}
Job* Weaver::applyForWork(Thread *th, Job* previous)
{
Job *rc = 0;
bool lastjob = false;
bool suspended = false;
while (true)
{
lock();
if (previous != 0)
{ // cleanup and send events:
--m_active;
debug ( 3, "Weaver::applyForWork: job done, %i jobs left, "
"%i active jobs left.\n",
queueLength(), m_active );
if ( m_active == 0 && isEmpty() )
{
lastjob = true;
m_running = false;
post (Event::Finished);
debug ( 3, "Weaver::applyForWork: last job.\n" );
}
if (m_active == 0 && m_suspend == true)
{
suspended = true;
post (Event::Suspended);
debug ( 2, "Weaver::applyForWork: queueing suspended.\n" );
}
m_jobFinished.wakeOne();
}
previous = 0;
if (m_shuttingDown == true)
{
unlock();
return 0;
} else {
if ( !isEmpty() && m_suspend == false )
{
rc = m_assignments.getFirst();
m_assignments.removeFirst ();
++m_active;
debug ( 3, "Weaver::applyForWork: job assigned, "
"%i jobs in queue (%i active).\n",
m_assignments.count(), m_active );
unlock();
post (Event::ThreadBusy, th);
return rc;
} else {
unlock();
post (Event::ThreadSuspended, th);
m_jobAvailable.wait();
}
}
}
}
int Weaver::queueLength()
{
TQMutexLocker l (m_mutex);
return m_assignments.count();
}
bool Weaver::isIdle () const
{
TQMutexLocker l (m_mutex);
return isEmpty() && m_active == 0;
}
void Weaver::finish()
{
while ( !isIdle() )
{
debug (2, "Weaver::finish: not done, waiting.\n" );
m_jobFinished.wait();
}
debug (1, "Weaver::finish: done.\n\n\n" );
}
}
}
#include "weaver.moc"