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/* -*- C++ -*-
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This file declares the Weaver, Job and Thread classes.
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$ Author: Mirko Boehm $
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$ Copyright: (C) 2004, Mirko Boehm $
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$ Contact: mirko@kde.org
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http://www.kde.org
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http://www.hackerbuero.org $
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$ License: LGPL with the following explicit clarification:
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This code may be linked against any version of the TQt toolkit
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from Troll Tech, Norway. $
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*/
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#ifndef WEAVER_H
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#define WEAVER_H
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extern "C"
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{
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#include <stdarg.h>
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#include <unistd.h>
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#include <stdio.h>
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}
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#include <tqobject.h>
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#include <tqptrlist.h>
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#include <tqthread.h>
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#include <tqwaitcondition.h>
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#include <tqmutex.h>
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#include <tqevent.h>
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#include <kdepimmacros.h>
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namespace KPIM {
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namespace ThreadWeaver {
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/** This method prints a text message on the screen, if debugging is
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enabled. Otherwise, it does nothing. The message is thread safe,
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therefore providing that the messages appear in the order they where
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issued by the different threads.
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All messages are suppressed when Debug is false. All messages with a
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lower importance (higher number) than DebugLevel will be suppressed,
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too. Debug level 0 messages will always be printed as long as
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Debug is true.
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We use our own debugging method, since debugging threads is a more
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complicated experience than debugging single threaded
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contexts. This might change in future in the way that debug
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prints it's messages to another logging facility provided by
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the platform.
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Use setDebugLevel () to integrate adapt debug () to your platform.
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*/
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KDE_EXPORT extern bool Debug;
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KDE_EXPORT extern int DebugLevel;
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KDE_EXPORT inline void setDebugLevel (bool debug, int level)
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{
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Debug = debug;
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DebugLevel = level;
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}
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KDE_EXPORT inline void debug(int severity, const char * cformat, ...)
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#ifdef __GNUC__
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__attribute__ ( (format (printf, 2, 3 ) ) )
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#endif
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;
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KDE_EXPORT inline void debug(int severity, const char * cformat, ...)
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{
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if ( Debug == true && ( severity<=DebugLevel || severity == 0) )
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{
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static TQMutex mutex;
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TQString text;
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mutex.lock();
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va_list ap;
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va_start( ap, cformat );
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vprintf (cformat, ap);
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va_end (ap);
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mutex.unlock();
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}
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}
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class Thread;
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class Job;
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/** A class to represent the events threads generate and send to the
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Weaver object. Examples include the start or end of the processing of a
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job. Threads create the event objects and discard them after posting
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the event, since the event receiver will assume ownership of the
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event.
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Events are associated to the sending thread and possibly to a
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processed job.
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Note: Do not create and use SPR/APR events, use Job::triggerSPR or
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Job::triggerAPR to create the requests. */
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class KDE_EXPORT Event : public TQCustomEvent
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{
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public:
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enum Action {
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NoAction = 0,
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Finished, /// All jobs in the queue are done.
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Suspended, /// Thread queueing halted.
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ThreadStarted,
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ThreadExiting,
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ThreadBusy,
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ThreadSuspended,
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JobStarted,
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JobFinished,
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JobSPR, /// Synchronous Process Request
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JobAPR /// Asynchronous Process Request
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};
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Event ( Action = NoAction, Thread * = 0, Job *job = 0);
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/** Return the (custom defined) event type. */
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static int type ();
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/** The ID of the sender thread. */
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Thread* thread () const;
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/** The associated job. */
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Job* job () const;
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/** The action. */
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Action action () const;
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private:
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Action m_action;
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Thread *m_thread;
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Job *m_job;
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static const int Type;
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};
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/** A Job is a simple abstraction of an action that is to be
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executed in a thread context.
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It is essential for the ThreadWeaver library that as a kind of
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convention, the different creators of Job objects do not touch the
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protected data members of the Job until somehow notified by the
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Job. See the SPR signal for an example.
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Jobs may emit process requests as signals. Consider process requests
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as a kind of synchronized call to the main thread.
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Process Requests are a generic means for Job derivate programmers to have
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the jobs interact with the creators (in the main thread) during
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processing time. To avoid race
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conditions and extensive locking and unlocking, the thread executing the
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job is suspended during the period needed to process the request.
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There are two kinds of process requests (we introduce abbreviations,
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also in the signal names and the code,
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only to save typing). Both are emitted by signals in the main thread:
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- Synchronous Process Requests (SPR): Synchronous requests expect that the
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complete request is performed in the slots connected to the signals. For
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example, to update a widget according to the progress of the job, a SPR
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may be used. In such cases, the Job's execution will be resumed
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immediately after the signal has been processed.
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- Asynchronous Process Requests (APR): For APRs, the job emitting the
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signal does not assume anything about the amount of time needed to
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perform the operation. Therefore, the thread is not waked after the
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signal returns. The creator has to wake to thread whenever it is
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ready by calling the wakeAPR method.
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Note: When using an APR, you better make sure to receive the signal
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with some object, otherwise the calling thread will block forever!
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*/
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class KDE_EXPORT Job : public TQObject
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{
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Q_OBJECT
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TQ_OBJECT
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public:
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/** Construct a Job object. */
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Job(TQObject* parent=0, const char* name=0);
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/** Destructor. */
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virtual ~Job();
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/** Perform the job. The thread in which this job is executed
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is given as a parameter.
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Do not overload this method to create your own Job
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implementation, overload run(). */
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virtual void execute(Thread*);
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/** Returns true if the jobs's execute method finished. */
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virtual bool isFinished() const;
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/** Wake the thread after an APR has been processed. */
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void wakeAPR ();
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/** Process events related to this job (created by the processing
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thread or the weaver or whoever). */
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virtual void processEvent ( Event* );
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signals:
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/** This signal is emitted when a thread starts to process a job. */
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void started ();
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/** This signal is emitted when a job has been finished. */
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void done ();
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/** This signal is emitted when the job needs some operation done by
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the main thread (usually the creator of the job).
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It is important to understand that the emitting thread is
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suspended until the signal returns.
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When
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the operation requested has been performed and this signal is
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finished, the thread is automatically waked.
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What operation needs to be performed has to be negotiated between
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the two objects.
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Note: This signal is an attempt to provide job programmers with a
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generic way to interact while the job is executed. I am interested
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in feedback about it's use. */
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void SPR ();
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/** Perform an Asynchronous Process Request. See SPR and the generic
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Job documentation for a comparison. */
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void APR ();
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protected:
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/** Lock this Job's mutex. */
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void lock();
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/** Unlock this Job's mutex. */
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void unlock();
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/** The method that actually performs the job. It is called from
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execute(). This method is the one to overload it with the
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job's task. */
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virtual void run () = 0;
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/** Return the thread that executes this job.
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Returns zero of the job is not currently executed. */
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Thread *thread();
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/** Call with status = true to mark this job as done. */
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virtual void setFinished(bool status);
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/** Trigger a SPR.
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This emits a signal in the main thread indicating the necessity of
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a synchronized operation. */
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void triggerSPR ();
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/** Trigger an APR.
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This emit a signal in the main thread indicating the necessity of
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an unsynchronized operation.
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The calling thread needs to ensure to wake the thread when the
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operation is done. */
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void triggerAPR ();
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bool m_finished;
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TQMutex *m_mutex;
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Thread * m_thread;
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TQWaitCondition *m_wc;
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};
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class Weaver;
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/** The class Thread is used to represent the worker threads in
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the weaver's inventory. It is not meant to be overloaded. */
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class KDE_EXPORT Thread : public TQThread
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{
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public:
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/** Create a thread.
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These thread objects are only used inside the Weaver parent
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object. */
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Thread(Weaver *parent);
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/** The destructor. */
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~Thread();
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/** Overloaded to execute the assigned job.
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This will NOT return until shutdown() is called. The
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thread will try to execute one job after the other, asking
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the Weaver parent for a new job when the assigned one is
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finished.
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If no jobs are available, the thread will suspend.
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After shutdown() is called, the thread will end as soon as
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the currently assigned job is done.
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*/
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void run();
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/* Provide the msleep() method (protected in TQThread) to be
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available for executed jobs. */
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void msleep(unsigned long msec);
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/** Returns the thread id.
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This id marks the respective Thread object, and must
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therefore not be confused with, e.g., the pthread thread
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ID. */
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unsigned int id() const;
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/** Post an event, will be received and processed by the Weaver. */
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void post (Event::Action, Job* = 0);
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private:
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Weaver *m_parent;
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const unsigned int m_id;
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static unsigned int sm_Id;
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static unsigned int makeId();
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};
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/** A weaver is the manager of worker threads (Thread objects) to
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which it assigns jobs from it's queue. */
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class KDE_EXPORT Weaver : public TQObject
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{
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Q_OBJECT
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TQ_OBJECT
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public:
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Weaver (TQObject* parent=0, const char* name=0,
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int inventoryMin = 4, // minimal number of provided threads
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int inventoryMax = 32); // maximum number of provided threads
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virtual ~Weaver ();
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/** Add a job to be executed. */
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virtual void enqueue (Job*);
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/** Enqueue all jobs in the given list.
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This is an atomic operation, no jobs will start
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before all jobs in the list are enqueued.
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If you need a couple of jobs done and want to receive the
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finished () signal afterwards, use this method to queue
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them. Otherwise, when enqueueing your jobs
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individually, there is a chance that you receive more than
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one finished signal. */
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void enqueue (TQPtrList<Job> jobs);
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/** Remove a job from the queue.
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If the job qas queued but not started so far, it is simple
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removed from the queue. For now, it is unsupported to
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dequeue a job once its execution has started.
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For that case, you will have to provide a method to interrupt your
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job's execution (and receive the done signal).
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Returns true if the job has been dequeued, false if the
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job has already been started or is not found in the
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queue. */
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virtual bool dequeue (Job*);
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/** Remove all queued jobs.
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Please note that this will not kill the threads, therefore
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all jobs that are being processed will be continued. */
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virtual void dequeue ();
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/** Get notified when a thread has finished a job.
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This is done automatically. */
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// virtual void jobFinished(Thread *);
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/** Finish all queued operations, then return.
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This method is used in imperative programs that cannot react on
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events to have the controlling (main) thread wait wait for the
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jobs to finish.
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Warning: This will suspend your thread!
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Warning: If your jobs enter for example an infinite loop, this
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will never return! */
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virtual void finish();
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/** Suspend job execution if state = true, otherwise resume
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job execution if it was suspended.
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When suspending, all threads are allowed to finish the
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currently assigned job but will not receive a new
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assignment.
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When all threads are done processing the assigned job, the
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signal suspended will() be emitted.
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If you call suspend (true) and there are no jobs left to
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be done, you will immidiately receive the suspended()
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signal. */
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virtual void suspend (bool state);
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/** Is the queue empty? */
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bool isEmpty () const;
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/** Is the weaver idle?
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The weaver is idle if no jobs are queued and no jobs are processed
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by the threads (m_active is zero). */
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bool isIdle () const;
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/** Returns the number of pending jobs. */
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int queueLength ();
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/** Assign a job to the calling thread.
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This is supposed to be called from the Thread objects in
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the inventory.
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Returns 0 if the weaver is shutting down, telling the
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calling thread to finish and exit.
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If no jobs are available and shut down is not in progress,
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the calling thread is suspended until either condition is
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met.
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In previous, threads give the job they have completed. If this is
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the first job, previous is zero. */
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virtual Job* applyForWork (Thread *thread, Job *previous);
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/** Lock the mutex for this weaver. The threads in the
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inventory need to lock the weaver's mutex to synchronize
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the job management. */
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void lock ();
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/** Unlock. See lock(). */
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void unlock ();
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/** Post an event that is handled by this object, but in the main
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(GUI) thread. Different threads may use this method to communicate
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with the main thread.
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thread and job mark the objects associated with this event. */
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void post (Event::Action, Thread* = 0, Job* = 0);
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/** Returns the current number of threads in the inventory. */
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int threads () const;
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signals:
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/** This signal is emitted when the Weaver has finished ALL currently
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queued jobs.
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If a number of jobs is enqueued sequentially, this signal might be
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emitted a couple of times (what happens is that all already queued
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jobs have been processed while you still add new ones). This is
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not a bug, but the intended behaviour. */
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void finished ();
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/** Thread queueing has been suspended.
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When suspend is called with state = true, all threads are
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allowed to finish their job. When the last thread
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finished, this signal is emitted. */
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void suspended ();
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/** This signal is emitted when a job is done. It is up to the
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programmer if this signal or the done signal of the job is more
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handy. */
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void jobDone (Job*);
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// The following signals are used mainly for debugging purposes.
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void threadCreated (Thread *);
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void threadDestroyed (Thread *);
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void threadBusy (Thread *);
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void threadSuspended (Thread *);
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protected:
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/** Schedule enqueued jobs to be executed by idle threads.
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This will try to distribute as many jobs as possible
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to all idle threads. */
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void assignJobs();
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/** Check incoming events for user defined ones. The threads use user
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defined events to communicate with the Weaver. */
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bool event ( TQEvent* );
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/** The thread inventory. */
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TQPtrList<Thread> m_inventory;
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/** The job queue. */
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TQPtrList<Job> m_assignments;
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/** The number of jobs that are assigned to the worker
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threads, but not finished. */
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int m_active;
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/** Stored setting. */
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int m_inventoryMin;
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/** Stored setting . */
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int m_inventoryMax;
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/** Wait condition all idle or done threads wait for. */
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TQWaitCondition m_jobAvailable;
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/** Wait for a job to finish. */
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TQWaitCondition m_jobFinished;
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/** Indicates if the weaver is shutting down and exiting it's
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threads. */
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bool m_shuttingDown;
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/** m_running is set to true when a job is enqueued and set to false
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when the job finishes that was the last in the queue.
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E.g., this will flip from false to true to false when you
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continuously enqueue one single job. */
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bool m_running;
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/** If m_suspend is true, no new jobs will be assigned to
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threads.
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Jobs may be queued, but will not be processed until suspend
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(false) is called. */
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bool m_suspend;
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private:
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/** Mutex to serialize operations. */
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TQMutex *m_mutex;
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};
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} // namespace ThreadWeaver
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} // namespace KPIM
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#endif // defined WEAVER_H
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