Provided by: libcommoncpp2-doc_1.8.1-10_all bug

NAME

       ost::Thread - Every thread of execution in an application is created by instantiating an
       object of a class derived from the Thread class.

SYNOPSIS

       #include <thread.h>

       Inherited by ost::PosixThread, ost::SerialService, ost::SocketService, ost::TCPSession,
       ost::ThreadQueue, ost::TTYSession, and ost::UnixSession.

   Public Types
       enum Throw { throwNothing, throwObject, throwException }
           How to raise error.
       enum Cancel { cancelInitial =0, cancelDeferred =1, cancelImmediate, cancelDisabled,
           cancelManual, cancelDefault =cancelDeferred }
           How work cancellation.
       enum Suspend { suspendEnable, suspendDisable }
           How work suspend.
       typedef enum ost::Thread::Throw Throw
           How to raise error.
       typedef enum ost::Thread::Cancel Cancel
           How work cancellation.
       typedef enum ost::Thread::Suspend Suspend
           How work suspend.

   Public Member Functions
       Thread (bool isMain)
           This is actually a special constructor that is used to create a thread 'object' for
           the current execution context when that context is not created via an instance of a
           derived Thread object itself.
       Thread (int pri=0, size_t stack=0)
           When a thread object is contructed, a new thread of execution context is created.
       Thread (const Thread &th)
           A thread of execution can also be specified by cloning an existing thread.
       virtual ~Thread ()
           The thread destructor should clear up any resources that have been allocated by the
           thread.
       int start (Semaphore *start=0)
           When a new thread is created, it does not begin immediate execution.
       int detach (Semaphore *start=0)
           Start a new thread as 'detached'.
       Thread * getParent (void)
           Gets the pointer to the Thread class which created the current thread object.
       void suspend (void)
           Suspends execution of the selected thread.
       void resume (void)
           Resumes execution of the selected thread.
       Cancel getCancel (void)
           Used to retrieve the cancellation mode in effect for the selected thread.
       bool isRunning (void) const
           Verifies if the thread is still running or has already been terminated but not yet
           deleted.
       bool isDetached (void) const
           Check if this thread is detached.
       void join (void)
           Blocking call which unlocks when thread terminates.
       bool isThread (void) const
           Tests to see if the current execution context is the same as the specified thread
           object.
       cctid_t getId (void) const
           Get system thread numeric identifier.
       const char * getName (void) const
           Get the name string for this thread, to use in debug messages.

   Static Public Member Functions
       static Thread * get (void)
       static void setStack (size_t size=0)
           Set base stack limit before manual stack sizes have effect.
       static void sleep (timeout_t msec)
           A thread-safe sleep call.
       static void yield (void)
           Yields the current thread's CPU time slice to allow another thread to begin immediate
           execution.
       static Throw getException (void)
           Get exception mode of the current thread.
       static void setException (Throw mode)
           Set exception mode of the current thread.
       static Cancel enterCancel (void)
           This is used to help build wrapper functions in libraries around system calls that
           should behave as cancellation points but don't.
       static void exitCancel (Cancel cancel)
           This is used to restore a cancel block.

   Protected Member Functions
       void setName (const char *text)
           Set the name of the current thread.
       virtual void run (void)=0
           All threads execute by deriving the Run method of Thread.
       virtual void final (void)
           A thread that is self terminating, either by invoking exit() or leaving it's run(),
           will have this method called.
       virtual void initial (void)
           The initial method is called by a newly created thread when it starts execution.
       virtual void * getExtended (void)
           Since getParent() and getThread() only refer to an object of the Thread 'base' type,
           this virtual method can be replaced in a derived class with something that returns
           data specific to the derived class that can still be accessed through the pointer
           returned by getParent() and getThread().
       virtual void notify (Thread *)
           When a thread terminates, it now sends a notification message to the parent thread
           which created it.
       void exit (void)
           Used to properly exit from a Thread derived run() or initial() method.
       void sync (void)
           Used to wait for a join or cancel, in place of explicit exit.
       bool testCancel (void)
           test a cancellation point for deferred thread cancellation.
       void setCancel (Cancel mode)
           Sets thread cancellation mode.
       void setSuspend (Suspend mode)
           Sets the thread's ability to be suspended from execution.
       void terminate (void)
           Used by another thread to terminate the current thread.
       void clrParent (void)
           clear parent thread relationship.

   Friends
       class PosixThread
       class DummyThread
       class Cancellation
       class postream_type
       class Slog
       class ThreadImpl
       void operator++ (Thread &th)
           Signal the semaphore that the specified thread is waiting for before beginning
           execution.
       void operator-- (Thread &th)

Detailed Description

       Every thread of execution in an application is created by instantiating an object of a
       class derived from the Thread class.

       Classes derived from Thread must implement the run() method, which specifies the code of
       the thread. The base Thread class supports encapsulation of the generic threading methods
       implemented on various target operating systems. This includes the ability to start and
       stop threads in a synchronized and controllable manner, the ability to specify thread
       execution priority, and thread specific 'system call' wrappers, such as for sleep and
       yield. A thread exception is thrown if the thread cannot be created. Threading was the
       first part of Common C++ I wrote, back when it was still the APE library. My goal for
       Common C++ threading has been to make threading as natural and easy to use in C++
       application development as threading is in Java. With this said, one does not need to use
       threading at all to take advantage of Common C++. However, all Common C++ classes are
       designed at least to be thread-aware/thread-safe as appropriate and necessary.

       Common C++ threading is currently built either from the Posix 'pthread' library or using
       the win32 SDK. In that the Posix 'pthread' draft has gone through many revisions, and many
       system implementations are only marginally compliant, and even then usually in different
       ways, I wrote a large series of autoconf macros found in ost_pthread.m4 which handle the
       task of identifying which pthread features and capabilities your target platform supports.
       In the process I learned much about what autoconf can and cannot do for you..

       Currently the GNU Portable Thread library (GNU pth) is not directly supported in Common
       C++. While GNU 'Pth' doesn't offer direct native threading support or benefit from SMP
       hardware, many of the design advantages of threading can be gained from it's use, and the
       Pth pthread 'emulation' library should be usable with Common C++. In the future, Common
       C++ will directly support Pth, as well as OS/2 and BeOS native threading API's.

       Common C++ itself defines a fairly 'neutral' threading model that is not tied to any
       specific API such as pthread, win32, etc. This neutral thread model is contained in a
       series of classes which handle threading and synchronization and which may be used
       together to build reliable threaded applications.

       Common C++ defines application specific threads as objects which are derived from the
       Common C++ 'Thread' base class. At minimum the 'Run' method must be implemented, and this
       method essentially is the 'thread', for it is executed within the execution context of the
       thread, and when the Run method terminates the thread is assumed to have terminated.

       Common C++ allows one to specify the running priority of a newly created thread relative
       to the 'parent' thread which is the thread that is executing when the constructor is
       called. Since most newer C++ implementations do not allow one to call virtual constructors
       or virtual methods from constructors, the thread must be 'started' after the constructor
       returns. This is done either by defining a 'starting' semaphore object that one or more
       newly created thread objects can wait upon, or by invoking an explicit 'start' member
       function.

       Threads can be 'suspended' and 'resumed'. As this behavior is not defined in the Posix
       'pthread' specification, it is often emulated through signals. Typically SIGUSR1 will be
       used for this purpose in Common C++ applications, depending in the target platform. On
       Linux, since threads are indeed processes, SIGSTP and SIGCONT can be used. On solaris, the
       Solaris thread library supports suspend and resume directly.

       Threads can be canceled. Not all platforms support the concept of externally cancelable
       threads. On those platforms and API implementations that do not, threads are typically
       canceled through the action of a signal handler.

       As noted earlier, threads are considered running until the 'Run' method returns, or until
       a cancellation request is made. Common C++ threads can control how they respond to
       cancellation, using setCancellation(). Cancellation requests can be ignored, set to occur
       only when a cancellation 'point' has been reached in the code, or occur immediately.
       Threads can also exit by returning from Run() or by invoking the Exit() method.

       Generally it is a good practice to initialize any resources the thread may require within
       the constructor of your derived thread class, and to purge or restore any allocated
       resources in the destructor. In most cases, the destructor will be executed after the
       thread has terminated, and hence will execute within the context of the thread that
       requested a join rather than in the context of the thread that is being terminated. Most
       destructors in derived thread classes should first call Terminate() to make sure the
       thread has stopped running before releasing resources.

       A Common C++ thread is normally canceled by deleting the thread object. The process of
       deletion invokes the thread's destructor, and the destructor will then perform a 'join'
       against the thread using the Terminate() function. This behavior is not always desirable
       since the thread may block itself from cancellation and block the current 'delete'
       operation from completing. One can alternately invoke Terminate() directly before deleting
       a thread object.

       When a given Common C++ thread exits on it's own through it's Run() method, a 'Final'
       method will be called. This Final method will be called while the thread is 'detached'. If
       a thread object is constructed through a 'new' operator, it's final method can be used to
       'self delete' when done, and allows an independent thread to construct and remove itself
       autonomously.

       A special global function, getThread(), is provided to identify the thread object that
       represents the current execution context you are running under. This is sometimes needed
       to deliver signals to the correct thread. Since all thread manipulation should be done
       through the Common C++ (base) thread class itself, this provides the same functionality as
       things like 'pthread_self' for Common C++.

       All Common C++ threads have an exception 'mode' which determines their behavior when an
       exception is thrown by another Common C++ class. Extensions to Common C++ should respect
       the current exception mode and use getException() to determine what to do when they are
       about to throw an object. The default exception mode (defined in the Thread() constructor)
       is throwObject, which causes a pointer to an instance of the class where the error occured
       to be thrown. Other exception modes are throwException, which causes a class-specific
       exception class to be thrown, and throwNothing, which causes errors to be ignored.

       As an example, you could try to call the Socket class with an invalid address that the
       system could not bind to. This would cause an object of type Socket * to be thrown by
       default, as the default exception mode is throwObject. If you call
       setException(throwException) before the bad call to the Socket constructor, an object of
       type SockException (the exception class for class Socket) will be thrown instead.

       To determine what exception class is thrown by a given Common C++ class when the exception
       mode is set to throwException, search the source files for the class you are interested in
       for a class which inherits directly or indirectly from class Exception. This is the
       exception class which would be thrown when the exception mode is set to throwException.

       The advantage of using throwException versus throwObject is that more information is
       available to the programmer from the thrown object. All class-specific exceptions inherit
       from class Exception, which provides a getString() method which can be called to get a
       human-readable error string.

       Common C++ threads are often aggregated into other classes to provide services that are
       'managed' from or operate within the context of a thread, even within the Common C++
       framework itself. A good example of this is the TCPSession class, which essentially is a
       combination of a TCP client connection and a separate thread the user can define by
       deriving a class with a Run() method to handle the connected service. This aggregation
       logically connects the successful allocation of a given resource with the construction of
       a thread to manage and perform operations for said resource.

       Threads are also used in 'service pools'. In Common C++, a service pool is one or more
       threads that are used to manage a set of resources. While Common C++ does not provide a
       direct 'pool' class, it does provide a model for their implementation, usually by
       constructing an array of thread 'service' objects, each of which can then be assigned the
       next new instance of a given resource in turn or algorithmically.

       Threads have signal handlers associated with them. Several signal types are 'predefined'
       and have special meaning. All signal handlers are defined as virtual member functions of
       the Thread class which are called when a specific signal is received for a given thread.
       The 'SIGPIPE' event is defined as a 'Disconnect' event since it's normally associated with
       a socket disconnecting or broken fifo. The Hangup() method is associated with the SIGHUP
       signal. All other signals are handled through the more generic Signal().

       Incidently, unlike Posix, the win32 API has no concept of signals, and certainly no means
       to define or deliver signals on a per-thread basis. For this reason, no signal handling is
       supported or emulated in the win32 implementation of Common C++ at this time.

       In addition to TCPStream, there is a TCPSession class which combines a thread with a
       TCPStream object. The assumption made by TCPSession is that one will service each TCP
       connection with a separate thread, and this makes sense for systems where extended
       connections may be maintained and complex protocols are being used over TCP.

       Author
           David Sugar dyfet@ostel.com

       base class used to derive all threads of execution.

       Examples
           bug1.cpp, bug2.cpp, tcpservice.cpp, tcpstr1.cpp, thread1.cpp, and thread2.cpp.

Member Typedef Documentation

   typedef enum ost::Thread::Cancel ost::Thread::Cancel
       How work cancellation.

   typedef enum ost::Thread::Suspend ost::Thread::Suspend
       How work suspend.

   typedef enum ost::Thread::Throw ost::Thread::Throw
       How to raise error.

Member Enumeration Documentation

   enum ost::Thread::Cancel
       How work cancellation.

       Enumerator

       cancelInitial
              used internally, do not use

       cancelDeferred
              exit thread on cancellation pointsuch as yield

       cancelImmediate
              exit befor cancellation

       cancelDisabled
              ignore cancellation

       cancelManual
              unimplemented (working in progress)

       cancelDefault
              default you should use this for compatibility instead of deferred

   enum ost::Thread::Suspend
       How work suspend.

       Enumerator

       suspendEnable
              suspend enabled

       suspendDisable
              suspend disabled, Suspend do nothing

   enum ost::Thread::Throw
       How to raise error.

       Enumerator

       throwNothing
              continue without throwing error

       throwObject
              throw object that cause error (throw this)

       throwException
              throw an object relative to error

Constructor & Destructor Documentation

   ost::Thread::Thread (bool isMain)
       This is actually a special constructor that is used to create a thread 'object' for the
       current execution context when that context is not created via an instance of a derived
       Thread object itself. This constructor does not support First.

       Parameters
           isMain bool used if the main 'thread' of the application.

   ost::Thread::Thread (int pri = 0, size_t stack = 0)
       When a thread object is contructed, a new thread of execution context is created. This
       constructor allows basic properties of that context (thread priority, stack space, etc) to
       be defined. The starting condition is also specified for whether the thread is to wait on
       a semaphore before begining execution or wait until it's start method is called.

       Parameters
           pri thread base priority relative to it's parent.
           stack space as needed in some implementations.

   ost::Thread::Thread (const Thread & th)
       A thread of execution can also be specified by cloning an existing thread. The existing
       thread's properties (cancel mode, priority, etc), are also duplicated.

       Parameters
           th currently executing thread object to clone.

   virtual ost::Thread::~Thread () [virtual]
       The thread destructor should clear up any resources that have been allocated by the
       thread. The desctructor of a derived thread should begin with Terminate() and is presumed
       to then execute within the context of the thread causing terminaton.

Member Function Documentation

   void ost::Thread::clrParent (void) [inline],  [protected]
       clear parent thread relationship.

   int ost::Thread::detach (Semaphore * start = 0)
       Start a new thread as 'detached'. This is an alternative start() method that resolves some
       issues with later glibc implimentations which incorrectly impliment self-detach.

       Returns
           error code if execution fails.

       Parameters
           start optional starting semaphore to alternately use.

       Examples
           thread2.cpp.

   static Cancel ost::Thread::enterCancel (void) [static]
       This is used to help build wrapper functions in libraries around system calls that should
       behave as cancellation points but don't.

       Returns
           saved cancel type.

   void ost::Thread::exit (void) [protected]
       Used to properly exit from a Thread derived run() or initial() method. Terminates
       execution of the current thread and calls the derived classes final() method.

   static void ost::Thread::exitCancel (Cancel cancel) [static]
       This is used to restore a cancel block.

       Parameters
           cancel type that was saved.

   virtual void ost::Thread::final (void) [protected],  [virtual]
       A thread that is self terminating, either by invoking exit() or leaving it's run(), will
       have this method called. It can be used to self delete the current object assuming the
       object was created with new on the heap rather than stack local, hence one may often see
       final defined as 'delete this' in a derived thread class. A final method, while running,
       cannot be terminated or cancelled by another thread. Final is called for all cancellation
       type (even immediate).

       You can safe delete thread ('delete this') class on final, but you should exit ASAP (or do
       not try to call CommonC++ methods...)

       Note
           A thread cannot delete its own context or join itself. To make a thread that is a self
           running object that self-deletes, one has to detach the thread by using detach()
           instead of start().

       See also
           exit

           run

       Reimplemented in ost::ThreadQueue.

   static Thread* ost::Thread::get (void) [static]
       Referenced by ost::getThread().

   Cancel ost::Thread::getCancel (void) [inline]
       Used to retrieve the cancellation mode in effect for the selected thread.

       Returns
           cancellation mode constant.

   static Throw ost::Thread::getException (void) [static]
       Get exception mode of the current thread.

       Returns
           exception mode.

   virtual void* ost::Thread::getExtended (void) [protected],  [virtual]
       Since getParent() and getThread() only refer to an object of the Thread 'base' type, this
       virtual method can be replaced in a derived class with something that returns data
       specific to the derived class that can still be accessed through the pointer returned by
       getParent() and getThread().

       Returns
           pointer to derived class specific data.

   cctid_t ost::Thread::getId (void) const
       Get system thread numeric identifier.

       Returns
           numeric identifier of this thread.

   const char* ost::Thread::getName (void) const [inline]
       Get the name string for this thread, to use in debug messages.

       Returns
           debug name.

   Thread* ost::Thread::getParent (void) [inline]
       Gets the pointer to the Thread class which created the current thread object.

       Returns
           a Thread *, or '(Thread *)this' if no parent.

   virtual void ost::Thread::initial (void) [protected],  [virtual]
       The initial method is called by a newly created thread when it starts execution. This
       method is ran with deferred cancellation disabled by default. The Initial method is given
       a separate handler so that it can create temporary objects on it's own stack frame, rather
       than having objects created on run() that are only needed by startup and yet continue to
       consume stack space.

       See also
           run

           final

       Reimplemented in ost::UnixSession, and ost::TCPSession.

   bool ost::Thread::isDetached (void) const
       Check if this thread is detached.

       Returns
           true if the thread is detached.

   bool ost::Thread::isRunning (void) const
       Verifies if the thread is still running or has already been terminated but not yet
       deleted.

       Returns
           true if the thread is still executing.

   bool ost::Thread::isThread (void) const
       Tests to see if the current execution context is the same as the specified thread object.

       Returns
           true if the current context is this object.

   void ost::Thread::join (void)
       Blocking call which unlocks when thread terminates.

   virtual void ost::Thread::notify (Thread *) [protected],  [virtual]
       When a thread terminates, it now sends a notification message to the parent thread which
       created it. The actual use of this notification is left to be defined in a derived class.

       Parameters
           - the thread that has terminated.

   void ost::Thread::resume (void)
       Resumes execution of the selected thread.

   virtual void ost::Thread::run (void) [protected],  [pure virtual]
       All threads execute by deriving the Run method of Thread. This method is called after
       Initial to begin normal operation of the thread. If the method terminates, then the thread
       will also terminate after notifying it's parent and calling it's Final() method.

       See also
           #Initial

   void ost::Thread::setCancel (Cancel mode) [protected]
       Sets thread cancellation mode. Threads can either be set immune to termination
       (cancelDisabled), can be set to terminate when reaching specific 'thread cancellation
       points' (cancelDeferred) or immediately when Terminate is requested (cancelImmediate).

       Parameters
           mode for cancellation of the current thread.

   static void ost::Thread::setException (Throw mode) [static]
       Set exception mode of the current thread.

       Returns
           exception mode.

   void ost::Thread::setName (const char * text) [protected]
       Set the name of the current thread. If the name is passed as NULL, then the default name
       is set (usually object pointer).

       Parameters
           text name to use.

   static void ost::Thread::setStack (size_t size = 0) [inline],  [static]
       Set base stack limit before manual stack sizes have effect.

       Parameters
           size stack size to set, or use 0 to clear autostack.

   void ost::Thread::setSuspend (Suspend mode) [protected]
       Sets the thread's ability to be suspended from execution. The thread may either have
       suspend enabled (suspendEnable) or disabled (suspendDisable).

       Parameters
           mode for suspend.

   static void ost::Thread::sleep (timeout_t msec) [static]
       A thread-safe sleep call. On most Posix systems, 'sleep()' is implimented with SIGALRM
       making it unusable from multipe threads. Pthread libraries often define an alternate
       'sleep' handler such as usleep(), nanosleep(), or nap(), that is thread safe, and also
       offers a higher timer resolution.

       Parameters
           msec timeout in milliseconds.

       Examples
           thread1.cpp.

   int ost::Thread::start (Semaphore * start = 0)
       When a new thread is created, it does not begin immediate execution. This is because the
       derived class virtual tables are not properly loaded at the time the C++ object is created
       within the constructor itself, at least in some compiler/system combinations. The thread
       can either be told to wait for an external semaphore, or it can be started directly after
       the constructor completes by calling the start() method.

       Returns
           error code if execution fails.

       Parameters
           start optional starting semaphore to alternately use.

   void ost::Thread::suspend (void)
       Suspends execution of the selected thread. Pthreads do not normally support suspendable
       threads, so the behavior is simulated with signals. On systems such as Linux that define
       threads as processes, SIGSTOP and SIGCONT may be used.

   void ost::Thread::sync (void) [protected]
       Used to wait for a join or cancel, in place of explicit exit.

   void ost::Thread::terminate (void) [protected]
       Used by another thread to terminate the current thread. Termination actually occurs based
       on the current setCancel() mode. When the current thread does terminate, control is
       returned to the requesting thread. terminate() should always be called at the start of any
       destructor of a class derived from Thread to assure the remaining part of the destructor
       is called without the thread still executing.

   bool ost::Thread::testCancel (void) [protected]
       test a cancellation point for deferred thread cancellation.

   static void ost::Thread::yield (void) [static]
       Yields the current thread's CPU time slice to allow another thread to begin immediate
       execution.

Friends And Related Function Documentation

   friend class Cancellation [friend]
   friend class DummyThread [friend]
   void operator++ (Thread & th) [friend]
       Signal the semaphore that the specified thread is waiting for before beginning execution.

       Parameters
           th specified thread.

   void operator-- (Thread & th) [friend]
   friend class PosixThread [friend]
   friend class postream_type [friend]
   friend class Slog [friend]
   friend class ThreadImpl [friend]

Author

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