#ifndef CTHREAD_H #define CTHREAD_H class IJob; class CThreadRep; // note -- do not derive from this class class CThread { public: // create and start a new thread executing the job. // the user data can be retrieved with getUserData(). CThread(IJob* adopted, void* userData = 0); // make a new thread object that refers to an existing thread. // this does *not* start a new thread. CThread(const CThread&); // release thread. this does not terminate the thread. a thread // will keep running until the job completes or calls exit(). ~CThread(); // manipulators // assign thread. this has no effect on the threads. it simply // makes this thread object refer to another thread. it does *not* // start a new thread. CThread& operator=(const CThread&); // initialize the thread library. this must be called before // any other thread methods or creating a thread object. it // is harmless to call init() multiple times. static void init(); // the calling thread sleeps for the given number of seconds. if // timeout <= 0.0 then the call returns immediately. if timeout // == 0.0 then the calling thread yields the CPU. // (cancellation point) static void sleep(double timeout); // terminate the calling thread. this function does not return but // the stack is unwound and automatic objects are destroyed, as if // exit() threw an exception (which is, in fact, what it does). the // argument is saved as the result returned by getResult(). if you // have a catch(...) block then you should add the following before // it to avoid catching the exit: catch(CThreadExit&) { throw; } static void exit(void*); // enable/disable cancellation. default is enabled. this is not // a cancellation point so if you enabled cancellation and want to // allow immediate cancellation you need to call testCancel(). // return value is the previous state. static bool enableCancel(bool); // cancel the thread. cancel() never waits for the thread to // terminate; it just posts the cancel and returns. a thread will // terminate when it enters a cancellation point with cancellation // enabled. if cancellation is disabled then the cancel is // remembered but not acted on until the first call to a // cancellation point after cancellation is enabled. // // a cancellation point is a function that can act on cancellation. // a cancellation point does not return if there's a cancel pending. // instead, it unwinds the stack and destroys automatic objects, as // if cancel() threw an exception (which is, in fact, what it does). // threads must take care to clean up and release any resources they // may have, especially mutexes. they can catch (XThreadCancel) to // do that then rethrow the exception or they can let it happen // automatically by doing clean up in the d'tors of automatic // objects. clients are strongly encouraged to do the latter. // during cancellation, further cancel() calls are ignored (i.e. // a thread cannot be interrupted by a cancel during cancellation). // // clients that catch (XThreadCancel) must always rethrow the // exception. clients that catch(...) must either rethrow the // exception or include a catch (XThreadCancel) handler that // rethrows. void cancel(); // change the priority of the thread. normal priority is 0, 1 is // the next lower, etc. -1 is the next higher, etc. but boosting // the priority may not be available. void setPriority(int n); // accessors // return a thread object representing the calling thread static CThread getCurrentThread(); // get the user data passed to the constructor for the current // thread. static void* getUserData(); // testCancel() does nothing but is a cancellation point. call // this to make a function itself a cancellation point. // (cancellation point) static void testCancel(); // waits for the thread to terminate (by exit() or cancel() or // by returning from the thread job). returns immediately if // the thread has already terminated. returns immediately with // false if called by a thread on itself. returns false on // timeout (or error) and true on success. // (cancellation point) bool wait(double timeout = -1.0) const; // get the exit result. does an implicit wait(). returns NULL // immediately if called by a thread on itself. returns NULL for // threads that were cancelled. // (cancellation point) void* getResult() const; // compare threads for (in)equality bool operator==(const CThread&) const; bool operator!=(const CThread&) const; private: CThread(CThreadRep*); private: CThreadRep* m_rep; }; // disables cancellation in the c'tor and enables it in the d'tor. class CThreadMaskCancel { public: CThreadMaskCancel(); ~CThreadMaskCancel(); private: bool m_old; }; #endif