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f65921bc3f
lib/arch. This should make porting easier. Will probably continue to refactor a little more, moving platform dependent event handling stuff into lib/platform.
219 lines
6.8 KiB
C++
219 lines
6.8 KiB
C++
/*
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* synergy -- mouse and keyboard sharing utility
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* Copyright (C) 2002 Chris Schoeneman
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*
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* This package is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* found in the file COPYING that should have accompanied this file.
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*
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* This package is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#ifndef CTHREAD_H
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#define CTHREAD_H
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#include "common.h"
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#include "IArchMultithread.h"
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class IJob;
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//! Thread handle
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/*!
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Creating a CThread creates a new context of execution (i.e. thread) that
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runs simulatenously with the calling thread. A CThread is only a handle
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to a thread; deleting a CThread does not cancel or destroy the thread it
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refers to and multiple CThread objects can refer to the same thread.
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Threads can terminate themselves but cannot be forced to terminate by
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other threads. However, other threads can signal a thread to terminate
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itself by cancelling it. And a thread can wait (block) on another thread
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to terminate.
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Most functions that can block for an arbitrary time are cancellation
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points. A cancellation point is a function that can be interrupted by
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a request to cancel the thread. Cancellation points are noted in the
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documentation.
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*/
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// note -- do not derive from this class
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class CThread {
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public:
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//! Run \c adoptedJob in a new thread
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/*!
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Create and start a new thread executing the \c adoptedJob. The
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new thread takes ownership of \c adoptedJob and will delete it.
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*/
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CThread(IJob* adoptedJob);
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//! Duplicate a thread handle
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/*!
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Make a new thread object that refers to an existing thread.
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This does \b not start a new thread.
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*/
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CThread(const CThread&);
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//! Release a thread handle
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/*!
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Release a thread handle. This does not terminate the thread. A thread
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will keep running until the job completes or calls exit() or allows
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itself to be cancelled.
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*/
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~CThread();
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//! @name manipulators
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//@{
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//! Assign thread handle
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/*!
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Assign a thread handle. This has no effect on the threads, it simply
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makes this thread object refer to another thread. It does \b not
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start a new thread.
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*/
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CThread& operator=(const CThread&);
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//! Terminate the calling thread
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/*!
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Terminate the calling thread. This function does not return but
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the stack is unwound and automatic objects are destroyed, as if
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exit() threw an exception (which is, in fact, what it does). The
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argument is saved as the result returned by getResult(). If you
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have \c catch(...) blocks then you should add the following before
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each to avoid catching the exit:
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\code
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catch(CThreadExit&) { throw; }
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\endcode
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or add the \c RETHROW_XTHREAD macro to the \c catch(...) block.
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*/
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static void exit(void*);
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//! Cancel thread
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/*!
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Cancel the thread. cancel() never waits for the thread to
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terminate; it just posts the cancel and returns. A thread will
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terminate when it enters a cancellation point with cancellation
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enabled. If cancellation is disabled then the cancel is
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remembered but not acted on until the first call to a
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cancellation point after cancellation is enabled.
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A cancellation point is a function that can act on cancellation.
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A cancellation point does not return if there's a cancel pending.
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Instead, it unwinds the stack and destroys automatic objects, as
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if cancel() threw an exception (which is, in fact, what it does).
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Threads must take care to unlock and clean up any resources they
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may have, especially mutexes. They can \c catch(XThreadCancel) to
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do that then rethrow the exception or they can let it happen
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automatically by doing clean up in the d'tors of automatic
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objects (like CLock). Clients are strongly encouraged to do the latter.
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During cancellation, further cancel() calls are ignored (i.e.
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a thread cannot be interrupted by a cancel during cancellation).
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Clients that \c catch(XThreadCancel) must always rethrow the
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exception. Clients that \c catch(...) must either rethrow the
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exception or include a \c catch(XThreadCancel) handler that
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rethrows. The \c RETHROW_XTHREAD macro may be useful for that.
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*/
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void cancel();
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//! Change thread priority
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/*!
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Change the priority of the thread. Normal priority is 0, 1 is
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the next lower, etc. -1 is the next higher, etc. but boosting
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the priority may not be permitted and will be silenty ignored.
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*/
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void setPriority(int n);
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//@}
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//! @name accessors
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//@{
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//! Get current thread's handle
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/*!
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Return a CThread object representing the calling thread.
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*/
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static CThread getCurrentThread();
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//! Test for cancellation
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/*!
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testCancel() does nothing but is a cancellation point. Call
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this to make a function itself a cancellation point. If the
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thread was cancelled and cancellation is enabled this will
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cause the thread to unwind the stack and terminate.
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(cancellation point)
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*/
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static void testCancel();
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//! Wait for thread to terminate
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/*!
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Waits for the thread to terminate (by exit() or cancel() or
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by returning from the thread job) for up to \c timeout seconds,
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returning true if the thread terminated and false otherwise.
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This returns immediately with false if called by a thread on
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itself and immediately with true if the thread has already
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terminated. This will wait forever if \c timeout < 0.0.
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(cancellation point)
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*/
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bool wait(double timeout = -1.0) const;
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//! Wait for an event (win32)
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/*!
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Wait for the message queue to contain a message for up to \c timeout
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seconds. This returns immediately if any message is available
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(including messages that were already in the queue during the last
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call to \c GetMessage() or \c PeekMessage() or waitForEvent().
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Returns true iff a message is available. This will wait forever
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if \c timeout < 0.0.
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This method is available under win32 only.
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(cancellation point)
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*/
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static bool waitForEvent(double timeout = -1.0);
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//! Get the exit result
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/*!
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Returns the exit result. This does an implicit wait(). It returns
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NULL immediately if called by a thread on itself or on a thread that
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was cancelled.
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(cancellation point)
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*/
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void* getResult() const;
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//! Get the thread id
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/*!
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Returns an integer id for this thread. This id must not be used to
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check if two CThread objects refer to the same thread. Use
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operator==() for that.
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*/
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IArchMultithread::ThreadID
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getID() const;
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//! Compare thread handles
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/*!
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Returns true if two CThread objects refer to the same thread.
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*/
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bool operator==(const CThread&) const;
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//! Compare thread handles
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/*!
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Returns true if two CThread objects do not refer to the same thread.
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*/
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bool operator!=(const CThread&) const;
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//@}
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private:
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CThread(CArchThread);
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static void* threadFunc(void*);
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private:
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CArchThread m_thread;
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};
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#endif
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