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564 lines
15 KiB
C++
564 lines
15 KiB
C++
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program 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 Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "stdmisc.h"
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#include "nel/misc/co_task.h"
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#include "nel/misc/tds.h"
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#include "nel/misc/time_nl.h"
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// Flag to use thread instead of coroutine primitives (i.e windows fibers or gcc context)
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#ifndef NL_OS_WINDOWS
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#define NL_USE_THREAD_COTASK
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#endif
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// flag to activate debug message
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//#define NL_GEN_DEBUG_MSG
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#ifdef NL_GEN_DEBUG_MSG
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#define NL_CT_DEBUG nldebug
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#else
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#define NL_CT_DEBUG while(0)nldebug
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#endif
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#if defined(NL_USE_THREAD_COTASK)
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#ifndef __GNUC__
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#pragma message(NL_LOC_MSG "Using threaded coroutine")
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#endif
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# include "nel/misc/thread.h"
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#else //NL_USE_THREAD_COTASK
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// some platform specifics
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#if defined (NL_OS_WINDOWS)
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//# define _WIN32_WINNT 0x0500
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# define NL_WIN_CALLBACK CALLBACK
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// Visual .NET won't allow Fibers for a Windows version older than 2000. However the basic features are sufficient for us, we want to compile them for all Windows >= 95
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# if !defined(_WIN32_WINNT) || (_WIN32_WINNT < 0x0400)
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# ifdef _WIN32_WINNT
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# undef _WIN32_WINNT
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# endif
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# define _WIN32_WINNT 0x0400
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# endif
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# define NOMINMAX
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# include <windows.h>
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#elif defined (NL_OS_UNIX)
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# define NL_WIN_CALLBACK
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# include <ucontext.h>
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#else
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# error "Coroutine task are not supported yet by your platform, do it ?"
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#endif
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#endif //NL_USE_THREAD_COTASK
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namespace NLMISC
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{
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// platform specific data
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#if defined(NL_USE_THREAD_COTASK)
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struct TCoTaskData : public IRunnable
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#else //NL_USE_THREAD_COTASK
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struct TCoTaskData
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#endif //NL_USE_THREAD_COTASK
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{
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#if defined(NL_USE_THREAD_COTASK)
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/// The thread id for the co task
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// TThreadId *_TaskThreadId;
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/// The parent thread id
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// TThreadId *_ParentThreadId;
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// the thread of the task
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IThread *_TaskThread;
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/// The mutex of the task task
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CFastMutex _TaskMutex;
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CCoTask *_CoTask;
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// set by master, cleared by task
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volatile bool _ResumeTask;
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// set by task, cleared by master
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volatile bool _TaskHasYield;
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TCoTaskData(CCoTask *task)
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: _TaskThread(NULL),
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_CoTask(task),
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_ResumeTask(false),
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_TaskHasYield(false)
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{
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}
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virtual ~TCoTaskData()
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{
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NL_CT_DEBUG("CoTaskData : ~TCoTaskData %p : deleting cotask data", this);
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if (_TaskThread != NULL)
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{
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NL_CT_DEBUG("CoTask : ~TCoTaskData (%p) waiting for thread termination", this);
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// waiting for thread to terminate
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_TaskThread->wait();
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delete _TaskThread;
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_TaskThread = NULL;
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}
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}
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void run();
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#else //NL_USE_THREAD_COTASK
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#if defined (NL_OS_WINDOWS)
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/// The fiber pointer for the task fiber
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LPVOID _Fiber;
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/// The fiber pointer of the main (or master, or parent, as you want)
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LPVOID _ParentFiber;
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#elif defined (NL_OS_UNIX)
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/// The coroutine stack pointer (allocated memory)
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uint8 *_Stack;
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/// The task context
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ucontext_t _Ctx;
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/// The main (or master or parent, as you want) task context
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ucontext_t _ParentCtx;
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#endif
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#endif //NL_USE_THREAD_COTASK
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#if !defined(NL_USE_THREAD_COTASK)
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/** task bootstrap function
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* NB : this function is in this structure because of the
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* NL_WIN_CALLBACK symbol that need <windows.h> to be defined, so
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* to remove it from the header, I moved the function here
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* (otherwise, it should be declared in the CCoTask class as
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* a private member)
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*/
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static void NL_WIN_CALLBACK startFunc(void* param)
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{
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CCoTask *task = reinterpret_cast<CCoTask*>(param);
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NL_CT_DEBUG("CoTask : task %p start func called", task);
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try
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{
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// run the task
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task->run();
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}
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catch(...)
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{
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nlwarning("CCoTask::startFunc : the task has generated an unhandled exeption and will terminate");
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}
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task->_Finished = true;
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NL_CT_DEBUG("CoTask : task %p finished, entering infinite yield loop (waiting destruction)", task);
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// nothing more to do
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for (;;)
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// return to parent task
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task->yield();
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}
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#endif //NL_USE_THREAD_COTASK
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};
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/** Management of current task in a thread.
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* This class is used to store and retrieve the current
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* CCoTask pointer in the current thread.
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* It is build upon the SAFE_SINGLETON paradigm, making it
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* safe to use with NeL DLL.
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* For windows platform, this singleton also hold the
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* fiber pointer of the current thread. This is needed because
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* of the bad design the the fiber API before Windows XP.
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*/
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class CCurrentCoTask
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{
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NLMISC_SAFE_SINGLETON_DECL(CCurrentCoTask);
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/// A thread dependent storage to hold by thread coroutine info
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CTDS _CurrentTaskTDS;
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#if defined (NL_OS_WINDOWS)
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/// A Thread dependent storage to hold fiber pointer.
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CTDS _ThreadMainFiber;
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#endif
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CCurrentCoTask()
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{}
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public:
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/// Set the current task for the calling thread
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void setCurrentTask(CCoTask *task)
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{
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NL_CT_DEBUG("CoTask : setting current co task to %p", task);
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_CurrentTaskTDS.setPointer(task);
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}
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/// retrieve the current task for the calling thread
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CCoTask *getCurrentTask()
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{
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return reinterpret_cast<CCoTask*>(_CurrentTaskTDS.getPointer());
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}
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#if defined (NL_OS_WINDOWS) && !defined(NL_USE_THREAD_COTASK)
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void setMainFiber(LPVOID fiber)
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{
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_ThreadMainFiber.setPointer(fiber);
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}
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/** Return the main fiber for the calling thread. Return NULL if
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* the thread has not been converted to fiber.
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*/
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LPVOID getMainFiber()
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{
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return _ThreadMainFiber.getPointer();
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}
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#endif
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};
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NLMISC_SAFE_SINGLETON_IMPL(CCurrentCoTask);
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CCoTask *CCoTask::getCurrentTask()
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{
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return CCurrentCoTask::getInstance().getCurrentTask();
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}
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CCoTask::CCoTask(uint stackSize)
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: _Started(false),
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_TerminationRequested(false),
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_Finished(false)
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{
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NL_CT_DEBUG("CoTask : creating task %p", this);
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#if defined(NL_USE_THREAD_COTASK)
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// allocate platform specific data storage
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_PImpl = new TCoTaskData(this);
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// _PImpl->_TaskThreadId = 0;
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// _PImpl->_ParentThreadId = 0;
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#else //NL_USE_THREAD_COTASK
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// allocate platform specific data storage
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_PImpl = new TCoTaskData;
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#if defined (NL_OS_WINDOWS)
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_PImpl->_Fiber = NULL;
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_PImpl->_ParentFiber = NULL;
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#elif defined(NL_OS_UNIX)
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// allocate the stack
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_PImpl->_Stack = new uint8[stackSize];
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#endif
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#endif //NL_USE_THREAD_COTASK
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}
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CCoTask::~CCoTask()
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{
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NL_CT_DEBUG("CoTask : deleting task %p", this);
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_TerminationRequested = true;
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if (_Started)
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{
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while (!_Finished)
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resume();
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}
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#if defined(NL_USE_THREAD_COTASK)
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#else //NL_USE_THREAD_COTASK
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#if defined (NL_OS_WINDOWS)
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if (_PImpl->_Fiber)
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{
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DeleteFiber(_PImpl->_Fiber);
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}
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#elif defined(NL_OS_UNIX)
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// free the stack
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delete [] _PImpl->_Stack;
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#endif
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#endif //NL_USE_THREAD_COTASK
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// free platform specific storage
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delete _PImpl;
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}
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void CCoTask::start()
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{
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NL_CT_DEBUG("CoTask : Starting task %p", this);
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nlassert(!_Started);
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_Started = true;
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#if defined(NL_USE_THREAD_COTASK)
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// create the thread
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_PImpl->_TaskThread = IThread::create(_PImpl);
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NL_CT_DEBUG("CoTask : start() task %p entering mutex", this);
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// get the mutex
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_PImpl->_TaskMutex.enter();
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NL_CT_DEBUG("CoTask : start() task %p mutex entered", this);
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// set the resume flag to true
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_PImpl->_ResumeTask = true;
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// start the thread
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_PImpl->_TaskThread->start();
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NL_CT_DEBUG("CoTask : start() task %p leaving mutex", this);
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// leave the mutex
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_PImpl->_TaskMutex.leave();
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// wait until the task has yield
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for (;;)
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{
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// give up the time slice to the co task
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nlSleep(0);
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NL_CT_DEBUG("CoTask : start() task %p entering mutex", this);
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// get the mutex
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_PImpl->_TaskMutex.enter();
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NL_CT_DEBUG("CoTask : start() task %p mutex entered", this);
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if (!_PImpl->_TaskHasYield)
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{
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// not finished
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NL_CT_DEBUG("CoTask : start() task %p has not yield, leaving mutex", this);
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// leave the mutex
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_PImpl->_TaskMutex.leave();
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}
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else
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{
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break;
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}
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}
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// clear the yield flag
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_PImpl->_TaskHasYield = false;
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NL_CT_DEBUG("CoTask : start() task %p has yield", this);
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// in the treaded mode, there is no need to call resume() inside start()
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#else //NL_USE_THREAD_COTASK
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#if defined (NL_OS_WINDOWS)
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LPVOID mainFiber = CCurrentCoTask::getInstance().getMainFiber();
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if (mainFiber == NULL)
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{
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// we need to convert this thread to a fiber
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mainFiber = ConvertThreadToFiber(NULL);
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if (mainFiber == NULL)
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{
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DWORD dw = GetLastError();
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#if defined(ERROR_ALREADY_FIBER)
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if (dw == ERROR_ALREADY_FIBER) nlerror("ConvertThreadToFiber ERROR_ALREADY_FIBER: "
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"If you are using nel in dynamic libraries, you should have a 'pure "
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"nel library' entry point, see definition of NLMISC_DECL_PURE_LIB");
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else
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#endif
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nlerror("ConvertThreadToFiber error %u", dw);
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}
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CCurrentCoTask::getInstance().setMainFiber(mainFiber);
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}
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_PImpl->_ParentFiber = mainFiber;
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_PImpl->_Fiber = CreateFiber(NL_TASK_STACK_SIZE, TCoTaskData::startFunc, this);
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nlassert(_PImpl->_Fiber != NULL);
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#elif defined (NL_OS_UNIX)
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// store the parent ctx
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nlverify(getcontext(&_PImpl->_ParentCtx) == 0);
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// build the task context
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nlverify(getcontext(&_PImpl->_Ctx) == 0);
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// change the task context
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_PImpl->_Ctx.uc_stack.ss_sp = _PImpl->_Stack;
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_PImpl->_Ctx.uc_stack.ss_size = NL_TASK_STACK_SIZE;
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_PImpl->_Ctx.uc_link = NULL;
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_PImpl->_Ctx.uc_stack.ss_flags = 0;
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makecontext(&_PImpl->_Ctx, reinterpret_cast<void (*)()>(TCoTaskData::startFunc), 1, this);
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#endif
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resume();
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#endif //NL_USE_THREAD_COTASK
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}
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void CCoTask::yield()
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{
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NL_CT_DEBUG("CoTask : task %p yield", this);
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nlassert(_Started);
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nlassert(CCurrentCoTask::getInstance().getCurrentTask() == this);
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#if defined(NL_USE_THREAD_COTASK)
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// set the yield flag
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_PImpl->_TaskHasYield = true;
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// release the mutex
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NL_CT_DEBUG("CoTask : yield() task %p leaving mutex", this);
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_PImpl->_TaskMutex.leave();
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// now, wait until the resume flag is set
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for (;;)
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{
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// give up the time slice to the master thread
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nlSleep(0);
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// And get back the mutex for waiting for next resume (this should lock)
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NL_CT_DEBUG("CoTask : yield() task %p entering mutex", this);
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_PImpl->_TaskMutex.enter();
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NL_CT_DEBUG("CoTask : yield() task %p mutex entered", this);
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if (!_PImpl->_ResumeTask)
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{
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// not time to resume, release the mutex and sleep
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NL_CT_DEBUG("CoTask : yield() task %p not time to resume, leaving mutex", this);
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_PImpl->_TaskMutex.leave();
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// nlSleep(0);
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}
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else
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break;
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}
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// clear the resume flag
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_PImpl->_ResumeTask = false;
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#else //NL_USE_THREAD_COTASK
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CCurrentCoTask::getInstance().setCurrentTask(NULL);
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#if defined (NL_OS_WINDOWS)
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SwitchToFiber(_PImpl->_ParentFiber);
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#elif defined (NL_OS_UNIX)
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// swap to the parent context
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nlverify(swapcontext(&_PImpl->_Ctx, &_PImpl->_ParentCtx) == 0);
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#endif
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#endif //NL_USE_THREAD_COTASK
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NL_CT_DEBUG("CoTask : task %p have been resumed", this);
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}
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void CCoTask::resume()
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{
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NL_CT_DEBUG("CoTask : resuming task %p", this);
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nlassert(CCurrentCoTask::getInstance().getCurrentTask() != this);
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if (!_Started)
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start();
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else if (!_Finished)
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{
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nlassert(_Started);
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#if defined(NL_USE_THREAD_COTASK)
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// set the resume flag to true
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_PImpl->_ResumeTask = true;
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_PImpl->_TaskHasYield = false;
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// Release the mutex
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NL_CT_DEBUG("CoTask : resume() task %p leaving mutex", this);
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_PImpl->_TaskMutex.leave();
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// wait that the task has started
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while (_PImpl->_ResumeTask)
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nlSleep(0);
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NL_CT_DEBUG("CoTask : resume() task %p is started, waiting yield", this);
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// ok the task has started
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// now wait for task to yield
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for (;;)
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{
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// give up the time slice to the co task
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nlSleep(0);
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// acquire the mutex
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NL_CT_DEBUG("CoTask : resume() task %p entering mutex", this);
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_PImpl->_TaskMutex.enter();
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NL_CT_DEBUG("CoTask : resume() task %p mutex entered", this);
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if (!_PImpl->_TaskHasYield)
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{
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NL_CT_DEBUG("CoTask : resume() task %p still not yielding, leaving mutex", this);
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_PImpl->_TaskMutex.leave();
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// give the focus to another thread before acquiring the mutex
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// nlSleep(0);
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}
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else
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{
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// the task has yield
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break;
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}
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}
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// clear the yield flag
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_PImpl->_TaskHasYield = false;
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#else // NL_USE_THREAD_COTASK
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CCurrentCoTask::getInstance().setCurrentTask(this);
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#if defined (NL_OS_WINDOWS)
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SwitchToFiber(_PImpl->_Fiber);
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#elif defined (NL_OS_UNIX)
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// swap to the parent context
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nlverify(swapcontext(&_PImpl->_ParentCtx, &_PImpl->_Ctx) == 0);
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#endif
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#endif //NL_USE_THREAD_COTASK
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}
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NL_CT_DEBUG("CoTask : task %p has yield", this);
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}
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/// wait until the task terminate
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void CCoTask::wait()
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{
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NL_CT_DEBUG("CoTask : waiting for task %p to terminate", this);
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// resume the task until termination
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while (!_Finished)
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resume();
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}
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#if defined(NL_USE_THREAD_COTASK)
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void TCoTaskData::run()
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{
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NL_CT_DEBUG("CoTask : entering TCoTaskData::run for task %p", _CoTask);
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// set the current task
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CCurrentCoTask::getInstance().setCurrentTask(_CoTask);
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// Set the task as running
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// _Running = true;
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NL_CT_DEBUG("CoTask : TCoTaskData::run() task %p entering mutex", this);
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// Acquire the task mutex
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_TaskMutex.enter();
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NL_CT_DEBUG("CoTask : TCoTaskData::run mutex aquired, calling '_CoTask->run()' for task %p", _CoTask);
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// clear the resume flag
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_CoTask->_PImpl->_ResumeTask = false;
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// run the task
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_CoTask->run();
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// mark the task has yielding
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_CoTask->_PImpl->_TaskHasYield = true;
|
|
// mark the task has finished
|
|
_CoTask->_Finished = true;
|
|
|
|
// nothing more to do, just return to terminate the thread
|
|
NL_CT_DEBUG("CoTask : leaving TCoTaskData::run for task %p", _CoTask);
|
|
|
|
NL_CT_DEBUG("CoTask : TCoTaskData::run() task %p leaving mutex", this);
|
|
// Release the parent mutex
|
|
_TaskMutex.leave();
|
|
|
|
}
|
|
#endif //NL_USE_THREAD_COTASK
|
|
|
|
void CCoTask::requestTerminate()
|
|
{
|
|
_TerminationRequested = true;
|
|
}
|
|
|
|
void CCoTask::sleep(uint milliseconds)
|
|
{
|
|
nlassert(getCurrentTask() == this); // called outside run() !
|
|
TTime startTime = CTime::getLocalTime();
|
|
while(!isTerminationRequested())
|
|
{
|
|
TTime currTime = CTime::getLocalTime();
|
|
if (currTime - startTime >= milliseconds) break;
|
|
yield();
|
|
}
|
|
}
|
|
|
|
} // namespace NLMISC
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|
|