1*f25ce65dSSergey Makeev // The MIT License (MIT) 2*f25ce65dSSergey Makeev // 3*f25ce65dSSergey Makeev // Copyright (c) 2015 Sergey Makeev, Vadim Slyusarev 4*f25ce65dSSergey Makeev // 5*f25ce65dSSergey Makeev // Permission is hereby granted, free of charge, to any person obtaining a copy 6*f25ce65dSSergey Makeev // of this software and associated documentation files (the "Software"), to deal 7*f25ce65dSSergey Makeev // in the Software without restriction, including without limitation the rights 8*f25ce65dSSergey Makeev // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell 9*f25ce65dSSergey Makeev // copies of the Software, and to permit persons to whom the Software is 10*f25ce65dSSergey Makeev // furnished to do so, subject to the following conditions: 11*f25ce65dSSergey Makeev // 12*f25ce65dSSergey Makeev // The above copyright notice and this permission notice shall be included in 13*f25ce65dSSergey Makeev // all copies or substantial portions of the Software. 14*f25ce65dSSergey Makeev // 15*f25ce65dSSergey Makeev // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 16*f25ce65dSSergey Makeev // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 17*f25ce65dSSergey Makeev // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE 18*f25ce65dSSergey Makeev // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 19*f25ce65dSSergey Makeev // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 20*f25ce65dSSergey Makeev // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN 21*f25ce65dSSergey Makeev // THE SOFTWARE. 22*f25ce65dSSergey Makeev 2358964d0bSSergey Makeev #include <MTScheduler.h> 2458964d0bSSergey Makeev 2558964d0bSSergey Makeev namespace MT 2658964d0bSSergey Makeev { 2758964d0bSSergey Makeev 2858964d0bSSergey Makeev TaskScheduler::TaskScheduler() 2958964d0bSSergey Makeev : roundRobinThreadIndex(0) 3058964d0bSSergey Makeev { 3158964d0bSSergey Makeev //query number of processor 3258964d0bSSergey Makeev threadsCount = Max(Thread::GetNumberOfHardwareThreads() - 2, 1); 3358964d0bSSergey Makeev 3458964d0bSSergey Makeev if (threadsCount > MT_MAX_THREAD_COUNT) 3558964d0bSSergey Makeev { 3658964d0bSSergey Makeev threadsCount = MT_MAX_THREAD_COUNT; 3758964d0bSSergey Makeev } 3858964d0bSSergey Makeev 3958964d0bSSergey Makeev // create fiber pool 4058964d0bSSergey Makeev for (uint32 i = 0; i < MT_MAX_FIBERS_COUNT; i++) 4158964d0bSSergey Makeev { 4258964d0bSSergey Makeev FiberContext& context = fiberContext[i]; 4358964d0bSSergey Makeev context.fiber.Create(MT_FIBER_STACK_SIZE, FiberMain, &context); 4458964d0bSSergey Makeev availableFibers.Push( &context ); 4558964d0bSSergey Makeev } 4658964d0bSSergey Makeev 4758964d0bSSergey Makeev // create worker thread pool 4858964d0bSSergey Makeev for (uint32 i = 0; i < threadsCount; i++) 4958964d0bSSergey Makeev { 5058964d0bSSergey Makeev threadContext[i].taskScheduler = this; 5158964d0bSSergey Makeev threadContext[i].thread.Start( MT_SCHEDULER_STACK_SIZE, ThreadMain, &threadContext[i] ); 5258964d0bSSergey Makeev } 5358964d0bSSergey Makeev } 5458964d0bSSergey Makeev 5558964d0bSSergey Makeev TaskScheduler::~TaskScheduler() 5658964d0bSSergey Makeev { 5758964d0bSSergey Makeev for (uint32 i = 0; i < threadsCount; i++) 5858964d0bSSergey Makeev { 5958964d0bSSergey Makeev threadContext[i].state.Set(internal::ThreadState::EXIT); 6058964d0bSSergey Makeev threadContext[i].hasNewTasksEvent.Signal(); 6158964d0bSSergey Makeev } 6258964d0bSSergey Makeev 6358964d0bSSergey Makeev for (uint32 i = 0; i < threadsCount; i++) 6458964d0bSSergey Makeev { 6558964d0bSSergey Makeev threadContext[i].thread.Stop(); 6658964d0bSSergey Makeev } 6758964d0bSSergey Makeev } 6858964d0bSSergey Makeev 6958964d0bSSergey Makeev FiberContext* TaskScheduler::RequestFiberContext(internal::GroupedTask& task) 7058964d0bSSergey Makeev { 7158964d0bSSergey Makeev FiberContext *fiberContext = task.awaitingFiber; 7258964d0bSSergey Makeev if (fiberContext) 7358964d0bSSergey Makeev { 7458964d0bSSergey Makeev task.awaitingFiber = nullptr; 7558964d0bSSergey Makeev return fiberContext; 7658964d0bSSergey Makeev } 7758964d0bSSergey Makeev 7858964d0bSSergey Makeev if (!availableFibers.TryPop(fiberContext)) 7958964d0bSSergey Makeev { 8058964d0bSSergey Makeev ASSERT(false, "Fibers pool is empty"); 8158964d0bSSergey Makeev } 8258964d0bSSergey Makeev 8358964d0bSSergey Makeev fiberContext->currentTask = task.desc; 8458964d0bSSergey Makeev fiberContext->currentGroup = task.group; 8558964d0bSSergey Makeev fiberContext->parentFiber = task.parentFiber; 8658964d0bSSergey Makeev return fiberContext; 8758964d0bSSergey Makeev } 8858964d0bSSergey Makeev 8958964d0bSSergey Makeev void TaskScheduler::ReleaseFiberContext(FiberContext* fiberContext) 9058964d0bSSergey Makeev { 9158964d0bSSergey Makeev ASSERT(fiberContext != nullptr, "Can't release nullptr Fiber"); 9258964d0bSSergey Makeev fiberContext->Reset(); 9358964d0bSSergey Makeev availableFibers.Push(fiberContext); 9458964d0bSSergey Makeev } 9558964d0bSSergey Makeev 9658964d0bSSergey Makeev FiberContext* TaskScheduler::ExecuteTask(internal::ThreadContext& threadContext, FiberContext* fiberContext) 9758964d0bSSergey Makeev { 9858964d0bSSergey Makeev ASSERT(threadContext.thread.IsCurrentThread(), "Thread context sanity check failed"); 9958964d0bSSergey Makeev 10058964d0bSSergey Makeev ASSERT(fiberContext, "Invalid fiber context"); 10158964d0bSSergey Makeev ASSERT(fiberContext->currentTask.IsValid(), "Invalid task"); 10258964d0bSSergey Makeev ASSERT(fiberContext->currentGroup < TaskGroup::COUNT, "Invalid task group"); 10358964d0bSSergey Makeev 10458964d0bSSergey Makeev // Set actual thread context to fiber 10558964d0bSSergey Makeev fiberContext->SetThreadContext(&threadContext); 10658964d0bSSergey Makeev 10758964d0bSSergey Makeev // Update task status 10858964d0bSSergey Makeev fiberContext->SetStatus(FiberTaskStatus::RUNNED); 10958964d0bSSergey Makeev 11058964d0bSSergey Makeev ASSERT(fiberContext->GetThreadContext()->thread.IsCurrentThread(), "Thread context sanity check failed"); 11158964d0bSSergey Makeev 11258964d0bSSergey Makeev // Run current task code 11358964d0bSSergey Makeev Fiber::SwitchTo(threadContext.schedulerFiber, fiberContext->fiber); 11458964d0bSSergey Makeev 11558964d0bSSergey Makeev // If task was done 11658964d0bSSergey Makeev FiberTaskStatus::Type taskStatus = fiberContext->GetStatus(); 11758964d0bSSergey Makeev if (taskStatus == FiberTaskStatus::FINISHED) 11858964d0bSSergey Makeev { 11958964d0bSSergey Makeev TaskGroup::Type taskGroup = fiberContext->currentGroup; 12058964d0bSSergey Makeev ASSERT(taskGroup < TaskGroup::COUNT, "Invalid group."); 12158964d0bSSergey Makeev 12258964d0bSSergey Makeev // Update group status 12358964d0bSSergey Makeev int groupTaskCount = threadContext.taskScheduler->groupStats[taskGroup].inProgressTaskCount.Dec(); 12458964d0bSSergey Makeev ASSERT(groupTaskCount >= 0, "Sanity check failed!"); 12558964d0bSSergey Makeev if (groupTaskCount == 0) 12658964d0bSSergey Makeev { 12758964d0bSSergey Makeev // Restore awaiting tasks 12858964d0bSSergey Makeev threadContext.RestoreAwaitingTasks(taskGroup); 12958964d0bSSergey Makeev threadContext.taskScheduler->groupStats[taskGroup].allDoneEvent.Signal(); 13058964d0bSSergey Makeev } 13158964d0bSSergey Makeev 13258964d0bSSergey Makeev // Update total task count 13358964d0bSSergey Makeev groupTaskCount = threadContext.taskScheduler->allGroupStats.inProgressTaskCount.Dec(); 13458964d0bSSergey Makeev ASSERT(groupTaskCount >= 0, "Sanity check failed!"); 13558964d0bSSergey Makeev if (groupTaskCount == 0) 13658964d0bSSergey Makeev { 13758964d0bSSergey Makeev // Notify all tasks in all group finished 13858964d0bSSergey Makeev threadContext.taskScheduler->allGroupStats.allDoneEvent.Signal(); 13958964d0bSSergey Makeev } 14058964d0bSSergey Makeev 14158964d0bSSergey Makeev FiberContext* parentFiberContext = fiberContext->parentFiber; 14258964d0bSSergey Makeev if (parentFiberContext != nullptr) 14358964d0bSSergey Makeev { 14458964d0bSSergey Makeev int childrenFibersCount = parentFiberContext->childrenFibersCount.Dec(); 14558964d0bSSergey Makeev ASSERT(childrenFibersCount >= 0, "Sanity check failed!"); 14658964d0bSSergey Makeev 14758964d0bSSergey Makeev if (childrenFibersCount == 0) 14858964d0bSSergey Makeev { 14958964d0bSSergey Makeev // This is a last subtask. Restore parent task 15058964d0bSSergey Makeev #if FIBER_DEBUG 15158964d0bSSergey Makeev 15258964d0bSSergey Makeev int ownerThread = parentFiberContext->fiber.GetOwnerThread(); 15358964d0bSSergey Makeev FiberTaskStatus::Type parentTaskStatus = parentFiberContext->GetStatus(); 15458964d0bSSergey Makeev internal::ThreadContext * parentThreadContext = parentFiberContext->GetThreadContext(); 15558964d0bSSergey Makeev int fiberUsageCounter = parentFiberContext->fiber.GetUsageCounter(); 15658964d0bSSergey Makeev ASSERT(fiberUsageCounter == 0, "Parent fiber in invalid state"); 15758964d0bSSergey Makeev 15858964d0bSSergey Makeev ownerThread; 15958964d0bSSergey Makeev parentTaskStatus; 16058964d0bSSergey Makeev parentThreadContext; 16158964d0bSSergey Makeev fiberUsageCounter; 16258964d0bSSergey Makeev #endif 16358964d0bSSergey Makeev 16458964d0bSSergey Makeev ASSERT(threadContext.thread.IsCurrentThread(), "Thread context sanity check failed"); 16558964d0bSSergey Makeev ASSERT(parentFiberContext->GetThreadContext() == nullptr, "Inactive parent should not have a valid thread context"); 16658964d0bSSergey Makeev 16758964d0bSSergey Makeev // WARNING!! Thread context can changed here! Set actual current thread context. 16858964d0bSSergey Makeev parentFiberContext->SetThreadContext(&threadContext); 16958964d0bSSergey Makeev 17058964d0bSSergey Makeev ASSERT(parentFiberContext->GetThreadContext()->thread.IsCurrentThread(), "Thread context sanity check failed"); 17158964d0bSSergey Makeev 17258964d0bSSergey Makeev // All subtasks is done. 17358964d0bSSergey Makeev // Exiting and return parent fiber to scheduler 17458964d0bSSergey Makeev return parentFiberContext; 17558964d0bSSergey Makeev } else 17658964d0bSSergey Makeev { 17758964d0bSSergey Makeev // Other subtasks still exist 17858964d0bSSergey Makeev // Exiting 17958964d0bSSergey Makeev return nullptr; 18058964d0bSSergey Makeev } 18158964d0bSSergey Makeev } else 18258964d0bSSergey Makeev { 18358964d0bSSergey Makeev // Task is finished and no parent task 18458964d0bSSergey Makeev // Exiting 18558964d0bSSergey Makeev return nullptr; 18658964d0bSSergey Makeev } 18758964d0bSSergey Makeev } 18858964d0bSSergey Makeev 18958964d0bSSergey Makeev ASSERT(taskStatus != FiberTaskStatus::RUNNED, "Incorrect task status") 19058964d0bSSergey Makeev return nullptr; 19158964d0bSSergey Makeev } 19258964d0bSSergey Makeev 19358964d0bSSergey Makeev 19458964d0bSSergey Makeev void TaskScheduler::FiberMain(void* userData) 19558964d0bSSergey Makeev { 19658964d0bSSergey Makeev FiberContext& fiberContext = *(FiberContext*)(userData); 19758964d0bSSergey Makeev for(;;) 19858964d0bSSergey Makeev { 19958964d0bSSergey Makeev ASSERT(fiberContext.currentTask.IsValid(), "Invalid task in fiber context"); 20058964d0bSSergey Makeev ASSERT(fiberContext.currentGroup < TaskGroup::COUNT, "Invalid task group"); 20158964d0bSSergey Makeev ASSERT(fiberContext.GetThreadContext(), "Invalid thread context"); 20258964d0bSSergey Makeev ASSERT(fiberContext.GetThreadContext()->thread.IsCurrentThread(), "Thread context sanity check failed"); 20358964d0bSSergey Makeev 20458964d0bSSergey Makeev fiberContext.currentTask.taskFunc( fiberContext, fiberContext.currentTask.userData ); 20558964d0bSSergey Makeev 20658964d0bSSergey Makeev fiberContext.SetStatus(FiberTaskStatus::FINISHED); 20758964d0bSSergey Makeev 20858964d0bSSergey Makeev Fiber::SwitchTo(fiberContext.fiber, fiberContext.GetThreadContext()->schedulerFiber); 20958964d0bSSergey Makeev } 21058964d0bSSergey Makeev 21158964d0bSSergey Makeev } 21258964d0bSSergey Makeev 21358964d0bSSergey Makeev 21458964d0bSSergey Makeev void TaskScheduler::ThreadMain( void* userData ) 21558964d0bSSergey Makeev { 21658964d0bSSergey Makeev internal::ThreadContext& context = *(internal::ThreadContext*)(userData); 21758964d0bSSergey Makeev ASSERT(context.taskScheduler, "Task scheduler must be not null!"); 21858964d0bSSergey Makeev context.schedulerFiber.CreateFromThread(context.thread); 21958964d0bSSergey Makeev 22058964d0bSSergey Makeev while(context.state.Get() != internal::ThreadState::EXIT) 22158964d0bSSergey Makeev { 22258964d0bSSergey Makeev internal::GroupedTask task; 22358964d0bSSergey Makeev if (context.queue.TryPop(task)) 22458964d0bSSergey Makeev { 22558964d0bSSergey Makeev // There is a new task 22658964d0bSSergey Makeev FiberContext* fiberContext = context.taskScheduler->RequestFiberContext(task); 22758964d0bSSergey Makeev ASSERT(fiberContext, "Can't get execution context from pool"); 22858964d0bSSergey Makeev ASSERT(fiberContext->currentTask.IsValid(), "Sanity check failed"); 22958964d0bSSergey Makeev 23058964d0bSSergey Makeev while(fiberContext) 23158964d0bSSergey Makeev { 23258964d0bSSergey Makeev // prevent invalid fiber resume from child tasks, before ExecuteTask is done 23358964d0bSSergey Makeev fiberContext->childrenFibersCount.Inc(); 23458964d0bSSergey Makeev 23558964d0bSSergey Makeev FiberContext* parentFiber = ExecuteTask(context, fiberContext); 23658964d0bSSergey Makeev 23758964d0bSSergey Makeev FiberTaskStatus::Type taskStatus = fiberContext->GetStatus(); 23858964d0bSSergey Makeev 23958964d0bSSergey Makeev //release guard 24058964d0bSSergey Makeev int childrenFibersCount = fiberContext->childrenFibersCount.Dec(); 24158964d0bSSergey Makeev 24258964d0bSSergey Makeev // Can drop fiber context - task is finished 24358964d0bSSergey Makeev if (taskStatus == FiberTaskStatus::FINISHED) 24458964d0bSSergey Makeev { 24558964d0bSSergey Makeev ASSERT( childrenFibersCount == 0, "Sanity check failed"); 24658964d0bSSergey Makeev 24758964d0bSSergey Makeev context.taskScheduler->ReleaseFiberContext(fiberContext); 24858964d0bSSergey Makeev 24958964d0bSSergey Makeev // If parent fiber is exist transfer flow control to parent fiber, if parent fiber is null, exit 25058964d0bSSergey Makeev fiberContext = parentFiber; 25158964d0bSSergey Makeev } else 25258964d0bSSergey Makeev { 25358964d0bSSergey Makeev ASSERT( childrenFibersCount >= 0, "Sanity check failed"); 25458964d0bSSergey Makeev 25558964d0bSSergey Makeev // No subtasks here and status is not finished, this mean all subtasks already finished before parent return from ExecuteTask 25658964d0bSSergey Makeev if (childrenFibersCount == 0) 25758964d0bSSergey Makeev { 25858964d0bSSergey Makeev ASSERT(parentFiber == nullptr, "Sanity check failed"); 25958964d0bSSergey Makeev } else 26058964d0bSSergey Makeev { 26158964d0bSSergey Makeev // If subtasks still exist, drop current task execution. task will be resumed when last subtask finished 26258964d0bSSergey Makeev break; 26358964d0bSSergey Makeev } 26458964d0bSSergey Makeev 26558964d0bSSergey Makeev // If task is in await state drop execution. task will be resumed when RestoreAwaitingTasks called 26658964d0bSSergey Makeev if (taskStatus == FiberTaskStatus::AWAITING_GROUP) 26758964d0bSSergey Makeev { 26858964d0bSSergey Makeev break; 26958964d0bSSergey Makeev } 27058964d0bSSergey Makeev } 27158964d0bSSergey Makeev } //while(fiberContext) 27258964d0bSSergey Makeev 27358964d0bSSergey Makeev } else 27458964d0bSSergey Makeev { 27558964d0bSSergey Makeev // Queue is empty 27658964d0bSSergey Makeev // TODO: can try to steal tasks from other threads 27758964d0bSSergey Makeev context.hasNewTasksEvent.Wait(2000); 27858964d0bSSergey Makeev } 27958964d0bSSergey Makeev 28058964d0bSSergey Makeev } // main thread loop 28158964d0bSSergey Makeev } 28258964d0bSSergey Makeev 28358964d0bSSergey Makeev void TaskScheduler::RunTasksImpl(fixed_array<internal::TaskBucket>& buckets, FiberContext * parentFiber, bool restoredFromAwaitState) 28458964d0bSSergey Makeev { 28558964d0bSSergey Makeev // Reset counter to initial value 28658964d0bSSergey Makeev int taskCountInGroup[TaskGroup::COUNT]; 28758964d0bSSergey Makeev for (size_t i = 0; i < TaskGroup::COUNT; ++i) 28858964d0bSSergey Makeev { 28958964d0bSSergey Makeev taskCountInGroup[i] = 0; 29058964d0bSSergey Makeev } 29158964d0bSSergey Makeev 29258964d0bSSergey Makeev // Set parent fiber pointer 29358964d0bSSergey Makeev // Calculate the number of tasks per group 29458964d0bSSergey Makeev // Calculate total number of tasks 29558964d0bSSergey Makeev size_t count = 0; 29658964d0bSSergey Makeev for (size_t i = 0; i < buckets.size(); ++i) 29758964d0bSSergey Makeev { 29858964d0bSSergey Makeev internal::TaskBucket& bucket = buckets[i]; 29958964d0bSSergey Makeev for (size_t taskIndex = 0; taskIndex < bucket.count; taskIndex++) 30058964d0bSSergey Makeev { 30158964d0bSSergey Makeev internal::GroupedTask & task = bucket.tasks[taskIndex]; 30258964d0bSSergey Makeev 30358964d0bSSergey Makeev ASSERT(task.group < TaskGroup::COUNT, "Invalid group."); 30458964d0bSSergey Makeev 30558964d0bSSergey Makeev task.parentFiber = parentFiber; 30658964d0bSSergey Makeev taskCountInGroup[task.group]++; 30758964d0bSSergey Makeev } 30858964d0bSSergey Makeev count += bucket.count; 30958964d0bSSergey Makeev } 31058964d0bSSergey Makeev 31158964d0bSSergey Makeev // Increments child fibers count on parent fiber 31258964d0bSSergey Makeev if (parentFiber) 31358964d0bSSergey Makeev { 31458964d0bSSergey Makeev parentFiber->childrenFibersCount.Add((uint32)count); 31558964d0bSSergey Makeev } 31658964d0bSSergey Makeev 31758964d0bSSergey Makeev if (restoredFromAwaitState == false) 31858964d0bSSergey Makeev { 31958964d0bSSergey Makeev // Increments all task in progress counter 32058964d0bSSergey Makeev allGroupStats.allDoneEvent.Reset(); 32158964d0bSSergey Makeev allGroupStats.inProgressTaskCount.Add((uint32)count); 32258964d0bSSergey Makeev 32358964d0bSSergey Makeev // Increments task in progress counters (per group) 32458964d0bSSergey Makeev for (size_t i = 0; i < TaskGroup::COUNT; ++i) 32558964d0bSSergey Makeev { 32658964d0bSSergey Makeev int groupTaskCount = taskCountInGroup[i]; 32758964d0bSSergey Makeev if (groupTaskCount > 0) 32858964d0bSSergey Makeev { 32958964d0bSSergey Makeev groupStats[i].allDoneEvent.Reset(); 33058964d0bSSergey Makeev groupStats[i].inProgressTaskCount.Add((uint32)groupTaskCount); 33158964d0bSSergey Makeev } 33258964d0bSSergey Makeev } 33358964d0bSSergey Makeev } else 33458964d0bSSergey Makeev { 33558964d0bSSergey Makeev // If task's restored from await state, counters already in correct state 33658964d0bSSergey Makeev } 33758964d0bSSergey Makeev 33858964d0bSSergey Makeev // Add to thread queue 33958964d0bSSergey Makeev for (size_t i = 0; i < buckets.size(); ++i) 34058964d0bSSergey Makeev { 34158964d0bSSergey Makeev int bucketIndex = roundRobinThreadIndex.Inc() % threadsCount; 34258964d0bSSergey Makeev internal::ThreadContext & context = threadContext[bucketIndex]; 34358964d0bSSergey Makeev 34458964d0bSSergey Makeev internal::TaskBucket& bucket = buckets[i]; 34558964d0bSSergey Makeev 34658964d0bSSergey Makeev context.queue.PushRange(bucket.tasks, bucket.count); 34758964d0bSSergey Makeev context.hasNewTasksEvent.Signal(); 34858964d0bSSergey Makeev } 34958964d0bSSergey Makeev } 35058964d0bSSergey Makeev 35158964d0bSSergey Makeev bool TaskScheduler::WaitGroup(TaskGroup::Type group, uint32 milliseconds) 35258964d0bSSergey Makeev { 35358964d0bSSergey Makeev VERIFY(IsWorkerThread() == false, "Can't use WaitGroup inside Task. Use FiberContext.WaitGroupAndYield() instead.", return false); 35458964d0bSSergey Makeev 35558964d0bSSergey Makeev return groupStats[group].allDoneEvent.Wait(milliseconds); 35658964d0bSSergey Makeev } 35758964d0bSSergey Makeev 35858964d0bSSergey Makeev bool TaskScheduler::WaitAll(uint32 milliseconds) 35958964d0bSSergey Makeev { 36058964d0bSSergey Makeev VERIFY(IsWorkerThread() == false, "Can't use WaitAll inside Task.", return false); 36158964d0bSSergey Makeev 36258964d0bSSergey Makeev return allGroupStats.allDoneEvent.Wait(milliseconds); 36358964d0bSSergey Makeev } 36458964d0bSSergey Makeev 36558964d0bSSergey Makeev bool TaskScheduler::IsEmpty() 36658964d0bSSergey Makeev { 36758964d0bSSergey Makeev for (uint32 i = 0; i < MT_MAX_THREAD_COUNT; i++) 36858964d0bSSergey Makeev { 36958964d0bSSergey Makeev if (!threadContext[i].queue.IsEmpty()) 37058964d0bSSergey Makeev { 37158964d0bSSergey Makeev return false; 37258964d0bSSergey Makeev } 37358964d0bSSergey Makeev } 37458964d0bSSergey Makeev return true; 37558964d0bSSergey Makeev } 37658964d0bSSergey Makeev 37758964d0bSSergey Makeev uint32 TaskScheduler::GetWorkerCount() const 37858964d0bSSergey Makeev { 37958964d0bSSergey Makeev return threadsCount; 38058964d0bSSergey Makeev } 38158964d0bSSergey Makeev 38258964d0bSSergey Makeev bool TaskScheduler::IsWorkerThread() const 38358964d0bSSergey Makeev { 38458964d0bSSergey Makeev for (uint32 i = 0; i < MT_MAX_THREAD_COUNT; i++) 38558964d0bSSergey Makeev { 38658964d0bSSergey Makeev if (threadContext[i].thread.IsCurrentThread()) 38758964d0bSSergey Makeev { 38858964d0bSSergey Makeev return true; 38958964d0bSSergey Makeev } 39058964d0bSSergey Makeev } 39158964d0bSSergey Makeev return false; 39258964d0bSSergey Makeev } 39358964d0bSSergey Makeev 39458964d0bSSergey Makeev } 395