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e4e2da55c9
The bulk of this commit was generated with a script, executed at the top level of a typical source code checkout. The only non-machine-generated part was modifying MFBT's moz.build to reflect the new naming. CLOSED TREE makes big refactorings like this a piece of cake. # The main substitution. find . -name '*.cpp' -o -name '*.cc' -o -name '*.h' -o -name '*.mm' -o -name '*.idl'| \ xargs perl -p -i -e ' s/nsRefPtr\.h/RefPtr\.h/g; # handle includes s/nsRefPtr ?</RefPtr</g; # handle declarations and variables ' # Handle a special friend declaration in gfx/layers/AtomicRefCountedWithFinalize.h. perl -p -i -e 's/::nsRefPtr;/::RefPtr;/' gfx/layers/AtomicRefCountedWithFinalize.h # Handle nsRefPtr.h itself, a couple places that define constructors # from nsRefPtr, and code generators specially. We do this here, rather # than indiscriminantly s/nsRefPtr/RefPtr/, because that would rename # things like nsRefPtrHashtable. perl -p -i -e 's/nsRefPtr/RefPtr/g' \ mfbt/nsRefPtr.h \ xpcom/glue/nsCOMPtr.h \ xpcom/base/OwningNonNull.h \ ipc/ipdl/ipdl/lower.py \ ipc/ipdl/ipdl/builtin.py \ dom/bindings/Codegen.py \ python/lldbutils/lldbutils/utils.py # In our indiscriminate substitution above, we renamed # nsRefPtrGetterAddRefs, the class behind getter_AddRefs. Fix that up. find . -name '*.cpp' -o -name '*.h' -o -name '*.idl' | \ xargs perl -p -i -e 's/nsRefPtrGetterAddRefs/RefPtrGetterAddRefs/g' if [ -d .git ]; then git mv mfbt/nsRefPtr.h mfbt/RefPtr.h else hg mv mfbt/nsRefPtr.h mfbt/RefPtr.h fi
252 lines
8.0 KiB
C++
252 lines
8.0 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef MOZILLA_GFX_TASKSCHEDULER_H_
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#define MOZILLA_GFX_TASKSCHEDULER_H_
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#include "mozilla/RefPtr.h"
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#include "mozilla/gfx/Types.h"
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#include "mozilla/RefCounted.h"
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#ifdef WIN32
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#include "mozilla/gfx/JobScheduler_win32.h"
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#else
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#include "mozilla/gfx/JobScheduler_posix.h"
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#endif
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#include <vector>
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namespace mozilla {
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namespace gfx {
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class MultiThreadedJobQueue;
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class SyncObject;
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class WorkerThread;
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class JobScheduler {
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public:
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/// Return one of the queues that the drawing worker threads pull from, chosen
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/// pseudo-randomly.
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static MultiThreadedJobQueue* GetDrawingQueue()
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{
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return sSingleton->mDrawingQueues[
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sSingleton->mNextQueue++ % sSingleton->mDrawingQueues.size()
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];
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}
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/// Return one of the queues that the drawing worker threads pull from with a
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/// hash to choose the queue.
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///
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/// Calling this function several times with the same hash will yield the same queue.
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static MultiThreadedJobQueue* GetDrawingQueue(uint32_t aHash)
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{
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return sSingleton->mDrawingQueues[
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aHash % sSingleton->mDrawingQueues.size()
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];
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}
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/// Return the task queue associated to the worker the task is pinned to if
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/// the task is pinned to a worker, or a random queue.
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static MultiThreadedJobQueue* GetQueueForJob(Job* aJob);
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/// Initialize the task scheduler with aNumThreads worker threads for drawing
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/// and aNumQueues task queues.
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///
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/// The number of threads must be superior or equal to the number of queues
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/// (since for now a worker thread only pulls from one queue).
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static bool Init(uint32_t aNumThreads, uint32_t aNumQueues);
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/// Shut the scheduler down.
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///
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/// This will block until worker threads are joined and deleted.
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static void ShutDown();
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/// Returns true if there is a successfully initialized JobScheduler singleton.
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static bool IsEnabled() { return !!sSingleton; }
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/// Submit a task buffer to its associated queue.
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///
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/// The caller looses ownership of the task buffer.
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static void SubmitJob(Job* aJobs);
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/// Process commands until the command buffer needs to block on a sync object,
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/// completes, yields, or encounters an error.
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///
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/// Can be used on any thread. Worker threads basically loop over this, but the
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/// main thread can also dequeue pending task buffers and process them alongside
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/// the worker threads if it is about to block until completion anyway.
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///
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/// The caller looses ownership of the task buffer.
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static JobStatus ProcessJob(Job* aJobs);
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protected:
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static JobScheduler* sSingleton;
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// queues of Job that are ready to be processed
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std::vector<MultiThreadedJobQueue*> mDrawingQueues;
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std::vector<WorkerThread*> mWorkerThreads;
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Atomic<uint32_t> mNextQueue;
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};
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/// Jobs are not reference-counted because they don't have shared ownership.
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/// The ownership of tasks can change when they are passed to certain methods
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/// of JobScheduler and SyncObject. See the docuumentaion of these classes.
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class Job {
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public:
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Job(SyncObject* aStart, SyncObject* aCompletion, WorkerThread* aThread = nullptr);
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virtual ~Job();
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virtual JobStatus Run() = 0;
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/// For use in JobScheduler::SubmitJob. Don't use it anywhere else.
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//already_AddRefed<SyncObject> GetAndResetStartSync();
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SyncObject* GetStartSync() { return mStartSync; }
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bool IsPinnedToAThread() const { return !!mPinToThread; }
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WorkerThread* GetWorkerThread() { return mPinToThread; }
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protected:
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// An intrusive linked list of tasks waiting for a sync object to enter the
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// signaled state. When the task is not waiting for a sync object, mNextWaitingJob
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// should be null. This is only accessed from the thread that owns the task.
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Job* mNextWaitingJob;
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RefPtr<SyncObject> mStartSync;
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RefPtr<SyncObject> mCompletionSync;
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WorkerThread* mPinToThread;
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friend class SyncObject;
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};
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class EventObject;
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/// This task will set an EventObject.
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///
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/// Typically used as the final task, so that the main thread can block on the
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/// corresponfing EventObject until all of the tasks are processed.
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class SetEventJob : public Job
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{
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public:
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explicit SetEventJob(EventObject* aEvent,
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SyncObject* aStart, SyncObject* aCompletion = nullptr,
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WorkerThread* aPinToWorker = nullptr);
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~SetEventJob();
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JobStatus Run() override;
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EventObject* GetEvent() { return mEvent; }
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protected:
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RefPtr<EventObject> mEvent;
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};
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/// A synchronization object that can be used to express dependencies and ordering between
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/// tasks.
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///
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/// Jobs can register to SyncObjects in order to asynchronously wait for a signal.
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/// In practice, Job objects usually start with a sync object (startSyc) and end
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/// with another one (completionSync).
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/// a Job never gets processed before its startSync is in the signaled state, and
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/// signals its completionSync as soon as it finishes. This is how dependencies
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/// between tasks is expressed.
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class SyncObject final : public external::AtomicRefCounted<SyncObject> {
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public:
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MOZ_DECLARE_REFCOUNTED_TYPENAME(SyncObject)
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/// Create a synchronization object.
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///
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/// aNumPrerequisites represents the number of times the object must be signaled
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/// before actually entering the signaled state (in other words, it means the
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/// number of dependencies of this sync object).
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///
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/// Explicitly specifying the number of prerequisites when creating sync objects
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/// makes it easy to start scheduling some of the prerequisite tasks while
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/// creating the others, which is how we typically use the task scheduler.
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/// Automatically determining the number of prerequisites using Job's constructor
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/// brings the risk that the sync object enters the signaled state while we
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/// are still adding prerequisites which is hard to fix without using muteces.
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explicit SyncObject(uint32_t aNumPrerequisites = 1);
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~SyncObject();
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/// Attempt to register a task.
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///
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/// If the sync object is already in the signaled state, the buffer is *not*
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/// registered and the sync object does not take ownership of the task.
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/// If the object is not yet in the signaled state, it takes ownership of
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/// the task and places it in a list of pending tasks.
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/// Pending tasks will not be processed by the worker thread.
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/// When the SyncObject reaches the signaled state, it places the pending
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/// tasks back in the available buffer queue, so that they can be
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/// scheduled again.
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///
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/// Returns true if the SyncOject is not already in the signaled state.
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/// This means that if this method returns true, the SyncObject has taken
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/// ownership of the Job.
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bool Register(Job* aJob);
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/// Signal the SyncObject.
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///
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/// This decrements an internal counter. The sync object reaches the signaled
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/// state when the counter gets to zero.
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void Signal();
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/// Returns true if mSignals is equal to zero. In other words, returns true
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/// if all prerequisite tasks have already signaled the sync object.
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bool IsSignaled();
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/// Asserts that the number of added prerequisites is equal to the number
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/// specified in the constructor (does nothin in release builds).
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void FreezePrerequisites();
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private:
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// Called by Job's constructor
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void AddSubsequent(Job* aJob);
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void AddPrerequisite(Job* aJob);
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void AddWaitingJob(Job* aJob);
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void SubmitWaitingJobs();
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Atomic<int32_t> mSignals;
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Atomic<Job*> mFirstWaitingJob;
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#ifdef DEBUG
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uint32_t mNumPrerequisites;
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Atomic<uint32_t> mAddedPrerequisites;
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#endif
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friend class Job;
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friend class JobScheduler;
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};
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/// Base class for worker threads.
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class WorkerThread
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{
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public:
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static WorkerThread* Create(MultiThreadedJobQueue* aJobQueue);
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virtual ~WorkerThread() {}
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void Run();
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MultiThreadedJobQueue* GetJobQueue() { return mQueue; }
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protected:
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explicit WorkerThread(MultiThreadedJobQueue* aJobQueue);
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virtual void SetName(const char* aName) {}
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MultiThreadedJobQueue* mQueue;
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};
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} // namespace
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} // namespace
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#endif
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