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path: root/indra/llcommon/workqueue.h
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2022-12-13DRTVWR-559: Fix broken workqueue_test.cpp.Nat Goodspeed
Apparently Visual Studio and Xcode disagree on the intended lifespan of a certain temporary expression. Capturing it in a named variable works.
2022-12-09SL-18809: Add WorkSchedule; remove timestamps from WorkQueue.Nat Goodspeed
For work queues that don't need timestamped tasks, eliminate the overhead of a priority queue ordered by timestamp. Timestamped task support moves to WorkSchedule. WorkQueue is a simpler queue that just waits for work. Both WorkQueue and WorkSchedule can be accessed via new WorkQueueBase API. Of course the WorkQueueBase API doesn't deal with timestamps, but a WorkSchedule can be accessed directly to post timestamped tasks and then handled normally (e.g. by ThreadPool) to run them. Most ThreadPool functionality migrates to new ThreadPoolBase class, with template subclass ThreadPoolUsing<WorkQueue> or ThreadPoolUsing<WorkSchedule> depending on need. ThreadPool is now an alias for ThreadPoolUsing<WorkQueue>. Importantly, ThreadPoolUsing::getQueue() delivers a reference to the specific queue subclass type, so you can post timestamped tasks on a queue retrieved from ThreadPoolUsing<WorkSchedule>::getQueue(). Since ThreadPool is no longer a simple class but an alias for a particular template specialization, introduce threadpool_fwd.h to forward-declare it. Recast workqueue_test.cpp to exercise WorkSchedule, since some of the tests are time-based. A future todo would be to exercise each applicable test with both WorkQueue and WorkSchedule.
2022-10-21Merge branch 'master' (DRTVWR-548) into DRTVWR-559Andrey Kleshchev
# Conflicts: # indra/llrender/llgl.cpp # indra/llrender/llrendertarget.cpp # indra/newview/VIEWER_VERSION.txt # indra/newview/app_settings/shaders/class1/deferred/materialF.glsl # indra/newview/llfloaterpreference.cpp # indra/newview/llviewercontrol.cpp # indra/newview/llviewermenu.cpp # indra/newview/llviewertexturelist.cpp # indra/newview/llvovolume.cpp
2022-06-14SL-16182: Offload audio decoding from the main thread to the general work queue.Cosmic Linden
The work queue callback binds "this". This is deemed safe due to current dependencies, but see the associated comment in the return callback. There was some trial and error to get a this-binded lambda to compile. Due to LLVorbisDecodeState writing to disk off-thread, limit audio decodes proportional to general worker thread count. Guess the thread count for now.
2022-05-10SL-17219: WorkQueue::tryPost() must call ThreadSafeSchedule::tryPush().Nat Goodspeed
We inadvertently changed tryPost() to call ThreadSafeSchedule::tryPost(), which doesn't exist.
2022-04-15SL-17219 WIP - Texture pipeline overhaulDave Parks
2021-11-24DRTVWR-546, SL-16220, SL-16094: Undo previous glthread branch revert.Nat Goodspeed
Reverting a merge is sticky: it tells git you never want to see that branch again. Merging the DRTVWR-546 branch, which contained the revert, into the glthread branch undid much of the development work on that branch. To restore it we must revert the revert. This reverts commit 029b41c0419e975bbb28454538b46dc69ce5d2ba.
2021-11-23SL-16094, SL-16400: Merge branch 'DRTVWR-546' into glthreadNat Goodspeed
2021-11-22SL-16094 Add WorkQueue profile hooksRunitai Linden
2021-11-15Revert "SL-16220: Merge branch 'origin/DRTVWR-546' into glthread"Dave Houlton
This reverts commit 5188a26a8521251dda07ac0140bb129f28417e49, reversing changes made to 819088563e13f1d75e048311fbaf0df4a79b7e19.
2021-11-10SL-16094: Add WorkQueue::size() method to support changeset 08336bb.Nat Goodspeed
We want to skip calling PostMessage() to bump the window thread out of GetMessage() in any frame with no work functions pending for that thread. That test depends on being able to sense the size() of the queue. Having converted to WorkQueue, we need that queue to support size().
2021-11-04SL-16202: Use large WorkQueue size limits for mainloop and General.Nat Goodspeed
Give ThreadPool and WorkQueue the ability to override default ThreadSafeSchedule capacity. Instantiate "mainloop" WorkQueue and "General" ThreadPool with very large capacity because we never want to have to block trying to push to either.
2021-11-04SL-16202: Add postIfOpen() methods to WorkQueue, LLThreadSafeQueue.Nat Goodspeed
postIfOpen() provides a no-exception alternative to post(), which blocks if full but throws if closed. postIfOpen() likewise blocks if full, but returns true if able to post and false if the queue was closed.
2021-11-04SL-16202: Merge branch 'sl-16220' into glthreadNat Goodspeed
2021-11-01SL-16237 FIXED Viewer hangs on loginMnikolenko Productengine
2021-10-27SL-16220: Add tests for WorkQueue::waitForResult(), void & non-void.Nat Goodspeed
2021-10-26SL-16220: Make WorkQueue::postTo() return exception to caller.Nat Goodspeed
postTo() sets up two-way communication: the caller asks to run work on some other WorkQueue, expecting an eventual callback on the originating WorkQueue. That permits us to transport any exception thrown by the work callable back to rethrow on the originating WorkQueue.
2021-10-26SL-16220: Change WorkQueue::runOn() to waitForResult().Nat Goodspeed
In addition to the name making the blocking explicit, we changed the signature: instead of specifying a target WorkQueue on which to run, waitForResult() runs the passed callable on its own WorkQueue. Why is that? Because, unlike postTo(), we do not require a handshake between two different WorkQueues. postTo() allows running arbitrary callback code, setting variables or whatever, on the originating WorkQueue (presumably on the originating thread). waitForResult() synchronizes using Promise/Future, which are explicitly designed for cross-thread communication. We need not call set_value() on the originating thread, so we don't need a postTo() callback lambda.
2021-10-25SL-16220: WorkQueue::runOn() methods submit work, wait for result.Nat Goodspeed
The idea is that you can call runOn(target, callable) from a (non-default) coroutine and block that coroutine until the result becomes available. As a safety check, we forbid calling runOn() from a thread's default coroutine, assuming that a given thread's default coroutine is the one servicing the relevant WorkQueue.
2021-10-25SL-16220: Specialize WorkQueue for callable with void return.Nat Goodspeed
Add a test exercising this feature.
2021-10-22SL-16220: Add LL::ThreadPool class and a "General" instance.Nat Goodspeed
ThreadPool bundles a WorkQueue with the specified number of worker threads to service it. Each ThreadPool has a name that can be used to locate its WorkQueue. Each worker thread calls WorkQueue::runUntilClose(). ThreadPool listens on the "LLApp" LLEventPump for shutdown notification. On receiving that, it closes its WorkQueue and then join()s each of its worker threads for orderly shutdown. Add a settings.xml entry "ThreadPoolSizes", the first LLSD-valued settings entry to expect a map: pool name->size. The expectation is that usually code instantiating a particular ThreadPool will have a default size in mind, but it should check "ThreadPoolSizes" for a user override. Make idle_startup()'s STATE_SEED_CAP_GRANTED state instantiate a "General" ThreadPool. This is function-static for lazy initialization. Eliminate LLMainLoopRepeater, which is completely unreferenced. Any potential future use cases are better addressed by posting to the main loop's WorkQueue. Eliminate llappviewer.cpp's private LLDeferredTaskList class, which implemented LLAppViewer::addOnIdleCallback(). Make addOnIdleCallback() post work to the main loop's WorkQueue instead.
2021-10-08SL-16024: Resolve bizarre VS compile error. Thanks Callum!Nat Goodspeed
It seems CALLBACK is a macro in some Microsoft header file. Bleah.
2021-10-07SL-16024: Add LL::WorkQueue for passing work items between threads.Nat Goodspeed
A typical WorkQueue has a string name, which can be used to find it to post work to it. "Work" is a nullary callable. WorkQueue is a multi-producer, multi-consumer thread-safe queue: multiple threads can service the WorkQueue, multiple threads can post work to it. Work can be scheduled in the future by submitting with a timestamp. In addition, a given work item can be scheduled to run on a recurring basis. A requesting thread servicing a WorkQueue of its own, such as the viewer's main thread, can submit work to another WorkQueue along with a callback to be passed the result (of arbitrary type) of the first work item. The callback is posted to the originating WorkQueue, permitting safe data exchange between participating threads. Methods are provided for different kinds of servicing threads. runUntilClose() is useful for a simple worker thread. runFor(duration) devotes no more than a specified time slice to that WorkQueue, e.g. for use by the main thread.