1 #ifndef DALI_INTERNAL_COMBINED_UPDATE_RENDER_CONTROLLER_H
2 #define DALI_INTERNAL_COMBINED_UPDATE_RENDER_CONTROLLER_H
5 * Copyright (c) 2020 Samsung Electronics Co., Ltd.
7 * Licensed under the Apache License, Version 2.0 (the "License");
8 * you may not use this file except in compliance with the License.
9 * You may obtain a copy of the License at
11 * http://www.apache.org/licenses/LICENSE-2.0
13 * Unless required by applicable law or agreed to in writing, software
14 * distributed under the License is distributed on an "AS IS" BASIS,
15 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
16 * See the License for the specific language governing permissions and
17 * limitations under the License.
23 #include <semaphore.h>
25 #include <dali/devel-api/threading/conditional-wait.h>
26 #include <dali/integration-api/core.h>
29 #include <dali/integration-api/adaptor-framework/thread-synchronization-interface.h>
30 #include <dali/internal/adaptor/common/thread-controller-interface.h>
31 #include <dali/internal/system/common/fps-tracker.h>
32 #include <dali/internal/system/common/performance-interface.h>
33 #include <dali/internal/system/common/update-status-logger.h>
34 #include <dali/internal/window-system/common/display-connection.h>
39 class RenderSurfaceInterface;
40 class TriggerEventInterface;
48 class AdaptorInternalServices;
49 class EnvironmentOptions;
52 * @brief Two threads where events/application interaction is handled on the main/event thread and the Update & Render
53 * happen on the other thread.
57 * a. Main/Event Thread.
58 * b. Update/Render Thread.
59 * 2. There is NO VSync thread:
60 * a. We retrieve the time before Update.
61 * b. Then retrieve the time after Render.
62 * c. We calculate the difference between these two times and if:
63 * i. The difference is less than the default frame time, we sleep.
64 * ii. If it’s more or the same, we continue.
65 * 3. On the update/render thread, if we discover that we do not need to do any more updates, we use a trigger-event
66 * to inform the main/event thread. This is then processed as soon as the event thread is able to do so where it
67 * is easier to make a decision about whether we should stop the update/render thread or not (depending on any
68 * update requests etc.).
69 * 4. The main thread is blocked while the surface is being replaced.
70 * 5. When we resume from paused, elapsed time is used for the animations, i.e. the could have finished while we were paused.
71 * However, FinishedSignal emission will only happen upon resumption.
72 * 6. Elapsed time is NOT used while if we are waking up from a sleep state or doing an UpdateOnce.
74 class CombinedUpdateRenderController : public ThreadControllerInterface,
75 public ThreadSynchronizationInterface
82 CombinedUpdateRenderController( AdaptorInternalServices& adaptorInterfaces, const EnvironmentOptions& environmentOptions );
85 * Non virtual destructor. Not intended as base class.
87 ~CombinedUpdateRenderController();
90 * @copydoc ThreadControllerInterface::Initialize()
92 virtual void Initialize();
95 * @copydoc ThreadControllerInterface::Start()
100 * @copydoc ThreadControllerInterface::Pause()
102 virtual void Pause();
105 * @copydoc ThreadControllerInterface::Resume()
107 virtual void Resume();
110 * @copydoc ThreadControllerInterface::Stop()
115 * @copydoc ThreadControllerInterface::RequestUpdate()
117 virtual void RequestUpdate();
120 * @copydoc ThreadControllerInterface::RequestUpdateOnce()
122 virtual void RequestUpdateOnce( UpdateMode updateMode );
125 * @copydoc ThreadControllerInterface::ReplaceSurface()
127 virtual void ReplaceSurface( Dali::RenderSurfaceInterface* surface );
130 * @copydoc ThreadControllerInterface::DeleteSurface()
132 virtual void DeleteSurface( Dali::RenderSurfaceInterface* surface );
135 * @copydoc ThreadControllerInterface::ResizeSurface()
137 virtual void ResizeSurface();
140 * @copydoc ThreadControllerInterface::WaitForGraphicsInitialization()
142 virtual void WaitForGraphicsInitialization();
145 * @copydoc ThreadControllerInterface::SetRenderRefreshRate()
147 virtual void SetRenderRefreshRate( unsigned int numberOfFramesPerRender );
150 * @copydoc ThreadControllerInterface::SetPreRenderCallback
152 void SetPreRenderCallback( CallbackBase* callback ) override;
155 * @copydoc ThreadControllerInterface::AddSurface()
157 virtual void AddSurface( Dali::RenderSurfaceInterface* surface );
161 // Undefined copy constructor.
162 CombinedUpdateRenderController( const CombinedUpdateRenderController& );
164 // Undefined assignment operator.
165 CombinedUpdateRenderController& operator=( const CombinedUpdateRenderController& );
167 /////////////////////////////////////////////////////////////////////////////////////////////////
169 /////////////////////////////////////////////////////////////////////////////////////////////////
171 enum AnimationProgression
173 USE_ELAPSED_TIME, ///< Animation progression using elapsed time
174 NONE ///< No animation progression
178 * Runs the Update/Render Thread.
179 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
181 * @param[in] numberOfCycles The number of times the update/render cycle should run. If -1, then it will run continuously.
182 * @param[in] animationProgression Whether to progress animation using time elapsed since the last frame.
183 * @param[in] updateMode The update mode (i.e. either update & render or skip rendering)
185 inline void RunUpdateRenderThread( int numberOfCycles, AnimationProgression animationProgression, UpdateMode updateMode );
188 * Pauses the Update/Render Thread.
189 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
191 inline void PauseUpdateRenderThread();
194 * Stops the Update/Render Thread.
195 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
197 * @note Should only be called in Stop as calling this will kill the update-thread.
199 inline void StopUpdateRenderThread();
202 * Checks if the the Update/Render Thread is paused.
203 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
205 * @return true if paused, false otherwise
207 inline bool IsUpdateRenderThreadPaused();
210 * Used as the callback for the sleep-trigger.
212 * Will sleep when enough requests are made without any requests.
214 void ProcessSleepRequest();
216 /////////////////////////////////////////////////////////////////////////////////////////////////
217 // UpdateRenderThread
218 /////////////////////////////////////////////////////////////////////////////////////////////////
221 * The Update/Render thread loop. This thread will be destroyed on exit from this function.
223 void UpdateRenderThread();
226 * Called by the Update/Render Thread which ensures a wait if required.
228 * @param[out] useElapsedTime If true when returned, then the actual elapsed time will be used for animation.
229 * If false when returned, then there should NOT be any animation progression in the next Update.
230 * @param[in] updateRequired Whether another update is required.
231 * @param[out] timeToSleepUntil The time remaining in nanoseconds to keep the thread sleeping before resuming.
232 * @return false, if the thread should stop.
234 bool UpdateRenderReady( bool& useElapsedTime, bool updateRequired, uint64_t& timeToSleepUntil );
237 * Checks to see if the surface needs to be replaced.
238 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
240 * @return Pointer to the new surface, NULL otherwise
242 Integration::RenderSurface* ShouldSurfaceBeReplaced();
245 * Called by the Update/Render thread after a surface has been replaced.
247 * This will lock the mutex in mEventThreadWaitCondition
249 void SurfaceReplaced();
252 * Checks to see if the surface needs to be deleted.
253 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
255 * @return Pointer to the deleted surface, nullptr otherwise
257 Integration::RenderSurface* ShouldSurfaceBeDeleted();
260 * Called by the Update/Render thread after a surface has been deleted.
262 * This will lock the mutex in mEventThreadWaitCondition
264 void SurfaceDeleted();
267 * Checks to see if the surface needs to be resized.
268 * This will lock the mutex in mUpdateRenderThreadWaitCondition.
270 * @return true if the surface should be resized, false otherwise
272 bool ShouldSurfaceBeResized();
275 * Called by the Update/Render thread after a surface has been resized.
277 * This will lock the mutex in mEventThreadWaitCondition
279 void SurfaceResized();
282 * Helper for the thread calling the entry function
283 * @param[in] This A pointer to the current object
285 static void* InternalUpdateRenderThreadEntryFunc( void* This )
287 ( static_cast<CombinedUpdateRenderController*>( This ) )->UpdateRenderThread();
291 /////////////////////////////////////////////////////////////////////////////////////////////////
293 /////////////////////////////////////////////////////////////////////////////////////////////////
296 * Called by the update-render & v-sync threads when they up and running.
298 * This will lock the mutex in mEventThreadWaitCondition.
300 void NotifyThreadInitialised();
303 * Called by the update-render thread when graphics has been initialised.
305 void NotifyGraphicsInitialised();
308 * Helper to add a performance marker to the performance server (if it's active)
309 * @param[in] type performance marker type
311 void AddPerformanceMarker( PerformanceInterface::MarkerType type );
313 /////////////////////////////////////////////////////////////////////////////////////////////////
314 // POST RENDERING - ThreadSynchronizationInterface overrides
315 /////////////////////////////////////////////////////////////////////////////////////////////////
317 /////////////////////////////////////////////////////////////////////////////////////////////////
318 //// Called by the Event Thread if post-rendering is required
319 /////////////////////////////////////////////////////////////////////////////////////////////////
322 * @copydoc ThreadSynchronizationInterface::PostRenderComplete()
324 virtual void PostRenderComplete();
326 /////////////////////////////////////////////////////////////////////////////////////////////////
327 //// Called by the Render Thread if post-rendering is required
328 /////////////////////////////////////////////////////////////////////////////////////////////////
331 * @copydoc ThreadSynchronizationInterface::PostRenderStarted()
333 virtual void PostRenderStarted();
336 * @copydoc ThreadSynchronizationInterface::PostRenderStarted()
338 virtual void PostRenderWaitForCompletion();
342 FpsTracker mFpsTracker; ///< Object that tracks the FPS
343 UpdateStatusLogger mUpdateStatusLogger; ///< Object that logs the update-status as required.
345 sem_t mEventThreadSemaphore; ///< Used by the event thread to ensure all threads have been initialised, and when replacing the surface.
346 sem_t mGraphicsInitializeSemaphore; ///< Used by the render thread to ensure the graphics has been initialised.
348 ConditionalWait mUpdateRenderThreadWaitCondition; ///< The wait condition for the update-render-thread.
350 AdaptorInternalServices& mAdaptorInterfaces; ///< The adaptor internal interface
351 PerformanceInterface* mPerformanceInterface; ///< The performance logging interface
352 Integration::Core& mCore; ///< Dali core reference
353 const EnvironmentOptions& mEnvironmentOptions; ///< Environment options
354 TriggerEventInterface& mNotificationTrigger; ///< Reference to notification event trigger
355 TriggerEventInterface* mSleepTrigger; ///< Used by the update-render thread to trigger the event thread when it no longer needs to do any updates
356 CallbackBase* mPreRenderCallback; ///< Used by Update/Render thread when PreRender is about to be called on graphics.
358 pthread_t* mUpdateRenderThread; ///< The Update/Render thread.
360 float mDefaultFrameDelta; ///< Default time delta between each frame (used for animations). Not protected by lock, but written to rarely so not worth adding a lock when reading.
361 // TODO: mDefaultFrameDurationMilliseconds is defined as uint64_t, the only place where it is used, it is converted to an unsigned int!!!
362 uint64_t mDefaultFrameDurationMilliseconds; ///< Default duration of a frame (used for predicting the time of the next frame). Not protected by lock, but written to rarely so not worth adding a lock when reading.
363 uint64_t mDefaultFrameDurationNanoseconds; ///< Default duration of a frame (used for sleeping if not enough time elapsed). Not protected by lock, but written to rarely so not worth adding a lock when reading.
364 uint64_t mDefaultHalfFrameNanoseconds; ///< Is half of mDefaultFrameDurationNanoseconds. Using a member variable avoids having to do the calculation every frame. Not protected by lock, but written to rarely so not worth adding a lock when reading.
366 unsigned int mUpdateRequestCount; ///< Count of update-requests we have received to ensure we do not go to sleep too early.
367 unsigned int mRunning; ///< Read and set on the event-thread only to state whether we are running.
370 // NOTE: cannot use booleans as these are used from multiple threads, must use variable with machine word size for atomic read/write
373 volatile int mUpdateRenderRunCount; ///< The number of times Update/Render cycle should run. If -1, then will run continuously (set by the event-thread, read by v-sync-thread).
374 volatile unsigned int mDestroyUpdateRenderThread; ///< Whether the Update/Render thread be destroyed (set by the event-thread, read by the update-render-thread).
375 volatile unsigned int mUpdateRenderThreadCanSleep; ///< Whether the Update/Render thread can sleep (set by the event-thread, read by the update-render-thread).
376 volatile unsigned int mPendingRequestUpdate; ///< Is set as soon as an RequestUpdate is made and unset when the next update happens (set by the event-thread and update-render thread, read by the update-render-thread).
377 ///< Ensures we do not go to sleep if we have not processed the most recent update-request.
379 volatile unsigned int mUseElapsedTimeAfterWait; ///< Whether we should use the elapsed time after waiting (set by the event-thread, read by the update-render-thread).
381 Integration::RenderSurface* volatile mNewSurface; ///< Will be set to the new-surface if requested (set by the event-thread, read & cleared by the update-render thread).
382 Integration::RenderSurface* volatile mDeletedSurface; ///< Will be set to the deleted surface if requested (set by the event-thread, read & cleared by the update-render thread).
384 volatile unsigned int mPostRendering; ///< Whether post-rendering is taking place (set by the event & render threads, read by the render-thread).
385 volatile unsigned int mSurfaceResized; ///< Will be set to resize the surface (set by the event-thread, read & cleared by the update-render thread).
386 volatile unsigned int mForceClear; ///< Will be set to clear forcibly
388 volatile unsigned int mUploadWithoutRendering; ///< Will be set to upload the resource only (with no rendering)
390 volatile unsigned int mFirstFrameAfterResume; ///< Will be set to check the first frame after resume (for log)
393 } // namespace Adaptor
395 } // namespace Internal
399 #endif // DALI_INTERNAL_COMBINED_UPDATE_RENDER_CONTROLLER_H