/*
- * Copyright (c) 2017 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2019 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include <dali/integration-api/platform-abstraction.h>
// INTERNAL INCLUDES
-#include <dali/integration-api/trigger-event-factory.h>
+#include <dali/integration-api/adaptor-framework/trigger-event-factory.h>
+#include <dali/devel-api/adaptor-framework/thread-settings.h>
+#include <dali/internal/adaptor/common/adaptor-internal-services.h>
#include <dali/internal/adaptor/common/combined-update-render-controller-debug.h>
+#include <dali/internal/graphics/gles/egl-graphics.h>
+#include <dali/internal/graphics/gles/egl-implementation.h>
+#include <dali/internal/graphics/common/graphics-interface.h>
#include <dali/internal/system/common/environment-options.h>
#include <dali/internal/system/common/time-service.h>
-#include <dali/internal/adaptor/common/adaptor-internal-services.h>
namespace Dali
{
namespace
{
+
const unsigned int CREATED_THREAD_COUNT = 1u;
const int CONTINUOUS = -1;
CombinedUpdateRenderController::CombinedUpdateRenderController( AdaptorInternalServices& adaptorInterfaces, const EnvironmentOptions& environmentOptions )
: mFpsTracker( environmentOptions ),
mUpdateStatusLogger( environmentOptions ),
- mRenderHelper( adaptorInterfaces ),
mEventThreadSemaphore(),
mUpdateRenderThreadWaitCondition(),
mAdaptorInterfaces( adaptorInterfaces ),
mEnvironmentOptions( environmentOptions ),
mNotificationTrigger( adaptorInterfaces.GetProcessCoreEventsTrigger() ),
mSleepTrigger( NULL ),
+ mPreRenderCallback( NULL ),
mUpdateRenderThread( NULL ),
mDefaultFrameDelta( 0.0f ),
mDefaultFrameDurationMilliseconds( 0u ),
mPendingRequestUpdate( FALSE ),
mUseElapsedTimeAfterWait( FALSE ),
mNewSurface( NULL ),
+ mDeletedSurface( nullptr ),
mPostRendering( FALSE ),
mSurfaceResized( FALSE ),
- mForceClear( FALSE )
+ mForceClear( FALSE ),
+ mUploadWithoutRendering( FALSE ),
+ mFirstFrameAfterResume( FALSE )
{
LOG_EVENT_TRACE;
SetRenderRefreshRate( environmentOptions.GetRenderRefreshRate() );
// Set the thread-synchronization interface on the render-surface
- RenderSurface* currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
+ Dali::RenderSurfaceInterface* currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
if( currentSurface )
{
currentSurface->SetThreadSynchronization( *this );
Stop();
+ delete mPreRenderCallback;
delete mSleepTrigger;
}
int error = pthread_create( mUpdateRenderThread, NULL, InternalUpdateRenderThreadEntryFunc, this );
DALI_ASSERT_ALWAYS( !error && "Return code from pthread_create() when creating UpdateRenderThread" );
- // The Update/Render thread will now run and initialise EGL etc. and will then wait for Start to be called
+ // The Update/Render thread will now run and initialise the graphics interface etc. and will then wait for Start to be called
// When this function returns, the application initialisation on the event thread should occur
}
sem_wait( &mEventThreadSemaphore );
}
- mRenderHelper.Start();
+ Integration::RenderSurface* currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
+ if( currentSurface )
+ {
+ currentSurface->StartRender();
+ }
mRunning = TRUE;
LOG_EVENT( "Startup Complete, starting Update/Render Thread" );
- RunUpdateRenderThread( CONTINUOUS, false /* No animation progression */ );
+ RunUpdateRenderThread( CONTINUOUS, AnimationProgression::NONE, UpdateMode::NORMAL );
+
+ DALI_LOG_RELEASE_INFO( "CombinedUpdateRenderController::Start\n" );
}
void CombinedUpdateRenderController::Pause()
PauseUpdateRenderThread();
AddPerformanceMarker( PerformanceInterface::PAUSED );
+
+ DALI_LOG_RELEASE_INFO( "CombinedUpdateRenderController::Pause\n" );
}
void CombinedUpdateRenderController::Resume()
{
LOG_EVENT( "Resuming" );
- RunUpdateRenderThread( CONTINUOUS, true /* Animation progression required while we were paused */ );
+ RunUpdateRenderThread( CONTINUOUS, AnimationProgression::USE_ELAPSED_TIME, UpdateMode::NORMAL );
AddPerformanceMarker( PerformanceInterface::RESUME );
mRunning = TRUE;
mForceClear = TRUE;
+ mFirstFrameAfterResume = TRUE;
+
+ DALI_LOG_RELEASE_INFO( "CombinedUpdateRenderController::Resume\n" );
+ }
+ else
+ {
+ DALI_LOG_RELEASE_INFO( "CombinedUpdateRenderController::Resume: Already resumed [%d, %d, %d]\n", mRunning, mUpdateRenderRunCount, mUpdateRenderThreadCanSleep );
}
}
LOG_EVENT_TRACE;
// Stop Rendering and the Update/Render Thread
- mRenderHelper.Stop();
+ Integration::RenderSurface* currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
+ if( currentSurface )
+ {
+ currentSurface->StopRender();
+ }
StopUpdateRenderThread();
}
mRunning = FALSE;
+
+ DALI_LOG_RELEASE_INFO( "CombinedUpdateRenderController::Stop\n" );
}
void CombinedUpdateRenderController::RequestUpdate()
{
LOG_EVENT( "Processing" );
- RunUpdateRenderThread( CONTINUOUS, false /* No animation progression */ );
+ RunUpdateRenderThread( CONTINUOUS, AnimationProgression::NONE, UpdateMode::NORMAL );
}
ConditionalWait::ScopedLock updateLock( mUpdateRenderThreadWaitCondition );
mPendingRequestUpdate = TRUE;
}
-void CombinedUpdateRenderController::RequestUpdateOnce()
+void CombinedUpdateRenderController::RequestUpdateOnce( UpdateMode updateMode )
{
// Increment the update-request count to the maximum
if( mUpdateRequestCount < MAXIMUM_UPDATE_REQUESTS )
LOG_EVENT_TRACE;
// Run Update/Render once
- RunUpdateRenderThread( ONCE, false /* No animation progression */ );
+ RunUpdateRenderThread( ONCE, AnimationProgression::NONE, updateMode );
}
}
-void CombinedUpdateRenderController::ReplaceSurface( RenderSurface* newSurface )
+void CombinedUpdateRenderController::ReplaceSurface( Dali::RenderSurfaceInterface* newSurface )
{
LOG_EVENT_TRACE;
- // Set the ThreadSyncronizationInterface on the new surface
- newSurface->SetThreadSynchronization( *this );
+ if( mUpdateRenderThread )
+ {
+ // Set the ThreadSyncronizationInterface on the new surface
+ newSurface->SetThreadSynchronization( *this );
- LOG_EVENT( "Starting to replace the surface, event-thread blocked" );
+ LOG_EVENT( "Starting to replace the surface, event-thread blocked" );
- // Start replacing the surface.
- {
- ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
- mPostRendering = FALSE; // Clear the post-rendering flag as Update/Render thread will replace the surface now
- mNewSurface = newSurface;
- mUpdateRenderThreadWaitCondition.Notify( lock );
+ // Start replacing the surface.
+ {
+ ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
+ mPostRendering = FALSE; // Clear the post-rendering flag as Update/Render thread will replace the surface now
+ mNewSurface = newSurface;
+ mUpdateRenderThreadWaitCondition.Notify( lock );
+ }
+
+ // Wait until the surface has been replaced
+ sem_wait( &mEventThreadSemaphore );
+
+ LOG_EVENT( "Surface replaced, event-thread continuing" );
}
+}
+
+void CombinedUpdateRenderController::DeleteSurface( Dali::RenderSurfaceInterface* surface )
+{
+ LOG_EVENT_TRACE;
- // Wait until the surface has been replaced
- sem_wait( &mEventThreadSemaphore );
+ if( mUpdateRenderThread )
+ {
+ LOG_EVENT( "Starting to delete the surface, event-thread blocked" );
+
+ // Start replacing the surface.
+ {
+ ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
+ mPostRendering = FALSE; // Clear the post-rendering flag as Update/Render thread will delete the surface now
+ mDeletedSurface = surface;
+ mUpdateRenderThreadWaitCondition.Notify( lock );
+ }
+
+ // Wait until the surface has been deleted
+ sem_wait( &mEventThreadSemaphore );
- LOG_EVENT( "Surface replaced, event-thread continuing" );
+ LOG_EVENT( "Surface deleted, event-thread continuing" );
+ }
}
void CombinedUpdateRenderController::ResizeSurface()
{
LOG_EVENT_TRACE;
- LOG_EVENT( "Starting to resize the surface, event-thread blocked" );
+ LOG_EVENT( "Resize the surface" );
- // Start resizing the surface.
{
ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
mPostRendering = FALSE; // Clear the post-rendering flag as Update/Render thread will resize the surface now
mSurfaceResized = TRUE;
mUpdateRenderThreadWaitCondition.Notify( lock );
}
-
- // Wait until the surface has been resized
- sem_wait( &mEventThreadSemaphore );
-
- LOG_EVENT( "Surface resized, event-thread continuing" );
}
void CombinedUpdateRenderController::SetRenderRefreshRate( unsigned int numberOfFramesPerRender )
LOG_EVENT( "mDefaultFrameDelta(%.6f), mDefaultFrameDurationMilliseconds(%lld), mDefaultFrameDurationNanoseconds(%lld)", mDefaultFrameDelta, mDefaultFrameDurationMilliseconds, mDefaultFrameDurationNanoseconds );
}
+void CombinedUpdateRenderController::SetPreRenderCallback( CallbackBase* callback )
+{
+ LOG_EVENT_TRACE;
+ LOG_EVENT( "Set PreRender Callback" );
+
+ ConditionalWait::ScopedLock updateLock( mUpdateRenderThreadWaitCondition );
+ if( mPreRenderCallback )
+ {
+ delete mPreRenderCallback;
+ }
+ mPreRenderCallback = callback;
+}
+
///////////////////////////////////////////////////////////////////////////////////////////////////
// EVENT THREAD
///////////////////////////////////////////////////////////////////////////////////////////////////
-void CombinedUpdateRenderController::RunUpdateRenderThread( int numberOfCycles, bool useElapsedTime )
+void CombinedUpdateRenderController::RunUpdateRenderThread( int numberOfCycles, AnimationProgression animationProgression, UpdateMode updateMode )
{
ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
mUpdateRenderRunCount = numberOfCycles;
mUpdateRenderThreadCanSleep = FALSE;
- mUseElapsedTimeAfterWait = useElapsedTime;
+ mUseElapsedTimeAfterWait = ( animationProgression == AnimationProgression::USE_ELAPSED_TIME );
+ mUploadWithoutRendering = ( updateMode == UpdateMode::SKIP_RENDER );
LOG_COUNTER_EVENT( "mUpdateRenderRunCount: %d, mUseElapsedTimeAfterWait: %d", mUpdateRenderRunCount, mUseElapsedTimeAfterWait );
mUpdateRenderThreadWaitCondition.Notify( lock );
}
void CombinedUpdateRenderController::UpdateRenderThread()
{
+ SetThreadName("RenderThread\0");
+
// Install a function for logging
mEnvironmentOptions.InstallLogFunction();
+ // Install a function for tracing
+ mEnvironmentOptions.InstallTraceFunction();
+
LOG_UPDATE_RENDER( "THREAD CREATED" );
- mRenderHelper.InitializeEgl();
+ // Initialize EGL & OpenGL
+ Dali::DisplayConnection& displayConnection = mAdaptorInterfaces.GetDisplayConnectionInterface();
+ displayConnection.Initialize();
+
+ RenderSurfaceInterface* currentSurface = nullptr;
+
+ GraphicsInterface& graphics = mAdaptorInterfaces.GetGraphicsInterface();
+ EglGraphics* eglGraphics = static_cast<EglGraphics *>(&graphics);
+
+ // This will only be created once
+ EglInterface* eglInterface = &eglGraphics->GetEglInterface();
+
+ Internal::Adaptor::EglImplementation& eglImpl = static_cast<Internal::Adaptor::EglImplementation&>( *eglInterface );
+
+ // Try to use OpenGL es 3.0
+ // ChooseConfig returns false here when the device only support gles 2.0.
+ // Because eglChooseConfig with gles 3.0 setting fails when the device only support gles 2.0 and Our default setting is gles 3.0.
+ if( !eglImpl.ChooseConfig( true, COLOR_DEPTH_32 ) )
+ {
+ // Retry to use OpenGL es 2.0
+ eglGraphics->SetGlesVersion( 20 );
+ eglImpl.ChooseConfig( true, COLOR_DEPTH_32 );
+ }
+
+ // Check whether surfaceless context is supported
+ bool isSurfacelessContextSupported = eglImpl.IsSurfacelessContextSupported();
+ eglGraphics->SetIsSurfacelessContextSupported( isSurfacelessContextSupported );
+
+ if ( isSurfacelessContextSupported )
+ {
+ // Create a surfaceless OpenGL context for shared resources
+ eglImpl.CreateContext();
+ eglImpl.MakeContextCurrent( EGL_NO_SURFACE, eglImpl.GetContext() );
+ }
+ else
+ {
+ currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
+ if( currentSurface )
+ {
+ currentSurface->InitializeGraphics();
+ currentSurface->MakeContextCurrent();
+ }
+ }
- // tell core it has a context
+ eglGraphics->GetGlesInterface().ContextCreated();
+
+ // Tell core it has a context
mCore.ContextCreated();
NotifyThreadInitialised();
// REPLACE SURFACE
//////////////////////////////
- RenderSurface* newSurface = ShouldSurfaceBeReplaced();
+ Integration::RenderSurface* newSurface = ShouldSurfaceBeReplaced();
if( DALI_UNLIKELY( newSurface ) )
{
LOG_UPDATE_RENDER_TRACE_FMT( "Replacing Surface" );
- mRenderHelper.ReplaceSurface( newSurface );
+
+ // This is designed for replacing pixmap surfaces, but should work for window as well
+ // we need to delete the surface and renderable (pixmap / window)
+ // Then create a new pixmap/window and new surface
+ // If the new surface has a different display connection, then the context will be lost
+
+ mAdaptorInterfaces.GetDisplayConnectionInterface().Initialize();
+ newSurface->InitializeGraphics();
+ newSurface->ReplaceGraphicsSurface();
SurfaceReplaced();
}
- //////////////////////////////
- // RESIZE SURFACE
- //////////////////////////////
-
const bool isRenderingToFbo = renderToFboEnabled && ( ( 0u == frameCount ) || ( 0u != frameCount % renderToFboInterval ) );
++frameCount;
- // The resizing will be applied in the next loop
- bool surfaceResized = ShouldSurfaceBeResized();
- if( DALI_UNLIKELY( surfaceResized ) )
- {
- LOG_UPDATE_RENDER_TRACE_FMT( "Resizing Surface" );
- mRenderHelper.ResizeSurface();
- SurfaceResized();
- }
-
//////////////////////////////
// UPDATE
//////////////////////////////
LOG_UPDATE_RENDER( "Notification Triggered" );
}
+ // Check resize
+ bool shouldSurfaceBeResized = ShouldSurfaceBeResized();
+ if( DALI_UNLIKELY( shouldSurfaceBeResized ) )
+ {
+ if( updateStatus.SurfaceRectChanged() )
+ {
+ LOG_UPDATE_RENDER_TRACE_FMT( "Resizing Surface" );
+ SurfaceResized();
+ }
+ }
+
// Optional logging of update/render status
mUpdateStatusLogger.Log( keepUpdatingStatus );
// RENDER
//////////////////////////////
- mRenderHelper.ConsumeEvents();
- mRenderHelper.PreRender();
+ mAdaptorInterfaces.GetDisplayConnectionInterface().ConsumeEvents();
+
+ if( mPreRenderCallback != NULL )
+ {
+ bool keepCallback = CallbackBase::ExecuteReturn<bool>(*mPreRenderCallback);
+ if( ! keepCallback )
+ {
+ delete mPreRenderCallback;
+ mPreRenderCallback = NULL;
+ }
+ }
+
+ if( eglImpl.IsSurfacelessContextSupported() )
+ {
+ // Make the shared surfaceless context as current before rendering
+ eglImpl.MakeContextCurrent( EGL_NO_SURFACE, eglImpl.GetContext() );
+ }
+
+ if( mFirstFrameAfterResume )
+ {
+ // mFirstFrameAfterResume is set to true when the thread is resumed
+ // Let eglImplementation know the first frame after thread initialized or resumed.
+ eglImpl.SetFirstFrameAfterResume();
+ mFirstFrameAfterResume = FALSE;
+ }
Integration::RenderStatus renderStatus;
AddPerformanceMarker( PerformanceInterface::RENDER_START );
- mCore.Render( renderStatus, mForceClear );
- AddPerformanceMarker( PerformanceInterface::RENDER_END );
+ mCore.Render( renderStatus, mForceClear, mUploadWithoutRendering );
- mForceClear = false;
+ //////////////////////////////
+ // DELETE SURFACE
+ //////////////////////////////
- if( renderStatus.NeedsPostRender() )
+ Integration::RenderSurface* deletedSurface = ShouldSurfaceBeDeleted();
+ if( DALI_UNLIKELY( deletedSurface ) )
{
- mRenderHelper.PostRender( isRenderingToFbo );
+ LOG_UPDATE_RENDER_TRACE_FMT( "Deleting Surface" );
+
+ mCore.SurfaceDeleted( deletedSurface );
+
+ SurfaceDeleted();
}
+ AddPerformanceMarker( PerformanceInterface::RENDER_END );
+
+ mForceClear = false;
+
// Trigger event thread to request Update/Render thread to sleep if update not required
- if( ( Integration::KeepUpdating::NOT_REQUESTED == keepUpdatingStatus ) &&
- ! renderStatus.NeedsUpdate() )
+ if( ( Integration::KeepUpdating::NOT_REQUESTED == keepUpdatingStatus ) && !renderStatus.NeedsUpdate() )
{
mSleepTrigger->Trigger();
updateRequired = false;
// Inform core of context destruction & shutdown EGL
mCore.ContextDestroyed();
- mRenderHelper.ShutdownEgl();
+ currentSurface = mAdaptorInterfaces.GetRenderSurfaceInterface();
+ if( currentSurface )
+ {
+ currentSurface->DestroySurface();
+ currentSurface = nullptr;
+ }
LOG_UPDATE_RENDER( "THREAD DESTROYED" );
( mUpdateRenderThreadCanSleep && ! updateRequired && ! mPendingRequestUpdate ) ) && // Ensure we wait if we're supposed to be sleeping AND do not require another update
! mDestroyUpdateRenderThread && // Ensure we don't wait if the update-render-thread is supposed to be destroyed
! mNewSurface && // Ensure we don't wait if we need to replace the surface
+ ! mDeletedSurface && // Ensure we don't wait if we need to delete the surface
! mSurfaceResized ) // Ensure we don't wait if we need to resize the surface
{
LOG_UPDATE_RENDER( "WAIT: mUpdateRenderRunCount: %d", mUpdateRenderRunCount );
LOG_UPDATE_RENDER( " mUpdateRenderThreadCanSleep: %d, updateRequired: %d, mPendingRequestUpdate: %d", mUpdateRenderThreadCanSleep, updateRequired, mPendingRequestUpdate );
LOG_UPDATE_RENDER( " mDestroyUpdateRenderThread: %d", mDestroyUpdateRenderThread );
LOG_UPDATE_RENDER( " mNewSurface: %d", mNewSurface );
+ LOG_UPDATE_RENDER( " mDeletedSurface: %d", mDeletedSurface );
LOG_UPDATE_RENDER( " mSurfaceResized: %d", mSurfaceResized );
// Reset the time when the thread is waiting, so the sleep-until time for
LOG_COUNTER_UPDATE_RENDER( "mUpdateRenderThreadCanSleep: %d, updateRequired: %d, mPendingRequestUpdate: %d", mUpdateRenderThreadCanSleep, updateRequired, mPendingRequestUpdate );
LOG_COUNTER_UPDATE_RENDER( "mDestroyUpdateRenderThread: %d", mDestroyUpdateRenderThread );
LOG_COUNTER_UPDATE_RENDER( "mNewSurface: %d", mNewSurface );
+ LOG_COUNTER_UPDATE_RENDER( "mDeletedSurface: %d", mDeletedSurface );
LOG_COUNTER_UPDATE_RENDER( "mSurfaceResized: %d", mSurfaceResized );
mUseElapsedTimeAfterWait = FALSE;
return ! mDestroyUpdateRenderThread;
}
-RenderSurface* CombinedUpdateRenderController::ShouldSurfaceBeReplaced()
+Integration::RenderSurface* CombinedUpdateRenderController::ShouldSurfaceBeReplaced()
{
ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
- RenderSurface* newSurface = mNewSurface;
+ Integration::RenderSurface* newSurface = mNewSurface;
mNewSurface = NULL;
return newSurface;
sem_post( &mEventThreadSemaphore );
}
-bool CombinedUpdateRenderController::ShouldSurfaceBeResized()
+Integration::RenderSurface* CombinedUpdateRenderController::ShouldSurfaceBeDeleted()
{
ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
- bool surfaceSized = mSurfaceResized;
- mSurfaceResized = FALSE;
+ Integration::RenderSurface* deletedSurface = mDeletedSurface;
+ mDeletedSurface = NULL;
- return surfaceSized;
+ return deletedSurface;
}
-void CombinedUpdateRenderController::SurfaceResized()
+void CombinedUpdateRenderController::SurfaceDeleted()
{
// Just increment the semaphore
sem_post( &mEventThreadSemaphore );
}
+bool CombinedUpdateRenderController::ShouldSurfaceBeResized()
+{
+ ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
+ return mSurfaceResized;
+}
+
+void CombinedUpdateRenderController::SurfaceResized()
+{
+ ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
+ mSurfaceResized = FALSE;
+}
+
///////////////////////////////////////////////////////////////////////////////////////////////////
// ALL THREADS
///////////////////////////////////////////////////////////////////////////////////////////////////
ConditionalWait::ScopedLock lock( mUpdateRenderThreadWaitCondition );
while( mPostRendering &&
! mNewSurface && // We should NOT wait if we're replacing the surface
+ ! mDeletedSurface && // We should NOT wait if we're deleting the surface
! mSurfaceResized && // We should NOT wait if we're resizing the surface
! mDestroyUpdateRenderThread )
{