/*
- * Copyright (c) 2014 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2017 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 "adaptor-impl.h"
// EXTERNAL INCLUDES
-#include <boost/thread/tss.hpp>
#include <dali/public-api/common/dali-common.h>
#include <dali/integration-api/debug.h>
#include <dali/integration-api/core.h>
#include <dali/integration-api/events/touch-event-integ.h>
// INTERNAL INCLUDES
-#include <base/update-render-controller.h>
-#include <base/environment-variables.h>
+#include <base/thread-controller.h>
#include <base/performance-logging/performance-interface-factory.h>
#include <base/lifecycle-observer.h>
+#include <dali/devel-api/text-abstraction/font-client.h>
+
#include <callback-manager.h>
-#include <trigger-event.h>
#include <render-surface.h>
#include <tts-player-impl.h>
-#include <accessibility-manager-impl.h>
-#include <timer-impl.h>
+#include <accessibility-adaptor-impl.h>
#include <events/gesture-manager.h>
#include <events/event-handler.h>
-#include <feedback/feedback-controller.h>
-#include <feedback/feedback-plugin-proxy.h>
#include <gl/gl-proxy-implementation.h>
#include <gl/gl-implementation.h>
#include <gl/egl-sync-implementation.h>
#include <vsync-monitor.h>
#include <object-profiler.h>
#include <base/display-connection.h>
+#include <window-impl.h>
#include <tizen-logging.h>
+#include <image-loading.h>
+
+using Dali::TextAbstraction::FontClient;
namespace Dali
{
namespace
{
-boost::thread_specific_ptr<Adaptor> gThreadLocalAdaptor;
-
-unsigned int GetIntegerEnvironmentVariable( const char* variable, unsigned int defaultValue )
-{
- const char* variableParameter = std::getenv(variable);
-
- // if the parameter exists convert it to an integer, else return the default value
- unsigned int intValue = variableParameter ? atoi(variableParameter) : defaultValue;
- return intValue;
-}
-
-bool GetIntegerEnvironmentVariable( const char* variable, int& intValue )
-{
- const char* variableParameter = std::getenv(variable);
-
- if( !variableParameter )
- {
- return false;
- }
- // if the parameter exists convert it to an integer, else return the default value
- intValue = atoi(variableParameter);
- return true;
-}
-
-bool GetFloatEnvironmentVariable( const char* variable, float& floatValue )
-{
- const char* variableParameter = std::getenv(variable);
-
- if( !variableParameter )
- {
- return false;
- }
- // if the parameter exists convert it to an integer, else return the default value
- floatValue = atof(variableParameter);
- return true;
-}
-
+__thread Adaptor* gThreadLocalAdaptor = NULL; // raw thread specific pointer to allow Adaptor::Get
} // unnamed namespace
-Dali::Adaptor* Adaptor::New( Any nativeWindow, RenderSurface *surface, const DeviceLayout& baseLayout,
- Dali::Configuration::ContextLoss configuration )
+Dali::Adaptor* Adaptor::New( Any nativeWindow, RenderSurface *surface, Dali::Configuration::ContextLoss configuration, EnvironmentOptions* environmentOptions )
{
Dali::Adaptor* adaptor = new Dali::Adaptor;
- Adaptor* impl = new Adaptor( nativeWindow, *adaptor, surface, baseLayout );
+ Adaptor* impl = new Adaptor( nativeWindow, *adaptor, surface, environmentOptions );
adaptor->mImpl = impl;
impl->Initialize(configuration);
return adaptor;
}
-void Adaptor::ParseEnvironmentOptions()
+Dali::Adaptor* Adaptor::New( Dali::Window window, Dali::Configuration::ContextLoss configuration, EnvironmentOptions* environmentOptions )
{
- // get logging options
- unsigned int logFrameRateFrequency = GetIntegerEnvironmentVariable( DALI_ENV_FPS_TRACKING, 0 );
- unsigned int logupdateStatusFrequency = GetIntegerEnvironmentVariable( DALI_ENV_UPDATE_STATUS_INTERVAL, 0 );
- unsigned int logPerformanceStats = GetIntegerEnvironmentVariable( DALI_ENV_LOG_PERFORMANCE_STATS, 0 );
- unsigned int logPerformanceStatsFrequency = GetIntegerEnvironmentVariable( DALI_ENV_LOG_PERFORMANCE_STATS_FREQUENCY, 0 );
- unsigned int performanceTimeStampOutput= GetIntegerEnvironmentVariable( DALI_ENV_PERFORMANCE_TIMESTAMP_OUTPUT, 0 );
- unsigned int networkControl= GetIntegerEnvironmentVariable( DALI_ENV_NETWORK_CONTROL, 0 );
+ Any winId = window.GetNativeHandle();
- unsigned int logPanGesture = GetIntegerEnvironmentVariable( DALI_ENV_LOG_PAN_GESTURE, 0 );
-
- // all threads here (event, update, and render) will send their logs to TIZEN Platform's LogMessage handler.
- Dali::Integration::Log::LogFunction logFunction(Dali::TizenPlatform::LogMessage);
-
- mEnvironmentOptions.SetLogOptions( logFunction, networkControl, logFrameRateFrequency, logupdateStatusFrequency, logPerformanceStats, logPerformanceStatsFrequency, performanceTimeStampOutput, logPanGesture );
-
- int predictionMode;
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_PREDICTION_MODE, predictionMode) )
- {
- mEnvironmentOptions.SetPanGesturePredictionMode(predictionMode);
- }
- int predictionAmount(-1);
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_PREDICTION_AMOUNT, predictionAmount) )
- {
- if( predictionAmount < 0 )
- {
- // do not support times in the past
- predictionAmount = 0;
- }
- mEnvironmentOptions.SetPanGesturePredictionAmount(predictionAmount);
- }
- int minPredictionAmount(-1);
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_MIN_PREDICTION_AMOUNT, minPredictionAmount) )
- {
- if( minPredictionAmount < 0 )
- {
- // do not support times in the past
- minPredictionAmount = 0;
- }
- mEnvironmentOptions.SetPanGestureMinimumPredictionAmount(minPredictionAmount);
- }
- int maxPredictionAmount(-1);
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_MAX_PREDICTION_AMOUNT, maxPredictionAmount) )
- {
- if( minPredictionAmount > -1 && maxPredictionAmount < minPredictionAmount )
- {
- // maximum amount should not be smaller than minimum amount
- maxPredictionAmount = minPredictionAmount;
- }
- mEnvironmentOptions.SetPanGestureMaximumPredictionAmount(maxPredictionAmount);
- }
- int predictionAmountAdjustment(-1);
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_PREDICTION_AMOUNT_ADJUSTMENT, predictionAmountAdjustment) )
- {
- if( predictionAmountAdjustment < 0 )
- {
- // negative amount doesn't make sense
- predictionAmountAdjustment = 0;
- }
- mEnvironmentOptions.SetPanGesturePredictionAmountAdjustment(predictionAmountAdjustment);
- }
- int smoothingMode;
- if( GetIntegerEnvironmentVariable(DALI_ENV_PAN_SMOOTHING_MODE, smoothingMode) )
- {
- mEnvironmentOptions.SetPanGestureSmoothingMode(smoothingMode);
- }
- float smoothingAmount = 1.0f;
- if( GetFloatEnvironmentVariable(DALI_ENV_PAN_SMOOTHING_AMOUNT, smoothingAmount) )
- {
- smoothingAmount = Clamp(smoothingAmount, 0.0f, 1.0f);
- mEnvironmentOptions.SetPanGestureSmoothingAmount(smoothingAmount);
- }
-
- int minimumDistance(-1);
- if ( GetIntegerEnvironmentVariable(DALI_ENV_PAN_MINIMUM_DISTANCE, minimumDistance ))
- {
- mEnvironmentOptions.SetMinimumPanDistance( minimumDistance );
- }
-
- int minimumEvents(-1);
- if ( GetIntegerEnvironmentVariable(DALI_ENV_PAN_MINIMUM_EVENTS, minimumEvents ))
- {
- mEnvironmentOptions.SetMinimumPanEvents( minimumEvents );
- }
-
- int glesCallTime(0);
- if ( GetIntegerEnvironmentVariable(DALI_GLES_CALL_TIME, glesCallTime ))
- {
- mEnvironmentOptions.SetGlesCallTime( glesCallTime );
- }
-
- int windowWidth(0), windowHeight(0);
- if ( GetIntegerEnvironmentVariable( DALI_WINDOW_WIDTH, windowWidth ) && GetIntegerEnvironmentVariable( DALI_WINDOW_HEIGHT, windowHeight ) )
- {
- mEnvironmentOptions.SetWindowWidth( windowWidth );
- mEnvironmentOptions.SetWindowHeight( windowHeight );
- }
-
- mEnvironmentOptions.InstallLogFunction();
+ Window& windowImpl = Dali::GetImplementation(window);
+ Dali::Adaptor* adaptor = New( winId, windowImpl.GetSurface(), configuration, environmentOptions );
+ windowImpl.SetAdaptor(*adaptor);
+ return adaptor;
}
-void Adaptor::Initialize(Dali::Configuration::ContextLoss configuration)
+void Adaptor::Initialize( Dali::Configuration::ContextLoss configuration )
{
- ParseEnvironmentOptions();
+ // all threads here (event, update, and render) will send their logs to TIZEN Platform's LogMessage handler.
+ Dali::Integration::Log::LogFunction logFunction( Dali::TizenPlatform::LogMessage );
+ mEnvironmentOptions->SetLogFunction( logFunction );
+ mEnvironmentOptions->InstallLogFunction(); // install logging for main thread
mPlatformAbstraction = new TizenPlatform::TizenPlatformAbstraction;
ResourcePolicy::DataRetention dataRetentionPolicy = ResourcePolicy::DALI_DISCARDS_ALL_DATA;
if( configuration == Dali::Configuration::APPLICATION_DOES_NOT_HANDLE_CONTEXT_LOSS )
{
- dataRetentionPolicy = ResourcePolicy::DALI_RETAINS_MESH_DATA;
+ dataRetentionPolicy = ResourcePolicy::DALI_DISCARDS_ALL_DATA;
}
// Note, Tizen does not use DALI_RETAINS_ALL_DATA, as it can reload images from
// files automatically.
- if( mEnvironmentOptions.PerformanceServerRequired() )
+ if( mEnvironmentOptions->PerformanceServerRequired() )
{
- mPerformanceInterface = PerformanceInterfaceFactory::CreateInterface( *this, mEnvironmentOptions );
+ mPerformanceInterface = PerformanceInterfaceFactory::CreateInterface( *this, *mEnvironmentOptions );
}
mCallbackManager = CallbackManager::New();
PositionSize size = mSurface->GetPositionSize();
- mGestureManager = new GestureManager(*this, Vector2(size.width, size.height), mCallbackManager, mEnvironmentOptions);
+ mGestureManager = new GestureManager(*this, Vector2(size.width, size.height), mCallbackManager, *mEnvironmentOptions);
- if( mEnvironmentOptions.GetGlesCallTime() > 0 )
+ if( mEnvironmentOptions->GetGlesCallTime() > 0 )
{
- mGLES = new GlProxyImplementation( mEnvironmentOptions );
+ mGLES = new GlProxyImplementation( *mEnvironmentOptions );
}
else
{
mGLES = new GlImplementation();
}
- mEglFactory = new EglFactory();
+ mEglFactory = new EglFactory( mEnvironmentOptions->GetMultiSamplingLevel() );
EglSyncImplementation* eglSyncImpl = mEglFactory->GetSyncImplementation();
mCore = Integration::Core::New( *this, *mPlatformAbstraction, *mGLES, *eglSyncImpl, *mGestureManager, dataRetentionPolicy );
- mObjectProfiler = new ObjectProfiler();
+ const unsigned int timeInterval = mEnvironmentOptions->GetObjectProfilerInterval();
+ if( 0u < timeInterval )
+ {
+ mObjectProfiler = new ObjectProfiler( timeInterval );
+ }
- mNotificationTrigger = new TriggerEvent( MakeCallback( this, &Adaptor::ProcessCoreEvents ) );
+ mNotificationTrigger = mTriggerEventFactory.CreateTriggerEvent( MakeCallback( this, &Adaptor::ProcessCoreEvents ), TriggerEventInterface::KEEP_ALIVE_AFTER_TRIGGER);
mVSyncMonitor = new VSyncMonitor;
- mUpdateRenderController = new UpdateRenderController( *this, mEnvironmentOptions );
-
- mDaliFeedbackPlugin = new FeedbackPluginProxy( FeedbackPluginProxy::DEFAULT_OBJECT_NAME );
+ mThreadController = new ThreadController( *this, *mEnvironmentOptions );
// Should be called after Core creation
- if( mEnvironmentOptions.GetPanGestureLoggingLevel() )
+ if( mEnvironmentOptions->GetPanGestureLoggingLevel() )
{
Integration::EnableProfiling( Dali::Integration::PROFILING_TYPE_PAN_GESTURE );
}
- if( mEnvironmentOptions.GetPanGesturePredictionMode() >= 0 )
+ if( mEnvironmentOptions->GetPanGesturePredictionMode() >= 0 )
{
- Integration::SetPanGesturePredictionMode(mEnvironmentOptions.GetPanGesturePredictionMode());
+ Integration::SetPanGesturePredictionMode(mEnvironmentOptions->GetPanGesturePredictionMode());
}
- if( mEnvironmentOptions.GetPanGesturePredictionAmount() >= 0 )
+ if( mEnvironmentOptions->GetPanGesturePredictionAmount() >= 0 )
{
- Integration::SetPanGesturePredictionAmount(mEnvironmentOptions.GetPanGesturePredictionAmount());
+ Integration::SetPanGesturePredictionAmount(mEnvironmentOptions->GetPanGesturePredictionAmount());
}
- if( mEnvironmentOptions.GetPanGestureMaximumPredictionAmount() >= 0 )
+ if( mEnvironmentOptions->GetPanGestureMaximumPredictionAmount() >= 0 )
{
- Integration::SetPanGestureMaximumPredictionAmount(mEnvironmentOptions.GetPanGestureMaximumPredictionAmount());
+ Integration::SetPanGestureMaximumPredictionAmount(mEnvironmentOptions->GetPanGestureMaximumPredictionAmount());
}
- if( mEnvironmentOptions.GetPanGestureMinimumPredictionAmount() >= 0 )
+ if( mEnvironmentOptions->GetPanGestureMinimumPredictionAmount() >= 0 )
{
- Integration::SetPanGestureMinimumPredictionAmount(mEnvironmentOptions.GetPanGestureMinimumPredictionAmount());
+ Integration::SetPanGestureMinimumPredictionAmount(mEnvironmentOptions->GetPanGestureMinimumPredictionAmount());
}
- if( mEnvironmentOptions.GetPanGesturePredictionAmountAdjustment() >= 0 )
+ if( mEnvironmentOptions->GetPanGesturePredictionAmountAdjustment() >= 0 )
{
- Integration::SetPanGesturePredictionAmountAdjustment(mEnvironmentOptions.GetPanGesturePredictionAmountAdjustment());
+ Integration::SetPanGesturePredictionAmountAdjustment(mEnvironmentOptions->GetPanGesturePredictionAmountAdjustment());
}
- if( mEnvironmentOptions.GetPanGestureSmoothingMode() >= 0 )
+ if( mEnvironmentOptions->GetPanGestureSmoothingMode() >= 0 )
{
- Integration::SetPanGestureSmoothingMode(mEnvironmentOptions.GetPanGestureSmoothingMode());
+ Integration::SetPanGestureSmoothingMode(mEnvironmentOptions->GetPanGestureSmoothingMode());
}
- if( mEnvironmentOptions.GetPanGestureSmoothingAmount() >= 0.0f )
+ if( mEnvironmentOptions->GetPanGestureSmoothingAmount() >= 0.0f )
{
- Integration::SetPanGestureSmoothingAmount(mEnvironmentOptions.GetPanGestureSmoothingAmount());
+ Integration::SetPanGestureSmoothingAmount(mEnvironmentOptions->GetPanGestureSmoothingAmount());
}
- if( mEnvironmentOptions.GetWindowWidth() && mEnvironmentOptions.GetWindowHeight() )
+
+ // Set max texture size
+ if( mEnvironmentOptions->GetMaxTextureSize() > 0 )
{
- SurfaceResized( PositionSize( 0, 0, mEnvironmentOptions.GetWindowWidth(), mEnvironmentOptions.GetWindowHeight() ));
+ Dali::SetMaxTextureSize( mEnvironmentOptions->GetMaxTextureSize() );
}
}
// Ensure stop status
Stop();
- // Release first as we do not want any access to Adaptor as it is being destroyed.
- gThreadLocalAdaptor.release();
+ // set to NULL first as we do not want any access to Adaptor as it is being destroyed.
+ gThreadLocalAdaptor = NULL;
for ( ObserverContainer::iterator iter = mObservers.begin(), endIter = mObservers.end(); iter != endIter; ++iter )
{
(*iter)->OnDestroy();
}
- delete mUpdateRenderController; // this will shutdown render thread, which will call Core::ContextDestroyed before exit
+ delete mThreadController; // this will shutdown render thread, which will call Core::ContextDestroyed before exit
delete mVSyncMonitor;
delete mEventHandler;
delete mObjectProfiler;
delete mCore;
delete mEglFactory;
- // Delete feedback controller before feedback plugin & style monitor dependencies
- delete mFeedbackController;
- delete mDaliFeedbackPlugin;
delete mGLES;
delete mGestureManager;
delete mPlatformAbstraction;
// uninstall it on this thread (main actor thread)
Dali::Integration::Log::UninstallLogFunction();
+
+ // Delete environment options if we own it
+ if( mEnvironmentOptionsOwned )
+ {
+ delete mEnvironmentOptions;
+ }
}
void Adaptor::Start()
mDeferredRotationObserver = NULL;
}
- // NOTE: dpi must be set before starting the render thread
- // use default or command line settings if not run on device
- if( mHDpi == 0 || mVDpi == 0 )
- {
- unsigned int dpiHor, dpiVer;
- dpiHor = dpiVer = 0;
- Dali::DisplayConnection::GetDpi(dpiHor, dpiVer);
+ unsigned int dpiHor, dpiVer;
+ dpiHor = dpiVer = 0;
+ Dali::DisplayConnection::GetDpi(dpiHor, dpiVer);
- // tell core about the value
- mCore->SetDpi(dpiHor, dpiVer);
- }
- else
- {
- mCore->SetDpi(mHDpi, mVDpi);
- }
+ // tell core about the DPI value
+ mCore->SetDpi(dpiHor, dpiVer);
+
+ // set the DPI value for font rendering
+ FontClient fontClient = FontClient::Get();
+ fontClient.SetDpi( dpiHor, dpiVer );
// Tell the core the size of the surface just before we start the render-thread
PositionSize size = mSurface->GetPositionSize();
mCore->SurfaceResized( size.width, size.height );
- // Start the update & render threads
- mUpdateRenderController->Start();
+ // Initialize the thread controller
+ mThreadController->Initialize();
mState = RUNNING;
ProcessCoreEvents(); // Ensure any startup messages are processed.
- if ( !mFeedbackController )
- {
- // Start sound & haptic feedback
- mFeedbackController = new FeedbackController( *mDaliFeedbackPlugin );
- }
-
for ( ObserverContainer::iterator iter = mObservers.begin(), endIter = mObservers.end(); iter != endIter; ++iter )
{
(*iter)->OnStart();
// Reset the event handler when adaptor paused
if( mEventHandler )
{
- mEventHandler->Reset();
+ mEventHandler->Pause();
}
- mUpdateRenderController->Pause();
+ mThreadController->Pause();
mCore->Suspend();
mState = PAUSED;
}
// Only resume the adaptor if we are in the suspended state.
if( PAUSED == mState )
{
- // We put ResumeFrameTime first, as this was originally called at the start of mCore->Resume()
- // If there were events pending, mCore->Resume() will call
- // RenderController->RequestUpdate()
- // UpdateRenderController->RequestUpdate()
- // UpdateRenderSynchronization->RequestUpdate()
- // and we should have reset the frame timers before allowing Core->Update() to be called.
- //@todo Should we call UpdateRenderController->Resume before mCore->Resume()?
-
- mUpdateRenderController->ResumeFrameTime();
- mCore->Resume();
- mUpdateRenderController->Resume();
-
mState = RUNNING;
// Reset the event handler when adaptor resumed
if( mEventHandler )
{
- mEventHandler->Reset();
+ mEventHandler->Resume();
}
// Inform observers that we have resumed.
(*iter)->OnResume();
}
- ProcessCoreEvents(); // Ensure any outstanding messages are processed
+ // Resume core so it processes any requests as well
+ mCore->Resume();
+
+ // Do at end to ensure our first update/render after resumption includes the processed messages as well
+ mThreadController->Resume();
}
}
(*iter)->OnStop();
}
- mUpdateRenderController->Stop();
+ mThreadController->Stop();
mCore->Suspend();
// Delete the TTS player
}
}
+void Adaptor::ContextLost()
+{
+ mCore->GetContextNotifier()->NotifyContextLost(); // Inform stage
+}
+
+void Adaptor::ContextRegained()
+{
+ // Inform core, so that texture resources can be reloaded
+ mCore->RecoverFromContextLoss();
+
+ mCore->GetContextNotifier()->NotifyContextRegained(); // Inform stage
+}
+
void Adaptor::FeedTouchPoint( TouchPoint& point, int timeStamp )
{
mEventHandler->FeedTouchPoint( point, timeStamp );
}
-void Adaptor::FeedWheelEvent( MouseWheelEvent& wheelEvent )
+void Adaptor::FeedWheelEvent( WheelEvent& wheelEvent )
{
mEventHandler->FeedWheelEvent( wheelEvent );
}
mEventHandler->FeedKeyEvent( keyEvent );
}
-bool Adaptor::MoveResize( const PositionSize& positionSize )
-{
- PositionSize old = mSurface->GetPositionSize();
-
- // just resize the surface. The driver should automatically resize the egl Surface (untested)
- // EGL Spec says : EGL window surfaces need to be resized when their corresponding native window
- // is resized. Implementations typically use hooks into the OS and native window
- // system to perform this resizing on demand, transparently to the client.
- mSurface->MoveResize( positionSize );
-
- if(old.width != positionSize.width || old.height != positionSize.height)
- {
- SurfaceSizeChanged(positionSize);
- }
-
- return true;
-}
-
-void Adaptor::SurfaceResized( const PositionSize& positionSize )
+void Adaptor::ReplaceSurface( Any nativeWindow, RenderSurface& surface )
{
- PositionSize old = mSurface->GetPositionSize();
+ PositionSize positionSize = surface.GetPositionSize();
- // Called by an application, when it has resized a window outside of Dali.
- // The EGL driver automatically detects X Window resize calls, and resizes
- // the EGL surface for us.
- mSurface->MoveResize( positionSize );
+ // let the core know the surface size has changed
+ mCore->SurfaceResized( positionSize.width, positionSize.height );
- if(old.width != positionSize.width || old.height != positionSize.height)
- {
- SurfaceSizeChanged(positionSize);
- }
-}
+ mResizedSignal.Emit( mAdaptor );
-void Adaptor::ReplaceSurface( Any nativeWindow, RenderSurface& surface )
-{
mNativeWindow = nativeWindow;
mSurface = &surface;
- SurfaceSizeChanged(mSurface->GetPositionSize());
-
- // flush the event queue to give update and render threads chance
+ // flush the event queue to give the update-render thread chance
// to start processing messages for new camera setup etc as soon as possible
ProcessCoreEvents();
- mCore->GetContextNotifier()->NotifyContextLost(); // Inform stage
-
// this method blocks until the render thread has completed the replace.
- mUpdateRenderController->ReplaceSurface(mSurface);
-
- // Inform core, so that texture resources can be reloaded
- mCore->RecoverFromContextLoss();
-
- mCore->GetContextNotifier()->NotifyContextRegained(); // Inform stage
+ mThreadController->ReplaceSurface(mSurface);
}
RenderSurface& Adaptor::GetSurface() const
// Only add an idle if the Adaptor is actually running
if( RUNNING == mState )
{
- idleAdded = mCallbackManager->AddCallback( callback, CallbackManager::IDLE_PRIORITY );
+ idleAdded = mCallbackManager->AddIdleCallback( callback );
}
return idleAdded;
}
-bool Adaptor::CallFromMainLoop( CallbackBase* callback )
+void Adaptor::RemoveIdle( CallbackBase* callback )
{
- bool callAdded(false);
-
- // Only allow the callback if the Adaptor is actually running
- if ( RUNNING == mState )
- {
- callAdded = mCallbackManager->AddCallback( callback, CallbackManager::DEFAULT_PRIORITY );
- }
-
- return callAdded;
+ mCallbackManager->RemoveIdleCallback( callback );
}
Dali::Adaptor& Adaptor::Get()
{
- DALI_ASSERT_ALWAYS( gThreadLocalAdaptor.get() != NULL && "Adaptor not instantiated" );
+ DALI_ASSERT_ALWAYS( IsAvailable() && "Adaptor not instantiated" );
return gThreadLocalAdaptor->mAdaptor;
}
bool Adaptor::IsAvailable()
{
- return gThreadLocalAdaptor.get() != NULL;
+ return gThreadLocalAdaptor != NULL;
+}
+
+void Adaptor::SceneCreated()
+{
+ mCore->SceneCreated();
}
Dali::Integration::Core& Adaptor::GetCore()
void Adaptor::SetRenderRefreshRate( unsigned int numberOfVSyncsPerRender )
{
- mUpdateRenderController->SetRenderRefreshRate( numberOfVSyncsPerRender );
+ mThreadController->SetRenderRefreshRate( numberOfVSyncsPerRender );
}
void Adaptor::SetUseHardwareVSync( bool useHardware )
mVSyncMonitor->SetUseHardwareVSync( useHardware );
}
-void Adaptor::SetDpi(size_t hDpi, size_t vDpi)
-{
- mHDpi = hDpi;
- mVDpi = vDpi;
-}
-
EglFactory& Adaptor::GetEGLFactory() const
{
DALI_ASSERT_DEBUG( mEglFactory && "EGL Factory not created" );
return *mGLES;
}
-TriggerEventInterface& Adaptor::GetTriggerEventInterface()
+TriggerEventInterface& Adaptor::GetProcessCoreEventsTrigger()
{
return *mNotificationTrigger;
}
return mVSyncMonitor;
}
-KernelTraceInterface& Adaptor::GetKernelTraceInterface()
+TraceInterface& Adaptor::GetKernelTraceInterface()
{
return mKernelTracer;
}
+TraceInterface& Adaptor::GetSystemTraceInterface()
+{
+ return mSystemTracer;
+}
+
PerformanceInterface* Adaptor::GetPerformanceInterface()
{
return mPerformanceInterface;
return mNativeWindow;
}
+void Adaptor::SetUseRemoteSurface(bool useRemoteSurface)
+{
+ mUseRemoteSurface = useRemoteSurface;
+}
+
void Adaptor::AddObserver( LifeCycleObserver& observer )
{
ObserverContainer::iterator match ( find(mObservers.begin(), mObservers.end(), &observer) );
if ( PAUSED == mState ||
RUNNING == mState )
{
- mUpdateRenderController->RequestUpdate();
+ mThreadController->RequestUpdate();
}
}
RequestUpdate();
}
-void Adaptor::SurfaceSizeChanged(const PositionSize& positionSize)
+void Adaptor::SurfaceResizePrepare( Dali::Adaptor::SurfaceSize surfaceSize )
{
// let the core know the surface size has changed
- mCore->SurfaceResized(positionSize.width, positionSize.height);
+ mCore->SurfaceResized( surfaceSize.GetWidth(), surfaceSize.GetHeight() );
mResizedSignal.Emit( mAdaptor );
}
+void Adaptor::SurfaceResizeComplete( Dali::Adaptor::SurfaceSize surfaceSize )
+{
+ // flush the event queue to give the update-render thread chance
+ // to start processing messages for new camera setup etc as soon as possible
+ ProcessCoreEvents();
+
+ // this method blocks until the render thread has completed the resizing.
+ mThreadController->ResizeSurface();
+}
+
+void Adaptor::NotifySceneCreated()
+{
+ GetCore().SceneCreated();
+
+ // Start thread controller after the scene has been created
+ mThreadController->Start();
+
+ // process after surface is created (registering to remote surface provider if required)
+ SurfaceInitialized();
+}
+
void Adaptor::NotifyLanguageChanged()
{
mLanguageChangedSignal.Emit( mAdaptor );
{
if( PAUSED_WHILE_HIDDEN != mState )
{
- if( mUpdateRenderController )
+ if( mThreadController )
{
- mUpdateRenderController->RequestUpdateOnce();
+ mThreadController->RequestUpdateOnce();
}
}
}
+void Adaptor::IndicatorSizeChanged(int height)
+{
+ // let the core know the indicator height is changed
+ mCore->SetTopMargin(height);
+}
+
void Adaptor::ProcessCoreEventsFromIdle()
{
ProcessCoreEvents();
mNotificationOnIdleInstalled = false;
}
-Adaptor::Adaptor(Any nativeWindow, Dali::Adaptor& adaptor, RenderSurface* surface, const DeviceLayout& baseLayout)
+Adaptor::Adaptor(Any nativeWindow, Dali::Adaptor& adaptor, RenderSurface* surface, EnvironmentOptions* environmentOptions)
: mResizedSignal(),
mLanguageChangedSignal(),
- mAdaptor(adaptor),
- mState(READY),
- mCore(NULL),
- mUpdateRenderController(NULL),
- mVSyncMonitor(NULL),
+ mAdaptor( adaptor ),
+ mState( READY ),
+ mCore( NULL ),
+ mThreadController( NULL ),
+ mVSyncMonitor( NULL ),
mGLES( NULL ),
+ mGlSync( NULL ),
mEglFactory( NULL ),
mNativeWindow( nativeWindow ),
mSurface( surface ),
mEventHandler( NULL ),
mCallbackManager( NULL ),
mNotificationOnIdleInstalled( false ),
- mNotificationTrigger(NULL),
- mGestureManager(NULL),
- mHDpi( 0 ),
- mVDpi( 0 ),
- mDaliFeedbackPlugin(NULL),
- mFeedbackController(NULL),
+ mNotificationTrigger( NULL ),
+ mGestureManager( NULL ),
+ mDaliFeedbackPlugin(),
+ mFeedbackController( NULL ),
+ mTtsPlayers(),
mObservers(),
mDragAndDropDetector(),
- mDeferredRotationObserver(NULL),
- mBaseLayout(baseLayout),
- mEnvironmentOptions(),
- mPerformanceInterface(NULL),
- mObjectProfiler(NULL)
-{
- DALI_ASSERT_ALWAYS( gThreadLocalAdaptor.get() == NULL && "Cannot create more than one Adaptor per thread" );
- gThreadLocalAdaptor.reset(this);
+ mDeferredRotationObserver( NULL ),
+ mEnvironmentOptions( environmentOptions ? environmentOptions : new EnvironmentOptions /* Create the options if not provided */),
+ mPerformanceInterface( NULL ),
+ mKernelTracer(),
+ mSystemTracer(),
+ mTriggerEventFactory(),
+ mObjectProfiler( NULL ),
+ mSocketFactory(),
+ mEnvironmentOptionsOwned( environmentOptions ? false : true /* If not provided then we own the object */ ),
+ mUseRemoteSurface( false )
+{
+ DALI_ASSERT_ALWAYS( !IsAvailable() && "Cannot create more than one Adaptor per thread" );
+ gThreadLocalAdaptor = this;
}
// Stereoscopy