} // unnamed namespace
-NativeRenderSurfaceEcoreWl::NativeRenderSurfaceEcoreWl( Dali::PositionSize positionSize, bool isTransparent )
-: mPosition( positionSize ),
+NativeRenderSurfaceEcoreWl::NativeRenderSurfaceEcoreWl( SurfaceSize surfaceSize, Any surface, bool isTransparent )
+: mSurfaceSize( surfaceSize ),
mRenderNotification( NULL ),
mGraphics( NULL ),
mEGL( nullptr ),
{
Dali::Internal::Adaptor::WindowSystem::Initialize();
- CreateNativeRenderable();
- setenv( "EGL_PLATFORM", "tbm", 1 );
+ if( surface.Empty() )
+ {
+ CreateNativeRenderable();
+ }
+ else
+ {
+ // check we have a valid type
+ DALI_ASSERT_ALWAYS( ( surface.GetType() == typeid (tbm_surface_queue_h) ) && "Surface type is invalid" );
+ mTbmQueue = AnyCast< tbm_surface_queue_h >( surface );
+ }
}
NativeRenderSurfaceEcoreWl::~NativeRenderSurfaceEcoreWl()
PositionSize NativeRenderSurfaceEcoreWl::GetPositionSize() const
{
- return mPosition;
+ return PositionSize( 0, 0, static_cast<int>( mSurfaceSize.GetWidth() ), static_cast<int>( mSurfaceSize.GetHeight() ) );
}
void NativeRenderSurfaceEcoreWl::GetDpi( unsigned int& dpiHorizontal, unsigned int& dpiVertical )
void NativeRenderSurfaceEcoreWl::InitializeGraphics()
{
DALI_LOG_TRACE_METHOD( gNativeSurfaceLogFilter );
- unsetenv( "EGL_PLATFORM" );
mGraphics = &mAdaptor->GetGraphicsInterface();
auto eglGraphics = static_cast<Internal::Adaptor::EglGraphics *>(mGraphics);
DALI_LOG_ERROR( "Failed to resize tbm_surface_queue" );
}
- mPosition = positionSize;
+ mSurfaceSize.SetWidth( static_cast<uint16_t>( positionSize.width ) );
+ mSurfaceSize.SetHeight( static_cast<uint16_t>( positionSize.height ) );
}
void NativeRenderSurfaceEcoreWl::StartRender()
bool NativeRenderSurfaceEcoreWl::PreRender( bool resizingSurface, const std::vector<Rect<int>>& damagedRects, Rect<int>& clippingRect )
{
+ MakeContextCurrent();
+
auto eglGraphics = static_cast<Internal::Adaptor::EglGraphics*>(mGraphics);
if (eglGraphics)
{
eglImpl.SwapBuffers( mEGLSurface, damagedRects );
}
- if( mThreadSynchronization )
+ if ( mOwnSurface )
{
- mThreadSynchronization->PostRenderStarted();
- }
+ if( mThreadSynchronization )
+ {
+ mThreadSynchronization->PostRenderStarted();
+ }
- if( tbm_surface_queue_can_acquire( mTbmQueue, 1 ) )
- {
- if( tbm_surface_queue_acquire( mTbmQueue, &mConsumeSurface ) != TBM_SURFACE_QUEUE_ERROR_NONE )
+ if( tbm_surface_queue_can_acquire( mTbmQueue, 1 ) )
{
- DALI_LOG_ERROR( "Failed to acquire a tbm_surface\n" );
- return;
+ if( tbm_surface_queue_acquire( mTbmQueue, &mConsumeSurface ) != TBM_SURFACE_QUEUE_ERROR_NONE )
+ {
+ DALI_LOG_ERROR( "Failed to acquire a tbm_surface\n" );
+ return;
+ }
}
- }
- tbm_surface_internal_ref( mConsumeSurface );
+ if ( mConsumeSurface )
+ {
+ tbm_surface_internal_ref( mConsumeSurface );
+ }
- if( replacingSurface )
- {
- ConditionalWait::ScopedLock lock( mTbmSurfaceCondition );
- mDrawableCompleted = true;
- mTbmSurfaceCondition.Notify( lock );
- }
+ if( replacingSurface )
+ {
+ ConditionalWait::ScopedLock lock( mTbmSurfaceCondition );
+ mDrawableCompleted = true;
+ mTbmSurfaceCondition.Notify( lock );
+ }
- // create damage for client applications which wish to know the update timing
- if( !replacingSurface && mRenderNotification )
- {
- // use notification trigger
- // Tell the event-thread to render the tbm_surface
- mRenderNotification->Trigger();
- }
+ // create damage for client applications which wish to know the update timing
+ if( !replacingSurface && mRenderNotification )
+ {
+ // use notification trigger
+ // Tell the event-thread to render the tbm_surface
+ mRenderNotification->Trigger();
+ }
- if( mThreadSynchronization )
+ if( mThreadSynchronization )
+ {
+ // wait until the event-thread completed to use the tbm_surface
+ mThreadSynchronization->PostRenderWaitForCompletion();
+ }
+
+ // release the consumed surface after post render was completed
+ ReleaseDrawable();
+ }
+ else
{
- // wait until the event-thread completed to use the tbm_surface
- mThreadSynchronization->PostRenderWaitForCompletion();
+ // create damage for client applications which wish to know the update timing
+ if( !replacingSurface && mRenderNotification )
+ {
+ // use notification trigger
+ // Tell the event-thread to render the tbm_surface
+ mRenderNotification->Trigger();
+ }
}
- // release the consumed surface after post render was completed
- ReleaseDrawable();
}
void NativeRenderSurfaceEcoreWl::StopRender()
return mGraphics ? mGraphics->GetStencilBufferRequired() : Integration::StencilBufferAvailable::FALSE;
}
+Any NativeRenderSurfaceEcoreWl::GetNativeHandle()
+{
+ return mTbmQueue;
+}
+
void NativeRenderSurfaceEcoreWl::ReleaseLock()
{
if( mThreadSynchronization )
void NativeRenderSurfaceEcoreWl::CreateNativeRenderable()
{
+ int width = static_cast<int>( mSurfaceSize.GetWidth() );
+ int height = static_cast<int>( mSurfaceSize.GetHeight() );
+
// check we're creating one with a valid size
- DALI_ASSERT_ALWAYS( mPosition.width > 0 && mPosition.height > 0 && "tbm_surface size is invalid" );
+ DALI_ASSERT_ALWAYS( width > 0 && height > 0 && "tbm_surface size is invalid" );
- mTbmQueue = tbm_surface_queue_create( 3, mPosition.width, mPosition.height, mTbmFormat, TBM_BO_DEFAULT );
+ mTbmQueue = tbm_surface_queue_create( 3, width, height, mTbmFormat, TBM_BO_DEFAULT );
if( mTbmQueue )
{