// EXTERNAL INCLUDES
#include <sstream>
#include <iomanip>
+#include <dali/public-api/animation/constraint.h>
#include <dali/public-api/animation/constraints.h>
#include <dali/public-api/common/stage.h>
+#include <dali/public-api/object/property-map.h>
#include <dali/public-api/object/type-registry.h>
+#include <dali/devel-api/object/type-registry-helper.h>
#include <dali/public-api/render-tasks/render-task-list.h>
#include <dali/integration-api/debug.h>
// Manager object - re-use render targets if there are multiple GaussianBlurViews created
-
/////////////////////////////////////////////////////////
// IMPLEMENTATION NOTES
return Toolkit::GaussianBlurView::New();
}
-TypeRegistration mType( typeid(Toolkit::GaussianBlurView), typeid(Toolkit::Control), Create );
-
+DALI_TYPE_REGISTRATION_BEGIN( Toolkit::GaussianBlurView, Toolkit::Control, Create )
+DALI_TYPE_REGISTRATION_END()
const unsigned int GAUSSIAN_BLUR_VIEW_DEFAULT_NUM_SAMPLES = 5;
const float GAUSSIAN_BLUR_VIEW_DEFAULT_BLUR_BELL_CURVE_WIDTH = 1.5f;
const Pixel::Format GAUSSIAN_BLUR_VIEW_DEFAULT_RENDER_TARGET_PIXEL_FORMAT = Pixel::RGBA8888;
const float GAUSSIAN_BLUR_VIEW_DEFAULT_BLUR_STRENGTH = 1.0f; // default, fully blurred
-const std::string GAUSSIAN_BLUR_VIEW_STRENGTH_PROPERTY_NAME("GaussianBlurStrengthPropertyName");
+const char* const GAUSSIAN_BLUR_VIEW_STRENGTH_PROPERTY_NAME = "GaussianBlurStrengthPropertyName";
const float GAUSSIAN_BLUR_VIEW_DEFAULT_DOWNSAMPLE_WIDTH_SCALE = 0.5f;
const float GAUSSIAN_BLUR_VIEW_DEFAULT_DOWNSAMPLE_HEIGHT_SCALE = 0.5f;
const float ARBITRARY_FIELD_OF_VIEW = Math::PI / 4.0f;
const char* const GAUSSIAN_BLUR_FRAGMENT_SOURCE =
+ "varying mediump vec2 vTexCoord;\n"
+ "uniform sampler2D sTexture;\n"
+ "uniform lowp vec4 uColor;\n"
"uniform mediump vec2 uSampleOffsets[NUM_SAMPLES];\n"
"uniform mediump float uSampleWeights[NUM_SAMPLES];\n"
"void main()\n"
"{\n"
- " mediump vec4 col;\n"
- " col = texture2D(sTexture, vec2(vTexCoord.x, vTexCoord.y) + uSampleOffsets[0]) * uSampleWeights[0]; \n"
- " for (int i=1; i<NUM_SAMPLES; ++i) \n"
- " { \n"
- " col += texture2D(sTexture, vec2(vTexCoord.x, vTexCoord.y) + uSampleOffsets[i]) * uSampleWeights[i]; \n"
- " } \n"
+ " mediump vec4 col = texture2D(sTexture, vTexCoord + uSampleOffsets[0]) * uSampleWeights[0];\n"
+ " for (int i=1; i<NUM_SAMPLES; ++i)\n"
+ " {\n"
+ " col += texture2D(sTexture, vTexCoord + uSampleOffsets[i]) * uSampleWeights[i];\n"
+ " }\n"
" gl_FragColor = col;\n"
"}\n";
GaussianBlurView::GaussianBlurView()
- : Control( CONTROL_BEHAVIOUR_NONE )
+ : Control( ControlBehaviour( DISABLE_SIZE_NEGOTIATION ) )
, mNumSamples(GAUSSIAN_BLUR_VIEW_DEFAULT_NUM_SAMPLES)
, mBlurBellCurveWidth( 0.001f )
, mPixelFormat(GAUSSIAN_BLUR_VIEW_DEFAULT_RENDER_TARGET_PIXEL_FORMAT)
, mLastSize(Vector2::ZERO)
, mChildrenRoot(Actor::New())
, mBlurStrengthPropertyIndex(Property::INVALID_INDEX)
+ , mActivated( false )
{
SetBlurBellCurveWidth(GAUSSIAN_BLUR_VIEW_DEFAULT_BLUR_BELL_CURVE_WIDTH);
}
GaussianBlurView::GaussianBlurView( const unsigned int numSamples, const float blurBellCurveWidth, const Pixel::Format renderTargetPixelFormat,
const float downsampleWidthScale, const float downsampleHeightScale,
bool blurUserImage)
- : Control( CONTROL_BEHAVIOUR_NONE )
+ : Control( ControlBehaviour( DISABLE_SIZE_NEGOTIATION ) )
, mNumSamples(numSamples)
, mBlurBellCurveWidth( 0.001f )
, mPixelFormat(renderTargetPixelFormat)
, mLastSize(Vector2::ZERO)
, mChildrenRoot(Actor::New())
, mBlurStrengthPropertyIndex(Property::INVALID_INDEX)
+ , mActivated( false )
{
SetBlurBellCurveWidth(blurBellCurveWidth);
}
// Private methods
//
-/**
- * EqualToConstraintFloat
- *
- * f(current, property) = property
- */
-struct EqualToConstraintFloat
-{
- EqualToConstraintFloat(){}
-
- float operator()(const float current, const PropertyInput& property) {return property.GetFloat();}
-};
-
void GaussianBlurView::OnInitialize()
{
// root actor to parent all user added actors, needed to allow us to set that subtree as exclusive for our child render task
//////////////////////////////////////////////////////
// Create shaders
- // horiz
std::ostringstream horizFragmentShaderStringStream;
horizFragmentShaderStringStream << "#define NUM_SAMPLES " << mNumSamples << "\n";
horizFragmentShaderStringStream << GAUSSIAN_BLUR_FRAGMENT_SOURCE;
- mHorizBlurShader = ShaderEffect::New( "", horizFragmentShaderStringStream.str() );
- // vert
- std::ostringstream vertFragmentShaderStringStream;
- vertFragmentShaderStringStream << "#define NUM_SAMPLES " << mNumSamples << "\n";
- vertFragmentShaderStringStream << GAUSSIAN_BLUR_FRAGMENT_SOURCE;
- mVertBlurShader = ShaderEffect::New( "", vertFragmentShaderStringStream.str() );
-
+ Property::Map customShader;
+ customShader[ "fragmentShader" ] = horizFragmentShaderStringStream.str();
+ Property::Map rendererMap;
+ rendererMap.Insert( "rendererType", "image" );
+ rendererMap.Insert( "shader", customShader );
//////////////////////////////////////////////////////
// Create actors
// Create an ImageActor for performing a horizontal blur on the texture
- mImageActorHorizBlur = ImageActor::New();
+ mImageActorHorizBlur = Toolkit::ImageView::New();
mImageActorHorizBlur.SetParentOrigin(ParentOrigin::CENTER);
- mImageActorHorizBlur.ScaleBy( Vector3(1.0f, -1.0f, 1.0f) ); // FIXME
- mImageActorHorizBlur.SetShaderEffect( mHorizBlurShader );
+ mImageActorHorizBlur.SetProperty( Toolkit::ImageView::Property::IMAGE, rendererMap );
// Create an ImageActor for performing a vertical blur on the texture
- mImageActorVertBlur = ImageActor::New();
+ mImageActorVertBlur = Toolkit::ImageView::New();
mImageActorVertBlur.SetParentOrigin(ParentOrigin::CENTER);
- mImageActorVertBlur.ScaleBy( Vector3(1.0f, -1.0f, 1.0f) ); // FIXME
- mImageActorVertBlur.SetShaderEffect( mVertBlurShader );
+ mImageActorVertBlur.SetProperty( Toolkit::ImageView::Property::IMAGE, rendererMap );
// Register a property that the user can control to fade the blur in / out via the GaussianBlurView object
mBlurStrengthPropertyIndex = Self().RegisterProperty(GAUSSIAN_BLUR_VIEW_STRENGTH_PROPERTY_NAME, GAUSSIAN_BLUR_VIEW_DEFAULT_BLUR_STRENGTH);
// Create an ImageActor for compositing the blur and the original child actors render
if(!mBlurUserImage)
{
- mImageActorComposite = ImageActor::New();
+ mImageActorComposite = Toolkit::ImageView::New();
mImageActorComposite.SetParentOrigin(ParentOrigin::CENTER);
- mImageActorComposite.ScaleBy( Vector3(1.0f, -1.0f, 1.0f) ); // FIXME
mImageActorComposite.SetOpacity(GAUSSIAN_BLUR_VIEW_DEFAULT_BLUR_STRENGTH); // ensure alpha is enabled for this object and set default value
- Constraint blurStrengthConstraint = Constraint::New<float>( Actor::COLOR_ALPHA, ParentSource(mBlurStrengthPropertyIndex), EqualToConstraintFloat());
- mImageActorComposite.ApplyConstraint(blurStrengthConstraint);
+ Constraint blurStrengthConstraint = Constraint::New<float>( mImageActorComposite, Actor::Property::COLOR_ALPHA, EqualToConstraint());
+ blurStrengthConstraint.AddSource( ParentSource(mBlurStrengthPropertyIndex) );
+ blurStrengthConstraint.Apply();
// Create an ImageActor for holding final result, i.e. the blurred image. This will get rendered to screen later, via default / user render task
- mTargetActor = ImageActor::New();
+ mTargetActor = Toolkit::ImageView::New();
mTargetActor.SetParentOrigin(ParentOrigin::CENTER);
- mTargetActor.ScaleBy( Vector3(1.0f, -1.0f, 1.0f) ); // FIXME
-
//////////////////////////////////////////////////////
// Create cameras for the renders corresponding to the view size
mRenderFullSizeCamera = CameraActor::New();
+ mRenderFullSizeCamera.SetInvertYAxis( true );
mRenderFullSizeCamera.SetParentOrigin(ParentOrigin::CENTER);
//////////////////////////////////////////////////////
// Create camera for the renders corresponding to the (potentially downsampled) render targets' size
mRenderDownsampledCamera = CameraActor::New();
+ mRenderDownsampledCamera.SetInvertYAxis( true );
mRenderDownsampledCamera.SetParentOrigin(ParentOrigin::CENTER);
}
-/**
- * ZrelativeToYconstraint
- *
- * f(current, property, scale) = Vector3(current.x, current.y, property.y * scale)
- */
-struct ZrelativeToYconstraint
-{
- ZrelativeToYconstraint( float scale )
- : mScale( scale )
- {}
-
- Vector3 operator()(const Vector3& current,
- const PropertyInput& property)
- {
- Vector3 v;
-
- v.x = current.x;
- v.y = current.y;
- v.z = property.GetVector3().y * mScale;
-
- return v;
- }
-
- float mScale;
-};
-
-void GaussianBlurView::OnControlSizeSet(const Vector3& targetSize)
+void GaussianBlurView::OnSizeSet(const Vector3& targetSize)
{
mTargetSize = Vector2(targetSize);
}
- // if we are already on stage, need to update render target sizes now to reflect the new size of this actor
- if(Self().OnStage())
+ // if we have already activated the blur, need to update render target sizes now to reflect the new size of this actor
+ if(mActivated)
{
- AllocateResources();
+ Deactivate();
+ Activate();
}
}
mRenderDownsampledCamera.SetNearClippingPlane(1.0f);
mRenderDownsampledCamera.SetAspectRatio(mDownsampledWidth / mDownsampledHeight);
mRenderDownsampledCamera.SetType(Dali::Camera::FREE_LOOK); // camera orientation based solely on actor
- // Point the camera back into the scene
- mRenderDownsampledCamera.SetRotation(Quaternion(M_PI, Vector3::YAXIS));
mRenderDownsampledCamera.SetPosition(0.0f, 0.0f, ((mDownsampledHeight * 0.5f) / tanf(ARBITRARY_FIELD_OF_VIEW * 0.5f)));
mRenderFullSizeCamera.SetNearClippingPlane(1.0f);
mRenderFullSizeCamera.SetAspectRatio(mTargetSize.width / mTargetSize.height);
mRenderFullSizeCamera.SetType(Dali::Camera::FREE_LOOK); // camera orientation based solely on actor
- // Point the camera back into the scene
- mRenderFullSizeCamera.SetRotation(Quaternion(M_PI, Vector3::YAXIS));
float cameraPosConstraintScale = 0.5f / tanf(ARBITRARY_FIELD_OF_VIEW * 0.5f);
mRenderFullSizeCamera.SetPosition(0.0f, 0.0f, mTargetSize.height * cameraPosConstraintScale);
// create offscreen buffer of new size to render our child actors to
- mRenderTargetForRenderingChildren = FrameBufferImage::New( mTargetSize.width, mTargetSize.height, mPixelFormat, Dali::Image::UNUSED );
+ mRenderTargetForRenderingChildren = FrameBufferImage::New( mTargetSize.width, mTargetSize.height, mPixelFormat );
// Set ImageActor for performing a horizontal blur on the texture
mImageActorHorizBlur.SetImage( mRenderTargetForRenderingChildren );
// Create offscreen buffer for vert blur pass
- mRenderTarget1 = FrameBufferImage::New( mDownsampledWidth, mDownsampledHeight, mPixelFormat, Dali::Image::UNUSED );
+ mRenderTarget1 = FrameBufferImage::New( mDownsampledWidth, mDownsampledHeight, mPixelFormat );
// use the completed blur in the first buffer and composite with the original child actors render
mImageActorComposite.SetImage( mRenderTarget1 );
}
// Create offscreen buffer for horiz blur pass
- mRenderTarget2 = FrameBufferImage::New( mDownsampledWidth, mDownsampledHeight, mPixelFormat, Dali::Image::UNUSED );
+ mRenderTarget2 = FrameBufferImage::New( mDownsampledWidth, mDownsampledHeight, mPixelFormat );
// size needs to match render target
mImageActorHorizBlur.SetSize(mDownsampledWidth, mDownsampledHeight);
mHorizBlurTask.SetInputEnabled( false );
mHorizBlurTask.SetClearEnabled( true );
mHorizBlurTask.SetClearColor( mBackgroundColor );
+ mHorizBlurTask.SetCameraActor(mRenderDownsampledCamera);
+ mHorizBlurTask.SetTargetFrameBuffer( mRenderTarget2 );
if( mRenderOnce && mBlurUserImage )
{
mHorizBlurTask.SetRefreshRate(RenderTask::REFRESH_ONCE);
mVertBlurTask.SetInputEnabled( false );
mVertBlurTask.SetClearEnabled( true );
mVertBlurTask.SetClearColor( mBackgroundColor );
+ mVertBlurTask.SetCameraActor(mRenderDownsampledCamera);
+ if(mUserOutputRenderTarget)
+ {
+ mVertBlurTask.SetTargetFrameBuffer( mUserOutputRenderTarget );
+ }
+ else
+ {
+ mVertBlurTask.SetTargetFrameBuffer( mRenderTarget1 );
+ }
if( mRenderOnce && mBlurUserImage )
{
mVertBlurTask.SetRefreshRate(RenderTask::REFRESH_ONCE);
mCompositeTask.SetCameraActor(mRenderFullSizeCamera);
mCompositeTask.SetTargetFrameBuffer( mRenderTargetForRenderingChildren );
}
-
- mHorizBlurTask.SetCameraActor(mRenderDownsampledCamera);
- mVertBlurTask.SetCameraActor(mRenderDownsampledCamera);
-
- mHorizBlurTask.SetTargetFrameBuffer( mRenderTarget2 );
- if(mUserOutputRenderTarget)
- {
- mVertBlurTask.SetTargetFrameBuffer( mUserOutputRenderTarget );
- }
- else
- {
- mVertBlurTask.SetTargetFrameBuffer( mRenderTarget1 );
- }
}
void GaussianBlurView::RemoveRenderTasks()
taskList.RemoveTask(mCompositeTask);
}
-void GaussianBlurView::OnStageDisconnection()
-{
- // TODO: can't call this here, since SetImage() calls fails similarly to above
- // Need to fix the stage connection so this callback can be used arbitrarily. At that point we can simplify the API by removing the need for Activate() / Deactivate()
- //Deactivate();
-}
-
-void GaussianBlurView::OnControlStageConnection()
-{
- // TODO: can't call this here, since SetImage() calls fail to connect images to stage, since parent chain not fully on stage yet
- // Need to fix the stage connection so this callback can be used arbitrarily. At that point we can simplify the API by removing the need for Activate() / Deactivate()
- //Activate();
-}
-
void GaussianBlurView::Activate()
{
// make sure resources are allocated and start the render tasks processing
AllocateResources();
CreateRenderTasks();
+ mActivated = true;
}
void GaussianBlurView::ActivateOnce()
// stop render tasks processing
// Note: render target resources are automatically freed since we set the Image::Unused flag
RemoveRenderTasks();
+ mRenderTargetForRenderingChildren.Reset();
+ mRenderTarget1.Reset();
+ mRenderTarget2.Reset();
mRenderOnce = false;
+ mActivated = false;
}
void GaussianBlurView::SetBlurBellCurveWidth(float blurBellCurveWidth)
Vector2 yAxis(0.0f, 1.0f);
for (i = 0; i < mNumSamples; ++i )
{
- mHorizBlurShader.SetUniform( GetSampleOffsetsPropertyName( i ), uvOffsets[ i ] * xAxis );
- mHorizBlurShader.SetUniform( GetSampleWeightsPropertyName( i ), weights[ i ] );
+ mImageActorHorizBlur.RegisterProperty( GetSampleOffsetsPropertyName( i ), uvOffsets[ i ] * xAxis );
+ mImageActorHorizBlur.RegisterProperty( GetSampleWeightsPropertyName( i ), weights[ i ] );
- mVertBlurShader.SetUniform( GetSampleOffsetsPropertyName( i ), uvOffsets[ i ] * yAxis );
- mVertBlurShader.SetUniform( GetSampleWeightsPropertyName( i ), weights[ i ] );
+ mImageActorVertBlur.RegisterProperty( GetSampleOffsetsPropertyName( i ), uvOffsets[ i ] * yAxis );
+ mImageActorVertBlur.RegisterProperty( GetSampleWeightsPropertyName( i ), weights[ i ] );
}
delete[] uvOffsets;