1 #ifndef DALI_INTERNAL_ACTOR_H
2 #define DALI_INTERNAL_ACTOR_H
5 * Copyright (c) 2018 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.
25 #include <dali/public-api/actors/actor.h>
26 #include <dali/devel-api/actors/actor-devel.h>
27 #include <dali/public-api/common/vector-wrapper.h>
28 #include <dali/public-api/common/dali-common.h>
29 #include <dali/public-api/events/gesture.h>
30 #include <dali/public-api/math/viewport.h>
31 #include <dali/public-api/object/ref-object.h>
32 #include <dali/public-api/size-negotiation/relayout-container.h>
33 #include <dali/internal/common/memory-pool-object-allocator.h>
34 #include <dali/internal/event/actors/actor-declarations.h>
35 #include <dali/internal/event/common/object-impl.h>
36 #include <dali/internal/event/common/stage-def.h>
37 #include <dali/internal/event/rendering/renderer-impl.h>
38 #include <dali/internal/update/nodes/node-declarations.h>
39 #include <dali/internal/update/manager/update-manager.h>
53 class ActorGestureData;
59 typedef std::vector< ActorPtr > ActorContainer;
60 typedef ActorContainer::iterator ActorIter;
61 typedef ActorContainer::const_iterator ActorConstIter;
63 typedef std::vector< RendererPtr > RendererContainer;
64 typedef RendererContainer::iterator RendererIter;
66 class ActorDepthTreeNode;
67 typedef Dali::Internal::MemoryPoolObjectAllocator< ActorDepthTreeNode > DepthNodeMemoryPool;
70 * Actor is the primary object which Dali applications interact with.
71 * UI controls can be built by combining multiple actors.
72 * Multi-Touch events are received through signals emitted by the actor tree.
74 * An Actor is a proxy for a Node in the scene graph.
75 * When an Actor is added to the Stage, it creates a node and connects it to the scene graph.
76 * The scene-graph can be updated in a separate thread, so the connection is done using an asynchronous message.
77 * When a tree of Actors is detached from the Stage, a message is sent to destroy the associated nodes.
79 class Actor : public Object
84 * @brief Struct to hold an actor and a dimension
86 struct ActorDimensionPair
91 * @param[in] newActor The actor to assign
92 * @param[in] newDimension The dimension to assign
94 ActorDimensionPair( Actor* newActor, Dimension::Type newDimension )
96 dimension( newDimension )
101 * @brief Equality operator
103 * @param[in] lhs The left hand side argument
104 * @param[in] rhs The right hand side argument
106 bool operator== ( const ActorDimensionPair& rhs )
108 return ( actor == rhs.actor ) && ( dimension == rhs.dimension );
111 Actor* actor; ///< The actor to hold
112 Dimension::Type dimension; ///< The dimension to hold
115 typedef std::vector< ActorDimensionPair > ActorDimensionStack;
120 * Create a new actor.
121 * @return A smart-pointer to the newly allocated Actor.
123 static ActorPtr New();
126 * Helper to create node for derived classes who don't have their own node type
127 * @return pointer to newly created unique node
129 static const SceneGraph::Node* CreateNode();
132 * Retrieve the name of the actor.
135 const std::string& GetName() const;
138 * Set the name of the actor.
139 * @param[in] name The new name.
141 void SetName( const std::string& name );
144 * @copydoc Dali::Actor::GetId
146 uint32_t GetId() const;
151 * Query whether an actor is the root actor, which is owned by the Stage.
152 * @return True if the actor is a root actor.
160 * Query whether the actor is connected to the Stage.
162 bool OnStage() const;
165 * Query whether the actor has any renderers.
166 * @return True if the actor is renderable.
168 bool IsRenderable() const
170 // inlined as this is called a lot in hit testing
171 return mRenderers && !mRenderers->empty();
175 * Query whether the actor is of class Dali::Layer
176 * @return True if the actor is a layer.
180 // inlined as this is called a lot in hit testing
185 * Gets the layer in which the actor is present
186 * @return The layer, which will be uninitialized if the actor is off-stage.
188 Dali::Layer GetLayer();
191 * Adds a child Actor to this Actor.
192 * @pre The child actor is not the same as the parent actor.
193 * @pre The child actor does not already have a parent.
194 * @param [in] child The child.
195 * @post The child will be referenced by its parent.
197 void Add( Actor& child );
200 * Removes a child Actor from this Actor.
201 * @param [in] child The child.
202 * @post The child will be unreferenced.
204 void Remove( Actor& child );
207 * @copydoc Dali::Actor::Unparent
212 * Retrieve the number of children held by the actor.
213 * @return The number of children
215 uint32_t GetChildCount() const;
218 * @copydoc Dali::Actor::GetChildAt
220 ActorPtr GetChildAt( uint32_t index ) const;
223 * Retrieve a reference to Actor's children.
224 * @note Not for public use.
225 * @return A reference to the container of children.
226 * @note The internal container is lazily initialized so ensure you check the child count before using the value returned by this method.
228 ActorContainer& GetChildrenInternal()
234 * @copydoc Dali::Actor::FindChildByName
236 ActorPtr FindChildByName( const std::string& actorName );
239 * @copydoc Dali::Actor::FindChildById
241 ActorPtr FindChildById( const uint32_t id );
244 * Retrieve the parent of an Actor.
245 * @return The parent actor, or NULL if the Actor does not have a parent.
247 Actor* GetParent() const
253 * Sets the size of an actor.
254 * This does not interfere with the actors scale factor.
255 * @param [in] width The new width.
256 * @param [in] height The new height.
258 void SetSize( float width, float height );
261 * Sets the size of an actor.
262 * This does not interfere with the actors scale factor.
263 * @param [in] width The size of the actor along the x-axis.
264 * @param [in] height The size of the actor along the y-axis.
265 * @param [in] depth The size of the actor along the z-axis.
267 void SetSize( float width, float height, float depth );
270 * Sets the size of an actor.
271 * This does not interfere with the actors scale factor.
272 * @param [in] size The new size.
274 void SetSize( const Vector2& size );
277 * Sets the update size for an actor.
279 * @param[in] size The size to set.
281 void SetSizeInternal( const Vector2& size );
284 * Sets the size of an actor.
285 * This does not interfere with the actors scale factor.
286 * @param [in] size The new size.
288 void SetSize( const Vector3& size );
291 * Sets the update size for an actor.
293 * @param[in] size The size to set.
295 void SetSizeInternal( const Vector3& size );
298 * Set the width component of the Actor's size.
299 * @param [in] width The new width component.
301 void SetWidth( float width );
304 * Set the height component of the Actor's size.
305 * @param [in] height The new height component.
307 void SetHeight( float height );
310 * Set the depth component of the Actor's size.
311 * @param [in] depth The new depth component.
313 void SetDepth( float depth );
316 * Retrieve the Actor's size from event side.
317 * This size will be the size set or if animating then the target size.
318 * @return The Actor's size.
320 Vector3 GetTargetSize() const;
323 * Retrieve the Actor's size from update side.
324 * This size will be the size set or animating but will be a frame behind.
325 * @return The Actor's size.
327 const Vector3& GetCurrentSize() const;
330 * Return the natural size of the actor
332 * @return The actor's natural size
334 virtual Vector3 GetNaturalSize() const;
337 * Set the origin of an actor, within its parent's area.
338 * This is expressed in 2D unit coordinates, such that (0.0, 0.0, 0.5) is the top-left corner of the parent,
339 * and (1.0, 1.0, 0.5) is the bottom-right corner.
340 * The default parent-origin is top-left (0.0, 0.0, 0.5).
341 * An actor position is the distance between this origin, and the actors anchor-point.
342 * @param [in] origin The new parent-origin.
344 void SetParentOrigin( const Vector3& origin );
347 * Set the x component of the parent-origin
348 * @param [in] x The new x value.
350 void SetParentOriginX( float x );
353 * Set the y component of the parent-origin
354 * @param [in] y The new y value.
356 void SetParentOriginY( float y );
359 * Set the z component of the parent-origin
360 * @param [in] z The new z value.
362 void SetParentOriginZ( float z );
365 * Retrieve the parent-origin of an actor.
366 * @return The parent-origin.
368 const Vector3& GetCurrentParentOrigin() const;
371 * Set the anchor-point of an actor. This is expressed in 2D unit coordinates, such that
372 * (0.0, 0.0, 0.5) is the top-left corner of the actor, and (1.0, 1.0, 0.5) is the bottom-right corner.
373 * The default anchor point is top-left (0.0, 0.0, 0.5).
374 * An actor position is the distance between its parent-origin, and this anchor-point.
375 * An actor's rotation is centered around its anchor-point.
376 * @param [in] anchorPoint The new anchor-point.
378 void SetAnchorPoint( const Vector3& anchorPoint );
381 * Set the x component of the anchor-point.
382 * @param [in] x The new x value.
384 void SetAnchorPointX( float x );
387 * Set the y component of the anchor-point.
388 * @param [in] y The new y value.
390 void SetAnchorPointY( float y );
393 * Set the z component of the anchor-point.
394 * @param [in] z The new z value.
396 void SetAnchorPointZ( float z );
399 * Retrieve the anchor-point of an actor.
400 * @return The anchor-point.
402 const Vector3& GetCurrentAnchorPoint() const;
405 * Sets the position of the Actor.
406 * The coordinates are relative to the Actor's parent.
407 * The Actor's z position will be set to 0.0f.
408 * @param [in] x The new x position
409 * @param [in] y The new y position
411 void SetPosition( float x, float y );
414 * Sets the position of the Actor.
415 * The coordinates are relative to the Actor's parent.
416 * @param [in] x The new x position
417 * @param [in] y The new y position
418 * @param [in] z The new z position
420 void SetPosition( float x, float y, float z );
423 * Sets the position of the Actor.
424 * The coordinates are relative to the Actor's parent.
425 * @param [in] position The new position.
427 void SetPosition( const Vector3& position );
430 * Set the position of an actor along the X-axis.
431 * @param [in] x The new x position
433 void SetX( float x );
436 * Set the position of an actor along the Y-axis.
437 * @param [in] y The new y position.
439 void SetY( float y );
442 * Set the position of an actor along the Z-axis.
443 * @param [in] z The new z position
445 void SetZ( float z );
448 * Translate an actor relative to its existing position.
449 * @param[in] distance The actor will move by this distance.
451 void TranslateBy( const Vector3& distance );
454 * Retrieve the position of the Actor.
455 * The coordinates are relative to the Actor's parent.
456 * @return the Actor's position.
458 const Vector3& GetCurrentPosition() const;
461 * Retrieve the target position of the Actor.
462 * The coordinates are relative to the Actor's parent.
463 * @return the Actor's position.
465 const Vector3& GetTargetPosition() const;
468 * @copydoc Dali::Actor::GetCurrentWorldPosition()
470 const Vector3& GetCurrentWorldPosition() const;
473 * @copydoc Dali::Actor::SetInheritPosition()
475 void SetInheritPosition( bool inherit );
478 * @copydoc Dali::Actor::IsPositionInherited()
480 bool IsPositionInherited() const;
483 * Sets the orientation of the Actor.
484 * @param [in] angleRadians The new orientation angle in radians.
485 * @param [in] axis The new axis of orientation.
487 void SetOrientation( const Radian& angleRadians, const Vector3& axis );
490 * Sets the orientation of the Actor.
491 * @param [in] orientation The new orientation.
493 void SetOrientation( const Quaternion& orientation );
496 * Rotate an actor around its existing rotation axis.
497 * @param[in] angleRadians The angle to the rotation to combine with the existing rotation.
498 * @param[in] axis The axis of the rotation to combine with the existing rotation.
500 void RotateBy( const Radian& angleRadians, const Vector3& axis );
503 * Apply a relative rotation to an actor.
504 * @param[in] relativeRotation The rotation to combine with the actors existing rotation.
506 void RotateBy( const Quaternion& relativeRotation );
509 * Retreive the Actor's orientation.
510 * @return the orientation.
512 const Quaternion& GetCurrentOrientation() const;
515 * Set whether a child actor inherits it's parent's orientation. Default is to inherit.
516 * Switching this off means that using SetOrientation() sets the actor's world orientation.
517 * @param[in] inherit - true if the actor should inherit orientation, false otherwise.
519 void SetInheritOrientation( bool inherit );
522 * Returns whether the actor inherit's it's parent's orientation.
523 * @return true if the actor inherit's it's parent orientation, false if it uses world orientation.
525 bool IsOrientationInherited() const;
528 * Sets the factor of the parents size used for the child actor.
529 * Note: Only used if ResizePolicy is ResizePolicy::SIZE_RELATIVE_TO_PARENT or ResizePolicy::SIZE_FIXED_OFFSET_FROM_PARENT.
530 * @param[in] factor The vector to multiply the parents size by to get the childs size.
532 void SetSizeModeFactor( const Vector3& factor );
535 * Gets the factor of the parents size used for the child actor.
536 * Note: Only used if ResizePolicy is ResizePolicy::SIZE_RELATIVE_TO_PARENT or ResizePolicy::SIZE_FIXED_OFFSET_FROM_PARENT.
537 * @return The vector being used to multiply the parents size by to get the childs size.
539 const Vector3& GetSizeModeFactor() const;
542 * @copydoc Dali::Actor::GetCurrentWorldOrientation()
544 const Quaternion& GetCurrentWorldOrientation() const;
547 * Sets a scale factor applied to an actor.
548 * @param [in] scale The scale factor applied on all axes.
550 void SetScale( float scale );
553 * Sets a scale factor applied to an actor.
554 * @param [in] scaleX The scale factor applied along the x-axis.
555 * @param [in] scaleY The scale factor applied along the y-axis.
556 * @param [in] scaleZ The scale factor applied along the z-axis.
558 void SetScale( float scaleX, float scaleY, float scaleZ );
561 * Sets a scale factor applied to an actor.
562 * @param [in] scale A vector representing the scale factor for each axis.
564 void SetScale( const Vector3& scale );
567 * Set the x component of the scale factor.
568 * @param [in] x The new x value.
570 void SetScaleX( float x );
573 * Set the y component of the scale factor.
574 * @param [in] y The new y value.
576 void SetScaleY( float y );
579 * Set the z component of the scale factor.
580 * @param [in] z The new z value.
582 void SetScaleZ( float z );
585 * Apply a relative scale to an actor.
586 * @param[in] relativeScale The scale to combine with the actors existing scale.
588 void ScaleBy( const Vector3& relativeScale );
591 * Retrieve the scale factor applied to an actor.
592 * @return A vector representing the scale factor for each axis.
594 const Vector3& GetCurrentScale() const;
597 * @copydoc Dali::Actor::GetCurrentWorldScale()
599 const Vector3& GetCurrentWorldScale() const;
602 * @copydoc Dali::Actor::SetInheritScale()
604 void SetInheritScale( bool inherit );
607 * @copydoc Dali::Actor::IsScaleInherited()
609 bool IsScaleInherited() const;
612 * @copydoc Dali::Actor::GetCurrentWorldMatrix()
614 Matrix GetCurrentWorldMatrix() const;
619 * Sets the visibility flag of an actor.
620 * @param[in] visible The new visibility flag.
622 void SetVisible( bool visible );
625 * Retrieve the visibility flag of an actor.
626 * @return The visibility flag.
628 bool IsVisible() const;
631 * Sets the opacity of an actor.
632 * @param [in] opacity The new opacity.
634 void SetOpacity( float opacity );
637 * Retrieve the actor's opacity.
638 * @return The actor's opacity.
640 float GetCurrentOpacity() const;
643 * Retrieve the actor's clipping mode.
644 * @return The actor's clipping mode (cached)
646 ClippingMode::Type GetClippingMode() const;
649 * Sets whether an actor should emit touch or hover signals; see SignalTouch() and SignalHover().
650 * An actor is sensitive by default, which means that as soon as an application connects to the SignalTouch(),
651 * the touch event signal will be emitted, and as soon as an application connects to the SignalHover(), the
652 * hover event signal will be emitted.
654 * If the application wishes to temporarily disable the touch or hover event signal emission, then they can do so by calling:
656 * actor.SetSensitive(false);
659 * Then, to re-enable the touch or hover event signal emission, the application should call:
661 * actor.SetSensitive(true);
664 * @see SignalTouch() and SignalHover().
665 * @note If an actor's sensitivity is set to false, then it's children will not emit a touch or hover event signal either.
666 * @param[in] sensitive true to enable emission of the touch or hover event signals, false otherwise.
668 void SetSensitive( bool sensitive )
670 mSensitive = sensitive;
674 * Query whether an actor emits touch or hover event signals.
675 * @see SetSensitive(bool)
676 * @return true, if emission of touch or hover event signals is enabled, false otherwise.
678 bool IsSensitive() const
684 * @copydoc Dali::Actor::SetDrawMode
686 void SetDrawMode( DrawMode::Type drawMode );
689 * @copydoc Dali::Actor::GetDrawMode
691 DrawMode::Type GetDrawMode() const;
694 * @copydoc Dali::Actor::IsOverlay
696 bool IsOverlay() const;
699 * Sets the actor's color. The final color of actor depends on its color mode.
700 * This final color is applied to the drawable elements of an actor.
701 * @param [in] color The new color.
703 void SetColor( const Vector4& color );
706 * Set the red component of the color.
707 * @param [in] red The new red component.
709 void SetColorRed( float red );
712 * Set the green component of the color.
713 * @param [in] green The new green component.
715 void SetColorGreen( float green );
718 * Set the blue component of the scale factor.
719 * @param [in] blue The new blue value.
721 void SetColorBlue( float blue );
724 * Retrieve the actor's color.
727 const Vector4& GetCurrentColor() const;
730 * Sets the actor's color mode.
731 * Color mode specifies whether Actor uses its own color or inherits its parent color
732 * @param [in] colorMode to use.
734 void SetColorMode( ColorMode colorMode );
737 * Returns the actor's color mode.
738 * @return currently used colorMode.
740 ColorMode GetColorMode() const;
743 * @copydoc Dali::Actor::GetCurrentWorldColor()
745 const Vector4& GetCurrentWorldColor() const;
748 * @copydoc Dali::Actor::GetHierarchyDepth()
750 inline int32_t GetHierarchyDepth() const
761 * Get the actor's sorting depth
763 * @return The depth used for hit-testing and renderer sorting
765 uint32_t GetSortingDepth();
769 // Size negotiation virtual functions
772 * @brief Called after the size negotiation has been finished for this control.
774 * The control is expected to assign this given size to itself/its children.
776 * Should be overridden by derived classes if they need to layout
777 * actors differently after certain operations like add or remove
778 * actors, resize or after changing specific properties.
780 * Note! As this function is called from inside the size negotiation algorithm, you cannot
781 * call RequestRelayout (the call would just be ignored)
783 * @param[in] size The allocated size.
784 * @param[in,out] container The control should add actors to this container that it is not able
785 * to allocate a size for.
787 virtual void OnRelayout( const Vector2& size, RelayoutContainer& container )
792 * @brief Notification for deriving classes when the resize policy is set
794 * @param[in] policy The policy being set
795 * @param[in] dimension The dimension the policy is being set for
797 virtual void OnSetResizePolicy( ResizePolicy::Type policy, Dimension::Type dimension ) {}
800 * @brief Virtual method to notify deriving classes that relayout dependencies have been
801 * met and the size for this object is about to be calculated for the given dimension
803 * @param dimension The dimension that is about to be calculated
805 virtual void OnCalculateRelayoutSize( Dimension::Type dimension );
808 * @brief Virtual method to notify deriving classes that the size for a dimension
809 * has just been negotiated
811 * @param[in] size The new size for the given dimension
812 * @param[in] dimension The dimension that was just negotiated
814 virtual void OnLayoutNegotiated( float size, Dimension::Type dimension );
817 * @brief Determine if this actor is dependent on it's children for relayout
819 * @param dimension The dimension(s) to check for
820 * @return Return if the actor is dependent on it's children
822 virtual bool RelayoutDependentOnChildren( Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
825 * @brief Determine if this actor is dependent on it's children for relayout.
827 * Called from deriving classes
829 * @param dimension The dimension(s) to check for
830 * @return Return if the actor is dependent on it's children
832 virtual bool RelayoutDependentOnChildrenBase( Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
835 * @brief Calculate the size for a child
837 * @param[in] child The child actor to calculate the size for
838 * @param[in] dimension The dimension to calculate the size for. E.g. width or height.
839 * @return Return the calculated size for the given dimension
841 virtual float CalculateChildSize( const Dali::Actor& child, Dimension::Type dimension );
844 * @brief This method is called during size negotiation when a height is required for a given width.
846 * Derived classes should override this if they wish to customize the height returned.
848 * @param width to use.
849 * @return the height based on the width.
851 virtual float GetHeightForWidth( float width );
854 * @brief This method is called during size negotiation when a width is required for a given height.
856 * Derived classes should override this if they wish to customize the width returned.
858 * @param height to use.
859 * @return the width based on the width.
861 virtual float GetWidthForHeight( float height );
868 * @brief Called by the RelayoutController to negotiate the size of an actor.
870 * The size allocated by the the algorithm is passed in which the
871 * actor must adhere to. A container is passed in as well which
872 * the actor should populate with actors it has not / or does not
873 * need to handle in its size negotiation.
875 * @param[in] size The allocated size.
876 * @param[in,out] container The container that holds actors that are fed back into the
877 * RelayoutController algorithm.
879 void NegotiateSize( const Vector2& size, RelayoutContainer& container );
882 * @brief Set whether size negotiation should use the assigned size of the actor
883 * during relayout for the given dimension(s)
885 * @param[in] use Whether the assigned size of the actor should be used
886 * @param[in] dimension The dimension(s) to set. Can be a bitfield of multiple dimensions
888 void SetUseAssignedSize( bool use, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
891 * @brief Returns whether size negotiation should use the assigned size of the actor
892 * during relayout for a single dimension
894 * @param[in] dimension The dimension to get
895 * @return Return whether the assigned size of the actor should be used. If more than one dimension is requested, just return the first one found
897 bool GetUseAssignedSize( Dimension::Type dimension ) const;
900 * @copydoc Dali::Actor::SetResizePolicy()
902 void SetResizePolicy( ResizePolicy::Type policy, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
905 * @copydoc Dali::Actor::GetResizePolicy()
907 ResizePolicy::Type GetResizePolicy( Dimension::Type dimension ) const;
910 * @copydoc Dali::Actor::SetSizeScalePolicy()
912 void SetSizeScalePolicy( SizeScalePolicy::Type policy );
915 * @copydoc Dali::Actor::GetSizeScalePolicy()
917 SizeScalePolicy::Type GetSizeScalePolicy() const;
920 * @copydoc Dali::Actor::SetDimensionDependency()
922 void SetDimensionDependency( Dimension::Type dimension, Dimension::Type dependency );
925 * @copydoc Dali::Actor::GetDimensionDependency()
927 Dimension::Type GetDimensionDependency( Dimension::Type dimension ) const;
930 * @brief Set the size negotiation relayout enabled on this actor
932 * @param[in] relayoutEnabled Boolean to enable or disable relayout
934 void SetRelayoutEnabled( bool relayoutEnabled );
937 * @brief Return if relayout is enabled
939 * @return Return if relayout is enabled or not for this actor
941 bool IsRelayoutEnabled() const;
944 * @brief Mark an actor as having it's layout dirty
946 * @param dirty Whether to mark actor as dirty or not
947 * @param dimension The dimension(s) to mark as dirty
949 void SetLayoutDirty( bool dirty, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
952 * @brief Return if any of an actor's dimensions are marked as dirty
954 * @param dimension The dimension(s) to check
955 * @return Return if any of the requested dimensions are dirty
957 bool IsLayoutDirty( Dimension::Type dimension = Dimension::ALL_DIMENSIONS ) const;
960 * @brief Returns if relayout is enabled and the actor is not dirty
962 * @return Return if it is possible to relayout the actor
964 bool RelayoutPossible( Dimension::Type dimension = Dimension::ALL_DIMENSIONS ) const;
967 * @brief Returns if relayout is enabled and the actor is dirty
969 * @return Return if it is required to relayout the actor
971 bool RelayoutRequired( Dimension::Type dimension = Dimension::ALL_DIMENSIONS ) const;
974 * @brief Request a relayout, which means performing a size negotiation on this actor, its parent and children (and potentially whole scene)
976 * This method is automatically called from OnStageConnection(), OnChildAdd(),
977 * OnChildRemove(), SetSizePolicy(), SetMinimumSize() and SetMaximumSize().
979 * This method can also be called from a derived class every time it needs a different size.
980 * At the end of event processing, the relayout process starts and
981 * all controls which requested Relayout will have their sizes (re)negotiated.
983 * @note RelayoutRequest() can be called multiple times; the size negotiation is still
984 * only performed once, i.e. there is no need to keep track of this in the calling side.
986 void RelayoutRequest( Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
989 * @brief Determine if this actor is dependent on it's parent for relayout
991 * @param dimension The dimension(s) to check for
992 * @return Return if the actor is dependent on it's parent
994 bool RelayoutDependentOnParent( Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
997 * @brief Determine if this actor has another dimension depedent on the specified one
999 * @param dimension The dimension to check for
1000 * @param dependentDimension The dimension to check for dependency with
1001 * @return Return if the actor is dependent on this dimension
1003 bool RelayoutDependentOnDimension( Dimension::Type dimension, Dimension::Type dependentDimension );
1006 * Negotiate sizes for a control in all dimensions
1008 * @param[in] allocatedSize The size constraint that the control must respect
1010 void NegotiateDimensions( const Vector2& allocatedSize );
1013 * Negotiate size for a specific dimension
1015 * The algorithm adopts a recursive dependency checking approach. Meaning, that wherever dependencies
1016 * are found, e.g. an actor dependent on its parent, the dependency will be calculated first with NegotiatedDimension and
1017 * LayoutDimensionNegotiated flags being filled in on the actor.
1019 * @post All actors that exist in the dependency chain connected to the given actor will have had their NegotiatedDimensions
1020 * calculated and set as well as the LayoutDimensionNegotiated flags.
1022 * @param[in] dimension The dimension to negotiate on
1023 * @param[in] allocatedSize The size constraint that the actor must respect
1025 void NegotiateDimension( Dimension::Type dimension, const Vector2& allocatedSize, ActorDimensionStack& recursionStack );
1028 * @brief Calculate the size of a dimension
1030 * @param[in] dimension The dimension to calculate the size for
1031 * @param[in] maximumSize The upper bounds on the size
1032 * @return Return the calculated size for the dimension
1034 float CalculateSize( Dimension::Type dimension, const Vector2& maximumSize );
1037 * @brief Clamp a dimension given the relayout constraints on this actor
1039 * @param[in] size The size to constrain
1040 * @param[in] dimension The dimension the size exists in
1041 * @return Return the clamped size
1043 float ClampDimension( float size, Dimension::Type dimension );
1046 * Negotiate a dimension based on the size of the parent
1048 * @param[in] dimension The dimension to negotiate on
1049 * @return Return the negotiated size
1051 float NegotiateFromParent( Dimension::Type dimension );
1054 * Negotiate a dimension based on the size of the parent. Fitting inside.
1056 * @param[in] dimension The dimension to negotiate on
1057 * @return Return the negotiated size
1059 float NegotiateFromParentFit( Dimension::Type dimension );
1062 * Negotiate a dimension based on the size of the parent. Flooding the whole space.
1064 * @param[in] dimension The dimension to negotiate on
1065 * @return Return the negotiated size
1067 float NegotiateFromParentFlood( Dimension::Type dimension );
1070 * @brief Negotiate a dimension based on the size of the children
1072 * @param[in] dimension The dimension to negotiate on
1073 * @return Return the negotiated size
1075 float NegotiateFromChildren( Dimension::Type dimension );
1078 * Set the negotiated dimension value for the given dimension(s)
1080 * @param negotiatedDimension The value to set
1081 * @param dimension The dimension(s) to set the value for
1083 void SetNegotiatedDimension( float negotiatedDimension, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
1086 * Return the value of negotiated dimension for the given dimension
1088 * @param dimension The dimension to retrieve
1089 * @return Return the value of the negotiated dimension
1091 float GetNegotiatedDimension( Dimension::Type dimension ) const;
1094 * @brief Set the padding for a dimension
1096 * @param[in] padding Padding for the dimension. X = start (e.g. left, bottom), y = end (e.g. right, top)
1097 * @param[in] dimension The dimension to set
1099 void SetPadding( const Vector2& padding, Dimension::Type dimension );
1102 * Return the value of padding for the given dimension
1104 * @param dimension The dimension to retrieve
1105 * @return Return the value of padding for the dimension
1107 Vector2 GetPadding( Dimension::Type dimension ) const;
1110 * Return the actor size for a given dimension
1112 * @param[in] dimension The dimension to retrieve the size for
1113 * @return Return the size for the given dimension
1115 float GetSize( Dimension::Type dimension ) const;
1118 * Return the natural size of the actor for a given dimension
1120 * @param[in] dimension The dimension to retrieve the size for
1121 * @return Return the natural size for the given dimension
1123 float GetNaturalSize( Dimension::Type dimension ) const;
1126 * @brief Return the amount of size allocated for relayout
1128 * May include padding
1130 * @param[in] dimension The dimension to retrieve
1131 * @return Return the size
1133 float GetRelayoutSize( Dimension::Type dimension ) const;
1136 * @brief If the size has been negotiated return that else return normal size
1138 * @param[in] dimension The dimension to retrieve
1139 * @return Return the size
1141 float GetLatestSize( Dimension::Type dimension ) const;
1144 * Apply the negotiated size to the actor
1146 * @param[in] container The container to fill with actors that require further relayout
1148 void SetNegotiatedSize( RelayoutContainer& container );
1151 * @brief Flag the actor as having it's layout dimension negotiated.
1153 * @param[in] negotiated The status of the flag to set.
1154 * @param[in] dimension The dimension to set the flag for
1156 void SetLayoutNegotiated( bool negotiated, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
1159 * @brief Test whether the layout dimension for this actor has been negotiated or not.
1161 * @param[in] dimension The dimension to determine the value of the flag for
1162 * @return Return if the layout dimension is negotiated or not.
1164 bool IsLayoutNegotiated( Dimension::Type dimension = Dimension::ALL_DIMENSIONS ) const;
1167 * @brief provides the Actor implementation of GetHeightForWidth
1168 * @param width to use.
1169 * @return the height based on the width.
1171 float GetHeightForWidthBase( float width );
1174 * @brief provides the Actor implementation of GetWidthForHeight
1175 * @param height to use.
1176 * @return the width based on the height.
1178 float GetWidthForHeightBase( float height );
1181 * @brief Calculate the size for a child
1183 * @param[in] child The child actor to calculate the size for
1184 * @param[in] dimension The dimension to calculate the size for. E.g. width or height.
1185 * @return Return the calculated size for the given dimension
1187 float CalculateChildSizeBase( const Dali::Actor& child, Dimension::Type dimension );
1190 * @brief Set the preferred size for size negotiation
1192 * @param[in] size The preferred size to set
1194 void SetPreferredSize( const Vector2& size );
1197 * @brief Return the preferred size used for size negotiation
1199 * @return Return the preferred size
1201 Vector2 GetPreferredSize() const;
1204 * @copydoc Dali::Actor::SetMinimumSize
1206 void SetMinimumSize( float size, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
1209 * @copydoc Dali::Actor::GetMinimumSize
1211 float GetMinimumSize( Dimension::Type dimension ) const;
1214 * @copydoc Dali::Actor::SetMaximumSize
1216 void SetMaximumSize( float size, Dimension::Type dimension = Dimension::ALL_DIMENSIONS );
1219 * @copydoc Dali::Actor::GetMaximumSize
1221 float GetMaximumSize( Dimension::Type dimension ) const;
1224 * @brief Sets the update size hint of an actor for partial update.
1225 * @param [in] updateSizeHint The new updateSizeHint.
1227 void SetUpdateSizeHint( const Vector2& updateSizeHint );
1230 * @brief Return the update size hint of actor
1231 * @return Return the update size hint
1233 const Vector2 GetUpdateSizeHint() const;
1236 * @copydoc Dali::Actor::AddRenderer()
1238 uint32_t AddRenderer( Renderer& renderer );
1241 * @copydoc Dali::Actor::GetRendererCount()
1243 uint32_t GetRendererCount() const;
1246 * @copydoc Dali::Actor::GetRendererAt()
1248 RendererPtr GetRendererAt( uint32_t index );
1251 * @copydoc Dali::Actor::RemoveRenderer()
1253 void RemoveRenderer( Renderer& renderer );
1256 * @copydoc Dali::Actor::RemoveRenderer()
1258 void RemoveRenderer( uint32_t index );
1263 * Converts screen coordinates into the actor's coordinate system.
1264 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1265 * @param[out] localX On return, the X-coordinate relative to the actor.
1266 * @param[out] localY On return, the Y-coordinate relative to the actor.
1267 * @param[in] screenX The screen X-coordinate.
1268 * @param[in] screenY The screen Y-coordinate.
1269 * @return True if the conversion succeeded.
1271 bool ScreenToLocal( float& localX, float& localY, float screenX, float screenY ) const;
1274 * Converts screen coordinates into the actor's coordinate system.
1275 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1276 * @param[in] renderTask The render-task used to display the actor.
1277 * @param[out] localX On return, the X-coordinate relative to the actor.
1278 * @param[out] localY On return, the Y-coordinate relative to the actor.
1279 * @param[in] screenX The screen X-coordinate.
1280 * @param[in] screenY The screen Y-coordinate.
1281 * @return True if the conversion succeeded.
1283 bool ScreenToLocal( const RenderTask& renderTask, float& localX, float& localY, float screenX, float screenY ) const;
1286 * Converts from the actor's coordinate system to screen coordinates.
1287 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1288 * @param[in] viewMatrix The view-matrix
1289 * @param[in] projectionMatrix The projection-matrix
1290 * @param[in] viewport The view-port
1291 * @param[out] localX On return, the X-coordinate relative to the actor.
1292 * @param[out] localY On return, the Y-coordinate relative to the actor.
1293 * @param[in] screenX The screen X-coordinate.
1294 * @param[in] screenY The screen Y-coordinate.
1295 * @return True if the conversion succeeded.
1297 bool ScreenToLocal( const Matrix& viewMatrix,
1298 const Matrix& projectionMatrix,
1299 const Viewport& viewport,
1303 float screenY ) const;
1306 * Performs a ray-sphere test with the given pick-ray and the actor's bounding sphere.
1307 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1308 * @param[in] rayOrigin The ray origin in the world's reference system.
1309 * @param[in] rayDir The ray director vector in the world's reference system.
1310 * @return True if the ray intersects the actor's bounding sphere.
1312 bool RaySphereTest( const Vector4& rayOrigin, const Vector4& rayDir ) const;
1315 * Performs a ray-actor test with the given pick-ray and the actor's geometry.
1316 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1317 * @param[in] rayOrigin The ray origin in the world's reference system.
1318 * @param[in] rayDir The ray director vector in the world's reference system.
1319 * @param[out] hitPointLocal The hit point in the Actor's local reference system.
1320 * @param[out] distance The distance from the hit point to the camera.
1321 * @return True if the ray intersects the actor's geometry.
1323 bool RayActorTest( const Vector4& rayOrigin,
1324 const Vector4& rayDir,
1325 Vector2& hitPointLocal,
1326 float& distance ) const;
1329 * Sets whether the actor should receive a notification when touch or hover motion events leave
1330 * the boundary of the actor.
1332 * @note By default, this is set to false as most actors do not require this.
1333 * @note Need to connect to the SignalTouch or SignalHover to actually receive this event.
1335 * @param[in] required Should be set to true if a Leave event is required
1337 void SetLeaveRequired( bool required );
1340 * This returns whether the actor requires touch or hover events whenever touch or hover motion events leave
1341 * the boundary of the actor.
1342 * @return true if a Leave event is required, false otherwise.
1344 bool GetLeaveRequired() const;
1347 * @copydoc Dali::Actor::SetKeyboardFocusable()
1349 void SetKeyboardFocusable( bool focusable );
1352 * @copydoc Dali::Actor::IsKeyboardFocusable()
1354 bool IsKeyboardFocusable() const;
1357 * Query whether the application or derived actor type requires touch events.
1358 * @return True if touch events are required.
1360 bool GetTouchRequired() const;
1363 * Query whether the application or derived actor type requires hover events.
1364 * @return True if hover events are required.
1366 bool GetHoverRequired() const;
1369 * Query whether the application or derived actor type requires wheel events.
1370 * @return True if wheel events are required.
1372 bool GetWheelEventRequired() const;
1375 * Query whether the actor is actually hittable. This method checks whether the actor is
1376 * sensitive, has the visibility flag set to true and is not fully transparent.
1377 * @return true, if it can be hit, false otherwise.
1379 bool IsHittable() const;
1384 * Retrieve the gesture data associated with this actor. The first call to this method will
1385 * allocate space for the ActorGestureData so this should only be called if an actor really does
1387 * @return Reference to the ActorGestureData for this actor.
1388 * @note Once the gesture-data is created for an actor it is likely that gestures are required
1389 * throughout the actor's lifetime so it will only be deleted when the actor is destroyed.
1391 ActorGestureData& GetGestureData();
1394 * Queries whether the actor requires the gesture type.
1395 * @param[in] type The gesture type.
1397 bool IsGestureRequred( Gesture::Type type ) const;
1402 * Used by the EventProcessor to emit touch event signals.
1403 * @param[in] event The touch event (Old API).
1404 * @param[in] touch The touch data.
1405 * @return True if the event was consumed.
1407 bool EmitTouchEventSignal( const TouchEvent& event, const Dali::TouchData& touch );
1410 * Used by the EventProcessor to emit hover event signals.
1411 * @param[in] event The hover event.
1412 * @return True if the event was consumed.
1414 bool EmitHoverEventSignal( const HoverEvent& event );
1417 * Used by the EventProcessor to emit wheel event signals.
1418 * @param[in] event The wheel event.
1419 * @return True if the event was consumed.
1421 bool EmitWheelEventSignal( const WheelEvent& event );
1424 * @brief Emits the visibility change signal for this actor and all its children.
1425 * @param[in] visible Whether the actor has become visible or not.
1426 * @param[in] type Whether the actor's visible property has changed or a parent's.
1428 void EmitVisibilityChangedSignal( bool visible, DevelActor::VisibilityChange::Type type );
1431 * @brief Emits the layout direction change signal for this actor and all its children.
1432 * @param[in] type Whether the actor's layout direction property has changed or a parent's.
1434 void EmitLayoutDirectionChangedSignal( LayoutDirection::Type type );
1437 * @brief Emits the ChildAdded signal for this actor
1438 * @param[in] child The child actor that has been added
1440 void EmitChildAddedSignal( Actor& child );
1443 * @brief Emits the ChildRemoved signal for this actor
1444 * @param[in] child The child actor that has been removed
1446 void EmitChildRemovedSignal( Actor& child );
1449 * @copydoc Dali::Actor::TouchedSignal()
1451 Dali::Actor::TouchSignalType& TouchedSignal();
1454 * @copydoc Dali::Actor::TouchEventSignal()
1456 Dali::Actor::TouchDataSignalType& TouchSignal();
1459 * @copydoc Dali::Actor::HoveredSignal()
1461 Dali::Actor::HoverSignalType& HoveredSignal();
1464 * @copydoc Dali::Actor::WheelEventSignal()
1466 Dali::Actor::WheelEventSignalType& WheelEventSignal();
1469 * @copydoc Dali::Actor::OnStageSignal()
1471 Dali::Actor::OnStageSignalType& OnStageSignal();
1474 * @copydoc Dali::Actor::OffStageSignal()
1476 Dali::Actor::OffStageSignalType& OffStageSignal();
1479 * @copydoc Dali::Actor::OnRelayoutSignal()
1481 Dali::Actor::OnRelayoutSignalType& OnRelayoutSignal();
1484 * @copydoc DevelActor::VisibilityChangedSignal
1486 DevelActor::VisibilityChangedSignalType& VisibilityChangedSignal();
1489 * @copydoc LayoutDirectionChangedSignal
1491 Dali::Actor::LayoutDirectionChangedSignalType& LayoutDirectionChangedSignal();
1494 * @copydoc DevelActor::ChildAddedSignal
1496 DevelActor::ChildChangedSignalType& ChildAddedSignal();
1499 * @copydoc DevelActor::ChildRemovedSignal
1501 DevelActor::ChildChangedSignalType& ChildRemovedSignal();
1504 * @copydoc DevelActor::ChildOrderChangedSignal
1506 DevelActor::ChildOrderChangedSignalType& ChildOrderChangedSignal();
1509 * Connects a callback function with the object's signals.
1510 * @param[in] object The object providing the signal.
1511 * @param[in] tracker Used to disconnect the signal.
1512 * @param[in] signalName The signal to connect to.
1513 * @param[in] functor A newly allocated FunctorDelegate.
1514 * @return True if the signal was connected.
1515 * @post If a signal was connected, ownership of functor was passed to CallbackBase. Otherwise the caller is responsible for deleting the unused functor.
1517 static bool DoConnectSignal( BaseObject* object,
1518 ConnectionTrackerInterface* tracker,
1519 const std::string& signalName,
1520 FunctorDelegate* functor );
1523 * Performs actions as requested using the action name.
1524 * @param[in] object The object on which to perform the action.
1525 * @param[in] actionName The action to perform.
1526 * @param[in] attributes The attributes with which to perfrom this action.
1527 * @return true if the action was done.
1529 static bool DoAction( BaseObject* object,
1530 const std::string& actionName,
1531 const Property::Map& attributes );
1537 * For use in derived classes.
1538 * This should only be called by Animation, when the actor is resized using Animation::Resize().
1540 virtual void OnSizeAnimation( Animation& animation, const Vector3& targetSize )
1548 BASIC, LAYER, ROOT_LAYER
1552 * Protected Constructor. See Actor::New().
1553 * The second-phase construction Initialize() member should be called immediately after this.
1554 * @param[in] derivedType The derived type of actor (if any).
1555 * @param[in] reference to the node
1557 Actor( DerivedType derivedType, const SceneGraph::Node& node );
1560 * Second-phase constructor. Must be called immediately after creating a new Actor;
1562 void Initialize( void );
1565 * A reference counted object may only be deleted by calling Unreference()
1570 * Called on a child during Add() when the parent actor is connected to the Stage.
1571 * @param[in] parentDepth The depth of the parent in the hierarchy.
1573 void ConnectToStage( uint32_t parentDepth );
1576 * Helper for ConnectToStage, to recursively connect a tree of actors.
1577 * This is atomic i.e. not interrupted by user callbacks.
1578 * @param[in] depth The depth in the hierarchy of the actor
1579 * @param[out] connectionList On return, the list of connected actors which require notification.
1581 void RecursiveConnectToStage( ActorContainer& connectionList, uint32_t depth );
1584 * Connect the Node associated with this Actor to the scene-graph.
1586 void ConnectToSceneGraph();
1589 * Helper for ConnectToStage, to notify a connected actor through the public API.
1591 void NotifyStageConnection();
1594 * Called on a child during Remove() when the actor was previously on the Stage.
1596 void DisconnectFromStage();
1599 * Helper for DisconnectFromStage, to recursively disconnect a tree of actors.
1600 * This is atomic i.e. not interrupted by user callbacks.
1601 * @param[out] disconnectionList On return, the list of disconnected actors which require notification.
1603 void RecursiveDisconnectFromStage( ActorContainer& disconnectionList );
1606 * Disconnect the Node associated with this Actor from the scene-graph.
1608 void DisconnectFromSceneGraph();
1611 * Helper for DisconnectFromStage, to notify a disconnected actor through the public API.
1613 void NotifyStageDisconnection();
1616 * When the Actor is OnStage, checks whether the corresponding Node is connected to the scene graph.
1617 * @return True if the Actor is OnStage & has a Node connected to the scene graph.
1619 bool IsNodeConnected() const;
1623 * Trigger a rebuild of the actor depth tree from this root
1624 * If a Layer3D is encountered, then this doesn't descend any further.
1625 * The mSortedDepth of each actor is set appropriately.
1627 void RebuildDepthTree();
1632 * Traverse the actor tree, inserting actors into the depth tree in sibling order.
1633 * @param[in] sceneGraphNodeDepths A vector capturing the nodes and their depth index
1634 * @param[in,out] depthIndex The current depth index (traversal index)
1636 void DepthTraverseActorTree( OwnerPointer<SceneGraph::NodeDepths>& sceneGraphNodeDepths, int32_t& depthIndex );
1640 // Default property extensions from Object
1643 * @copydoc Dali::Internal::Object::SetDefaultProperty()
1645 virtual void SetDefaultProperty( Property::Index index, const Property::Value& propertyValue );
1648 * @copydoc Dali::Internal::Object::SetSceneGraphProperty()
1650 virtual void SetSceneGraphProperty( Property::Index index, const PropertyMetadata& entry, const Property::Value& value );
1653 * @copydoc Dali::Internal::Object::GetDefaultProperty()
1655 virtual Property::Value GetDefaultProperty( Property::Index index ) const;
1658 * @copydoc Dali::Internal::Object::GetDefaultPropertyCurrentValue()
1660 virtual Property::Value GetDefaultPropertyCurrentValue( Property::Index index ) const;
1663 * @copydoc Dali::Internal::Object::OnNotifyDefaultPropertyAnimation()
1665 virtual void OnNotifyDefaultPropertyAnimation( Animation& animation, Property::Index index, const Property::Value& value, Animation::Type animationType );
1668 * @copydoc Dali::Internal::Object::GetSceneObjectAnimatableProperty()
1670 virtual const SceneGraph::PropertyBase* GetSceneObjectAnimatableProperty( Property::Index index ) const;
1673 * @copydoc Dali::Internal::Object::GetSceneObjectInputProperty()
1675 virtual const PropertyInputImpl* GetSceneObjectInputProperty( Property::Index index ) const;
1678 * @copydoc Dali::Internal::Object::GetPropertyComponentIndex()
1680 virtual int32_t GetPropertyComponentIndex( Property::Index index ) const;
1683 * Retrieve the actor's node.
1684 * @return The node used by this actor
1686 const SceneGraph::Node& GetNode() const
1688 return *static_cast<const SceneGraph::Node*>( mUpdateObject );
1692 * @copydoc Dali::DevelActor::Raise()
1697 * @copydoc Dali::DevelActor::Lower()
1702 * @copydoc Dali::DevelActor::RaiseToTop()
1707 * @copydoc Dali::DevelActor::LowerToBottom()
1709 void LowerToBottom();
1712 * @copydoc Dali::DevelActor::RaiseAbove()
1714 void RaiseAbove( Internal::Actor& target );
1717 * @copydoc Dali::DevelActor::LowerBelow()
1719 void LowerBelow( Internal::Actor& target );
1724 * Sets the scene which this actor is added to.
1725 * @param[in] scene The scene
1727 void SetScene( Scene& scene );
1730 * Gets the scene which this actor is added to.
1733 Scene& GetScene() const;
1746 // Remove default constructor and copy constructor
1748 Actor( const Actor& ) = delete;
1749 Actor& operator=( const Actor& rhs ) = delete;
1752 * Set the actors parent.
1753 * @param[in] parent The new parent.
1755 void SetParent( Actor* parent );
1758 * For use in derived classes, called after Initialize()
1760 virtual void OnInitialize()
1765 * For use in internal derived classes.
1766 * This is called during ConnectToStage(), after the actor has finished adding its node to the scene-graph.
1767 * The derived class must not modify the actor hierachy (Add/Remove children) during this callback.
1769 virtual void OnStageConnectionInternal()
1774 * For use in internal derived classes.
1775 * This is called during DisconnectFromStage(), before the actor removes its node from the scene-graph.
1776 * The derived class must not modify the actor hierachy (Add/Remove children) during this callback.
1778 virtual void OnStageDisconnectionInternal()
1783 * For use in external (CustomActor) derived classes.
1784 * This is called after the atomic ConnectToStage() traversal has been completed.
1786 virtual void OnStageConnectionExternal( int depth )
1791 * For use in external (CustomActor) derived classes.
1792 * This is called after the atomic DisconnectFromStage() traversal has been completed.
1794 virtual void OnStageDisconnectionExternal()
1799 * For use in derived classes; this is called after Add() has added a child.
1800 * @param[in] child The child that was added.
1802 virtual void OnChildAdd( Actor& child )
1807 * For use in derived classes; this is called after Remove() has attempted to remove a child( regardless of whether it succeeded or not ).
1808 * @param[in] child The child that was removed.
1810 virtual void OnChildRemove( Actor& child )
1815 * For use in derived classes.
1816 * This is called after SizeSet() has been called.
1818 virtual void OnSizeSet( const Vector3& targetSize )
1823 * For use in derived classes.
1824 * This is only called if mDerivedRequiresTouch is true, and the touch-signal was not consumed.
1825 * @param[in] event The touch event.
1826 * @return True if the event should be consumed.
1828 virtual bool OnTouchEvent( const TouchEvent& event )
1834 * For use in derived classes.
1835 * This is only called if mDerivedRequiresHover is true, and the hover-signal was not consumed.
1836 * @param[in] event The hover event.
1837 * @return True if the event should be consumed.
1839 virtual bool OnHoverEvent( const HoverEvent& event )
1845 * For use in derived classes.
1846 * This is only called if the wheel signal was not consumed.
1847 * @param[in] event The wheel event.
1848 * @return True if the event should be consumed.
1850 virtual bool OnWheelEvent( const WheelEvent& event )
1856 * @brief Retrieves the cached event side value of a default property.
1857 * @param[in] index The index of the property
1858 * @param[out] value Is set with the cached value of the property if found.
1859 * @return True if value set, false otherwise.
1861 bool GetCachedPropertyValue( Property::Index index, Property::Value& value ) const;
1864 * @brief Retrieves the current value of a default property from the scene-graph.
1865 * @param[in] index The index of the property
1866 * @param[out] value Is set with the current scene-graph value of the property
1867 * @return True if value set, false otherwise.
1869 bool GetCurrentPropertyValue( Property::Index index, Property::Value& value ) const;
1872 * @brief Ensure the relayout data is allocated
1874 void EnsureRelayoutData();
1877 * @brief Apply the size set policy to the input size
1879 * @param[in] size The size to apply the policy to
1880 * @return Return the adjusted size
1882 Vector2 ApplySizeSetPolicy( const Vector2& size );
1885 * Retrieve the parent object of an Actor.
1886 * @return The parent object, or NULL if the Actor does not have a parent.
1888 virtual Object* GetParentObject() const;
1892 * @param[in] order The sibling order this Actor should be. It will place
1893 * the actor at this index in it's parent's child array.
1895 void SetSiblingOrder( uint32_t order);
1899 * @return the order of this actor amongst it's siblings
1901 uint32_t GetSiblingOrder() const;
1904 * Request that the stage rebuilds the actor depth indices.
1906 void RequestRebuildDepthTree();
1909 * @brief Get the current position of the actor in screen coordinates.
1911 * @return Returns the screen position of actor
1913 const Vector2 GetCurrentScreenPosition() const;
1916 * Sets the visibility flag of an actor.
1917 * @param[in] visible The new visibility flag.
1918 * @param[in] sendMessage Whether to send a message to the update thread or not.
1920 void SetVisibleInternal( bool visible, SendMessage::Type sendMessage );
1923 * Set whether a child actor inherits it's parent's layout direction. Default is to inherit.
1924 * @param[in] inherit - true if the actor should inherit layout direction, false otherwise.
1926 void SetInheritLayoutDirection( bool inherit );
1929 * Returns whether the actor inherits it's parent's layout direction.
1930 * @return true if the actor inherits it's parent's layout direction, false otherwise.
1932 bool IsLayoutDirectionInherited() const;
1935 * @brief Propagates layout direction recursively.
1936 * @param[in] actor The actor for seting layout direction.
1937 * @param[in] direction New layout direction.
1939 void InheritLayoutDirectionRecursively( ActorPtr actor, Dali::LayoutDirection::Type direction, bool set = false );
1943 Scene* mScene; ///< The scene the actor is added to
1945 Actor* mParent; ///< Each actor (except the root) can have one parent
1946 ActorContainer* mChildren; ///< Container of referenced actors, lazily initialized
1947 RendererContainer* mRenderers; ///< Renderer container
1949 Vector3* mParentOrigin; ///< NULL means ParentOrigin::DEFAULT. ParentOrigin is non-animatable
1950 Vector3* mAnchorPoint; ///< NULL means AnchorPoint::DEFAULT. AnchorPoint is non-animatable
1952 struct RelayoutData;
1953 RelayoutData* mRelayoutData; ///< Struct to hold optional collection of relayout variables
1955 ActorGestureData* mGestureData; ///< Optional Gesture data. Only created when actor requires gestures
1958 Dali::Actor::TouchSignalType mTouchedSignal;
1959 Dali::Actor::TouchDataSignalType mTouchSignal;
1960 Dali::Actor::HoverSignalType mHoveredSignal;
1961 Dali::Actor::WheelEventSignalType mWheelEventSignal;
1962 Dali::Actor::OnStageSignalType mOnStageSignal;
1963 Dali::Actor::OffStageSignalType mOffStageSignal;
1964 Dali::Actor::OnRelayoutSignalType mOnRelayoutSignal;
1965 DevelActor::VisibilityChangedSignalType mVisibilityChangedSignal;
1966 Dali::Actor::LayoutDirectionChangedSignalType mLayoutDirectionChangedSignal;
1967 DevelActor::ChildChangedSignalType mChildAddedSignal;
1968 DevelActor::ChildChangedSignalType mChildRemovedSignal;
1969 DevelActor::ChildOrderChangedSignalType mChildOrderChangedSignal;
1971 Quaternion mTargetOrientation; ///< Event-side storage for orientation
1972 Vector4 mTargetColor; ///< Event-side storage for color
1973 Vector3 mTargetSize; ///< Event-side storage for size (not a pointer as most actors will have a size)
1974 Vector3 mTargetPosition; ///< Event-side storage for position (not a pointer as most actors will have a position)
1975 Vector3 mTargetScale; ///< Event-side storage for scale
1977 std::string mName; ///< Name of the actor
1978 uint32_t mSortedDepth; ///< The sorted depth index. A combination of tree traversal and sibling order.
1979 int16_t mDepth; ///< The depth in the hierarchy of the actor. Only 32,767 levels of depth are supported
1981 const bool mIsRoot : 1; ///< Flag to identify the root actor
1982 const bool mIsLayer : 1; ///< Flag to identify that this is a layer
1983 bool mIsOnStage : 1; ///< Flag to identify whether the actor is on-stage
1984 bool mSensitive : 1; ///< Whether the actor emits touch event signals
1985 bool mLeaveRequired : 1; ///< Whether a touch event signal is emitted when the a touch leaves the actor's bounds
1986 bool mKeyboardFocusable : 1; ///< Whether the actor should be focusable by keyboard navigation
1987 bool mDerivedRequiresTouch : 1; ///< Whether the derived actor type requires touch event signals
1988 bool mDerivedRequiresHover : 1; ///< Whether the derived actor type requires hover event signals
1989 bool mDerivedRequiresWheelEvent : 1; ///< Whether the derived actor type requires wheel event signals
1990 bool mOnStageSignalled : 1; ///< Set to true before OnStageConnection signal is emitted, and false before OnStageDisconnection
1991 bool mInsideOnSizeSet : 1; ///< Whether we are inside OnSizeSet
1992 bool mInheritPosition : 1; ///< Cached: Whether the parent's position should be inherited.
1993 bool mInheritOrientation : 1; ///< Cached: Whether the parent's orientation should be inherited.
1994 bool mInheritScale : 1; ///< Cached: Whether the parent's scale should be inherited.
1995 bool mPositionUsesAnchorPoint : 1; ///< Cached: Whether the position uses the anchor point or not.
1996 bool mVisible : 1; ///< Cached: Whether the actor is visible or not.
1997 bool mInheritLayoutDirection : 1; ///< Whether the actor inherits the layout direction from parent.
1998 LayoutDirection::Type mLayoutDirection : 2; ///< Layout direction, Left to Right or Right to Left.
1999 DrawMode::Type mDrawMode : 3; ///< Cached: How the actor and its children should be drawn
2000 ColorMode mColorMode : 3; ///< Cached: Determines whether mWorldColor is inherited
2001 ClippingMode::Type mClippingMode : 3; ///< Cached: Determines which clipping mode (if any) to use.
2005 static ActorContainer mNullChildren; ///< Empty container (shared by all actors, returned by GetChildren() const)
2009 } // namespace Internal
2011 // Helpers for public-api forwarding methods
2013 inline Internal::Actor& GetImplementation( Dali::Actor& actor )
2015 DALI_ASSERT_ALWAYS( actor && "Actor handle is empty" );
2017 BaseObject& handle = actor.GetBaseObject();
2019 return static_cast< Internal::Actor& >( handle );
2022 inline const Internal::Actor& GetImplementation( const Dali::Actor& actor )
2024 DALI_ASSERT_ALWAYS( actor && "Actor handle is empty" );
2026 const BaseObject& handle = actor.GetBaseObject();
2028 return static_cast< const Internal::Actor& >( handle );
2033 #endif // DALI_INTERNAL_ACTOR_H