1 #ifndef __DALI_ACTOR_H__
2 #define __DALI_ACTOR_H__
5 * Copyright (c) 2015 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-enumerations.h>
26 #include <dali/public-api/actors/draw-mode.h>
27 #include <dali/public-api/math/radian.h>
28 #include <dali/public-api/object/handle.h>
29 #include <dali/public-api/object/property-index-ranges.h>
30 #include <dali/public-api/signals/dali-signal.h>
34 * @addtogroup dali_core_actors
38 namespace Internal DALI_INTERNAL
57 typedef Rect<float> Padding; ///< Padding definition @SINCE_1_0.0
60 * @brief Actor is the primary object with which Dali applications interact.
62 * UI controls can be built by combining multiple actors.
64 * <h3>Multi-Touch Events:</h3>
66 * Touch or hover events are received via signals; see Actor::TouchedSignal() and Actor::HoveredSignal() for more details.
68 * <i>Hit Testing Rules Summary:</i>
70 * - An actor is only hittable if the actor's touch or hover signal has a connection.
71 * - An actor is only hittable when it is between the camera's near and far planes.
72 * - If an actor is made insensitive, then the actor and its children are not hittable; see IsSensitive()
73 * - If an actor's visibility flag is unset, then none of its children are hittable either; see IsVisible()
74 * - To be hittable, an actor must have a non-zero size.
75 * - If an actor's world color is fully transparent, then it is not hittable; see GetCurrentWorldColor()
77 * <i>Hit Test Algorithm:</i>
80 * - Gets the first down and the last up touch events to the screen, regardless of actor touch event consumption.
81 * - Stage's root layer can be used to catch unconsumed touch events.
84 * - Hit testing is dependent on the camera used, which is specific to each RenderTask.
87 * - For each RenderTask, hit testing starts from the top-most layer and we go through all the
88 * layers until we have a hit or there are none left.
89 * - Before we perform a hit test within a layer, we check if all the layer's parents are visible
91 * - If they are not, we skip hit testing the actors in that layer altogether.
92 * - If a layer is set to consume all touch, then we do not check any layers behind this layer.
95 * - The final part of hit testing is performed by walking through the actor tree within a layer.
96 * - The following pseudocode shows the algorithm used:
98 * HIT-TEST-WITHIN-LAYER( ACTOR )
100 * // Only hit-test the actor and its children if it is sensitive and visible
101 * IF ( ACTOR-IS-SENSITIVE &&
102 * ACTOR-IS-VISIBLE &&
103 * ACTOR-IS-ON-STAGE )
105 * // Depth-first traversal within current layer, visiting parent first
107 * // Check whether current actor should be hit-tested.
108 * IF ( ( TOUCH-SIGNAL-NOT-EMPTY || HOVER-SIGNAL-NOT-EMPTY ) &&
109 * ACTOR-HAS-NON-ZERO-SIZE &&
110 * ACTOR-WORLD-COLOR-IS-NOT-TRANSPARENT )
112 * // Hit-test current actor
115 * IF ( ACTOR-IS-OVERLAY || ( DISTANCE-TO-ACTOR < DISTANCE-TO-LAST-HIT-ACTOR ) )
117 * // The current actor is the closest actor that was underneath the touch.
118 * LAST-HIT-ACTOR = CURRENT-ACTOR
123 * // Keep checking children, in case we hit something closer.
124 * FOR-EACH CHILD (in order)
126 * IF ( CHILD-IS-NOT-A-LAYER )
128 * // Continue traversal for this child's sub-tree
129 * HIT-TEST-WITHIN-LAYER ( CHILD )
131 * // else we skip hit-testing the child's sub-tree altogether.
136 * - Overlays always take priority (i.e. they're considered closer) regardless of distance.
137 * The overlay children take priority over their parents, and overlay siblings take priority
138 * over their previous siblings (i.e. reverse of rendering order):
148 * Hit Priority of above Actor tree (all overlays): 1 - Lowest. 6 - Highest.
150 * - Stencil Actors can be used to influence the result of hits on renderable actors within a layer.
151 * If a Stencil Actor exists on a layer and that Actor is marked visible then a successful
152 * hit on a renderable actor can only take place in the area that the stencil Actor marks as visible.
153 * The hit can be in any Stencil Actor in that layer, but must be in the region of one of them.
154 * Stencil Actor inheritance behaves as with rendering in that any child of a Stencil Actor will
155 * also be considered a Stencil Actor.
156 * Non-renderable actors can be hit regardless of whether a stencil actor is hit or not.
158 * <i>Touch or hover Event Delivery:</i>
161 * - The hit actor's touch or hover signal is emitted first; if it is not consumed by any of the listeners,
162 * the parent's touch or hover signal is emitted, and so on.
163 * - The following pseudocode shows the delivery mechanism:
165 * EMIT-TOUCH-SIGNAL( ACTOR )
167 * IF ( TOUCH-SIGNAL-NOT-EMPTY )
169 * // Only do the emission if touch signal of actor has connections.
170 * CONSUMED = TOUCHED-SIGNAL( TOUCH-EVENT )
173 * IF ( NOT-CONSUMED )
175 * // If event is not consumed then deliver it to the parent unless we reach the root actor
176 * IF ( ACTOR-PARENT )
178 * EMIT-TOUCH-SIGNAL( ACTOR-PARENT )
183 * EMIT-HOVER-SIGNAL( ACTOR )
185 * IF ( HOVER-SIGNAL-NOT-EMPTY )
187 * // Only do the emission if hover signal of actor has connections.
188 * CONSUMED = HOVERED-SIGNAL( HOVER-EVENT )
191 * IF ( NOT-CONSUMED )
193 * // If event is not consumed then deliver it to the parent unless we reach the root actor.
194 * IF ( ACTOR-PARENT )
196 * EMIT-HOVER-SIGNAL( ACTOR-PARENT )
201 * - If there are several touch points, then the delivery is only to the first touch point's hit
202 * actor (and its parents). There will be NO touch or hover signal delivery for the hit actors of the
203 * other touch points.
204 * - The local coordinates are from the top-left (0.0f, 0.0f, 0.5f) of the hit actor.
207 * - A "Leave" state is set when the first point exits the bounds of the previous first point's
208 * hit actor (primary hit actor).
209 * - When this happens, the last primary hit actor's touch or hover signal is emitted with a "Leave" state
210 * (only if it requires leave signals); see SetLeaveRequired().
212 * - Interrupted State
213 * - If a system event occurs which interrupts the touch or hover processing, then the last primary hit
214 * actor's touch or hover signals are emitted with an "Interrupted" state.
215 * - If the last primary hit actor, or one of its parents, is no longer touchable or hoverable, then its
216 * touch or hover signals are also emitted with an "Interrupted" state.
217 * - If the consumed actor on touch-down is not the same as the consumed actor on touch-up, then
218 * touch signals are also emitted from the touch-down actor with an "Interrupted" state.
219 * - If the consumed actor on hover-start is not the same as the consumed actor on hover-finished, then
220 * hover signals are also emitted from the hover-started actor with an "Interrupted" state.
222 * <h3>Key Events:</h3>
224 * Key events are received by an actor once set to grab key events, only one actor can be set as focused.
229 * | %Signal Name | Method |
230 * |-------------------|------------------------------|
231 * | touched | @ref TouchedSignal() |
232 * | hovered | @ref HoveredSignal() |
233 * | wheelEvent | @ref WheelEventSignal() |
234 * | onStage | @ref OnStageSignal() |
235 * | offStage | @ref OffStageSignal() |
236 * | onRelayout | @ref OnRelayoutSignal() |
239 * | %Action Name | %Actor method called |
240 * |-------------------|------------------------------|
241 * | show | %SetVisible( true ) |
242 * | hide | %SetVisible( false ) |
246 class DALI_IMPORT_API Actor : public Handle
251 * @brief An enumeration of properties belonging to the Actor class.
258 PARENT_ORIGIN = DEFAULT_ACTOR_PROPERTY_START_INDEX, ///< name "parentOrigin", type Vector3 (constraint-input) @SINCE_1_0.0
259 PARENT_ORIGIN_X, ///< name "parentOriginX", type float (constraint-input) @SINCE_1_0.0
260 PARENT_ORIGIN_Y, ///< name "parentOriginY", type float (constraint-input) @SINCE_1_0.0
261 PARENT_ORIGIN_Z, ///< name "parentOriginZ", type float (constraint-input) @SINCE_1_0.0
262 ANCHOR_POINT, ///< name "anchorPoint", type Vector3 (constraint-input) @SINCE_1_0.0
263 ANCHOR_POINT_X, ///< name "anchorPointX", type float (constraint-input) @SINCE_1_0.0
264 ANCHOR_POINT_Y, ///< name "anchorPointY", type float (constraint-input) @SINCE_1_0.0
265 ANCHOR_POINT_Z, ///< name "anchorPointZ", type float (constraint-input) @SINCE_1_0.0
266 SIZE, ///< name "size", type Vector3 (animatable / constraint-input) @SINCE_1_0.0
267 SIZE_WIDTH, ///< name "sizeWidth", type float (animatable / constraint-input) @SINCE_1_0.0
268 SIZE_HEIGHT, ///< name "sizeHeight", type float (animatable / constraint-input) @SINCE_1_0.0
269 SIZE_DEPTH, ///< name "sizeDepth", type float (animatable / constraint-input) @SINCE_1_0.0
270 POSITION, ///< name "position", type Vector3 (animatable / constraint-input) @SINCE_1_0.0
271 POSITION_X, ///< name "positionX", type float (animatable / constraint-input) @SINCE_1_0.0
272 POSITION_Y, ///< name "positionY", type float (animatable / constraint-input) @SINCE_1_0.0
273 POSITION_Z, ///< name "positionZ", type float (animatable / constraint-input) @SINCE_1_0.0
274 WORLD_POSITION, ///< name "worldPosition", type Vector3 (read-only / constraint-input) @SINCE_1_0.0
275 WORLD_POSITION_X, ///< name "worldPositionX", type float (read-only / constraint-input) @SINCE_1_0.0
276 WORLD_POSITION_Y, ///< name "worldPositionY", type float (read-only / constraint-input) @SINCE_1_0.0
277 WORLD_POSITION_Z, ///< name "worldPositionZ", type float (read-only / constraint-input) @SINCE_1_0.0
278 ORIENTATION, ///< name "orientation", type Quaternion (animatable / constraint-input) @SINCE_1_0.0
279 WORLD_ORIENTATION, ///< name "worldOrientation", type Quaternion (read-only / constraint-input) @SINCE_1_0.0
280 SCALE, ///< name "scale", type Vector3 (animatable / constraint-input) @SINCE_1_0.0
281 SCALE_X, ///< name "scaleX", type float (animatable / constraint-input) @SINCE_1_0.0
282 SCALE_Y, ///< name "scaleY", type float (animatable / constraint-input) @SINCE_1_0.0
283 SCALE_Z, ///< name "scaleZ", type float (animatable / constraint-input) @SINCE_1_0.0
284 WORLD_SCALE, ///< name "worldScale", type Vector3 (read-only / constraint-input) @SINCE_1_0.0
285 VISIBLE, ///< name "visible", type bool (animatable / constraint-input) @SINCE_1_0.0
286 COLOR, ///< name "color", type Vector4 (animatable / constraint-input) @SINCE_1_0.0
287 COLOR_RED, ///< name "colorRed", type float (animatable / constraint-input) @SINCE_1_0.0
288 COLOR_GREEN, ///< name "colorGreen", type float (animatable / constraint-input) @SINCE_1_0.0
289 COLOR_BLUE, ///< name "colorBlue", type float (animatable / constraint-input) @SINCE_1_0.0
290 COLOR_ALPHA, ///< name "colorAlpha", type float (animatable / constraint-input) @SINCE_1_0.0
291 WORLD_COLOR, ///< name "worldColor", type Vector4 (read-only / constraint-input) @SINCE_1_0.0
292 WORLD_MATRIX, ///< name "worldMatrix", type Matrix (read-only / constraint-input) @SINCE_1_0.0
293 NAME, ///< name "name", type std::string @SINCE_1_0.0
294 SENSITIVE, ///< name "sensitive", type bool @SINCE_1_0.0
295 LEAVE_REQUIRED, ///< name "leaveRequired", type bool @SINCE_1_0.0
296 INHERIT_ORIENTATION, ///< name "inheritOrientation", type bool @SINCE_1_0.0
297 INHERIT_SCALE, ///< name "inheritScale", type bool @SINCE_1_0.0
298 COLOR_MODE, ///< name "colorMode", type std::string @SINCE_1_0.0
299 POSITION_INHERITANCE, ///< name "positionInheritance", type std::string @DEPRECATED_1_1.24 Use INHERIT_POSITION instead
300 DRAW_MODE, ///< name "drawMode", type std::string @SINCE_1_0.0
301 SIZE_MODE_FACTOR, ///< name "sizeModeFactor", type Vector3 @SINCE_1_0.0
302 WIDTH_RESIZE_POLICY, ///< name "widthResizePolicy", type String @SINCE_1_0.0
303 HEIGHT_RESIZE_POLICY, ///< name "heightResizePolicy", type String @SINCE_1_0.0
304 SIZE_SCALE_POLICY, ///< name "sizeScalePolicy", type String @SINCE_1_0.0
305 WIDTH_FOR_HEIGHT, ///< name "widthForHeight", type Boolean @SINCE_1_0.0
306 HEIGHT_FOR_WIDTH, ///< name "heightForWidth", type Boolean @SINCE_1_0.0
307 PADDING, ///< name "padding", type Vector4 @SINCE_1_0.0
308 MINIMUM_SIZE, ///< name "minimumSize", type Vector2 @SINCE_1_0.0
309 MAXIMUM_SIZE, ///< name "maximumSize", type Vector2 @SINCE_1_0.0
310 INHERIT_POSITION, ///< name "inheritPosition", type bool @SINCE_1_1.24
316 typedef Signal< bool (Actor, const TouchEvent&) > TouchSignalType; ///< @DEPRECATED_1_1.37 @brief Touch signal type @SINCE_1_0.0
317 typedef Signal< bool (Actor, const TouchData&) > TouchDataSignalType; ///< Touch signal type @SINCE_1_1.37
318 typedef Signal< bool (Actor, const HoverEvent&) > HoverSignalType; ///< Hover signal type @SINCE_1_0.0
319 typedef Signal< bool (Actor, const WheelEvent&) > WheelEventSignalType; ///< Wheel signal type @SINCE_1_0.0
320 typedef Signal< void (Actor) > OnStageSignalType; ///< Stage connection signal type @SINCE_1_0.0
321 typedef Signal< void (Actor) > OffStageSignalType; ///< Stage disconnection signal type @SINCE_1_0.0
322 typedef Signal< void (Actor) > OnRelayoutSignalType; ///< Called when the actor is relaid out @SINCE_1_0.0
327 * @brief Create an uninitialized Actor; this can be initialized with Actor::New().
329 * Calling member functions with an uninitialized Actor handle is not allowed.
335 * @brief Create an initialized Actor.
338 * @return A handle to a newly allocated Dali resource.
343 * @brief Downcast a handle to Actor handle.
345 * If handle points to a Actor object the downcast produces valid
346 * handle. If not the returned handle is left uninitialized.
349 * @param[in] handle to An object
350 * @return handle to a Actor object or an uninitialized handle
352 static Actor DownCast( BaseHandle handle );
355 * @brief Dali::Actor is intended as a base class
357 * This is non-virtual since derived Handle types must not contain data or virtual methods.
363 * @brief Copy constructor
366 * @param [in] copy The actor to copy.
368 Actor(const Actor& copy);
371 * @brief Assignment operator
374 * @param [in] rhs The actor to copy.
375 * @return A reference to this
377 Actor& operator=(const Actor& rhs);
380 * @brief Retrieve the Actor's name.
383 * @return The Actor's name.
384 * @pre The Actor has been initialized.
386 const std::string& GetName() const;
389 * @brief Sets the Actor's name.
392 * @param [in] name The new name.
393 * @pre The Actor has been initialized.
395 void SetName(const std::string& name);
398 * @brief Retrieve the unique ID of the actor.
402 * @pre The Actor has been initialized.
404 unsigned int GetId() const;
409 * @brief Query whether an actor is the root actor, which is owned by the Stage.
412 * @return True if the actor is the root actor.
413 * @pre The Actor has been initialized.
418 * @brief Query whether the actor is connected to the Stage.
420 * When an actor is connected, it will be directly or indirectly parented to the root Actor.
422 * @return True if the actor is connected to the Stage.
423 * @pre The Actor has been initialized.
424 * @note The root Actor is provided automatically by Dali::Stage, and is always considered to be connected.
426 bool OnStage() const;
429 * @brief Query whether the actor is of class Dali::Layer.
432 * @return True if the actor is a layer.
433 * @pre The Actor has been initialized.
435 bool IsLayer() const;
438 * @brief Gets the layer in which the actor is present.
441 * @return The layer, which will be uninitialized if the actor is off-stage.
442 * @pre The Actor has been initialized.
447 * @brief Adds a child Actor to this Actor.
450 * @param [in] child The child.
451 * @pre This Actor (the parent) has been initialized.
452 * @pre The child actor has been initialized.
453 * @pre The child actor is not the same as the parent actor.
454 * @pre The actor is not the Root actor.
455 * @post The child will be referenced by its parent. This means that the child will be kept alive,
456 * even if the handle passed into this method is reset or destroyed.
457 * @note if the child already has a parent, it will be removed from old parent
458 * and reparented to this actor. This may change childs position, color,
459 * scale etc as it now inherits them from this actor.
461 void Add(Actor child);
464 * @brief Removes a child Actor from this Actor.
466 * If the actor was not a child of this actor, this is a no-op.
468 * @param [in] child The child.
469 * @pre This Actor (the parent) has been initialized.
470 * @pre The child actor is not the same as the parent actor.
472 void Remove(Actor child);
475 * @brief Removes an actor from its parent.
477 * If the actor has no parent, this method does nothing.
479 * @pre The (child) actor has been initialized.
484 * @brief Retrieve the number of children held by the actor.
487 * @return The number of children
488 * @pre The Actor has been initialized.
490 unsigned int GetChildCount() const;
493 * @brief Retrieve and child actor by index.
496 * @param[in] index The index of the child to retrieve
497 * @return The actor for the given index or empty handle if children not initialised
498 * @pre The Actor has been initialized.
500 Actor GetChildAt(unsigned int index) const;
503 * @brief Search through this actor's hierarchy for an actor with the given name.
505 * The actor itself is also considered in the search.
507 * @param[in] actorName the name of the actor to find
508 * @return A handle to the actor if found, or an empty handle if not.
509 * @pre The Actor has been initialized.
511 Actor FindChildByName(const std::string& actorName);
514 * @brief Search through this actor's hierarchy for an actor with the given unique ID.
516 * The actor itself is also considered in the search.
518 * @param[in] id the ID of the actor to find
519 * @return A handle to the actor if found, or an empty handle if not.
520 * @pre The Actor has been initialized.
522 Actor FindChildById(const unsigned int id);
525 * @brief Retrieve the actor's parent.
528 * @return A handle to the actor's parent. If the actor has no parent, this handle will be invalid.
529 * @pre The actor has been initialized.
531 Actor GetParent() const;
536 * @brief Set the origin of an actor, within its parent's area.
538 * This is expressed in unit coordinates, such that (0.0, 0.0, 0.5) is the top-left corner of the parent,
539 * and (1.0, 1.0, 0.5) is the bottom-right corner.
540 * The default parent-origin is Dali::ParentOrigin::TOP_LEFT (0.0, 0.0, 0.5).
541 * An actor position is the distance between this origin, and the actors anchor-point.
543 * @param [in] origin The new parent-origin.
544 * @pre The Actor has been initialized.
545 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentParentOrigin().
546 * @see Dali::ParentOrigin for predefined parent origin values
548 void SetParentOrigin(const Vector3& origin);
551 * @brief Retrieve the parent-origin of an actor.
554 * @return The current parent-origin.
555 * @pre The Actor has been initialized.
556 * @note This property can be animated; the return value may not match the value written with SetParentOrigin().
558 Vector3 GetCurrentParentOrigin() const;
561 * @brief Set the anchor-point of an actor.
563 * This is expressed in unit coordinates, such that (0.0, 0.0, 0.5)
564 * is the top-left corner of the actor, and (1.0, 1.0, 0.5) is the
565 * bottom-right corner. The default anchor point is
566 * Dali::AnchorPoint::CENTER (0.5, 0.5, 0.5).
567 * An actor position is the distance between its parent-origin, and this anchor-point.
568 * An actor's orientation is the rotation from its default orientation, the rotation is centered around its anchor-point.
570 * @param [in] anchorPoint The new anchor-point.
571 * @pre The Actor has been initialized.
572 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentAnchorPoint().
573 * @see Dali::AnchorPoint for predefined anchor point values
575 void SetAnchorPoint(const Vector3& anchorPoint);
578 * @brief Retrieve the anchor-point of an actor.
581 * @return The current anchor-point.
582 * @pre The Actor has been initialized.
583 * @note This property can be animated; the return value may not match the value written with SetAnchorPoint().
585 Vector3 GetCurrentAnchorPoint() const;
588 * @brief Sets the size of an actor.
590 * Geometry can be scaled to fit within this area.
591 * This does not interfere with the actors scale factor.
592 * The actors default depth is the minimum of width & height.
594 * @param [in] width The new width.
595 * @param [in] height The new height.
596 * @pre The actor has been initialized.
597 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentSize().
599 void SetSize(float width, float height);
602 * @brief Sets the size of an actor.
604 * Geometry can be scaled to fit within this area.
605 * This does not interfere with the actors scale factor.
607 * @param [in] width The size of the actor along the x-axis.
608 * @param [in] height The size of the actor along the y-axis.
609 * @param [in] depth The size of the actor along the z-axis.
610 * @pre The actor has been initialized.
611 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentSize().
613 void SetSize(float width, float height, float depth);
616 * @brief Sets the size of an actor.
618 * Geometry can be scaled to fit within this area.
619 * This does not interfere with the actors scale factor.
620 * The actors default depth is the minimum of width & height.
622 * @param [in] size The new size.
623 * @pre The actor has been initialized.
624 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentSize().
626 void SetSize(const Vector2& size);
629 * @brief Sets the size of an actor.
631 * Geometry can be scaled to fit within this area.
632 * This does not interfere with the actors scale factor.
634 * @param [in] size The new size.
635 * @pre The actor has been initialized.
636 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentSize().
638 void SetSize(const Vector3& size);
641 * @brief Retrieve the actor's size.
644 * @return The actor's target size.
645 * @pre The actor has been initialized.
646 * @note This return is the value that was set using SetSize or the target size of an animation.
648 Vector3 GetTargetSize() const;
651 * @brief Retrieve the actor's size.
654 * @return The actor's current size.
655 * @pre The actor has been initialized.
656 * @note This property can be animated; the return value may not match the value written with SetSize().
658 Vector3 GetCurrentSize() const;
661 * @brief Return the natural size of the actor.
663 * Deriving classes stipulate the natural size and by default an actor has a ZERO natural size.
666 * @return The actor's natural size
668 Vector3 GetNaturalSize() const;
671 * @brief Sets the position of the actor.
673 * The Actor's z position will be set to 0.0f.
675 * @param [in] x The new x position
676 * @param [in] y The new y position
677 * @pre The Actor has been initialized.
678 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
680 void SetPosition(float x, float y);
683 * @brief Sets the position of the Actor.
686 * @param [in] x The new x position
687 * @param [in] y The new y position
688 * @param [in] z The new z position
689 * @pre The Actor has been initialized.
690 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
692 void SetPosition(float x, float y, float z);
695 * @brief Sets the position of the Actor.
698 * @param [in] position The new position
699 * @pre The Actor has been initialized.
700 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
702 void SetPosition(const Vector3& position);
705 * @brief Set the position of an actor along the X-axis.
708 * @param [in] x The new x position
709 * @pre The Actor has been initialized.
710 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
715 * @brief Set the position of an actor along the Y-axis.
718 * @param [in] y The new y position.
719 * @pre The Actor has been initialized.
720 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
725 * @brief Set the position of an actor along the Z-axis.
728 * @param [in] z The new z position
729 * @pre The Actor has been initialized.
730 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentPosition().
735 * @brief Translate an actor relative to its existing position.
738 * @param[in] distance The actor will move by this distance.
739 * @pre The actor has been initialized.
741 void TranslateBy(const Vector3& distance);
744 * @brief Retrieve the position of the Actor.
747 * @return the Actor's current position.
748 * @pre The Actor has been initialized.
749 * @note This property can be animated; the return value may not match the value written with SetPosition().
751 Vector3 GetCurrentPosition() const;
754 * @brief Retrieve the world-position of the Actor.
757 * @return The Actor's current position in world coordinates.
758 * @pre The Actor has been initialized.
759 * @note The actor will not have a world-position, unless it has previously been added to the stage.
761 Vector3 GetCurrentWorldPosition() const;
764 * @DEPRECATED_1_1.24 Use SetInheritPosition instead
765 * @brief Set the actors position inheritance mode.
767 * The default is to inherit.
768 * Switching this off means that using SetPosition() sets the actor's world position.
770 * @param[in] mode to use
771 * @pre The Actor has been initialized.
772 * @see PositionInheritanceMode
774 void SetPositionInheritanceMode( PositionInheritanceMode mode );
777 * @brief Set whether a child actor inherits it's parent's position.
779 * Default is to inherit.
780 * Switching this off means that using SetPosition() sets the actor's world position3
782 * @param[in] inherit - true if the actor should inherit position, false otherwise.
783 * @pre The Actor has been initialized.
785 inline void SetInheritPosition( bool inherit )
787 SetProperty(Property::INHERIT_POSITION, inherit );
791 * @DEPRECATED_1_1.24 Use IsPositionInherited
792 * @brief Returns the actors position inheritance mode.
795 * @return Return the position inheritance mode.
796 * @pre The Actor has been initialized.
798 PositionInheritanceMode GetPositionInheritanceMode() const;
801 * @brief Returns whether the actor inherits its parent's position.
804 * @return True if the actor inherits its parent position, false if it uses world position.
805 * @pre The Actor has been initialized.
807 inline bool IsPositionInherited() const
809 return GetProperty(Property::INHERIT_POSITION ).Get<bool>();
813 * @brief Sets the orientation of the Actor.
815 * An actor's orientation is the rotation from its default orientation, and the rotation is centered around its anchor-point.
817 * @param [in] angle The new orientation angle in degrees.
818 * @param [in] axis The new axis of orientation.
819 * @pre The Actor has been initialized.
820 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentOrientation().
822 void SetOrientation( const Degree& angle, const Vector3& axis )
824 SetOrientation( Radian( angle ), axis );
828 * @brief Sets the orientation of the Actor.
830 * An actor's orientation is the rotation from its default orientation, and the rotation is centered around its anchor-point.
832 * @param [in] angle The new orientation angle in radians.
833 * @param [in] axis The new axis of orientation.
834 * @pre The Actor has been initialized.
835 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentOrientation().
837 void SetOrientation(const Radian& angle, const Vector3& axis);
840 * @brief Sets the orientation of the Actor.
842 * An actor's orientation is the rotation from its default orientation, and the rotation is centered around its anchor-point.
844 * @param [in] orientation The new orientation.
845 * @pre The Actor has been initialized.
846 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentOrientation().
848 void SetOrientation(const Quaternion& orientation);
851 * @brief Apply a relative rotation to an actor.
854 * @param[in] angle The angle to the rotation to combine with the existing orientation.
855 * @param[in] axis The axis of the rotation to combine with the existing orientation.
856 * @pre The actor has been initialized.
858 void RotateBy( const Degree& angle, const Vector3& axis )
860 RotateBy( Radian( angle ), axis );
864 * @brief Apply a relative rotation to an actor.
867 * @param[in] angle The angle to the rotation to combine with the existing orientation.
868 * @param[in] axis The axis of the rotation to combine with the existing orientation.
869 * @pre The actor has been initialized.
871 void RotateBy(const Radian& angle, const Vector3& axis);
874 * @brief Apply a relative rotation to an actor.
877 * @param[in] relativeRotation The rotation to combine with the existing orientation.
878 * @pre The actor has been initialized.
880 void RotateBy(const Quaternion& relativeRotation);
883 * @brief Retreive the Actor's orientation.
886 * @return The current orientation.
887 * @pre The Actor has been initialized.
888 * @note This property can be animated; the return value may not match the value written with SetOrientation().
890 Quaternion GetCurrentOrientation() const;
893 * @brief Set whether a child actor inherits it's parent's orientation.
895 * Default is to inherit.
896 * Switching this off means that using SetOrientation() sets the actor's world orientation.
898 * @param[in] inherit - true if the actor should inherit orientation, false otherwise.
899 * @pre The Actor has been initialized.
901 void SetInheritOrientation(bool inherit);
904 * @brief Returns whether the actor inherits its parent's orientation.
907 * @return True if the actor inherits its parent orientation, false if it uses world orientation.
908 * @pre The Actor has been initialized.
910 bool IsOrientationInherited() const;
913 * @brief Retrieve the world-orientation of the Actor.
916 * @return The Actor's current orientation in the world.
917 * @pre The Actor has been initialized.
918 * @note The actor will not have a world-orientation, unless it has previously been added to the stage.
920 Quaternion GetCurrentWorldOrientation() const;
923 * @brief Set the scale factor applied to an actor.
926 * @param [in] scale The scale factor applied on all axes.
927 * @pre The Actor has been initialized.
928 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentScale().
930 void SetScale(float scale);
933 * @brief Set the scale factor applied to an actor.
936 * @param [in] scaleX The scale factor applied along the x-axis.
937 * @param [in] scaleY The scale factor applied along the y-axis.
938 * @param [in] scaleZ The scale factor applied along the z-axis.
939 * @pre The Actor has been initialized.
940 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentScale().
942 void SetScale(float scaleX, float scaleY, float scaleZ);
945 * @brief Set the scale factor applied to an actor.
948 * @param [in] scale A vector representing the scale factor for each axis.
949 * @pre The Actor has been initialized.
950 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentScale().
952 void SetScale(const Vector3& scale);
955 * @brief Apply a relative scale to an actor.
958 * @param[in] relativeScale The scale to combine with the actor's existing scale.
959 * @pre The actor has been initialized.
961 void ScaleBy(const Vector3& relativeScale);
964 * @brief Retrieve the scale factor applied to an actor.
967 * @return A vector representing the scale factor for each axis.
968 * @pre The Actor has been initialized.
969 * @note This property can be animated; the return value may not match the value written with SetScale().
971 Vector3 GetCurrentScale() const;
974 * @brief Retrieve the world-scale of the Actor.
977 * @return The Actor's current scale in the world.
978 * @pre The Actor has been initialized.
979 * @note The actor will not have a world-scale, unless it has previously been added to the stage.
981 Vector3 GetCurrentWorldScale() const;
984 * @brief Set whether a child actor inherits it's parent's scale.
986 * Default is to inherit.
987 * Switching this off means that using SetScale() sets the actor's world scale.
989 * @param[in] inherit - true if the actor should inherit scale, false otherwise.
990 * @pre The Actor has been initialized.
992 void SetInheritScale( bool inherit );
995 * @brief Returns whether the actor inherits its parent's scale.
998 * @return True if the actor inherits its parent scale, false if it uses world scale.
999 * @pre The Actor has been initialized.
1001 bool IsScaleInherited() const;
1004 * @brief Retrieves the world-matrix of the actor.
1007 * @return The Actor's current world matrix
1008 * @pre The Actor has been initialized.
1009 * @note The actor will not have a world-matrix, unless it has previously been added to the stage.
1011 Matrix GetCurrentWorldMatrix() const;
1013 // Visibility & Color
1016 * @brief Sets the visibility flag of an actor.
1019 * @param [in] visible The new visibility flag.
1020 * @pre The actor has been initialized.
1021 * @note This is an asynchronous method; the value written may not match a value subsequently read with IsVisible().
1022 * @note If an actor's visibility flag is set to false, then the actor and its children will not be rendered.
1023 * This is regardless of the individual visibility values of the children i.e. an actor will only be
1024 * rendered if all of its parents have visibility set to true.
1026 void SetVisible(bool visible);
1029 * @brief Retrieve the visibility flag of an actor.
1032 * @return The visibility flag.
1033 * @pre The actor has been initialized.
1034 * @note This property can be animated; the return value may not match the value written with SetVisible().
1035 * @note If an actor is not visible, then the actor and its children will not be rendered.
1036 * This is regardless of the individual visibility values of the children i.e. an actor will only be
1037 * rendered if all of its parents have visibility set to true.
1039 bool IsVisible() const;
1042 * @brief Sets the opacity of an actor.
1045 * @param [in] opacity The new opacity.
1046 * @pre The actor has been initialized.
1047 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentOpacity().
1049 void SetOpacity(float opacity);
1052 * @brief Retrieve the actor's opacity.
1055 * @return The actor's opacity.
1056 * @pre The actor has been initialized.
1057 * @note This property can be animated; the return value may not match the value written with SetOpacity().
1059 float GetCurrentOpacity() const;
1062 * @brief Sets the actor's color; this is an RGBA value.
1064 * The final color of the actor depends on its color mode.
1066 * @param [in] color The new color.
1067 * @pre The Actor has been initialized.
1068 * @note This is an asynchronous method; the value written may not match a value subsequently read with GetCurrentColor().
1070 void SetColor(const Vector4& color);
1073 * @brief Retrieve the actor's color.
1075 * Actor's own color is not clamped.
1077 * @return The color.
1078 * @pre The Actor has been initialized.
1079 * @note This property can be animated; the return value may not match the value written with SetColor().
1081 Vector4 GetCurrentColor() const;
1084 * @brief Sets the actor's color mode.
1086 * This specifies whether the Actor uses its own color, or inherits
1087 * its parent color. The default is USE_OWN_MULTIPLY_PARENT_ALPHA.
1089 * @param [in] colorMode to use.
1090 * @pre The Actor has been initialized.
1092 void SetColorMode( ColorMode colorMode );
1095 * @brief Returns the actor's color mode.
1098 * @return currently used colorMode.
1099 * @pre The Actor has been initialized.
1101 ColorMode GetColorMode() const;
1104 * @brief Retrieve the world-color of the Actor, where each component is clamped within the 0->1 range.
1107 * @return The Actor's current color in the world.
1108 * @pre The Actor has been initialized.
1109 * @note The actor will not have a world-color, unless it has previously been added to the stage.
1111 Vector4 GetCurrentWorldColor() const;
1114 * @brief Set how the actor and its children should be drawn.
1116 * Not all actors are renderable, but DrawMode can be inherited from any actor.
1117 * If an object is in a 3D layer, it will be depth-tested against
1118 * other objects in the world i.e. it may be obscured if other objects are in front.
1120 * If DrawMode::OVERLAY_2D is used, the actor and its children will be drawn as a 2D overlay.
1121 * Overlay actors are drawn in a separate pass, after all non-overlay actors within the Layer.
1122 * For overlay actors, the drawing order is with respect to tree levels of Actors,
1123 * and depth-testing will not be used.
1125 * If DrawMode::STENCIL is used, the actor and its children will be used to stencil-test other actors
1126 * within the Layer. Stencil actors are therefore drawn into the stencil buffer before any other
1127 * actors within the Layer.
1130 * @param[in] drawMode The new draw-mode to use.
1131 * @note Setting STENCIL will override OVERLAY_2D, if that would otherwise have been inherited.
1132 * @note Layers do not inherit the DrawMode from their parents.
1134 void SetDrawMode( DrawMode::Type drawMode );
1137 * @brief Query how the actor and its children will be drawn.
1140 * @return Return the draw mode type.
1142 DrawMode::Type GetDrawMode() const;
1147 * @brief Sets whether an actor should emit touch or hover signals.
1149 * An actor is sensitive by default, which means that as soon as an application connects to the SignalTouch(),
1150 * the touch event signal will be emitted, and as soon as an application connects to the SignalHover(), the
1151 * hover event signal will be emitted.
1153 * If the application wishes to temporarily disable the touch or hover event signal emission, then they can do so by calling:
1155 * actor.SetSensitive(false);
1158 * Then, to re-enable the touch or hover event signal emission, the application should call:
1160 * actor.SetSensitive(true);
1164 * @param[in] sensitive true to enable emission of the touch or hover event signals, false otherwise.
1165 * @pre The Actor has been initialized.
1166 * @note If an actor's sensitivity is set to false, then it's children will not be hittable either.
1167 * This is regardless of the individual sensitivity values of the children i.e. an actor will only be
1168 * hittable if all of its parents have sensitivity set to true.
1169 * @see @see TouchedSignal() and HoveredSignal().
1171 void SetSensitive(bool sensitive);
1174 * @brief Query whether an actor emits touch or hover event signals.
1177 * @return True, if emission of touch or hover event signals is enabled, false otherwise.
1178 * @pre The Actor has been initialized.
1179 * @note If an actor is not sensitive, then it's children will not be hittable either.
1180 * This is regardless of the individual sensitivity values of the children i.e. an actor will only be
1181 * hittable if all of its parents have sensitivity set to true.
1183 bool IsSensitive() const;
1186 * @brief Converts screen coordinates into the actor's coordinate system using the default camera.
1189 * @param[out] localX On return, the X-coordinate relative to the actor.
1190 * @param[out] localY On return, the Y-coordinate relative to the actor.
1191 * @param[in] screenX The screen X-coordinate.
1192 * @param[in] screenY The screen Y-coordinate.
1193 * @return True if the conversion succeeded.
1194 * @pre The Actor has been initialized.
1195 * @note The actor coordinates are relative to the top-left (0.0, 0.0, 0.5)
1197 bool ScreenToLocal(float& localX, float& localY, float screenX, float screenY) const;
1200 * @brief Sets whether the actor should receive a notification when touch or hover motion events leave
1201 * the boundary of the actor.
1204 * @param[in] required Should be set to true if a Leave event is required
1205 * @pre The Actor has been initialized.
1206 * @note By default, this is set to false as most actors do not require this.
1207 * @note Need to connect to the TouchedSignal() or HoveredSignal() to actually receive this event.
1210 void SetLeaveRequired(bool required);
1213 * @brief This returns whether the actor requires touch or hover events whenever touch or hover motion events leave
1214 * the boundary of the actor.
1217 * @return True if a Leave event is required, false otherwise.
1218 * @pre The Actor has been initialized.
1220 bool GetLeaveRequired() const;
1223 * @brief Sets whether the actor should be focusable by keyboard navigation.
1225 * The default is false.
1227 * @param[in] focusable - true if the actor should be focusable by keyboard navigation,
1229 * @pre The Actor has been initialized.
1231 void SetKeyboardFocusable( bool focusable );
1234 * @brief Returns whether the actor is focusable by keyboard navigation.
1237 * @return True if the actor is focusable by keyboard navigation, false if not.
1238 * @pre The Actor has been initialized.
1240 bool IsKeyboardFocusable() const;
1245 * @brief Set the resize policy to be used for the given dimension(s).
1248 * @param[in] policy The resize policy to use
1249 * @param[in] dimension The dimension(s) to set policy for. Can be a bitfield of multiple dimensions.
1251 void SetResizePolicy( ResizePolicy::Type policy, Dimension::Type dimension );
1254 * @brief Return the resize policy used for a single dimension.
1257 * @param[in] dimension The dimension to get policy for
1258 * @return Return the dimension resize policy. If more than one dimension is requested, just return the first one found.
1260 ResizePolicy::Type GetResizePolicy( Dimension::Type dimension ) const;
1263 * @brief Set the policy to use when setting size with size negotiation. Defaults to SizeScalePolicy::USE_SIZE_SET.
1266 * @param[in] policy The policy to use for when the size is set
1268 void SetSizeScalePolicy( SizeScalePolicy::Type policy );
1271 * @brief Return the size scale policy in use.
1274 * @return Return the size scale policy.
1276 SizeScalePolicy::Type GetSizeScalePolicy() const;
1279 * @brief Sets the relative to parent size factor of the actor.
1281 * This factor is only used when ResizePolicy is set to either:
1282 * ResizePolicy::SIZE_RELATIVE_TO_PARENT or ResizePolicy::SIZE_FIXED_OFFSET_FROM_PARENT.
1283 * This actor's size is set to the actor's size multipled by or added to this factor,
1284 * depending on ResizePolicy ( See SetResizePolicy() ).
1287 * @param [in] factor A Vector3 representing the relative factor to be applied to each axis.
1288 * @pre The Actor has been initialized.
1290 void SetSizeModeFactor( const Vector3& factor );
1293 * @brief Retrieve the relative to parent size factor of the actor.
1296 * @return The Actor's current relative size factor.
1297 * @pre The Actor has been initialized.
1299 Vector3 GetSizeModeFactor() const;
1302 * @brief Calculate the height of the actor given a width.
1304 * The natural size is used for default calculation.
1305 * size 0 is treated as aspect ratio 1:1.
1308 * @param width Width to use
1309 * @return Return the height based on the width.
1311 float GetHeightForWidth( float width );
1314 * @brief Calculate the width of the actor given a height.
1316 * The natural size is used for default calculation.
1317 * size 0 is treated as aspect ratio 1:1.
1320 * @param height Height to use
1321 * @return Return the width based on the height.
1323 float GetWidthForHeight( float height );
1326 * @brief Return the value of negotiated dimension for the given dimension.
1329 * @param dimension The dimension to retrieve
1330 * @return Return the value of the negotiated dimension. If more than one dimension is requested, just return the first one found.
1332 float GetRelayoutSize( Dimension::Type dimension ) const;
1335 * @brief Set the padding for use in layout.
1338 * @param[in] padding Padding for the actor
1340 void SetPadding( const Padding& padding );
1343 * @brief Return the value of the padding.
1346 * @param paddingOut The returned padding data
1348 void GetPadding( Padding& paddingOut ) const;
1351 * @brief Set the minimum size an actor can be assigned in size negotiation.
1354 * @param[in] size The minimum size
1356 void SetMinimumSize( const Vector2& size );
1359 * @brief Return the minimum relayout size.
1362 * @return Return the mininmum size.
1364 Vector2 GetMinimumSize();
1367 * @brief Set the maximum size an actor can be assigned in size negotiation.
1370 * @param[in] size The maximum size
1372 void SetMaximumSize( const Vector2& size );
1375 * @brief Return the maximum relayout size.
1378 * @return Return the maximum size.
1380 Vector2 GetMaximumSize();
1383 * @brief Get depth in the hierarchy for the actor.
1386 * @return The current depth in the hierarchy of the actor, or -1 if actor is not in the hierarchy
1388 int GetHierarchyDepth();
1393 * @brief Add a renderer to this actor.
1396 * @param[in] renderer Renderer to add to the actor
1397 * @return The index of the Renderer that was added
1398 * @pre The renderer must be initialized.
1401 unsigned int AddRenderer( Renderer& renderer );
1404 * @brief Get the number of renderers on this actor.
1407 * @return the number of renderers on this actor
1409 unsigned int GetRendererCount() const;
1412 * @brief Get a Renderer by index.
1415 * @param[in] index The index of the renderer to fetch
1416 * @return The renderer at the specified index
1417 * @pre The index must be between 0 and GetRendererCount()-1
1420 Renderer GetRendererAt( unsigned int index );
1423 * @brief Remove an renderer from the actor.
1426 * @param[in] renderer Handle to the renderer that is to be removed
1428 void RemoveRenderer( Renderer& renderer );
1431 * @brief Remove an renderer from the actor by index.
1434 * @param[in] index Index of the renderer that is to be removed
1435 * @pre The index must be between 0 and GetRendererCount()-1
1438 void RemoveRenderer( unsigned int index );
1443 * @DEPRECATED_1_1.37 Use TouchSignal() instead.
1444 * @brief This signal is emitted when touch input is received.
1446 * A callback of the following type may be connected:
1448 * bool YourCallbackName(Actor actor, const TouchEvent& event);
1450 * The return value of True, indicates that the touch event should be consumed.
1451 * Otherwise the signal will be emitted on the next sensitive parent of the actor.
1453 * @return The signal to connect to.
1454 * @pre The Actor has been initialized.
1456 TouchSignalType& TouchedSignal();
1459 * @brief This signal is emitted when touch input is received.
1461 * A callback of the following type may be connected:
1463 * bool YourCallbackName( Actor actor, TouchData& touch );
1465 * The return value of True, indicates that the touch event has been consumed.
1466 * Otherwise the signal will be emitted on the next sensitive parent of the actor.
1468 * @return The signal to connect to.
1469 * @pre The Actor has been initialized.
1471 TouchDataSignalType& TouchSignal();
1474 * @brief This signal is emitted when hover input is received.
1476 * A callback of the following type may be connected:
1478 * bool YourCallbackName(Actor actor, const HoverEvent& event);
1480 * The return value of True, indicates that the hover event should be consumed.
1481 * Otherwise the signal will be emitted on the next sensitive parent of the actor.
1483 * @return The signal to connect to.
1484 * @pre The Actor has been initialized.
1486 HoverSignalType& HoveredSignal();
1489 * @brief This signal is emitted when wheel event is received.
1491 * A callback of the following type may be connected:
1493 * bool YourCallbackName(Actor actor, const WheelEvent& event);
1495 * The return value of True, indicates that the wheel event should be consumed.
1496 * Otherwise the signal will be emitted on the next sensitive parent of the actor.
1498 * @return The signal to connect to.
1499 * @pre The Actor has been initialized.
1501 WheelEventSignalType& WheelEventSignal();
1504 * @brief This signal is emitted after the actor has been connected to the stage.
1506 * When an actor is connected, it will be directly or indirectly parented to the root Actor.
1508 * @return The signal to connect to.
1509 * @note The root Actor is provided automatically by Dali::Stage, and is always considered to be connected.
1511 * @note When the parent of a set of actors is connected to the stage, then all of the children
1512 * will received this callback.
1513 * For the following actor tree, the callback order will be A, B, D, E, C, and finally F.
1525 OnStageSignalType& OnStageSignal();
1528 * @brief This signal is emitted after the actor has been disconnected from the stage.
1530 * If an actor is disconnected it either has no parent, or is parented to a disconnected actor.
1533 * @return The signal to connect to.
1534 * @note When the parent of a set of actors is disconnected to the stage, then all of the children
1535 * will received this callback, starting with the leaf actors.
1536 * For the following actor tree, the callback order will be D, E, B, F, C, and finally A.
1549 OffStageSignalType& OffStageSignal();
1552 * @brief This signal is emitted after the size has been set on the actor during relayout
1555 * @return The signal
1557 OnRelayoutSignalType& OnRelayoutSignal();
1559 public: // Not intended for application developers
1563 * @brief This constructor is used by Actor::New() methods.
1566 * @param [in] actor A pointer to a newly allocated Dali resource
1568 explicit DALI_INTERNAL Actor(Internal::Actor* actor);
1573 * @brief Helper for discarding an actor handle.
1575 * If the handle is empty, this method does nothing. Otherwise
1576 * Actor::Unparent() will be called, followed by Actor::Reset().
1578 * @param[in,out] actor A handle to an actor, or an empty handle.
1580 inline void UnparentAndReset( Actor& actor )
1594 #endif // __DALI_ACTOR_H__