1 #ifndef __DALI_TOOLKIT_ITEM_VIEW_H__
2 #define __DALI_TOOLKIT_ITEM_VIEW_H__
5 * Copyright (c) 2014 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.
22 * @addtogroup CAPI_DALI_TOOLKIT_ITEM_VIEW_MODULE
27 #include <dali/dali.h>
30 #include <dali-toolkit/public-api/controls/scrollable/scrollable.h>
31 #include <dali-toolkit/public-api/controls/scrollable/item-view/item-view-declarations.h>
33 namespace Dali DALI_IMPORT_API
39 namespace Internal DALI_INTERNAL
44 class ScrollConnector;
49 typedef IntrusivePtr<ItemLayout> ItemLayoutPtr;
52 * @brief ItemView is a scrollable layout container.
54 * Multiple ItemLayouts may be provided, to determine the logical position of each item a layout.
55 * Actors are provided from an external ItemFactory, to display the currently visible items.
57 class ItemView : public Scrollable
62 * @brief Create an uninitialized ItemView; this can be initialized with ItemView::New().
64 * Calling member functions with an uninitialized Dali::Object is not allowed.
69 * @brief Copy constructor.
71 ItemView( const ItemView& itemView );
74 * @brief Assignment operator.
76 ItemView& operator=( const ItemView& itemView );
81 * This is non-virtual since derived Handle types must not contain data or virtual methods.
86 * @brief Create an initialized ItemView.
88 * @param[in] factory The factory which provides ItemView with items.
89 * @return A handle to a newly allocated Dali resource.
91 static ItemView New(ItemFactory& factory);
94 * @brief Downcast an Object handle to ItemView.
96 * If handle points to a ItemView the downcast produces valid
97 * handle. If not the returned handle is left uninitialized.
99 * @param[in] handle Handle to an object
100 * @return handle to a ItemView or an uninitialized handle
102 static ItemView DownCast( BaseHandle handle );
105 * @brief Retrieve a scroll-connector; this can be used to connect scroll components e.g. scroll bars.
107 * @return The connector.
109 ScrollConnector GetScrollConnector() const;
112 * @brief Query the number of layouts.
114 * @return The number of layouts.
116 unsigned int GetLayoutCount() const;
119 * @brief Add a layout.
121 * @param[in] layout The layout.
123 void AddLayout(ItemLayout& layout);
126 * @brief Remove a layout.
128 * @pre layoutIndex is less than GetLayoutCount().
129 * @param[in] layoutIndex The index of one of the ItemView layouts.
131 void RemoveLayout(unsigned int layoutIndex);
134 * @brief Retrieve a layout.
136 * @pre layoutIndex is less than GetLayoutCount().
137 * @param[in] layoutIndex The index of the layout to retrieve.
140 ItemLayoutPtr GetLayout(unsigned int layoutIndex) const;
143 * @brief Retrieve the currently active layout, if any.
145 * @return The layout, or an uninitialized pointer if no layout is active.
147 ItemLayoutPtr GetActiveLayout() const;
150 * @brief Retrieve the current layout-position of an item in the ItemView.
152 * @param[in] itemId The item identifier.
153 * @return The current layout-position.
155 float GetCurrentLayoutPosition(ItemId itemId) const;
158 * @brief Activate one of the layouts; this will resize the ItemView
159 * & relayout actors within the ItemView.
161 * This is done by applying constraints from the new layout, and
162 * removing constraints from the previous layout.
164 * @pre layoutIndex is less than GetLayoutCount().
165 * @pre durationSeconds is greater or equal to zero.
166 * @param[in] layoutIndex The index of one of the ItemView layouts.
167 * @param[in] targetSize The target ItemView & layout size.
168 * @param[in] durationSeconds The time taken to relayout in seconds (zero for immediate).
170 void ActivateLayout(unsigned int layoutIndex, Vector3 targetSize, float durationSeconds);
173 * @brief Deactivate the current layout, if any.
175 * The constraints applied by the layout will be removed.
177 void DeactivateCurrentLayout();
180 * @brief Set default the alpha function used when applying constraints e.g. during ActivateLayout().
182 * @param[in] func The default alpha function to use.
184 void SetDefaultAlphaFunction(AlphaFunction func);
187 * @brief Retrieve the default alpha function for an animation.
189 * @return The default alpha function.
191 AlphaFunction GetDefaultAlphaFunction() const;
194 * @brief Set the minimum swipe speed in pixels per second; A pan
195 * gesture must exceed this to trigger a swipe.
197 * @param[in] speed The minimum swipe speed
199 void SetMinimumSwipeSpeed(float speed);
202 * @brief Get the minimum swipe speed in pixels per second.
204 * @return The minimum swipe speed
206 float GetMinimumSwipeSpeed() const;
209 * @brief Set the minimum swipe distance in actor coordinates; A pan
210 * gesture must exceed this to trigger a swipe.
212 * @param[in] distance The minimum swipe distance.
214 void SetMinimumSwipeDistance(float distance);
217 * @brief Get the minimum swipe distance in actor coordinates.
219 * @return The minimum swipe distance
221 float GetMinimumSwipeDistance() const;
224 * @brief Set the step of scroll distance in actor coordinates for each mouse wheel event received.
226 * @param[in] step The step of scroll distance(pixel).
228 void SetMouseWheelScrollDistanceStep(float step);
231 * @brief Get the step of scroll distance in actor coordinates for each mouse wheel event received.
233 * @return The step of scroll distance(pixel)
235 float GetMouseWheelScrollDistanceStep() const;
238 * @brief Set whether to enable the animation for the layout to
239 * scroll to its anchor position after dragging or swiping.
241 * The anchor position is the position where all the items in the layout
242 * are aligned to their closest rounded layout positions in integer.
244 * @param[in] enabled Whether the anchor animation is enabled or not.
246 void SetAnchoring(bool enabled);
249 * @brief Get whether the anchor animation is enabled or not.
251 * @return Whether the anchor animation is enabled or not.
253 bool GetAnchoring() const;
256 * @brief Set the duration of the anchor animation in seconds.
258 * This is the time taken to reach the nearest anchor position after
259 * a drag or swipe gesture ends.
261 * @pre durationSeconds must be greater than zero.
262 * @param[in] durationSeconds The duration of the anchor animation in seconds.
264 void SetAnchoringDuration(float durationSeconds);
267 * @brief Get the duration of the anchor animation in seconds.
269 * @return The duration of the anchor animation
271 float GetAnchoringDuration() const;
274 * @brief Scroll the current layout to a particular item.
276 * @pre durationSeconds must be zero or greater; zero means the layout should scroll to the particular item instantly.
277 * If calling this with zero second of duration immediately after calling ActivateLayout, it might not work unless
278 * the duration of relayout animation for ActivateLayout is also set to be zero.
279 * @param[in] itemId The ID of an item in the layout.
280 * @param[in] durationSeconds How long the scrolling takes in seconds.
282 void ScrollToItem(ItemId itemId, float durationSeconds);
285 * @brief Set the interval between refreshes. When the layout-position of items is changed by this interval,
286 * new items are requested from ItemFactory.
288 * @param[in] intervalLayoutPositions The refresh interval in layout position.
290 void SetRefreshInterval(float intervalLayoutPositions);
293 * @brief Get the interval between refreshes in layout position.
295 * @return The refresh interval
297 float GetRefreshInterval() const;
300 * @brief Given the Item ID, this returns the accompanying actor.
302 * @param[in] itemId The Item ID of the actor required.
303 * @return The Actor corresponding to the Item ID.
305 Actor GetItem(ItemId itemId) const;
308 * @brief Returns the Item ID of the specified actor.
310 * @param[in] actor The actor whose Item ID is required.
311 * @return The Item ID of the item.
312 * @pre The actor should be an item of ItemView.
314 ItemId GetItemId(Actor actor) const;
317 * @brief Insert an item.
319 * A relayout will occur for the existing actors; for example if InsertItem(Item(2, ActorZ), 0) is called,
320 * the items with ID 2 or greater will be moved:
321 * Initial actors: After insert:
322 * ID 1 - ActorA ID 1 - ActorA
323 * ID 2 - ActorB ID 2 - ActorZ !
324 * ID 3 - ActorC ID 3 - ActorB
326 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
327 * @param[in] newItem The item to insert.
328 * @param[in] durationSeconds How long the relayout takes in seconds.
330 void InsertItem(Item newItem, float durationSeconds);
333 * @brief Insert a set of items; this is more efficient than calling InsertItem() repeatedly.
335 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
336 * @param[in] newItems The items to insert.
337 * @param[in] durationSeconds How long the relayout takes in seconds.
339 void InsertItems(const ItemContainer& newItems, float durationSeconds);
342 * @brief Removes an item with the given ID.
344 * A relayout will occur for the remaining actors; for example if RemoveItem(Item(2, ActorZ), 0) is called,
345 * the items with ID 3 or greater will be moved:
346 * Initial actors: After remove:
347 * ID 1 - ActorA ID 1 - ActorA
348 * ID 2 - ActorB ID 2 - ActorC (previously ID 3)
349 * ID 3 - ActorC ID 3 - ActorB (previously ID 4)
351 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
352 * @param[in] itemId The Item ID of the item to remove.
353 * @param[in] durationSeconds How long the relayout takes in seconds.
355 void RemoveItem(ItemId itemId, float durationSeconds);
358 * @brief Remove a set of items; this is more efficient than calling RemoveItem() repeatedly.
360 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
361 * @param[in] itemIds The IDs of the items to remove.
362 * @param[in] durationSeconds How long the relayout takes in seconds.
364 void RemoveItems(const ItemIdContainer& itemIds, float durationSeconds);
367 * @brief Replace an item.
369 * A relayout will occur for the replacement item only.
370 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
371 * @param[in] replacementItem The replacement for an existing item.
372 * @param[in] durationSeconds How long the relayout takes in seconds.
374 void ReplaceItem(Item replacementItem, float durationSeconds);
377 * @brief Replace a set of items.
379 * A relayout will occur for the replacement items only.
380 * @pre durationSeconds must be zero or greater; zero means the relayout occurs instantly.
381 * @param[in] replacementItems The replacements for a set of existing items.
382 * @param[in] durationSeconds How long the relayout takes in seconds.
384 void ReplaceItems(const ItemContainer& replacementItems, float durationSeconds);
387 * @brief Set the parent origin of the items
389 * A relayout will occur for all the items if the parent origin is different than the current one.
390 * @param[in] parentOrigin New parent origin position vector
392 void SetItemsParentOrigin( const Vector3& parentOrigin );
395 * @brief Get the parent origin of the items
397 * @return The current parent origin of the items
399 Vector3 GetItemsParentOrigin() const;
402 * @brief Set the anchor point of the items
404 * A relayout will occur for all the items if the anchor point is different than the current one.
405 * @param[in] anchorPoint New anchor point position vector
407 void SetItemsAnchorPoint( const Vector3& anchorPoint );
410 * @brief Get the anchor point of the items
412 * @return The current anchor point of the items
414 Vector3 GetItemsAnchorPoint() const;
417 * @brief Get the range of items that are currently in ItemView.
419 * @param[out] range The range of items.
421 void GetItemsRange(ItemRange& range);
423 public: // Not intended for application developers
426 * @brief Creates a handle using the Toolkit::Internal implementation.
428 * @param[in] implementation The Control implementation.
430 ItemView(Internal::ItemView& implementation);
433 * @brief Allows the creation of this Control from an Internal::CustomActor pointer.
435 * @param[in] internal A pointer to the internal CustomActor.
437 ItemView( Dali::Internal::CustomActor* internal );
440 } // namespace Toolkit
447 #endif // __DALI_TOOLKIT_ITEM_VIEW_H__