1 /* 2 * Copyright (C) 2017 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package com.android.internal.widget; 18 19 import android.annotation.CallSuper; 20 import android.annotation.IntDef; 21 import android.annotation.NonNull; 22 import android.annotation.Nullable; 23 import android.annotation.UnsupportedAppUsage; 24 import android.content.Context; 25 import android.content.res.TypedArray; 26 import android.database.Observable; 27 import android.graphics.Canvas; 28 import android.graphics.Matrix; 29 import android.graphics.PointF; 30 import android.graphics.Rect; 31 import android.graphics.RectF; 32 import android.os.Build; 33 import android.os.Bundle; 34 import android.os.Parcel; 35 import android.os.Parcelable; 36 import android.os.SystemClock; 37 import android.os.Trace; 38 import android.util.AttributeSet; 39 import android.util.Log; 40 import android.util.SparseArray; 41 import android.util.TypedValue; 42 import android.view.AbsSavedState; 43 import android.view.Display; 44 import android.view.FocusFinder; 45 import android.view.InputDevice; 46 import android.view.MotionEvent; 47 import android.view.VelocityTracker; 48 import android.view.View; 49 import android.view.ViewConfiguration; 50 import android.view.ViewGroup; 51 import android.view.ViewParent; 52 import android.view.accessibility.AccessibilityEvent; 53 import android.view.accessibility.AccessibilityManager; 54 import android.view.accessibility.AccessibilityNodeInfo; 55 import android.view.animation.Interpolator; 56 import android.widget.EdgeEffect; 57 import android.widget.OverScroller; 58 59 import com.android.internal.R; 60 import com.android.internal.annotations.VisibleForTesting; 61 import com.android.internal.widget.RecyclerView.ItemAnimator.ItemHolderInfo; 62 63 import java.lang.annotation.Retention; 64 import java.lang.annotation.RetentionPolicy; 65 import java.lang.ref.WeakReference; 66 import java.lang.reflect.Constructor; 67 import java.lang.reflect.InvocationTargetException; 68 import java.util.ArrayList; 69 import java.util.Collections; 70 import java.util.List; 71 72 /** 73 * A flexible view for providing a limited window into a large data set. 74 * 75 * <h3>Glossary of terms:</h3> 76 * 77 * <ul> 78 * <li><em>Adapter:</em> A subclass of {@link Adapter} responsible for providing views 79 * that represent items in a data set.</li> 80 * <li><em>Position:</em> The position of a data item within an <em>Adapter</em>.</li> 81 * <li><em>Index:</em> The index of an attached child view as used in a call to 82 * {@link ViewGroup#getChildAt}. Contrast with <em>Position.</em></li> 83 * <li><em>Binding:</em> The process of preparing a child view to display data corresponding 84 * to a <em>position</em> within the adapter.</li> 85 * <li><em>Recycle (view):</em> A view previously used to display data for a specific adapter 86 * position may be placed in a cache for later reuse to display the same type of data again 87 * later. This can drastically improve performance by skipping initial layout inflation 88 * or construction.</li> 89 * <li><em>Scrap (view):</em> A child view that has entered into a temporarily detached 90 * state during layout. Scrap views may be reused without becoming fully detached 91 * from the parent RecyclerView, either unmodified if no rebinding is required or modified 92 * by the adapter if the view was considered <em>dirty</em>.</li> 93 * <li><em>Dirty (view):</em> A child view that must be rebound by the adapter before 94 * being displayed.</li> 95 * </ul> 96 * 97 * <h4>Positions in RecyclerView:</h4> 98 * <p> 99 * RecyclerView introduces an additional level of abstraction between the {@link Adapter} and 100 * {@link LayoutManager} to be able to detect data set changes in batches during a layout 101 * calculation. This saves LayoutManager from tracking adapter changes to calculate animations. 102 * It also helps with performance because all view bindings happen at the same time and unnecessary 103 * bindings are avoided. 104 * <p> 105 * For this reason, there are two types of <code>position</code> related methods in RecyclerView: 106 * <ul> 107 * <li>layout position: Position of an item in the latest layout calculation. This is the 108 * position from the LayoutManager's perspective.</li> 109 * <li>adapter position: Position of an item in the adapter. This is the position from 110 * the Adapter's perspective.</li> 111 * </ul> 112 * <p> 113 * These two positions are the same except the time between dispatching <code>adapter.notify* 114 * </code> events and calculating the updated layout. 115 * <p> 116 * Methods that return or receive <code>*LayoutPosition*</code> use position as of the latest 117 * layout calculation (e.g. {@link ViewHolder#getLayoutPosition()}, 118 * {@link #findViewHolderForLayoutPosition(int)}). These positions include all changes until the 119 * last layout calculation. You can rely on these positions to be consistent with what user is 120 * currently seeing on the screen. For example, if you have a list of items on the screen and user 121 * asks for the 5<sup>th</sup> element, you should use these methods as they'll match what user 122 * is seeing. 123 * <p> 124 * The other set of position related methods are in the form of 125 * <code>*AdapterPosition*</code>. (e.g. {@link ViewHolder#getAdapterPosition()}, 126 * {@link #findViewHolderForAdapterPosition(int)}) You should use these methods when you need to 127 * work with up-to-date adapter positions even if they may not have been reflected to layout yet. 128 * For example, if you want to access the item in the adapter on a ViewHolder click, you should use 129 * {@link ViewHolder#getAdapterPosition()}. Beware that these methods may not be able to calculate 130 * adapter positions if {@link Adapter#notifyDataSetChanged()} has been called and new layout has 131 * not yet been calculated. For this reasons, you should carefully handle {@link #NO_POSITION} or 132 * <code>null</code> results from these methods. 133 * <p> 134 * When writing a {@link LayoutManager} you almost always want to use layout positions whereas when 135 * writing an {@link Adapter}, you probably want to use adapter positions. 136 */ 137 public class RecyclerView extends ViewGroup implements ScrollingView, NestedScrollingChild { 138 139 static final String TAG = "RecyclerView"; 140 141 static final boolean DEBUG = false; 142 143 private static final int[] NESTED_SCROLLING_ATTRS = { android.R.attr.nestedScrollingEnabled }; 144 145 private static final int[] CLIP_TO_PADDING_ATTR = {android.R.attr.clipToPadding}; 146 147 /** 148 * On Kitkat and JB MR2, there is a bug which prevents DisplayList from being invalidated if 149 * a View is two levels deep(wrt to ViewHolder.itemView). DisplayList can be invalidated by 150 * setting View's visibility to INVISIBLE when View is detached. On Kitkat and JB MR2, Recycler 151 * recursively traverses itemView and invalidates display list for each ViewGroup that matches 152 * this criteria. 153 */ 154 static final boolean FORCE_INVALIDATE_DISPLAY_LIST = Build.VERSION.SDK_INT == 18 155 || Build.VERSION.SDK_INT == 19 || Build.VERSION.SDK_INT == 20; 156 /** 157 * On M+, an unspecified measure spec may include a hint which we can use. On older platforms, 158 * this value might be garbage. To save LayoutManagers from it, RecyclerView sets the size to 159 * 0 when mode is unspecified. 160 */ 161 static final boolean ALLOW_SIZE_IN_UNSPECIFIED_SPEC = Build.VERSION.SDK_INT >= 23; 162 163 static final boolean POST_UPDATES_ON_ANIMATION = Build.VERSION.SDK_INT >= 16; 164 165 /** 166 * On L+, with RenderThread, the UI thread has idle time after it has passed a frame off to 167 * RenderThread but before the next frame begins. We schedule prefetch work in this window. 168 */ 169 private static final boolean ALLOW_THREAD_GAP_WORK = Build.VERSION.SDK_INT >= 21; 170 171 /** 172 * FocusFinder#findNextFocus is broken on ICS MR1 and older for View.FOCUS_BACKWARD direction. 173 * We convert it to an absolute direction such as FOCUS_DOWN or FOCUS_LEFT. 174 */ 175 private static final boolean FORCE_ABS_FOCUS_SEARCH_DIRECTION = Build.VERSION.SDK_INT <= 15; 176 177 /** 178 * on API 15-, a focused child can still be considered a focused child of RV even after 179 * it's being removed or its focusable flag is set to false. This is because when this focused 180 * child is detached, the reference to this child is not removed in clearFocus. API 16 and above 181 * properly handle this case by calling ensureInputFocusOnFirstFocusable or rootViewRequestFocus 182 * to request focus on a new child, which will clear the focus on the old (detached) child as a 183 * side-effect. 184 */ 185 private static final boolean IGNORE_DETACHED_FOCUSED_CHILD = Build.VERSION.SDK_INT <= 15; 186 187 static final boolean DISPATCH_TEMP_DETACH = false; 188 public static final int HORIZONTAL = 0; 189 public static final int VERTICAL = 1; 190 191 public static final int NO_POSITION = -1; 192 public static final long NO_ID = -1; 193 public static final int INVALID_TYPE = -1; 194 195 /** 196 * Constant for use with {@link #setScrollingTouchSlop(int)}. Indicates 197 * that the RecyclerView should use the standard touch slop for smooth, 198 * continuous scrolling. 199 */ 200 public static final int TOUCH_SLOP_DEFAULT = 0; 201 202 /** 203 * Constant for use with {@link #setScrollingTouchSlop(int)}. Indicates 204 * that the RecyclerView should use the standard touch slop for scrolling 205 * widgets that snap to a page or other coarse-grained barrier. 206 */ 207 public static final int TOUCH_SLOP_PAGING = 1; 208 209 static final int MAX_SCROLL_DURATION = 2000; 210 211 /** 212 * RecyclerView is calculating a scroll. 213 * If there are too many of these in Systrace, some Views inside RecyclerView might be causing 214 * it. Try to avoid using EditText, focusable views or handle them with care. 215 */ 216 static final String TRACE_SCROLL_TAG = "RV Scroll"; 217 218 /** 219 * OnLayout has been called by the View system. 220 * If this shows up too many times in Systrace, make sure the children of RecyclerView do not 221 * update themselves directly. This will cause a full re-layout but when it happens via the 222 * Adapter notifyItemChanged, RecyclerView can avoid full layout calculation. 223 */ 224 private static final String TRACE_ON_LAYOUT_TAG = "RV OnLayout"; 225 226 /** 227 * NotifyDataSetChanged or equal has been called. 228 * If this is taking a long time, try sending granular notify adapter changes instead of just 229 * calling notifyDataSetChanged or setAdapter / swapAdapter. Adding stable ids to your adapter 230 * might help. 231 */ 232 private static final String TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG = "RV FullInvalidate"; 233 234 /** 235 * RecyclerView is doing a layout for partial adapter updates (we know what has changed) 236 * If this is taking a long time, you may have dispatched too many Adapter updates causing too 237 * many Views being rebind. Make sure all are necessary and also prefer using notify*Range 238 * methods. 239 */ 240 private static final String TRACE_HANDLE_ADAPTER_UPDATES_TAG = "RV PartialInvalidate"; 241 242 /** 243 * RecyclerView is rebinding a View. 244 * If this is taking a lot of time, consider optimizing your layout or make sure you are not 245 * doing extra operations in onBindViewHolder call. 246 */ 247 static final String TRACE_BIND_VIEW_TAG = "RV OnBindView"; 248 249 /** 250 * RecyclerView is attempting to pre-populate off screen views. 251 */ 252 static final String TRACE_PREFETCH_TAG = "RV Prefetch"; 253 254 /** 255 * RecyclerView is attempting to pre-populate off screen itemviews within an off screen 256 * RecyclerView. 257 */ 258 static final String TRACE_NESTED_PREFETCH_TAG = "RV Nested Prefetch"; 259 260 /** 261 * RecyclerView is creating a new View. 262 * If too many of these present in Systrace: 263 * - There might be a problem in Recycling (e.g. custom Animations that set transient state and 264 * prevent recycling or ItemAnimator not implementing the contract properly. ({@link 265 * > Adapter#onFailedToRecycleView(ViewHolder)}) 266 * 267 * - There might be too many item view types. 268 * > Try merging them 269 * 270 * - There might be too many itemChange animations and not enough space in RecyclerPool. 271 * >Try increasing your pool size and item cache size. 272 */ 273 static final String TRACE_CREATE_VIEW_TAG = "RV CreateView"; 274 private static final Class<?>[] LAYOUT_MANAGER_CONSTRUCTOR_SIGNATURE = 275 new Class[]{Context.class, AttributeSet.class, int.class, int.class}; 276 277 private final RecyclerViewDataObserver mObserver = new RecyclerViewDataObserver(); 278 279 final Recycler mRecycler = new Recycler(); 280 281 private SavedState mPendingSavedState; 282 283 /** 284 * Handles adapter updates 285 */ 286 AdapterHelper mAdapterHelper; 287 288 /** 289 * Handles abstraction between LayoutManager children and RecyclerView children 290 */ 291 ChildHelper mChildHelper; 292 293 /** 294 * Keeps data about views to be used for animations 295 */ 296 final ViewInfoStore mViewInfoStore = new ViewInfoStore(); 297 298 /** 299 * Prior to L, there is no way to query this variable which is why we override the setter and 300 * track it here. 301 */ 302 boolean mClipToPadding; 303 304 /** 305 * Note: this Runnable is only ever posted if: 306 * 1) We've been through first layout 307 * 2) We know we have a fixed size (mHasFixedSize) 308 * 3) We're attached 309 */ 310 final Runnable mUpdateChildViewsRunnable = new Runnable() { 311 @Override 312 public void run() { 313 if (!mFirstLayoutComplete || isLayoutRequested()) { 314 // a layout request will happen, we should not do layout here. 315 return; 316 } 317 if (!mIsAttached) { 318 requestLayout(); 319 // if we are not attached yet, mark us as requiring layout and skip 320 return; 321 } 322 if (mLayoutFrozen) { 323 mLayoutRequestEaten = true; 324 return; //we'll process updates when ice age ends. 325 } 326 consumePendingUpdateOperations(); 327 } 328 }; 329 330 final Rect mTempRect = new Rect(); 331 private final Rect mTempRect2 = new Rect(); 332 final RectF mTempRectF = new RectF(); 333 Adapter mAdapter; 334 @VisibleForTesting LayoutManager mLayout; 335 RecyclerListener mRecyclerListener; 336 final ArrayList<ItemDecoration> mItemDecorations = new ArrayList<>(); 337 private final ArrayList<OnItemTouchListener> mOnItemTouchListeners = 338 new ArrayList<>(); 339 private OnItemTouchListener mActiveOnItemTouchListener; 340 boolean mIsAttached; 341 boolean mHasFixedSize; 342 @VisibleForTesting boolean mFirstLayoutComplete; 343 344 // Counting lock to control whether we should ignore requestLayout calls from children or not. 345 private int mEatRequestLayout = 0; 346 347 boolean mLayoutRequestEaten; 348 boolean mLayoutFrozen; 349 private boolean mIgnoreMotionEventTillDown; 350 351 // binary OR of change events that were eaten during a layout or scroll. 352 private int mEatenAccessibilityChangeFlags; 353 boolean mAdapterUpdateDuringMeasure; 354 355 private final AccessibilityManager mAccessibilityManager; 356 private List<OnChildAttachStateChangeListener> mOnChildAttachStateListeners; 357 358 /** 359 * Set to true when an adapter data set changed notification is received. 360 * In that case, we cannot run any animations since we don't know what happened until layout. 361 * 362 * Attached items are invalid until next layout, at which point layout will animate/replace 363 * items as necessary, building up content from the (effectively) new adapter from scratch. 364 * 365 * Cached items must be discarded when setting this to true, so that the cache may be freely 366 * used by prefetching until the next layout occurs. 367 * 368 * @see #setDataSetChangedAfterLayout() 369 */ 370 boolean mDataSetHasChangedAfterLayout = false; 371 372 /** 373 * This variable is incremented during a dispatchLayout and/or scroll. 374 * Some methods should not be called during these periods (e.g. adapter data change). 375 * Doing so will create hard to find bugs so we better check it and throw an exception. 376 * 377 * @see #assertInLayoutOrScroll(String) 378 * @see #assertNotInLayoutOrScroll(String) 379 */ 380 private int mLayoutOrScrollCounter = 0; 381 382 /** 383 * Similar to mLayoutOrScrollCounter but logs a warning instead of throwing an exception 384 * (for API compatibility). 385 * <p> 386 * It is a bad practice for a developer to update the data in a scroll callback since it is 387 * potentially called during a layout. 388 */ 389 private int mDispatchScrollCounter = 0; 390 391 private EdgeEffect mLeftGlow, mTopGlow, mRightGlow, mBottomGlow; 392 393 ItemAnimator mItemAnimator = new DefaultItemAnimator(); 394 395 private static final int INVALID_POINTER = -1; 396 397 /** 398 * The RecyclerView is not currently scrolling. 399 * @see #getScrollState() 400 */ 401 public static final int SCROLL_STATE_IDLE = 0; 402 403 /** 404 * The RecyclerView is currently being dragged by outside input such as user touch input. 405 * @see #getScrollState() 406 */ 407 public static final int SCROLL_STATE_DRAGGING = 1; 408 409 /** 410 * The RecyclerView is currently animating to a final position while not under 411 * outside control. 412 * @see #getScrollState() 413 */ 414 public static final int SCROLL_STATE_SETTLING = 2; 415 416 static final long FOREVER_NS = Long.MAX_VALUE; 417 418 // Touch/scrolling handling 419 420 private int mScrollState = SCROLL_STATE_IDLE; 421 private int mScrollPointerId = INVALID_POINTER; 422 private VelocityTracker mVelocityTracker; 423 private int mInitialTouchX; 424 private int mInitialTouchY; 425 private int mLastTouchX; 426 private int mLastTouchY; 427 private int mTouchSlop; 428 private OnFlingListener mOnFlingListener; 429 private final int mMinFlingVelocity; 430 private final int mMaxFlingVelocity; 431 // This value is used when handling generic motion events. 432 private float mScrollFactor = Float.MIN_VALUE; 433 private boolean mPreserveFocusAfterLayout = true; 434 435 final ViewFlinger mViewFlinger = new ViewFlinger(); 436 437 GapWorker mGapWorker; 438 GapWorker.LayoutPrefetchRegistryImpl mPrefetchRegistry = 439 ALLOW_THREAD_GAP_WORK ? new GapWorker.LayoutPrefetchRegistryImpl() : null; 440 441 final State mState = new State(); 442 443 private OnScrollListener mScrollListener; 444 private List<OnScrollListener> mScrollListeners; 445 446 // For use in item animations 447 boolean mItemsAddedOrRemoved = false; 448 boolean mItemsChanged = false; 449 private ItemAnimator.ItemAnimatorListener mItemAnimatorListener = 450 new ItemAnimatorRestoreListener(); 451 boolean mPostedAnimatorRunner = false; 452 RecyclerViewAccessibilityDelegate mAccessibilityDelegate; 453 private ChildDrawingOrderCallback mChildDrawingOrderCallback; 454 455 // simple array to keep min and max child position during a layout calculation 456 // preserved not to create a new one in each layout pass 457 private final int[] mMinMaxLayoutPositions = new int[2]; 458 459 private final int[] mScrollOffset = new int[2]; 460 private final int[] mScrollConsumed = new int[2]; 461 private final int[] mNestedOffsets = new int[2]; 462 463 /** 464 * These are views that had their a11y importance changed during a layout. We defer these events 465 * until the end of the layout because a11y service may make sync calls back to the RV while 466 * the View's state is undefined. 467 */ 468 @VisibleForTesting 469 final List<ViewHolder> mPendingAccessibilityImportanceChange = new ArrayList(); 470 471 private Runnable mItemAnimatorRunner = new Runnable() { 472 @Override 473 public void run() { 474 if (mItemAnimator != null) { 475 mItemAnimator.runPendingAnimations(); 476 } 477 mPostedAnimatorRunner = false; 478 } 479 }; 480 481 static final Interpolator sQuinticInterpolator = new Interpolator() { 482 @Override 483 public float getInterpolation(float t) { 484 t -= 1.0f; 485 return t * t * t * t * t + 1.0f; 486 } 487 }; 488 489 /** 490 * The callback to convert view info diffs into animations. 491 */ 492 private final ViewInfoStore.ProcessCallback mViewInfoProcessCallback = 493 new ViewInfoStore.ProcessCallback() { 494 @Override 495 public void processDisappeared(ViewHolder viewHolder, @NonNull ItemHolderInfo info, 496 @Nullable ItemHolderInfo postInfo) { 497 mRecycler.unscrapView(viewHolder); 498 animateDisappearance(viewHolder, info, postInfo); 499 } 500 @Override 501 public void processAppeared(ViewHolder viewHolder, 502 ItemHolderInfo preInfo, ItemHolderInfo info) { 503 animateAppearance(viewHolder, preInfo, info); 504 } 505 506 @Override 507 public void processPersistent(ViewHolder viewHolder, 508 @NonNull ItemHolderInfo preInfo, @NonNull ItemHolderInfo postInfo) { 509 viewHolder.setIsRecyclable(false); 510 if (mDataSetHasChangedAfterLayout) { 511 // since it was rebound, use change instead as we'll be mapping them from 512 // stable ids. If stable ids were false, we would not be running any 513 // animations 514 if (mItemAnimator.animateChange(viewHolder, viewHolder, preInfo, postInfo)) { 515 postAnimationRunner(); 516 } 517 } else if (mItemAnimator.animatePersistence(viewHolder, preInfo, postInfo)) { 518 postAnimationRunner(); 519 } 520 } 521 @Override 522 public void unused(ViewHolder viewHolder) { 523 mLayout.removeAndRecycleView(viewHolder.itemView, mRecycler); 524 } 525 }; 526 RecyclerView(Context context)527 public RecyclerView(Context context) { 528 this(context, null); 529 } 530 RecyclerView(Context context, @Nullable AttributeSet attrs)531 public RecyclerView(Context context, @Nullable AttributeSet attrs) { 532 this(context, attrs, 0); 533 } 534 RecyclerView(Context context, @Nullable AttributeSet attrs, int defStyle)535 public RecyclerView(Context context, @Nullable AttributeSet attrs, int defStyle) { 536 super(context, attrs, defStyle); 537 if (attrs != null) { 538 TypedArray a = context.obtainStyledAttributes(attrs, CLIP_TO_PADDING_ATTR, defStyle, 0); 539 mClipToPadding = a.getBoolean(0, true); 540 a.recycle(); 541 } else { 542 mClipToPadding = true; 543 } 544 setScrollContainer(true); 545 setFocusableInTouchMode(true); 546 547 final ViewConfiguration vc = ViewConfiguration.get(context); 548 mTouchSlop = vc.getScaledTouchSlop(); 549 mMinFlingVelocity = vc.getScaledMinimumFlingVelocity(); 550 mMaxFlingVelocity = vc.getScaledMaximumFlingVelocity(); 551 setWillNotDraw(getOverScrollMode() == View.OVER_SCROLL_NEVER); 552 553 mItemAnimator.setListener(mItemAnimatorListener); 554 initAdapterManager(); 555 initChildrenHelper(); 556 // If not explicitly specified this view is important for accessibility. 557 if (getImportantForAccessibility() == View.IMPORTANT_FOR_ACCESSIBILITY_AUTO) { 558 setImportantForAccessibility(View.IMPORTANT_FOR_ACCESSIBILITY_YES); 559 } 560 mAccessibilityManager = (AccessibilityManager) getContext() 561 .getSystemService(Context.ACCESSIBILITY_SERVICE); 562 setAccessibilityDelegateCompat(new RecyclerViewAccessibilityDelegate(this)); 563 // Create the layoutManager if specified. 564 565 boolean nestedScrollingEnabled = true; 566 567 if (attrs != null) { 568 int defStyleRes = 0; 569 TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.RecyclerView, 570 defStyle, defStyleRes); 571 String layoutManagerName = a.getString(R.styleable.RecyclerView_layoutManager); 572 int descendantFocusability = a.getInt( 573 R.styleable.RecyclerView_descendantFocusability, -1); 574 if (descendantFocusability == -1) { 575 setDescendantFocusability(ViewGroup.FOCUS_AFTER_DESCENDANTS); 576 } 577 a.recycle(); 578 createLayoutManager(context, layoutManagerName, attrs, defStyle, defStyleRes); 579 580 if (Build.VERSION.SDK_INT >= 21) { 581 a = context.obtainStyledAttributes(attrs, NESTED_SCROLLING_ATTRS, 582 defStyle, defStyleRes); 583 nestedScrollingEnabled = a.getBoolean(0, true); 584 a.recycle(); 585 } 586 } else { 587 setDescendantFocusability(ViewGroup.FOCUS_AFTER_DESCENDANTS); 588 } 589 590 // Re-set whether nested scrolling is enabled so that it is set on all API levels 591 setNestedScrollingEnabled(nestedScrollingEnabled); 592 } 593 594 /** 595 * Returns the accessibility delegate compatibility implementation used by the RecyclerView. 596 * @return An instance of AccessibilityDelegateCompat used by RecyclerView 597 */ getCompatAccessibilityDelegate()598 public RecyclerViewAccessibilityDelegate getCompatAccessibilityDelegate() { 599 return mAccessibilityDelegate; 600 } 601 602 /** 603 * Sets the accessibility delegate compatibility implementation used by RecyclerView. 604 * @param accessibilityDelegate The accessibility delegate to be used by RecyclerView. 605 */ setAccessibilityDelegateCompat( RecyclerViewAccessibilityDelegate accessibilityDelegate)606 public void setAccessibilityDelegateCompat( 607 RecyclerViewAccessibilityDelegate accessibilityDelegate) { 608 mAccessibilityDelegate = accessibilityDelegate; 609 setAccessibilityDelegate(mAccessibilityDelegate); 610 } 611 612 /** 613 * Instantiate and set a LayoutManager, if specified in the attributes. 614 */ createLayoutManager(Context context, String className, AttributeSet attrs, int defStyleAttr, int defStyleRes)615 private void createLayoutManager(Context context, String className, AttributeSet attrs, 616 int defStyleAttr, int defStyleRes) { 617 if (className != null) { 618 className = className.trim(); 619 if (className.length() != 0) { // Can't use isEmpty since it was added in API 9. 620 className = getFullClassName(context, className); 621 try { 622 ClassLoader classLoader; 623 if (isInEditMode()) { 624 // Stupid layoutlib cannot handle simple class loaders. 625 classLoader = this.getClass().getClassLoader(); 626 } else { 627 classLoader = context.getClassLoader(); 628 } 629 Class<? extends LayoutManager> layoutManagerClass = 630 classLoader.loadClass(className).asSubclass(LayoutManager.class); 631 Constructor<? extends LayoutManager> constructor; 632 Object[] constructorArgs = null; 633 try { 634 constructor = layoutManagerClass 635 .getConstructor(LAYOUT_MANAGER_CONSTRUCTOR_SIGNATURE); 636 constructorArgs = new Object[]{context, attrs, defStyleAttr, defStyleRes}; 637 } catch (NoSuchMethodException e) { 638 try { 639 constructor = layoutManagerClass.getConstructor(); 640 } catch (NoSuchMethodException e1) { 641 e1.initCause(e); 642 throw new IllegalStateException(attrs.getPositionDescription() 643 + ": Error creating LayoutManager " + className, e1); 644 } 645 } 646 constructor.setAccessible(true); 647 setLayoutManager(constructor.newInstance(constructorArgs)); 648 } catch (ClassNotFoundException e) { 649 throw new IllegalStateException(attrs.getPositionDescription() 650 + ": Unable to find LayoutManager " + className, e); 651 } catch (InvocationTargetException e) { 652 throw new IllegalStateException(attrs.getPositionDescription() 653 + ": Could not instantiate the LayoutManager: " + className, e); 654 } catch (InstantiationException e) { 655 throw new IllegalStateException(attrs.getPositionDescription() 656 + ": Could not instantiate the LayoutManager: " + className, e); 657 } catch (IllegalAccessException e) { 658 throw new IllegalStateException(attrs.getPositionDescription() 659 + ": Cannot access non-public constructor " + className, e); 660 } catch (ClassCastException e) { 661 throw new IllegalStateException(attrs.getPositionDescription() 662 + ": Class is not a LayoutManager " + className, e); 663 } 664 } 665 } 666 } 667 getFullClassName(Context context, String className)668 private String getFullClassName(Context context, String className) { 669 if (className.charAt(0) == '.') { 670 return context.getPackageName() + className; 671 } 672 if (className.contains(".")) { 673 return className; 674 } 675 return RecyclerView.class.getPackage().getName() + '.' + className; 676 } 677 initChildrenHelper()678 private void initChildrenHelper() { 679 mChildHelper = new ChildHelper(new ChildHelper.Callback() { 680 @Override 681 public int getChildCount() { 682 return RecyclerView.this.getChildCount(); 683 } 684 685 @Override 686 public void addView(View child, int index) { 687 RecyclerView.this.addView(child, index); 688 dispatchChildAttached(child); 689 } 690 691 @Override 692 public int indexOfChild(View view) { 693 return RecyclerView.this.indexOfChild(view); 694 } 695 696 @Override 697 public void removeViewAt(int index) { 698 final View child = RecyclerView.this.getChildAt(index); 699 if (child != null) { 700 dispatchChildDetached(child); 701 } 702 RecyclerView.this.removeViewAt(index); 703 } 704 705 @Override 706 public View getChildAt(int offset) { 707 return RecyclerView.this.getChildAt(offset); 708 } 709 710 @Override 711 public void removeAllViews() { 712 final int count = getChildCount(); 713 for (int i = 0; i < count; i++) { 714 dispatchChildDetached(getChildAt(i)); 715 } 716 RecyclerView.this.removeAllViews(); 717 } 718 719 @Override 720 public ViewHolder getChildViewHolder(View view) { 721 return getChildViewHolderInt(view); 722 } 723 724 @Override 725 public void attachViewToParent(View child, int index, 726 ViewGroup.LayoutParams layoutParams) { 727 final ViewHolder vh = getChildViewHolderInt(child); 728 if (vh != null) { 729 if (!vh.isTmpDetached() && !vh.shouldIgnore()) { 730 throw new IllegalArgumentException("Called attach on a child which is not" 731 + " detached: " + vh); 732 } 733 if (DEBUG) { 734 Log.d(TAG, "reAttach " + vh); 735 } 736 vh.clearTmpDetachFlag(); 737 } 738 RecyclerView.this.attachViewToParent(child, index, layoutParams); 739 } 740 741 @Override 742 public void detachViewFromParent(int offset) { 743 final View view = getChildAt(offset); 744 if (view != null) { 745 final ViewHolder vh = getChildViewHolderInt(view); 746 if (vh != null) { 747 if (vh.isTmpDetached() && !vh.shouldIgnore()) { 748 throw new IllegalArgumentException("called detach on an already" 749 + " detached child " + vh); 750 } 751 if (DEBUG) { 752 Log.d(TAG, "tmpDetach " + vh); 753 } 754 vh.addFlags(ViewHolder.FLAG_TMP_DETACHED); 755 } 756 } 757 RecyclerView.this.detachViewFromParent(offset); 758 } 759 760 @Override 761 public void onEnteredHiddenState(View child) { 762 final ViewHolder vh = getChildViewHolderInt(child); 763 if (vh != null) { 764 vh.onEnteredHiddenState(RecyclerView.this); 765 } 766 } 767 768 @Override 769 public void onLeftHiddenState(View child) { 770 final ViewHolder vh = getChildViewHolderInt(child); 771 if (vh != null) { 772 vh.onLeftHiddenState(RecyclerView.this); 773 } 774 } 775 }); 776 } 777 initAdapterManager()778 void initAdapterManager() { 779 mAdapterHelper = new AdapterHelper(new AdapterHelper.Callback() { 780 @Override 781 public ViewHolder findViewHolder(int position) { 782 final ViewHolder vh = findViewHolderForPosition(position, true); 783 if (vh == null) { 784 return null; 785 } 786 // ensure it is not hidden because for adapter helper, the only thing matter is that 787 // LM thinks view is a child. 788 if (mChildHelper.isHidden(vh.itemView)) { 789 if (DEBUG) { 790 Log.d(TAG, "assuming view holder cannot be find because it is hidden"); 791 } 792 return null; 793 } 794 return vh; 795 } 796 797 @Override 798 public void offsetPositionsForRemovingInvisible(int start, int count) { 799 offsetPositionRecordsForRemove(start, count, true); 800 mItemsAddedOrRemoved = true; 801 mState.mDeletedInvisibleItemCountSincePreviousLayout += count; 802 } 803 804 @Override 805 public void offsetPositionsForRemovingLaidOutOrNewView( 806 int positionStart, int itemCount) { 807 offsetPositionRecordsForRemove(positionStart, itemCount, false); 808 mItemsAddedOrRemoved = true; 809 } 810 811 @Override 812 public void markViewHoldersUpdated(int positionStart, int itemCount, Object payload) { 813 viewRangeUpdate(positionStart, itemCount, payload); 814 mItemsChanged = true; 815 } 816 817 @Override 818 public void onDispatchFirstPass(AdapterHelper.UpdateOp op) { 819 dispatchUpdate(op); 820 } 821 822 void dispatchUpdate(AdapterHelper.UpdateOp op) { 823 switch (op.cmd) { 824 case AdapterHelper.UpdateOp.ADD: 825 mLayout.onItemsAdded(RecyclerView.this, op.positionStart, op.itemCount); 826 break; 827 case AdapterHelper.UpdateOp.REMOVE: 828 mLayout.onItemsRemoved(RecyclerView.this, op.positionStart, op.itemCount); 829 break; 830 case AdapterHelper.UpdateOp.UPDATE: 831 mLayout.onItemsUpdated(RecyclerView.this, op.positionStart, op.itemCount, 832 op.payload); 833 break; 834 case AdapterHelper.UpdateOp.MOVE: 835 mLayout.onItemsMoved(RecyclerView.this, op.positionStart, op.itemCount, 1); 836 break; 837 } 838 } 839 840 @Override 841 public void onDispatchSecondPass(AdapterHelper.UpdateOp op) { 842 dispatchUpdate(op); 843 } 844 845 @Override 846 public void offsetPositionsForAdd(int positionStart, int itemCount) { 847 offsetPositionRecordsForInsert(positionStart, itemCount); 848 mItemsAddedOrRemoved = true; 849 } 850 851 @Override 852 public void offsetPositionsForMove(int from, int to) { 853 offsetPositionRecordsForMove(from, to); 854 // should we create mItemsMoved ? 855 mItemsAddedOrRemoved = true; 856 } 857 }); 858 } 859 860 /** 861 * RecyclerView can perform several optimizations if it can know in advance that RecyclerView's 862 * size is not affected by the adapter contents. RecyclerView can still change its size based 863 * on other factors (e.g. its parent's size) but this size calculation cannot depend on the 864 * size of its children or contents of its adapter (except the number of items in the adapter). 865 * <p> 866 * If your use of RecyclerView falls into this category, set this to {@code true}. It will allow 867 * RecyclerView to avoid invalidating the whole layout when its adapter contents change. 868 * 869 * @param hasFixedSize true if adapter changes cannot affect the size of the RecyclerView. 870 */ setHasFixedSize(boolean hasFixedSize)871 public void setHasFixedSize(boolean hasFixedSize) { 872 mHasFixedSize = hasFixedSize; 873 } 874 875 /** 876 * @return true if the app has specified that changes in adapter content cannot change 877 * the size of the RecyclerView itself. 878 */ hasFixedSize()879 public boolean hasFixedSize() { 880 return mHasFixedSize; 881 } 882 883 @Override setClipToPadding(boolean clipToPadding)884 public void setClipToPadding(boolean clipToPadding) { 885 if (clipToPadding != mClipToPadding) { 886 invalidateGlows(); 887 } 888 mClipToPadding = clipToPadding; 889 super.setClipToPadding(clipToPadding); 890 if (mFirstLayoutComplete) { 891 requestLayout(); 892 } 893 } 894 895 /** 896 * Returns whether this RecyclerView will clip its children to its padding, and resize (but 897 * not clip) any EdgeEffect to the padded region, if padding is present. 898 * <p> 899 * By default, children are clipped to the padding of their parent 900 * RecyclerView. This clipping behavior is only enabled if padding is non-zero. 901 * 902 * @return true if this RecyclerView clips children to its padding and resizes (but doesn't 903 * clip) any EdgeEffect to the padded region, false otherwise. 904 * 905 * @attr name android:clipToPadding 906 */ 907 @Override getClipToPadding()908 public boolean getClipToPadding() { 909 return mClipToPadding; 910 } 911 912 /** 913 * Configure the scrolling touch slop for a specific use case. 914 * 915 * Set up the RecyclerView's scrolling motion threshold based on common usages. 916 * Valid arguments are {@link #TOUCH_SLOP_DEFAULT} and {@link #TOUCH_SLOP_PAGING}. 917 * 918 * @param slopConstant One of the <code>TOUCH_SLOP_</code> constants representing 919 * the intended usage of this RecyclerView 920 */ setScrollingTouchSlop(int slopConstant)921 public void setScrollingTouchSlop(int slopConstant) { 922 final ViewConfiguration vc = ViewConfiguration.get(getContext()); 923 switch (slopConstant) { 924 default: 925 Log.w(TAG, "setScrollingTouchSlop(): bad argument constant " 926 + slopConstant + "; using default value"); 927 // fall-through 928 case TOUCH_SLOP_DEFAULT: 929 mTouchSlop = vc.getScaledTouchSlop(); 930 break; 931 932 case TOUCH_SLOP_PAGING: 933 mTouchSlop = vc.getScaledPagingTouchSlop(); 934 break; 935 } 936 } 937 938 /** 939 * Swaps the current adapter with the provided one. It is similar to 940 * {@link #setAdapter(Adapter)} but assumes existing adapter and the new adapter uses the same 941 * {@link ViewHolder} and does not clear the RecycledViewPool. 942 * <p> 943 * Note that it still calls onAdapterChanged callbacks. 944 * 945 * @param adapter The new adapter to set, or null to set no adapter. 946 * @param removeAndRecycleExistingViews If set to true, RecyclerView will recycle all existing 947 * Views. If adapters have stable ids and/or you want to 948 * animate the disappearing views, you may prefer to set 949 * this to false. 950 * @see #setAdapter(Adapter) 951 */ swapAdapter(Adapter adapter, boolean removeAndRecycleExistingViews)952 public void swapAdapter(Adapter adapter, boolean removeAndRecycleExistingViews) { 953 // bail out if layout is frozen 954 setLayoutFrozen(false); 955 setAdapterInternal(adapter, true, removeAndRecycleExistingViews); 956 setDataSetChangedAfterLayout(); 957 requestLayout(); 958 } 959 /** 960 * Set a new adapter to provide child views on demand. 961 * <p> 962 * When adapter is changed, all existing views are recycled back to the pool. If the pool has 963 * only one adapter, it will be cleared. 964 * 965 * @param adapter The new adapter to set, or null to set no adapter. 966 * @see #swapAdapter(Adapter, boolean) 967 */ setAdapter(Adapter adapter)968 public void setAdapter(Adapter adapter) { 969 // bail out if layout is frozen 970 setLayoutFrozen(false); 971 setAdapterInternal(adapter, false, true); 972 requestLayout(); 973 } 974 975 /** 976 * Removes and recycles all views - both those currently attached, and those in the Recycler. 977 */ removeAndRecycleViews()978 void removeAndRecycleViews() { 979 // end all running animations 980 if (mItemAnimator != null) { 981 mItemAnimator.endAnimations(); 982 } 983 // Since animations are ended, mLayout.children should be equal to 984 // recyclerView.children. This may not be true if item animator's end does not work as 985 // expected. (e.g. not release children instantly). It is safer to use mLayout's child 986 // count. 987 if (mLayout != null) { 988 mLayout.removeAndRecycleAllViews(mRecycler); 989 mLayout.removeAndRecycleScrapInt(mRecycler); 990 } 991 // we should clear it here before adapters are swapped to ensure correct callbacks. 992 mRecycler.clear(); 993 } 994 995 /** 996 * Replaces the current adapter with the new one and triggers listeners. 997 * @param adapter The new adapter 998 * @param compatibleWithPrevious If true, the new adapter is using the same View Holders and 999 * item types with the current adapter (helps us avoid cache 1000 * invalidation). 1001 * @param removeAndRecycleViews If true, we'll remove and recycle all existing views. If 1002 * compatibleWithPrevious is false, this parameter is ignored. 1003 */ setAdapterInternal(Adapter adapter, boolean compatibleWithPrevious, boolean removeAndRecycleViews)1004 private void setAdapterInternal(Adapter adapter, boolean compatibleWithPrevious, 1005 boolean removeAndRecycleViews) { 1006 if (mAdapter != null) { 1007 mAdapter.unregisterAdapterDataObserver(mObserver); 1008 mAdapter.onDetachedFromRecyclerView(this); 1009 } 1010 if (!compatibleWithPrevious || removeAndRecycleViews) { 1011 removeAndRecycleViews(); 1012 } 1013 mAdapterHelper.reset(); 1014 final Adapter oldAdapter = mAdapter; 1015 mAdapter = adapter; 1016 if (adapter != null) { 1017 adapter.registerAdapterDataObserver(mObserver); 1018 adapter.onAttachedToRecyclerView(this); 1019 } 1020 if (mLayout != null) { 1021 mLayout.onAdapterChanged(oldAdapter, mAdapter); 1022 } 1023 mRecycler.onAdapterChanged(oldAdapter, mAdapter, compatibleWithPrevious); 1024 mState.mStructureChanged = true; 1025 markKnownViewsInvalid(); 1026 } 1027 1028 /** 1029 * Retrieves the previously set adapter or null if no adapter is set. 1030 * 1031 * @return The previously set adapter 1032 * @see #setAdapter(Adapter) 1033 */ getAdapter()1034 public Adapter getAdapter() { 1035 return mAdapter; 1036 } 1037 1038 /** 1039 * Register a listener that will be notified whenever a child view is recycled. 1040 * 1041 * <p>This listener will be called when a LayoutManager or the RecyclerView decides 1042 * that a child view is no longer needed. If an application associates expensive 1043 * or heavyweight data with item views, this may be a good place to release 1044 * or free those resources.</p> 1045 * 1046 * @param listener Listener to register, or null to clear 1047 */ setRecyclerListener(RecyclerListener listener)1048 public void setRecyclerListener(RecyclerListener listener) { 1049 mRecyclerListener = listener; 1050 } 1051 1052 /** 1053 * <p>Return the offset of the RecyclerView's text baseline from the its top 1054 * boundary. If the LayoutManager of this RecyclerView does not support baseline alignment, 1055 * this method returns -1.</p> 1056 * 1057 * @return the offset of the baseline within the RecyclerView's bounds or -1 1058 * if baseline alignment is not supported 1059 */ 1060 @Override getBaseline()1061 public int getBaseline() { 1062 if (mLayout != null) { 1063 return mLayout.getBaseline(); 1064 } else { 1065 return super.getBaseline(); 1066 } 1067 } 1068 1069 /** 1070 * Register a listener that will be notified whenever a child view is attached to or detached 1071 * from RecyclerView. 1072 * 1073 * <p>This listener will be called when a LayoutManager or the RecyclerView decides 1074 * that a child view is no longer needed. If an application associates expensive 1075 * or heavyweight data with item views, this may be a good place to release 1076 * or free those resources.</p> 1077 * 1078 * @param listener Listener to register 1079 */ addOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener)1080 public void addOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener) { 1081 if (mOnChildAttachStateListeners == null) { 1082 mOnChildAttachStateListeners = new ArrayList<>(); 1083 } 1084 mOnChildAttachStateListeners.add(listener); 1085 } 1086 1087 /** 1088 * Removes the provided listener from child attached state listeners list. 1089 * 1090 * @param listener Listener to unregister 1091 */ removeOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener)1092 public void removeOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener) { 1093 if (mOnChildAttachStateListeners == null) { 1094 return; 1095 } 1096 mOnChildAttachStateListeners.remove(listener); 1097 } 1098 1099 /** 1100 * Removes all listeners that were added via 1101 * {@link #addOnChildAttachStateChangeListener(OnChildAttachStateChangeListener)}. 1102 */ clearOnChildAttachStateChangeListeners()1103 public void clearOnChildAttachStateChangeListeners() { 1104 if (mOnChildAttachStateListeners != null) { 1105 mOnChildAttachStateListeners.clear(); 1106 } 1107 } 1108 1109 /** 1110 * Set the {@link LayoutManager} that this RecyclerView will use. 1111 * 1112 * <p>In contrast to other adapter-backed views such as {@link android.widget.ListView} 1113 * or {@link android.widget.GridView}, RecyclerView allows client code to provide custom 1114 * layout arrangements for child views. These arrangements are controlled by the 1115 * {@link LayoutManager}. A LayoutManager must be provided for RecyclerView to function.</p> 1116 * 1117 * <p>Several default strategies are provided for common uses such as lists and grids.</p> 1118 * 1119 * @param layout LayoutManager to use 1120 */ setLayoutManager(LayoutManager layout)1121 public void setLayoutManager(LayoutManager layout) { 1122 if (layout == mLayout) { 1123 return; 1124 } 1125 stopScroll(); 1126 // TODO We should do this switch a dispatchLayout pass and animate children. There is a good 1127 // chance that LayoutManagers will re-use views. 1128 if (mLayout != null) { 1129 // end all running animations 1130 if (mItemAnimator != null) { 1131 mItemAnimator.endAnimations(); 1132 } 1133 mLayout.removeAndRecycleAllViews(mRecycler); 1134 mLayout.removeAndRecycleScrapInt(mRecycler); 1135 mRecycler.clear(); 1136 1137 if (mIsAttached) { 1138 mLayout.dispatchDetachedFromWindow(this, mRecycler); 1139 } 1140 mLayout.setRecyclerView(null); 1141 mLayout = null; 1142 } else { 1143 mRecycler.clear(); 1144 } 1145 // this is just a defensive measure for faulty item animators. 1146 mChildHelper.removeAllViewsUnfiltered(); 1147 mLayout = layout; 1148 if (layout != null) { 1149 if (layout.mRecyclerView != null) { 1150 throw new IllegalArgumentException("LayoutManager " + layout 1151 + " is already attached to a RecyclerView: " + layout.mRecyclerView); 1152 } 1153 mLayout.setRecyclerView(this); 1154 if (mIsAttached) { 1155 mLayout.dispatchAttachedToWindow(this); 1156 } 1157 } 1158 mRecycler.updateViewCacheSize(); 1159 requestLayout(); 1160 } 1161 1162 /** 1163 * Set a {@link OnFlingListener} for this {@link RecyclerView}. 1164 * <p> 1165 * If the {@link OnFlingListener} is set then it will receive 1166 * calls to {@link #fling(int,int)} and will be able to intercept them. 1167 * 1168 * @param onFlingListener The {@link OnFlingListener} instance. 1169 */ setOnFlingListener(@ullable OnFlingListener onFlingListener)1170 public void setOnFlingListener(@Nullable OnFlingListener onFlingListener) { 1171 mOnFlingListener = onFlingListener; 1172 } 1173 1174 /** 1175 * Get the current {@link OnFlingListener} from this {@link RecyclerView}. 1176 * 1177 * @return The {@link OnFlingListener} instance currently set (can be null). 1178 */ 1179 @Nullable getOnFlingListener()1180 public OnFlingListener getOnFlingListener() { 1181 return mOnFlingListener; 1182 } 1183 1184 @Override onSaveInstanceState()1185 protected Parcelable onSaveInstanceState() { 1186 SavedState state = new SavedState(super.onSaveInstanceState()); 1187 if (mPendingSavedState != null) { 1188 state.copyFrom(mPendingSavedState); 1189 } else if (mLayout != null) { 1190 state.mLayoutState = mLayout.onSaveInstanceState(); 1191 } else { 1192 state.mLayoutState = null; 1193 } 1194 1195 return state; 1196 } 1197 1198 @Override onRestoreInstanceState(Parcelable state)1199 protected void onRestoreInstanceState(Parcelable state) { 1200 if (!(state instanceof SavedState)) { 1201 super.onRestoreInstanceState(state); 1202 return; 1203 } 1204 1205 mPendingSavedState = (SavedState) state; 1206 super.onRestoreInstanceState(mPendingSavedState.getSuperState()); 1207 if (mLayout != null && mPendingSavedState.mLayoutState != null) { 1208 mLayout.onRestoreInstanceState(mPendingSavedState.mLayoutState); 1209 } 1210 } 1211 1212 /** 1213 * Override to prevent freezing of any views created by the adapter. 1214 */ 1215 @Override dispatchSaveInstanceState(SparseArray<Parcelable> container)1216 protected void dispatchSaveInstanceState(SparseArray<Parcelable> container) { 1217 dispatchFreezeSelfOnly(container); 1218 } 1219 1220 /** 1221 * Override to prevent thawing of any views created by the adapter. 1222 */ 1223 @Override dispatchRestoreInstanceState(SparseArray<Parcelable> container)1224 protected void dispatchRestoreInstanceState(SparseArray<Parcelable> container) { 1225 dispatchThawSelfOnly(container); 1226 } 1227 1228 /** 1229 * Adds a view to the animatingViews list. 1230 * mAnimatingViews holds the child views that are currently being kept around 1231 * purely for the purpose of being animated out of view. They are drawn as a regular 1232 * part of the child list of the RecyclerView, but they are invisible to the LayoutManager 1233 * as they are managed separately from the regular child views. 1234 * @param viewHolder The ViewHolder to be removed 1235 */ addAnimatingView(ViewHolder viewHolder)1236 private void addAnimatingView(ViewHolder viewHolder) { 1237 final View view = viewHolder.itemView; 1238 final boolean alreadyParented = view.getParent() == this; 1239 mRecycler.unscrapView(getChildViewHolder(view)); 1240 if (viewHolder.isTmpDetached()) { 1241 // re-attach 1242 mChildHelper.attachViewToParent(view, -1, view.getLayoutParams(), true); 1243 } else if (!alreadyParented) { 1244 mChildHelper.addView(view, true); 1245 } else { 1246 mChildHelper.hide(view); 1247 } 1248 } 1249 1250 /** 1251 * Removes a view from the animatingViews list. 1252 * @param view The view to be removed 1253 * @see #addAnimatingView(RecyclerView.ViewHolder) 1254 * @return true if an animating view is removed 1255 */ removeAnimatingView(View view)1256 boolean removeAnimatingView(View view) { 1257 eatRequestLayout(); 1258 final boolean removed = mChildHelper.removeViewIfHidden(view); 1259 if (removed) { 1260 final ViewHolder viewHolder = getChildViewHolderInt(view); 1261 mRecycler.unscrapView(viewHolder); 1262 mRecycler.recycleViewHolderInternal(viewHolder); 1263 if (DEBUG) { 1264 Log.d(TAG, "after removing animated view: " + view + ", " + this); 1265 } 1266 } 1267 // only clear request eaten flag if we removed the view. 1268 resumeRequestLayout(!removed); 1269 return removed; 1270 } 1271 1272 /** 1273 * Return the {@link LayoutManager} currently responsible for 1274 * layout policy for this RecyclerView. 1275 * 1276 * @return The currently bound LayoutManager 1277 */ getLayoutManager()1278 public LayoutManager getLayoutManager() { 1279 return mLayout; 1280 } 1281 1282 /** 1283 * Retrieve this RecyclerView's {@link RecycledViewPool}. This method will never return null; 1284 * if no pool is set for this view a new one will be created. See 1285 * {@link #setRecycledViewPool(RecycledViewPool) setRecycledViewPool} for more information. 1286 * 1287 * @return The pool used to store recycled item views for reuse. 1288 * @see #setRecycledViewPool(RecycledViewPool) 1289 */ getRecycledViewPool()1290 public RecycledViewPool getRecycledViewPool() { 1291 return mRecycler.getRecycledViewPool(); 1292 } 1293 1294 /** 1295 * Recycled view pools allow multiple RecyclerViews to share a common pool of scrap views. 1296 * This can be useful if you have multiple RecyclerViews with adapters that use the same 1297 * view types, for example if you have several data sets with the same kinds of item views 1298 * displayed by a {@link android.support.v4.view.ViewPager ViewPager}. 1299 * 1300 * @param pool Pool to set. If this parameter is null a new pool will be created and used. 1301 */ setRecycledViewPool(RecycledViewPool pool)1302 public void setRecycledViewPool(RecycledViewPool pool) { 1303 mRecycler.setRecycledViewPool(pool); 1304 } 1305 1306 /** 1307 * Sets a new {@link ViewCacheExtension} to be used by the Recycler. 1308 * 1309 * @param extension ViewCacheExtension to be used or null if you want to clear the existing one. 1310 * 1311 * @see {@link ViewCacheExtension#getViewForPositionAndType(Recycler, int, int)} 1312 */ setViewCacheExtension(ViewCacheExtension extension)1313 public void setViewCacheExtension(ViewCacheExtension extension) { 1314 mRecycler.setViewCacheExtension(extension); 1315 } 1316 1317 /** 1318 * Set the number of offscreen views to retain before adding them to the potentially shared 1319 * {@link #getRecycledViewPool() recycled view pool}. 1320 * 1321 * <p>The offscreen view cache stays aware of changes in the attached adapter, allowing 1322 * a LayoutManager to reuse those views unmodified without needing to return to the adapter 1323 * to rebind them.</p> 1324 * 1325 * @param size Number of views to cache offscreen before returning them to the general 1326 * recycled view pool 1327 */ setItemViewCacheSize(int size)1328 public void setItemViewCacheSize(int size) { 1329 mRecycler.setViewCacheSize(size); 1330 } 1331 1332 /** 1333 * Return the current scrolling state of the RecyclerView. 1334 * 1335 * @return {@link #SCROLL_STATE_IDLE}, {@link #SCROLL_STATE_DRAGGING} or 1336 * {@link #SCROLL_STATE_SETTLING} 1337 */ getScrollState()1338 public int getScrollState() { 1339 return mScrollState; 1340 } 1341 setScrollState(int state)1342 void setScrollState(int state) { 1343 if (state == mScrollState) { 1344 return; 1345 } 1346 if (DEBUG) { 1347 Log.d(TAG, "setting scroll state to " + state + " from " + mScrollState, 1348 new Exception()); 1349 } 1350 mScrollState = state; 1351 if (state != SCROLL_STATE_SETTLING) { 1352 stopScrollersInternal(); 1353 } 1354 dispatchOnScrollStateChanged(state); 1355 } 1356 1357 /** 1358 * Add an {@link ItemDecoration} to this RecyclerView. Item decorations can 1359 * affect both measurement and drawing of individual item views. 1360 * 1361 * <p>Item decorations are ordered. Decorations placed earlier in the list will 1362 * be run/queried/drawn first for their effects on item views. Padding added to views 1363 * will be nested; a padding added by an earlier decoration will mean further 1364 * item decorations in the list will be asked to draw/pad within the previous decoration's 1365 * given area.</p> 1366 * 1367 * @param decor Decoration to add 1368 * @param index Position in the decoration chain to insert this decoration at. If this value 1369 * is negative the decoration will be added at the end. 1370 */ addItemDecoration(ItemDecoration decor, int index)1371 public void addItemDecoration(ItemDecoration decor, int index) { 1372 if (mLayout != null) { 1373 mLayout.assertNotInLayoutOrScroll("Cannot add item decoration during a scroll or" 1374 + " layout"); 1375 } 1376 if (mItemDecorations.isEmpty()) { 1377 setWillNotDraw(false); 1378 } 1379 if (index < 0) { 1380 mItemDecorations.add(decor); 1381 } else { 1382 mItemDecorations.add(index, decor); 1383 } 1384 markItemDecorInsetsDirty(); 1385 requestLayout(); 1386 } 1387 1388 /** 1389 * Add an {@link ItemDecoration} to this RecyclerView. Item decorations can 1390 * affect both measurement and drawing of individual item views. 1391 * 1392 * <p>Item decorations are ordered. Decorations placed earlier in the list will 1393 * be run/queried/drawn first for their effects on item views. Padding added to views 1394 * will be nested; a padding added by an earlier decoration will mean further 1395 * item decorations in the list will be asked to draw/pad within the previous decoration's 1396 * given area.</p> 1397 * 1398 * @param decor Decoration to add 1399 */ addItemDecoration(ItemDecoration decor)1400 public void addItemDecoration(ItemDecoration decor) { 1401 addItemDecoration(decor, -1); 1402 } 1403 1404 /** 1405 * Remove an {@link ItemDecoration} from this RecyclerView. 1406 * 1407 * <p>The given decoration will no longer impact the measurement and drawing of 1408 * item views.</p> 1409 * 1410 * @param decor Decoration to remove 1411 * @see #addItemDecoration(ItemDecoration) 1412 */ removeItemDecoration(ItemDecoration decor)1413 public void removeItemDecoration(ItemDecoration decor) { 1414 if (mLayout != null) { 1415 mLayout.assertNotInLayoutOrScroll("Cannot remove item decoration during a scroll or" 1416 + " layout"); 1417 } 1418 mItemDecorations.remove(decor); 1419 if (mItemDecorations.isEmpty()) { 1420 setWillNotDraw(getOverScrollMode() == View.OVER_SCROLL_NEVER); 1421 } 1422 markItemDecorInsetsDirty(); 1423 requestLayout(); 1424 } 1425 1426 /** 1427 * Sets the {@link ChildDrawingOrderCallback} to be used for drawing children. 1428 * <p> 1429 * See {@link ViewGroup#getChildDrawingOrder(int, int)} for details. Calling this method will 1430 * always call {@link ViewGroup#setChildrenDrawingOrderEnabled(boolean)}. The parameter will be 1431 * true if childDrawingOrderCallback is not null, false otherwise. 1432 * <p> 1433 * Note that child drawing order may be overridden by View's elevation. 1434 * 1435 * @param childDrawingOrderCallback The ChildDrawingOrderCallback to be used by the drawing 1436 * system. 1437 */ setChildDrawingOrderCallback(ChildDrawingOrderCallback childDrawingOrderCallback)1438 public void setChildDrawingOrderCallback(ChildDrawingOrderCallback childDrawingOrderCallback) { 1439 if (childDrawingOrderCallback == mChildDrawingOrderCallback) { 1440 return; 1441 } 1442 mChildDrawingOrderCallback = childDrawingOrderCallback; 1443 setChildrenDrawingOrderEnabled(mChildDrawingOrderCallback != null); 1444 } 1445 1446 /** 1447 * Set a listener that will be notified of any changes in scroll state or position. 1448 * 1449 * @param listener Listener to set or null to clear 1450 * 1451 * @deprecated Use {@link #addOnScrollListener(OnScrollListener)} and 1452 * {@link #removeOnScrollListener(OnScrollListener)} 1453 */ 1454 @Deprecated setOnScrollListener(OnScrollListener listener)1455 public void setOnScrollListener(OnScrollListener listener) { 1456 mScrollListener = listener; 1457 } 1458 1459 /** 1460 * Add a listener that will be notified of any changes in scroll state or position. 1461 * 1462 * <p>Components that add a listener should take care to remove it when finished. 1463 * Other components that take ownership of a view may call {@link #clearOnScrollListeners()} 1464 * to remove all attached listeners.</p> 1465 * 1466 * @param listener listener to set or null to clear 1467 */ addOnScrollListener(OnScrollListener listener)1468 public void addOnScrollListener(OnScrollListener listener) { 1469 if (mScrollListeners == null) { 1470 mScrollListeners = new ArrayList<>(); 1471 } 1472 mScrollListeners.add(listener); 1473 } 1474 1475 /** 1476 * Remove a listener that was notified of any changes in scroll state or position. 1477 * 1478 * @param listener listener to set or null to clear 1479 */ removeOnScrollListener(OnScrollListener listener)1480 public void removeOnScrollListener(OnScrollListener listener) { 1481 if (mScrollListeners != null) { 1482 mScrollListeners.remove(listener); 1483 } 1484 } 1485 1486 /** 1487 * Remove all secondary listener that were notified of any changes in scroll state or position. 1488 */ clearOnScrollListeners()1489 public void clearOnScrollListeners() { 1490 if (mScrollListeners != null) { 1491 mScrollListeners.clear(); 1492 } 1493 } 1494 1495 /** 1496 * Convenience method to scroll to a certain position. 1497 * 1498 * RecyclerView does not implement scrolling logic, rather forwards the call to 1499 * {@link com.android.internal.widget.RecyclerView.LayoutManager#scrollToPosition(int)} 1500 * @param position Scroll to this adapter position 1501 * @see com.android.internal.widget.RecyclerView.LayoutManager#scrollToPosition(int) 1502 */ scrollToPosition(int position)1503 public void scrollToPosition(int position) { 1504 if (mLayoutFrozen) { 1505 return; 1506 } 1507 stopScroll(); 1508 if (mLayout == null) { 1509 Log.e(TAG, "Cannot scroll to position a LayoutManager set. " 1510 + "Call setLayoutManager with a non-null argument."); 1511 return; 1512 } 1513 mLayout.scrollToPosition(position); 1514 awakenScrollBars(); 1515 } 1516 jumpToPositionForSmoothScroller(int position)1517 void jumpToPositionForSmoothScroller(int position) { 1518 if (mLayout == null) { 1519 return; 1520 } 1521 mLayout.scrollToPosition(position); 1522 awakenScrollBars(); 1523 } 1524 1525 /** 1526 * Starts a smooth scroll to an adapter position. 1527 * <p> 1528 * To support smooth scrolling, you must override 1529 * {@link LayoutManager#smoothScrollToPosition(RecyclerView, State, int)} and create a 1530 * {@link SmoothScroller}. 1531 * <p> 1532 * {@link LayoutManager} is responsible for creating the actual scroll action. If you want to 1533 * provide a custom smooth scroll logic, override 1534 * {@link LayoutManager#smoothScrollToPosition(RecyclerView, State, int)} in your 1535 * LayoutManager. 1536 * 1537 * @param position The adapter position to scroll to 1538 * @see LayoutManager#smoothScrollToPosition(RecyclerView, State, int) 1539 */ smoothScrollToPosition(int position)1540 public void smoothScrollToPosition(int position) { 1541 if (mLayoutFrozen) { 1542 return; 1543 } 1544 if (mLayout == null) { 1545 Log.e(TAG, "Cannot smooth scroll without a LayoutManager set. " 1546 + "Call setLayoutManager with a non-null argument."); 1547 return; 1548 } 1549 mLayout.smoothScrollToPosition(this, mState, position); 1550 } 1551 1552 @Override scrollTo(int x, int y)1553 public void scrollTo(int x, int y) { 1554 Log.w(TAG, "RecyclerView does not support scrolling to an absolute position. " 1555 + "Use scrollToPosition instead"); 1556 } 1557 1558 @Override scrollBy(int x, int y)1559 public void scrollBy(int x, int y) { 1560 if (mLayout == null) { 1561 Log.e(TAG, "Cannot scroll without a LayoutManager set. " 1562 + "Call setLayoutManager with a non-null argument."); 1563 return; 1564 } 1565 if (mLayoutFrozen) { 1566 return; 1567 } 1568 final boolean canScrollHorizontal = mLayout.canScrollHorizontally(); 1569 final boolean canScrollVertical = mLayout.canScrollVertically(); 1570 if (canScrollHorizontal || canScrollVertical) { 1571 scrollByInternal(canScrollHorizontal ? x : 0, canScrollVertical ? y : 0, null); 1572 } 1573 } 1574 1575 /** 1576 * Helper method reflect data changes to the state. 1577 * <p> 1578 * Adapter changes during a scroll may trigger a crash because scroll assumes no data change 1579 * but data actually changed. 1580 * <p> 1581 * This method consumes all deferred changes to avoid that case. 1582 */ consumePendingUpdateOperations()1583 void consumePendingUpdateOperations() { 1584 if (!mFirstLayoutComplete || mDataSetHasChangedAfterLayout) { 1585 Trace.beginSection(TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG); 1586 dispatchLayout(); 1587 Trace.endSection(); 1588 return; 1589 } 1590 if (!mAdapterHelper.hasPendingUpdates()) { 1591 return; 1592 } 1593 1594 // if it is only an item change (no add-remove-notifyDataSetChanged) we can check if any 1595 // of the visible items is affected and if not, just ignore the change. 1596 if (mAdapterHelper.hasAnyUpdateTypes(AdapterHelper.UpdateOp.UPDATE) && !mAdapterHelper 1597 .hasAnyUpdateTypes(AdapterHelper.UpdateOp.ADD | AdapterHelper.UpdateOp.REMOVE 1598 | AdapterHelper.UpdateOp.MOVE)) { 1599 Trace.beginSection(TRACE_HANDLE_ADAPTER_UPDATES_TAG); 1600 eatRequestLayout(); 1601 onEnterLayoutOrScroll(); 1602 mAdapterHelper.preProcess(); 1603 if (!mLayoutRequestEaten) { 1604 if (hasUpdatedView()) { 1605 dispatchLayout(); 1606 } else { 1607 // no need to layout, clean state 1608 mAdapterHelper.consumePostponedUpdates(); 1609 } 1610 } 1611 resumeRequestLayout(true); 1612 onExitLayoutOrScroll(); 1613 Trace.endSection(); 1614 } else if (mAdapterHelper.hasPendingUpdates()) { 1615 Trace.beginSection(TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG); 1616 dispatchLayout(); 1617 Trace.endSection(); 1618 } 1619 } 1620 1621 /** 1622 * @return True if an existing view holder needs to be updated 1623 */ hasUpdatedView()1624 private boolean hasUpdatedView() { 1625 final int childCount = mChildHelper.getChildCount(); 1626 for (int i = 0; i < childCount; i++) { 1627 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); 1628 if (holder == null || holder.shouldIgnore()) { 1629 continue; 1630 } 1631 if (holder.isUpdated()) { 1632 return true; 1633 } 1634 } 1635 return false; 1636 } 1637 1638 /** 1639 * Does not perform bounds checking. Used by internal methods that have already validated input. 1640 * <p> 1641 * It also reports any unused scroll request to the related EdgeEffect. 1642 * 1643 * @param x The amount of horizontal scroll request 1644 * @param y The amount of vertical scroll request 1645 * @param ev The originating MotionEvent, or null if not from a touch event. 1646 * 1647 * @return Whether any scroll was consumed in either direction. 1648 */ scrollByInternal(int x, int y, MotionEvent ev)1649 boolean scrollByInternal(int x, int y, MotionEvent ev) { 1650 int unconsumedX = 0, unconsumedY = 0; 1651 int consumedX = 0, consumedY = 0; 1652 1653 consumePendingUpdateOperations(); 1654 if (mAdapter != null) { 1655 eatRequestLayout(); 1656 onEnterLayoutOrScroll(); 1657 Trace.beginSection(TRACE_SCROLL_TAG); 1658 if (x != 0) { 1659 consumedX = mLayout.scrollHorizontallyBy(x, mRecycler, mState); 1660 unconsumedX = x - consumedX; 1661 } 1662 if (y != 0) { 1663 consumedY = mLayout.scrollVerticallyBy(y, mRecycler, mState); 1664 unconsumedY = y - consumedY; 1665 } 1666 Trace.endSection(); 1667 repositionShadowingViews(); 1668 onExitLayoutOrScroll(); 1669 resumeRequestLayout(false); 1670 } 1671 if (!mItemDecorations.isEmpty()) { 1672 invalidate(); 1673 } 1674 1675 if (dispatchNestedScroll(consumedX, consumedY, unconsumedX, unconsumedY, mScrollOffset)) { 1676 // Update the last touch co-ords, taking any scroll offset into account 1677 mLastTouchX -= mScrollOffset[0]; 1678 mLastTouchY -= mScrollOffset[1]; 1679 if (ev != null) { 1680 ev.offsetLocation(mScrollOffset[0], mScrollOffset[1]); 1681 } 1682 mNestedOffsets[0] += mScrollOffset[0]; 1683 mNestedOffsets[1] += mScrollOffset[1]; 1684 } else if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { 1685 if (ev != null) { 1686 pullGlows(ev.getX(), unconsumedX, ev.getY(), unconsumedY); 1687 } 1688 considerReleasingGlowsOnScroll(x, y); 1689 } 1690 if (consumedX != 0 || consumedY != 0) { 1691 dispatchOnScrolled(consumedX, consumedY); 1692 } 1693 if (!awakenScrollBars()) { 1694 invalidate(); 1695 } 1696 return consumedX != 0 || consumedY != 0; 1697 } 1698 1699 /** 1700 * <p>Compute the horizontal offset of the horizontal scrollbar's thumb within the horizontal 1701 * range. This value is used to compute the length of the thumb within the scrollbar's track. 1702 * </p> 1703 * 1704 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1705 * {@link #computeHorizontalScrollRange()} and {@link #computeHorizontalScrollExtent()}.</p> 1706 * 1707 * <p>Default implementation returns 0.</p> 1708 * 1709 * <p>If you want to support scroll bars, override 1710 * {@link RecyclerView.LayoutManager#computeHorizontalScrollOffset(RecyclerView.State)} in your 1711 * LayoutManager. </p> 1712 * 1713 * @return The horizontal offset of the scrollbar's thumb 1714 * @see com.android.internal.widget.RecyclerView.LayoutManager#computeHorizontalScrollOffset 1715 * (RecyclerView.State) 1716 */ 1717 @Override computeHorizontalScrollOffset()1718 public int computeHorizontalScrollOffset() { 1719 if (mLayout == null) { 1720 return 0; 1721 } 1722 return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollOffset(mState) : 0; 1723 } 1724 1725 /** 1726 * <p>Compute the horizontal extent of the horizontal scrollbar's thumb within the 1727 * horizontal range. This value is used to compute the length of the thumb within the 1728 * scrollbar's track.</p> 1729 * 1730 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1731 * {@link #computeHorizontalScrollRange()} and {@link #computeHorizontalScrollOffset()}.</p> 1732 * 1733 * <p>Default implementation returns 0.</p> 1734 * 1735 * <p>If you want to support scroll bars, override 1736 * {@link RecyclerView.LayoutManager#computeHorizontalScrollExtent(RecyclerView.State)} in your 1737 * LayoutManager.</p> 1738 * 1739 * @return The horizontal extent of the scrollbar's thumb 1740 * @see RecyclerView.LayoutManager#computeHorizontalScrollExtent(RecyclerView.State) 1741 */ 1742 @Override computeHorizontalScrollExtent()1743 public int computeHorizontalScrollExtent() { 1744 if (mLayout == null) { 1745 return 0; 1746 } 1747 return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollExtent(mState) : 0; 1748 } 1749 1750 /** 1751 * <p>Compute the horizontal range that the horizontal scrollbar represents.</p> 1752 * 1753 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1754 * {@link #computeHorizontalScrollExtent()} and {@link #computeHorizontalScrollOffset()}.</p> 1755 * 1756 * <p>Default implementation returns 0.</p> 1757 * 1758 * <p>If you want to support scroll bars, override 1759 * {@link RecyclerView.LayoutManager#computeHorizontalScrollRange(RecyclerView.State)} in your 1760 * LayoutManager.</p> 1761 * 1762 * @return The total horizontal range represented by the vertical scrollbar 1763 * @see RecyclerView.LayoutManager#computeHorizontalScrollRange(RecyclerView.State) 1764 */ 1765 @Override computeHorizontalScrollRange()1766 public int computeHorizontalScrollRange() { 1767 if (mLayout == null) { 1768 return 0; 1769 } 1770 return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollRange(mState) : 0; 1771 } 1772 1773 /** 1774 * <p>Compute the vertical offset of the vertical scrollbar's thumb within the vertical range. 1775 * This value is used to compute the length of the thumb within the scrollbar's track. </p> 1776 * 1777 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1778 * {@link #computeVerticalScrollRange()} and {@link #computeVerticalScrollExtent()}.</p> 1779 * 1780 * <p>Default implementation returns 0.</p> 1781 * 1782 * <p>If you want to support scroll bars, override 1783 * {@link RecyclerView.LayoutManager#computeVerticalScrollOffset(RecyclerView.State)} in your 1784 * LayoutManager.</p> 1785 * 1786 * @return The vertical offset of the scrollbar's thumb 1787 * @see com.android.internal.widget.RecyclerView.LayoutManager#computeVerticalScrollOffset 1788 * (RecyclerView.State) 1789 */ 1790 @Override computeVerticalScrollOffset()1791 public int computeVerticalScrollOffset() { 1792 if (mLayout == null) { 1793 return 0; 1794 } 1795 return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollOffset(mState) : 0; 1796 } 1797 1798 /** 1799 * <p>Compute the vertical extent of the vertical scrollbar's thumb within the vertical range. 1800 * This value is used to compute the length of the thumb within the scrollbar's track.</p> 1801 * 1802 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1803 * {@link #computeVerticalScrollRange()} and {@link #computeVerticalScrollOffset()}.</p> 1804 * 1805 * <p>Default implementation returns 0.</p> 1806 * 1807 * <p>If you want to support scroll bars, override 1808 * {@link RecyclerView.LayoutManager#computeVerticalScrollExtent(RecyclerView.State)} in your 1809 * LayoutManager.</p> 1810 * 1811 * @return The vertical extent of the scrollbar's thumb 1812 * @see RecyclerView.LayoutManager#computeVerticalScrollExtent(RecyclerView.State) 1813 */ 1814 @Override computeVerticalScrollExtent()1815 public int computeVerticalScrollExtent() { 1816 if (mLayout == null) { 1817 return 0; 1818 } 1819 return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollExtent(mState) : 0; 1820 } 1821 1822 /** 1823 * <p>Compute the vertical range that the vertical scrollbar represents.</p> 1824 * 1825 * <p>The range is expressed in arbitrary units that must be the same as the units used by 1826 * {@link #computeVerticalScrollExtent()} and {@link #computeVerticalScrollOffset()}.</p> 1827 * 1828 * <p>Default implementation returns 0.</p> 1829 * 1830 * <p>If you want to support scroll bars, override 1831 * {@link RecyclerView.LayoutManager#computeVerticalScrollRange(RecyclerView.State)} in your 1832 * LayoutManager.</p> 1833 * 1834 * @return The total vertical range represented by the vertical scrollbar 1835 * @see RecyclerView.LayoutManager#computeVerticalScrollRange(RecyclerView.State) 1836 */ 1837 @Override computeVerticalScrollRange()1838 public int computeVerticalScrollRange() { 1839 if (mLayout == null) { 1840 return 0; 1841 } 1842 return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollRange(mState) : 0; 1843 } 1844 1845 eatRequestLayout()1846 void eatRequestLayout() { 1847 mEatRequestLayout++; 1848 if (mEatRequestLayout == 1 && !mLayoutFrozen) { 1849 mLayoutRequestEaten = false; 1850 } 1851 } 1852 resumeRequestLayout(boolean performLayoutChildren)1853 void resumeRequestLayout(boolean performLayoutChildren) { 1854 if (mEatRequestLayout < 1) { 1855 //noinspection PointlessBooleanExpression 1856 if (DEBUG) { 1857 throw new IllegalStateException("invalid eat request layout count"); 1858 } 1859 mEatRequestLayout = 1; 1860 } 1861 if (!performLayoutChildren) { 1862 // Reset the layout request eaten counter. 1863 // This is necessary since eatRequest calls can be nested in which case the other 1864 // call will override the inner one. 1865 // for instance: 1866 // eat layout for process adapter updates 1867 // eat layout for dispatchLayout 1868 // a bunch of req layout calls arrive 1869 1870 mLayoutRequestEaten = false; 1871 } 1872 if (mEatRequestLayout == 1) { 1873 // when layout is frozen we should delay dispatchLayout() 1874 if (performLayoutChildren && mLayoutRequestEaten && !mLayoutFrozen 1875 && mLayout != null && mAdapter != null) { 1876 dispatchLayout(); 1877 } 1878 if (!mLayoutFrozen) { 1879 mLayoutRequestEaten = false; 1880 } 1881 } 1882 mEatRequestLayout--; 1883 } 1884 1885 /** 1886 * Enable or disable layout and scroll. After <code>setLayoutFrozen(true)</code> is called, 1887 * Layout requests will be postponed until <code>setLayoutFrozen(false)</code> is called; 1888 * child views are not updated when RecyclerView is frozen, {@link #smoothScrollBy(int, int)}, 1889 * {@link #scrollBy(int, int)}, {@link #scrollToPosition(int)} and 1890 * {@link #smoothScrollToPosition(int)} are dropped; TouchEvents and GenericMotionEvents are 1891 * dropped; {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} will not be 1892 * called. 1893 * 1894 * <p> 1895 * <code>setLayoutFrozen(true)</code> does not prevent app from directly calling {@link 1896 * LayoutManager#scrollToPosition(int)}, {@link LayoutManager#smoothScrollToPosition( 1897 * RecyclerView, State, int)}. 1898 * <p> 1899 * {@link #setAdapter(Adapter)} and {@link #swapAdapter(Adapter, boolean)} will automatically 1900 * stop frozen. 1901 * <p> 1902 * Note: Running ItemAnimator is not stopped automatically, it's caller's 1903 * responsibility to call ItemAnimator.end(). 1904 * 1905 * @param frozen true to freeze layout and scroll, false to re-enable. 1906 */ setLayoutFrozen(boolean frozen)1907 public void setLayoutFrozen(boolean frozen) { 1908 if (frozen != mLayoutFrozen) { 1909 assertNotInLayoutOrScroll("Do not setLayoutFrozen in layout or scroll"); 1910 if (!frozen) { 1911 mLayoutFrozen = false; 1912 if (mLayoutRequestEaten && mLayout != null && mAdapter != null) { 1913 requestLayout(); 1914 } 1915 mLayoutRequestEaten = false; 1916 } else { 1917 final long now = SystemClock.uptimeMillis(); 1918 MotionEvent cancelEvent = MotionEvent.obtain(now, now, 1919 MotionEvent.ACTION_CANCEL, 0.0f, 0.0f, 0); 1920 onTouchEvent(cancelEvent); 1921 mLayoutFrozen = true; 1922 mIgnoreMotionEventTillDown = true; 1923 stopScroll(); 1924 } 1925 } 1926 } 1927 1928 /** 1929 * Returns true if layout and scroll are frozen. 1930 * 1931 * @return true if layout and scroll are frozen 1932 * @see #setLayoutFrozen(boolean) 1933 */ isLayoutFrozen()1934 public boolean isLayoutFrozen() { 1935 return mLayoutFrozen; 1936 } 1937 1938 /** 1939 * Animate a scroll by the given amount of pixels along either axis. 1940 * 1941 * @param dx Pixels to scroll horizontally 1942 * @param dy Pixels to scroll vertically 1943 */ smoothScrollBy(int dx, int dy)1944 public void smoothScrollBy(int dx, int dy) { 1945 smoothScrollBy(dx, dy, null); 1946 } 1947 1948 /** 1949 * Animate a scroll by the given amount of pixels along either axis. 1950 * 1951 * @param dx Pixels to scroll horizontally 1952 * @param dy Pixels to scroll vertically 1953 * @param interpolator {@link Interpolator} to be used for scrolling. If it is 1954 * {@code null}, RecyclerView is going to use the default interpolator. 1955 */ smoothScrollBy(int dx, int dy, Interpolator interpolator)1956 public void smoothScrollBy(int dx, int dy, Interpolator interpolator) { 1957 if (mLayout == null) { 1958 Log.e(TAG, "Cannot smooth scroll without a LayoutManager set. " 1959 + "Call setLayoutManager with a non-null argument."); 1960 return; 1961 } 1962 if (mLayoutFrozen) { 1963 return; 1964 } 1965 if (!mLayout.canScrollHorizontally()) { 1966 dx = 0; 1967 } 1968 if (!mLayout.canScrollVertically()) { 1969 dy = 0; 1970 } 1971 if (dx != 0 || dy != 0) { 1972 mViewFlinger.smoothScrollBy(dx, dy, interpolator); 1973 } 1974 } 1975 1976 /** 1977 * Begin a standard fling with an initial velocity along each axis in pixels per second. 1978 * If the velocity given is below the system-defined minimum this method will return false 1979 * and no fling will occur. 1980 * 1981 * @param velocityX Initial horizontal velocity in pixels per second 1982 * @param velocityY Initial vertical velocity in pixels per second 1983 * @return true if the fling was started, false if the velocity was too low to fling or 1984 * LayoutManager does not support scrolling in the axis fling is issued. 1985 * 1986 * @see LayoutManager#canScrollVertically() 1987 * @see LayoutManager#canScrollHorizontally() 1988 */ fling(int velocityX, int velocityY)1989 public boolean fling(int velocityX, int velocityY) { 1990 if (mLayout == null) { 1991 Log.e(TAG, "Cannot fling without a LayoutManager set. " 1992 + "Call setLayoutManager with a non-null argument."); 1993 return false; 1994 } 1995 if (mLayoutFrozen) { 1996 return false; 1997 } 1998 1999 final boolean canScrollHorizontal = mLayout.canScrollHorizontally(); 2000 final boolean canScrollVertical = mLayout.canScrollVertically(); 2001 2002 if (!canScrollHorizontal || Math.abs(velocityX) < mMinFlingVelocity) { 2003 velocityX = 0; 2004 } 2005 if (!canScrollVertical || Math.abs(velocityY) < mMinFlingVelocity) { 2006 velocityY = 0; 2007 } 2008 if (velocityX == 0 && velocityY == 0) { 2009 // If we don't have any velocity, return false 2010 return false; 2011 } 2012 2013 if (!dispatchNestedPreFling(velocityX, velocityY)) { 2014 final boolean canScroll = canScrollHorizontal || canScrollVertical; 2015 dispatchNestedFling(velocityX, velocityY, canScroll); 2016 2017 if (mOnFlingListener != null && mOnFlingListener.onFling(velocityX, velocityY)) { 2018 return true; 2019 } 2020 2021 if (canScroll) { 2022 velocityX = Math.max(-mMaxFlingVelocity, Math.min(velocityX, mMaxFlingVelocity)); 2023 velocityY = Math.max(-mMaxFlingVelocity, Math.min(velocityY, mMaxFlingVelocity)); 2024 mViewFlinger.fling(velocityX, velocityY); 2025 return true; 2026 } 2027 } 2028 return false; 2029 } 2030 2031 /** 2032 * Stop any current scroll in progress, such as one started by 2033 * {@link #smoothScrollBy(int, int)}, {@link #fling(int, int)} or a touch-initiated fling. 2034 */ stopScroll()2035 public void stopScroll() { 2036 setScrollState(SCROLL_STATE_IDLE); 2037 stopScrollersInternal(); 2038 } 2039 2040 /** 2041 * Similar to {@link #stopScroll()} but does not set the state. 2042 */ stopScrollersInternal()2043 private void stopScrollersInternal() { 2044 mViewFlinger.stop(); 2045 if (mLayout != null) { 2046 mLayout.stopSmoothScroller(); 2047 } 2048 } 2049 2050 /** 2051 * Returns the minimum velocity to start a fling. 2052 * 2053 * @return The minimum velocity to start a fling 2054 */ getMinFlingVelocity()2055 public int getMinFlingVelocity() { 2056 return mMinFlingVelocity; 2057 } 2058 2059 2060 /** 2061 * Returns the maximum fling velocity used by this RecyclerView. 2062 * 2063 * @return The maximum fling velocity used by this RecyclerView. 2064 */ getMaxFlingVelocity()2065 public int getMaxFlingVelocity() { 2066 return mMaxFlingVelocity; 2067 } 2068 2069 /** 2070 * Apply a pull to relevant overscroll glow effects 2071 */ pullGlows(float x, float overscrollX, float y, float overscrollY)2072 private void pullGlows(float x, float overscrollX, float y, float overscrollY) { 2073 boolean invalidate = false; 2074 if (overscrollX < 0) { 2075 ensureLeftGlow(); 2076 mLeftGlow.onPull(-overscrollX / getWidth(), 1f - y / getHeight()); 2077 invalidate = true; 2078 } else if (overscrollX > 0) { 2079 ensureRightGlow(); 2080 mRightGlow.onPull(overscrollX / getWidth(), y / getHeight()); 2081 invalidate = true; 2082 } 2083 2084 if (overscrollY < 0) { 2085 ensureTopGlow(); 2086 mTopGlow.onPull(-overscrollY / getHeight(), x / getWidth()); 2087 invalidate = true; 2088 } else if (overscrollY > 0) { 2089 ensureBottomGlow(); 2090 mBottomGlow.onPull(overscrollY / getHeight(), 1f - x / getWidth()); 2091 invalidate = true; 2092 } 2093 2094 if (invalidate || overscrollX != 0 || overscrollY != 0) { 2095 postInvalidateOnAnimation(); 2096 } 2097 } 2098 releaseGlows()2099 private void releaseGlows() { 2100 boolean needsInvalidate = false; 2101 if (mLeftGlow != null) { 2102 mLeftGlow.onRelease(); 2103 needsInvalidate = true; 2104 } 2105 if (mTopGlow != null) { 2106 mTopGlow.onRelease(); 2107 needsInvalidate = true; 2108 } 2109 if (mRightGlow != null) { 2110 mRightGlow.onRelease(); 2111 needsInvalidate = true; 2112 } 2113 if (mBottomGlow != null) { 2114 mBottomGlow.onRelease(); 2115 needsInvalidate = true; 2116 } 2117 if (needsInvalidate) { 2118 postInvalidateOnAnimation(); 2119 } 2120 } 2121 considerReleasingGlowsOnScroll(int dx, int dy)2122 void considerReleasingGlowsOnScroll(int dx, int dy) { 2123 boolean needsInvalidate = false; 2124 if (mLeftGlow != null && !mLeftGlow.isFinished() && dx > 0) { 2125 mLeftGlow.onRelease(); 2126 needsInvalidate = true; 2127 } 2128 if (mRightGlow != null && !mRightGlow.isFinished() && dx < 0) { 2129 mRightGlow.onRelease(); 2130 needsInvalidate = true; 2131 } 2132 if (mTopGlow != null && !mTopGlow.isFinished() && dy > 0) { 2133 mTopGlow.onRelease(); 2134 needsInvalidate = true; 2135 } 2136 if (mBottomGlow != null && !mBottomGlow.isFinished() && dy < 0) { 2137 mBottomGlow.onRelease(); 2138 needsInvalidate = true; 2139 } 2140 if (needsInvalidate) { 2141 postInvalidateOnAnimation(); 2142 } 2143 } 2144 absorbGlows(int velocityX, int velocityY)2145 void absorbGlows(int velocityX, int velocityY) { 2146 if (velocityX < 0) { 2147 ensureLeftGlow(); 2148 mLeftGlow.onAbsorb(-velocityX); 2149 } else if (velocityX > 0) { 2150 ensureRightGlow(); 2151 mRightGlow.onAbsorb(velocityX); 2152 } 2153 2154 if (velocityY < 0) { 2155 ensureTopGlow(); 2156 mTopGlow.onAbsorb(-velocityY); 2157 } else if (velocityY > 0) { 2158 ensureBottomGlow(); 2159 mBottomGlow.onAbsorb(velocityY); 2160 } 2161 2162 if (velocityX != 0 || velocityY != 0) { 2163 postInvalidateOnAnimation(); 2164 } 2165 } 2166 ensureLeftGlow()2167 void ensureLeftGlow() { 2168 if (mLeftGlow != null) { 2169 return; 2170 } 2171 mLeftGlow = new EdgeEffect(getContext()); 2172 if (mClipToPadding) { 2173 mLeftGlow.setSize(getMeasuredHeight() - getPaddingTop() - getPaddingBottom(), 2174 getMeasuredWidth() - getPaddingLeft() - getPaddingRight()); 2175 } else { 2176 mLeftGlow.setSize(getMeasuredHeight(), getMeasuredWidth()); 2177 } 2178 } 2179 ensureRightGlow()2180 void ensureRightGlow() { 2181 if (mRightGlow != null) { 2182 return; 2183 } 2184 mRightGlow = new EdgeEffect(getContext()); 2185 if (mClipToPadding) { 2186 mRightGlow.setSize(getMeasuredHeight() - getPaddingTop() - getPaddingBottom(), 2187 getMeasuredWidth() - getPaddingLeft() - getPaddingRight()); 2188 } else { 2189 mRightGlow.setSize(getMeasuredHeight(), getMeasuredWidth()); 2190 } 2191 } 2192 ensureTopGlow()2193 void ensureTopGlow() { 2194 if (mTopGlow != null) { 2195 return; 2196 } 2197 mTopGlow = new EdgeEffect(getContext()); 2198 if (mClipToPadding) { 2199 mTopGlow.setSize(getMeasuredWidth() - getPaddingLeft() - getPaddingRight(), 2200 getMeasuredHeight() - getPaddingTop() - getPaddingBottom()); 2201 } else { 2202 mTopGlow.setSize(getMeasuredWidth(), getMeasuredHeight()); 2203 } 2204 2205 } 2206 ensureBottomGlow()2207 void ensureBottomGlow() { 2208 if (mBottomGlow != null) { 2209 return; 2210 } 2211 mBottomGlow = new EdgeEffect(getContext()); 2212 if (mClipToPadding) { 2213 mBottomGlow.setSize(getMeasuredWidth() - getPaddingLeft() - getPaddingRight(), 2214 getMeasuredHeight() - getPaddingTop() - getPaddingBottom()); 2215 } else { 2216 mBottomGlow.setSize(getMeasuredWidth(), getMeasuredHeight()); 2217 } 2218 } 2219 invalidateGlows()2220 void invalidateGlows() { 2221 mLeftGlow = mRightGlow = mTopGlow = mBottomGlow = null; 2222 } 2223 2224 /** 2225 * Since RecyclerView is a collection ViewGroup that includes virtual children (items that are 2226 * in the Adapter but not visible in the UI), it employs a more involved focus search strategy 2227 * that differs from other ViewGroups. 2228 * <p> 2229 * It first does a focus search within the RecyclerView. If this search finds a View that is in 2230 * the focus direction with respect to the currently focused View, RecyclerView returns that 2231 * child as the next focus target. When it cannot find such child, it calls 2232 * {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} to layout more Views 2233 * in the focus search direction. If LayoutManager adds a View that matches the 2234 * focus search criteria, it will be returned as the focus search result. Otherwise, 2235 * RecyclerView will call parent to handle the focus search like a regular ViewGroup. 2236 * <p> 2237 * When the direction is {@link View#FOCUS_FORWARD} or {@link View#FOCUS_BACKWARD}, a View that 2238 * is not in the focus direction is still valid focus target which may not be the desired 2239 * behavior if the Adapter has more children in the focus direction. To handle this case, 2240 * RecyclerView converts the focus direction to an absolute direction and makes a preliminary 2241 * focus search in that direction. If there are no Views to gain focus, it will call 2242 * {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} before running a 2243 * focus search with the original (relative) direction. This allows RecyclerView to provide 2244 * better candidates to the focus search while still allowing the view system to take focus from 2245 * the RecyclerView and give it to a more suitable child if such child exists. 2246 * 2247 * @param focused The view that currently has focus 2248 * @param direction One of {@link View#FOCUS_UP}, {@link View#FOCUS_DOWN}, 2249 * {@link View#FOCUS_LEFT}, {@link View#FOCUS_RIGHT}, {@link View#FOCUS_FORWARD}, 2250 * {@link View#FOCUS_BACKWARD} or 0 for not applicable. 2251 * 2252 * @return A new View that can be the next focus after the focused View 2253 */ 2254 @Override focusSearch(View focused, int direction)2255 public View focusSearch(View focused, int direction) { 2256 View result = mLayout.onInterceptFocusSearch(focused, direction); 2257 if (result != null) { 2258 return result; 2259 } 2260 final boolean canRunFocusFailure = mAdapter != null && mLayout != null 2261 && !isComputingLayout() && !mLayoutFrozen; 2262 2263 final FocusFinder ff = FocusFinder.getInstance(); 2264 if (canRunFocusFailure 2265 && (direction == View.FOCUS_FORWARD || direction == View.FOCUS_BACKWARD)) { 2266 // convert direction to absolute direction and see if we have a view there and if not 2267 // tell LayoutManager to add if it can. 2268 boolean needsFocusFailureLayout = false; 2269 if (mLayout.canScrollVertically()) { 2270 final int absDir = 2271 direction == View.FOCUS_FORWARD ? View.FOCUS_DOWN : View.FOCUS_UP; 2272 final View found = ff.findNextFocus(this, focused, absDir); 2273 needsFocusFailureLayout = found == null; 2274 if (FORCE_ABS_FOCUS_SEARCH_DIRECTION) { 2275 // Workaround for broken FOCUS_BACKWARD in API 15 and older devices. 2276 direction = absDir; 2277 } 2278 } 2279 if (!needsFocusFailureLayout && mLayout.canScrollHorizontally()) { 2280 boolean rtl = mLayout.getLayoutDirection() == View.LAYOUT_DIRECTION_RTL; 2281 final int absDir = (direction == View.FOCUS_FORWARD) ^ rtl 2282 ? View.FOCUS_RIGHT : View.FOCUS_LEFT; 2283 final View found = ff.findNextFocus(this, focused, absDir); 2284 needsFocusFailureLayout = found == null; 2285 if (FORCE_ABS_FOCUS_SEARCH_DIRECTION) { 2286 // Workaround for broken FOCUS_BACKWARD in API 15 and older devices. 2287 direction = absDir; 2288 } 2289 } 2290 if (needsFocusFailureLayout) { 2291 consumePendingUpdateOperations(); 2292 final View focusedItemView = findContainingItemView(focused); 2293 if (focusedItemView == null) { 2294 // panic, focused view is not a child anymore, cannot call super. 2295 return null; 2296 } 2297 eatRequestLayout(); 2298 mLayout.onFocusSearchFailed(focused, direction, mRecycler, mState); 2299 resumeRequestLayout(false); 2300 } 2301 result = ff.findNextFocus(this, focused, direction); 2302 } else { 2303 result = ff.findNextFocus(this, focused, direction); 2304 if (result == null && canRunFocusFailure) { 2305 consumePendingUpdateOperations(); 2306 final View focusedItemView = findContainingItemView(focused); 2307 if (focusedItemView == null) { 2308 // panic, focused view is not a child anymore, cannot call super. 2309 return null; 2310 } 2311 eatRequestLayout(); 2312 result = mLayout.onFocusSearchFailed(focused, direction, mRecycler, mState); 2313 resumeRequestLayout(false); 2314 } 2315 } 2316 return isPreferredNextFocus(focused, result, direction) 2317 ? result : super.focusSearch(focused, direction); 2318 } 2319 2320 /** 2321 * Checks if the new focus candidate is a good enough candidate such that RecyclerView will 2322 * assign it as the next focus View instead of letting view hierarchy decide. 2323 * A good candidate means a View that is aligned in the focus direction wrt the focused View 2324 * and is not the RecyclerView itself. 2325 * When this method returns false, RecyclerView will let the parent make the decision so the 2326 * same View may still get the focus as a result of that search. 2327 */ isPreferredNextFocus(View focused, View next, int direction)2328 private boolean isPreferredNextFocus(View focused, View next, int direction) { 2329 if (next == null || next == this) { 2330 return false; 2331 } 2332 if (focused == null) { 2333 return true; 2334 } 2335 2336 if (direction == View.FOCUS_FORWARD || direction == View.FOCUS_BACKWARD) { 2337 final boolean rtl = mLayout.getLayoutDirection() == View.LAYOUT_DIRECTION_RTL; 2338 final int absHorizontal = (direction == View.FOCUS_FORWARD) ^ rtl 2339 ? View.FOCUS_RIGHT : View.FOCUS_LEFT; 2340 if (isPreferredNextFocusAbsolute(focused, next, absHorizontal)) { 2341 return true; 2342 } 2343 if (direction == View.FOCUS_FORWARD) { 2344 return isPreferredNextFocusAbsolute(focused, next, View.FOCUS_DOWN); 2345 } else { 2346 return isPreferredNextFocusAbsolute(focused, next, View.FOCUS_UP); 2347 } 2348 } else { 2349 return isPreferredNextFocusAbsolute(focused, next, direction); 2350 } 2351 2352 } 2353 2354 /** 2355 * Logic taken from FocusSearch#isCandidate 2356 */ isPreferredNextFocusAbsolute(View focused, View next, int direction)2357 private boolean isPreferredNextFocusAbsolute(View focused, View next, int direction) { 2358 mTempRect.set(0, 0, focused.getWidth(), focused.getHeight()); 2359 mTempRect2.set(0, 0, next.getWidth(), next.getHeight()); 2360 offsetDescendantRectToMyCoords(focused, mTempRect); 2361 offsetDescendantRectToMyCoords(next, mTempRect2); 2362 switch (direction) { 2363 case View.FOCUS_LEFT: 2364 return (mTempRect.right > mTempRect2.right 2365 || mTempRect.left >= mTempRect2.right) 2366 && mTempRect.left > mTempRect2.left; 2367 case View.FOCUS_RIGHT: 2368 return (mTempRect.left < mTempRect2.left 2369 || mTempRect.right <= mTempRect2.left) 2370 && mTempRect.right < mTempRect2.right; 2371 case View.FOCUS_UP: 2372 return (mTempRect.bottom > mTempRect2.bottom 2373 || mTempRect.top >= mTempRect2.bottom) 2374 && mTempRect.top > mTempRect2.top; 2375 case View.FOCUS_DOWN: 2376 return (mTempRect.top < mTempRect2.top 2377 || mTempRect.bottom <= mTempRect2.top) 2378 && mTempRect.bottom < mTempRect2.bottom; 2379 } 2380 throw new IllegalArgumentException("direction must be absolute. received:" + direction); 2381 } 2382 2383 @Override requestChildFocus(View child, View focused)2384 public void requestChildFocus(View child, View focused) { 2385 if (!mLayout.onRequestChildFocus(this, mState, child, focused) && focused != null) { 2386 mTempRect.set(0, 0, focused.getWidth(), focused.getHeight()); 2387 2388 // get item decor offsets w/o refreshing. If they are invalid, there will be another 2389 // layout pass to fix them, then it is LayoutManager's responsibility to keep focused 2390 // View in viewport. 2391 final ViewGroup.LayoutParams focusedLayoutParams = focused.getLayoutParams(); 2392 if (focusedLayoutParams instanceof LayoutParams) { 2393 // if focused child has item decors, use them. Otherwise, ignore. 2394 final LayoutParams lp = (LayoutParams) focusedLayoutParams; 2395 if (!lp.mInsetsDirty) { 2396 final Rect insets = lp.mDecorInsets; 2397 mTempRect.left -= insets.left; 2398 mTempRect.right += insets.right; 2399 mTempRect.top -= insets.top; 2400 mTempRect.bottom += insets.bottom; 2401 } 2402 } 2403 2404 offsetDescendantRectToMyCoords(focused, mTempRect); 2405 offsetRectIntoDescendantCoords(child, mTempRect); 2406 requestChildRectangleOnScreen(child, mTempRect, !mFirstLayoutComplete); 2407 } 2408 super.requestChildFocus(child, focused); 2409 } 2410 2411 @Override requestChildRectangleOnScreen(View child, Rect rect, boolean immediate)2412 public boolean requestChildRectangleOnScreen(View child, Rect rect, boolean immediate) { 2413 return mLayout.requestChildRectangleOnScreen(this, child, rect, immediate); 2414 } 2415 2416 @Override addFocusables(ArrayList<View> views, int direction, int focusableMode)2417 public void addFocusables(ArrayList<View> views, int direction, int focusableMode) { 2418 if (mLayout == null || !mLayout.onAddFocusables(this, views, direction, focusableMode)) { 2419 super.addFocusables(views, direction, focusableMode); 2420 } 2421 } 2422 2423 @Override onRequestFocusInDescendants(int direction, Rect previouslyFocusedRect)2424 protected boolean onRequestFocusInDescendants(int direction, Rect previouslyFocusedRect) { 2425 if (isComputingLayout()) { 2426 // if we are in the middle of a layout calculation, don't let any child take focus. 2427 // RV will handle it after layout calculation is finished. 2428 return false; 2429 } 2430 return super.onRequestFocusInDescendants(direction, previouslyFocusedRect); 2431 } 2432 2433 @Override onAttachedToWindow()2434 protected void onAttachedToWindow() { 2435 super.onAttachedToWindow(); 2436 mLayoutOrScrollCounter = 0; 2437 mIsAttached = true; 2438 mFirstLayoutComplete = mFirstLayoutComplete && !isLayoutRequested(); 2439 if (mLayout != null) { 2440 mLayout.dispatchAttachedToWindow(this); 2441 } 2442 mPostedAnimatorRunner = false; 2443 2444 if (ALLOW_THREAD_GAP_WORK) { 2445 // Register with gap worker 2446 mGapWorker = GapWorker.sGapWorker.get(); 2447 if (mGapWorker == null) { 2448 mGapWorker = new GapWorker(); 2449 2450 // break 60 fps assumption if data from display appears valid 2451 // NOTE: we only do this query once, statically, because it's very expensive (> 1ms) 2452 Display display = getDisplay(); 2453 float refreshRate = 60.0f; 2454 if (!isInEditMode() && display != null) { 2455 float displayRefreshRate = display.getRefreshRate(); 2456 if (displayRefreshRate >= 30.0f) { 2457 refreshRate = displayRefreshRate; 2458 } 2459 } 2460 mGapWorker.mFrameIntervalNs = (long) (1000000000 / refreshRate); 2461 GapWorker.sGapWorker.set(mGapWorker); 2462 } 2463 mGapWorker.add(this); 2464 } 2465 } 2466 2467 @Override onDetachedFromWindow()2468 protected void onDetachedFromWindow() { 2469 super.onDetachedFromWindow(); 2470 if (mItemAnimator != null) { 2471 mItemAnimator.endAnimations(); 2472 } 2473 stopScroll(); 2474 mIsAttached = false; 2475 if (mLayout != null) { 2476 mLayout.dispatchDetachedFromWindow(this, mRecycler); 2477 } 2478 mPendingAccessibilityImportanceChange.clear(); 2479 removeCallbacks(mItemAnimatorRunner); 2480 mViewInfoStore.onDetach(); 2481 2482 if (ALLOW_THREAD_GAP_WORK) { 2483 // Unregister with gap worker 2484 mGapWorker.remove(this); 2485 mGapWorker = null; 2486 } 2487 } 2488 2489 /** 2490 * Returns true if RecyclerView is attached to window. 2491 */ 2492 // @override isAttachedToWindow()2493 public boolean isAttachedToWindow() { 2494 return mIsAttached; 2495 } 2496 2497 /** 2498 * Checks if RecyclerView is in the middle of a layout or scroll and throws an 2499 * {@link IllegalStateException} if it <b>is not</b>. 2500 * 2501 * @param message The message for the exception. Can be null. 2502 * @see #assertNotInLayoutOrScroll(String) 2503 */ assertInLayoutOrScroll(String message)2504 void assertInLayoutOrScroll(String message) { 2505 if (!isComputingLayout()) { 2506 if (message == null) { 2507 throw new IllegalStateException("Cannot call this method unless RecyclerView is " 2508 + "computing a layout or scrolling"); 2509 } 2510 throw new IllegalStateException(message); 2511 2512 } 2513 } 2514 2515 /** 2516 * Checks if RecyclerView is in the middle of a layout or scroll and throws an 2517 * {@link IllegalStateException} if it <b>is</b>. 2518 * 2519 * @param message The message for the exception. Can be null. 2520 * @see #assertInLayoutOrScroll(String) 2521 */ assertNotInLayoutOrScroll(String message)2522 void assertNotInLayoutOrScroll(String message) { 2523 if (isComputingLayout()) { 2524 if (message == null) { 2525 throw new IllegalStateException("Cannot call this method while RecyclerView is " 2526 + "computing a layout or scrolling"); 2527 } 2528 throw new IllegalStateException(message); 2529 } 2530 if (mDispatchScrollCounter > 0) { 2531 Log.w(TAG, "Cannot call this method in a scroll callback. Scroll callbacks might be run" 2532 + " during a measure & layout pass where you cannot change the RecyclerView" 2533 + " data. Any method call that might change the structure of the RecyclerView" 2534 + " or the adapter contents should be postponed to the next frame.", 2535 new IllegalStateException("")); 2536 } 2537 } 2538 2539 /** 2540 * Add an {@link OnItemTouchListener} to intercept touch events before they are dispatched 2541 * to child views or this view's standard scrolling behavior. 2542 * 2543 * <p>Client code may use listeners to implement item manipulation behavior. Once a listener 2544 * returns true from 2545 * {@link OnItemTouchListener#onInterceptTouchEvent(RecyclerView, MotionEvent)} its 2546 * {@link OnItemTouchListener#onTouchEvent(RecyclerView, MotionEvent)} method will be called 2547 * for each incoming MotionEvent until the end of the gesture.</p> 2548 * 2549 * @param listener Listener to add 2550 * @see SimpleOnItemTouchListener 2551 */ addOnItemTouchListener(OnItemTouchListener listener)2552 public void addOnItemTouchListener(OnItemTouchListener listener) { 2553 mOnItemTouchListeners.add(listener); 2554 } 2555 2556 /** 2557 * Remove an {@link OnItemTouchListener}. It will no longer be able to intercept touch events. 2558 * 2559 * @param listener Listener to remove 2560 */ removeOnItemTouchListener(OnItemTouchListener listener)2561 public void removeOnItemTouchListener(OnItemTouchListener listener) { 2562 mOnItemTouchListeners.remove(listener); 2563 if (mActiveOnItemTouchListener == listener) { 2564 mActiveOnItemTouchListener = null; 2565 } 2566 } 2567 dispatchOnItemTouchIntercept(MotionEvent e)2568 private boolean dispatchOnItemTouchIntercept(MotionEvent e) { 2569 final int action = e.getAction(); 2570 if (action == MotionEvent.ACTION_CANCEL || action == MotionEvent.ACTION_DOWN) { 2571 mActiveOnItemTouchListener = null; 2572 } 2573 2574 final int listenerCount = mOnItemTouchListeners.size(); 2575 for (int i = 0; i < listenerCount; i++) { 2576 final OnItemTouchListener listener = mOnItemTouchListeners.get(i); 2577 if (listener.onInterceptTouchEvent(this, e) && action != MotionEvent.ACTION_CANCEL) { 2578 mActiveOnItemTouchListener = listener; 2579 return true; 2580 } 2581 } 2582 return false; 2583 } 2584 dispatchOnItemTouch(MotionEvent e)2585 private boolean dispatchOnItemTouch(MotionEvent e) { 2586 final int action = e.getAction(); 2587 if (mActiveOnItemTouchListener != null) { 2588 if (action == MotionEvent.ACTION_DOWN) { 2589 // Stale state from a previous gesture, we're starting a new one. Clear it. 2590 mActiveOnItemTouchListener = null; 2591 } else { 2592 mActiveOnItemTouchListener.onTouchEvent(this, e); 2593 if (action == MotionEvent.ACTION_CANCEL || action == MotionEvent.ACTION_UP) { 2594 // Clean up for the next gesture. 2595 mActiveOnItemTouchListener = null; 2596 } 2597 return true; 2598 } 2599 } 2600 2601 // Listeners will have already received the ACTION_DOWN via dispatchOnItemTouchIntercept 2602 // as called from onInterceptTouchEvent; skip it. 2603 if (action != MotionEvent.ACTION_DOWN) { 2604 final int listenerCount = mOnItemTouchListeners.size(); 2605 for (int i = 0; i < listenerCount; i++) { 2606 final OnItemTouchListener listener = mOnItemTouchListeners.get(i); 2607 if (listener.onInterceptTouchEvent(this, e)) { 2608 mActiveOnItemTouchListener = listener; 2609 return true; 2610 } 2611 } 2612 } 2613 return false; 2614 } 2615 2616 @Override onInterceptTouchEvent(MotionEvent e)2617 public boolean onInterceptTouchEvent(MotionEvent e) { 2618 if (mLayoutFrozen) { 2619 // When layout is frozen, RV does not intercept the motion event. 2620 // A child view e.g. a button may still get the click. 2621 return false; 2622 } 2623 if (dispatchOnItemTouchIntercept(e)) { 2624 cancelTouch(); 2625 return true; 2626 } 2627 2628 if (mLayout == null) { 2629 return false; 2630 } 2631 2632 final boolean canScrollHorizontally = mLayout.canScrollHorizontally(); 2633 final boolean canScrollVertically = mLayout.canScrollVertically(); 2634 2635 if (mVelocityTracker == null) { 2636 mVelocityTracker = VelocityTracker.obtain(); 2637 } 2638 mVelocityTracker.addMovement(e); 2639 2640 final int action = e.getActionMasked(); 2641 final int actionIndex = e.getActionIndex(); 2642 2643 switch (action) { 2644 case MotionEvent.ACTION_DOWN: 2645 if (mIgnoreMotionEventTillDown) { 2646 mIgnoreMotionEventTillDown = false; 2647 } 2648 mScrollPointerId = e.getPointerId(0); 2649 mInitialTouchX = mLastTouchX = (int) (e.getX() + 0.5f); 2650 mInitialTouchY = mLastTouchY = (int) (e.getY() + 0.5f); 2651 2652 if (mScrollState == SCROLL_STATE_SETTLING) { 2653 getParent().requestDisallowInterceptTouchEvent(true); 2654 setScrollState(SCROLL_STATE_DRAGGING); 2655 } 2656 2657 // Clear the nested offsets 2658 mNestedOffsets[0] = mNestedOffsets[1] = 0; 2659 2660 int nestedScrollAxis = View.SCROLL_AXIS_NONE; 2661 if (canScrollHorizontally) { 2662 nestedScrollAxis |= View.SCROLL_AXIS_HORIZONTAL; 2663 } 2664 if (canScrollVertically) { 2665 nestedScrollAxis |= View.SCROLL_AXIS_VERTICAL; 2666 } 2667 startNestedScroll(nestedScrollAxis); 2668 break; 2669 2670 case MotionEvent.ACTION_POINTER_DOWN: 2671 mScrollPointerId = e.getPointerId(actionIndex); 2672 mInitialTouchX = mLastTouchX = (int) (e.getX(actionIndex) + 0.5f); 2673 mInitialTouchY = mLastTouchY = (int) (e.getY(actionIndex) + 0.5f); 2674 break; 2675 2676 case MotionEvent.ACTION_MOVE: { 2677 final int index = e.findPointerIndex(mScrollPointerId); 2678 if (index < 0) { 2679 Log.e(TAG, "Error processing scroll; pointer index for id " 2680 + mScrollPointerId + " not found. Did any MotionEvents get skipped?"); 2681 return false; 2682 } 2683 2684 final int x = (int) (e.getX(index) + 0.5f); 2685 final int y = (int) (e.getY(index) + 0.5f); 2686 if (mScrollState != SCROLL_STATE_DRAGGING) { 2687 final int dx = x - mInitialTouchX; 2688 final int dy = y - mInitialTouchY; 2689 boolean startScroll = false; 2690 if (canScrollHorizontally && Math.abs(dx) > mTouchSlop) { 2691 mLastTouchX = mInitialTouchX + mTouchSlop * (dx < 0 ? -1 : 1); 2692 startScroll = true; 2693 } 2694 if (canScrollVertically && Math.abs(dy) > mTouchSlop) { 2695 mLastTouchY = mInitialTouchY + mTouchSlop * (dy < 0 ? -1 : 1); 2696 startScroll = true; 2697 } 2698 if (startScroll) { 2699 setScrollState(SCROLL_STATE_DRAGGING); 2700 } 2701 } 2702 } break; 2703 2704 case MotionEvent.ACTION_POINTER_UP: { 2705 onPointerUp(e); 2706 } break; 2707 2708 case MotionEvent.ACTION_UP: { 2709 mVelocityTracker.clear(); 2710 stopNestedScroll(); 2711 } break; 2712 2713 case MotionEvent.ACTION_CANCEL: { 2714 cancelTouch(); 2715 } 2716 } 2717 return mScrollState == SCROLL_STATE_DRAGGING; 2718 } 2719 2720 @Override requestDisallowInterceptTouchEvent(boolean disallowIntercept)2721 public void requestDisallowInterceptTouchEvent(boolean disallowIntercept) { 2722 final int listenerCount = mOnItemTouchListeners.size(); 2723 for (int i = 0; i < listenerCount; i++) { 2724 final OnItemTouchListener listener = mOnItemTouchListeners.get(i); 2725 listener.onRequestDisallowInterceptTouchEvent(disallowIntercept); 2726 } 2727 super.requestDisallowInterceptTouchEvent(disallowIntercept); 2728 } 2729 2730 @Override onTouchEvent(MotionEvent e)2731 public boolean onTouchEvent(MotionEvent e) { 2732 if (mLayoutFrozen || mIgnoreMotionEventTillDown) { 2733 return false; 2734 } 2735 if (dispatchOnItemTouch(e)) { 2736 cancelTouch(); 2737 return true; 2738 } 2739 2740 if (mLayout == null) { 2741 return false; 2742 } 2743 2744 final boolean canScrollHorizontally = mLayout.canScrollHorizontally(); 2745 final boolean canScrollVertically = mLayout.canScrollVertically(); 2746 2747 if (mVelocityTracker == null) { 2748 mVelocityTracker = VelocityTracker.obtain(); 2749 } 2750 boolean eventAddedToVelocityTracker = false; 2751 2752 final MotionEvent vtev = MotionEvent.obtain(e); 2753 final int action = e.getActionMasked(); 2754 final int actionIndex = e.getActionIndex(); 2755 2756 if (action == MotionEvent.ACTION_DOWN) { 2757 mNestedOffsets[0] = mNestedOffsets[1] = 0; 2758 } 2759 vtev.offsetLocation(mNestedOffsets[0], mNestedOffsets[1]); 2760 2761 switch (action) { 2762 case MotionEvent.ACTION_DOWN: { 2763 mScrollPointerId = e.getPointerId(0); 2764 mInitialTouchX = mLastTouchX = (int) (e.getX() + 0.5f); 2765 mInitialTouchY = mLastTouchY = (int) (e.getY() + 0.5f); 2766 2767 int nestedScrollAxis = View.SCROLL_AXIS_NONE; 2768 if (canScrollHorizontally) { 2769 nestedScrollAxis |= View.SCROLL_AXIS_HORIZONTAL; 2770 } 2771 if (canScrollVertically) { 2772 nestedScrollAxis |= View.SCROLL_AXIS_VERTICAL; 2773 } 2774 startNestedScroll(nestedScrollAxis); 2775 } break; 2776 2777 case MotionEvent.ACTION_POINTER_DOWN: { 2778 mScrollPointerId = e.getPointerId(actionIndex); 2779 mInitialTouchX = mLastTouchX = (int) (e.getX(actionIndex) + 0.5f); 2780 mInitialTouchY = mLastTouchY = (int) (e.getY(actionIndex) + 0.5f); 2781 } break; 2782 2783 case MotionEvent.ACTION_MOVE: { 2784 final int index = e.findPointerIndex(mScrollPointerId); 2785 if (index < 0) { 2786 Log.e(TAG, "Error processing scroll; pointer index for id " 2787 + mScrollPointerId + " not found. Did any MotionEvents get skipped?"); 2788 return false; 2789 } 2790 2791 final int x = (int) (e.getX(index) + 0.5f); 2792 final int y = (int) (e.getY(index) + 0.5f); 2793 int dx = mLastTouchX - x; 2794 int dy = mLastTouchY - y; 2795 2796 if (dispatchNestedPreScroll(dx, dy, mScrollConsumed, mScrollOffset)) { 2797 dx -= mScrollConsumed[0]; 2798 dy -= mScrollConsumed[1]; 2799 vtev.offsetLocation(mScrollOffset[0], mScrollOffset[1]); 2800 // Updated the nested offsets 2801 mNestedOffsets[0] += mScrollOffset[0]; 2802 mNestedOffsets[1] += mScrollOffset[1]; 2803 } 2804 2805 if (mScrollState != SCROLL_STATE_DRAGGING) { 2806 boolean startScroll = false; 2807 if (canScrollHorizontally && Math.abs(dx) > mTouchSlop) { 2808 if (dx > 0) { 2809 dx -= mTouchSlop; 2810 } else { 2811 dx += mTouchSlop; 2812 } 2813 startScroll = true; 2814 } 2815 if (canScrollVertically && Math.abs(dy) > mTouchSlop) { 2816 if (dy > 0) { 2817 dy -= mTouchSlop; 2818 } else { 2819 dy += mTouchSlop; 2820 } 2821 startScroll = true; 2822 } 2823 if (startScroll) { 2824 setScrollState(SCROLL_STATE_DRAGGING); 2825 } 2826 } 2827 2828 if (mScrollState == SCROLL_STATE_DRAGGING) { 2829 mLastTouchX = x - mScrollOffset[0]; 2830 mLastTouchY = y - mScrollOffset[1]; 2831 2832 if (scrollByInternal( 2833 canScrollHorizontally ? dx : 0, 2834 canScrollVertically ? dy : 0, 2835 vtev)) { 2836 getParent().requestDisallowInterceptTouchEvent(true); 2837 } 2838 if (mGapWorker != null && (dx != 0 || dy != 0)) { 2839 mGapWorker.postFromTraversal(this, dx, dy); 2840 } 2841 } 2842 } break; 2843 2844 case MotionEvent.ACTION_POINTER_UP: { 2845 onPointerUp(e); 2846 } break; 2847 2848 case MotionEvent.ACTION_UP: { 2849 mVelocityTracker.addMovement(vtev); 2850 eventAddedToVelocityTracker = true; 2851 mVelocityTracker.computeCurrentVelocity(1000, mMaxFlingVelocity); 2852 final float xvel = canScrollHorizontally 2853 ? -mVelocityTracker.getXVelocity(mScrollPointerId) : 0; 2854 final float yvel = canScrollVertically 2855 ? -mVelocityTracker.getYVelocity(mScrollPointerId) : 0; 2856 if (!((xvel != 0 || yvel != 0) && fling((int) xvel, (int) yvel))) { 2857 setScrollState(SCROLL_STATE_IDLE); 2858 } 2859 resetTouch(); 2860 } break; 2861 2862 case MotionEvent.ACTION_CANCEL: { 2863 cancelTouch(); 2864 } break; 2865 } 2866 2867 if (!eventAddedToVelocityTracker) { 2868 mVelocityTracker.addMovement(vtev); 2869 } 2870 vtev.recycle(); 2871 2872 return true; 2873 } 2874 resetTouch()2875 private void resetTouch() { 2876 if (mVelocityTracker != null) { 2877 mVelocityTracker.clear(); 2878 } 2879 stopNestedScroll(); 2880 releaseGlows(); 2881 } 2882 cancelTouch()2883 private void cancelTouch() { 2884 resetTouch(); 2885 setScrollState(SCROLL_STATE_IDLE); 2886 } 2887 onPointerUp(MotionEvent e)2888 private void onPointerUp(MotionEvent e) { 2889 final int actionIndex = e.getActionIndex(); 2890 if (e.getPointerId(actionIndex) == mScrollPointerId) { 2891 // Pick a new pointer to pick up the slack. 2892 final int newIndex = actionIndex == 0 ? 1 : 0; 2893 mScrollPointerId = e.getPointerId(newIndex); 2894 mInitialTouchX = mLastTouchX = (int) (e.getX(newIndex) + 0.5f); 2895 mInitialTouchY = mLastTouchY = (int) (e.getY(newIndex) + 0.5f); 2896 } 2897 } 2898 2899 // @Override onGenericMotionEvent(MotionEvent event)2900 public boolean onGenericMotionEvent(MotionEvent event) { 2901 if (mLayout == null) { 2902 return false; 2903 } 2904 if (mLayoutFrozen) { 2905 return false; 2906 } 2907 if ((event.getSource() & InputDevice.SOURCE_CLASS_POINTER) != 0) { 2908 if (event.getAction() == MotionEvent.ACTION_SCROLL) { 2909 final float vScroll, hScroll; 2910 if (mLayout.canScrollVertically()) { 2911 // Inverse the sign of the vertical scroll to align the scroll orientation 2912 // with AbsListView. 2913 vScroll = -event.getAxisValue(MotionEvent.AXIS_VSCROLL); 2914 } else { 2915 vScroll = 0f; 2916 } 2917 if (mLayout.canScrollHorizontally()) { 2918 hScroll = event.getAxisValue(MotionEvent.AXIS_HSCROLL); 2919 } else { 2920 hScroll = 0f; 2921 } 2922 2923 if (vScroll != 0 || hScroll != 0) { 2924 final float scrollFactor = getScrollFactor(); 2925 scrollByInternal((int) (hScroll * scrollFactor), 2926 (int) (vScroll * scrollFactor), event); 2927 } 2928 } 2929 } 2930 return false; 2931 } 2932 2933 /** 2934 * Ported from View.getVerticalScrollFactor. 2935 */ getScrollFactor()2936 private float getScrollFactor() { 2937 if (mScrollFactor == Float.MIN_VALUE) { 2938 TypedValue outValue = new TypedValue(); 2939 if (getContext().getTheme().resolveAttribute( 2940 android.R.attr.listPreferredItemHeight, outValue, true)) { 2941 mScrollFactor = outValue.getDimension( 2942 getContext().getResources().getDisplayMetrics()); 2943 } else { 2944 return 0; //listPreferredItemHeight is not defined, no generic scrolling 2945 } 2946 } 2947 return mScrollFactor; 2948 } 2949 2950 @Override onMeasure(int widthSpec, int heightSpec)2951 protected void onMeasure(int widthSpec, int heightSpec) { 2952 if (mLayout == null) { 2953 defaultOnMeasure(widthSpec, heightSpec); 2954 return; 2955 } 2956 if (mLayout.mAutoMeasure) { 2957 final int widthMode = MeasureSpec.getMode(widthSpec); 2958 final int heightMode = MeasureSpec.getMode(heightSpec); 2959 final boolean skipMeasure = widthMode == MeasureSpec.EXACTLY 2960 && heightMode == MeasureSpec.EXACTLY; 2961 mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); 2962 if (skipMeasure || mAdapter == null) { 2963 return; 2964 } 2965 if (mState.mLayoutStep == State.STEP_START) { 2966 dispatchLayoutStep1(); 2967 } 2968 // set dimensions in 2nd step. Pre-layout should happen with old dimensions for 2969 // consistency 2970 mLayout.setMeasureSpecs(widthSpec, heightSpec); 2971 mState.mIsMeasuring = true; 2972 dispatchLayoutStep2(); 2973 2974 // now we can get the width and height from the children. 2975 mLayout.setMeasuredDimensionFromChildren(widthSpec, heightSpec); 2976 2977 // if RecyclerView has non-exact width and height and if there is at least one child 2978 // which also has non-exact width & height, we have to re-measure. 2979 if (mLayout.shouldMeasureTwice()) { 2980 mLayout.setMeasureSpecs( 2981 MeasureSpec.makeMeasureSpec(getMeasuredWidth(), MeasureSpec.EXACTLY), 2982 MeasureSpec.makeMeasureSpec(getMeasuredHeight(), MeasureSpec.EXACTLY)); 2983 mState.mIsMeasuring = true; 2984 dispatchLayoutStep2(); 2985 // now we can get the width and height from the children. 2986 mLayout.setMeasuredDimensionFromChildren(widthSpec, heightSpec); 2987 } 2988 } else { 2989 if (mHasFixedSize) { 2990 mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); 2991 return; 2992 } 2993 // custom onMeasure 2994 if (mAdapterUpdateDuringMeasure) { 2995 eatRequestLayout(); 2996 onEnterLayoutOrScroll(); 2997 processAdapterUpdatesAndSetAnimationFlags(); 2998 onExitLayoutOrScroll(); 2999 3000 if (mState.mRunPredictiveAnimations) { 3001 mState.mInPreLayout = true; 3002 } else { 3003 // consume remaining updates to provide a consistent state with the layout pass. 3004 mAdapterHelper.consumeUpdatesInOnePass(); 3005 mState.mInPreLayout = false; 3006 } 3007 mAdapterUpdateDuringMeasure = false; 3008 resumeRequestLayout(false); 3009 } 3010 3011 if (mAdapter != null) { 3012 mState.mItemCount = mAdapter.getItemCount(); 3013 } else { 3014 mState.mItemCount = 0; 3015 } 3016 eatRequestLayout(); 3017 mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); 3018 resumeRequestLayout(false); 3019 mState.mInPreLayout = false; // clear 3020 } 3021 } 3022 3023 /** 3024 * Used when onMeasure is called before layout manager is set 3025 */ defaultOnMeasure(int widthSpec, int heightSpec)3026 void defaultOnMeasure(int widthSpec, int heightSpec) { 3027 // calling LayoutManager here is not pretty but that API is already public and it is better 3028 // than creating another method since this is internal. 3029 final int width = LayoutManager.chooseSize(widthSpec, 3030 getPaddingLeft() + getPaddingRight(), 3031 getMinimumWidth()); 3032 final int height = LayoutManager.chooseSize(heightSpec, 3033 getPaddingTop() + getPaddingBottom(), 3034 getMinimumHeight()); 3035 3036 setMeasuredDimension(width, height); 3037 } 3038 3039 @Override onSizeChanged(int w, int h, int oldw, int oldh)3040 protected void onSizeChanged(int w, int h, int oldw, int oldh) { 3041 super.onSizeChanged(w, h, oldw, oldh); 3042 if (w != oldw || h != oldh) { 3043 invalidateGlows(); 3044 // layout's w/h are updated during measure/layout steps. 3045 } 3046 } 3047 3048 /** 3049 * Sets the {@link ItemAnimator} that will handle animations involving changes 3050 * to the items in this RecyclerView. By default, RecyclerView instantiates and 3051 * uses an instance of {@link DefaultItemAnimator}. Whether item animations are 3052 * enabled for the RecyclerView depends on the ItemAnimator and whether 3053 * the LayoutManager {@link LayoutManager#supportsPredictiveItemAnimations() 3054 * supports item animations}. 3055 * 3056 * @param animator The ItemAnimator being set. If null, no animations will occur 3057 * when changes occur to the items in this RecyclerView. 3058 */ setItemAnimator(ItemAnimator animator)3059 public void setItemAnimator(ItemAnimator animator) { 3060 if (mItemAnimator != null) { 3061 mItemAnimator.endAnimations(); 3062 mItemAnimator.setListener(null); 3063 } 3064 mItemAnimator = animator; 3065 if (mItemAnimator != null) { 3066 mItemAnimator.setListener(mItemAnimatorListener); 3067 } 3068 } 3069 onEnterLayoutOrScroll()3070 void onEnterLayoutOrScroll() { 3071 mLayoutOrScrollCounter++; 3072 } 3073 onExitLayoutOrScroll()3074 void onExitLayoutOrScroll() { 3075 mLayoutOrScrollCounter--; 3076 if (mLayoutOrScrollCounter < 1) { 3077 if (DEBUG && mLayoutOrScrollCounter < 0) { 3078 throw new IllegalStateException("layout or scroll counter cannot go below zero." 3079 + "Some calls are not matching"); 3080 } 3081 mLayoutOrScrollCounter = 0; 3082 dispatchContentChangedIfNecessary(); 3083 dispatchPendingImportantForAccessibilityChanges(); 3084 } 3085 } 3086 isAccessibilityEnabled()3087 boolean isAccessibilityEnabled() { 3088 return mAccessibilityManager != null && mAccessibilityManager.isEnabled(); 3089 } 3090 dispatchContentChangedIfNecessary()3091 private void dispatchContentChangedIfNecessary() { 3092 final int flags = mEatenAccessibilityChangeFlags; 3093 mEatenAccessibilityChangeFlags = 0; 3094 if (flags != 0 && isAccessibilityEnabled()) { 3095 final AccessibilityEvent event = AccessibilityEvent.obtain(); 3096 event.setEventType(AccessibilityEvent.TYPE_WINDOW_CONTENT_CHANGED); 3097 event.setContentChangeTypes(flags); 3098 sendAccessibilityEventUnchecked(event); 3099 } 3100 } 3101 3102 /** 3103 * Returns whether RecyclerView is currently computing a layout. 3104 * <p> 3105 * If this method returns true, it means that RecyclerView is in a lockdown state and any 3106 * attempt to update adapter contents will result in an exception because adapter contents 3107 * cannot be changed while RecyclerView is trying to compute the layout. 3108 * <p> 3109 * It is very unlikely that your code will be running during this state as it is 3110 * called by the framework when a layout traversal happens or RecyclerView starts to scroll 3111 * in response to system events (touch, accessibility etc). 3112 * <p> 3113 * This case may happen if you have some custom logic to change adapter contents in 3114 * response to a View callback (e.g. focus change callback) which might be triggered during a 3115 * layout calculation. In these cases, you should just postpone the change using a Handler or a 3116 * similar mechanism. 3117 * 3118 * @return <code>true</code> if RecyclerView is currently computing a layout, <code>false</code> 3119 * otherwise 3120 */ isComputingLayout()3121 public boolean isComputingLayout() { 3122 return mLayoutOrScrollCounter > 0; 3123 } 3124 3125 /** 3126 * Returns true if an accessibility event should not be dispatched now. This happens when an 3127 * accessibility request arrives while RecyclerView does not have a stable state which is very 3128 * hard to handle for a LayoutManager. Instead, this method records necessary information about 3129 * the event and dispatches a window change event after the critical section is finished. 3130 * 3131 * @return True if the accessibility event should be postponed. 3132 */ shouldDeferAccessibilityEvent(AccessibilityEvent event)3133 boolean shouldDeferAccessibilityEvent(AccessibilityEvent event) { 3134 if (isComputingLayout()) { 3135 int type = 0; 3136 if (event != null) { 3137 type = event.getContentChangeTypes(); 3138 } 3139 if (type == 0) { 3140 type = AccessibilityEvent.CONTENT_CHANGE_TYPE_UNDEFINED; 3141 } 3142 mEatenAccessibilityChangeFlags |= type; 3143 return true; 3144 } 3145 return false; 3146 } 3147 3148 @Override sendAccessibilityEventUnchecked(AccessibilityEvent event)3149 public void sendAccessibilityEventUnchecked(AccessibilityEvent event) { 3150 if (shouldDeferAccessibilityEvent(event)) { 3151 return; 3152 } 3153 super.sendAccessibilityEventUnchecked(event); 3154 } 3155 3156 /** 3157 * Gets the current ItemAnimator for this RecyclerView. A null return value 3158 * indicates that there is no animator and that item changes will happen without 3159 * any animations. By default, RecyclerView instantiates and 3160 * uses an instance of {@link DefaultItemAnimator}. 3161 * 3162 * @return ItemAnimator The current ItemAnimator. If null, no animations will occur 3163 * when changes occur to the items in this RecyclerView. 3164 */ getItemAnimator()3165 public ItemAnimator getItemAnimator() { 3166 return mItemAnimator; 3167 } 3168 3169 /** 3170 * Post a runnable to the next frame to run pending item animations. Only the first such 3171 * request will be posted, governed by the mPostedAnimatorRunner flag. 3172 */ postAnimationRunner()3173 void postAnimationRunner() { 3174 if (!mPostedAnimatorRunner && mIsAttached) { 3175 postOnAnimation(mItemAnimatorRunner); 3176 mPostedAnimatorRunner = true; 3177 } 3178 } 3179 predictiveItemAnimationsEnabled()3180 private boolean predictiveItemAnimationsEnabled() { 3181 return (mItemAnimator != null && mLayout.supportsPredictiveItemAnimations()); 3182 } 3183 3184 /** 3185 * Consumes adapter updates and calculates which type of animations we want to run. 3186 * Called in onMeasure and dispatchLayout. 3187 * <p> 3188 * This method may process only the pre-layout state of updates or all of them. 3189 */ processAdapterUpdatesAndSetAnimationFlags()3190 private void processAdapterUpdatesAndSetAnimationFlags() { 3191 if (mDataSetHasChangedAfterLayout) { 3192 // Processing these items have no value since data set changed unexpectedly. 3193 // Instead, we just reset it. 3194 mAdapterHelper.reset(); 3195 mLayout.onItemsChanged(this); 3196 } 3197 // simple animations are a subset of advanced animations (which will cause a 3198 // pre-layout step) 3199 // If layout supports predictive animations, pre-process to decide if we want to run them 3200 if (predictiveItemAnimationsEnabled()) { 3201 mAdapterHelper.preProcess(); 3202 } else { 3203 mAdapterHelper.consumeUpdatesInOnePass(); 3204 } 3205 boolean animationTypeSupported = mItemsAddedOrRemoved || mItemsChanged; 3206 mState.mRunSimpleAnimations = mFirstLayoutComplete 3207 && mItemAnimator != null 3208 && (mDataSetHasChangedAfterLayout 3209 || animationTypeSupported 3210 || mLayout.mRequestedSimpleAnimations) 3211 && (!mDataSetHasChangedAfterLayout 3212 || mAdapter.hasStableIds()); 3213 mState.mRunPredictiveAnimations = mState.mRunSimpleAnimations 3214 && animationTypeSupported 3215 && !mDataSetHasChangedAfterLayout 3216 && predictiveItemAnimationsEnabled(); 3217 } 3218 3219 /** 3220 * Wrapper around layoutChildren() that handles animating changes caused by layout. 3221 * Animations work on the assumption that there are five different kinds of items 3222 * in play: 3223 * PERSISTENT: items are visible before and after layout 3224 * REMOVED: items were visible before layout and were removed by the app 3225 * ADDED: items did not exist before layout and were added by the app 3226 * DISAPPEARING: items exist in the data set before/after, but changed from 3227 * visible to non-visible in the process of layout (they were moved off 3228 * screen as a side-effect of other changes) 3229 * APPEARING: items exist in the data set before/after, but changed from 3230 * non-visible to visible in the process of layout (they were moved on 3231 * screen as a side-effect of other changes) 3232 * The overall approach figures out what items exist before/after layout and 3233 * infers one of the five above states for each of the items. Then the animations 3234 * are set up accordingly: 3235 * PERSISTENT views are animated via 3236 * {@link ItemAnimator#animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo)} 3237 * DISAPPEARING views are animated via 3238 * {@link ItemAnimator#animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo)} 3239 * APPEARING views are animated via 3240 * {@link ItemAnimator#animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo)} 3241 * and changed views are animated via 3242 * {@link ItemAnimator#animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo)}. 3243 */ dispatchLayout()3244 void dispatchLayout() { 3245 if (mAdapter == null) { 3246 Log.e(TAG, "No adapter attached; skipping layout"); 3247 // leave the state in START 3248 return; 3249 } 3250 if (mLayout == null) { 3251 Log.e(TAG, "No layout manager attached; skipping layout"); 3252 // leave the state in START 3253 return; 3254 } 3255 mState.mIsMeasuring = false; 3256 if (mState.mLayoutStep == State.STEP_START) { 3257 dispatchLayoutStep1(); 3258 mLayout.setExactMeasureSpecsFrom(this); 3259 dispatchLayoutStep2(); 3260 } else if (mAdapterHelper.hasUpdates() || mLayout.getWidth() != getWidth() 3261 || mLayout.getHeight() != getHeight()) { 3262 // First 2 steps are done in onMeasure but looks like we have to run again due to 3263 // changed size. 3264 mLayout.setExactMeasureSpecsFrom(this); 3265 dispatchLayoutStep2(); 3266 } else { 3267 // always make sure we sync them (to ensure mode is exact) 3268 mLayout.setExactMeasureSpecsFrom(this); 3269 } 3270 dispatchLayoutStep3(); 3271 } 3272 saveFocusInfo()3273 private void saveFocusInfo() { 3274 View child = null; 3275 if (mPreserveFocusAfterLayout && hasFocus() && mAdapter != null) { 3276 child = getFocusedChild(); 3277 } 3278 3279 final ViewHolder focusedVh = child == null ? null : findContainingViewHolder(child); 3280 if (focusedVh == null) { 3281 resetFocusInfo(); 3282 } else { 3283 mState.mFocusedItemId = mAdapter.hasStableIds() ? focusedVh.getItemId() : NO_ID; 3284 // mFocusedItemPosition should hold the current adapter position of the previously 3285 // focused item. If the item is removed, we store the previous adapter position of the 3286 // removed item. 3287 mState.mFocusedItemPosition = mDataSetHasChangedAfterLayout ? NO_POSITION 3288 : (focusedVh.isRemoved() ? focusedVh.mOldPosition 3289 : focusedVh.getAdapterPosition()); 3290 mState.mFocusedSubChildId = getDeepestFocusedViewWithId(focusedVh.itemView); 3291 } 3292 } 3293 resetFocusInfo()3294 private void resetFocusInfo() { 3295 mState.mFocusedItemId = NO_ID; 3296 mState.mFocusedItemPosition = NO_POSITION; 3297 mState.mFocusedSubChildId = View.NO_ID; 3298 } 3299 3300 /** 3301 * Finds the best view candidate to request focus on using mFocusedItemPosition index of the 3302 * previously focused item. It first traverses the adapter forward to find a focusable candidate 3303 * and if no such candidate is found, it reverses the focus search direction for the items 3304 * before the mFocusedItemPosition'th index; 3305 * @return The best candidate to request focus on, or null if no such candidate exists. Null 3306 * indicates all the existing adapter items are unfocusable. 3307 */ 3308 @Nullable findNextViewToFocus()3309 private View findNextViewToFocus() { 3310 int startFocusSearchIndex = mState.mFocusedItemPosition != -1 ? mState.mFocusedItemPosition 3311 : 0; 3312 ViewHolder nextFocus; 3313 final int itemCount = mState.getItemCount(); 3314 for (int i = startFocusSearchIndex; i < itemCount; i++) { 3315 nextFocus = findViewHolderForAdapterPosition(i); 3316 if (nextFocus == null) { 3317 break; 3318 } 3319 if (nextFocus.itemView.hasFocusable()) { 3320 return nextFocus.itemView; 3321 } 3322 } 3323 final int limit = Math.min(itemCount, startFocusSearchIndex); 3324 for (int i = limit - 1; i >= 0; i--) { 3325 nextFocus = findViewHolderForAdapterPosition(i); 3326 if (nextFocus == null) { 3327 return null; 3328 } 3329 if (nextFocus.itemView.hasFocusable()) { 3330 return nextFocus.itemView; 3331 } 3332 } 3333 return null; 3334 } 3335 recoverFocusFromState()3336 private void recoverFocusFromState() { 3337 if (!mPreserveFocusAfterLayout || mAdapter == null || !hasFocus() 3338 || getDescendantFocusability() == FOCUS_BLOCK_DESCENDANTS 3339 || (getDescendantFocusability() == FOCUS_BEFORE_DESCENDANTS && isFocused())) { 3340 // No-op if either of these cases happens: 3341 // 1. RV has no focus, or 2. RV blocks focus to its children, or 3. RV takes focus 3342 // before its children and is focused (i.e. it already stole the focus away from its 3343 // descendants). 3344 return; 3345 } 3346 // only recover focus if RV itself has the focus or the focused view is hidden 3347 if (!isFocused()) { 3348 final View focusedChild = getFocusedChild(); 3349 if (IGNORE_DETACHED_FOCUSED_CHILD 3350 && (focusedChild.getParent() == null || !focusedChild.hasFocus())) { 3351 // Special handling of API 15-. A focused child can be invalid because mFocus is not 3352 // cleared when the child is detached (mParent = null), 3353 // This happens because clearFocus on API 15- does not invalidate mFocus of its 3354 // parent when this child is detached. 3355 // For API 16+, this is not an issue because requestFocus takes care of clearing the 3356 // prior detached focused child. For API 15- the problem happens in 2 cases because 3357 // clearChild does not call clearChildFocus on RV: 1. setFocusable(false) is called 3358 // for the current focused item which calls clearChild or 2. when the prior focused 3359 // child is removed, removeDetachedView called in layout step 3 which calls 3360 // clearChild. We should ignore this invalid focused child in all our calculations 3361 // for the next view to receive focus, and apply the focus recovery logic instead. 3362 if (mChildHelper.getChildCount() == 0) { 3363 // No children left. Request focus on the RV itself since one of its children 3364 // was holding focus previously. 3365 requestFocus(); 3366 return; 3367 } 3368 } else if (!mChildHelper.isHidden(focusedChild)) { 3369 // If the currently focused child is hidden, apply the focus recovery logic. 3370 // Otherwise return, i.e. the currently (unhidden) focused child is good enough :/. 3371 return; 3372 } 3373 } 3374 ViewHolder focusTarget = null; 3375 // RV first attempts to locate the previously focused item to request focus on using 3376 // mFocusedItemId. If such an item no longer exists, it then makes a best-effort attempt to 3377 // find the next best candidate to request focus on based on mFocusedItemPosition. 3378 if (mState.mFocusedItemId != NO_ID && mAdapter.hasStableIds()) { 3379 focusTarget = findViewHolderForItemId(mState.mFocusedItemId); 3380 } 3381 View viewToFocus = null; 3382 if (focusTarget == null || mChildHelper.isHidden(focusTarget.itemView) 3383 || !focusTarget.itemView.hasFocusable()) { 3384 if (mChildHelper.getChildCount() > 0) { 3385 // At this point, RV has focus and either of these conditions are true: 3386 // 1. There's no previously focused item either because RV received focused before 3387 // layout, or the previously focused item was removed, or RV doesn't have stable IDs 3388 // 2. Previous focus child is hidden, or 3. Previous focused child is no longer 3389 // focusable. In either of these cases, we make sure that RV still passes down the 3390 // focus to one of its focusable children using a best-effort algorithm. 3391 viewToFocus = findNextViewToFocus(); 3392 } 3393 } else { 3394 // looks like the focused item has been replaced with another view that represents the 3395 // same item in the adapter. Request focus on that. 3396 viewToFocus = focusTarget.itemView; 3397 } 3398 3399 if (viewToFocus != null) { 3400 if (mState.mFocusedSubChildId != NO_ID) { 3401 View child = viewToFocus.findViewById(mState.mFocusedSubChildId); 3402 if (child != null && child.isFocusable()) { 3403 viewToFocus = child; 3404 } 3405 } 3406 viewToFocus.requestFocus(); 3407 } 3408 } 3409 getDeepestFocusedViewWithId(View view)3410 private int getDeepestFocusedViewWithId(View view) { 3411 int lastKnownId = view.getId(); 3412 while (!view.isFocused() && view instanceof ViewGroup && view.hasFocus()) { 3413 view = ((ViewGroup) view).getFocusedChild(); 3414 final int id = view.getId(); 3415 if (id != View.NO_ID) { 3416 lastKnownId = view.getId(); 3417 } 3418 } 3419 return lastKnownId; 3420 } 3421 3422 /** 3423 * The first step of a layout where we; 3424 * - process adapter updates 3425 * - decide which animation should run 3426 * - save information about current views 3427 * - If necessary, run predictive layout and save its information 3428 */ dispatchLayoutStep1()3429 private void dispatchLayoutStep1() { 3430 mState.assertLayoutStep(State.STEP_START); 3431 mState.mIsMeasuring = false; 3432 eatRequestLayout(); 3433 mViewInfoStore.clear(); 3434 onEnterLayoutOrScroll(); 3435 processAdapterUpdatesAndSetAnimationFlags(); 3436 saveFocusInfo(); 3437 mState.mTrackOldChangeHolders = mState.mRunSimpleAnimations && mItemsChanged; 3438 mItemsAddedOrRemoved = mItemsChanged = false; 3439 mState.mInPreLayout = mState.mRunPredictiveAnimations; 3440 mState.mItemCount = mAdapter.getItemCount(); 3441 findMinMaxChildLayoutPositions(mMinMaxLayoutPositions); 3442 3443 if (mState.mRunSimpleAnimations) { 3444 // Step 0: Find out where all non-removed items are, pre-layout 3445 int count = mChildHelper.getChildCount(); 3446 for (int i = 0; i < count; ++i) { 3447 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); 3448 if (holder.shouldIgnore() || (holder.isInvalid() && !mAdapter.hasStableIds())) { 3449 continue; 3450 } 3451 final ItemHolderInfo animationInfo = mItemAnimator 3452 .recordPreLayoutInformation(mState, holder, 3453 ItemAnimator.buildAdapterChangeFlagsForAnimations(holder), 3454 holder.getUnmodifiedPayloads()); 3455 mViewInfoStore.addToPreLayout(holder, animationInfo); 3456 if (mState.mTrackOldChangeHolders && holder.isUpdated() && !holder.isRemoved() 3457 && !holder.shouldIgnore() && !holder.isInvalid()) { 3458 long key = getChangedHolderKey(holder); 3459 // This is NOT the only place where a ViewHolder is added to old change holders 3460 // list. There is another case where: 3461 // * A VH is currently hidden but not deleted 3462 // * The hidden item is changed in the adapter 3463 // * Layout manager decides to layout the item in the pre-Layout pass (step1) 3464 // When this case is detected, RV will un-hide that view and add to the old 3465 // change holders list. 3466 mViewInfoStore.addToOldChangeHolders(key, holder); 3467 } 3468 } 3469 } 3470 if (mState.mRunPredictiveAnimations) { 3471 // Step 1: run prelayout: This will use the old positions of items. The layout manager 3472 // is expected to layout everything, even removed items (though not to add removed 3473 // items back to the container). This gives the pre-layout position of APPEARING views 3474 // which come into existence as part of the real layout. 3475 3476 // Save old positions so that LayoutManager can run its mapping logic. 3477 saveOldPositions(); 3478 final boolean didStructureChange = mState.mStructureChanged; 3479 mState.mStructureChanged = false; 3480 // temporarily disable flag because we are asking for previous layout 3481 mLayout.onLayoutChildren(mRecycler, mState); 3482 mState.mStructureChanged = didStructureChange; 3483 3484 for (int i = 0; i < mChildHelper.getChildCount(); ++i) { 3485 final View child = mChildHelper.getChildAt(i); 3486 final ViewHolder viewHolder = getChildViewHolderInt(child); 3487 if (viewHolder.shouldIgnore()) { 3488 continue; 3489 } 3490 if (!mViewInfoStore.isInPreLayout(viewHolder)) { 3491 int flags = ItemAnimator.buildAdapterChangeFlagsForAnimations(viewHolder); 3492 boolean wasHidden = viewHolder 3493 .hasAnyOfTheFlags(ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); 3494 if (!wasHidden) { 3495 flags |= ItemAnimator.FLAG_APPEARED_IN_PRE_LAYOUT; 3496 } 3497 final ItemHolderInfo animationInfo = mItemAnimator.recordPreLayoutInformation( 3498 mState, viewHolder, flags, viewHolder.getUnmodifiedPayloads()); 3499 if (wasHidden) { 3500 recordAnimationInfoIfBouncedHiddenView(viewHolder, animationInfo); 3501 } else { 3502 mViewInfoStore.addToAppearedInPreLayoutHolders(viewHolder, animationInfo); 3503 } 3504 } 3505 } 3506 // we don't process disappearing list because they may re-appear in post layout pass. 3507 clearOldPositions(); 3508 } else { 3509 clearOldPositions(); 3510 } 3511 onExitLayoutOrScroll(); 3512 resumeRequestLayout(false); 3513 mState.mLayoutStep = State.STEP_LAYOUT; 3514 } 3515 3516 /** 3517 * The second layout step where we do the actual layout of the views for the final state. 3518 * This step might be run multiple times if necessary (e.g. measure). 3519 */ dispatchLayoutStep2()3520 private void dispatchLayoutStep2() { 3521 eatRequestLayout(); 3522 onEnterLayoutOrScroll(); 3523 mState.assertLayoutStep(State.STEP_LAYOUT | State.STEP_ANIMATIONS); 3524 mAdapterHelper.consumeUpdatesInOnePass(); 3525 mState.mItemCount = mAdapter.getItemCount(); 3526 mState.mDeletedInvisibleItemCountSincePreviousLayout = 0; 3527 3528 // Step 2: Run layout 3529 mState.mInPreLayout = false; 3530 mLayout.onLayoutChildren(mRecycler, mState); 3531 3532 mState.mStructureChanged = false; 3533 mPendingSavedState = null; 3534 3535 // onLayoutChildren may have caused client code to disable item animations; re-check 3536 mState.mRunSimpleAnimations = mState.mRunSimpleAnimations && mItemAnimator != null; 3537 mState.mLayoutStep = State.STEP_ANIMATIONS; 3538 onExitLayoutOrScroll(); 3539 resumeRequestLayout(false); 3540 } 3541 3542 /** 3543 * The final step of the layout where we save the information about views for animations, 3544 * trigger animations and do any necessary cleanup. 3545 */ dispatchLayoutStep3()3546 private void dispatchLayoutStep3() { 3547 mState.assertLayoutStep(State.STEP_ANIMATIONS); 3548 eatRequestLayout(); 3549 onEnterLayoutOrScroll(); 3550 mState.mLayoutStep = State.STEP_START; 3551 if (mState.mRunSimpleAnimations) { 3552 // Step 3: Find out where things are now, and process change animations. 3553 // traverse list in reverse because we may call animateChange in the loop which may 3554 // remove the target view holder. 3555 for (int i = mChildHelper.getChildCount() - 1; i >= 0; i--) { 3556 ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); 3557 if (holder.shouldIgnore()) { 3558 continue; 3559 } 3560 long key = getChangedHolderKey(holder); 3561 final ItemHolderInfo animationInfo = mItemAnimator 3562 .recordPostLayoutInformation(mState, holder); 3563 ViewHolder oldChangeViewHolder = mViewInfoStore.getFromOldChangeHolders(key); 3564 if (oldChangeViewHolder != null && !oldChangeViewHolder.shouldIgnore()) { 3565 // run a change animation 3566 3567 // If an Item is CHANGED but the updated version is disappearing, it creates 3568 // a conflicting case. 3569 // Since a view that is marked as disappearing is likely to be going out of 3570 // bounds, we run a change animation. Both views will be cleaned automatically 3571 // once their animations finish. 3572 // On the other hand, if it is the same view holder instance, we run a 3573 // disappearing animation instead because we are not going to rebind the updated 3574 // VH unless it is enforced by the layout manager. 3575 final boolean oldDisappearing = mViewInfoStore.isDisappearing( 3576 oldChangeViewHolder); 3577 final boolean newDisappearing = mViewInfoStore.isDisappearing(holder); 3578 if (oldDisappearing && oldChangeViewHolder == holder) { 3579 // run disappear animation instead of change 3580 mViewInfoStore.addToPostLayout(holder, animationInfo); 3581 } else { 3582 final ItemHolderInfo preInfo = mViewInfoStore.popFromPreLayout( 3583 oldChangeViewHolder); 3584 // we add and remove so that any post info is merged. 3585 mViewInfoStore.addToPostLayout(holder, animationInfo); 3586 ItemHolderInfo postInfo = mViewInfoStore.popFromPostLayout(holder); 3587 if (preInfo == null) { 3588 handleMissingPreInfoForChangeError(key, holder, oldChangeViewHolder); 3589 } else { 3590 animateChange(oldChangeViewHolder, holder, preInfo, postInfo, 3591 oldDisappearing, newDisappearing); 3592 } 3593 } 3594 } else { 3595 mViewInfoStore.addToPostLayout(holder, animationInfo); 3596 } 3597 } 3598 3599 // Step 4: Process view info lists and trigger animations 3600 mViewInfoStore.process(mViewInfoProcessCallback); 3601 } 3602 3603 mLayout.removeAndRecycleScrapInt(mRecycler); 3604 mState.mPreviousLayoutItemCount = mState.mItemCount; 3605 mDataSetHasChangedAfterLayout = false; 3606 mState.mRunSimpleAnimations = false; 3607 3608 mState.mRunPredictiveAnimations = false; 3609 mLayout.mRequestedSimpleAnimations = false; 3610 if (mRecycler.mChangedScrap != null) { 3611 mRecycler.mChangedScrap.clear(); 3612 } 3613 if (mLayout.mPrefetchMaxObservedInInitialPrefetch) { 3614 // Initial prefetch has expanded cache, so reset until next prefetch. 3615 // This prevents initial prefetches from expanding the cache permanently. 3616 mLayout.mPrefetchMaxCountObserved = 0; 3617 mLayout.mPrefetchMaxObservedInInitialPrefetch = false; 3618 mRecycler.updateViewCacheSize(); 3619 } 3620 3621 mLayout.onLayoutCompleted(mState); 3622 onExitLayoutOrScroll(); 3623 resumeRequestLayout(false); 3624 mViewInfoStore.clear(); 3625 if (didChildRangeChange(mMinMaxLayoutPositions[0], mMinMaxLayoutPositions[1])) { 3626 dispatchOnScrolled(0, 0); 3627 } 3628 recoverFocusFromState(); 3629 resetFocusInfo(); 3630 } 3631 3632 /** 3633 * This handles the case where there is an unexpected VH missing in the pre-layout map. 3634 * <p> 3635 * We might be able to detect the error in the application which will help the developer to 3636 * resolve the issue. 3637 * <p> 3638 * If it is not an expected error, we at least print an error to notify the developer and ignore 3639 * the animation. 3640 * 3641 * https://code.google.com/p/android/issues/detail?id=193958 3642 * 3643 * @param key The change key 3644 * @param holder Current ViewHolder 3645 * @param oldChangeViewHolder Changed ViewHolder 3646 */ handleMissingPreInfoForChangeError(long key, ViewHolder holder, ViewHolder oldChangeViewHolder)3647 private void handleMissingPreInfoForChangeError(long key, 3648 ViewHolder holder, ViewHolder oldChangeViewHolder) { 3649 // check if two VH have the same key, if so, print that as an error 3650 final int childCount = mChildHelper.getChildCount(); 3651 for (int i = 0; i < childCount; i++) { 3652 View view = mChildHelper.getChildAt(i); 3653 ViewHolder other = getChildViewHolderInt(view); 3654 if (other == holder) { 3655 continue; 3656 } 3657 final long otherKey = getChangedHolderKey(other); 3658 if (otherKey == key) { 3659 if (mAdapter != null && mAdapter.hasStableIds()) { 3660 throw new IllegalStateException("Two different ViewHolders have the same stable" 3661 + " ID. Stable IDs in your adapter MUST BE unique and SHOULD NOT" 3662 + " change.\n ViewHolder 1:" + other + " \n View Holder 2:" + holder); 3663 } else { 3664 throw new IllegalStateException("Two different ViewHolders have the same change" 3665 + " ID. This might happen due to inconsistent Adapter update events or" 3666 + " if the LayoutManager lays out the same View multiple times." 3667 + "\n ViewHolder 1:" + other + " \n View Holder 2:" + holder); 3668 } 3669 } 3670 } 3671 // Very unlikely to happen but if it does, notify the developer. 3672 Log.e(TAG, "Problem while matching changed view holders with the new" 3673 + "ones. The pre-layout information for the change holder " + oldChangeViewHolder 3674 + " cannot be found but it is necessary for " + holder); 3675 } 3676 3677 /** 3678 * Records the animation information for a view holder that was bounced from hidden list. It 3679 * also clears the bounce back flag. 3680 */ recordAnimationInfoIfBouncedHiddenView(ViewHolder viewHolder, ItemHolderInfo animationInfo)3681 void recordAnimationInfoIfBouncedHiddenView(ViewHolder viewHolder, 3682 ItemHolderInfo animationInfo) { 3683 // looks like this view bounced back from hidden list! 3684 viewHolder.setFlags(0, ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); 3685 if (mState.mTrackOldChangeHolders && viewHolder.isUpdated() 3686 && !viewHolder.isRemoved() && !viewHolder.shouldIgnore()) { 3687 long key = getChangedHolderKey(viewHolder); 3688 mViewInfoStore.addToOldChangeHolders(key, viewHolder); 3689 } 3690 mViewInfoStore.addToPreLayout(viewHolder, animationInfo); 3691 } 3692 findMinMaxChildLayoutPositions(int[] into)3693 private void findMinMaxChildLayoutPositions(int[] into) { 3694 final int count = mChildHelper.getChildCount(); 3695 if (count == 0) { 3696 into[0] = NO_POSITION; 3697 into[1] = NO_POSITION; 3698 return; 3699 } 3700 int minPositionPreLayout = Integer.MAX_VALUE; 3701 int maxPositionPreLayout = Integer.MIN_VALUE; 3702 for (int i = 0; i < count; ++i) { 3703 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); 3704 if (holder.shouldIgnore()) { 3705 continue; 3706 } 3707 final int pos = holder.getLayoutPosition(); 3708 if (pos < minPositionPreLayout) { 3709 minPositionPreLayout = pos; 3710 } 3711 if (pos > maxPositionPreLayout) { 3712 maxPositionPreLayout = pos; 3713 } 3714 } 3715 into[0] = minPositionPreLayout; 3716 into[1] = maxPositionPreLayout; 3717 } 3718 didChildRangeChange(int minPositionPreLayout, int maxPositionPreLayout)3719 private boolean didChildRangeChange(int minPositionPreLayout, int maxPositionPreLayout) { 3720 findMinMaxChildLayoutPositions(mMinMaxLayoutPositions); 3721 return mMinMaxLayoutPositions[0] != minPositionPreLayout 3722 || mMinMaxLayoutPositions[1] != maxPositionPreLayout; 3723 } 3724 3725 @Override removeDetachedView(View child, boolean animate)3726 protected void removeDetachedView(View child, boolean animate) { 3727 ViewHolder vh = getChildViewHolderInt(child); 3728 if (vh != null) { 3729 if (vh.isTmpDetached()) { 3730 vh.clearTmpDetachFlag(); 3731 } else if (!vh.shouldIgnore()) { 3732 throw new IllegalArgumentException("Called removeDetachedView with a view which" 3733 + " is not flagged as tmp detached." + vh); 3734 } 3735 } 3736 dispatchChildDetached(child); 3737 super.removeDetachedView(child, animate); 3738 } 3739 3740 /** 3741 * Returns a unique key to be used while handling change animations. 3742 * It might be child's position or stable id depending on the adapter type. 3743 */ getChangedHolderKey(ViewHolder holder)3744 long getChangedHolderKey(ViewHolder holder) { 3745 return mAdapter.hasStableIds() ? holder.getItemId() : holder.mPosition; 3746 } 3747 animateAppearance(@onNull ViewHolder itemHolder, @Nullable ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo)3748 void animateAppearance(@NonNull ViewHolder itemHolder, 3749 @Nullable ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo) { 3750 itemHolder.setIsRecyclable(false); 3751 if (mItemAnimator.animateAppearance(itemHolder, preLayoutInfo, postLayoutInfo)) { 3752 postAnimationRunner(); 3753 } 3754 } 3755 animateDisappearance(@onNull ViewHolder holder, @NonNull ItemHolderInfo preLayoutInfo, @Nullable ItemHolderInfo postLayoutInfo)3756 void animateDisappearance(@NonNull ViewHolder holder, 3757 @NonNull ItemHolderInfo preLayoutInfo, @Nullable ItemHolderInfo postLayoutInfo) { 3758 addAnimatingView(holder); 3759 holder.setIsRecyclable(false); 3760 if (mItemAnimator.animateDisappearance(holder, preLayoutInfo, postLayoutInfo)) { 3761 postAnimationRunner(); 3762 } 3763 } 3764 animateChange(@onNull ViewHolder oldHolder, @NonNull ViewHolder newHolder, @NonNull ItemHolderInfo preInfo, @NonNull ItemHolderInfo postInfo, boolean oldHolderDisappearing, boolean newHolderDisappearing)3765 private void animateChange(@NonNull ViewHolder oldHolder, @NonNull ViewHolder newHolder, 3766 @NonNull ItemHolderInfo preInfo, @NonNull ItemHolderInfo postInfo, 3767 boolean oldHolderDisappearing, boolean newHolderDisappearing) { 3768 oldHolder.setIsRecyclable(false); 3769 if (oldHolderDisappearing) { 3770 addAnimatingView(oldHolder); 3771 } 3772 if (oldHolder != newHolder) { 3773 if (newHolderDisappearing) { 3774 addAnimatingView(newHolder); 3775 } 3776 oldHolder.mShadowedHolder = newHolder; 3777 // old holder should disappear after animation ends 3778 addAnimatingView(oldHolder); 3779 mRecycler.unscrapView(oldHolder); 3780 newHolder.setIsRecyclable(false); 3781 newHolder.mShadowingHolder = oldHolder; 3782 } 3783 if (mItemAnimator.animateChange(oldHolder, newHolder, preInfo, postInfo)) { 3784 postAnimationRunner(); 3785 } 3786 } 3787 3788 @Override onLayout(boolean changed, int l, int t, int r, int b)3789 protected void onLayout(boolean changed, int l, int t, int r, int b) { 3790 Trace.beginSection(TRACE_ON_LAYOUT_TAG); 3791 dispatchLayout(); 3792 Trace.endSection(); 3793 mFirstLayoutComplete = true; 3794 } 3795 3796 @Override requestLayout()3797 public void requestLayout() { 3798 if (mEatRequestLayout == 0 && !mLayoutFrozen) { 3799 super.requestLayout(); 3800 } else { 3801 mLayoutRequestEaten = true; 3802 } 3803 } 3804 markItemDecorInsetsDirty()3805 void markItemDecorInsetsDirty() { 3806 final int childCount = mChildHelper.getUnfilteredChildCount(); 3807 for (int i = 0; i < childCount; i++) { 3808 final View child = mChildHelper.getUnfilteredChildAt(i); 3809 ((LayoutParams) child.getLayoutParams()).mInsetsDirty = true; 3810 } 3811 mRecycler.markItemDecorInsetsDirty(); 3812 } 3813 3814 @Override draw(Canvas c)3815 public void draw(Canvas c) { 3816 super.draw(c); 3817 3818 final int count = mItemDecorations.size(); 3819 for (int i = 0; i < count; i++) { 3820 mItemDecorations.get(i).onDrawOver(c, this, mState); 3821 } 3822 // TODO If padding is not 0 and clipChildrenToPadding is false, to draw glows properly, we 3823 // need find children closest to edges. Not sure if it is worth the effort. 3824 boolean needsInvalidate = false; 3825 if (mLeftGlow != null && !mLeftGlow.isFinished()) { 3826 final int restore = c.save(); 3827 final int padding = mClipToPadding ? getPaddingBottom() : 0; 3828 c.rotate(270); 3829 c.translate(-getHeight() + padding, 0); 3830 needsInvalidate = mLeftGlow != null && mLeftGlow.draw(c); 3831 c.restoreToCount(restore); 3832 } 3833 if (mTopGlow != null && !mTopGlow.isFinished()) { 3834 final int restore = c.save(); 3835 if (mClipToPadding) { 3836 c.translate(getPaddingLeft(), getPaddingTop()); 3837 } 3838 needsInvalidate |= mTopGlow != null && mTopGlow.draw(c); 3839 c.restoreToCount(restore); 3840 } 3841 if (mRightGlow != null && !mRightGlow.isFinished()) { 3842 final int restore = c.save(); 3843 final int width = getWidth(); 3844 final int padding = mClipToPadding ? getPaddingTop() : 0; 3845 c.rotate(90); 3846 c.translate(-padding, -width); 3847 needsInvalidate |= mRightGlow != null && mRightGlow.draw(c); 3848 c.restoreToCount(restore); 3849 } 3850 if (mBottomGlow != null && !mBottomGlow.isFinished()) { 3851 final int restore = c.save(); 3852 c.rotate(180); 3853 if (mClipToPadding) { 3854 c.translate(-getWidth() + getPaddingRight(), -getHeight() + getPaddingBottom()); 3855 } else { 3856 c.translate(-getWidth(), -getHeight()); 3857 } 3858 needsInvalidate |= mBottomGlow != null && mBottomGlow.draw(c); 3859 c.restoreToCount(restore); 3860 } 3861 3862 // If some views are animating, ItemDecorators are likely to move/change with them. 3863 // Invalidate RecyclerView to re-draw decorators. This is still efficient because children's 3864 // display lists are not invalidated. 3865 if (!needsInvalidate && mItemAnimator != null && mItemDecorations.size() > 0 3866 && mItemAnimator.isRunning()) { 3867 needsInvalidate = true; 3868 } 3869 3870 if (needsInvalidate) { 3871 postInvalidateOnAnimation(); 3872 } 3873 } 3874 3875 @Override onDraw(Canvas c)3876 public void onDraw(Canvas c) { 3877 super.onDraw(c); 3878 3879 final int count = mItemDecorations.size(); 3880 for (int i = 0; i < count; i++) { 3881 mItemDecorations.get(i).onDraw(c, this, mState); 3882 } 3883 } 3884 3885 @Override checkLayoutParams(ViewGroup.LayoutParams p)3886 protected boolean checkLayoutParams(ViewGroup.LayoutParams p) { 3887 return p instanceof LayoutParams && mLayout.checkLayoutParams((LayoutParams) p); 3888 } 3889 3890 @Override generateDefaultLayoutParams()3891 protected ViewGroup.LayoutParams generateDefaultLayoutParams() { 3892 if (mLayout == null) { 3893 throw new IllegalStateException("RecyclerView has no LayoutManager"); 3894 } 3895 return mLayout.generateDefaultLayoutParams(); 3896 } 3897 3898 @Override generateLayoutParams(AttributeSet attrs)3899 public ViewGroup.LayoutParams generateLayoutParams(AttributeSet attrs) { 3900 if (mLayout == null) { 3901 throw new IllegalStateException("RecyclerView has no LayoutManager"); 3902 } 3903 return mLayout.generateLayoutParams(getContext(), attrs); 3904 } 3905 3906 @Override generateLayoutParams(ViewGroup.LayoutParams p)3907 protected ViewGroup.LayoutParams generateLayoutParams(ViewGroup.LayoutParams p) { 3908 if (mLayout == null) { 3909 throw new IllegalStateException("RecyclerView has no LayoutManager"); 3910 } 3911 return mLayout.generateLayoutParams(p); 3912 } 3913 3914 /** 3915 * Returns true if RecyclerView is currently running some animations. 3916 * <p> 3917 * If you want to be notified when animations are finished, use 3918 * {@link ItemAnimator#isRunning(ItemAnimator.ItemAnimatorFinishedListener)}. 3919 * 3920 * @return True if there are some item animations currently running or waiting to be started. 3921 */ isAnimating()3922 public boolean isAnimating() { 3923 return mItemAnimator != null && mItemAnimator.isRunning(); 3924 } 3925 saveOldPositions()3926 void saveOldPositions() { 3927 final int childCount = mChildHelper.getUnfilteredChildCount(); 3928 for (int i = 0; i < childCount; i++) { 3929 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 3930 if (DEBUG && holder.mPosition == -1 && !holder.isRemoved()) { 3931 throw new IllegalStateException("view holder cannot have position -1 unless it" 3932 + " is removed"); 3933 } 3934 if (!holder.shouldIgnore()) { 3935 holder.saveOldPosition(); 3936 } 3937 } 3938 } 3939 clearOldPositions()3940 void clearOldPositions() { 3941 final int childCount = mChildHelper.getUnfilteredChildCount(); 3942 for (int i = 0; i < childCount; i++) { 3943 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 3944 if (!holder.shouldIgnore()) { 3945 holder.clearOldPosition(); 3946 } 3947 } 3948 mRecycler.clearOldPositions(); 3949 } 3950 offsetPositionRecordsForMove(int from, int to)3951 void offsetPositionRecordsForMove(int from, int to) { 3952 final int childCount = mChildHelper.getUnfilteredChildCount(); 3953 final int start, end, inBetweenOffset; 3954 if (from < to) { 3955 start = from; 3956 end = to; 3957 inBetweenOffset = -1; 3958 } else { 3959 start = to; 3960 end = from; 3961 inBetweenOffset = 1; 3962 } 3963 3964 for (int i = 0; i < childCount; i++) { 3965 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 3966 if (holder == null || holder.mPosition < start || holder.mPosition > end) { 3967 continue; 3968 } 3969 if (DEBUG) { 3970 Log.d(TAG, "offsetPositionRecordsForMove attached child " + i + " holder " 3971 + holder); 3972 } 3973 if (holder.mPosition == from) { 3974 holder.offsetPosition(to - from, false); 3975 } else { 3976 holder.offsetPosition(inBetweenOffset, false); 3977 } 3978 3979 mState.mStructureChanged = true; 3980 } 3981 mRecycler.offsetPositionRecordsForMove(from, to); 3982 requestLayout(); 3983 } 3984 offsetPositionRecordsForInsert(int positionStart, int itemCount)3985 void offsetPositionRecordsForInsert(int positionStart, int itemCount) { 3986 final int childCount = mChildHelper.getUnfilteredChildCount(); 3987 for (int i = 0; i < childCount; i++) { 3988 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 3989 if (holder != null && !holder.shouldIgnore() && holder.mPosition >= positionStart) { 3990 if (DEBUG) { 3991 Log.d(TAG, "offsetPositionRecordsForInsert attached child " + i + " holder " 3992 + holder + " now at position " + (holder.mPosition + itemCount)); 3993 } 3994 holder.offsetPosition(itemCount, false); 3995 mState.mStructureChanged = true; 3996 } 3997 } 3998 mRecycler.offsetPositionRecordsForInsert(positionStart, itemCount); 3999 requestLayout(); 4000 } 4001 offsetPositionRecordsForRemove(int positionStart, int itemCount, boolean applyToPreLayout)4002 void offsetPositionRecordsForRemove(int positionStart, int itemCount, 4003 boolean applyToPreLayout) { 4004 final int positionEnd = positionStart + itemCount; 4005 final int childCount = mChildHelper.getUnfilteredChildCount(); 4006 for (int i = 0; i < childCount; i++) { 4007 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4008 if (holder != null && !holder.shouldIgnore()) { 4009 if (holder.mPosition >= positionEnd) { 4010 if (DEBUG) { 4011 Log.d(TAG, "offsetPositionRecordsForRemove attached child " + i 4012 + " holder " + holder + " now at position " 4013 + (holder.mPosition - itemCount)); 4014 } 4015 holder.offsetPosition(-itemCount, applyToPreLayout); 4016 mState.mStructureChanged = true; 4017 } else if (holder.mPosition >= positionStart) { 4018 if (DEBUG) { 4019 Log.d(TAG, "offsetPositionRecordsForRemove attached child " + i 4020 + " holder " + holder + " now REMOVED"); 4021 } 4022 holder.flagRemovedAndOffsetPosition(positionStart - 1, -itemCount, 4023 applyToPreLayout); 4024 mState.mStructureChanged = true; 4025 } 4026 } 4027 } 4028 mRecycler.offsetPositionRecordsForRemove(positionStart, itemCount, applyToPreLayout); 4029 requestLayout(); 4030 } 4031 4032 /** 4033 * Rebind existing views for the given range, or create as needed. 4034 * 4035 * @param positionStart Adapter position to start at 4036 * @param itemCount Number of views that must explicitly be rebound 4037 */ viewRangeUpdate(int positionStart, int itemCount, Object payload)4038 void viewRangeUpdate(int positionStart, int itemCount, Object payload) { 4039 final int childCount = mChildHelper.getUnfilteredChildCount(); 4040 final int positionEnd = positionStart + itemCount; 4041 4042 for (int i = 0; i < childCount; i++) { 4043 final View child = mChildHelper.getUnfilteredChildAt(i); 4044 final ViewHolder holder = getChildViewHolderInt(child); 4045 if (holder == null || holder.shouldIgnore()) { 4046 continue; 4047 } 4048 if (holder.mPosition >= positionStart && holder.mPosition < positionEnd) { 4049 // We re-bind these view holders after pre-processing is complete so that 4050 // ViewHolders have their final positions assigned. 4051 holder.addFlags(ViewHolder.FLAG_UPDATE); 4052 holder.addChangePayload(payload); 4053 // lp cannot be null since we get ViewHolder from it. 4054 ((LayoutParams) child.getLayoutParams()).mInsetsDirty = true; 4055 } 4056 } 4057 mRecycler.viewRangeUpdate(positionStart, itemCount); 4058 } 4059 canReuseUpdatedViewHolder(ViewHolder viewHolder)4060 boolean canReuseUpdatedViewHolder(ViewHolder viewHolder) { 4061 return mItemAnimator == null || mItemAnimator.canReuseUpdatedViewHolder(viewHolder, 4062 viewHolder.getUnmodifiedPayloads()); 4063 } 4064 4065 4066 /** 4067 * Call this method to signal that *all* adapter content has changed (generally, because of 4068 * swapAdapter, or notifyDataSetChanged), and that once layout occurs, all attached items should 4069 * be discarded or animated. Note that this work is deferred because RecyclerView requires a 4070 * layout to resolve non-incremental changes to the data set. 4071 * 4072 * Attached items are labeled as position unknown, and may no longer be cached. 4073 * 4074 * It is still possible for items to be prefetched while mDataSetHasChangedAfterLayout == true, 4075 * so calling this method *must* be associated with marking the cache invalid, so that the 4076 * only valid items that remain in the cache, once layout occurs, are prefetched items. 4077 */ setDataSetChangedAfterLayout()4078 void setDataSetChangedAfterLayout() { 4079 if (mDataSetHasChangedAfterLayout) { 4080 return; 4081 } 4082 mDataSetHasChangedAfterLayout = true; 4083 final int childCount = mChildHelper.getUnfilteredChildCount(); 4084 for (int i = 0; i < childCount; i++) { 4085 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4086 if (holder != null && !holder.shouldIgnore()) { 4087 holder.addFlags(ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN); 4088 } 4089 } 4090 mRecycler.setAdapterPositionsAsUnknown(); 4091 4092 // immediately mark all views as invalid, so prefetched views can be 4093 // differentiated from views bound to previous data set - both in children, and cache 4094 markKnownViewsInvalid(); 4095 } 4096 4097 /** 4098 * Mark all known views as invalid. Used in response to a, "the whole world might have changed" 4099 * data change event. 4100 */ markKnownViewsInvalid()4101 void markKnownViewsInvalid() { 4102 final int childCount = mChildHelper.getUnfilteredChildCount(); 4103 for (int i = 0; i < childCount; i++) { 4104 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4105 if (holder != null && !holder.shouldIgnore()) { 4106 holder.addFlags(ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID); 4107 } 4108 } 4109 markItemDecorInsetsDirty(); 4110 mRecycler.markKnownViewsInvalid(); 4111 } 4112 4113 /** 4114 * Invalidates all ItemDecorations. If RecyclerView has item decorations, calling this method 4115 * will trigger a {@link #requestLayout()} call. 4116 */ invalidateItemDecorations()4117 public void invalidateItemDecorations() { 4118 if (mItemDecorations.size() == 0) { 4119 return; 4120 } 4121 if (mLayout != null) { 4122 mLayout.assertNotInLayoutOrScroll("Cannot invalidate item decorations during a scroll" 4123 + " or layout"); 4124 } 4125 markItemDecorInsetsDirty(); 4126 requestLayout(); 4127 } 4128 4129 /** 4130 * Returns true if the RecyclerView should attempt to preserve currently focused Adapter Item's 4131 * focus even if the View representing the Item is replaced during a layout calculation. 4132 * <p> 4133 * By default, this value is {@code true}. 4134 * 4135 * @return True if the RecyclerView will try to preserve focused Item after a layout if it loses 4136 * focus. 4137 * 4138 * @see #setPreserveFocusAfterLayout(boolean) 4139 */ getPreserveFocusAfterLayout()4140 public boolean getPreserveFocusAfterLayout() { 4141 return mPreserveFocusAfterLayout; 4142 } 4143 4144 /** 4145 * Set whether the RecyclerView should try to keep the same Item focused after a layout 4146 * calculation or not. 4147 * <p> 4148 * Usually, LayoutManagers keep focused views visible before and after layout but sometimes, 4149 * views may lose focus during a layout calculation as their state changes or they are replaced 4150 * with another view due to type change or animation. In these cases, RecyclerView can request 4151 * focus on the new view automatically. 4152 * 4153 * @param preserveFocusAfterLayout Whether RecyclerView should preserve focused Item during a 4154 * layout calculations. Defaults to true. 4155 * 4156 * @see #getPreserveFocusAfterLayout() 4157 */ setPreserveFocusAfterLayout(boolean preserveFocusAfterLayout)4158 public void setPreserveFocusAfterLayout(boolean preserveFocusAfterLayout) { 4159 mPreserveFocusAfterLayout = preserveFocusAfterLayout; 4160 } 4161 4162 /** 4163 * Retrieve the {@link ViewHolder} for the given child view. 4164 * 4165 * @param child Child of this RecyclerView to query for its ViewHolder 4166 * @return The child view's ViewHolder 4167 */ getChildViewHolder(View child)4168 public ViewHolder getChildViewHolder(View child) { 4169 final ViewParent parent = child.getParent(); 4170 if (parent != null && parent != this) { 4171 throw new IllegalArgumentException("View " + child + " is not a direct child of " 4172 + this); 4173 } 4174 return getChildViewHolderInt(child); 4175 } 4176 4177 /** 4178 * Traverses the ancestors of the given view and returns the item view that contains it and 4179 * also a direct child of the RecyclerView. This returned view can be used to get the 4180 * ViewHolder by calling {@link #getChildViewHolder(View)}. 4181 * 4182 * @param view The view that is a descendant of the RecyclerView. 4183 * 4184 * @return The direct child of the RecyclerView which contains the given view or null if the 4185 * provided view is not a descendant of this RecyclerView. 4186 * 4187 * @see #getChildViewHolder(View) 4188 * @see #findContainingViewHolder(View) 4189 */ 4190 @Nullable findContainingItemView(View view)4191 public View findContainingItemView(View view) { 4192 ViewParent parent = view.getParent(); 4193 while (parent != null && parent != this && parent instanceof View) { 4194 view = (View) parent; 4195 parent = view.getParent(); 4196 } 4197 return parent == this ? view : null; 4198 } 4199 4200 /** 4201 * Returns the ViewHolder that contains the given view. 4202 * 4203 * @param view The view that is a descendant of the RecyclerView. 4204 * 4205 * @return The ViewHolder that contains the given view or null if the provided view is not a 4206 * descendant of this RecyclerView. 4207 */ 4208 @Nullable findContainingViewHolder(View view)4209 public ViewHolder findContainingViewHolder(View view) { 4210 View itemView = findContainingItemView(view); 4211 return itemView == null ? null : getChildViewHolder(itemView); 4212 } 4213 4214 getChildViewHolderInt(View child)4215 static ViewHolder getChildViewHolderInt(View child) { 4216 if (child == null) { 4217 return null; 4218 } 4219 return ((LayoutParams) child.getLayoutParams()).mViewHolder; 4220 } 4221 4222 /** 4223 * @deprecated use {@link #getChildAdapterPosition(View)} or 4224 * {@link #getChildLayoutPosition(View)}. 4225 */ 4226 @Deprecated getChildPosition(View child)4227 public int getChildPosition(View child) { 4228 return getChildAdapterPosition(child); 4229 } 4230 4231 /** 4232 * Return the adapter position that the given child view corresponds to. 4233 * 4234 * @param child Child View to query 4235 * @return Adapter position corresponding to the given view or {@link #NO_POSITION} 4236 */ getChildAdapterPosition(View child)4237 public int getChildAdapterPosition(View child) { 4238 final ViewHolder holder = getChildViewHolderInt(child); 4239 return holder != null ? holder.getAdapterPosition() : NO_POSITION; 4240 } 4241 4242 /** 4243 * Return the adapter position of the given child view as of the latest completed layout pass. 4244 * <p> 4245 * This position may not be equal to Item's adapter position if there are pending changes 4246 * in the adapter which have not been reflected to the layout yet. 4247 * 4248 * @param child Child View to query 4249 * @return Adapter position of the given View as of last layout pass or {@link #NO_POSITION} if 4250 * the View is representing a removed item. 4251 */ getChildLayoutPosition(View child)4252 public int getChildLayoutPosition(View child) { 4253 final ViewHolder holder = getChildViewHolderInt(child); 4254 return holder != null ? holder.getLayoutPosition() : NO_POSITION; 4255 } 4256 4257 /** 4258 * Return the stable item id that the given child view corresponds to. 4259 * 4260 * @param child Child View to query 4261 * @return Item id corresponding to the given view or {@link #NO_ID} 4262 */ getChildItemId(View child)4263 public long getChildItemId(View child) { 4264 if (mAdapter == null || !mAdapter.hasStableIds()) { 4265 return NO_ID; 4266 } 4267 final ViewHolder holder = getChildViewHolderInt(child); 4268 return holder != null ? holder.getItemId() : NO_ID; 4269 } 4270 4271 /** 4272 * @deprecated use {@link #findViewHolderForLayoutPosition(int)} or 4273 * {@link #findViewHolderForAdapterPosition(int)} 4274 */ 4275 @Deprecated findViewHolderForPosition(int position)4276 public ViewHolder findViewHolderForPosition(int position) { 4277 return findViewHolderForPosition(position, false); 4278 } 4279 4280 /** 4281 * Return the ViewHolder for the item in the given position of the data set as of the latest 4282 * layout pass. 4283 * <p> 4284 * This method checks only the children of RecyclerView. If the item at the given 4285 * <code>position</code> is not laid out, it <em>will not</em> create a new one. 4286 * <p> 4287 * Note that when Adapter contents change, ViewHolder positions are not updated until the 4288 * next layout calculation. If there are pending adapter updates, the return value of this 4289 * method may not match your adapter contents. You can use 4290 * #{@link ViewHolder#getAdapterPosition()} to get the current adapter position of a ViewHolder. 4291 * <p> 4292 * When the ItemAnimator is running a change animation, there might be 2 ViewHolders 4293 * with the same layout position representing the same Item. In this case, the updated 4294 * ViewHolder will be returned. 4295 * 4296 * @param position The position of the item in the data set of the adapter 4297 * @return The ViewHolder at <code>position</code> or null if there is no such item 4298 */ findViewHolderForLayoutPosition(int position)4299 public ViewHolder findViewHolderForLayoutPosition(int position) { 4300 return findViewHolderForPosition(position, false); 4301 } 4302 4303 /** 4304 * Return the ViewHolder for the item in the given position of the data set. Unlike 4305 * {@link #findViewHolderForLayoutPosition(int)} this method takes into account any pending 4306 * adapter changes that may not be reflected to the layout yet. On the other hand, if 4307 * {@link Adapter#notifyDataSetChanged()} has been called but the new layout has not been 4308 * calculated yet, this method will return <code>null</code> since the new positions of views 4309 * are unknown until the layout is calculated. 4310 * <p> 4311 * This method checks only the children of RecyclerView. If the item at the given 4312 * <code>position</code> is not laid out, it <em>will not</em> create a new one. 4313 * <p> 4314 * When the ItemAnimator is running a change animation, there might be 2 ViewHolders 4315 * representing the same Item. In this case, the updated ViewHolder will be returned. 4316 * 4317 * @param position The position of the item in the data set of the adapter 4318 * @return The ViewHolder at <code>position</code> or null if there is no such item 4319 */ findViewHolderForAdapterPosition(int position)4320 public ViewHolder findViewHolderForAdapterPosition(int position) { 4321 if (mDataSetHasChangedAfterLayout) { 4322 return null; 4323 } 4324 final int childCount = mChildHelper.getUnfilteredChildCount(); 4325 // hidden VHs are not preferred but if that is the only one we find, we rather return it 4326 ViewHolder hidden = null; 4327 for (int i = 0; i < childCount; i++) { 4328 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4329 if (holder != null && !holder.isRemoved() 4330 && getAdapterPositionFor(holder) == position) { 4331 if (mChildHelper.isHidden(holder.itemView)) { 4332 hidden = holder; 4333 } else { 4334 return holder; 4335 } 4336 } 4337 } 4338 return hidden; 4339 } 4340 findViewHolderForPosition(int position, boolean checkNewPosition)4341 ViewHolder findViewHolderForPosition(int position, boolean checkNewPosition) { 4342 final int childCount = mChildHelper.getUnfilteredChildCount(); 4343 ViewHolder hidden = null; 4344 for (int i = 0; i < childCount; i++) { 4345 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4346 if (holder != null && !holder.isRemoved()) { 4347 if (checkNewPosition) { 4348 if (holder.mPosition != position) { 4349 continue; 4350 } 4351 } else if (holder.getLayoutPosition() != position) { 4352 continue; 4353 } 4354 if (mChildHelper.isHidden(holder.itemView)) { 4355 hidden = holder; 4356 } else { 4357 return holder; 4358 } 4359 } 4360 } 4361 // This method should not query cached views. It creates a problem during adapter updates 4362 // when we are dealing with already laid out views. Also, for the public method, it is more 4363 // reasonable to return null if position is not laid out. 4364 return hidden; 4365 } 4366 4367 /** 4368 * Return the ViewHolder for the item with the given id. The RecyclerView must 4369 * use an Adapter with {@link Adapter#setHasStableIds(boolean) stableIds} to 4370 * return a non-null value. 4371 * <p> 4372 * This method checks only the children of RecyclerView. If the item with the given 4373 * <code>id</code> is not laid out, it <em>will not</em> create a new one. 4374 * 4375 * When the ItemAnimator is running a change animation, there might be 2 ViewHolders with the 4376 * same id. In this case, the updated ViewHolder will be returned. 4377 * 4378 * @param id The id for the requested item 4379 * @return The ViewHolder with the given <code>id</code> or null if there is no such item 4380 */ findViewHolderForItemId(long id)4381 public ViewHolder findViewHolderForItemId(long id) { 4382 if (mAdapter == null || !mAdapter.hasStableIds()) { 4383 return null; 4384 } 4385 final int childCount = mChildHelper.getUnfilteredChildCount(); 4386 ViewHolder hidden = null; 4387 for (int i = 0; i < childCount; i++) { 4388 final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); 4389 if (holder != null && !holder.isRemoved() && holder.getItemId() == id) { 4390 if (mChildHelper.isHidden(holder.itemView)) { 4391 hidden = holder; 4392 } else { 4393 return holder; 4394 } 4395 } 4396 } 4397 return hidden; 4398 } 4399 4400 /** 4401 * Find the topmost view under the given point. 4402 * 4403 * @param x Horizontal position in pixels to search 4404 * @param y Vertical position in pixels to search 4405 * @return The child view under (x, y) or null if no matching child is found 4406 */ findChildViewUnder(float x, float y)4407 public View findChildViewUnder(float x, float y) { 4408 final int count = mChildHelper.getChildCount(); 4409 for (int i = count - 1; i >= 0; i--) { 4410 final View child = mChildHelper.getChildAt(i); 4411 final float translationX = child.getTranslationX(); 4412 final float translationY = child.getTranslationY(); 4413 if (x >= child.getLeft() + translationX 4414 && x <= child.getRight() + translationX 4415 && y >= child.getTop() + translationY 4416 && y <= child.getBottom() + translationY) { 4417 return child; 4418 } 4419 } 4420 return null; 4421 } 4422 4423 @Override drawChild(Canvas canvas, View child, long drawingTime)4424 public boolean drawChild(Canvas canvas, View child, long drawingTime) { 4425 return super.drawChild(canvas, child, drawingTime); 4426 } 4427 4428 /** 4429 * Offset the bounds of all child views by <code>dy</code> pixels. 4430 * Useful for implementing simple scrolling in {@link LayoutManager LayoutManagers}. 4431 * 4432 * @param dy Vertical pixel offset to apply to the bounds of all child views 4433 */ offsetChildrenVertical(int dy)4434 public void offsetChildrenVertical(int dy) { 4435 final int childCount = mChildHelper.getChildCount(); 4436 for (int i = 0; i < childCount; i++) { 4437 mChildHelper.getChildAt(i).offsetTopAndBottom(dy); 4438 } 4439 } 4440 4441 /** 4442 * Called when an item view is attached to this RecyclerView. 4443 * 4444 * <p>Subclasses of RecyclerView may want to perform extra bookkeeping or modifications 4445 * of child views as they become attached. This will be called before a 4446 * {@link LayoutManager} measures or lays out the view and is a good time to perform these 4447 * changes.</p> 4448 * 4449 * @param child Child view that is now attached to this RecyclerView and its associated window 4450 */ onChildAttachedToWindow(View child)4451 public void onChildAttachedToWindow(View child) { 4452 } 4453 4454 /** 4455 * Called when an item view is detached from this RecyclerView. 4456 * 4457 * <p>Subclasses of RecyclerView may want to perform extra bookkeeping or modifications 4458 * of child views as they become detached. This will be called as a 4459 * {@link LayoutManager} fully detaches the child view from the parent and its window.</p> 4460 * 4461 * @param child Child view that is now detached from this RecyclerView and its associated window 4462 */ onChildDetachedFromWindow(View child)4463 public void onChildDetachedFromWindow(View child) { 4464 } 4465 4466 /** 4467 * Offset the bounds of all child views by <code>dx</code> pixels. 4468 * Useful for implementing simple scrolling in {@link LayoutManager LayoutManagers}. 4469 * 4470 * @param dx Horizontal pixel offset to apply to the bounds of all child views 4471 */ offsetChildrenHorizontal(int dx)4472 public void offsetChildrenHorizontal(int dx) { 4473 final int childCount = mChildHelper.getChildCount(); 4474 for (int i = 0; i < childCount; i++) { 4475 mChildHelper.getChildAt(i).offsetLeftAndRight(dx); 4476 } 4477 } 4478 4479 /** 4480 * Returns the bounds of the view including its decoration and margins. 4481 * 4482 * @param view The view element to check 4483 * @param outBounds A rect that will receive the bounds of the element including its 4484 * decoration and margins. 4485 */ getDecoratedBoundsWithMargins(View view, Rect outBounds)4486 public void getDecoratedBoundsWithMargins(View view, Rect outBounds) { 4487 getDecoratedBoundsWithMarginsInt(view, outBounds); 4488 } 4489 getDecoratedBoundsWithMarginsInt(View view, Rect outBounds)4490 static void getDecoratedBoundsWithMarginsInt(View view, Rect outBounds) { 4491 final LayoutParams lp = (LayoutParams) view.getLayoutParams(); 4492 final Rect insets = lp.mDecorInsets; 4493 outBounds.set(view.getLeft() - insets.left - lp.leftMargin, 4494 view.getTop() - insets.top - lp.topMargin, 4495 view.getRight() + insets.right + lp.rightMargin, 4496 view.getBottom() + insets.bottom + lp.bottomMargin); 4497 } 4498 getItemDecorInsetsForChild(View child)4499 Rect getItemDecorInsetsForChild(View child) { 4500 final LayoutParams lp = (LayoutParams) child.getLayoutParams(); 4501 if (!lp.mInsetsDirty) { 4502 return lp.mDecorInsets; 4503 } 4504 4505 if (mState.isPreLayout() && (lp.isItemChanged() || lp.isViewInvalid())) { 4506 // changed/invalid items should not be updated until they are rebound. 4507 return lp.mDecorInsets; 4508 } 4509 final Rect insets = lp.mDecorInsets; 4510 insets.set(0, 0, 0, 0); 4511 final int decorCount = mItemDecorations.size(); 4512 for (int i = 0; i < decorCount; i++) { 4513 mTempRect.set(0, 0, 0, 0); 4514 mItemDecorations.get(i).getItemOffsets(mTempRect, child, this, mState); 4515 insets.left += mTempRect.left; 4516 insets.top += mTempRect.top; 4517 insets.right += mTempRect.right; 4518 insets.bottom += mTempRect.bottom; 4519 } 4520 lp.mInsetsDirty = false; 4521 return insets; 4522 } 4523 4524 /** 4525 * Called when the scroll position of this RecyclerView changes. Subclasses should use 4526 * this method to respond to scrolling within the adapter's data set instead of an explicit 4527 * listener. 4528 * 4529 * <p>This method will always be invoked before listeners. If a subclass needs to perform 4530 * any additional upkeep or bookkeeping after scrolling but before listeners run, 4531 * this is a good place to do so.</p> 4532 * 4533 * <p>This differs from {@link View#onScrollChanged(int, int, int, int)} in that it receives 4534 * the distance scrolled in either direction within the adapter's data set instead of absolute 4535 * scroll coordinates. Since RecyclerView cannot compute the absolute scroll position from 4536 * any arbitrary point in the data set, <code>onScrollChanged</code> will always receive 4537 * the current {@link View#getScrollX()} and {@link View#getScrollY()} values which 4538 * do not correspond to the data set scroll position. However, some subclasses may choose 4539 * to use these fields as special offsets.</p> 4540 * 4541 * @param dx horizontal distance scrolled in pixels 4542 * @param dy vertical distance scrolled in pixels 4543 */ onScrolled(int dx, int dy)4544 public void onScrolled(int dx, int dy) { 4545 // Do nothing 4546 } 4547 dispatchOnScrolled(int hresult, int vresult)4548 void dispatchOnScrolled(int hresult, int vresult) { 4549 mDispatchScrollCounter++; 4550 // Pass the current scrollX/scrollY values; no actual change in these properties occurred 4551 // but some general-purpose code may choose to respond to changes this way. 4552 final int scrollX = getScrollX(); 4553 final int scrollY = getScrollY(); 4554 onScrollChanged(scrollX, scrollY, scrollX, scrollY); 4555 4556 // Pass the real deltas to onScrolled, the RecyclerView-specific method. 4557 onScrolled(hresult, vresult); 4558 4559 // Invoke listeners last. Subclassed view methods always handle the event first. 4560 // All internal state is consistent by the time listeners are invoked. 4561 if (mScrollListener != null) { 4562 mScrollListener.onScrolled(this, hresult, vresult); 4563 } 4564 if (mScrollListeners != null) { 4565 for (int i = mScrollListeners.size() - 1; i >= 0; i--) { 4566 mScrollListeners.get(i).onScrolled(this, hresult, vresult); 4567 } 4568 } 4569 mDispatchScrollCounter--; 4570 } 4571 4572 /** 4573 * Called when the scroll state of this RecyclerView changes. Subclasses should use this 4574 * method to respond to state changes instead of an explicit listener. 4575 * 4576 * <p>This method will always be invoked before listeners, but after the LayoutManager 4577 * responds to the scroll state change.</p> 4578 * 4579 * @param state the new scroll state, one of {@link #SCROLL_STATE_IDLE}, 4580 * {@link #SCROLL_STATE_DRAGGING} or {@link #SCROLL_STATE_SETTLING} 4581 */ onScrollStateChanged(int state)4582 public void onScrollStateChanged(int state) { 4583 // Do nothing 4584 } 4585 dispatchOnScrollStateChanged(int state)4586 void dispatchOnScrollStateChanged(int state) { 4587 // Let the LayoutManager go first; this allows it to bring any properties into 4588 // a consistent state before the RecyclerView subclass responds. 4589 if (mLayout != null) { 4590 mLayout.onScrollStateChanged(state); 4591 } 4592 4593 // Let the RecyclerView subclass handle this event next; any LayoutManager property 4594 // changes will be reflected by this time. 4595 onScrollStateChanged(state); 4596 4597 // Listeners go last. All other internal state is consistent by this point. 4598 if (mScrollListener != null) { 4599 mScrollListener.onScrollStateChanged(this, state); 4600 } 4601 if (mScrollListeners != null) { 4602 for (int i = mScrollListeners.size() - 1; i >= 0; i--) { 4603 mScrollListeners.get(i).onScrollStateChanged(this, state); 4604 } 4605 } 4606 } 4607 4608 /** 4609 * Returns whether there are pending adapter updates which are not yet applied to the layout. 4610 * <p> 4611 * If this method returns <code>true</code>, it means that what user is currently seeing may not 4612 * reflect them adapter contents (depending on what has changed). 4613 * You may use this information to defer or cancel some operations. 4614 * <p> 4615 * This method returns true if RecyclerView has not yet calculated the first layout after it is 4616 * attached to the Window or the Adapter has been replaced. 4617 * 4618 * @return True if there are some adapter updates which are not yet reflected to layout or false 4619 * if layout is up to date. 4620 */ hasPendingAdapterUpdates()4621 public boolean hasPendingAdapterUpdates() { 4622 return !mFirstLayoutComplete || mDataSetHasChangedAfterLayout 4623 || mAdapterHelper.hasPendingUpdates(); 4624 } 4625 4626 class ViewFlinger implements Runnable { 4627 private int mLastFlingX; 4628 private int mLastFlingY; 4629 private OverScroller mScroller; 4630 Interpolator mInterpolator = sQuinticInterpolator; 4631 4632 4633 // When set to true, postOnAnimation callbacks are delayed until the run method completes 4634 private boolean mEatRunOnAnimationRequest = false; 4635 4636 // Tracks if postAnimationCallback should be re-attached when it is done 4637 private boolean mReSchedulePostAnimationCallback = false; 4638 ViewFlinger()4639 ViewFlinger() { 4640 mScroller = new OverScroller(getContext(), sQuinticInterpolator); 4641 } 4642 4643 @Override run()4644 public void run() { 4645 if (mLayout == null) { 4646 stop(); 4647 return; // no layout, cannot scroll. 4648 } 4649 disableRunOnAnimationRequests(); 4650 consumePendingUpdateOperations(); 4651 // keep a local reference so that if it is changed during onAnimation method, it won't 4652 // cause unexpected behaviors 4653 final OverScroller scroller = mScroller; 4654 final SmoothScroller smoothScroller = mLayout.mSmoothScroller; 4655 if (scroller.computeScrollOffset()) { 4656 final int x = scroller.getCurrX(); 4657 final int y = scroller.getCurrY(); 4658 final int dx = x - mLastFlingX; 4659 final int dy = y - mLastFlingY; 4660 int hresult = 0; 4661 int vresult = 0; 4662 mLastFlingX = x; 4663 mLastFlingY = y; 4664 int overscrollX = 0, overscrollY = 0; 4665 if (mAdapter != null) { 4666 eatRequestLayout(); 4667 onEnterLayoutOrScroll(); 4668 Trace.beginSection(TRACE_SCROLL_TAG); 4669 if (dx != 0) { 4670 hresult = mLayout.scrollHorizontallyBy(dx, mRecycler, mState); 4671 overscrollX = dx - hresult; 4672 } 4673 if (dy != 0) { 4674 vresult = mLayout.scrollVerticallyBy(dy, mRecycler, mState); 4675 overscrollY = dy - vresult; 4676 } 4677 Trace.endSection(); 4678 repositionShadowingViews(); 4679 4680 onExitLayoutOrScroll(); 4681 resumeRequestLayout(false); 4682 4683 if (smoothScroller != null && !smoothScroller.isPendingInitialRun() 4684 && smoothScroller.isRunning()) { 4685 final int adapterSize = mState.getItemCount(); 4686 if (adapterSize == 0) { 4687 smoothScroller.stop(); 4688 } else if (smoothScroller.getTargetPosition() >= adapterSize) { 4689 smoothScroller.setTargetPosition(adapterSize - 1); 4690 smoothScroller.onAnimation(dx - overscrollX, dy - overscrollY); 4691 } else { 4692 smoothScroller.onAnimation(dx - overscrollX, dy - overscrollY); 4693 } 4694 } 4695 } 4696 if (!mItemDecorations.isEmpty()) { 4697 invalidate(); 4698 } 4699 if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { 4700 considerReleasingGlowsOnScroll(dx, dy); 4701 } 4702 if (overscrollX != 0 || overscrollY != 0) { 4703 final int vel = (int) scroller.getCurrVelocity(); 4704 4705 int velX = 0; 4706 if (overscrollX != x) { 4707 velX = overscrollX < 0 ? -vel : overscrollX > 0 ? vel : 0; 4708 } 4709 4710 int velY = 0; 4711 if (overscrollY != y) { 4712 velY = overscrollY < 0 ? -vel : overscrollY > 0 ? vel : 0; 4713 } 4714 4715 if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { 4716 absorbGlows(velX, velY); 4717 } 4718 if ((velX != 0 || overscrollX == x || scroller.getFinalX() == 0) 4719 && (velY != 0 || overscrollY == y || scroller.getFinalY() == 0)) { 4720 scroller.abortAnimation(); 4721 } 4722 } 4723 if (hresult != 0 || vresult != 0) { 4724 dispatchOnScrolled(hresult, vresult); 4725 } 4726 4727 if (!awakenScrollBars()) { 4728 invalidate(); 4729 } 4730 4731 final boolean fullyConsumedVertical = dy != 0 && mLayout.canScrollVertically() 4732 && vresult == dy; 4733 final boolean fullyConsumedHorizontal = dx != 0 && mLayout.canScrollHorizontally() 4734 && hresult == dx; 4735 final boolean fullyConsumedAny = (dx == 0 && dy == 0) || fullyConsumedHorizontal 4736 || fullyConsumedVertical; 4737 4738 if (scroller.isFinished() || !fullyConsumedAny) { 4739 setScrollState(SCROLL_STATE_IDLE); // setting state to idle will stop this. 4740 if (ALLOW_THREAD_GAP_WORK) { 4741 mPrefetchRegistry.clearPrefetchPositions(); 4742 } 4743 } else { 4744 postOnAnimation(); 4745 if (mGapWorker != null) { 4746 mGapWorker.postFromTraversal(RecyclerView.this, dx, dy); 4747 } 4748 } 4749 } 4750 // call this after the onAnimation is complete not to have inconsistent callbacks etc. 4751 if (smoothScroller != null) { 4752 if (smoothScroller.isPendingInitialRun()) { 4753 smoothScroller.onAnimation(0, 0); 4754 } 4755 if (!mReSchedulePostAnimationCallback) { 4756 smoothScroller.stop(); //stop if it does not trigger any scroll 4757 } 4758 } 4759 enableRunOnAnimationRequests(); 4760 } 4761 disableRunOnAnimationRequests()4762 private void disableRunOnAnimationRequests() { 4763 mReSchedulePostAnimationCallback = false; 4764 mEatRunOnAnimationRequest = true; 4765 } 4766 enableRunOnAnimationRequests()4767 private void enableRunOnAnimationRequests() { 4768 mEatRunOnAnimationRequest = false; 4769 if (mReSchedulePostAnimationCallback) { 4770 postOnAnimation(); 4771 } 4772 } 4773 postOnAnimation()4774 void postOnAnimation() { 4775 if (mEatRunOnAnimationRequest) { 4776 mReSchedulePostAnimationCallback = true; 4777 } else { 4778 removeCallbacks(this); 4779 RecyclerView.this.postOnAnimation(this); 4780 } 4781 } 4782 fling(int velocityX, int velocityY)4783 public void fling(int velocityX, int velocityY) { 4784 setScrollState(SCROLL_STATE_SETTLING); 4785 mLastFlingX = mLastFlingY = 0; 4786 mScroller.fling(0, 0, velocityX, velocityY, 4787 Integer.MIN_VALUE, Integer.MAX_VALUE, Integer.MIN_VALUE, Integer.MAX_VALUE); 4788 postOnAnimation(); 4789 } 4790 smoothScrollBy(int dx, int dy)4791 public void smoothScrollBy(int dx, int dy) { 4792 smoothScrollBy(dx, dy, 0, 0); 4793 } 4794 smoothScrollBy(int dx, int dy, int vx, int vy)4795 public void smoothScrollBy(int dx, int dy, int vx, int vy) { 4796 smoothScrollBy(dx, dy, computeScrollDuration(dx, dy, vx, vy)); 4797 } 4798 distanceInfluenceForSnapDuration(float f)4799 private float distanceInfluenceForSnapDuration(float f) { 4800 f -= 0.5f; // center the values about 0. 4801 f *= 0.3f * Math.PI / 2.0f; 4802 return (float) Math.sin(f); 4803 } 4804 computeScrollDuration(int dx, int dy, int vx, int vy)4805 private int computeScrollDuration(int dx, int dy, int vx, int vy) { 4806 final int absDx = Math.abs(dx); 4807 final int absDy = Math.abs(dy); 4808 final boolean horizontal = absDx > absDy; 4809 final int velocity = (int) Math.sqrt(vx * vx + vy * vy); 4810 final int delta = (int) Math.sqrt(dx * dx + dy * dy); 4811 final int containerSize = horizontal ? getWidth() : getHeight(); 4812 final int halfContainerSize = containerSize / 2; 4813 final float distanceRatio = Math.min(1.f, 1.f * delta / containerSize); 4814 final float distance = halfContainerSize + halfContainerSize 4815 * distanceInfluenceForSnapDuration(distanceRatio); 4816 4817 final int duration; 4818 if (velocity > 0) { 4819 duration = 4 * Math.round(1000 * Math.abs(distance / velocity)); 4820 } else { 4821 float absDelta = (float) (horizontal ? absDx : absDy); 4822 duration = (int) (((absDelta / containerSize) + 1) * 300); 4823 } 4824 return Math.min(duration, MAX_SCROLL_DURATION); 4825 } 4826 smoothScrollBy(int dx, int dy, int duration)4827 public void smoothScrollBy(int dx, int dy, int duration) { 4828 smoothScrollBy(dx, dy, duration, sQuinticInterpolator); 4829 } 4830 smoothScrollBy(int dx, int dy, Interpolator interpolator)4831 public void smoothScrollBy(int dx, int dy, Interpolator interpolator) { 4832 smoothScrollBy(dx, dy, computeScrollDuration(dx, dy, 0, 0), 4833 interpolator == null ? sQuinticInterpolator : interpolator); 4834 } 4835 smoothScrollBy(int dx, int dy, int duration, Interpolator interpolator)4836 public void smoothScrollBy(int dx, int dy, int duration, Interpolator interpolator) { 4837 if (mInterpolator != interpolator) { 4838 mInterpolator = interpolator; 4839 mScroller = new OverScroller(getContext(), interpolator); 4840 } 4841 setScrollState(SCROLL_STATE_SETTLING); 4842 mLastFlingX = mLastFlingY = 0; 4843 mScroller.startScroll(0, 0, dx, dy, duration); 4844 postOnAnimation(); 4845 } 4846 stop()4847 public void stop() { 4848 removeCallbacks(this); 4849 mScroller.abortAnimation(); 4850 } 4851 4852 } 4853 repositionShadowingViews()4854 void repositionShadowingViews() { 4855 // Fix up shadow views used by change animations 4856 int count = mChildHelper.getChildCount(); 4857 for (int i = 0; i < count; i++) { 4858 View view = mChildHelper.getChildAt(i); 4859 ViewHolder holder = getChildViewHolder(view); 4860 if (holder != null && holder.mShadowingHolder != null) { 4861 View shadowingView = holder.mShadowingHolder.itemView; 4862 int left = view.getLeft(); 4863 int top = view.getTop(); 4864 if (left != shadowingView.getLeft() || top != shadowingView.getTop()) { 4865 shadowingView.layout(left, top, 4866 left + shadowingView.getWidth(), 4867 top + shadowingView.getHeight()); 4868 } 4869 } 4870 } 4871 } 4872 4873 private class RecyclerViewDataObserver extends AdapterDataObserver { RecyclerViewDataObserver()4874 RecyclerViewDataObserver() { 4875 } 4876 4877 @Override onChanged()4878 public void onChanged() { 4879 assertNotInLayoutOrScroll(null); 4880 mState.mStructureChanged = true; 4881 4882 setDataSetChangedAfterLayout(); 4883 if (!mAdapterHelper.hasPendingUpdates()) { 4884 requestLayout(); 4885 } 4886 } 4887 4888 @Override onItemRangeChanged(int positionStart, int itemCount, Object payload)4889 public void onItemRangeChanged(int positionStart, int itemCount, Object payload) { 4890 assertNotInLayoutOrScroll(null); 4891 if (mAdapterHelper.onItemRangeChanged(positionStart, itemCount, payload)) { 4892 triggerUpdateProcessor(); 4893 } 4894 } 4895 4896 @Override onItemRangeInserted(int positionStart, int itemCount)4897 public void onItemRangeInserted(int positionStart, int itemCount) { 4898 assertNotInLayoutOrScroll(null); 4899 if (mAdapterHelper.onItemRangeInserted(positionStart, itemCount)) { 4900 triggerUpdateProcessor(); 4901 } 4902 } 4903 4904 @Override onItemRangeRemoved(int positionStart, int itemCount)4905 public void onItemRangeRemoved(int positionStart, int itemCount) { 4906 assertNotInLayoutOrScroll(null); 4907 if (mAdapterHelper.onItemRangeRemoved(positionStart, itemCount)) { 4908 triggerUpdateProcessor(); 4909 } 4910 } 4911 4912 @Override onItemRangeMoved(int fromPosition, int toPosition, int itemCount)4913 public void onItemRangeMoved(int fromPosition, int toPosition, int itemCount) { 4914 assertNotInLayoutOrScroll(null); 4915 if (mAdapterHelper.onItemRangeMoved(fromPosition, toPosition, itemCount)) { 4916 triggerUpdateProcessor(); 4917 } 4918 } 4919 triggerUpdateProcessor()4920 void triggerUpdateProcessor() { 4921 if (POST_UPDATES_ON_ANIMATION && mHasFixedSize && mIsAttached) { 4922 RecyclerView.this.postOnAnimation(mUpdateChildViewsRunnable); 4923 } else { 4924 mAdapterUpdateDuringMeasure = true; 4925 requestLayout(); 4926 } 4927 } 4928 } 4929 4930 /** 4931 * RecycledViewPool lets you share Views between multiple RecyclerViews. 4932 * <p> 4933 * If you want to recycle views across RecyclerViews, create an instance of RecycledViewPool 4934 * and use {@link RecyclerView#setRecycledViewPool(RecycledViewPool)}. 4935 * <p> 4936 * RecyclerView automatically creates a pool for itself if you don't provide one. 4937 * 4938 */ 4939 public static class RecycledViewPool { 4940 private static final int DEFAULT_MAX_SCRAP = 5; 4941 4942 /** 4943 * Tracks both pooled holders, as well as create/bind timing metadata for the given type. 4944 * 4945 * Note that this tracks running averages of create/bind time across all RecyclerViews 4946 * (and, indirectly, Adapters) that use this pool. 4947 * 4948 * 1) This enables us to track average create and bind times across multiple adapters. Even 4949 * though create (and especially bind) may behave differently for different Adapter 4950 * subclasses, sharing the pool is a strong signal that they'll perform similarly, per type. 4951 * 4952 * 2) If {@link #willBindInTime(int, long, long)} returns false for one view, it will return 4953 * false for all other views of its type for the same deadline. This prevents items 4954 * constructed by {@link GapWorker} prefetch from being bound to a lower priority prefetch. 4955 */ 4956 static class ScrapData { 4957 @UnsupportedAppUsage 4958 ArrayList<ViewHolder> mScrapHeap = new ArrayList<>(); 4959 int mMaxScrap = DEFAULT_MAX_SCRAP; 4960 long mCreateRunningAverageNs = 0; 4961 long mBindRunningAverageNs = 0; 4962 } 4963 SparseArray<ScrapData> mScrap = new SparseArray<>(); 4964 4965 private int mAttachCount = 0; 4966 clear()4967 public void clear() { 4968 for (int i = 0; i < mScrap.size(); i++) { 4969 ScrapData data = mScrap.valueAt(i); 4970 data.mScrapHeap.clear(); 4971 } 4972 } 4973 setMaxRecycledViews(int viewType, int max)4974 public void setMaxRecycledViews(int viewType, int max) { 4975 ScrapData scrapData = getScrapDataForType(viewType); 4976 scrapData.mMaxScrap = max; 4977 final ArrayList<ViewHolder> scrapHeap = scrapData.mScrapHeap; 4978 if (scrapHeap != null) { 4979 while (scrapHeap.size() > max) { 4980 scrapHeap.remove(scrapHeap.size() - 1); 4981 } 4982 } 4983 } 4984 4985 /** 4986 * Returns the current number of Views held by the RecycledViewPool of the given view type. 4987 */ getRecycledViewCount(int viewType)4988 public int getRecycledViewCount(int viewType) { 4989 return getScrapDataForType(viewType).mScrapHeap.size(); 4990 } 4991 getRecycledView(int viewType)4992 public ViewHolder getRecycledView(int viewType) { 4993 final ScrapData scrapData = mScrap.get(viewType); 4994 if (scrapData != null && !scrapData.mScrapHeap.isEmpty()) { 4995 final ArrayList<ViewHolder> scrapHeap = scrapData.mScrapHeap; 4996 return scrapHeap.remove(scrapHeap.size() - 1); 4997 } 4998 return null; 4999 } 5000 size()5001 int size() { 5002 int count = 0; 5003 for (int i = 0; i < mScrap.size(); i++) { 5004 ArrayList<ViewHolder> viewHolders = mScrap.valueAt(i).mScrapHeap; 5005 if (viewHolders != null) { 5006 count += viewHolders.size(); 5007 } 5008 } 5009 return count; 5010 } 5011 putRecycledView(ViewHolder scrap)5012 public void putRecycledView(ViewHolder scrap) { 5013 final int viewType = scrap.getItemViewType(); 5014 final ArrayList scrapHeap = getScrapDataForType(viewType).mScrapHeap; 5015 if (mScrap.get(viewType).mMaxScrap <= scrapHeap.size()) { 5016 return; 5017 } 5018 if (DEBUG && scrapHeap.contains(scrap)) { 5019 throw new IllegalArgumentException("this scrap item already exists"); 5020 } 5021 scrap.resetInternal(); 5022 scrapHeap.add(scrap); 5023 } 5024 runningAverage(long oldAverage, long newValue)5025 long runningAverage(long oldAverage, long newValue) { 5026 if (oldAverage == 0) { 5027 return newValue; 5028 } 5029 return (oldAverage / 4 * 3) + (newValue / 4); 5030 } 5031 factorInCreateTime(int viewType, long createTimeNs)5032 void factorInCreateTime(int viewType, long createTimeNs) { 5033 ScrapData scrapData = getScrapDataForType(viewType); 5034 scrapData.mCreateRunningAverageNs = runningAverage( 5035 scrapData.mCreateRunningAverageNs, createTimeNs); 5036 } 5037 factorInBindTime(int viewType, long bindTimeNs)5038 void factorInBindTime(int viewType, long bindTimeNs) { 5039 ScrapData scrapData = getScrapDataForType(viewType); 5040 scrapData.mBindRunningAverageNs = runningAverage( 5041 scrapData.mBindRunningAverageNs, bindTimeNs); 5042 } 5043 willCreateInTime(int viewType, long approxCurrentNs, long deadlineNs)5044 boolean willCreateInTime(int viewType, long approxCurrentNs, long deadlineNs) { 5045 long expectedDurationNs = getScrapDataForType(viewType).mCreateRunningAverageNs; 5046 return expectedDurationNs == 0 || (approxCurrentNs + expectedDurationNs < deadlineNs); 5047 } 5048 willBindInTime(int viewType, long approxCurrentNs, long deadlineNs)5049 boolean willBindInTime(int viewType, long approxCurrentNs, long deadlineNs) { 5050 long expectedDurationNs = getScrapDataForType(viewType).mBindRunningAverageNs; 5051 return expectedDurationNs == 0 || (approxCurrentNs + expectedDurationNs < deadlineNs); 5052 } 5053 attach(Adapter adapter)5054 void attach(Adapter adapter) { 5055 mAttachCount++; 5056 } 5057 detach()5058 void detach() { 5059 mAttachCount--; 5060 } 5061 5062 5063 /** 5064 * Detaches the old adapter and attaches the new one. 5065 * <p> 5066 * RecycledViewPool will clear its cache if it has only one adapter attached and the new 5067 * adapter uses a different ViewHolder than the oldAdapter. 5068 * 5069 * @param oldAdapter The previous adapter instance. Will be detached. 5070 * @param newAdapter The new adapter instance. Will be attached. 5071 * @param compatibleWithPrevious True if both oldAdapter and newAdapter are using the same 5072 * ViewHolder and view types. 5073 */ onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, boolean compatibleWithPrevious)5074 void onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, 5075 boolean compatibleWithPrevious) { 5076 if (oldAdapter != null) { 5077 detach(); 5078 } 5079 if (!compatibleWithPrevious && mAttachCount == 0) { 5080 clear(); 5081 } 5082 if (newAdapter != null) { 5083 attach(newAdapter); 5084 } 5085 } 5086 getScrapDataForType(int viewType)5087 private ScrapData getScrapDataForType(int viewType) { 5088 ScrapData scrapData = mScrap.get(viewType); 5089 if (scrapData == null) { 5090 scrapData = new ScrapData(); 5091 mScrap.put(viewType, scrapData); 5092 } 5093 return scrapData; 5094 } 5095 } 5096 5097 /** 5098 * Utility method for finding an internal RecyclerView, if present 5099 */ 5100 @Nullable findNestedRecyclerView(@onNull View view)5101 static RecyclerView findNestedRecyclerView(@NonNull View view) { 5102 if (!(view instanceof ViewGroup)) { 5103 return null; 5104 } 5105 if (view instanceof RecyclerView) { 5106 return (RecyclerView) view; 5107 } 5108 final ViewGroup parent = (ViewGroup) view; 5109 final int count = parent.getChildCount(); 5110 for (int i = 0; i < count; i++) { 5111 final View child = parent.getChildAt(i); 5112 final RecyclerView descendant = findNestedRecyclerView(child); 5113 if (descendant != null) { 5114 return descendant; 5115 } 5116 } 5117 return null; 5118 } 5119 5120 /** 5121 * Utility method for clearing holder's internal RecyclerView, if present 5122 */ clearNestedRecyclerViewIfNotNested(@onNull ViewHolder holder)5123 static void clearNestedRecyclerViewIfNotNested(@NonNull ViewHolder holder) { 5124 if (holder.mNestedRecyclerView != null) { 5125 View item = holder.mNestedRecyclerView.get(); 5126 while (item != null) { 5127 if (item == holder.itemView) { 5128 return; // match found, don't need to clear 5129 } 5130 5131 ViewParent parent = item.getParent(); 5132 if (parent instanceof View) { 5133 item = (View) parent; 5134 } else { 5135 item = null; 5136 } 5137 } 5138 holder.mNestedRecyclerView = null; // not nested 5139 } 5140 } 5141 5142 /** 5143 * Time base for deadline-aware work scheduling. Overridable for testing. 5144 * 5145 * Will return 0 to avoid cost of System.nanoTime where deadline-aware work scheduling 5146 * isn't relevant. 5147 */ getNanoTime()5148 long getNanoTime() { 5149 if (ALLOW_THREAD_GAP_WORK) { 5150 return System.nanoTime(); 5151 } else { 5152 return 0; 5153 } 5154 } 5155 5156 /** 5157 * A Recycler is responsible for managing scrapped or detached item views for reuse. 5158 * 5159 * <p>A "scrapped" view is a view that is still attached to its parent RecyclerView but 5160 * that has been marked for removal or reuse.</p> 5161 * 5162 * <p>Typical use of a Recycler by a {@link LayoutManager} will be to obtain views for 5163 * an adapter's data set representing the data at a given position or item ID. 5164 * If the view to be reused is considered "dirty" the adapter will be asked to rebind it. 5165 * If not, the view can be quickly reused by the LayoutManager with no further work. 5166 * Clean views that have not {@link android.view.View#isLayoutRequested() requested layout} 5167 * may be repositioned by a LayoutManager without remeasurement.</p> 5168 */ 5169 public final class Recycler { 5170 final ArrayList<ViewHolder> mAttachedScrap = new ArrayList<>(); 5171 ArrayList<ViewHolder> mChangedScrap = null; 5172 5173 final ArrayList<ViewHolder> mCachedViews = new ArrayList<ViewHolder>(); 5174 5175 private final List<ViewHolder> 5176 mUnmodifiableAttachedScrap = Collections.unmodifiableList(mAttachedScrap); 5177 5178 private int mRequestedCacheMax = DEFAULT_CACHE_SIZE; 5179 int mViewCacheMax = DEFAULT_CACHE_SIZE; 5180 5181 RecycledViewPool mRecyclerPool; 5182 5183 private ViewCacheExtension mViewCacheExtension; 5184 5185 static final int DEFAULT_CACHE_SIZE = 2; 5186 5187 /** 5188 * Clear scrap views out of this recycler. Detached views contained within a 5189 * recycled view pool will remain. 5190 */ clear()5191 public void clear() { 5192 mAttachedScrap.clear(); 5193 recycleAndClearCachedViews(); 5194 } 5195 5196 /** 5197 * Set the maximum number of detached, valid views we should retain for later use. 5198 * 5199 * @param viewCount Number of views to keep before sending views to the shared pool 5200 */ setViewCacheSize(int viewCount)5201 public void setViewCacheSize(int viewCount) { 5202 mRequestedCacheMax = viewCount; 5203 updateViewCacheSize(); 5204 } 5205 updateViewCacheSize()5206 void updateViewCacheSize() { 5207 int extraCache = mLayout != null ? mLayout.mPrefetchMaxCountObserved : 0; 5208 mViewCacheMax = mRequestedCacheMax + extraCache; 5209 5210 // first, try the views that can be recycled 5211 for (int i = mCachedViews.size() - 1; 5212 i >= 0 && mCachedViews.size() > mViewCacheMax; i--) { 5213 recycleCachedViewAt(i); 5214 } 5215 } 5216 5217 /** 5218 * Returns an unmodifiable list of ViewHolders that are currently in the scrap list. 5219 * 5220 * @return List of ViewHolders in the scrap list. 5221 */ getScrapList()5222 public List<ViewHolder> getScrapList() { 5223 return mUnmodifiableAttachedScrap; 5224 } 5225 5226 /** 5227 * Helper method for getViewForPosition. 5228 * <p> 5229 * Checks whether a given view holder can be used for the provided position. 5230 * 5231 * @param holder ViewHolder 5232 * @return true if ViewHolder matches the provided position, false otherwise 5233 */ validateViewHolderForOffsetPosition(ViewHolder holder)5234 boolean validateViewHolderForOffsetPosition(ViewHolder holder) { 5235 // if it is a removed holder, nothing to verify since we cannot ask adapter anymore 5236 // if it is not removed, verify the type and id. 5237 if (holder.isRemoved()) { 5238 if (DEBUG && !mState.isPreLayout()) { 5239 throw new IllegalStateException("should not receive a removed view unless it" 5240 + " is pre layout"); 5241 } 5242 return mState.isPreLayout(); 5243 } 5244 if (holder.mPosition < 0 || holder.mPosition >= mAdapter.getItemCount()) { 5245 throw new IndexOutOfBoundsException("Inconsistency detected. Invalid view holder " 5246 + "adapter position" + holder); 5247 } 5248 if (!mState.isPreLayout()) { 5249 // don't check type if it is pre-layout. 5250 final int type = mAdapter.getItemViewType(holder.mPosition); 5251 if (type != holder.getItemViewType()) { 5252 return false; 5253 } 5254 } 5255 if (mAdapter.hasStableIds()) { 5256 return holder.getItemId() == mAdapter.getItemId(holder.mPosition); 5257 } 5258 return true; 5259 } 5260 5261 /** 5262 * Attempts to bind view, and account for relevant timing information. If 5263 * deadlineNs != FOREVER_NS, this method may fail to bind, and return false. 5264 * 5265 * @param holder Holder to be bound. 5266 * @param offsetPosition Position of item to be bound. 5267 * @param position Pre-layout position of item to be bound. 5268 * @param deadlineNs Time, relative to getNanoTime(), by which bind/create work should 5269 * complete. If FOREVER_NS is passed, this method will not fail to 5270 * bind the holder. 5271 * @return 5272 */ tryBindViewHolderByDeadline(ViewHolder holder, int offsetPosition, int position, long deadlineNs)5273 private boolean tryBindViewHolderByDeadline(ViewHolder holder, int offsetPosition, 5274 int position, long deadlineNs) { 5275 holder.mOwnerRecyclerView = RecyclerView.this; 5276 final int viewType = holder.getItemViewType(); 5277 long startBindNs = getNanoTime(); 5278 if (deadlineNs != FOREVER_NS 5279 && !mRecyclerPool.willBindInTime(viewType, startBindNs, deadlineNs)) { 5280 // abort - we have a deadline we can't meet 5281 return false; 5282 } 5283 mAdapter.bindViewHolder(holder, offsetPosition); 5284 long endBindNs = getNanoTime(); 5285 mRecyclerPool.factorInBindTime(holder.getItemViewType(), endBindNs - startBindNs); 5286 attachAccessibilityDelegate(holder.itemView); 5287 if (mState.isPreLayout()) { 5288 holder.mPreLayoutPosition = position; 5289 } 5290 return true; 5291 } 5292 5293 /** 5294 * Binds the given View to the position. The View can be a View previously retrieved via 5295 * {@link #getViewForPosition(int)} or created by 5296 * {@link Adapter#onCreateViewHolder(ViewGroup, int)}. 5297 * <p> 5298 * Generally, a LayoutManager should acquire its views via {@link #getViewForPosition(int)} 5299 * and let the RecyclerView handle caching. This is a helper method for LayoutManager who 5300 * wants to handle its own recycling logic. 5301 * <p> 5302 * Note that, {@link #getViewForPosition(int)} already binds the View to the position so 5303 * you don't need to call this method unless you want to bind this View to another position. 5304 * 5305 * @param view The view to update. 5306 * @param position The position of the item to bind to this View. 5307 */ bindViewToPosition(View view, int position)5308 public void bindViewToPosition(View view, int position) { 5309 ViewHolder holder = getChildViewHolderInt(view); 5310 if (holder == null) { 5311 throw new IllegalArgumentException("The view does not have a ViewHolder. You cannot" 5312 + " pass arbitrary views to this method, they should be created by the " 5313 + "Adapter"); 5314 } 5315 final int offsetPosition = mAdapterHelper.findPositionOffset(position); 5316 if (offsetPosition < 0 || offsetPosition >= mAdapter.getItemCount()) { 5317 throw new IndexOutOfBoundsException("Inconsistency detected. Invalid item " 5318 + "position " + position + "(offset:" + offsetPosition + ")." 5319 + "state:" + mState.getItemCount()); 5320 } 5321 tryBindViewHolderByDeadline(holder, offsetPosition, position, FOREVER_NS); 5322 5323 final ViewGroup.LayoutParams lp = holder.itemView.getLayoutParams(); 5324 final LayoutParams rvLayoutParams; 5325 if (lp == null) { 5326 rvLayoutParams = (LayoutParams) generateDefaultLayoutParams(); 5327 holder.itemView.setLayoutParams(rvLayoutParams); 5328 } else if (!checkLayoutParams(lp)) { 5329 rvLayoutParams = (LayoutParams) generateLayoutParams(lp); 5330 holder.itemView.setLayoutParams(rvLayoutParams); 5331 } else { 5332 rvLayoutParams = (LayoutParams) lp; 5333 } 5334 5335 rvLayoutParams.mInsetsDirty = true; 5336 rvLayoutParams.mViewHolder = holder; 5337 rvLayoutParams.mPendingInvalidate = holder.itemView.getParent() == null; 5338 } 5339 5340 /** 5341 * RecyclerView provides artificial position range (item count) in pre-layout state and 5342 * automatically maps these positions to {@link Adapter} positions when 5343 * {@link #getViewForPosition(int)} or {@link #bindViewToPosition(View, int)} is called. 5344 * <p> 5345 * Usually, LayoutManager does not need to worry about this. However, in some cases, your 5346 * LayoutManager may need to call some custom component with item positions in which 5347 * case you need the actual adapter position instead of the pre layout position. You 5348 * can use this method to convert a pre-layout position to adapter (post layout) position. 5349 * <p> 5350 * Note that if the provided position belongs to a deleted ViewHolder, this method will 5351 * return -1. 5352 * <p> 5353 * Calling this method in post-layout state returns the same value back. 5354 * 5355 * @param position The pre-layout position to convert. Must be greater or equal to 0 and 5356 * less than {@link State#getItemCount()}. 5357 */ convertPreLayoutPositionToPostLayout(int position)5358 public int convertPreLayoutPositionToPostLayout(int position) { 5359 if (position < 0 || position >= mState.getItemCount()) { 5360 throw new IndexOutOfBoundsException("invalid position " + position + ". State " 5361 + "item count is " + mState.getItemCount()); 5362 } 5363 if (!mState.isPreLayout()) { 5364 return position; 5365 } 5366 return mAdapterHelper.findPositionOffset(position); 5367 } 5368 5369 /** 5370 * Obtain a view initialized for the given position. 5371 * 5372 * This method should be used by {@link LayoutManager} implementations to obtain 5373 * views to represent data from an {@link Adapter}. 5374 * <p> 5375 * The Recycler may reuse a scrap or detached view from a shared pool if one is 5376 * available for the correct view type. If the adapter has not indicated that the 5377 * data at the given position has changed, the Recycler will attempt to hand back 5378 * a scrap view that was previously initialized for that data without rebinding. 5379 * 5380 * @param position Position to obtain a view for 5381 * @return A view representing the data at <code>position</code> from <code>adapter</code> 5382 */ getViewForPosition(int position)5383 public View getViewForPosition(int position) { 5384 return getViewForPosition(position, false); 5385 } 5386 getViewForPosition(int position, boolean dryRun)5387 View getViewForPosition(int position, boolean dryRun) { 5388 return tryGetViewHolderForPositionByDeadline(position, dryRun, FOREVER_NS).itemView; 5389 } 5390 5391 /** 5392 * Attempts to get the ViewHolder for the given position, either from the Recycler scrap, 5393 * cache, the RecycledViewPool, or creating it directly. 5394 * <p> 5395 * If a deadlineNs other than {@link #FOREVER_NS} is passed, this method early return 5396 * rather than constructing or binding a ViewHolder if it doesn't think it has time. 5397 * If a ViewHolder must be constructed and not enough time remains, null is returned. If a 5398 * ViewHolder is aquired and must be bound but not enough time remains, an unbound holder is 5399 * returned. Use {@link ViewHolder#isBound()} on the returned object to check for this. 5400 * 5401 * @param position Position of ViewHolder to be returned. 5402 * @param dryRun True if the ViewHolder should not be removed from scrap/cache/ 5403 * @param deadlineNs Time, relative to getNanoTime(), by which bind/create work should 5404 * complete. If FOREVER_NS is passed, this method will not fail to 5405 * create/bind the holder if needed. 5406 * 5407 * @return ViewHolder for requested position 5408 */ 5409 @Nullable tryGetViewHolderForPositionByDeadline(int position, boolean dryRun, long deadlineNs)5410 ViewHolder tryGetViewHolderForPositionByDeadline(int position, 5411 boolean dryRun, long deadlineNs) { 5412 if (position < 0 || position >= mState.getItemCount()) { 5413 throw new IndexOutOfBoundsException("Invalid item position " + position 5414 + "(" + position + "). Item count:" + mState.getItemCount()); 5415 } 5416 boolean fromScrapOrHiddenOrCache = false; 5417 ViewHolder holder = null; 5418 // 0) If there is a changed scrap, try to find from there 5419 if (mState.isPreLayout()) { 5420 holder = getChangedScrapViewForPosition(position); 5421 fromScrapOrHiddenOrCache = holder != null; 5422 } 5423 // 1) Find by position from scrap/hidden list/cache 5424 if (holder == null) { 5425 holder = getScrapOrHiddenOrCachedHolderForPosition(position, dryRun); 5426 if (holder != null) { 5427 if (!validateViewHolderForOffsetPosition(holder)) { 5428 // recycle holder (and unscrap if relevant) since it can't be used 5429 if (!dryRun) { 5430 // we would like to recycle this but need to make sure it is not used by 5431 // animation logic etc. 5432 holder.addFlags(ViewHolder.FLAG_INVALID); 5433 if (holder.isScrap()) { 5434 removeDetachedView(holder.itemView, false); 5435 holder.unScrap(); 5436 } else if (holder.wasReturnedFromScrap()) { 5437 holder.clearReturnedFromScrapFlag(); 5438 } 5439 recycleViewHolderInternal(holder); 5440 } 5441 holder = null; 5442 } else { 5443 fromScrapOrHiddenOrCache = true; 5444 } 5445 } 5446 } 5447 if (holder == null) { 5448 final int offsetPosition = mAdapterHelper.findPositionOffset(position); 5449 if (offsetPosition < 0 || offsetPosition >= mAdapter.getItemCount()) { 5450 throw new IndexOutOfBoundsException("Inconsistency detected. Invalid item " 5451 + "position " + position + "(offset:" + offsetPosition + ")." 5452 + "state:" + mState.getItemCount()); 5453 } 5454 5455 final int type = mAdapter.getItemViewType(offsetPosition); 5456 // 2) Find from scrap/cache via stable ids, if exists 5457 if (mAdapter.hasStableIds()) { 5458 holder = getScrapOrCachedViewForId(mAdapter.getItemId(offsetPosition), 5459 type, dryRun); 5460 if (holder != null) { 5461 // update position 5462 holder.mPosition = offsetPosition; 5463 fromScrapOrHiddenOrCache = true; 5464 } 5465 } 5466 if (holder == null && mViewCacheExtension != null) { 5467 // We are NOT sending the offsetPosition because LayoutManager does not 5468 // know it. 5469 final View view = mViewCacheExtension 5470 .getViewForPositionAndType(this, position, type); 5471 if (view != null) { 5472 holder = getChildViewHolder(view); 5473 if (holder == null) { 5474 throw new IllegalArgumentException("getViewForPositionAndType returned" 5475 + " a view which does not have a ViewHolder"); 5476 } else if (holder.shouldIgnore()) { 5477 throw new IllegalArgumentException("getViewForPositionAndType returned" 5478 + " a view that is ignored. You must call stopIgnoring before" 5479 + " returning this view."); 5480 } 5481 } 5482 } 5483 if (holder == null) { // fallback to pool 5484 if (DEBUG) { 5485 Log.d(TAG, "tryGetViewHolderForPositionByDeadline(" 5486 + position + ") fetching from shared pool"); 5487 } 5488 holder = getRecycledViewPool().getRecycledView(type); 5489 if (holder != null) { 5490 holder.resetInternal(); 5491 if (FORCE_INVALIDATE_DISPLAY_LIST) { 5492 invalidateDisplayListInt(holder); 5493 } 5494 } 5495 } 5496 if (holder == null) { 5497 long start = getNanoTime(); 5498 if (deadlineNs != FOREVER_NS 5499 && !mRecyclerPool.willCreateInTime(type, start, deadlineNs)) { 5500 // abort - we have a deadline we can't meet 5501 return null; 5502 } 5503 holder = mAdapter.createViewHolder(RecyclerView.this, type); 5504 if (ALLOW_THREAD_GAP_WORK) { 5505 // only bother finding nested RV if prefetching 5506 RecyclerView innerView = findNestedRecyclerView(holder.itemView); 5507 if (innerView != null) { 5508 holder.mNestedRecyclerView = new WeakReference<>(innerView); 5509 } 5510 } 5511 5512 long end = getNanoTime(); 5513 mRecyclerPool.factorInCreateTime(type, end - start); 5514 if (DEBUG) { 5515 Log.d(TAG, "tryGetViewHolderForPositionByDeadline created new ViewHolder"); 5516 } 5517 } 5518 } 5519 5520 // This is very ugly but the only place we can grab this information 5521 // before the View is rebound and returned to the LayoutManager for post layout ops. 5522 // We don't need this in pre-layout since the VH is not updated by the LM. 5523 if (fromScrapOrHiddenOrCache && !mState.isPreLayout() && holder 5524 .hasAnyOfTheFlags(ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST)) { 5525 holder.setFlags(0, ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); 5526 if (mState.mRunSimpleAnimations) { 5527 int changeFlags = ItemAnimator 5528 .buildAdapterChangeFlagsForAnimations(holder); 5529 changeFlags |= ItemAnimator.FLAG_APPEARED_IN_PRE_LAYOUT; 5530 final ItemHolderInfo info = mItemAnimator.recordPreLayoutInformation(mState, 5531 holder, changeFlags, holder.getUnmodifiedPayloads()); 5532 recordAnimationInfoIfBouncedHiddenView(holder, info); 5533 } 5534 } 5535 5536 boolean bound = false; 5537 if (mState.isPreLayout() && holder.isBound()) { 5538 // do not update unless we absolutely have to. 5539 holder.mPreLayoutPosition = position; 5540 } else if (!holder.isBound() || holder.needsUpdate() || holder.isInvalid()) { 5541 if (DEBUG && holder.isRemoved()) { 5542 throw new IllegalStateException("Removed holder should be bound and it should" 5543 + " come here only in pre-layout. Holder: " + holder); 5544 } 5545 final int offsetPosition = mAdapterHelper.findPositionOffset(position); 5546 bound = tryBindViewHolderByDeadline(holder, offsetPosition, position, deadlineNs); 5547 } 5548 5549 final ViewGroup.LayoutParams lp = holder.itemView.getLayoutParams(); 5550 final LayoutParams rvLayoutParams; 5551 if (lp == null) { 5552 rvLayoutParams = (LayoutParams) generateDefaultLayoutParams(); 5553 holder.itemView.setLayoutParams(rvLayoutParams); 5554 } else if (!checkLayoutParams(lp)) { 5555 rvLayoutParams = (LayoutParams) generateLayoutParams(lp); 5556 holder.itemView.setLayoutParams(rvLayoutParams); 5557 } else { 5558 rvLayoutParams = (LayoutParams) lp; 5559 } 5560 rvLayoutParams.mViewHolder = holder; 5561 rvLayoutParams.mPendingInvalidate = fromScrapOrHiddenOrCache && bound; 5562 return holder; 5563 } 5564 attachAccessibilityDelegate(View itemView)5565 private void attachAccessibilityDelegate(View itemView) { 5566 if (isAccessibilityEnabled()) { 5567 if (itemView.getImportantForAccessibility() 5568 == View.IMPORTANT_FOR_ACCESSIBILITY_AUTO) { 5569 itemView.setImportantForAccessibility(View.IMPORTANT_FOR_ACCESSIBILITY_YES); 5570 } 5571 5572 if (itemView.getAccessibilityDelegate() == null) { 5573 itemView.setAccessibilityDelegate(mAccessibilityDelegate.getItemDelegate()); 5574 } 5575 } 5576 } 5577 invalidateDisplayListInt(ViewHolder holder)5578 private void invalidateDisplayListInt(ViewHolder holder) { 5579 if (holder.itemView instanceof ViewGroup) { 5580 invalidateDisplayListInt((ViewGroup) holder.itemView, false); 5581 } 5582 } 5583 invalidateDisplayListInt(ViewGroup viewGroup, boolean invalidateThis)5584 private void invalidateDisplayListInt(ViewGroup viewGroup, boolean invalidateThis) { 5585 for (int i = viewGroup.getChildCount() - 1; i >= 0; i--) { 5586 final View view = viewGroup.getChildAt(i); 5587 if (view instanceof ViewGroup) { 5588 invalidateDisplayListInt((ViewGroup) view, true); 5589 } 5590 } 5591 if (!invalidateThis) { 5592 return; 5593 } 5594 // we need to force it to become invisible 5595 if (viewGroup.getVisibility() == View.INVISIBLE) { 5596 viewGroup.setVisibility(View.VISIBLE); 5597 viewGroup.setVisibility(View.INVISIBLE); 5598 } else { 5599 final int visibility = viewGroup.getVisibility(); 5600 viewGroup.setVisibility(View.INVISIBLE); 5601 viewGroup.setVisibility(visibility); 5602 } 5603 } 5604 5605 /** 5606 * Recycle a detached view. The specified view will be added to a pool of views 5607 * for later rebinding and reuse. 5608 * 5609 * <p>A view must be fully detached (removed from parent) before it may be recycled. If the 5610 * View is scrapped, it will be removed from scrap list.</p> 5611 * 5612 * @param view Removed view for recycling 5613 * @see LayoutManager#removeAndRecycleView(View, Recycler) 5614 */ recycleView(View view)5615 public void recycleView(View view) { 5616 // This public recycle method tries to make view recycle-able since layout manager 5617 // intended to recycle this view (e.g. even if it is in scrap or change cache) 5618 ViewHolder holder = getChildViewHolderInt(view); 5619 if (holder.isTmpDetached()) { 5620 removeDetachedView(view, false); 5621 } 5622 if (holder.isScrap()) { 5623 holder.unScrap(); 5624 } else if (holder.wasReturnedFromScrap()) { 5625 holder.clearReturnedFromScrapFlag(); 5626 } 5627 recycleViewHolderInternal(holder); 5628 } 5629 5630 /** 5631 * Internally, use this method instead of {@link #recycleView(android.view.View)} to 5632 * catch potential bugs. 5633 * @param view 5634 */ recycleViewInternal(View view)5635 void recycleViewInternal(View view) { 5636 recycleViewHolderInternal(getChildViewHolderInt(view)); 5637 } 5638 recycleAndClearCachedViews()5639 void recycleAndClearCachedViews() { 5640 final int count = mCachedViews.size(); 5641 for (int i = count - 1; i >= 0; i--) { 5642 recycleCachedViewAt(i); 5643 } 5644 mCachedViews.clear(); 5645 if (ALLOW_THREAD_GAP_WORK) { 5646 mPrefetchRegistry.clearPrefetchPositions(); 5647 } 5648 } 5649 5650 /** 5651 * Recycles a cached view and removes the view from the list. Views are added to cache 5652 * if and only if they are recyclable, so this method does not check it again. 5653 * <p> 5654 * A small exception to this rule is when the view does not have an animator reference 5655 * but transient state is true (due to animations created outside ItemAnimator). In that 5656 * case, adapter may choose to recycle it. From RecyclerView's perspective, the view is 5657 * still recyclable since Adapter wants to do so. 5658 * 5659 * @param cachedViewIndex The index of the view in cached views list 5660 */ recycleCachedViewAt(int cachedViewIndex)5661 void recycleCachedViewAt(int cachedViewIndex) { 5662 if (DEBUG) { 5663 Log.d(TAG, "Recycling cached view at index " + cachedViewIndex); 5664 } 5665 ViewHolder viewHolder = mCachedViews.get(cachedViewIndex); 5666 if (DEBUG) { 5667 Log.d(TAG, "CachedViewHolder to be recycled: " + viewHolder); 5668 } 5669 addViewHolderToRecycledViewPool(viewHolder, true); 5670 mCachedViews.remove(cachedViewIndex); 5671 } 5672 5673 /** 5674 * internal implementation checks if view is scrapped or attached and throws an exception 5675 * if so. 5676 * Public version un-scraps before calling recycle. 5677 */ recycleViewHolderInternal(ViewHolder holder)5678 void recycleViewHolderInternal(ViewHolder holder) { 5679 if (holder.isScrap() || holder.itemView.getParent() != null) { 5680 throw new IllegalArgumentException( 5681 "Scrapped or attached views may not be recycled. isScrap:" 5682 + holder.isScrap() + " isAttached:" 5683 + (holder.itemView.getParent() != null)); 5684 } 5685 5686 if (holder.isTmpDetached()) { 5687 throw new IllegalArgumentException("Tmp detached view should be removed " 5688 + "from RecyclerView before it can be recycled: " + holder); 5689 } 5690 5691 if (holder.shouldIgnore()) { 5692 throw new IllegalArgumentException("Trying to recycle an ignored view holder. You" 5693 + " should first call stopIgnoringView(view) before calling recycle."); 5694 } 5695 //noinspection unchecked 5696 final boolean transientStatePreventsRecycling = holder 5697 .doesTransientStatePreventRecycling(); 5698 final boolean forceRecycle = mAdapter != null 5699 && transientStatePreventsRecycling 5700 && mAdapter.onFailedToRecycleView(holder); 5701 boolean cached = false; 5702 boolean recycled = false; 5703 if (DEBUG && mCachedViews.contains(holder)) { 5704 throw new IllegalArgumentException("cached view received recycle internal? " 5705 + holder); 5706 } 5707 if (forceRecycle || holder.isRecyclable()) { 5708 if (mViewCacheMax > 0 5709 && !holder.hasAnyOfTheFlags(ViewHolder.FLAG_INVALID 5710 | ViewHolder.FLAG_REMOVED 5711 | ViewHolder.FLAG_UPDATE 5712 | ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN)) { 5713 // Retire oldest cached view 5714 int cachedViewSize = mCachedViews.size(); 5715 if (cachedViewSize >= mViewCacheMax && cachedViewSize > 0) { 5716 recycleCachedViewAt(0); 5717 cachedViewSize--; 5718 } 5719 5720 int targetCacheIndex = cachedViewSize; 5721 if (ALLOW_THREAD_GAP_WORK 5722 && cachedViewSize > 0 5723 && !mPrefetchRegistry.lastPrefetchIncludedPosition(holder.mPosition)) { 5724 // when adding the view, skip past most recently prefetched views 5725 int cacheIndex = cachedViewSize - 1; 5726 while (cacheIndex >= 0) { 5727 int cachedPos = mCachedViews.get(cacheIndex).mPosition; 5728 if (!mPrefetchRegistry.lastPrefetchIncludedPosition(cachedPos)) { 5729 break; 5730 } 5731 cacheIndex--; 5732 } 5733 targetCacheIndex = cacheIndex + 1; 5734 } 5735 mCachedViews.add(targetCacheIndex, holder); 5736 cached = true; 5737 } 5738 if (!cached) { 5739 addViewHolderToRecycledViewPool(holder, true); 5740 recycled = true; 5741 } 5742 } else { 5743 // NOTE: A view can fail to be recycled when it is scrolled off while an animation 5744 // runs. In this case, the item is eventually recycled by 5745 // ItemAnimatorRestoreListener#onAnimationFinished. 5746 5747 // TODO: consider cancelling an animation when an item is removed scrollBy, 5748 // to return it to the pool faster 5749 if (DEBUG) { 5750 Log.d(TAG, "trying to recycle a non-recycleable holder. Hopefully, it will " 5751 + "re-visit here. We are still removing it from animation lists"); 5752 } 5753 } 5754 // even if the holder is not removed, we still call this method so that it is removed 5755 // from view holder lists. 5756 mViewInfoStore.removeViewHolder(holder); 5757 if (!cached && !recycled && transientStatePreventsRecycling) { 5758 holder.mOwnerRecyclerView = null; 5759 } 5760 } 5761 5762 /** 5763 * Prepares the ViewHolder to be removed/recycled, and inserts it into the RecycledViewPool. 5764 * 5765 * Pass false to dispatchRecycled for views that have not been bound. 5766 * 5767 * @param holder Holder to be added to the pool. 5768 * @param dispatchRecycled True to dispatch View recycled callbacks. 5769 */ addViewHolderToRecycledViewPool(ViewHolder holder, boolean dispatchRecycled)5770 void addViewHolderToRecycledViewPool(ViewHolder holder, boolean dispatchRecycled) { 5771 clearNestedRecyclerViewIfNotNested(holder); 5772 holder.itemView.setAccessibilityDelegate(null); 5773 if (dispatchRecycled) { 5774 dispatchViewRecycled(holder); 5775 } 5776 holder.mOwnerRecyclerView = null; 5777 getRecycledViewPool().putRecycledView(holder); 5778 } 5779 5780 /** 5781 * Used as a fast path for unscrapping and recycling a view during a bulk operation. 5782 * The caller must call {@link #clearScrap()} when it's done to update the recycler's 5783 * internal bookkeeping. 5784 */ quickRecycleScrapView(View view)5785 void quickRecycleScrapView(View view) { 5786 final ViewHolder holder = getChildViewHolderInt(view); 5787 holder.mScrapContainer = null; 5788 holder.mInChangeScrap = false; 5789 holder.clearReturnedFromScrapFlag(); 5790 recycleViewHolderInternal(holder); 5791 } 5792 5793 /** 5794 * Mark an attached view as scrap. 5795 * 5796 * <p>"Scrap" views are still attached to their parent RecyclerView but are eligible 5797 * for rebinding and reuse. Requests for a view for a given position may return a 5798 * reused or rebound scrap view instance.</p> 5799 * 5800 * @param view View to scrap 5801 */ scrapView(View view)5802 void scrapView(View view) { 5803 final ViewHolder holder = getChildViewHolderInt(view); 5804 if (holder.hasAnyOfTheFlags(ViewHolder.FLAG_REMOVED | ViewHolder.FLAG_INVALID) 5805 || !holder.isUpdated() || canReuseUpdatedViewHolder(holder)) { 5806 if (holder.isInvalid() && !holder.isRemoved() && !mAdapter.hasStableIds()) { 5807 throw new IllegalArgumentException("Called scrap view with an invalid view." 5808 + " Invalid views cannot be reused from scrap, they should rebound from" 5809 + " recycler pool."); 5810 } 5811 holder.setScrapContainer(this, false); 5812 mAttachedScrap.add(holder); 5813 } else { 5814 if (mChangedScrap == null) { 5815 mChangedScrap = new ArrayList<ViewHolder>(); 5816 } 5817 holder.setScrapContainer(this, true); 5818 mChangedScrap.add(holder); 5819 } 5820 } 5821 5822 /** 5823 * Remove a previously scrapped view from the pool of eligible scrap. 5824 * 5825 * <p>This view will no longer be eligible for reuse until re-scrapped or 5826 * until it is explicitly removed and recycled.</p> 5827 */ unscrapView(ViewHolder holder)5828 void unscrapView(ViewHolder holder) { 5829 if (holder.mInChangeScrap) { 5830 mChangedScrap.remove(holder); 5831 } else { 5832 mAttachedScrap.remove(holder); 5833 } 5834 holder.mScrapContainer = null; 5835 holder.mInChangeScrap = false; 5836 holder.clearReturnedFromScrapFlag(); 5837 } 5838 getScrapCount()5839 int getScrapCount() { 5840 return mAttachedScrap.size(); 5841 } 5842 getScrapViewAt(int index)5843 View getScrapViewAt(int index) { 5844 return mAttachedScrap.get(index).itemView; 5845 } 5846 clearScrap()5847 void clearScrap() { 5848 mAttachedScrap.clear(); 5849 if (mChangedScrap != null) { 5850 mChangedScrap.clear(); 5851 } 5852 } 5853 getChangedScrapViewForPosition(int position)5854 ViewHolder getChangedScrapViewForPosition(int position) { 5855 // If pre-layout, check the changed scrap for an exact match. 5856 final int changedScrapSize; 5857 if (mChangedScrap == null || (changedScrapSize = mChangedScrap.size()) == 0) { 5858 return null; 5859 } 5860 // find by position 5861 for (int i = 0; i < changedScrapSize; i++) { 5862 final ViewHolder holder = mChangedScrap.get(i); 5863 if (!holder.wasReturnedFromScrap() && holder.getLayoutPosition() == position) { 5864 holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); 5865 return holder; 5866 } 5867 } 5868 // find by id 5869 if (mAdapter.hasStableIds()) { 5870 final int offsetPosition = mAdapterHelper.findPositionOffset(position); 5871 if (offsetPosition > 0 && offsetPosition < mAdapter.getItemCount()) { 5872 final long id = mAdapter.getItemId(offsetPosition); 5873 for (int i = 0; i < changedScrapSize; i++) { 5874 final ViewHolder holder = mChangedScrap.get(i); 5875 if (!holder.wasReturnedFromScrap() && holder.getItemId() == id) { 5876 holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); 5877 return holder; 5878 } 5879 } 5880 } 5881 } 5882 return null; 5883 } 5884 5885 /** 5886 * Returns a view for the position either from attach scrap, hidden children, or cache. 5887 * 5888 * @param position Item position 5889 * @param dryRun Does a dry run, finds the ViewHolder but does not remove 5890 * @return a ViewHolder that can be re-used for this position. 5891 */ getScrapOrHiddenOrCachedHolderForPosition(int position, boolean dryRun)5892 ViewHolder getScrapOrHiddenOrCachedHolderForPosition(int position, boolean dryRun) { 5893 final int scrapCount = mAttachedScrap.size(); 5894 5895 // Try first for an exact, non-invalid match from scrap. 5896 for (int i = 0; i < scrapCount; i++) { 5897 final ViewHolder holder = mAttachedScrap.get(i); 5898 if (!holder.wasReturnedFromScrap() && holder.getLayoutPosition() == position 5899 && !holder.isInvalid() && (mState.mInPreLayout || !holder.isRemoved())) { 5900 holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); 5901 return holder; 5902 } 5903 } 5904 5905 if (!dryRun) { 5906 View view = mChildHelper.findHiddenNonRemovedView(position); 5907 if (view != null) { 5908 // This View is good to be used. We just need to unhide, detach and move to the 5909 // scrap list. 5910 final ViewHolder vh = getChildViewHolderInt(view); 5911 mChildHelper.unhide(view); 5912 int layoutIndex = mChildHelper.indexOfChild(view); 5913 if (layoutIndex == RecyclerView.NO_POSITION) { 5914 throw new IllegalStateException("layout index should not be -1 after " 5915 + "unhiding a view:" + vh); 5916 } 5917 mChildHelper.detachViewFromParent(layoutIndex); 5918 scrapView(view); 5919 vh.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP 5920 | ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); 5921 return vh; 5922 } 5923 } 5924 5925 // Search in our first-level recycled view cache. 5926 final int cacheSize = mCachedViews.size(); 5927 for (int i = 0; i < cacheSize; i++) { 5928 final ViewHolder holder = mCachedViews.get(i); 5929 // invalid view holders may be in cache if adapter has stable ids as they can be 5930 // retrieved via getScrapOrCachedViewForId 5931 if (!holder.isInvalid() && holder.getLayoutPosition() == position) { 5932 if (!dryRun) { 5933 mCachedViews.remove(i); 5934 } 5935 if (DEBUG) { 5936 Log.d(TAG, "getScrapOrHiddenOrCachedHolderForPosition(" + position 5937 + ") found match in cache: " + holder); 5938 } 5939 return holder; 5940 } 5941 } 5942 return null; 5943 } 5944 getScrapOrCachedViewForId(long id, int type, boolean dryRun)5945 ViewHolder getScrapOrCachedViewForId(long id, int type, boolean dryRun) { 5946 // Look in our attached views first 5947 final int count = mAttachedScrap.size(); 5948 for (int i = count - 1; i >= 0; i--) { 5949 final ViewHolder holder = mAttachedScrap.get(i); 5950 if (holder.getItemId() == id && !holder.wasReturnedFromScrap()) { 5951 if (type == holder.getItemViewType()) { 5952 holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); 5953 if (holder.isRemoved()) { 5954 // this might be valid in two cases: 5955 // > item is removed but we are in pre-layout pass 5956 // >> do nothing. return as is. make sure we don't rebind 5957 // > item is removed then added to another position and we are in 5958 // post layout. 5959 // >> remove removed and invalid flags, add update flag to rebind 5960 // because item was invisible to us and we don't know what happened in 5961 // between. 5962 if (!mState.isPreLayout()) { 5963 holder.setFlags(ViewHolder.FLAG_UPDATE, ViewHolder.FLAG_UPDATE 5964 | ViewHolder.FLAG_INVALID | ViewHolder.FLAG_REMOVED); 5965 } 5966 } 5967 return holder; 5968 } else if (!dryRun) { 5969 // if we are running animations, it is actually better to keep it in scrap 5970 // but this would force layout manager to lay it out which would be bad. 5971 // Recycle this scrap. Type mismatch. 5972 mAttachedScrap.remove(i); 5973 removeDetachedView(holder.itemView, false); 5974 quickRecycleScrapView(holder.itemView); 5975 } 5976 } 5977 } 5978 5979 // Search the first-level cache 5980 final int cacheSize = mCachedViews.size(); 5981 for (int i = cacheSize - 1; i >= 0; i--) { 5982 final ViewHolder holder = mCachedViews.get(i); 5983 if (holder.getItemId() == id) { 5984 if (type == holder.getItemViewType()) { 5985 if (!dryRun) { 5986 mCachedViews.remove(i); 5987 } 5988 return holder; 5989 } else if (!dryRun) { 5990 recycleCachedViewAt(i); 5991 return null; 5992 } 5993 } 5994 } 5995 return null; 5996 } 5997 dispatchViewRecycled(ViewHolder holder)5998 void dispatchViewRecycled(ViewHolder holder) { 5999 if (mRecyclerListener != null) { 6000 mRecyclerListener.onViewRecycled(holder); 6001 } 6002 if (mAdapter != null) { 6003 mAdapter.onViewRecycled(holder); 6004 } 6005 if (mState != null) { 6006 mViewInfoStore.removeViewHolder(holder); 6007 } 6008 if (DEBUG) Log.d(TAG, "dispatchViewRecycled: " + holder); 6009 } 6010 onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, boolean compatibleWithPrevious)6011 void onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, 6012 boolean compatibleWithPrevious) { 6013 clear(); 6014 getRecycledViewPool().onAdapterChanged(oldAdapter, newAdapter, compatibleWithPrevious); 6015 } 6016 offsetPositionRecordsForMove(int from, int to)6017 void offsetPositionRecordsForMove(int from, int to) { 6018 final int start, end, inBetweenOffset; 6019 if (from < to) { 6020 start = from; 6021 end = to; 6022 inBetweenOffset = -1; 6023 } else { 6024 start = to; 6025 end = from; 6026 inBetweenOffset = 1; 6027 } 6028 final int cachedCount = mCachedViews.size(); 6029 for (int i = 0; i < cachedCount; i++) { 6030 final ViewHolder holder = mCachedViews.get(i); 6031 if (holder == null || holder.mPosition < start || holder.mPosition > end) { 6032 continue; 6033 } 6034 if (holder.mPosition == from) { 6035 holder.offsetPosition(to - from, false); 6036 } else { 6037 holder.offsetPosition(inBetweenOffset, false); 6038 } 6039 if (DEBUG) { 6040 Log.d(TAG, "offsetPositionRecordsForMove cached child " + i + " holder " 6041 + holder); 6042 } 6043 } 6044 } 6045 offsetPositionRecordsForInsert(int insertedAt, int count)6046 void offsetPositionRecordsForInsert(int insertedAt, int count) { 6047 final int cachedCount = mCachedViews.size(); 6048 for (int i = 0; i < cachedCount; i++) { 6049 final ViewHolder holder = mCachedViews.get(i); 6050 if (holder != null && holder.mPosition >= insertedAt) { 6051 if (DEBUG) { 6052 Log.d(TAG, "offsetPositionRecordsForInsert cached " + i + " holder " 6053 + holder + " now at position " + (holder.mPosition + count)); 6054 } 6055 holder.offsetPosition(count, true); 6056 } 6057 } 6058 } 6059 6060 /** 6061 * @param removedFrom Remove start index 6062 * @param count Remove count 6063 * @param applyToPreLayout If true, changes will affect ViewHolder's pre-layout position, if 6064 * false, they'll be applied before the second layout pass 6065 */ offsetPositionRecordsForRemove(int removedFrom, int count, boolean applyToPreLayout)6066 void offsetPositionRecordsForRemove(int removedFrom, int count, boolean applyToPreLayout) { 6067 final int removedEnd = removedFrom + count; 6068 final int cachedCount = mCachedViews.size(); 6069 for (int i = cachedCount - 1; i >= 0; i--) { 6070 final ViewHolder holder = mCachedViews.get(i); 6071 if (holder != null) { 6072 if (holder.mPosition >= removedEnd) { 6073 if (DEBUG) { 6074 Log.d(TAG, "offsetPositionRecordsForRemove cached " + i 6075 + " holder " + holder + " now at position " 6076 + (holder.mPosition - count)); 6077 } 6078 holder.offsetPosition(-count, applyToPreLayout); 6079 } else if (holder.mPosition >= removedFrom) { 6080 // Item for this view was removed. Dump it from the cache. 6081 holder.addFlags(ViewHolder.FLAG_REMOVED); 6082 recycleCachedViewAt(i); 6083 } 6084 } 6085 } 6086 } 6087 setViewCacheExtension(ViewCacheExtension extension)6088 void setViewCacheExtension(ViewCacheExtension extension) { 6089 mViewCacheExtension = extension; 6090 } 6091 setRecycledViewPool(RecycledViewPool pool)6092 void setRecycledViewPool(RecycledViewPool pool) { 6093 if (mRecyclerPool != null) { 6094 mRecyclerPool.detach(); 6095 } 6096 mRecyclerPool = pool; 6097 if (pool != null) { 6098 mRecyclerPool.attach(getAdapter()); 6099 } 6100 } 6101 getRecycledViewPool()6102 RecycledViewPool getRecycledViewPool() { 6103 if (mRecyclerPool == null) { 6104 mRecyclerPool = new RecycledViewPool(); 6105 } 6106 return mRecyclerPool; 6107 } 6108 viewRangeUpdate(int positionStart, int itemCount)6109 void viewRangeUpdate(int positionStart, int itemCount) { 6110 final int positionEnd = positionStart + itemCount; 6111 final int cachedCount = mCachedViews.size(); 6112 for (int i = cachedCount - 1; i >= 0; i--) { 6113 final ViewHolder holder = mCachedViews.get(i); 6114 if (holder == null) { 6115 continue; 6116 } 6117 6118 final int pos = holder.getLayoutPosition(); 6119 if (pos >= positionStart && pos < positionEnd) { 6120 holder.addFlags(ViewHolder.FLAG_UPDATE); 6121 recycleCachedViewAt(i); 6122 // cached views should not be flagged as changed because this will cause them 6123 // to animate when they are returned from cache. 6124 } 6125 } 6126 } 6127 setAdapterPositionsAsUnknown()6128 void setAdapterPositionsAsUnknown() { 6129 final int cachedCount = mCachedViews.size(); 6130 for (int i = 0; i < cachedCount; i++) { 6131 final ViewHolder holder = mCachedViews.get(i); 6132 if (holder != null) { 6133 holder.addFlags(ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN); 6134 } 6135 } 6136 } 6137 markKnownViewsInvalid()6138 void markKnownViewsInvalid() { 6139 if (mAdapter != null && mAdapter.hasStableIds()) { 6140 final int cachedCount = mCachedViews.size(); 6141 for (int i = 0; i < cachedCount; i++) { 6142 final ViewHolder holder = mCachedViews.get(i); 6143 if (holder != null) { 6144 holder.addFlags(ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID); 6145 holder.addChangePayload(null); 6146 } 6147 } 6148 } else { 6149 // we cannot re-use cached views in this case. Recycle them all 6150 recycleAndClearCachedViews(); 6151 } 6152 } 6153 clearOldPositions()6154 void clearOldPositions() { 6155 final int cachedCount = mCachedViews.size(); 6156 for (int i = 0; i < cachedCount; i++) { 6157 final ViewHolder holder = mCachedViews.get(i); 6158 holder.clearOldPosition(); 6159 } 6160 final int scrapCount = mAttachedScrap.size(); 6161 for (int i = 0; i < scrapCount; i++) { 6162 mAttachedScrap.get(i).clearOldPosition(); 6163 } 6164 if (mChangedScrap != null) { 6165 final int changedScrapCount = mChangedScrap.size(); 6166 for (int i = 0; i < changedScrapCount; i++) { 6167 mChangedScrap.get(i).clearOldPosition(); 6168 } 6169 } 6170 } 6171 markItemDecorInsetsDirty()6172 void markItemDecorInsetsDirty() { 6173 final int cachedCount = mCachedViews.size(); 6174 for (int i = 0; i < cachedCount; i++) { 6175 final ViewHolder holder = mCachedViews.get(i); 6176 LayoutParams layoutParams = (LayoutParams) holder.itemView.getLayoutParams(); 6177 if (layoutParams != null) { 6178 layoutParams.mInsetsDirty = true; 6179 } 6180 } 6181 } 6182 } 6183 6184 /** 6185 * ViewCacheExtension is a helper class to provide an additional layer of view caching that can 6186 * be controlled by the developer. 6187 * <p> 6188 * When {@link Recycler#getViewForPosition(int)} is called, Recycler checks attached scrap and 6189 * first level cache to find a matching View. If it cannot find a suitable View, Recycler will 6190 * call the {@link #getViewForPositionAndType(Recycler, int, int)} before checking 6191 * {@link RecycledViewPool}. 6192 * <p> 6193 * Note that, Recycler never sends Views to this method to be cached. It is developers 6194 * responsibility to decide whether they want to keep their Views in this custom cache or let 6195 * the default recycling policy handle it. 6196 */ 6197 public abstract static class ViewCacheExtension { 6198 6199 /** 6200 * Returns a View that can be binded to the given Adapter position. 6201 * <p> 6202 * This method should <b>not</b> create a new View. Instead, it is expected to return 6203 * an already created View that can be re-used for the given type and position. 6204 * If the View is marked as ignored, it should first call 6205 * {@link LayoutManager#stopIgnoringView(View)} before returning the View. 6206 * <p> 6207 * RecyclerView will re-bind the returned View to the position if necessary. 6208 * 6209 * @param recycler The Recycler that can be used to bind the View 6210 * @param position The adapter position 6211 * @param type The type of the View, defined by adapter 6212 * @return A View that is bound to the given position or NULL if there is no View to re-use 6213 * @see LayoutManager#ignoreView(View) 6214 */ getViewForPositionAndType(Recycler recycler, int position, int type)6215 public abstract View getViewForPositionAndType(Recycler recycler, int position, int type); 6216 } 6217 6218 /** 6219 * Base class for an Adapter 6220 * 6221 * <p>Adapters provide a binding from an app-specific data set to views that are displayed 6222 * within a {@link RecyclerView}.</p> 6223 * 6224 * @param <VH> A class that extends ViewHolder that will be used by the adapter. 6225 */ 6226 public abstract static class Adapter<VH extends ViewHolder> { 6227 private final AdapterDataObservable mObservable = new AdapterDataObservable(); 6228 private boolean mHasStableIds = false; 6229 6230 /** 6231 * Called when RecyclerView needs a new {@link ViewHolder} of the given type to represent 6232 * an item. 6233 * <p> 6234 * This new ViewHolder should be constructed with a new View that can represent the items 6235 * of the given type. You can either create a new View manually or inflate it from an XML 6236 * layout file. 6237 * <p> 6238 * The new ViewHolder will be used to display items of the adapter using 6239 * {@link #onBindViewHolder(ViewHolder, int, List)}. Since it will be re-used to display 6240 * different items in the data set, it is a good idea to cache references to sub views of 6241 * the View to avoid unnecessary {@link View#findViewById(int)} calls. 6242 * 6243 * @param parent The ViewGroup into which the new View will be added after it is bound to 6244 * an adapter position. 6245 * @param viewType The view type of the new View. 6246 * 6247 * @return A new ViewHolder that holds a View of the given view type. 6248 * @see #getItemViewType(int) 6249 * @see #onBindViewHolder(ViewHolder, int) 6250 */ onCreateViewHolder(ViewGroup parent, int viewType)6251 public abstract VH onCreateViewHolder(ViewGroup parent, int viewType); 6252 6253 /** 6254 * Called by RecyclerView to display the data at the specified position. This method should 6255 * update the contents of the {@link ViewHolder#itemView} to reflect the item at the given 6256 * position. 6257 * <p> 6258 * Note that unlike {@link android.widget.ListView}, RecyclerView will not call this method 6259 * again if the position of the item changes in the data set unless the item itself is 6260 * invalidated or the new position cannot be determined. For this reason, you should only 6261 * use the <code>position</code> parameter while acquiring the related data item inside 6262 * this method and should not keep a copy of it. If you need the position of an item later 6263 * on (e.g. in a click listener), use {@link ViewHolder#getAdapterPosition()} which will 6264 * have the updated adapter position. 6265 * 6266 * Override {@link #onBindViewHolder(ViewHolder, int, List)} instead if Adapter can 6267 * handle efficient partial bind. 6268 * 6269 * @param holder The ViewHolder which should be updated to represent the contents of the 6270 * item at the given position in the data set. 6271 * @param position The position of the item within the adapter's data set. 6272 */ onBindViewHolder(VH holder, int position)6273 public abstract void onBindViewHolder(VH holder, int position); 6274 6275 /** 6276 * Called by RecyclerView to display the data at the specified position. This method 6277 * should update the contents of the {@link ViewHolder#itemView} to reflect the item at 6278 * the given position. 6279 * <p> 6280 * Note that unlike {@link android.widget.ListView}, RecyclerView will not call this method 6281 * again if the position of the item changes in the data set unless the item itself is 6282 * invalidated or the new position cannot be determined. For this reason, you should only 6283 * use the <code>position</code> parameter while acquiring the related data item inside 6284 * this method and should not keep a copy of it. If you need the position of an item later 6285 * on (e.g. in a click listener), use {@link ViewHolder#getAdapterPosition()} which will 6286 * have the updated adapter position. 6287 * <p> 6288 * Partial bind vs full bind: 6289 * <p> 6290 * The payloads parameter is a merge list from {@link #notifyItemChanged(int, Object)} or 6291 * {@link #notifyItemRangeChanged(int, int, Object)}. If the payloads list is not empty, 6292 * the ViewHolder is currently bound to old data and Adapter may run an efficient partial 6293 * update using the payload info. If the payload is empty, Adapter must run a full bind. 6294 * Adapter should not assume that the payload passed in notify methods will be received by 6295 * onBindViewHolder(). For example when the view is not attached to the screen, the 6296 * payload in notifyItemChange() will be simply dropped. 6297 * 6298 * @param holder The ViewHolder which should be updated to represent the contents of the 6299 * item at the given position in the data set. 6300 * @param position The position of the item within the adapter's data set. 6301 * @param payloads A non-null list of merged payloads. Can be empty list if requires full 6302 * update. 6303 */ onBindViewHolder(VH holder, int position, List<Object> payloads)6304 public void onBindViewHolder(VH holder, int position, List<Object> payloads) { 6305 onBindViewHolder(holder, position); 6306 } 6307 6308 /** 6309 * This method calls {@link #onCreateViewHolder(ViewGroup, int)} to create a new 6310 * {@link ViewHolder} and initializes some private fields to be used by RecyclerView. 6311 * 6312 * @see #onCreateViewHolder(ViewGroup, int) 6313 */ createViewHolder(ViewGroup parent, int viewType)6314 public final VH createViewHolder(ViewGroup parent, int viewType) { 6315 Trace.beginSection(TRACE_CREATE_VIEW_TAG); 6316 final VH holder = onCreateViewHolder(parent, viewType); 6317 holder.mItemViewType = viewType; 6318 Trace.endSection(); 6319 return holder; 6320 } 6321 6322 /** 6323 * This method internally calls {@link #onBindViewHolder(ViewHolder, int)} to update the 6324 * {@link ViewHolder} contents with the item at the given position and also sets up some 6325 * private fields to be used by RecyclerView. 6326 * 6327 * @see #onBindViewHolder(ViewHolder, int) 6328 */ bindViewHolder(VH holder, int position)6329 public final void bindViewHolder(VH holder, int position) { 6330 holder.mPosition = position; 6331 if (hasStableIds()) { 6332 holder.mItemId = getItemId(position); 6333 } 6334 holder.setFlags(ViewHolder.FLAG_BOUND, 6335 ViewHolder.FLAG_BOUND | ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID 6336 | ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN); 6337 Trace.beginSection(TRACE_BIND_VIEW_TAG); 6338 onBindViewHolder(holder, position, holder.getUnmodifiedPayloads()); 6339 holder.clearPayload(); 6340 final ViewGroup.LayoutParams layoutParams = holder.itemView.getLayoutParams(); 6341 if (layoutParams instanceof RecyclerView.LayoutParams) { 6342 ((LayoutParams) layoutParams).mInsetsDirty = true; 6343 } 6344 Trace.endSection(); 6345 } 6346 6347 /** 6348 * Return the view type of the item at <code>position</code> for the purposes 6349 * of view recycling. 6350 * 6351 * <p>The default implementation of this method returns 0, making the assumption of 6352 * a single view type for the adapter. Unlike ListView adapters, types need not 6353 * be contiguous. Consider using id resources to uniquely identify item view types. 6354 * 6355 * @param position position to query 6356 * @return integer value identifying the type of the view needed to represent the item at 6357 * <code>position</code>. Type codes need not be contiguous. 6358 */ getItemViewType(int position)6359 public int getItemViewType(int position) { 6360 return 0; 6361 } 6362 6363 /** 6364 * Indicates whether each item in the data set can be represented with a unique identifier 6365 * of type {@link java.lang.Long}. 6366 * 6367 * @param hasStableIds Whether items in data set have unique identifiers or not. 6368 * @see #hasStableIds() 6369 * @see #getItemId(int) 6370 */ setHasStableIds(boolean hasStableIds)6371 public void setHasStableIds(boolean hasStableIds) { 6372 if (hasObservers()) { 6373 throw new IllegalStateException("Cannot change whether this adapter has " 6374 + "stable IDs while the adapter has registered observers."); 6375 } 6376 mHasStableIds = hasStableIds; 6377 } 6378 6379 /** 6380 * Return the stable ID for the item at <code>position</code>. If {@link #hasStableIds()} 6381 * would return false this method should return {@link #NO_ID}. The default implementation 6382 * of this method returns {@link #NO_ID}. 6383 * 6384 * @param position Adapter position to query 6385 * @return the stable ID of the item at position 6386 */ getItemId(int position)6387 public long getItemId(int position) { 6388 return NO_ID; 6389 } 6390 6391 /** 6392 * Returns the total number of items in the data set held by the adapter. 6393 * 6394 * @return The total number of items in this adapter. 6395 */ getItemCount()6396 public abstract int getItemCount(); 6397 6398 /** 6399 * Returns true if this adapter publishes a unique <code>long</code> value that can 6400 * act as a key for the item at a given position in the data set. If that item is relocated 6401 * in the data set, the ID returned for that item should be the same. 6402 * 6403 * @return true if this adapter's items have stable IDs 6404 */ hasStableIds()6405 public final boolean hasStableIds() { 6406 return mHasStableIds; 6407 } 6408 6409 /** 6410 * Called when a view created by this adapter has been recycled. 6411 * 6412 * <p>A view is recycled when a {@link LayoutManager} decides that it no longer 6413 * needs to be attached to its parent {@link RecyclerView}. This can be because it has 6414 * fallen out of visibility or a set of cached views represented by views still 6415 * attached to the parent RecyclerView. If an item view has large or expensive data 6416 * bound to it such as large bitmaps, this may be a good place to release those 6417 * resources.</p> 6418 * <p> 6419 * RecyclerView calls this method right before clearing ViewHolder's internal data and 6420 * sending it to RecycledViewPool. This way, if ViewHolder was holding valid information 6421 * before being recycled, you can call {@link ViewHolder#getAdapterPosition()} to get 6422 * its adapter position. 6423 * 6424 * @param holder The ViewHolder for the view being recycled 6425 */ onViewRecycled(VH holder)6426 public void onViewRecycled(VH holder) { 6427 } 6428 6429 /** 6430 * Called by the RecyclerView if a ViewHolder created by this Adapter cannot be recycled 6431 * due to its transient state. Upon receiving this callback, Adapter can clear the 6432 * animation(s) that effect the View's transient state and return <code>true</code> so that 6433 * the View can be recycled. Keep in mind that the View in question is already removed from 6434 * the RecyclerView. 6435 * <p> 6436 * In some cases, it is acceptable to recycle a View although it has transient state. Most 6437 * of the time, this is a case where the transient state will be cleared in 6438 * {@link #onBindViewHolder(ViewHolder, int)} call when View is rebound to a new position. 6439 * For this reason, RecyclerView leaves the decision to the Adapter and uses the return 6440 * value of this method to decide whether the View should be recycled or not. 6441 * <p> 6442 * Note that when all animations are created by {@link RecyclerView.ItemAnimator}, you 6443 * should never receive this callback because RecyclerView keeps those Views as children 6444 * until their animations are complete. This callback is useful when children of the item 6445 * views create animations which may not be easy to implement using an {@link ItemAnimator}. 6446 * <p> 6447 * You should <em>never</em> fix this issue by calling 6448 * <code>holder.itemView.setHasTransientState(false);</code> unless you've previously called 6449 * <code>holder.itemView.setHasTransientState(true);</code>. Each 6450 * <code>View.setHasTransientState(true)</code> call must be matched by a 6451 * <code>View.setHasTransientState(false)</code> call, otherwise, the state of the View 6452 * may become inconsistent. You should always prefer to end or cancel animations that are 6453 * triggering the transient state instead of handling it manually. 6454 * 6455 * @param holder The ViewHolder containing the View that could not be recycled due to its 6456 * transient state. 6457 * @return True if the View should be recycled, false otherwise. Note that if this method 6458 * returns <code>true</code>, RecyclerView <em>will ignore</em> the transient state of 6459 * the View and recycle it regardless. If this method returns <code>false</code>, 6460 * RecyclerView will check the View's transient state again before giving a final decision. 6461 * Default implementation returns false. 6462 */ onFailedToRecycleView(VH holder)6463 public boolean onFailedToRecycleView(VH holder) { 6464 return false; 6465 } 6466 6467 /** 6468 * Called when a view created by this adapter has been attached to a window. 6469 * 6470 * <p>This can be used as a reasonable signal that the view is about to be seen 6471 * by the user. If the adapter previously freed any resources in 6472 * {@link #onViewDetachedFromWindow(RecyclerView.ViewHolder) onViewDetachedFromWindow} 6473 * those resources should be restored here.</p> 6474 * 6475 * @param holder Holder of the view being attached 6476 */ onViewAttachedToWindow(VH holder)6477 public void onViewAttachedToWindow(VH holder) { 6478 } 6479 6480 /** 6481 * Called when a view created by this adapter has been detached from its window. 6482 * 6483 * <p>Becoming detached from the window is not necessarily a permanent condition; 6484 * the consumer of an Adapter's views may choose to cache views offscreen while they 6485 * are not visible, attaching and detaching them as appropriate.</p> 6486 * 6487 * @param holder Holder of the view being detached 6488 */ onViewDetachedFromWindow(VH holder)6489 public void onViewDetachedFromWindow(VH holder) { 6490 } 6491 6492 /** 6493 * Returns true if one or more observers are attached to this adapter. 6494 * 6495 * @return true if this adapter has observers 6496 */ hasObservers()6497 public final boolean hasObservers() { 6498 return mObservable.hasObservers(); 6499 } 6500 6501 /** 6502 * Register a new observer to listen for data changes. 6503 * 6504 * <p>The adapter may publish a variety of events describing specific changes. 6505 * Not all adapters may support all change types and some may fall back to a generic 6506 * {@link com.android.internal.widget.RecyclerView.AdapterDataObserver#onChanged() 6507 * "something changed"} event if more specific data is not available.</p> 6508 * 6509 * <p>Components registering observers with an adapter are responsible for 6510 * {@link #unregisterAdapterDataObserver(RecyclerView.AdapterDataObserver) 6511 * unregistering} those observers when finished.</p> 6512 * 6513 * @param observer Observer to register 6514 * 6515 * @see #unregisterAdapterDataObserver(RecyclerView.AdapterDataObserver) 6516 */ registerAdapterDataObserver(AdapterDataObserver observer)6517 public void registerAdapterDataObserver(AdapterDataObserver observer) { 6518 mObservable.registerObserver(observer); 6519 } 6520 6521 /** 6522 * Unregister an observer currently listening for data changes. 6523 * 6524 * <p>The unregistered observer will no longer receive events about changes 6525 * to the adapter.</p> 6526 * 6527 * @param observer Observer to unregister 6528 * 6529 * @see #registerAdapterDataObserver(RecyclerView.AdapterDataObserver) 6530 */ unregisterAdapterDataObserver(AdapterDataObserver observer)6531 public void unregisterAdapterDataObserver(AdapterDataObserver observer) { 6532 mObservable.unregisterObserver(observer); 6533 } 6534 6535 /** 6536 * Called by RecyclerView when it starts observing this Adapter. 6537 * <p> 6538 * Keep in mind that same adapter may be observed by multiple RecyclerViews. 6539 * 6540 * @param recyclerView The RecyclerView instance which started observing this adapter. 6541 * @see #onDetachedFromRecyclerView(RecyclerView) 6542 */ onAttachedToRecyclerView(RecyclerView recyclerView)6543 public void onAttachedToRecyclerView(RecyclerView recyclerView) { 6544 } 6545 6546 /** 6547 * Called by RecyclerView when it stops observing this Adapter. 6548 * 6549 * @param recyclerView The RecyclerView instance which stopped observing this adapter. 6550 * @see #onAttachedToRecyclerView(RecyclerView) 6551 */ onDetachedFromRecyclerView(RecyclerView recyclerView)6552 public void onDetachedFromRecyclerView(RecyclerView recyclerView) { 6553 } 6554 6555 /** 6556 * Notify any registered observers that the data set has changed. 6557 * 6558 * <p>There are two different classes of data change events, item changes and structural 6559 * changes. Item changes are when a single item has its data updated but no positional 6560 * changes have occurred. Structural changes are when items are inserted, removed or moved 6561 * within the data set.</p> 6562 * 6563 * <p>This event does not specify what about the data set has changed, forcing 6564 * any observers to assume that all existing items and structure may no longer be valid. 6565 * LayoutManagers will be forced to fully rebind and relayout all visible views.</p> 6566 * 6567 * <p><code>RecyclerView</code> will attempt to synthesize visible structural change events 6568 * for adapters that report that they have {@link #hasStableIds() stable IDs} when 6569 * this method is used. This can help for the purposes of animation and visual 6570 * object persistence but individual item views will still need to be rebound 6571 * and relaid out.</p> 6572 * 6573 * <p>If you are writing an adapter it will always be more efficient to use the more 6574 * specific change events if you can. Rely on <code>notifyDataSetChanged()</code> 6575 * as a last resort.</p> 6576 * 6577 * @see #notifyItemChanged(int) 6578 * @see #notifyItemInserted(int) 6579 * @see #notifyItemRemoved(int) 6580 * @see #notifyItemRangeChanged(int, int) 6581 * @see #notifyItemRangeInserted(int, int) 6582 * @see #notifyItemRangeRemoved(int, int) 6583 */ notifyDataSetChanged()6584 public final void notifyDataSetChanged() { 6585 mObservable.notifyChanged(); 6586 } 6587 6588 /** 6589 * Notify any registered observers that the item at <code>position</code> has changed. 6590 * Equivalent to calling <code>notifyItemChanged(position, null);</code>. 6591 * 6592 * <p>This is an item change event, not a structural change event. It indicates that any 6593 * reflection of the data at <code>position</code> is out of date and should be updated. 6594 * The item at <code>position</code> retains the same identity.</p> 6595 * 6596 * @param position Position of the item that has changed 6597 * 6598 * @see #notifyItemRangeChanged(int, int) 6599 */ notifyItemChanged(int position)6600 public final void notifyItemChanged(int position) { 6601 mObservable.notifyItemRangeChanged(position, 1); 6602 } 6603 6604 /** 6605 * Notify any registered observers that the item at <code>position</code> has changed with 6606 * an optional payload object. 6607 * 6608 * <p>This is an item change event, not a structural change event. It indicates that any 6609 * reflection of the data at <code>position</code> is out of date and should be updated. 6610 * The item at <code>position</code> retains the same identity. 6611 * </p> 6612 * 6613 * <p> 6614 * Client can optionally pass a payload for partial change. These payloads will be merged 6615 * and may be passed to adapter's {@link #onBindViewHolder(ViewHolder, int, List)} if the 6616 * item is already represented by a ViewHolder and it will be rebound to the same 6617 * ViewHolder. A notifyItemRangeChanged() with null payload will clear all existing 6618 * payloads on that item and prevent future payload until 6619 * {@link #onBindViewHolder(ViewHolder, int, List)} is called. Adapter should not assume 6620 * that the payload will always be passed to onBindViewHolder(), e.g. when the view is not 6621 * attached, the payload will be simply dropped. 6622 * 6623 * @param position Position of the item that has changed 6624 * @param payload Optional parameter, use null to identify a "full" update 6625 * 6626 * @see #notifyItemRangeChanged(int, int) 6627 */ notifyItemChanged(int position, Object payload)6628 public final void notifyItemChanged(int position, Object payload) { 6629 mObservable.notifyItemRangeChanged(position, 1, payload); 6630 } 6631 6632 /** 6633 * Notify any registered observers that the <code>itemCount</code> items starting at 6634 * position <code>positionStart</code> have changed. 6635 * Equivalent to calling <code>notifyItemRangeChanged(position, itemCount, null);</code>. 6636 * 6637 * <p>This is an item change event, not a structural change event. It indicates that 6638 * any reflection of the data in the given position range is out of date and should 6639 * be updated. The items in the given range retain the same identity.</p> 6640 * 6641 * @param positionStart Position of the first item that has changed 6642 * @param itemCount Number of items that have changed 6643 * 6644 * @see #notifyItemChanged(int) 6645 */ notifyItemRangeChanged(int positionStart, int itemCount)6646 public final void notifyItemRangeChanged(int positionStart, int itemCount) { 6647 mObservable.notifyItemRangeChanged(positionStart, itemCount); 6648 } 6649 6650 /** 6651 * Notify any registered observers that the <code>itemCount</code> items starting at 6652 * position <code>positionStart</code> have changed. An optional payload can be 6653 * passed to each changed item. 6654 * 6655 * <p>This is an item change event, not a structural change event. It indicates that any 6656 * reflection of the data in the given position range is out of date and should be updated. 6657 * The items in the given range retain the same identity. 6658 * </p> 6659 * 6660 * <p> 6661 * Client can optionally pass a payload for partial change. These payloads will be merged 6662 * and may be passed to adapter's {@link #onBindViewHolder(ViewHolder, int, List)} if the 6663 * item is already represented by a ViewHolder and it will be rebound to the same 6664 * ViewHolder. A notifyItemRangeChanged() with null payload will clear all existing 6665 * payloads on that item and prevent future payload until 6666 * {@link #onBindViewHolder(ViewHolder, int, List)} is called. Adapter should not assume 6667 * that the payload will always be passed to onBindViewHolder(), e.g. when the view is not 6668 * attached, the payload will be simply dropped. 6669 * 6670 * @param positionStart Position of the first item that has changed 6671 * @param itemCount Number of items that have changed 6672 * @param payload Optional parameter, use null to identify a "full" update 6673 * 6674 * @see #notifyItemChanged(int) 6675 */ notifyItemRangeChanged(int positionStart, int itemCount, Object payload)6676 public final void notifyItemRangeChanged(int positionStart, int itemCount, Object payload) { 6677 mObservable.notifyItemRangeChanged(positionStart, itemCount, payload); 6678 } 6679 6680 /** 6681 * Notify any registered observers that the item reflected at <code>position</code> 6682 * has been newly inserted. The item previously at <code>position</code> is now at 6683 * position <code>position + 1</code>. 6684 * 6685 * <p>This is a structural change event. Representations of other existing items in the 6686 * data set are still considered up to date and will not be rebound, though their 6687 * positions may be altered.</p> 6688 * 6689 * @param position Position of the newly inserted item in the data set 6690 * 6691 * @see #notifyItemRangeInserted(int, int) 6692 */ notifyItemInserted(int position)6693 public final void notifyItemInserted(int position) { 6694 mObservable.notifyItemRangeInserted(position, 1); 6695 } 6696 6697 /** 6698 * Notify any registered observers that the item reflected at <code>fromPosition</code> 6699 * has been moved to <code>toPosition</code>. 6700 * 6701 * <p>This is a structural change event. Representations of other existing items in the 6702 * data set are still considered up to date and will not be rebound, though their 6703 * positions may be altered.</p> 6704 * 6705 * @param fromPosition Previous position of the item. 6706 * @param toPosition New position of the item. 6707 */ notifyItemMoved(int fromPosition, int toPosition)6708 public final void notifyItemMoved(int fromPosition, int toPosition) { 6709 mObservable.notifyItemMoved(fromPosition, toPosition); 6710 } 6711 6712 /** 6713 * Notify any registered observers that the currently reflected <code>itemCount</code> 6714 * items starting at <code>positionStart</code> have been newly inserted. The items 6715 * previously located at <code>positionStart</code> and beyond can now be found starting 6716 * at position <code>positionStart + itemCount</code>. 6717 * 6718 * <p>This is a structural change event. Representations of other existing items in the 6719 * data set are still considered up to date and will not be rebound, though their positions 6720 * may be altered.</p> 6721 * 6722 * @param positionStart Position of the first item that was inserted 6723 * @param itemCount Number of items inserted 6724 * 6725 * @see #notifyItemInserted(int) 6726 */ notifyItemRangeInserted(int positionStart, int itemCount)6727 public final void notifyItemRangeInserted(int positionStart, int itemCount) { 6728 mObservable.notifyItemRangeInserted(positionStart, itemCount); 6729 } 6730 6731 /** 6732 * Notify any registered observers that the item previously located at <code>position</code> 6733 * has been removed from the data set. The items previously located at and after 6734 * <code>position</code> may now be found at <code>oldPosition - 1</code>. 6735 * 6736 * <p>This is a structural change event. Representations of other existing items in the 6737 * data set are still considered up to date and will not be rebound, though their positions 6738 * may be altered.</p> 6739 * 6740 * @param position Position of the item that has now been removed 6741 * 6742 * @see #notifyItemRangeRemoved(int, int) 6743 */ notifyItemRemoved(int position)6744 public final void notifyItemRemoved(int position) { 6745 mObservable.notifyItemRangeRemoved(position, 1); 6746 } 6747 6748 /** 6749 * Notify any registered observers that the <code>itemCount</code> items previously 6750 * located at <code>positionStart</code> have been removed from the data set. The items 6751 * previously located at and after <code>positionStart + itemCount</code> may now be found 6752 * at <code>oldPosition - itemCount</code>. 6753 * 6754 * <p>This is a structural change event. Representations of other existing items in the data 6755 * set are still considered up to date and will not be rebound, though their positions 6756 * may be altered.</p> 6757 * 6758 * @param positionStart Previous position of the first item that was removed 6759 * @param itemCount Number of items removed from the data set 6760 */ notifyItemRangeRemoved(int positionStart, int itemCount)6761 public final void notifyItemRangeRemoved(int positionStart, int itemCount) { 6762 mObservable.notifyItemRangeRemoved(positionStart, itemCount); 6763 } 6764 } 6765 dispatchChildDetached(View child)6766 void dispatchChildDetached(View child) { 6767 final ViewHolder viewHolder = getChildViewHolderInt(child); 6768 onChildDetachedFromWindow(child); 6769 if (mAdapter != null && viewHolder != null) { 6770 mAdapter.onViewDetachedFromWindow(viewHolder); 6771 } 6772 if (mOnChildAttachStateListeners != null) { 6773 final int cnt = mOnChildAttachStateListeners.size(); 6774 for (int i = cnt - 1; i >= 0; i--) { 6775 mOnChildAttachStateListeners.get(i).onChildViewDetachedFromWindow(child); 6776 } 6777 } 6778 } 6779 dispatchChildAttached(View child)6780 void dispatchChildAttached(View child) { 6781 final ViewHolder viewHolder = getChildViewHolderInt(child); 6782 onChildAttachedToWindow(child); 6783 if (mAdapter != null && viewHolder != null) { 6784 mAdapter.onViewAttachedToWindow(viewHolder); 6785 } 6786 if (mOnChildAttachStateListeners != null) { 6787 final int cnt = mOnChildAttachStateListeners.size(); 6788 for (int i = cnt - 1; i >= 0; i--) { 6789 mOnChildAttachStateListeners.get(i).onChildViewAttachedToWindow(child); 6790 } 6791 } 6792 } 6793 6794 /** 6795 * A <code>LayoutManager</code> is responsible for measuring and positioning item views 6796 * within a <code>RecyclerView</code> as well as determining the policy for when to recycle 6797 * item views that are no longer visible to the user. By changing the <code>LayoutManager</code> 6798 * a <code>RecyclerView</code> can be used to implement a standard vertically scrolling list, 6799 * a uniform grid, staggered grids, horizontally scrolling collections and more. Several stock 6800 * layout managers are provided for general use. 6801 * <p/> 6802 * If the LayoutManager specifies a default constructor or one with the signature 6803 * ({@link Context}, {@link AttributeSet}, {@code int}, {@code int}), RecyclerView will 6804 * instantiate and set the LayoutManager when being inflated. Most used properties can 6805 * be then obtained from {@link #getProperties(Context, AttributeSet, int, int)}. In case 6806 * a LayoutManager specifies both constructors, the non-default constructor will take 6807 * precedence. 6808 * 6809 */ 6810 public abstract static class LayoutManager { 6811 ChildHelper mChildHelper; 6812 RecyclerView mRecyclerView; 6813 6814 @Nullable 6815 SmoothScroller mSmoothScroller; 6816 6817 boolean mRequestedSimpleAnimations = false; 6818 6819 boolean mIsAttachedToWindow = false; 6820 6821 boolean mAutoMeasure = false; 6822 6823 /** 6824 * LayoutManager has its own more strict measurement cache to avoid re-measuring a child 6825 * if the space that will be given to it is already larger than what it has measured before. 6826 */ 6827 private boolean mMeasurementCacheEnabled = true; 6828 6829 private boolean mItemPrefetchEnabled = true; 6830 6831 /** 6832 * Written by {@link GapWorker} when prefetches occur to track largest number of view ever 6833 * requested by a {@link #collectInitialPrefetchPositions(int, LayoutPrefetchRegistry)} or 6834 * {@link #collectAdjacentPrefetchPositions(int, int, State, LayoutPrefetchRegistry)} call. 6835 * 6836 * If expanded by a {@link #collectInitialPrefetchPositions(int, LayoutPrefetchRegistry)}, 6837 * will be reset upon layout to prevent initial prefetches (often large, since they're 6838 * proportional to expected child count) from expanding cache permanently. 6839 */ 6840 int mPrefetchMaxCountObserved; 6841 6842 /** 6843 * If true, mPrefetchMaxCountObserved is only valid until next layout, and should be reset. 6844 */ 6845 boolean mPrefetchMaxObservedInInitialPrefetch; 6846 6847 /** 6848 * These measure specs might be the measure specs that were passed into RecyclerView's 6849 * onMeasure method OR fake measure specs created by the RecyclerView. 6850 * For example, when a layout is run, RecyclerView always sets these specs to be 6851 * EXACTLY because a LayoutManager cannot resize RecyclerView during a layout pass. 6852 * <p> 6853 * Also, to be able to use the hint in unspecified measure specs, RecyclerView checks the 6854 * API level and sets the size to 0 pre-M to avoid any issue that might be caused by 6855 * corrupt values. Older platforms have no responsibility to provide a size if they set 6856 * mode to unspecified. 6857 */ 6858 private int mWidthMode, mHeightMode; 6859 private int mWidth, mHeight; 6860 6861 6862 /** 6863 * Interface for LayoutManagers to request items to be prefetched, based on position, with 6864 * specified distance from viewport, which indicates priority. 6865 * 6866 * @see LayoutManager#collectAdjacentPrefetchPositions(int, int, State, LayoutPrefetchRegistry) 6867 * @see LayoutManager#collectInitialPrefetchPositions(int, LayoutPrefetchRegistry) 6868 */ 6869 public interface LayoutPrefetchRegistry { 6870 /** 6871 * Requests an an item to be prefetched, based on position, with a specified distance, 6872 * indicating priority. 6873 * 6874 * @param layoutPosition Position of the item to prefetch. 6875 * @param pixelDistance Distance from the current viewport to the bounds of the item, 6876 * must be non-negative. 6877 */ addPosition(int layoutPosition, int pixelDistance)6878 void addPosition(int layoutPosition, int pixelDistance); 6879 } 6880 setRecyclerView(RecyclerView recyclerView)6881 void setRecyclerView(RecyclerView recyclerView) { 6882 if (recyclerView == null) { 6883 mRecyclerView = null; 6884 mChildHelper = null; 6885 mWidth = 0; 6886 mHeight = 0; 6887 } else { 6888 mRecyclerView = recyclerView; 6889 mChildHelper = recyclerView.mChildHelper; 6890 mWidth = recyclerView.getWidth(); 6891 mHeight = recyclerView.getHeight(); 6892 } 6893 mWidthMode = MeasureSpec.EXACTLY; 6894 mHeightMode = MeasureSpec.EXACTLY; 6895 } 6896 setMeasureSpecs(int wSpec, int hSpec)6897 void setMeasureSpecs(int wSpec, int hSpec) { 6898 mWidth = MeasureSpec.getSize(wSpec); 6899 mWidthMode = MeasureSpec.getMode(wSpec); 6900 if (mWidthMode == MeasureSpec.UNSPECIFIED && !ALLOW_SIZE_IN_UNSPECIFIED_SPEC) { 6901 mWidth = 0; 6902 } 6903 6904 mHeight = MeasureSpec.getSize(hSpec); 6905 mHeightMode = MeasureSpec.getMode(hSpec); 6906 if (mHeightMode == MeasureSpec.UNSPECIFIED && !ALLOW_SIZE_IN_UNSPECIFIED_SPEC) { 6907 mHeight = 0; 6908 } 6909 } 6910 6911 /** 6912 * Called after a layout is calculated during a measure pass when using auto-measure. 6913 * <p> 6914 * It simply traverses all children to calculate a bounding box then calls 6915 * {@link #setMeasuredDimension(Rect, int, int)}. LayoutManagers can override that method 6916 * if they need to handle the bounding box differently. 6917 * <p> 6918 * For example, GridLayoutManager override that method to ensure that even if a column is 6919 * empty, the GridLayoutManager still measures wide enough to include it. 6920 * 6921 * @param widthSpec The widthSpec that was passing into RecyclerView's onMeasure 6922 * @param heightSpec The heightSpec that was passing into RecyclerView's onMeasure 6923 */ setMeasuredDimensionFromChildren(int widthSpec, int heightSpec)6924 void setMeasuredDimensionFromChildren(int widthSpec, int heightSpec) { 6925 final int count = getChildCount(); 6926 if (count == 0) { 6927 mRecyclerView.defaultOnMeasure(widthSpec, heightSpec); 6928 return; 6929 } 6930 int minX = Integer.MAX_VALUE; 6931 int minY = Integer.MAX_VALUE; 6932 int maxX = Integer.MIN_VALUE; 6933 int maxY = Integer.MIN_VALUE; 6934 6935 for (int i = 0; i < count; i++) { 6936 View child = getChildAt(i); 6937 final Rect bounds = mRecyclerView.mTempRect; 6938 getDecoratedBoundsWithMargins(child, bounds); 6939 if (bounds.left < minX) { 6940 minX = bounds.left; 6941 } 6942 if (bounds.right > maxX) { 6943 maxX = bounds.right; 6944 } 6945 if (bounds.top < minY) { 6946 minY = bounds.top; 6947 } 6948 if (bounds.bottom > maxY) { 6949 maxY = bounds.bottom; 6950 } 6951 } 6952 mRecyclerView.mTempRect.set(minX, minY, maxX, maxY); 6953 setMeasuredDimension(mRecyclerView.mTempRect, widthSpec, heightSpec); 6954 } 6955 6956 /** 6957 * Sets the measured dimensions from the given bounding box of the children and the 6958 * measurement specs that were passed into {@link RecyclerView#onMeasure(int, int)}. It is 6959 * called after the RecyclerView calls 6960 * {@link LayoutManager#onLayoutChildren(Recycler, State)} during a measurement pass. 6961 * <p> 6962 * This method should call {@link #setMeasuredDimension(int, int)}. 6963 * <p> 6964 * The default implementation adds the RecyclerView's padding to the given bounding box 6965 * then caps the value to be within the given measurement specs. 6966 * <p> 6967 * This method is only called if the LayoutManager opted into the auto measurement API. 6968 * 6969 * @param childrenBounds The bounding box of all children 6970 * @param wSpec The widthMeasureSpec that was passed into the RecyclerView. 6971 * @param hSpec The heightMeasureSpec that was passed into the RecyclerView. 6972 * 6973 * @see #setAutoMeasureEnabled(boolean) 6974 */ setMeasuredDimension(Rect childrenBounds, int wSpec, int hSpec)6975 public void setMeasuredDimension(Rect childrenBounds, int wSpec, int hSpec) { 6976 int usedWidth = childrenBounds.width() + getPaddingLeft() + getPaddingRight(); 6977 int usedHeight = childrenBounds.height() + getPaddingTop() + getPaddingBottom(); 6978 int width = chooseSize(wSpec, usedWidth, getMinimumWidth()); 6979 int height = chooseSize(hSpec, usedHeight, getMinimumHeight()); 6980 setMeasuredDimension(width, height); 6981 } 6982 6983 /** 6984 * Calls {@code RecyclerView#requestLayout} on the underlying RecyclerView 6985 */ requestLayout()6986 public void requestLayout() { 6987 if (mRecyclerView != null) { 6988 mRecyclerView.requestLayout(); 6989 } 6990 } 6991 6992 /** 6993 * Checks if RecyclerView is in the middle of a layout or scroll and throws an 6994 * {@link IllegalStateException} if it <b>is not</b>. 6995 * 6996 * @param message The message for the exception. Can be null. 6997 * @see #assertNotInLayoutOrScroll(String) 6998 */ assertInLayoutOrScroll(String message)6999 public void assertInLayoutOrScroll(String message) { 7000 if (mRecyclerView != null) { 7001 mRecyclerView.assertInLayoutOrScroll(message); 7002 } 7003 } 7004 7005 /** 7006 * Chooses a size from the given specs and parameters that is closest to the desired size 7007 * and also complies with the spec. 7008 * 7009 * @param spec The measureSpec 7010 * @param desired The preferred measurement 7011 * @param min The minimum value 7012 * 7013 * @return A size that fits to the given specs 7014 */ chooseSize(int spec, int desired, int min)7015 public static int chooseSize(int spec, int desired, int min) { 7016 final int mode = View.MeasureSpec.getMode(spec); 7017 final int size = View.MeasureSpec.getSize(spec); 7018 switch (mode) { 7019 case View.MeasureSpec.EXACTLY: 7020 return size; 7021 case View.MeasureSpec.AT_MOST: 7022 return Math.min(size, Math.max(desired, min)); 7023 case View.MeasureSpec.UNSPECIFIED: 7024 default: 7025 return Math.max(desired, min); 7026 } 7027 } 7028 7029 /** 7030 * Checks if RecyclerView is in the middle of a layout or scroll and throws an 7031 * {@link IllegalStateException} if it <b>is</b>. 7032 * 7033 * @param message The message for the exception. Can be null. 7034 * @see #assertInLayoutOrScroll(String) 7035 */ assertNotInLayoutOrScroll(String message)7036 public void assertNotInLayoutOrScroll(String message) { 7037 if (mRecyclerView != null) { 7038 mRecyclerView.assertNotInLayoutOrScroll(message); 7039 } 7040 } 7041 7042 /** 7043 * Defines whether the layout should be measured by the RecyclerView or the LayoutManager 7044 * wants to handle the layout measurements itself. 7045 * <p> 7046 * This method is usually called by the LayoutManager with value {@code true} if it wants 7047 * to support WRAP_CONTENT. If you are using a public LayoutManager but want to customize 7048 * the measurement logic, you can call this method with {@code false} and override 7049 * {@link LayoutManager#onMeasure(int, int)} to implement your custom measurement logic. 7050 * <p> 7051 * AutoMeasure is a convenience mechanism for LayoutManagers to easily wrap their content or 7052 * handle various specs provided by the RecyclerView's parent. 7053 * It works by calling {@link LayoutManager#onLayoutChildren(Recycler, State)} during an 7054 * {@link RecyclerView#onMeasure(int, int)} call, then calculating desired dimensions based 7055 * on children's positions. It does this while supporting all existing animation 7056 * capabilities of the RecyclerView. 7057 * <p> 7058 * AutoMeasure works as follows: 7059 * <ol> 7060 * <li>LayoutManager should call {@code setAutoMeasureEnabled(true)} to enable it. All of 7061 * the framework LayoutManagers use {@code auto-measure}.</li> 7062 * <li>When {@link RecyclerView#onMeasure(int, int)} is called, if the provided specs are 7063 * exact, RecyclerView will only call LayoutManager's {@code onMeasure} and return without 7064 * doing any layout calculation.</li> 7065 * <li>If one of the layout specs is not {@code EXACT}, the RecyclerView will start the 7066 * layout process in {@code onMeasure} call. It will process all pending Adapter updates and 7067 * decide whether to run a predictive layout or not. If it decides to do so, it will first 7068 * call {@link #onLayoutChildren(Recycler, State)} with {@link State#isPreLayout()} set to 7069 * {@code true}. At this stage, {@link #getWidth()} and {@link #getHeight()} will still 7070 * return the width and height of the RecyclerView as of the last layout calculation. 7071 * <p> 7072 * After handling the predictive case, RecyclerView will call 7073 * {@link #onLayoutChildren(Recycler, State)} with {@link State#isMeasuring()} set to 7074 * {@code true} and {@link State#isPreLayout()} set to {@code false}. The LayoutManager can 7075 * access the measurement specs via {@link #getHeight()}, {@link #getHeightMode()}, 7076 * {@link #getWidth()} and {@link #getWidthMode()}.</li> 7077 * <li>After the layout calculation, RecyclerView sets the measured width & height by 7078 * calculating the bounding box for the children (+ RecyclerView's padding). The 7079 * LayoutManagers can override {@link #setMeasuredDimension(Rect, int, int)} to choose 7080 * different values. For instance, GridLayoutManager overrides this value to handle the case 7081 * where if it is vertical and has 3 columns but only 2 items, it should still measure its 7082 * width to fit 3 items, not 2.</li> 7083 * <li>Any following on measure call to the RecyclerView will run 7084 * {@link #onLayoutChildren(Recycler, State)} with {@link State#isMeasuring()} set to 7085 * {@code true} and {@link State#isPreLayout()} set to {@code false}. RecyclerView will 7086 * take care of which views are actually added / removed / moved / changed for animations so 7087 * that the LayoutManager should not worry about them and handle each 7088 * {@link #onLayoutChildren(Recycler, State)} call as if it is the last one. 7089 * </li> 7090 * <li>When measure is complete and RecyclerView's 7091 * {@link #onLayout(boolean, int, int, int, int)} method is called, RecyclerView checks 7092 * whether it already did layout calculations during the measure pass and if so, it re-uses 7093 * that information. It may still decide to call {@link #onLayoutChildren(Recycler, State)} 7094 * if the last measure spec was different from the final dimensions or adapter contents 7095 * have changed between the measure call and the layout call.</li> 7096 * <li>Finally, animations are calculated and run as usual.</li> 7097 * </ol> 7098 * 7099 * @param enabled <code>True</code> if the Layout should be measured by the 7100 * RecyclerView, <code>false</code> if the LayoutManager wants 7101 * to measure itself. 7102 * 7103 * @see #setMeasuredDimension(Rect, int, int) 7104 * @see #isAutoMeasureEnabled() 7105 */ setAutoMeasureEnabled(boolean enabled)7106 public void setAutoMeasureEnabled(boolean enabled) { 7107 mAutoMeasure = enabled; 7108 } 7109 7110 /** 7111 * Returns whether the LayoutManager uses the automatic measurement API or not. 7112 * 7113 * @return <code>True</code> if the LayoutManager is measured by the RecyclerView or 7114 * <code>false</code> if it measures itself. 7115 * 7116 * @see #setAutoMeasureEnabled(boolean) 7117 */ isAutoMeasureEnabled()7118 public boolean isAutoMeasureEnabled() { 7119 return mAutoMeasure; 7120 } 7121 7122 /** 7123 * Returns whether this LayoutManager supports automatic item animations. 7124 * A LayoutManager wishing to support item animations should obey certain 7125 * rules as outlined in {@link #onLayoutChildren(Recycler, State)}. 7126 * The default return value is <code>false</code>, so subclasses of LayoutManager 7127 * will not get predictive item animations by default. 7128 * 7129 * <p>Whether item animations are enabled in a RecyclerView is determined both 7130 * by the return value from this method and the 7131 * {@link RecyclerView#setItemAnimator(ItemAnimator) ItemAnimator} set on the 7132 * RecyclerView itself. If the RecyclerView has a non-null ItemAnimator but this 7133 * method returns false, then simple item animations will be enabled, in which 7134 * views that are moving onto or off of the screen are simply faded in/out. If 7135 * the RecyclerView has a non-null ItemAnimator and this method returns true, 7136 * then there will be two calls to {@link #onLayoutChildren(Recycler, State)} to 7137 * setup up the information needed to more intelligently predict where appearing 7138 * and disappearing views should be animated from/to.</p> 7139 * 7140 * @return true if predictive item animations should be enabled, false otherwise 7141 */ supportsPredictiveItemAnimations()7142 public boolean supportsPredictiveItemAnimations() { 7143 return false; 7144 } 7145 7146 /** 7147 * Sets whether the LayoutManager should be queried for views outside of 7148 * its viewport while the UI thread is idle between frames. 7149 * 7150 * <p>If enabled, the LayoutManager will be queried for items to inflate/bind in between 7151 * view system traversals on devices running API 21 or greater. Default value is true.</p> 7152 * 7153 * <p>On platforms API level 21 and higher, the UI thread is idle between passing a frame 7154 * to RenderThread and the starting up its next frame at the next VSync pulse. By 7155 * prefetching out of window views in this time period, delays from inflation and view 7156 * binding are much less likely to cause jank and stuttering during scrolls and flings.</p> 7157 * 7158 * <p>While prefetch is enabled, it will have the side effect of expanding the effective 7159 * size of the View cache to hold prefetched views.</p> 7160 * 7161 * @param enabled <code>True</code> if items should be prefetched in between traversals. 7162 * 7163 * @see #isItemPrefetchEnabled() 7164 */ setItemPrefetchEnabled(boolean enabled)7165 public final void setItemPrefetchEnabled(boolean enabled) { 7166 if (enabled != mItemPrefetchEnabled) { 7167 mItemPrefetchEnabled = enabled; 7168 mPrefetchMaxCountObserved = 0; 7169 if (mRecyclerView != null) { 7170 mRecyclerView.mRecycler.updateViewCacheSize(); 7171 } 7172 } 7173 } 7174 7175 /** 7176 * Sets whether the LayoutManager should be queried for views outside of 7177 * its viewport while the UI thread is idle between frames. 7178 * 7179 * @see #setItemPrefetchEnabled(boolean) 7180 * 7181 * @return true if item prefetch is enabled, false otherwise 7182 */ isItemPrefetchEnabled()7183 public final boolean isItemPrefetchEnabled() { 7184 return mItemPrefetchEnabled; 7185 } 7186 7187 /** 7188 * Gather all positions from the LayoutManager to be prefetched, given specified momentum. 7189 * 7190 * <p>If item prefetch is enabled, this method is called in between traversals to gather 7191 * which positions the LayoutManager will soon need, given upcoming movement in subsequent 7192 * traversals.</p> 7193 * 7194 * <p>The LayoutManager should call {@link LayoutPrefetchRegistry#addPosition(int, int)} for 7195 * each item to be prepared, and these positions will have their ViewHolders created and 7196 * bound, if there is sufficient time available, in advance of being needed by a 7197 * scroll or layout.</p> 7198 * 7199 * @param dx X movement component. 7200 * @param dy Y movement component. 7201 * @param state State of RecyclerView 7202 * @param layoutPrefetchRegistry PrefetchRegistry to add prefetch entries into. 7203 * 7204 * @see #isItemPrefetchEnabled() 7205 * @see #collectInitialPrefetchPositions(int, LayoutPrefetchRegistry) 7206 */ collectAdjacentPrefetchPositions(int dx, int dy, State state, LayoutPrefetchRegistry layoutPrefetchRegistry)7207 public void collectAdjacentPrefetchPositions(int dx, int dy, State state, 7208 LayoutPrefetchRegistry layoutPrefetchRegistry) {} 7209 7210 /** 7211 * Gather all positions from the LayoutManager to be prefetched in preperation for its 7212 * RecyclerView to come on screen, due to the movement of another, containing RecyclerView. 7213 * 7214 * <p>This method is only called when a RecyclerView is nested in another RecyclerView.</p> 7215 * 7216 * <p>If item prefetch is enabled for this LayoutManager, as well in another containing 7217 * LayoutManager, this method is called in between draw traversals to gather 7218 * which positions this LayoutManager will first need, once it appears on the screen.</p> 7219 * 7220 * <p>For example, if this LayoutManager represents a horizontally scrolling list within a 7221 * vertically scrolling LayoutManager, this method would be called when the horizontal list 7222 * is about to come onscreen.</p> 7223 * 7224 * <p>The LayoutManager should call {@link LayoutPrefetchRegistry#addPosition(int, int)} for 7225 * each item to be prepared, and these positions will have their ViewHolders created and 7226 * bound, if there is sufficient time available, in advance of being needed by a 7227 * scroll or layout.</p> 7228 * 7229 * @param adapterItemCount number of items in the associated adapter. 7230 * @param layoutPrefetchRegistry PrefetchRegistry to add prefetch entries into. 7231 * 7232 * @see #isItemPrefetchEnabled() 7233 * @see #collectAdjacentPrefetchPositions(int, int, State, LayoutPrefetchRegistry) 7234 */ collectInitialPrefetchPositions(int adapterItemCount, LayoutPrefetchRegistry layoutPrefetchRegistry)7235 public void collectInitialPrefetchPositions(int adapterItemCount, 7236 LayoutPrefetchRegistry layoutPrefetchRegistry) {} 7237 dispatchAttachedToWindow(RecyclerView view)7238 void dispatchAttachedToWindow(RecyclerView view) { 7239 mIsAttachedToWindow = true; 7240 onAttachedToWindow(view); 7241 } 7242 dispatchDetachedFromWindow(RecyclerView view, Recycler recycler)7243 void dispatchDetachedFromWindow(RecyclerView view, Recycler recycler) { 7244 mIsAttachedToWindow = false; 7245 onDetachedFromWindow(view, recycler); 7246 } 7247 7248 /** 7249 * Returns whether LayoutManager is currently attached to a RecyclerView which is attached 7250 * to a window. 7251 * 7252 * @return True if this LayoutManager is controlling a RecyclerView and the RecyclerView 7253 * is attached to window. 7254 */ isAttachedToWindow()7255 public boolean isAttachedToWindow() { 7256 return mIsAttachedToWindow; 7257 } 7258 7259 /** 7260 * Causes the Runnable to execute on the next animation time step. 7261 * The runnable will be run on the user interface thread. 7262 * <p> 7263 * Calling this method when LayoutManager is not attached to a RecyclerView has no effect. 7264 * 7265 * @param action The Runnable that will be executed. 7266 * 7267 * @see #removeCallbacks 7268 */ postOnAnimation(Runnable action)7269 public void postOnAnimation(Runnable action) { 7270 if (mRecyclerView != null) { 7271 mRecyclerView.postOnAnimation(action); 7272 } 7273 } 7274 7275 /** 7276 * Removes the specified Runnable from the message queue. 7277 * <p> 7278 * Calling this method when LayoutManager is not attached to a RecyclerView has no effect. 7279 * 7280 * @param action The Runnable to remove from the message handling queue 7281 * 7282 * @return true if RecyclerView could ask the Handler to remove the Runnable, 7283 * false otherwise. When the returned value is true, the Runnable 7284 * may or may not have been actually removed from the message queue 7285 * (for instance, if the Runnable was not in the queue already.) 7286 * 7287 * @see #postOnAnimation 7288 */ removeCallbacks(Runnable action)7289 public boolean removeCallbacks(Runnable action) { 7290 if (mRecyclerView != null) { 7291 return mRecyclerView.removeCallbacks(action); 7292 } 7293 return false; 7294 } 7295 /** 7296 * Called when this LayoutManager is both attached to a RecyclerView and that RecyclerView 7297 * is attached to a window. 7298 * <p> 7299 * If the RecyclerView is re-attached with the same LayoutManager and Adapter, it may not 7300 * call {@link #onLayoutChildren(Recycler, State)} if nothing has changed and a layout was 7301 * not requested on the RecyclerView while it was detached. 7302 * <p> 7303 * Subclass implementations should always call through to the superclass implementation. 7304 * 7305 * @param view The RecyclerView this LayoutManager is bound to 7306 * 7307 * @see #onDetachedFromWindow(RecyclerView, Recycler) 7308 */ 7309 @CallSuper onAttachedToWindow(RecyclerView view)7310 public void onAttachedToWindow(RecyclerView view) { 7311 } 7312 7313 /** 7314 * @deprecated 7315 * override {@link #onDetachedFromWindow(RecyclerView, Recycler)} 7316 */ 7317 @Deprecated onDetachedFromWindow(RecyclerView view)7318 public void onDetachedFromWindow(RecyclerView view) { 7319 7320 } 7321 7322 /** 7323 * Called when this LayoutManager is detached from its parent RecyclerView or when 7324 * its parent RecyclerView is detached from its window. 7325 * <p> 7326 * LayoutManager should clear all of its View references as another LayoutManager might be 7327 * assigned to the RecyclerView. 7328 * <p> 7329 * If the RecyclerView is re-attached with the same LayoutManager and Adapter, it may not 7330 * call {@link #onLayoutChildren(Recycler, State)} if nothing has changed and a layout was 7331 * not requested on the RecyclerView while it was detached. 7332 * <p> 7333 * If your LayoutManager has View references that it cleans in on-detach, it should also 7334 * call {@link RecyclerView#requestLayout()} to ensure that it is re-laid out when 7335 * RecyclerView is re-attached. 7336 * <p> 7337 * Subclass implementations should always call through to the superclass implementation. 7338 * 7339 * @param view The RecyclerView this LayoutManager is bound to 7340 * @param recycler The recycler to use if you prefer to recycle your children instead of 7341 * keeping them around. 7342 * 7343 * @see #onAttachedToWindow(RecyclerView) 7344 */ 7345 @CallSuper onDetachedFromWindow(RecyclerView view, Recycler recycler)7346 public void onDetachedFromWindow(RecyclerView view, Recycler recycler) { 7347 onDetachedFromWindow(view); 7348 } 7349 7350 /** 7351 * Check if the RecyclerView is configured to clip child views to its padding. 7352 * 7353 * @return true if this RecyclerView clips children to its padding, false otherwise 7354 */ getClipToPadding()7355 public boolean getClipToPadding() { 7356 return mRecyclerView != null && mRecyclerView.mClipToPadding; 7357 } 7358 7359 /** 7360 * Lay out all relevant child views from the given adapter. 7361 * 7362 * The LayoutManager is in charge of the behavior of item animations. By default, 7363 * RecyclerView has a non-null {@link #getItemAnimator() ItemAnimator}, and simple 7364 * item animations are enabled. This means that add/remove operations on the 7365 * adapter will result in animations to add new or appearing items, removed or 7366 * disappearing items, and moved items. If a LayoutManager returns false from 7367 * {@link #supportsPredictiveItemAnimations()}, which is the default, and runs a 7368 * normal layout operation during {@link #onLayoutChildren(Recycler, State)}, the 7369 * RecyclerView will have enough information to run those animations in a simple 7370 * way. For example, the default ItemAnimator, {@link DefaultItemAnimator}, will 7371 * simply fade views in and out, whether they are actually added/removed or whether 7372 * they are moved on or off the screen due to other add/remove operations. 7373 * 7374 * <p>A LayoutManager wanting a better item animation experience, where items can be 7375 * animated onto and off of the screen according to where the items exist when they 7376 * are not on screen, then the LayoutManager should return true from 7377 * {@link #supportsPredictiveItemAnimations()} and add additional logic to 7378 * {@link #onLayoutChildren(Recycler, State)}. Supporting predictive animations 7379 * means that {@link #onLayoutChildren(Recycler, State)} will be called twice; 7380 * once as a "pre" layout step to determine where items would have been prior to 7381 * a real layout, and again to do the "real" layout. In the pre-layout phase, 7382 * items will remember their pre-layout positions to allow them to be laid out 7383 * appropriately. Also, {@link LayoutParams#isItemRemoved() removed} items will 7384 * be returned from the scrap to help determine correct placement of other items. 7385 * These removed items should not be added to the child list, but should be used 7386 * to help calculate correct positioning of other views, including views that 7387 * were not previously onscreen (referred to as APPEARING views), but whose 7388 * pre-layout offscreen position can be determined given the extra 7389 * information about the pre-layout removed views.</p> 7390 * 7391 * <p>The second layout pass is the real layout in which only non-removed views 7392 * will be used. The only additional requirement during this pass is, if 7393 * {@link #supportsPredictiveItemAnimations()} returns true, to note which 7394 * views exist in the child list prior to layout and which are not there after 7395 * layout (referred to as DISAPPEARING views), and to position/layout those views 7396 * appropriately, without regard to the actual bounds of the RecyclerView. This allows 7397 * the animation system to know the location to which to animate these disappearing 7398 * views.</p> 7399 * 7400 * <p>The default LayoutManager implementations for RecyclerView handle all of these 7401 * requirements for animations already. Clients of RecyclerView can either use one 7402 * of these layout managers directly or look at their implementations of 7403 * onLayoutChildren() to see how they account for the APPEARING and 7404 * DISAPPEARING views.</p> 7405 * 7406 * @param recycler Recycler to use for fetching potentially cached views for a 7407 * position 7408 * @param state Transient state of RecyclerView 7409 */ onLayoutChildren(Recycler recycler, State state)7410 public void onLayoutChildren(Recycler recycler, State state) { 7411 Log.e(TAG, "You must override onLayoutChildren(Recycler recycler, State state) "); 7412 } 7413 7414 /** 7415 * Called after a full layout calculation is finished. The layout calculation may include 7416 * multiple {@link #onLayoutChildren(Recycler, State)} calls due to animations or 7417 * layout measurement but it will include only one {@link #onLayoutCompleted(State)} call. 7418 * This method will be called at the end of {@link View#layout(int, int, int, int)} call. 7419 * <p> 7420 * This is a good place for the LayoutManager to do some cleanup like pending scroll 7421 * position, saved state etc. 7422 * 7423 * @param state Transient state of RecyclerView 7424 */ onLayoutCompleted(State state)7425 public void onLayoutCompleted(State state) { 7426 } 7427 7428 /** 7429 * Create a default <code>LayoutParams</code> object for a child of the RecyclerView. 7430 * 7431 * <p>LayoutManagers will often want to use a custom <code>LayoutParams</code> type 7432 * to store extra information specific to the layout. Client code should subclass 7433 * {@link RecyclerView.LayoutParams} for this purpose.</p> 7434 * 7435 * <p><em>Important:</em> if you use your own custom <code>LayoutParams</code> type 7436 * you must also override 7437 * {@link #checkLayoutParams(LayoutParams)}, 7438 * {@link #generateLayoutParams(android.view.ViewGroup.LayoutParams)} and 7439 * {@link #generateLayoutParams(android.content.Context, android.util.AttributeSet)}.</p> 7440 * 7441 * @return A new LayoutParams for a child view 7442 */ generateDefaultLayoutParams()7443 public abstract LayoutParams generateDefaultLayoutParams(); 7444 7445 /** 7446 * Determines the validity of the supplied LayoutParams object. 7447 * 7448 * <p>This should check to make sure that the object is of the correct type 7449 * and all values are within acceptable ranges. The default implementation 7450 * returns <code>true</code> for non-null params.</p> 7451 * 7452 * @param lp LayoutParams object to check 7453 * @return true if this LayoutParams object is valid, false otherwise 7454 */ checkLayoutParams(LayoutParams lp)7455 public boolean checkLayoutParams(LayoutParams lp) { 7456 return lp != null; 7457 } 7458 7459 /** 7460 * Create a LayoutParams object suitable for this LayoutManager, copying relevant 7461 * values from the supplied LayoutParams object if possible. 7462 * 7463 * <p><em>Important:</em> if you use your own custom <code>LayoutParams</code> type 7464 * you must also override 7465 * {@link #checkLayoutParams(LayoutParams)}, 7466 * {@link #generateLayoutParams(android.view.ViewGroup.LayoutParams)} and 7467 * {@link #generateLayoutParams(android.content.Context, android.util.AttributeSet)}.</p> 7468 * 7469 * @param lp Source LayoutParams object to copy values from 7470 * @return a new LayoutParams object 7471 */ generateLayoutParams(ViewGroup.LayoutParams lp)7472 public LayoutParams generateLayoutParams(ViewGroup.LayoutParams lp) { 7473 if (lp instanceof LayoutParams) { 7474 return new LayoutParams((LayoutParams) lp); 7475 } else if (lp instanceof MarginLayoutParams) { 7476 return new LayoutParams((MarginLayoutParams) lp); 7477 } else { 7478 return new LayoutParams(lp); 7479 } 7480 } 7481 7482 /** 7483 * Create a LayoutParams object suitable for this LayoutManager from 7484 * an inflated layout resource. 7485 * 7486 * <p><em>Important:</em> if you use your own custom <code>LayoutParams</code> type 7487 * you must also override 7488 * {@link #checkLayoutParams(LayoutParams)}, 7489 * {@link #generateLayoutParams(android.view.ViewGroup.LayoutParams)} and 7490 * {@link #generateLayoutParams(android.content.Context, android.util.AttributeSet)}.</p> 7491 * 7492 * @param c Context for obtaining styled attributes 7493 * @param attrs AttributeSet describing the supplied arguments 7494 * @return a new LayoutParams object 7495 */ generateLayoutParams(Context c, AttributeSet attrs)7496 public LayoutParams generateLayoutParams(Context c, AttributeSet attrs) { 7497 return new LayoutParams(c, attrs); 7498 } 7499 7500 /** 7501 * Scroll horizontally by dx pixels in screen coordinates and return the distance traveled. 7502 * The default implementation does nothing and returns 0. 7503 * 7504 * @param dx distance to scroll by in pixels. X increases as scroll position 7505 * approaches the right. 7506 * @param recycler Recycler to use for fetching potentially cached views for a 7507 * position 7508 * @param state Transient state of RecyclerView 7509 * @return The actual distance scrolled. The return value will be negative if dx was 7510 * negative and scrolling proceeeded in that direction. 7511 * <code>Math.abs(result)</code> may be less than dx if a boundary was reached. 7512 */ scrollHorizontallyBy(int dx, Recycler recycler, State state)7513 public int scrollHorizontallyBy(int dx, Recycler recycler, State state) { 7514 return 0; 7515 } 7516 7517 /** 7518 * Scroll vertically by dy pixels in screen coordinates and return the distance traveled. 7519 * The default implementation does nothing and returns 0. 7520 * 7521 * @param dy distance to scroll in pixels. Y increases as scroll position 7522 * approaches the bottom. 7523 * @param recycler Recycler to use for fetching potentially cached views for a 7524 * position 7525 * @param state Transient state of RecyclerView 7526 * @return The actual distance scrolled. The return value will be negative if dy was 7527 * negative and scrolling proceeeded in that direction. 7528 * <code>Math.abs(result)</code> may be less than dy if a boundary was reached. 7529 */ scrollVerticallyBy(int dy, Recycler recycler, State state)7530 public int scrollVerticallyBy(int dy, Recycler recycler, State state) { 7531 return 0; 7532 } 7533 7534 /** 7535 * Query if horizontal scrolling is currently supported. The default implementation 7536 * returns false. 7537 * 7538 * @return True if this LayoutManager can scroll the current contents horizontally 7539 */ canScrollHorizontally()7540 public boolean canScrollHorizontally() { 7541 return false; 7542 } 7543 7544 /** 7545 * Query if vertical scrolling is currently supported. The default implementation 7546 * returns false. 7547 * 7548 * @return True if this LayoutManager can scroll the current contents vertically 7549 */ canScrollVertically()7550 public boolean canScrollVertically() { 7551 return false; 7552 } 7553 7554 /** 7555 * Scroll to the specified adapter position. 7556 * 7557 * Actual position of the item on the screen depends on the LayoutManager implementation. 7558 * @param position Scroll to this adapter position. 7559 */ scrollToPosition(int position)7560 public void scrollToPosition(int position) { 7561 if (DEBUG) { 7562 Log.e(TAG, "You MUST implement scrollToPosition. It will soon become abstract"); 7563 } 7564 } 7565 7566 /** 7567 * <p>Smooth scroll to the specified adapter position.</p> 7568 * <p>To support smooth scrolling, override this method, create your {@link SmoothScroller} 7569 * instance and call {@link #startSmoothScroll(SmoothScroller)}. 7570 * </p> 7571 * @param recyclerView The RecyclerView to which this layout manager is attached 7572 * @param state Current State of RecyclerView 7573 * @param position Scroll to this adapter position. 7574 */ smoothScrollToPosition(RecyclerView recyclerView, State state, int position)7575 public void smoothScrollToPosition(RecyclerView recyclerView, State state, 7576 int position) { 7577 Log.e(TAG, "You must override smoothScrollToPosition to support smooth scrolling"); 7578 } 7579 7580 /** 7581 * <p>Starts a smooth scroll using the provided SmoothScroller.</p> 7582 * <p>Calling this method will cancel any previous smooth scroll request.</p> 7583 * @param smoothScroller Instance which defines how smooth scroll should be animated 7584 */ startSmoothScroll(SmoothScroller smoothScroller)7585 public void startSmoothScroll(SmoothScroller smoothScroller) { 7586 if (mSmoothScroller != null && smoothScroller != mSmoothScroller 7587 && mSmoothScroller.isRunning()) { 7588 mSmoothScroller.stop(); 7589 } 7590 mSmoothScroller = smoothScroller; 7591 mSmoothScroller.start(mRecyclerView, this); 7592 } 7593 7594 /** 7595 * @return true if RecycylerView is currently in the state of smooth scrolling. 7596 */ isSmoothScrolling()7597 public boolean isSmoothScrolling() { 7598 return mSmoothScroller != null && mSmoothScroller.isRunning(); 7599 } 7600 7601 7602 /** 7603 * Returns the resolved layout direction for this RecyclerView. 7604 * 7605 * @return {@link android.view.View#LAYOUT_DIRECTION_RTL} if the layout 7606 * direction is RTL or returns 7607 * {@link android.view.View#LAYOUT_DIRECTION_LTR} if the layout direction 7608 * is not RTL. 7609 */ getLayoutDirection()7610 public int getLayoutDirection() { 7611 return mRecyclerView.getLayoutDirection(); 7612 } 7613 7614 /** 7615 * Ends all animations on the view created by the {@link ItemAnimator}. 7616 * 7617 * @param view The View for which the animations should be ended. 7618 * @see RecyclerView.ItemAnimator#endAnimations() 7619 */ endAnimation(View view)7620 public void endAnimation(View view) { 7621 if (mRecyclerView.mItemAnimator != null) { 7622 mRecyclerView.mItemAnimator.endAnimation(getChildViewHolderInt(view)); 7623 } 7624 } 7625 7626 /** 7627 * To be called only during {@link #onLayoutChildren(Recycler, State)} to add a view 7628 * to the layout that is known to be going away, either because it has been 7629 * {@link Adapter#notifyItemRemoved(int) removed} or because it is actually not in the 7630 * visible portion of the container but is being laid out in order to inform RecyclerView 7631 * in how to animate the item out of view. 7632 * <p> 7633 * Views added via this method are going to be invisible to LayoutManager after the 7634 * dispatchLayout pass is complete. They cannot be retrieved via {@link #getChildAt(int)} 7635 * or won't be included in {@link #getChildCount()} method. 7636 * 7637 * @param child View to add and then remove with animation. 7638 */ addDisappearingView(View child)7639 public void addDisappearingView(View child) { 7640 addDisappearingView(child, -1); 7641 } 7642 7643 /** 7644 * To be called only during {@link #onLayoutChildren(Recycler, State)} to add a view 7645 * to the layout that is known to be going away, either because it has been 7646 * {@link Adapter#notifyItemRemoved(int) removed} or because it is actually not in the 7647 * visible portion of the container but is being laid out in order to inform RecyclerView 7648 * in how to animate the item out of view. 7649 * <p> 7650 * Views added via this method are going to be invisible to LayoutManager after the 7651 * dispatchLayout pass is complete. They cannot be retrieved via {@link #getChildAt(int)} 7652 * or won't be included in {@link #getChildCount()} method. 7653 * 7654 * @param child View to add and then remove with animation. 7655 * @param index Index of the view. 7656 */ addDisappearingView(View child, int index)7657 public void addDisappearingView(View child, int index) { 7658 addViewInt(child, index, true); 7659 } 7660 7661 /** 7662 * Add a view to the currently attached RecyclerView if needed. LayoutManagers should 7663 * use this method to add views obtained from a {@link Recycler} using 7664 * {@link Recycler#getViewForPosition(int)}. 7665 * 7666 * @param child View to add 7667 */ addView(View child)7668 public void addView(View child) { 7669 addView(child, -1); 7670 } 7671 7672 /** 7673 * Add a view to the currently attached RecyclerView if needed. LayoutManagers should 7674 * use this method to add views obtained from a {@link Recycler} using 7675 * {@link Recycler#getViewForPosition(int)}. 7676 * 7677 * @param child View to add 7678 * @param index Index to add child at 7679 */ addView(View child, int index)7680 public void addView(View child, int index) { 7681 addViewInt(child, index, false); 7682 } 7683 addViewInt(View child, int index, boolean disappearing)7684 private void addViewInt(View child, int index, boolean disappearing) { 7685 final ViewHolder holder = getChildViewHolderInt(child); 7686 if (disappearing || holder.isRemoved()) { 7687 // these views will be hidden at the end of the layout pass. 7688 mRecyclerView.mViewInfoStore.addToDisappearedInLayout(holder); 7689 } else { 7690 // This may look like unnecessary but may happen if layout manager supports 7691 // predictive layouts and adapter removed then re-added the same item. 7692 // In this case, added version will be visible in the post layout (because add is 7693 // deferred) but RV will still bind it to the same View. 7694 // So if a View re-appears in post layout pass, remove it from disappearing list. 7695 mRecyclerView.mViewInfoStore.removeFromDisappearedInLayout(holder); 7696 } 7697 final LayoutParams lp = (LayoutParams) child.getLayoutParams(); 7698 if (holder.wasReturnedFromScrap() || holder.isScrap()) { 7699 if (holder.isScrap()) { 7700 holder.unScrap(); 7701 } else { 7702 holder.clearReturnedFromScrapFlag(); 7703 } 7704 mChildHelper.attachViewToParent(child, index, child.getLayoutParams(), false); 7705 if (DISPATCH_TEMP_DETACH) { 7706 child.dispatchFinishTemporaryDetach(); 7707 } 7708 } else if (child.getParent() == mRecyclerView) { // it was not a scrap but a valid child 7709 // ensure in correct position 7710 int currentIndex = mChildHelper.indexOfChild(child); 7711 if (index == -1) { 7712 index = mChildHelper.getChildCount(); 7713 } 7714 if (currentIndex == -1) { 7715 throw new IllegalStateException("Added View has RecyclerView as parent but" 7716 + " view is not a real child. Unfiltered index:" 7717 + mRecyclerView.indexOfChild(child)); 7718 } 7719 if (currentIndex != index) { 7720 mRecyclerView.mLayout.moveView(currentIndex, index); 7721 } 7722 } else { 7723 mChildHelper.addView(child, index, false); 7724 lp.mInsetsDirty = true; 7725 if (mSmoothScroller != null && mSmoothScroller.isRunning()) { 7726 mSmoothScroller.onChildAttachedToWindow(child); 7727 } 7728 } 7729 if (lp.mPendingInvalidate) { 7730 if (DEBUG) { 7731 Log.d(TAG, "consuming pending invalidate on child " + lp.mViewHolder); 7732 } 7733 holder.itemView.invalidate(); 7734 lp.mPendingInvalidate = false; 7735 } 7736 } 7737 7738 /** 7739 * Remove a view from the currently attached RecyclerView if needed. LayoutManagers should 7740 * use this method to completely remove a child view that is no longer needed. 7741 * LayoutManagers should strongly consider recycling removed views using 7742 * {@link Recycler#recycleView(android.view.View)}. 7743 * 7744 * @param child View to remove 7745 */ removeView(View child)7746 public void removeView(View child) { 7747 mChildHelper.removeView(child); 7748 } 7749 7750 /** 7751 * Remove a view from the currently attached RecyclerView if needed. LayoutManagers should 7752 * use this method to completely remove a child view that is no longer needed. 7753 * LayoutManagers should strongly consider recycling removed views using 7754 * {@link Recycler#recycleView(android.view.View)}. 7755 * 7756 * @param index Index of the child view to remove 7757 */ removeViewAt(int index)7758 public void removeViewAt(int index) { 7759 final View child = getChildAt(index); 7760 if (child != null) { 7761 mChildHelper.removeViewAt(index); 7762 } 7763 } 7764 7765 /** 7766 * Remove all views from the currently attached RecyclerView. This will not recycle 7767 * any of the affected views; the LayoutManager is responsible for doing so if desired. 7768 */ removeAllViews()7769 public void removeAllViews() { 7770 // Only remove non-animating views 7771 final int childCount = getChildCount(); 7772 for (int i = childCount - 1; i >= 0; i--) { 7773 mChildHelper.removeViewAt(i); 7774 } 7775 } 7776 7777 /** 7778 * Returns offset of the RecyclerView's text baseline from the its top boundary. 7779 * 7780 * @return The offset of the RecyclerView's text baseline from the its top boundary; -1 if 7781 * there is no baseline. 7782 */ getBaseline()7783 public int getBaseline() { 7784 return -1; 7785 } 7786 7787 /** 7788 * Returns the adapter position of the item represented by the given View. This does not 7789 * contain any adapter changes that might have happened after the last layout. 7790 * 7791 * @param view The view to query 7792 * @return The adapter position of the item which is rendered by this View. 7793 */ getPosition(View view)7794 public int getPosition(View view) { 7795 return ((RecyclerView.LayoutParams) view.getLayoutParams()).getViewLayoutPosition(); 7796 } 7797 7798 /** 7799 * Returns the View type defined by the adapter. 7800 * 7801 * @param view The view to query 7802 * @return The type of the view assigned by the adapter. 7803 */ getItemViewType(View view)7804 public int getItemViewType(View view) { 7805 return getChildViewHolderInt(view).getItemViewType(); 7806 } 7807 7808 /** 7809 * Traverses the ancestors of the given view and returns the item view that contains it 7810 * and also a direct child of the LayoutManager. 7811 * <p> 7812 * Note that this method may return null if the view is a child of the RecyclerView but 7813 * not a child of the LayoutManager (e.g. running a disappear animation). 7814 * 7815 * @param view The view that is a descendant of the LayoutManager. 7816 * 7817 * @return The direct child of the LayoutManager which contains the given view or null if 7818 * the provided view is not a descendant of this LayoutManager. 7819 * 7820 * @see RecyclerView#getChildViewHolder(View) 7821 * @see RecyclerView#findContainingViewHolder(View) 7822 */ 7823 @Nullable findContainingItemView(View view)7824 public View findContainingItemView(View view) { 7825 if (mRecyclerView == null) { 7826 return null; 7827 } 7828 View found = mRecyclerView.findContainingItemView(view); 7829 if (found == null) { 7830 return null; 7831 } 7832 if (mChildHelper.isHidden(found)) { 7833 return null; 7834 } 7835 return found; 7836 } 7837 7838 /** 7839 * Finds the view which represents the given adapter position. 7840 * <p> 7841 * This method traverses each child since it has no information about child order. 7842 * Override this method to improve performance if your LayoutManager keeps data about 7843 * child views. 7844 * <p> 7845 * If a view is ignored via {@link #ignoreView(View)}, it is also ignored by this method. 7846 * 7847 * @param position Position of the item in adapter 7848 * @return The child view that represents the given position or null if the position is not 7849 * laid out 7850 */ findViewByPosition(int position)7851 public View findViewByPosition(int position) { 7852 final int childCount = getChildCount(); 7853 for (int i = 0; i < childCount; i++) { 7854 View child = getChildAt(i); 7855 ViewHolder vh = getChildViewHolderInt(child); 7856 if (vh == null) { 7857 continue; 7858 } 7859 if (vh.getLayoutPosition() == position && !vh.shouldIgnore() 7860 && (mRecyclerView.mState.isPreLayout() || !vh.isRemoved())) { 7861 return child; 7862 } 7863 } 7864 return null; 7865 } 7866 7867 /** 7868 * Temporarily detach a child view. 7869 * 7870 * <p>LayoutManagers may want to perform a lightweight detach operation to rearrange 7871 * views currently attached to the RecyclerView. Generally LayoutManager implementations 7872 * will want to use {@link #detachAndScrapView(android.view.View, RecyclerView.Recycler)} 7873 * so that the detached view may be rebound and reused.</p> 7874 * 7875 * <p>If a LayoutManager uses this method to detach a view, it <em>must</em> 7876 * {@link #attachView(android.view.View, int, RecyclerView.LayoutParams) reattach} 7877 * or {@link #removeDetachedView(android.view.View) fully remove} the detached view 7878 * before the LayoutManager entry point method called by RecyclerView returns.</p> 7879 * 7880 * @param child Child to detach 7881 */ detachView(View child)7882 public void detachView(View child) { 7883 final int ind = mChildHelper.indexOfChild(child); 7884 if (ind >= 0) { 7885 detachViewInternal(ind, child); 7886 } 7887 } 7888 7889 /** 7890 * Temporarily detach a child view. 7891 * 7892 * <p>LayoutManagers may want to perform a lightweight detach operation to rearrange 7893 * views currently attached to the RecyclerView. Generally LayoutManager implementations 7894 * will want to use {@link #detachAndScrapView(android.view.View, RecyclerView.Recycler)} 7895 * so that the detached view may be rebound and reused.</p> 7896 * 7897 * <p>If a LayoutManager uses this method to detach a view, it <em>must</em> 7898 * {@link #attachView(android.view.View, int, RecyclerView.LayoutParams) reattach} 7899 * or {@link #removeDetachedView(android.view.View) fully remove} the detached view 7900 * before the LayoutManager entry point method called by RecyclerView returns.</p> 7901 * 7902 * @param index Index of the child to detach 7903 */ detachViewAt(int index)7904 public void detachViewAt(int index) { 7905 detachViewInternal(index, getChildAt(index)); 7906 } 7907 detachViewInternal(int index, View view)7908 private void detachViewInternal(int index, View view) { 7909 if (DISPATCH_TEMP_DETACH) { 7910 view.dispatchStartTemporaryDetach(); 7911 } 7912 mChildHelper.detachViewFromParent(index); 7913 } 7914 7915 /** 7916 * Reattach a previously {@link #detachView(android.view.View) detached} view. 7917 * This method should not be used to reattach views that were previously 7918 * {@link #detachAndScrapView(android.view.View, RecyclerView.Recycler)} scrapped}. 7919 * 7920 * @param child Child to reattach 7921 * @param index Intended child index for child 7922 * @param lp LayoutParams for child 7923 */ attachView(View child, int index, LayoutParams lp)7924 public void attachView(View child, int index, LayoutParams lp) { 7925 ViewHolder vh = getChildViewHolderInt(child); 7926 if (vh.isRemoved()) { 7927 mRecyclerView.mViewInfoStore.addToDisappearedInLayout(vh); 7928 } else { 7929 mRecyclerView.mViewInfoStore.removeFromDisappearedInLayout(vh); 7930 } 7931 mChildHelper.attachViewToParent(child, index, lp, vh.isRemoved()); 7932 if (DISPATCH_TEMP_DETACH) { 7933 child.dispatchFinishTemporaryDetach(); 7934 } 7935 } 7936 7937 /** 7938 * Reattach a previously {@link #detachView(android.view.View) detached} view. 7939 * This method should not be used to reattach views that were previously 7940 * {@link #detachAndScrapView(android.view.View, RecyclerView.Recycler)} scrapped}. 7941 * 7942 * @param child Child to reattach 7943 * @param index Intended child index for child 7944 */ attachView(View child, int index)7945 public void attachView(View child, int index) { 7946 attachView(child, index, (LayoutParams) child.getLayoutParams()); 7947 } 7948 7949 /** 7950 * Reattach a previously {@link #detachView(android.view.View) detached} view. 7951 * This method should not be used to reattach views that were previously 7952 * {@link #detachAndScrapView(android.view.View, RecyclerView.Recycler)} scrapped}. 7953 * 7954 * @param child Child to reattach 7955 */ attachView(View child)7956 public void attachView(View child) { 7957 attachView(child, -1); 7958 } 7959 7960 /** 7961 * Finish removing a view that was previously temporarily 7962 * {@link #detachView(android.view.View) detached}. 7963 * 7964 * @param child Detached child to remove 7965 */ removeDetachedView(View child)7966 public void removeDetachedView(View child) { 7967 mRecyclerView.removeDetachedView(child, false); 7968 } 7969 7970 /** 7971 * Moves a View from one position to another. 7972 * 7973 * @param fromIndex The View's initial index 7974 * @param toIndex The View's target index 7975 */ moveView(int fromIndex, int toIndex)7976 public void moveView(int fromIndex, int toIndex) { 7977 View view = getChildAt(fromIndex); 7978 if (view == null) { 7979 throw new IllegalArgumentException("Cannot move a child from non-existing index:" 7980 + fromIndex); 7981 } 7982 detachViewAt(fromIndex); 7983 attachView(view, toIndex); 7984 } 7985 7986 /** 7987 * Detach a child view and add it to a {@link Recycler Recycler's} scrap heap. 7988 * 7989 * <p>Scrapping a view allows it to be rebound and reused to show updated or 7990 * different data.</p> 7991 * 7992 * @param child Child to detach and scrap 7993 * @param recycler Recycler to deposit the new scrap view into 7994 */ detachAndScrapView(View child, Recycler recycler)7995 public void detachAndScrapView(View child, Recycler recycler) { 7996 int index = mChildHelper.indexOfChild(child); 7997 scrapOrRecycleView(recycler, index, child); 7998 } 7999 8000 /** 8001 * Detach a child view and add it to a {@link Recycler Recycler's} scrap heap. 8002 * 8003 * <p>Scrapping a view allows it to be rebound and reused to show updated or 8004 * different data.</p> 8005 * 8006 * @param index Index of child to detach and scrap 8007 * @param recycler Recycler to deposit the new scrap view into 8008 */ detachAndScrapViewAt(int index, Recycler recycler)8009 public void detachAndScrapViewAt(int index, Recycler recycler) { 8010 final View child = getChildAt(index); 8011 scrapOrRecycleView(recycler, index, child); 8012 } 8013 8014 /** 8015 * Remove a child view and recycle it using the given Recycler. 8016 * 8017 * @param child Child to remove and recycle 8018 * @param recycler Recycler to use to recycle child 8019 */ removeAndRecycleView(View child, Recycler recycler)8020 public void removeAndRecycleView(View child, Recycler recycler) { 8021 removeView(child); 8022 recycler.recycleView(child); 8023 } 8024 8025 /** 8026 * Remove a child view and recycle it using the given Recycler. 8027 * 8028 * @param index Index of child to remove and recycle 8029 * @param recycler Recycler to use to recycle child 8030 */ removeAndRecycleViewAt(int index, Recycler recycler)8031 public void removeAndRecycleViewAt(int index, Recycler recycler) { 8032 final View view = getChildAt(index); 8033 removeViewAt(index); 8034 recycler.recycleView(view); 8035 } 8036 8037 /** 8038 * Return the current number of child views attached to the parent RecyclerView. 8039 * This does not include child views that were temporarily detached and/or scrapped. 8040 * 8041 * @return Number of attached children 8042 */ getChildCount()8043 public int getChildCount() { 8044 return mChildHelper != null ? mChildHelper.getChildCount() : 0; 8045 } 8046 8047 /** 8048 * Return the child view at the given index 8049 * @param index Index of child to return 8050 * @return Child view at index 8051 */ getChildAt(int index)8052 public View getChildAt(int index) { 8053 return mChildHelper != null ? mChildHelper.getChildAt(index) : null; 8054 } 8055 8056 /** 8057 * Return the width measurement spec mode of the RecyclerView. 8058 * <p> 8059 * This value is set only if the LayoutManager opts into the auto measure api via 8060 * {@link #setAutoMeasureEnabled(boolean)}. 8061 * <p> 8062 * When RecyclerView is running a layout, this value is always set to 8063 * {@link View.MeasureSpec#EXACTLY} even if it was measured with a different spec mode. 8064 * 8065 * @return Width measure spec mode. 8066 * 8067 * @see View.MeasureSpec#getMode(int) 8068 * @see View#onMeasure(int, int) 8069 */ getWidthMode()8070 public int getWidthMode() { 8071 return mWidthMode; 8072 } 8073 8074 /** 8075 * Return the height measurement spec mode of the RecyclerView. 8076 * <p> 8077 * This value is set only if the LayoutManager opts into the auto measure api via 8078 * {@link #setAutoMeasureEnabled(boolean)}. 8079 * <p> 8080 * When RecyclerView is running a layout, this value is always set to 8081 * {@link View.MeasureSpec#EXACTLY} even if it was measured with a different spec mode. 8082 * 8083 * @return Height measure spec mode. 8084 * 8085 * @see View.MeasureSpec#getMode(int) 8086 * @see View#onMeasure(int, int) 8087 */ getHeightMode()8088 public int getHeightMode() { 8089 return mHeightMode; 8090 } 8091 8092 /** 8093 * Return the width of the parent RecyclerView 8094 * 8095 * @return Width in pixels 8096 */ getWidth()8097 public int getWidth() { 8098 return mWidth; 8099 } 8100 8101 /** 8102 * Return the height of the parent RecyclerView 8103 * 8104 * @return Height in pixels 8105 */ getHeight()8106 public int getHeight() { 8107 return mHeight; 8108 } 8109 8110 /** 8111 * Return the left padding of the parent RecyclerView 8112 * 8113 * @return Padding in pixels 8114 */ getPaddingLeft()8115 public int getPaddingLeft() { 8116 return mRecyclerView != null ? mRecyclerView.getPaddingLeft() : 0; 8117 } 8118 8119 /** 8120 * Return the top padding of the parent RecyclerView 8121 * 8122 * @return Padding in pixels 8123 */ getPaddingTop()8124 public int getPaddingTop() { 8125 return mRecyclerView != null ? mRecyclerView.getPaddingTop() : 0; 8126 } 8127 8128 /** 8129 * Return the right padding of the parent RecyclerView 8130 * 8131 * @return Padding in pixels 8132 */ getPaddingRight()8133 public int getPaddingRight() { 8134 return mRecyclerView != null ? mRecyclerView.getPaddingRight() : 0; 8135 } 8136 8137 /** 8138 * Return the bottom padding of the parent RecyclerView 8139 * 8140 * @return Padding in pixels 8141 */ getPaddingBottom()8142 public int getPaddingBottom() { 8143 return mRecyclerView != null ? mRecyclerView.getPaddingBottom() : 0; 8144 } 8145 8146 /** 8147 * Return the start padding of the parent RecyclerView 8148 * 8149 * @return Padding in pixels 8150 */ getPaddingStart()8151 public int getPaddingStart() { 8152 return mRecyclerView != null ? mRecyclerView.getPaddingStart() : 0; 8153 } 8154 8155 /** 8156 * Return the end padding of the parent RecyclerView 8157 * 8158 * @return Padding in pixels 8159 */ getPaddingEnd()8160 public int getPaddingEnd() { 8161 return mRecyclerView != null ? mRecyclerView.getPaddingEnd() : 0; 8162 } 8163 8164 /** 8165 * Returns true if the RecyclerView this LayoutManager is bound to has focus. 8166 * 8167 * @return True if the RecyclerView has focus, false otherwise. 8168 * @see View#isFocused() 8169 */ isFocused()8170 public boolean isFocused() { 8171 return mRecyclerView != null && mRecyclerView.isFocused(); 8172 } 8173 8174 /** 8175 * Returns true if the RecyclerView this LayoutManager is bound to has or contains focus. 8176 * 8177 * @return true if the RecyclerView has or contains focus 8178 * @see View#hasFocus() 8179 */ hasFocus()8180 public boolean hasFocus() { 8181 return mRecyclerView != null && mRecyclerView.hasFocus(); 8182 } 8183 8184 /** 8185 * Returns the item View which has or contains focus. 8186 * 8187 * @return A direct child of RecyclerView which has focus or contains the focused child. 8188 */ getFocusedChild()8189 public View getFocusedChild() { 8190 if (mRecyclerView == null) { 8191 return null; 8192 } 8193 final View focused = mRecyclerView.getFocusedChild(); 8194 if (focused == null || mChildHelper.isHidden(focused)) { 8195 return null; 8196 } 8197 return focused; 8198 } 8199 8200 /** 8201 * Returns the number of items in the adapter bound to the parent RecyclerView. 8202 * <p> 8203 * Note that this number is not necessarily equal to 8204 * {@link State#getItemCount() State#getItemCount()}. In methods where {@link State} is 8205 * available, you should use {@link State#getItemCount() State#getItemCount()} instead. 8206 * For more details, check the documentation for 8207 * {@link State#getItemCount() State#getItemCount()}. 8208 * 8209 * @return The number of items in the bound adapter 8210 * @see State#getItemCount() 8211 */ getItemCount()8212 public int getItemCount() { 8213 final Adapter a = mRecyclerView != null ? mRecyclerView.getAdapter() : null; 8214 return a != null ? a.getItemCount() : 0; 8215 } 8216 8217 /** 8218 * Offset all child views attached to the parent RecyclerView by dx pixels along 8219 * the horizontal axis. 8220 * 8221 * @param dx Pixels to offset by 8222 */ offsetChildrenHorizontal(int dx)8223 public void offsetChildrenHorizontal(int dx) { 8224 if (mRecyclerView != null) { 8225 mRecyclerView.offsetChildrenHorizontal(dx); 8226 } 8227 } 8228 8229 /** 8230 * Offset all child views attached to the parent RecyclerView by dy pixels along 8231 * the vertical axis. 8232 * 8233 * @param dy Pixels to offset by 8234 */ offsetChildrenVertical(int dy)8235 public void offsetChildrenVertical(int dy) { 8236 if (mRecyclerView != null) { 8237 mRecyclerView.offsetChildrenVertical(dy); 8238 } 8239 } 8240 8241 /** 8242 * Flags a view so that it will not be scrapped or recycled. 8243 * <p> 8244 * Scope of ignoring a child is strictly restricted to position tracking, scrapping and 8245 * recyling. Methods like {@link #removeAndRecycleAllViews(Recycler)} will ignore the child 8246 * whereas {@link #removeAllViews()} or {@link #offsetChildrenHorizontal(int)} will not 8247 * ignore the child. 8248 * <p> 8249 * Before this child can be recycled again, you have to call 8250 * {@link #stopIgnoringView(View)}. 8251 * <p> 8252 * You can call this method only if your LayoutManger is in onLayout or onScroll callback. 8253 * 8254 * @param view View to ignore. 8255 * @see #stopIgnoringView(View) 8256 */ ignoreView(View view)8257 public void ignoreView(View view) { 8258 if (view.getParent() != mRecyclerView || mRecyclerView.indexOfChild(view) == -1) { 8259 // checking this because calling this method on a recycled or detached view may 8260 // cause loss of state. 8261 throw new IllegalArgumentException("View should be fully attached to be ignored"); 8262 } 8263 final ViewHolder vh = getChildViewHolderInt(view); 8264 vh.addFlags(ViewHolder.FLAG_IGNORE); 8265 mRecyclerView.mViewInfoStore.removeViewHolder(vh); 8266 } 8267 8268 /** 8269 * View can be scrapped and recycled again. 8270 * <p> 8271 * Note that calling this method removes all information in the view holder. 8272 * <p> 8273 * You can call this method only if your LayoutManger is in onLayout or onScroll callback. 8274 * 8275 * @param view View to ignore. 8276 */ stopIgnoringView(View view)8277 public void stopIgnoringView(View view) { 8278 final ViewHolder vh = getChildViewHolderInt(view); 8279 vh.stopIgnoring(); 8280 vh.resetInternal(); 8281 vh.addFlags(ViewHolder.FLAG_INVALID); 8282 } 8283 8284 /** 8285 * Temporarily detach and scrap all currently attached child views. Views will be scrapped 8286 * into the given Recycler. The Recycler may prefer to reuse scrap views before 8287 * other views that were previously recycled. 8288 * 8289 * @param recycler Recycler to scrap views into 8290 */ detachAndScrapAttachedViews(Recycler recycler)8291 public void detachAndScrapAttachedViews(Recycler recycler) { 8292 final int childCount = getChildCount(); 8293 for (int i = childCount - 1; i >= 0; i--) { 8294 final View v = getChildAt(i); 8295 scrapOrRecycleView(recycler, i, v); 8296 } 8297 } 8298 scrapOrRecycleView(Recycler recycler, int index, View view)8299 private void scrapOrRecycleView(Recycler recycler, int index, View view) { 8300 final ViewHolder viewHolder = getChildViewHolderInt(view); 8301 if (viewHolder.shouldIgnore()) { 8302 if (DEBUG) { 8303 Log.d(TAG, "ignoring view " + viewHolder); 8304 } 8305 return; 8306 } 8307 if (viewHolder.isInvalid() && !viewHolder.isRemoved() 8308 && !mRecyclerView.mAdapter.hasStableIds()) { 8309 removeViewAt(index); 8310 recycler.recycleViewHolderInternal(viewHolder); 8311 } else { 8312 detachViewAt(index); 8313 recycler.scrapView(view); 8314 mRecyclerView.mViewInfoStore.onViewDetached(viewHolder); 8315 } 8316 } 8317 8318 /** 8319 * Recycles the scrapped views. 8320 * <p> 8321 * When a view is detached and removed, it does not trigger a ViewGroup invalidate. This is 8322 * the expected behavior if scrapped views are used for animations. Otherwise, we need to 8323 * call remove and invalidate RecyclerView to ensure UI update. 8324 * 8325 * @param recycler Recycler 8326 */ removeAndRecycleScrapInt(Recycler recycler)8327 void removeAndRecycleScrapInt(Recycler recycler) { 8328 final int scrapCount = recycler.getScrapCount(); 8329 // Loop backward, recycler might be changed by removeDetachedView() 8330 for (int i = scrapCount - 1; i >= 0; i--) { 8331 final View scrap = recycler.getScrapViewAt(i); 8332 final ViewHolder vh = getChildViewHolderInt(scrap); 8333 if (vh.shouldIgnore()) { 8334 continue; 8335 } 8336 // If the scrap view is animating, we need to cancel them first. If we cancel it 8337 // here, ItemAnimator callback may recycle it which will cause double recycling. 8338 // To avoid this, we mark it as not recycleable before calling the item animator. 8339 // Since removeDetachedView calls a user API, a common mistake (ending animations on 8340 // the view) may recycle it too, so we guard it before we call user APIs. 8341 vh.setIsRecyclable(false); 8342 if (vh.isTmpDetached()) { 8343 mRecyclerView.removeDetachedView(scrap, false); 8344 } 8345 if (mRecyclerView.mItemAnimator != null) { 8346 mRecyclerView.mItemAnimator.endAnimation(vh); 8347 } 8348 vh.setIsRecyclable(true); 8349 recycler.quickRecycleScrapView(scrap); 8350 } 8351 recycler.clearScrap(); 8352 if (scrapCount > 0) { 8353 mRecyclerView.invalidate(); 8354 } 8355 } 8356 8357 8358 /** 8359 * Measure a child view using standard measurement policy, taking the padding 8360 * of the parent RecyclerView and any added item decorations into account. 8361 * 8362 * <p>If the RecyclerView can be scrolled in either dimension the caller may 8363 * pass 0 as the widthUsed or heightUsed parameters as they will be irrelevant.</p> 8364 * 8365 * @param child Child view to measure 8366 * @param widthUsed Width in pixels currently consumed by other views, if relevant 8367 * @param heightUsed Height in pixels currently consumed by other views, if relevant 8368 */ measureChild(View child, int widthUsed, int heightUsed)8369 public void measureChild(View child, int widthUsed, int heightUsed) { 8370 final LayoutParams lp = (LayoutParams) child.getLayoutParams(); 8371 8372 final Rect insets = mRecyclerView.getItemDecorInsetsForChild(child); 8373 widthUsed += insets.left + insets.right; 8374 heightUsed += insets.top + insets.bottom; 8375 final int widthSpec = getChildMeasureSpec(getWidth(), getWidthMode(), 8376 getPaddingLeft() + getPaddingRight() + widthUsed, lp.width, 8377 canScrollHorizontally()); 8378 final int heightSpec = getChildMeasureSpec(getHeight(), getHeightMode(), 8379 getPaddingTop() + getPaddingBottom() + heightUsed, lp.height, 8380 canScrollVertically()); 8381 if (shouldMeasureChild(child, widthSpec, heightSpec, lp)) { 8382 child.measure(widthSpec, heightSpec); 8383 } 8384 } 8385 8386 /** 8387 * RecyclerView internally does its own View measurement caching which should help with 8388 * WRAP_CONTENT. 8389 * <p> 8390 * Use this method if the View is already measured once in this layout pass. 8391 */ shouldReMeasureChild(View child, int widthSpec, int heightSpec, LayoutParams lp)8392 boolean shouldReMeasureChild(View child, int widthSpec, int heightSpec, LayoutParams lp) { 8393 return !mMeasurementCacheEnabled 8394 || !isMeasurementUpToDate(child.getMeasuredWidth(), widthSpec, lp.width) 8395 || !isMeasurementUpToDate(child.getMeasuredHeight(), heightSpec, lp.height); 8396 } 8397 8398 // we may consider making this public 8399 /** 8400 * RecyclerView internally does its own View measurement caching which should help with 8401 * WRAP_CONTENT. 8402 * <p> 8403 * Use this method if the View is not yet measured and you need to decide whether to 8404 * measure this View or not. 8405 */ shouldMeasureChild(View child, int widthSpec, int heightSpec, LayoutParams lp)8406 boolean shouldMeasureChild(View child, int widthSpec, int heightSpec, LayoutParams lp) { 8407 return child.isLayoutRequested() 8408 || !mMeasurementCacheEnabled 8409 || !isMeasurementUpToDate(child.getWidth(), widthSpec, lp.width) 8410 || !isMeasurementUpToDate(child.getHeight(), heightSpec, lp.height); 8411 } 8412 8413 /** 8414 * In addition to the View Framework's measurement cache, RecyclerView uses its own 8415 * additional measurement cache for its children to avoid re-measuring them when not 8416 * necessary. It is on by default but it can be turned off via 8417 * {@link #setMeasurementCacheEnabled(boolean)}. 8418 * 8419 * @return True if measurement cache is enabled, false otherwise. 8420 * 8421 * @see #setMeasurementCacheEnabled(boolean) 8422 */ isMeasurementCacheEnabled()8423 public boolean isMeasurementCacheEnabled() { 8424 return mMeasurementCacheEnabled; 8425 } 8426 8427 /** 8428 * Sets whether RecyclerView should use its own measurement cache for the children. This is 8429 * a more aggressive cache than the framework uses. 8430 * 8431 * @param measurementCacheEnabled True to enable the measurement cache, false otherwise. 8432 * 8433 * @see #isMeasurementCacheEnabled() 8434 */ setMeasurementCacheEnabled(boolean measurementCacheEnabled)8435 public void setMeasurementCacheEnabled(boolean measurementCacheEnabled) { 8436 mMeasurementCacheEnabled = measurementCacheEnabled; 8437 } 8438 isMeasurementUpToDate(int childSize, int spec, int dimension)8439 private static boolean isMeasurementUpToDate(int childSize, int spec, int dimension) { 8440 final int specMode = MeasureSpec.getMode(spec); 8441 final int specSize = MeasureSpec.getSize(spec); 8442 if (dimension > 0 && childSize != dimension) { 8443 return false; 8444 } 8445 switch (specMode) { 8446 case MeasureSpec.UNSPECIFIED: 8447 return true; 8448 case MeasureSpec.AT_MOST: 8449 return specSize >= childSize; 8450 case MeasureSpec.EXACTLY: 8451 return specSize == childSize; 8452 } 8453 return false; 8454 } 8455 8456 /** 8457 * Measure a child view using standard measurement policy, taking the padding 8458 * of the parent RecyclerView, any added item decorations and the child margins 8459 * into account. 8460 * 8461 * <p>If the RecyclerView can be scrolled in either dimension the caller may 8462 * pass 0 as the widthUsed or heightUsed parameters as they will be irrelevant.</p> 8463 * 8464 * @param child Child view to measure 8465 * @param widthUsed Width in pixels currently consumed by other views, if relevant 8466 * @param heightUsed Height in pixels currently consumed by other views, if relevant 8467 */ measureChildWithMargins(View child, int widthUsed, int heightUsed)8468 public void measureChildWithMargins(View child, int widthUsed, int heightUsed) { 8469 final LayoutParams lp = (LayoutParams) child.getLayoutParams(); 8470 8471 final Rect insets = mRecyclerView.getItemDecorInsetsForChild(child); 8472 widthUsed += insets.left + insets.right; 8473 heightUsed += insets.top + insets.bottom; 8474 8475 final int widthSpec = getChildMeasureSpec(getWidth(), getWidthMode(), 8476 getPaddingLeft() + getPaddingRight() 8477 + lp.leftMargin + lp.rightMargin + widthUsed, lp.width, 8478 canScrollHorizontally()); 8479 final int heightSpec = getChildMeasureSpec(getHeight(), getHeightMode(), 8480 getPaddingTop() + getPaddingBottom() 8481 + lp.topMargin + lp.bottomMargin + heightUsed, lp.height, 8482 canScrollVertically()); 8483 if (shouldMeasureChild(child, widthSpec, heightSpec, lp)) { 8484 child.measure(widthSpec, heightSpec); 8485 } 8486 } 8487 8488 /** 8489 * Calculate a MeasureSpec value for measuring a child view in one dimension. 8490 * 8491 * @param parentSize Size of the parent view where the child will be placed 8492 * @param padding Total space currently consumed by other elements of the parent 8493 * @param childDimension Desired size of the child view, or MATCH_PARENT/WRAP_CONTENT. 8494 * Generally obtained from the child view's LayoutParams 8495 * @param canScroll true if the parent RecyclerView can scroll in this dimension 8496 * 8497 * @return a MeasureSpec value for the child view 8498 * @deprecated use {@link #getChildMeasureSpec(int, int, int, int, boolean)} 8499 */ 8500 @Deprecated getChildMeasureSpec(int parentSize, int padding, int childDimension, boolean canScroll)8501 public static int getChildMeasureSpec(int parentSize, int padding, int childDimension, 8502 boolean canScroll) { 8503 int size = Math.max(0, parentSize - padding); 8504 int resultSize = 0; 8505 int resultMode = 0; 8506 if (canScroll) { 8507 if (childDimension >= 0) { 8508 resultSize = childDimension; 8509 resultMode = MeasureSpec.EXACTLY; 8510 } else { 8511 // MATCH_PARENT can't be applied since we can scroll in this dimension, wrap 8512 // instead using UNSPECIFIED. 8513 resultSize = 0; 8514 resultMode = MeasureSpec.UNSPECIFIED; 8515 } 8516 } else { 8517 if (childDimension >= 0) { 8518 resultSize = childDimension; 8519 resultMode = MeasureSpec.EXACTLY; 8520 } else if (childDimension == LayoutParams.MATCH_PARENT) { 8521 resultSize = size; 8522 // TODO this should be my spec. 8523 resultMode = MeasureSpec.EXACTLY; 8524 } else if (childDimension == LayoutParams.WRAP_CONTENT) { 8525 resultSize = size; 8526 resultMode = MeasureSpec.AT_MOST; 8527 } 8528 } 8529 return MeasureSpec.makeMeasureSpec(resultSize, resultMode); 8530 } 8531 8532 /** 8533 * Calculate a MeasureSpec value for measuring a child view in one dimension. 8534 * 8535 * @param parentSize Size of the parent view where the child will be placed 8536 * @param parentMode The measurement spec mode of the parent 8537 * @param padding Total space currently consumed by other elements of parent 8538 * @param childDimension Desired size of the child view, or MATCH_PARENT/WRAP_CONTENT. 8539 * Generally obtained from the child view's LayoutParams 8540 * @param canScroll true if the parent RecyclerView can scroll in this dimension 8541 * 8542 * @return a MeasureSpec value for the child view 8543 */ getChildMeasureSpec(int parentSize, int parentMode, int padding, int childDimension, boolean canScroll)8544 public static int getChildMeasureSpec(int parentSize, int parentMode, int padding, 8545 int childDimension, boolean canScroll) { 8546 int size = Math.max(0, parentSize - padding); 8547 int resultSize = 0; 8548 int resultMode = 0; 8549 if (canScroll) { 8550 if (childDimension >= 0) { 8551 resultSize = childDimension; 8552 resultMode = MeasureSpec.EXACTLY; 8553 } else if (childDimension == LayoutParams.MATCH_PARENT) { 8554 switch (parentMode) { 8555 case MeasureSpec.AT_MOST: 8556 case MeasureSpec.EXACTLY: 8557 resultSize = size; 8558 resultMode = parentMode; 8559 break; 8560 case MeasureSpec.UNSPECIFIED: 8561 resultSize = 0; 8562 resultMode = MeasureSpec.UNSPECIFIED; 8563 break; 8564 } 8565 } else if (childDimension == LayoutParams.WRAP_CONTENT) { 8566 resultSize = 0; 8567 resultMode = MeasureSpec.UNSPECIFIED; 8568 } 8569 } else { 8570 if (childDimension >= 0) { 8571 resultSize = childDimension; 8572 resultMode = MeasureSpec.EXACTLY; 8573 } else if (childDimension == LayoutParams.MATCH_PARENT) { 8574 resultSize = size; 8575 resultMode = parentMode; 8576 } else if (childDimension == LayoutParams.WRAP_CONTENT) { 8577 resultSize = size; 8578 if (parentMode == MeasureSpec.AT_MOST || parentMode == MeasureSpec.EXACTLY) { 8579 resultMode = MeasureSpec.AT_MOST; 8580 } else { 8581 resultMode = MeasureSpec.UNSPECIFIED; 8582 } 8583 8584 } 8585 } 8586 //noinspection WrongConstant 8587 return MeasureSpec.makeMeasureSpec(resultSize, resultMode); 8588 } 8589 8590 /** 8591 * Returns the measured width of the given child, plus the additional size of 8592 * any insets applied by {@link ItemDecoration ItemDecorations}. 8593 * 8594 * @param child Child view to query 8595 * @return child's measured width plus <code>ItemDecoration</code> insets 8596 * 8597 * @see View#getMeasuredWidth() 8598 */ getDecoratedMeasuredWidth(View child)8599 public int getDecoratedMeasuredWidth(View child) { 8600 final Rect insets = ((LayoutParams) child.getLayoutParams()).mDecorInsets; 8601 return child.getMeasuredWidth() + insets.left + insets.right; 8602 } 8603 8604 /** 8605 * Returns the measured height of the given child, plus the additional size of 8606 * any insets applied by {@link ItemDecoration ItemDecorations}. 8607 * 8608 * @param child Child view to query 8609 * @return child's measured height plus <code>ItemDecoration</code> insets 8610 * 8611 * @see View#getMeasuredHeight() 8612 */ getDecoratedMeasuredHeight(View child)8613 public int getDecoratedMeasuredHeight(View child) { 8614 final Rect insets = ((LayoutParams) child.getLayoutParams()).mDecorInsets; 8615 return child.getMeasuredHeight() + insets.top + insets.bottom; 8616 } 8617 8618 /** 8619 * Lay out the given child view within the RecyclerView using coordinates that 8620 * include any current {@link ItemDecoration ItemDecorations}. 8621 * 8622 * <p>LayoutManagers should prefer working in sizes and coordinates that include 8623 * item decoration insets whenever possible. This allows the LayoutManager to effectively 8624 * ignore decoration insets within measurement and layout code. See the following 8625 * methods:</p> 8626 * <ul> 8627 * <li>{@link #layoutDecoratedWithMargins(View, int, int, int, int)}</li> 8628 * <li>{@link #getDecoratedBoundsWithMargins(View, Rect)}</li> 8629 * <li>{@link #measureChild(View, int, int)}</li> 8630 * <li>{@link #measureChildWithMargins(View, int, int)}</li> 8631 * <li>{@link #getDecoratedLeft(View)}</li> 8632 * <li>{@link #getDecoratedTop(View)}</li> 8633 * <li>{@link #getDecoratedRight(View)}</li> 8634 * <li>{@link #getDecoratedBottom(View)}</li> 8635 * <li>{@link #getDecoratedMeasuredWidth(View)}</li> 8636 * <li>{@link #getDecoratedMeasuredHeight(View)}</li> 8637 * </ul> 8638 * 8639 * @param child Child to lay out 8640 * @param left Left edge, with item decoration insets included 8641 * @param top Top edge, with item decoration insets included 8642 * @param right Right edge, with item decoration insets included 8643 * @param bottom Bottom edge, with item decoration insets included 8644 * 8645 * @see View#layout(int, int, int, int) 8646 * @see #layoutDecoratedWithMargins(View, int, int, int, int) 8647 */ layoutDecorated(View child, int left, int top, int right, int bottom)8648 public void layoutDecorated(View child, int left, int top, int right, int bottom) { 8649 final Rect insets = ((LayoutParams) child.getLayoutParams()).mDecorInsets; 8650 child.layout(left + insets.left, top + insets.top, right - insets.right, 8651 bottom - insets.bottom); 8652 } 8653 8654 /** 8655 * Lay out the given child view within the RecyclerView using coordinates that 8656 * include any current {@link ItemDecoration ItemDecorations} and margins. 8657 * 8658 * <p>LayoutManagers should prefer working in sizes and coordinates that include 8659 * item decoration insets whenever possible. This allows the LayoutManager to effectively 8660 * ignore decoration insets within measurement and layout code. See the following 8661 * methods:</p> 8662 * <ul> 8663 * <li>{@link #layoutDecorated(View, int, int, int, int)}</li> 8664 * <li>{@link #measureChild(View, int, int)}</li> 8665 * <li>{@link #measureChildWithMargins(View, int, int)}</li> 8666 * <li>{@link #getDecoratedLeft(View)}</li> 8667 * <li>{@link #getDecoratedTop(View)}</li> 8668 * <li>{@link #getDecoratedRight(View)}</li> 8669 * <li>{@link #getDecoratedBottom(View)}</li> 8670 * <li>{@link #getDecoratedMeasuredWidth(View)}</li> 8671 * <li>{@link #getDecoratedMeasuredHeight(View)}</li> 8672 * </ul> 8673 * 8674 * @param child Child to lay out 8675 * @param left Left edge, with item decoration insets and left margin included 8676 * @param top Top edge, with item decoration insets and top margin included 8677 * @param right Right edge, with item decoration insets and right margin included 8678 * @param bottom Bottom edge, with item decoration insets and bottom margin included 8679 * 8680 * @see View#layout(int, int, int, int) 8681 * @see #layoutDecorated(View, int, int, int, int) 8682 */ layoutDecoratedWithMargins(View child, int left, int top, int right, int bottom)8683 public void layoutDecoratedWithMargins(View child, int left, int top, int right, 8684 int bottom) { 8685 final LayoutParams lp = (LayoutParams) child.getLayoutParams(); 8686 final Rect insets = lp.mDecorInsets; 8687 child.layout(left + insets.left + lp.leftMargin, top + insets.top + lp.topMargin, 8688 right - insets.right - lp.rightMargin, 8689 bottom - insets.bottom - lp.bottomMargin); 8690 } 8691 8692 /** 8693 * Calculates the bounding box of the View while taking into account its matrix changes 8694 * (translation, scale etc) with respect to the RecyclerView. 8695 * <p> 8696 * If {@code includeDecorInsets} is {@code true}, they are applied first before applying 8697 * the View's matrix so that the decor offsets also go through the same transformation. 8698 * 8699 * @param child The ItemView whose bounding box should be calculated. 8700 * @param includeDecorInsets True if the decor insets should be included in the bounding box 8701 * @param out The rectangle into which the output will be written. 8702 */ getTransformedBoundingBox(View child, boolean includeDecorInsets, Rect out)8703 public void getTransformedBoundingBox(View child, boolean includeDecorInsets, Rect out) { 8704 if (includeDecorInsets) { 8705 Rect insets = ((LayoutParams) child.getLayoutParams()).mDecorInsets; 8706 out.set(-insets.left, -insets.top, 8707 child.getWidth() + insets.right, child.getHeight() + insets.bottom); 8708 } else { 8709 out.set(0, 0, child.getWidth(), child.getHeight()); 8710 } 8711 8712 if (mRecyclerView != null) { 8713 final Matrix childMatrix = child.getMatrix(); 8714 if (childMatrix != null && !childMatrix.isIdentity()) { 8715 final RectF tempRectF = mRecyclerView.mTempRectF; 8716 tempRectF.set(out); 8717 childMatrix.mapRect(tempRectF); 8718 out.set( 8719 (int) Math.floor(tempRectF.left), 8720 (int) Math.floor(tempRectF.top), 8721 (int) Math.ceil(tempRectF.right), 8722 (int) Math.ceil(tempRectF.bottom) 8723 ); 8724 } 8725 } 8726 out.offset(child.getLeft(), child.getTop()); 8727 } 8728 8729 /** 8730 * Returns the bounds of the view including its decoration and margins. 8731 * 8732 * @param view The view element to check 8733 * @param outBounds A rect that will receive the bounds of the element including its 8734 * decoration and margins. 8735 */ getDecoratedBoundsWithMargins(View view, Rect outBounds)8736 public void getDecoratedBoundsWithMargins(View view, Rect outBounds) { 8737 RecyclerView.getDecoratedBoundsWithMarginsInt(view, outBounds); 8738 } 8739 8740 /** 8741 * Returns the left edge of the given child view within its parent, offset by any applied 8742 * {@link ItemDecoration ItemDecorations}. 8743 * 8744 * @param child Child to query 8745 * @return Child left edge with offsets applied 8746 * @see #getLeftDecorationWidth(View) 8747 */ getDecoratedLeft(View child)8748 public int getDecoratedLeft(View child) { 8749 return child.getLeft() - getLeftDecorationWidth(child); 8750 } 8751 8752 /** 8753 * Returns the top edge of the given child view within its parent, offset by any applied 8754 * {@link ItemDecoration ItemDecorations}. 8755 * 8756 * @param child Child to query 8757 * @return Child top edge with offsets applied 8758 * @see #getTopDecorationHeight(View) 8759 */ getDecoratedTop(View child)8760 public int getDecoratedTop(View child) { 8761 return child.getTop() - getTopDecorationHeight(child); 8762 } 8763 8764 /** 8765 * Returns the right edge of the given child view within its parent, offset by any applied 8766 * {@link ItemDecoration ItemDecorations}. 8767 * 8768 * @param child Child to query 8769 * @return Child right edge with offsets applied 8770 * @see #getRightDecorationWidth(View) 8771 */ getDecoratedRight(View child)8772 public int getDecoratedRight(View child) { 8773 return child.getRight() + getRightDecorationWidth(child); 8774 } 8775 8776 /** 8777 * Returns the bottom edge of the given child view within its parent, offset by any applied 8778 * {@link ItemDecoration ItemDecorations}. 8779 * 8780 * @param child Child to query 8781 * @return Child bottom edge with offsets applied 8782 * @see #getBottomDecorationHeight(View) 8783 */ getDecoratedBottom(View child)8784 public int getDecoratedBottom(View child) { 8785 return child.getBottom() + getBottomDecorationHeight(child); 8786 } 8787 8788 /** 8789 * Calculates the item decor insets applied to the given child and updates the provided 8790 * Rect instance with the inset values. 8791 * <ul> 8792 * <li>The Rect's left is set to the total width of left decorations.</li> 8793 * <li>The Rect's top is set to the total height of top decorations.</li> 8794 * <li>The Rect's right is set to the total width of right decorations.</li> 8795 * <li>The Rect's bottom is set to total height of bottom decorations.</li> 8796 * </ul> 8797 * <p> 8798 * Note that item decorations are automatically calculated when one of the LayoutManager's 8799 * measure child methods is called. If you need to measure the child with custom specs via 8800 * {@link View#measure(int, int)}, you can use this method to get decorations. 8801 * 8802 * @param child The child view whose decorations should be calculated 8803 * @param outRect The Rect to hold result values 8804 */ calculateItemDecorationsForChild(View child, Rect outRect)8805 public void calculateItemDecorationsForChild(View child, Rect outRect) { 8806 if (mRecyclerView == null) { 8807 outRect.set(0, 0, 0, 0); 8808 return; 8809 } 8810 Rect insets = mRecyclerView.getItemDecorInsetsForChild(child); 8811 outRect.set(insets); 8812 } 8813 8814 /** 8815 * Returns the total height of item decorations applied to child's top. 8816 * <p> 8817 * Note that this value is not updated until the View is measured or 8818 * {@link #calculateItemDecorationsForChild(View, Rect)} is called. 8819 * 8820 * @param child Child to query 8821 * @return The total height of item decorations applied to the child's top. 8822 * @see #getDecoratedTop(View) 8823 * @see #calculateItemDecorationsForChild(View, Rect) 8824 */ getTopDecorationHeight(View child)8825 public int getTopDecorationHeight(View child) { 8826 return ((LayoutParams) child.getLayoutParams()).mDecorInsets.top; 8827 } 8828 8829 /** 8830 * Returns the total height of item decorations applied to child's bottom. 8831 * <p> 8832 * Note that this value is not updated until the View is measured or 8833 * {@link #calculateItemDecorationsForChild(View, Rect)} is called. 8834 * 8835 * @param child Child to query 8836 * @return The total height of item decorations applied to the child's bottom. 8837 * @see #getDecoratedBottom(View) 8838 * @see #calculateItemDecorationsForChild(View, Rect) 8839 */ getBottomDecorationHeight(View child)8840 public int getBottomDecorationHeight(View child) { 8841 return ((LayoutParams) child.getLayoutParams()).mDecorInsets.bottom; 8842 } 8843 8844 /** 8845 * Returns the total width of item decorations applied to child's left. 8846 * <p> 8847 * Note that this value is not updated until the View is measured or 8848 * {@link #calculateItemDecorationsForChild(View, Rect)} is called. 8849 * 8850 * @param child Child to query 8851 * @return The total width of item decorations applied to the child's left. 8852 * @see #getDecoratedLeft(View) 8853 * @see #calculateItemDecorationsForChild(View, Rect) 8854 */ getLeftDecorationWidth(View child)8855 public int getLeftDecorationWidth(View child) { 8856 return ((LayoutParams) child.getLayoutParams()).mDecorInsets.left; 8857 } 8858 8859 /** 8860 * Returns the total width of item decorations applied to child's right. 8861 * <p> 8862 * Note that this value is not updated until the View is measured or 8863 * {@link #calculateItemDecorationsForChild(View, Rect)} is called. 8864 * 8865 * @param child Child to query 8866 * @return The total width of item decorations applied to the child's right. 8867 * @see #getDecoratedRight(View) 8868 * @see #calculateItemDecorationsForChild(View, Rect) 8869 */ getRightDecorationWidth(View child)8870 public int getRightDecorationWidth(View child) { 8871 return ((LayoutParams) child.getLayoutParams()).mDecorInsets.right; 8872 } 8873 8874 /** 8875 * Called when searching for a focusable view in the given direction has failed 8876 * for the current content of the RecyclerView. 8877 * 8878 * <p>This is the LayoutManager's opportunity to populate views in the given direction 8879 * to fulfill the request if it can. The LayoutManager should attach and return 8880 * the view to be focused. The default implementation returns null.</p> 8881 * 8882 * @param focused The currently focused view 8883 * @param direction One of {@link View#FOCUS_UP}, {@link View#FOCUS_DOWN}, 8884 * {@link View#FOCUS_LEFT}, {@link View#FOCUS_RIGHT}, 8885 * {@link View#FOCUS_BACKWARD}, {@link View#FOCUS_FORWARD} 8886 * or 0 for not applicable 8887 * @param recycler The recycler to use for obtaining views for currently offscreen items 8888 * @param state Transient state of RecyclerView 8889 * @return The chosen view to be focused 8890 */ 8891 @Nullable onFocusSearchFailed(View focused, int direction, Recycler recycler, State state)8892 public View onFocusSearchFailed(View focused, int direction, Recycler recycler, 8893 State state) { 8894 return null; 8895 } 8896 8897 /** 8898 * This method gives a LayoutManager an opportunity to intercept the initial focus search 8899 * before the default behavior of {@link FocusFinder} is used. If this method returns 8900 * null FocusFinder will attempt to find a focusable child view. If it fails 8901 * then {@link #onFocusSearchFailed(View, int, RecyclerView.Recycler, RecyclerView.State)} 8902 * will be called to give the LayoutManager an opportunity to add new views for items 8903 * that did not have attached views representing them. The LayoutManager should not add 8904 * or remove views from this method. 8905 * 8906 * @param focused The currently focused view 8907 * @param direction One of {@link View#FOCUS_UP}, {@link View#FOCUS_DOWN}, 8908 * {@link View#FOCUS_LEFT}, {@link View#FOCUS_RIGHT}, 8909 * {@link View#FOCUS_BACKWARD}, {@link View#FOCUS_FORWARD} 8910 * @return A descendant view to focus or null to fall back to default behavior. 8911 * The default implementation returns null. 8912 */ onInterceptFocusSearch(View focused, int direction)8913 public View onInterceptFocusSearch(View focused, int direction) { 8914 return null; 8915 } 8916 8917 /** 8918 * Called when a child of the RecyclerView wants a particular rectangle to be positioned 8919 * onto the screen. See {@link ViewParent#requestChildRectangleOnScreen(android.view.View, 8920 * android.graphics.Rect, boolean)} for more details. 8921 * 8922 * <p>The base implementation will attempt to perform a standard programmatic scroll 8923 * to bring the given rect into view, within the padded area of the RecyclerView.</p> 8924 * 8925 * @param child The direct child making the request. 8926 * @param rect The rectangle in the child's coordinates the child 8927 * wishes to be on the screen. 8928 * @param immediate True to forbid animated or delayed scrolling, 8929 * false otherwise 8930 * @return Whether the group scrolled to handle the operation 8931 */ requestChildRectangleOnScreen(RecyclerView parent, View child, Rect rect, boolean immediate)8932 public boolean requestChildRectangleOnScreen(RecyclerView parent, View child, Rect rect, 8933 boolean immediate) { 8934 final int parentLeft = getPaddingLeft(); 8935 final int parentTop = getPaddingTop(); 8936 final int parentRight = getWidth() - getPaddingRight(); 8937 final int parentBottom = getHeight() - getPaddingBottom(); 8938 final int childLeft = child.getLeft() + rect.left - child.getScrollX(); 8939 final int childTop = child.getTop() + rect.top - child.getScrollY(); 8940 final int childRight = childLeft + rect.width(); 8941 final int childBottom = childTop + rect.height(); 8942 8943 final int offScreenLeft = Math.min(0, childLeft - parentLeft); 8944 final int offScreenTop = Math.min(0, childTop - parentTop); 8945 final int offScreenRight = Math.max(0, childRight - parentRight); 8946 final int offScreenBottom = Math.max(0, childBottom - parentBottom); 8947 8948 // Favor the "start" layout direction over the end when bringing one side or the other 8949 // of a large rect into view. If we decide to bring in end because start is already 8950 // visible, limit the scroll such that start won't go out of bounds. 8951 final int dx; 8952 if (getLayoutDirection() == View.LAYOUT_DIRECTION_RTL) { 8953 dx = offScreenRight != 0 ? offScreenRight 8954 : Math.max(offScreenLeft, childRight - parentRight); 8955 } else { 8956 dx = offScreenLeft != 0 ? offScreenLeft 8957 : Math.min(childLeft - parentLeft, offScreenRight); 8958 } 8959 8960 // Favor bringing the top into view over the bottom. If top is already visible and 8961 // we should scroll to make bottom visible, make sure top does not go out of bounds. 8962 final int dy = offScreenTop != 0 ? offScreenTop 8963 : Math.min(childTop - parentTop, offScreenBottom); 8964 8965 if (dx != 0 || dy != 0) { 8966 if (immediate) { 8967 parent.scrollBy(dx, dy); 8968 } else { 8969 parent.smoothScrollBy(dx, dy); 8970 } 8971 return true; 8972 } 8973 return false; 8974 } 8975 8976 /** 8977 * @deprecated Use {@link #onRequestChildFocus(RecyclerView, State, View, View)} 8978 */ 8979 @Deprecated onRequestChildFocus(RecyclerView parent, View child, View focused)8980 public boolean onRequestChildFocus(RecyclerView parent, View child, View focused) { 8981 // eat the request if we are in the middle of a scroll or layout 8982 return isSmoothScrolling() || parent.isComputingLayout(); 8983 } 8984 8985 /** 8986 * Called when a descendant view of the RecyclerView requests focus. 8987 * 8988 * <p>A LayoutManager wishing to keep focused views aligned in a specific 8989 * portion of the view may implement that behavior in an override of this method.</p> 8990 * 8991 * <p>If the LayoutManager executes different behavior that should override the default 8992 * behavior of scrolling the focused child on screen instead of running alongside it, 8993 * this method should return true.</p> 8994 * 8995 * @param parent The RecyclerView hosting this LayoutManager 8996 * @param state Current state of RecyclerView 8997 * @param child Direct child of the RecyclerView containing the newly focused view 8998 * @param focused The newly focused view. This may be the same view as child or it may be 8999 * null 9000 * @return true if the default scroll behavior should be suppressed 9001 */ onRequestChildFocus(RecyclerView parent, State state, View child, View focused)9002 public boolean onRequestChildFocus(RecyclerView parent, State state, View child, 9003 View focused) { 9004 return onRequestChildFocus(parent, child, focused); 9005 } 9006 9007 /** 9008 * Called if the RecyclerView this LayoutManager is bound to has a different adapter set. 9009 * The LayoutManager may use this opportunity to clear caches and configure state such 9010 * that it can relayout appropriately with the new data and potentially new view types. 9011 * 9012 * <p>The default implementation removes all currently attached views.</p> 9013 * 9014 * @param oldAdapter The previous adapter instance. Will be null if there was previously no 9015 * adapter. 9016 * @param newAdapter The new adapter instance. Might be null if 9017 * {@link #setAdapter(RecyclerView.Adapter)} is called with {@code null}. 9018 */ onAdapterChanged(Adapter oldAdapter, Adapter newAdapter)9019 public void onAdapterChanged(Adapter oldAdapter, Adapter newAdapter) { 9020 } 9021 9022 /** 9023 * Called to populate focusable views within the RecyclerView. 9024 * 9025 * <p>The LayoutManager implementation should return <code>true</code> if the default 9026 * behavior of {@link ViewGroup#addFocusables(java.util.ArrayList, int)} should be 9027 * suppressed.</p> 9028 * 9029 * <p>The default implementation returns <code>false</code> to trigger RecyclerView 9030 * to fall back to the default ViewGroup behavior.</p> 9031 * 9032 * @param recyclerView The RecyclerView hosting this LayoutManager 9033 * @param views List of output views. This method should add valid focusable views 9034 * to this list. 9035 * @param direction One of {@link View#FOCUS_UP}, {@link View#FOCUS_DOWN}, 9036 * {@link View#FOCUS_LEFT}, {@link View#FOCUS_RIGHT}, 9037 * {@link View#FOCUS_BACKWARD}, {@link View#FOCUS_FORWARD} 9038 * @param focusableMode The type of focusables to be added. 9039 * 9040 * @return true to suppress the default behavior, false to add default focusables after 9041 * this method returns. 9042 * 9043 * @see #FOCUSABLES_ALL 9044 * @see #FOCUSABLES_TOUCH_MODE 9045 */ onAddFocusables(RecyclerView recyclerView, ArrayList<View> views, int direction, int focusableMode)9046 public boolean onAddFocusables(RecyclerView recyclerView, ArrayList<View> views, 9047 int direction, int focusableMode) { 9048 return false; 9049 } 9050 9051 /** 9052 * Called when {@link Adapter#notifyDataSetChanged()} is triggered instead of giving 9053 * detailed information on what has actually changed. 9054 * 9055 * @param recyclerView 9056 */ onItemsChanged(RecyclerView recyclerView)9057 public void onItemsChanged(RecyclerView recyclerView) { 9058 } 9059 9060 /** 9061 * Called when items have been added to the adapter. The LayoutManager may choose to 9062 * requestLayout if the inserted items would require refreshing the currently visible set 9063 * of child views. (e.g. currently empty space would be filled by appended items, etc.) 9064 * 9065 * @param recyclerView 9066 * @param positionStart 9067 * @param itemCount 9068 */ onItemsAdded(RecyclerView recyclerView, int positionStart, int itemCount)9069 public void onItemsAdded(RecyclerView recyclerView, int positionStart, int itemCount) { 9070 } 9071 9072 /** 9073 * Called when items have been removed from the adapter. 9074 * 9075 * @param recyclerView 9076 * @param positionStart 9077 * @param itemCount 9078 */ onItemsRemoved(RecyclerView recyclerView, int positionStart, int itemCount)9079 public void onItemsRemoved(RecyclerView recyclerView, int positionStart, int itemCount) { 9080 } 9081 9082 /** 9083 * Called when items have been changed in the adapter. 9084 * To receive payload, override {@link #onItemsUpdated(RecyclerView, int, int, Object)} 9085 * instead, then this callback will not be invoked. 9086 * 9087 * @param recyclerView 9088 * @param positionStart 9089 * @param itemCount 9090 */ onItemsUpdated(RecyclerView recyclerView, int positionStart, int itemCount)9091 public void onItemsUpdated(RecyclerView recyclerView, int positionStart, int itemCount) { 9092 } 9093 9094 /** 9095 * Called when items have been changed in the adapter and with optional payload. 9096 * Default implementation calls {@link #onItemsUpdated(RecyclerView, int, int)}. 9097 * 9098 * @param recyclerView 9099 * @param positionStart 9100 * @param itemCount 9101 * @param payload 9102 */ onItemsUpdated(RecyclerView recyclerView, int positionStart, int itemCount, Object payload)9103 public void onItemsUpdated(RecyclerView recyclerView, int positionStart, int itemCount, 9104 Object payload) { 9105 onItemsUpdated(recyclerView, positionStart, itemCount); 9106 } 9107 9108 /** 9109 * Called when an item is moved withing the adapter. 9110 * <p> 9111 * Note that, an item may also change position in response to another ADD/REMOVE/MOVE 9112 * operation. This callback is only called if and only if {@link Adapter#notifyItemMoved} 9113 * is called. 9114 * 9115 * @param recyclerView 9116 * @param from 9117 * @param to 9118 * @param itemCount 9119 */ onItemsMoved(RecyclerView recyclerView, int from, int to, int itemCount)9120 public void onItemsMoved(RecyclerView recyclerView, int from, int to, int itemCount) { 9121 9122 } 9123 9124 9125 /** 9126 * <p>Override this method if you want to support scroll bars.</p> 9127 * 9128 * <p>Read {@link RecyclerView#computeHorizontalScrollExtent()} for details.</p> 9129 * 9130 * <p>Default implementation returns 0.</p> 9131 * 9132 * @param state Current state of RecyclerView 9133 * @return The horizontal extent of the scrollbar's thumb 9134 * @see RecyclerView#computeHorizontalScrollExtent() 9135 */ computeHorizontalScrollExtent(State state)9136 public int computeHorizontalScrollExtent(State state) { 9137 return 0; 9138 } 9139 9140 /** 9141 * <p>Override this method if you want to support scroll bars.</p> 9142 * 9143 * <p>Read {@link RecyclerView#computeHorizontalScrollOffset()} for details.</p> 9144 * 9145 * <p>Default implementation returns 0.</p> 9146 * 9147 * @param state Current State of RecyclerView where you can find total item count 9148 * @return The horizontal offset of the scrollbar's thumb 9149 * @see RecyclerView#computeHorizontalScrollOffset() 9150 */ computeHorizontalScrollOffset(State state)9151 public int computeHorizontalScrollOffset(State state) { 9152 return 0; 9153 } 9154 9155 /** 9156 * <p>Override this method if you want to support scroll bars.</p> 9157 * 9158 * <p>Read {@link RecyclerView#computeHorizontalScrollRange()} for details.</p> 9159 * 9160 * <p>Default implementation returns 0.</p> 9161 * 9162 * @param state Current State of RecyclerView where you can find total item count 9163 * @return The total horizontal range represented by the vertical scrollbar 9164 * @see RecyclerView#computeHorizontalScrollRange() 9165 */ computeHorizontalScrollRange(State state)9166 public int computeHorizontalScrollRange(State state) { 9167 return 0; 9168 } 9169 9170 /** 9171 * <p>Override this method if you want to support scroll bars.</p> 9172 * 9173 * <p>Read {@link RecyclerView#computeVerticalScrollExtent()} for details.</p> 9174 * 9175 * <p>Default implementation returns 0.</p> 9176 * 9177 * @param state Current state of RecyclerView 9178 * @return The vertical extent of the scrollbar's thumb 9179 * @see RecyclerView#computeVerticalScrollExtent() 9180 */ computeVerticalScrollExtent(State state)9181 public int computeVerticalScrollExtent(State state) { 9182 return 0; 9183 } 9184 9185 /** 9186 * <p>Override this method if you want to support scroll bars.</p> 9187 * 9188 * <p>Read {@link RecyclerView#computeVerticalScrollOffset()} for details.</p> 9189 * 9190 * <p>Default implementation returns 0.</p> 9191 * 9192 * @param state Current State of RecyclerView where you can find total item count 9193 * @return The vertical offset of the scrollbar's thumb 9194 * @see RecyclerView#computeVerticalScrollOffset() 9195 */ computeVerticalScrollOffset(State state)9196 public int computeVerticalScrollOffset(State state) { 9197 return 0; 9198 } 9199 9200 /** 9201 * <p>Override this method if you want to support scroll bars.</p> 9202 * 9203 * <p>Read {@link RecyclerView#computeVerticalScrollRange()} for details.</p> 9204 * 9205 * <p>Default implementation returns 0.</p> 9206 * 9207 * @param state Current State of RecyclerView where you can find total item count 9208 * @return The total vertical range represented by the vertical scrollbar 9209 * @see RecyclerView#computeVerticalScrollRange() 9210 */ computeVerticalScrollRange(State state)9211 public int computeVerticalScrollRange(State state) { 9212 return 0; 9213 } 9214 9215 /** 9216 * Measure the attached RecyclerView. Implementations must call 9217 * {@link #setMeasuredDimension(int, int)} before returning. 9218 * 9219 * <p>The default implementation will handle EXACTLY measurements and respect 9220 * the minimum width and height properties of the host RecyclerView if measured 9221 * as UNSPECIFIED. AT_MOST measurements will be treated as EXACTLY and the RecyclerView 9222 * will consume all available space.</p> 9223 * 9224 * @param recycler Recycler 9225 * @param state Transient state of RecyclerView 9226 * @param widthSpec Width {@link android.view.View.MeasureSpec} 9227 * @param heightSpec Height {@link android.view.View.MeasureSpec} 9228 */ onMeasure(Recycler recycler, State state, int widthSpec, int heightSpec)9229 public void onMeasure(Recycler recycler, State state, int widthSpec, int heightSpec) { 9230 mRecyclerView.defaultOnMeasure(widthSpec, heightSpec); 9231 } 9232 9233 /** 9234 * {@link View#setMeasuredDimension(int, int) Set the measured dimensions} of the 9235 * host RecyclerView. 9236 * 9237 * @param widthSize Measured width 9238 * @param heightSize Measured height 9239 */ setMeasuredDimension(int widthSize, int heightSize)9240 public void setMeasuredDimension(int widthSize, int heightSize) { 9241 mRecyclerView.setMeasuredDimension(widthSize, heightSize); 9242 } 9243 9244 /** 9245 * @return The host RecyclerView's {@link View#getMinimumWidth()} 9246 */ getMinimumWidth()9247 public int getMinimumWidth() { 9248 return mRecyclerView.getMinimumWidth(); 9249 } 9250 9251 /** 9252 * @return The host RecyclerView's {@link View#getMinimumHeight()} 9253 */ getMinimumHeight()9254 public int getMinimumHeight() { 9255 return mRecyclerView.getMinimumHeight(); 9256 } 9257 /** 9258 * <p>Called when the LayoutManager should save its state. This is a good time to save your 9259 * scroll position, configuration and anything else that may be required to restore the same 9260 * layout state if the LayoutManager is recreated.</p> 9261 * <p>RecyclerView does NOT verify if the LayoutManager has changed between state save and 9262 * restore. This will let you share information between your LayoutManagers but it is also 9263 * your responsibility to make sure they use the same parcelable class.</p> 9264 * 9265 * @return Necessary information for LayoutManager to be able to restore its state 9266 */ onSaveInstanceState()9267 public Parcelable onSaveInstanceState() { 9268 return null; 9269 } 9270 9271 onRestoreInstanceState(Parcelable state)9272 public void onRestoreInstanceState(Parcelable state) { 9273 9274 } 9275 stopSmoothScroller()9276 void stopSmoothScroller() { 9277 if (mSmoothScroller != null) { 9278 mSmoothScroller.stop(); 9279 } 9280 } 9281 onSmoothScrollerStopped(SmoothScroller smoothScroller)9282 private void onSmoothScrollerStopped(SmoothScroller smoothScroller) { 9283 if (mSmoothScroller == smoothScroller) { 9284 mSmoothScroller = null; 9285 } 9286 } 9287 9288 /** 9289 * RecyclerView calls this method to notify LayoutManager that scroll state has changed. 9290 * 9291 * @param state The new scroll state for RecyclerView 9292 */ onScrollStateChanged(int state)9293 public void onScrollStateChanged(int state) { 9294 } 9295 9296 /** 9297 * Removes all views and recycles them using the given recycler. 9298 * <p> 9299 * If you want to clean cached views as well, you should call {@link Recycler#clear()} too. 9300 * <p> 9301 * If a View is marked as "ignored", it is not removed nor recycled. 9302 * 9303 * @param recycler Recycler to use to recycle children 9304 * @see #removeAndRecycleView(View, Recycler) 9305 * @see #removeAndRecycleViewAt(int, Recycler) 9306 * @see #ignoreView(View) 9307 */ removeAndRecycleAllViews(Recycler recycler)9308 public void removeAndRecycleAllViews(Recycler recycler) { 9309 for (int i = getChildCount() - 1; i >= 0; i--) { 9310 final View view = getChildAt(i); 9311 if (!getChildViewHolderInt(view).shouldIgnore()) { 9312 removeAndRecycleViewAt(i, recycler); 9313 } 9314 } 9315 } 9316 9317 // called by accessibility delegate onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo info)9318 void onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo info) { 9319 onInitializeAccessibilityNodeInfo(mRecyclerView.mRecycler, mRecyclerView.mState, info); 9320 } 9321 9322 /** 9323 * Called by the AccessibilityDelegate when the information about the current layout should 9324 * be populated. 9325 * <p> 9326 * Default implementation adds a {@link 9327 * android.view.accessibility.AccessibilityNodeInfo.CollectionInfo}. 9328 * <p> 9329 * You should override 9330 * {@link #getRowCountForAccessibility(RecyclerView.Recycler, RecyclerView.State)}, 9331 * {@link #getColumnCountForAccessibility(RecyclerView.Recycler, RecyclerView.State)}, 9332 * {@link #isLayoutHierarchical(RecyclerView.Recycler, RecyclerView.State)} and 9333 * {@link #getSelectionModeForAccessibility(RecyclerView.Recycler, RecyclerView.State)} for 9334 * more accurate accessibility information. 9335 * 9336 * @param recycler The Recycler that can be used to convert view positions into adapter 9337 * positions 9338 * @param state The current state of RecyclerView 9339 * @param info The info that should be filled by the LayoutManager 9340 * @see View#onInitializeAccessibilityNodeInfo( 9341 *android.view.accessibility.AccessibilityNodeInfo) 9342 * @see #getRowCountForAccessibility(RecyclerView.Recycler, RecyclerView.State) 9343 * @see #getColumnCountForAccessibility(RecyclerView.Recycler, RecyclerView.State) 9344 * @see #isLayoutHierarchical(RecyclerView.Recycler, RecyclerView.State) 9345 * @see #getSelectionModeForAccessibility(RecyclerView.Recycler, RecyclerView.State) 9346 */ onInitializeAccessibilityNodeInfo(Recycler recycler, State state, AccessibilityNodeInfo info)9347 public void onInitializeAccessibilityNodeInfo(Recycler recycler, State state, 9348 AccessibilityNodeInfo info) { 9349 if (mRecyclerView.canScrollVertically(-1) 9350 || mRecyclerView.canScrollHorizontally(-1)) { 9351 info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD); 9352 info.setScrollable(true); 9353 } 9354 if (mRecyclerView.canScrollVertically(1) 9355 || mRecyclerView.canScrollHorizontally(1)) { 9356 info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_FORWARD); 9357 info.setScrollable(true); 9358 } 9359 final AccessibilityNodeInfo.CollectionInfo collectionInfo = 9360 AccessibilityNodeInfo.CollectionInfo 9361 .obtain(getRowCountForAccessibility(recycler, state), 9362 getColumnCountForAccessibility(recycler, state), 9363 isLayoutHierarchical(recycler, state), 9364 getSelectionModeForAccessibility(recycler, state)); 9365 info.setCollectionInfo(collectionInfo); 9366 } 9367 9368 // called by accessibility delegate onInitializeAccessibilityEvent(AccessibilityEvent event)9369 public void onInitializeAccessibilityEvent(AccessibilityEvent event) { 9370 onInitializeAccessibilityEvent(mRecyclerView.mRecycler, mRecyclerView.mState, event); 9371 } 9372 9373 /** 9374 * Called by the accessibility delegate to initialize an accessibility event. 9375 * <p> 9376 * Default implementation adds item count and scroll information to the event. 9377 * 9378 * @param recycler The Recycler that can be used to convert view positions into adapter 9379 * positions 9380 * @param state The current state of RecyclerView 9381 * @param event The event instance to initialize 9382 * @see View#onInitializeAccessibilityEvent(android.view.accessibility.AccessibilityEvent) 9383 */ onInitializeAccessibilityEvent(Recycler recycler, State state, AccessibilityEvent event)9384 public void onInitializeAccessibilityEvent(Recycler recycler, State state, 9385 AccessibilityEvent event) { 9386 if (mRecyclerView == null || event == null) { 9387 return; 9388 } 9389 event.setScrollable(mRecyclerView.canScrollVertically(1) 9390 || mRecyclerView.canScrollVertically(-1) 9391 || mRecyclerView.canScrollHorizontally(-1) 9392 || mRecyclerView.canScrollHorizontally(1)); 9393 9394 if (mRecyclerView.mAdapter != null) { 9395 event.setItemCount(mRecyclerView.mAdapter.getItemCount()); 9396 } 9397 } 9398 9399 // called by accessibility delegate onInitializeAccessibilityNodeInfoForItem(View host, AccessibilityNodeInfo info)9400 void onInitializeAccessibilityNodeInfoForItem(View host, AccessibilityNodeInfo info) { 9401 final ViewHolder vh = getChildViewHolderInt(host); 9402 // avoid trying to create accessibility node info for removed children 9403 if (vh != null && !vh.isRemoved() && !mChildHelper.isHidden(vh.itemView)) { 9404 onInitializeAccessibilityNodeInfoForItem(mRecyclerView.mRecycler, 9405 mRecyclerView.mState, host, info); 9406 } 9407 } 9408 9409 /** 9410 * Called by the AccessibilityDelegate when the accessibility information for a specific 9411 * item should be populated. 9412 * <p> 9413 * Default implementation adds basic positioning information about the item. 9414 * 9415 * @param recycler The Recycler that can be used to convert view positions into adapter 9416 * positions 9417 * @param state The current state of RecyclerView 9418 * @param host The child for which accessibility node info should be populated 9419 * @param info The info to fill out about the item 9420 * @see android.widget.AbsListView#onInitializeAccessibilityNodeInfoForItem(View, int, 9421 * android.view.accessibility.AccessibilityNodeInfo) 9422 */ onInitializeAccessibilityNodeInfoForItem(Recycler recycler, State state, View host, AccessibilityNodeInfo info)9423 public void onInitializeAccessibilityNodeInfoForItem(Recycler recycler, State state, 9424 View host, AccessibilityNodeInfo info) { 9425 int rowIndexGuess = canScrollVertically() ? getPosition(host) : 0; 9426 int columnIndexGuess = canScrollHorizontally() ? getPosition(host) : 0; 9427 final AccessibilityNodeInfo.CollectionItemInfo itemInfo = 9428 AccessibilityNodeInfo.CollectionItemInfo.obtain(rowIndexGuess, 1, 9429 columnIndexGuess, 1, false, false); 9430 info.setCollectionItemInfo(itemInfo); 9431 } 9432 9433 /** 9434 * A LayoutManager can call this method to force RecyclerView to run simple animations in 9435 * the next layout pass, even if there is not any trigger to do so. (e.g. adapter data 9436 * change). 9437 * <p> 9438 * Note that, calling this method will not guarantee that RecyclerView will run animations 9439 * at all. For example, if there is not any {@link ItemAnimator} set, RecyclerView will 9440 * not run any animations but will still clear this flag after the layout is complete. 9441 * 9442 */ requestSimpleAnimationsInNextLayout()9443 public void requestSimpleAnimationsInNextLayout() { 9444 mRequestedSimpleAnimations = true; 9445 } 9446 9447 /** 9448 * Returns the selection mode for accessibility. Should be 9449 * {@link AccessibilityNodeInfo.CollectionInfo#SELECTION_MODE_NONE}, 9450 * {@link AccessibilityNodeInfo.CollectionInfo#SELECTION_MODE_SINGLE} or 9451 * {@link AccessibilityNodeInfo.CollectionInfo#SELECTION_MODE_MULTIPLE}. 9452 * <p> 9453 * Default implementation returns 9454 * {@link AccessibilityNodeInfo.CollectionInfo#SELECTION_MODE_NONE}. 9455 * 9456 * @param recycler The Recycler that can be used to convert view positions into adapter 9457 * positions 9458 * @param state The current state of RecyclerView 9459 * @return Selection mode for accessibility. Default implementation returns 9460 * {@link AccessibilityNodeInfo.CollectionInfo#SELECTION_MODE_NONE}. 9461 */ getSelectionModeForAccessibility(Recycler recycler, State state)9462 public int getSelectionModeForAccessibility(Recycler recycler, State state) { 9463 return AccessibilityNodeInfo.CollectionInfo.SELECTION_MODE_NONE; 9464 } 9465 9466 /** 9467 * Returns the number of rows for accessibility. 9468 * <p> 9469 * Default implementation returns the number of items in the adapter if LayoutManager 9470 * supports vertical scrolling or 1 if LayoutManager does not support vertical 9471 * scrolling. 9472 * 9473 * @param recycler The Recycler that can be used to convert view positions into adapter 9474 * positions 9475 * @param state The current state of RecyclerView 9476 * @return The number of rows in LayoutManager for accessibility. 9477 */ getRowCountForAccessibility(Recycler recycler, State state)9478 public int getRowCountForAccessibility(Recycler recycler, State state) { 9479 if (mRecyclerView == null || mRecyclerView.mAdapter == null) { 9480 return 1; 9481 } 9482 return canScrollVertically() ? mRecyclerView.mAdapter.getItemCount() : 1; 9483 } 9484 9485 /** 9486 * Returns the number of columns for accessibility. 9487 * <p> 9488 * Default implementation returns the number of items in the adapter if LayoutManager 9489 * supports horizontal scrolling or 1 if LayoutManager does not support horizontal 9490 * scrolling. 9491 * 9492 * @param recycler The Recycler that can be used to convert view positions into adapter 9493 * positions 9494 * @param state The current state of RecyclerView 9495 * @return The number of rows in LayoutManager for accessibility. 9496 */ getColumnCountForAccessibility(Recycler recycler, State state)9497 public int getColumnCountForAccessibility(Recycler recycler, State state) { 9498 if (mRecyclerView == null || mRecyclerView.mAdapter == null) { 9499 return 1; 9500 } 9501 return canScrollHorizontally() ? mRecyclerView.mAdapter.getItemCount() : 1; 9502 } 9503 9504 /** 9505 * Returns whether layout is hierarchical or not to be used for accessibility. 9506 * <p> 9507 * Default implementation returns false. 9508 * 9509 * @param recycler The Recycler that can be used to convert view positions into adapter 9510 * positions 9511 * @param state The current state of RecyclerView 9512 * @return True if layout is hierarchical. 9513 */ isLayoutHierarchical(Recycler recycler, State state)9514 public boolean isLayoutHierarchical(Recycler recycler, State state) { 9515 return false; 9516 } 9517 9518 // called by accessibility delegate performAccessibilityAction(int action, Bundle args)9519 boolean performAccessibilityAction(int action, Bundle args) { 9520 return performAccessibilityAction(mRecyclerView.mRecycler, mRecyclerView.mState, 9521 action, args); 9522 } 9523 9524 /** 9525 * Called by AccessibilityDelegate when an action is requested from the RecyclerView. 9526 * 9527 * @param recycler The Recycler that can be used to convert view positions into adapter 9528 * positions 9529 * @param state The current state of RecyclerView 9530 * @param action The action to perform 9531 * @param args Optional action arguments 9532 * @see View#performAccessibilityAction(int, android.os.Bundle) 9533 */ performAccessibilityAction(Recycler recycler, State state, int action, Bundle args)9534 public boolean performAccessibilityAction(Recycler recycler, State state, int action, 9535 Bundle args) { 9536 if (mRecyclerView == null) { 9537 return false; 9538 } 9539 int vScroll = 0, hScroll = 0; 9540 switch (action) { 9541 case AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD: 9542 if (mRecyclerView.canScrollVertically(-1)) { 9543 vScroll = -(getHeight() - getPaddingTop() - getPaddingBottom()); 9544 } 9545 if (mRecyclerView.canScrollHorizontally(-1)) { 9546 hScroll = -(getWidth() - getPaddingLeft() - getPaddingRight()); 9547 } 9548 break; 9549 case AccessibilityNodeInfo.ACTION_SCROLL_FORWARD: 9550 if (mRecyclerView.canScrollVertically(1)) { 9551 vScroll = getHeight() - getPaddingTop() - getPaddingBottom(); 9552 } 9553 if (mRecyclerView.canScrollHorizontally(1)) { 9554 hScroll = getWidth() - getPaddingLeft() - getPaddingRight(); 9555 } 9556 break; 9557 } 9558 if (vScroll == 0 && hScroll == 0) { 9559 return false; 9560 } 9561 mRecyclerView.smoothScrollBy(hScroll, vScroll); 9562 return true; 9563 } 9564 9565 // called by accessibility delegate performAccessibilityActionForItem(View view, int action, Bundle args)9566 boolean performAccessibilityActionForItem(View view, int action, Bundle args) { 9567 return performAccessibilityActionForItem(mRecyclerView.mRecycler, mRecyclerView.mState, 9568 view, action, args); 9569 } 9570 9571 /** 9572 * Called by AccessibilityDelegate when an accessibility action is requested on one of the 9573 * children of LayoutManager. 9574 * <p> 9575 * Default implementation does not do anything. 9576 * 9577 * @param recycler The Recycler that can be used to convert view positions into adapter 9578 * positions 9579 * @param state The current state of RecyclerView 9580 * @param view The child view on which the action is performed 9581 * @param action The action to perform 9582 * @param args Optional action arguments 9583 * @return true if action is handled 9584 * @see View#performAccessibilityAction(int, android.os.Bundle) 9585 */ performAccessibilityActionForItem(Recycler recycler, State state, View view, int action, Bundle args)9586 public boolean performAccessibilityActionForItem(Recycler recycler, State state, View view, 9587 int action, Bundle args) { 9588 return false; 9589 } 9590 9591 /** 9592 * Parse the xml attributes to get the most common properties used by layout managers. 9593 * 9594 * @return an object containing the properties as specified in the attrs. 9595 */ getProperties(Context context, AttributeSet attrs, int defStyleAttr, int defStyleRes)9596 public static Properties getProperties(Context context, AttributeSet attrs, 9597 int defStyleAttr, int defStyleRes) { 9598 Properties properties = new Properties(); 9599 TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.RecyclerView, 9600 defStyleAttr, defStyleRes); 9601 properties.orientation = a.getInt(R.styleable.RecyclerView_orientation, VERTICAL); 9602 properties.spanCount = a.getInt(R.styleable.RecyclerView_spanCount, 1); 9603 properties.reverseLayout = a.getBoolean(R.styleable.RecyclerView_reverseLayout, false); 9604 properties.stackFromEnd = a.getBoolean(R.styleable.RecyclerView_stackFromEnd, false); 9605 a.recycle(); 9606 return properties; 9607 } 9608 setExactMeasureSpecsFrom(RecyclerView recyclerView)9609 void setExactMeasureSpecsFrom(RecyclerView recyclerView) { 9610 setMeasureSpecs( 9611 MeasureSpec.makeMeasureSpec(recyclerView.getWidth(), MeasureSpec.EXACTLY), 9612 MeasureSpec.makeMeasureSpec(recyclerView.getHeight(), MeasureSpec.EXACTLY) 9613 ); 9614 } 9615 9616 /** 9617 * Internal API to allow LayoutManagers to be measured twice. 9618 * <p> 9619 * This is not public because LayoutManagers should be able to handle their layouts in one 9620 * pass but it is very convenient to make existing LayoutManagers support wrapping content 9621 * when both orientations are undefined. 9622 * <p> 9623 * This API will be removed after default LayoutManagers properly implement wrap content in 9624 * non-scroll orientation. 9625 */ shouldMeasureTwice()9626 boolean shouldMeasureTwice() { 9627 return false; 9628 } 9629 hasFlexibleChildInBothOrientations()9630 boolean hasFlexibleChildInBothOrientations() { 9631 final int childCount = getChildCount(); 9632 for (int i = 0; i < childCount; i++) { 9633 final View child = getChildAt(i); 9634 final ViewGroup.LayoutParams lp = child.getLayoutParams(); 9635 if (lp.width < 0 && lp.height < 0) { 9636 return true; 9637 } 9638 } 9639 return false; 9640 } 9641 9642 /** 9643 * Some general properties that a LayoutManager may want to use. 9644 */ 9645 public static class Properties { 9646 /** @attr ref android.support.v7.recyclerview.R.styleable#RecyclerView_android_orientation */ 9647 public int orientation; 9648 /** @attr ref android.support.v7.recyclerview.R.styleable#RecyclerView_spanCount */ 9649 public int spanCount; 9650 /** @attr ref android.support.v7.recyclerview.R.styleable#RecyclerView_reverseLayout */ 9651 public boolean reverseLayout; 9652 /** @attr ref android.support.v7.recyclerview.R.styleable#RecyclerView_stackFromEnd */ 9653 public boolean stackFromEnd; 9654 } 9655 } 9656 9657 /** 9658 * An ItemDecoration allows the application to add a special drawing and layout offset 9659 * to specific item views from the adapter's data set. This can be useful for drawing dividers 9660 * between items, highlights, visual grouping boundaries and more. 9661 * 9662 * <p>All ItemDecorations are drawn in the order they were added, before the item 9663 * views (in {@link ItemDecoration#onDraw(Canvas, RecyclerView, RecyclerView.State) onDraw()} 9664 * and after the items (in {@link ItemDecoration#onDrawOver(Canvas, RecyclerView, 9665 * RecyclerView.State)}.</p> 9666 */ 9667 public abstract static class ItemDecoration { 9668 /** 9669 * Draw any appropriate decorations into the Canvas supplied to the RecyclerView. 9670 * Any content drawn by this method will be drawn before the item views are drawn, 9671 * and will thus appear underneath the views. 9672 * 9673 * @param c Canvas to draw into 9674 * @param parent RecyclerView this ItemDecoration is drawing into 9675 * @param state The current state of RecyclerView 9676 */ onDraw(Canvas c, RecyclerView parent, State state)9677 public void onDraw(Canvas c, RecyclerView parent, State state) { 9678 onDraw(c, parent); 9679 } 9680 9681 /** 9682 * @deprecated 9683 * Override {@link #onDraw(Canvas, RecyclerView, RecyclerView.State)} 9684 */ 9685 @Deprecated onDraw(Canvas c, RecyclerView parent)9686 public void onDraw(Canvas c, RecyclerView parent) { 9687 } 9688 9689 /** 9690 * Draw any appropriate decorations into the Canvas supplied to the RecyclerView. 9691 * Any content drawn by this method will be drawn after the item views are drawn 9692 * and will thus appear over the views. 9693 * 9694 * @param c Canvas to draw into 9695 * @param parent RecyclerView this ItemDecoration is drawing into 9696 * @param state The current state of RecyclerView. 9697 */ onDrawOver(Canvas c, RecyclerView parent, State state)9698 public void onDrawOver(Canvas c, RecyclerView parent, State state) { 9699 onDrawOver(c, parent); 9700 } 9701 9702 /** 9703 * @deprecated 9704 * Override {@link #onDrawOver(Canvas, RecyclerView, RecyclerView.State)} 9705 */ 9706 @Deprecated onDrawOver(Canvas c, RecyclerView parent)9707 public void onDrawOver(Canvas c, RecyclerView parent) { 9708 } 9709 9710 9711 /** 9712 * @deprecated 9713 * Use {@link #getItemOffsets(Rect, View, RecyclerView, State)} 9714 */ 9715 @Deprecated getItemOffsets(Rect outRect, int itemPosition, RecyclerView parent)9716 public void getItemOffsets(Rect outRect, int itemPosition, RecyclerView parent) { 9717 outRect.set(0, 0, 0, 0); 9718 } 9719 9720 /** 9721 * Retrieve any offsets for the given item. Each field of <code>outRect</code> specifies 9722 * the number of pixels that the item view should be inset by, similar to padding or margin. 9723 * The default implementation sets the bounds of outRect to 0 and returns. 9724 * 9725 * <p> 9726 * If this ItemDecoration does not affect the positioning of item views, it should set 9727 * all four fields of <code>outRect</code> (left, top, right, bottom) to zero 9728 * before returning. 9729 * 9730 * <p> 9731 * If you need to access Adapter for additional data, you can call 9732 * {@link RecyclerView#getChildAdapterPosition(View)} to get the adapter position of the 9733 * View. 9734 * 9735 * @param outRect Rect to receive the output. 9736 * @param view The child view to decorate 9737 * @param parent RecyclerView this ItemDecoration is decorating 9738 * @param state The current state of RecyclerView. 9739 */ getItemOffsets(Rect outRect, View view, RecyclerView parent, State state)9740 public void getItemOffsets(Rect outRect, View view, RecyclerView parent, State state) { 9741 getItemOffsets(outRect, ((LayoutParams) view.getLayoutParams()).getViewLayoutPosition(), 9742 parent); 9743 } 9744 } 9745 9746 /** 9747 * An OnItemTouchListener allows the application to intercept touch events in progress at the 9748 * view hierarchy level of the RecyclerView before those touch events are considered for 9749 * RecyclerView's own scrolling behavior. 9750 * 9751 * <p>This can be useful for applications that wish to implement various forms of gestural 9752 * manipulation of item views within the RecyclerView. OnItemTouchListeners may intercept 9753 * a touch interaction already in progress even if the RecyclerView is already handling that 9754 * gesture stream itself for the purposes of scrolling.</p> 9755 * 9756 * @see SimpleOnItemTouchListener 9757 */ 9758 public interface OnItemTouchListener { 9759 /** 9760 * Silently observe and/or take over touch events sent to the RecyclerView 9761 * before they are handled by either the RecyclerView itself or its child views. 9762 * 9763 * <p>The onInterceptTouchEvent methods of each attached OnItemTouchListener will be run 9764 * in the order in which each listener was added, before any other touch processing 9765 * by the RecyclerView itself or child views occurs.</p> 9766 * 9767 * @param e MotionEvent describing the touch event. All coordinates are in 9768 * the RecyclerView's coordinate system. 9769 * @return true if this OnItemTouchListener wishes to begin intercepting touch events, false 9770 * to continue with the current behavior and continue observing future events in 9771 * the gesture. 9772 */ onInterceptTouchEvent(RecyclerView rv, MotionEvent e)9773 boolean onInterceptTouchEvent(RecyclerView rv, MotionEvent e); 9774 9775 /** 9776 * Process a touch event as part of a gesture that was claimed by returning true from 9777 * a previous call to {@link #onInterceptTouchEvent}. 9778 * 9779 * @param e MotionEvent describing the touch event. All coordinates are in 9780 * the RecyclerView's coordinate system. 9781 */ onTouchEvent(RecyclerView rv, MotionEvent e)9782 void onTouchEvent(RecyclerView rv, MotionEvent e); 9783 9784 /** 9785 * Called when a child of RecyclerView does not want RecyclerView and its ancestors to 9786 * intercept touch events with 9787 * {@link ViewGroup#onInterceptTouchEvent(MotionEvent)}. 9788 * 9789 * @param disallowIntercept True if the child does not want the parent to 9790 * intercept touch events. 9791 * @see ViewParent#requestDisallowInterceptTouchEvent(boolean) 9792 */ onRequestDisallowInterceptTouchEvent(boolean disallowIntercept)9793 void onRequestDisallowInterceptTouchEvent(boolean disallowIntercept); 9794 } 9795 9796 /** 9797 * An implementation of {@link RecyclerView.OnItemTouchListener} that has empty method bodies 9798 * and default return values. 9799 * <p> 9800 * You may prefer to extend this class if you don't need to override all methods. Another 9801 * benefit of using this class is future compatibility. As the interface may change, we'll 9802 * always provide a default implementation on this class so that your code won't break when 9803 * you update to a new version of the support library. 9804 */ 9805 public static class SimpleOnItemTouchListener implements RecyclerView.OnItemTouchListener { 9806 @Override onInterceptTouchEvent(RecyclerView rv, MotionEvent e)9807 public boolean onInterceptTouchEvent(RecyclerView rv, MotionEvent e) { 9808 return false; 9809 } 9810 9811 @Override onTouchEvent(RecyclerView rv, MotionEvent e)9812 public void onTouchEvent(RecyclerView rv, MotionEvent e) { 9813 } 9814 9815 @Override onRequestDisallowInterceptTouchEvent(boolean disallowIntercept)9816 public void onRequestDisallowInterceptTouchEvent(boolean disallowIntercept) { 9817 } 9818 } 9819 9820 9821 /** 9822 * An OnScrollListener can be added to a RecyclerView to receive messages when a scrolling event 9823 * has occurred on that RecyclerView. 9824 * <p> 9825 * @see RecyclerView#addOnScrollListener(OnScrollListener) 9826 * @see RecyclerView#clearOnChildAttachStateChangeListeners() 9827 * 9828 */ 9829 public abstract static class OnScrollListener { 9830 /** 9831 * Callback method to be invoked when RecyclerView's scroll state changes. 9832 * 9833 * @param recyclerView The RecyclerView whose scroll state has changed. 9834 * @param newState The updated scroll state. One of {@link #SCROLL_STATE_IDLE}, 9835 * {@link #SCROLL_STATE_DRAGGING} or {@link #SCROLL_STATE_SETTLING}. 9836 */ onScrollStateChanged(RecyclerView recyclerView, int newState)9837 public void onScrollStateChanged(RecyclerView recyclerView, int newState){} 9838 9839 /** 9840 * Callback method to be invoked when the RecyclerView has been scrolled. This will be 9841 * called after the scroll has completed. 9842 * <p> 9843 * This callback will also be called if visible item range changes after a layout 9844 * calculation. In that case, dx and dy will be 0. 9845 * 9846 * @param recyclerView The RecyclerView which scrolled. 9847 * @param dx The amount of horizontal scroll. 9848 * @param dy The amount of vertical scroll. 9849 */ onScrolled(RecyclerView recyclerView, int dx, int dy)9850 public void onScrolled(RecyclerView recyclerView, int dx, int dy){} 9851 } 9852 9853 /** 9854 * A RecyclerListener can be set on a RecyclerView to receive messages whenever 9855 * a view is recycled. 9856 * 9857 * @see RecyclerView#setRecyclerListener(RecyclerListener) 9858 */ 9859 public interface RecyclerListener { 9860 9861 /** 9862 * This method is called whenever the view in the ViewHolder is recycled. 9863 * 9864 * RecyclerView calls this method right before clearing ViewHolder's internal data and 9865 * sending it to RecycledViewPool. This way, if ViewHolder was holding valid information 9866 * before being recycled, you can call {@link ViewHolder#getAdapterPosition()} to get 9867 * its adapter position. 9868 * 9869 * @param holder The ViewHolder containing the view that was recycled 9870 */ onViewRecycled(ViewHolder holder)9871 void onViewRecycled(ViewHolder holder); 9872 } 9873 9874 /** 9875 * A Listener interface that can be attached to a RecylcerView to get notified 9876 * whenever a ViewHolder is attached to or detached from RecyclerView. 9877 */ 9878 public interface OnChildAttachStateChangeListener { 9879 9880 /** 9881 * Called when a view is attached to the RecyclerView. 9882 * 9883 * @param view The View which is attached to the RecyclerView 9884 */ onChildViewAttachedToWindow(View view)9885 void onChildViewAttachedToWindow(View view); 9886 9887 /** 9888 * Called when a view is detached from RecyclerView. 9889 * 9890 * @param view The View which is being detached from the RecyclerView 9891 */ onChildViewDetachedFromWindow(View view)9892 void onChildViewDetachedFromWindow(View view); 9893 } 9894 9895 /** 9896 * A ViewHolder describes an item view and metadata about its place within the RecyclerView. 9897 * 9898 * <p>{@link Adapter} implementations should subclass ViewHolder and add fields for caching 9899 * potentially expensive {@link View#findViewById(int)} results.</p> 9900 * 9901 * <p>While {@link LayoutParams} belong to the {@link LayoutManager}, 9902 * {@link ViewHolder ViewHolders} belong to the adapter. Adapters should feel free to use 9903 * their own custom ViewHolder implementations to store data that makes binding view contents 9904 * easier. Implementations should assume that individual item views will hold strong references 9905 * to <code>ViewHolder</code> objects and that <code>RecyclerView</code> instances may hold 9906 * strong references to extra off-screen item views for caching purposes</p> 9907 */ 9908 public abstract static class ViewHolder { 9909 public final View itemView; 9910 WeakReference<RecyclerView> mNestedRecyclerView; 9911 int mPosition = NO_POSITION; 9912 int mOldPosition = NO_POSITION; 9913 long mItemId = NO_ID; 9914 int mItemViewType = INVALID_TYPE; 9915 int mPreLayoutPosition = NO_POSITION; 9916 9917 // The item that this holder is shadowing during an item change event/animation 9918 ViewHolder mShadowedHolder = null; 9919 // The item that is shadowing this holder during an item change event/animation 9920 ViewHolder mShadowingHolder = null; 9921 9922 /** 9923 * This ViewHolder has been bound to a position; mPosition, mItemId and mItemViewType 9924 * are all valid. 9925 */ 9926 static final int FLAG_BOUND = 1 << 0; 9927 9928 /** 9929 * The data this ViewHolder's view reflects is stale and needs to be rebound 9930 * by the adapter. mPosition and mItemId are consistent. 9931 */ 9932 static final int FLAG_UPDATE = 1 << 1; 9933 9934 /** 9935 * This ViewHolder's data is invalid. The identity implied by mPosition and mItemId 9936 * are not to be trusted and may no longer match the item view type. 9937 * This ViewHolder must be fully rebound to different data. 9938 */ 9939 static final int FLAG_INVALID = 1 << 2; 9940 9941 /** 9942 * This ViewHolder points at data that represents an item previously removed from the 9943 * data set. Its view may still be used for things like outgoing animations. 9944 */ 9945 static final int FLAG_REMOVED = 1 << 3; 9946 9947 /** 9948 * This ViewHolder should not be recycled. This flag is set via setIsRecyclable() 9949 * and is intended to keep views around during animations. 9950 */ 9951 static final int FLAG_NOT_RECYCLABLE = 1 << 4; 9952 9953 /** 9954 * This ViewHolder is returned from scrap which means we are expecting an addView call 9955 * for this itemView. When returned from scrap, ViewHolder stays in the scrap list until 9956 * the end of the layout pass and then recycled by RecyclerView if it is not added back to 9957 * the RecyclerView. 9958 */ 9959 static final int FLAG_RETURNED_FROM_SCRAP = 1 << 5; 9960 9961 /** 9962 * This ViewHolder is fully managed by the LayoutManager. We do not scrap, recycle or remove 9963 * it unless LayoutManager is replaced. 9964 * It is still fully visible to the LayoutManager. 9965 */ 9966 static final int FLAG_IGNORE = 1 << 7; 9967 9968 /** 9969 * When the View is detached form the parent, we set this flag so that we can take correct 9970 * action when we need to remove it or add it back. 9971 */ 9972 static final int FLAG_TMP_DETACHED = 1 << 8; 9973 9974 /** 9975 * Set when we can no longer determine the adapter position of this ViewHolder until it is 9976 * rebound to a new position. It is different than FLAG_INVALID because FLAG_INVALID is 9977 * set even when the type does not match. Also, FLAG_ADAPTER_POSITION_UNKNOWN is set as soon 9978 * as adapter notification arrives vs FLAG_INVALID is set lazily before layout is 9979 * re-calculated. 9980 */ 9981 static final int FLAG_ADAPTER_POSITION_UNKNOWN = 1 << 9; 9982 9983 /** 9984 * Set when a addChangePayload(null) is called 9985 */ 9986 static final int FLAG_ADAPTER_FULLUPDATE = 1 << 10; 9987 9988 /** 9989 * Used by ItemAnimator when a ViewHolder's position changes 9990 */ 9991 static final int FLAG_MOVED = 1 << 11; 9992 9993 /** 9994 * Used by ItemAnimator when a ViewHolder appears in pre-layout 9995 */ 9996 static final int FLAG_APPEARED_IN_PRE_LAYOUT = 1 << 12; 9997 9998 static final int PENDING_ACCESSIBILITY_STATE_NOT_SET = -1; 9999 10000 /** 10001 * Used when a ViewHolder starts the layout pass as a hidden ViewHolder but is re-used from 10002 * hidden list (as if it was scrap) without being recycled in between. 10003 * 10004 * When a ViewHolder is hidden, there are 2 paths it can be re-used: 10005 * a) Animation ends, view is recycled and used from the recycle pool. 10006 * b) LayoutManager asks for the View for that position while the ViewHolder is hidden. 10007 * 10008 * This flag is used to represent "case b" where the ViewHolder is reused without being 10009 * recycled (thus "bounced" from the hidden list). This state requires special handling 10010 * because the ViewHolder must be added to pre layout maps for animations as if it was 10011 * already there. 10012 */ 10013 static final int FLAG_BOUNCED_FROM_HIDDEN_LIST = 1 << 13; 10014 10015 private int mFlags; 10016 10017 private static final List<Object> FULLUPDATE_PAYLOADS = Collections.EMPTY_LIST; 10018 10019 List<Object> mPayloads = null; 10020 List<Object> mUnmodifiedPayloads = null; 10021 10022 private int mIsRecyclableCount = 0; 10023 10024 // If non-null, view is currently considered scrap and may be reused for other data by the 10025 // scrap container. 10026 private Recycler mScrapContainer = null; 10027 // Keeps whether this ViewHolder lives in Change scrap or Attached scrap 10028 private boolean mInChangeScrap = false; 10029 10030 // Saves isImportantForAccessibility value for the view item while it's in hidden state and 10031 // marked as unimportant for accessibility. 10032 private int mWasImportantForAccessibilityBeforeHidden = 10033 View.IMPORTANT_FOR_ACCESSIBILITY_AUTO; 10034 // set if we defer the accessibility state change of the view holder 10035 @VisibleForTesting 10036 int mPendingAccessibilityState = PENDING_ACCESSIBILITY_STATE_NOT_SET; 10037 10038 /** 10039 * Is set when VH is bound from the adapter and cleaned right before it is sent to 10040 * {@link RecycledViewPool}. 10041 */ 10042 RecyclerView mOwnerRecyclerView; 10043 ViewHolder(View itemView)10044 public ViewHolder(View itemView) { 10045 if (itemView == null) { 10046 throw new IllegalArgumentException("itemView may not be null"); 10047 } 10048 this.itemView = itemView; 10049 } 10050 flagRemovedAndOffsetPosition(int mNewPosition, int offset, boolean applyToPreLayout)10051 void flagRemovedAndOffsetPosition(int mNewPosition, int offset, boolean applyToPreLayout) { 10052 addFlags(ViewHolder.FLAG_REMOVED); 10053 offsetPosition(offset, applyToPreLayout); 10054 mPosition = mNewPosition; 10055 } 10056 offsetPosition(int offset, boolean applyToPreLayout)10057 void offsetPosition(int offset, boolean applyToPreLayout) { 10058 if (mOldPosition == NO_POSITION) { 10059 mOldPosition = mPosition; 10060 } 10061 if (mPreLayoutPosition == NO_POSITION) { 10062 mPreLayoutPosition = mPosition; 10063 } 10064 if (applyToPreLayout) { 10065 mPreLayoutPosition += offset; 10066 } 10067 mPosition += offset; 10068 if (itemView.getLayoutParams() != null) { 10069 ((LayoutParams) itemView.getLayoutParams()).mInsetsDirty = true; 10070 } 10071 } 10072 clearOldPosition()10073 void clearOldPosition() { 10074 mOldPosition = NO_POSITION; 10075 mPreLayoutPosition = NO_POSITION; 10076 } 10077 saveOldPosition()10078 void saveOldPosition() { 10079 if (mOldPosition == NO_POSITION) { 10080 mOldPosition = mPosition; 10081 } 10082 } 10083 shouldIgnore()10084 boolean shouldIgnore() { 10085 return (mFlags & FLAG_IGNORE) != 0; 10086 } 10087 10088 /** 10089 * @deprecated This method is deprecated because its meaning is ambiguous due to the async 10090 * handling of adapter updates. Please use {@link #getLayoutPosition()} or 10091 * {@link #getAdapterPosition()} depending on your use case. 10092 * 10093 * @see #getLayoutPosition() 10094 * @see #getAdapterPosition() 10095 */ 10096 @Deprecated getPosition()10097 public final int getPosition() { 10098 return mPreLayoutPosition == NO_POSITION ? mPosition : mPreLayoutPosition; 10099 } 10100 10101 /** 10102 * Returns the position of the ViewHolder in terms of the latest layout pass. 10103 * <p> 10104 * This position is mostly used by RecyclerView components to be consistent while 10105 * RecyclerView lazily processes adapter updates. 10106 * <p> 10107 * For performance and animation reasons, RecyclerView batches all adapter updates until the 10108 * next layout pass. This may cause mismatches between the Adapter position of the item and 10109 * the position it had in the latest layout calculations. 10110 * <p> 10111 * LayoutManagers should always call this method while doing calculations based on item 10112 * positions. All methods in {@link RecyclerView.LayoutManager}, {@link RecyclerView.State}, 10113 * {@link RecyclerView.Recycler} that receive a position expect it to be the layout position 10114 * of the item. 10115 * <p> 10116 * If LayoutManager needs to call an external method that requires the adapter position of 10117 * the item, it can use {@link #getAdapterPosition()} or 10118 * {@link RecyclerView.Recycler#convertPreLayoutPositionToPostLayout(int)}. 10119 * 10120 * @return Returns the adapter position of the ViewHolder in the latest layout pass. 10121 * @see #getAdapterPosition() 10122 */ getLayoutPosition()10123 public final int getLayoutPosition() { 10124 return mPreLayoutPosition == NO_POSITION ? mPosition : mPreLayoutPosition; 10125 } 10126 10127 /** 10128 * Returns the Adapter position of the item represented by this ViewHolder. 10129 * <p> 10130 * Note that this might be different than the {@link #getLayoutPosition()} if there are 10131 * pending adapter updates but a new layout pass has not happened yet. 10132 * <p> 10133 * RecyclerView does not handle any adapter updates until the next layout traversal. This 10134 * may create temporary inconsistencies between what user sees on the screen and what 10135 * adapter contents have. This inconsistency is not important since it will be less than 10136 * 16ms but it might be a problem if you want to use ViewHolder position to access the 10137 * adapter. Sometimes, you may need to get the exact adapter position to do 10138 * some actions in response to user events. In that case, you should use this method which 10139 * will calculate the Adapter position of the ViewHolder. 10140 * <p> 10141 * Note that if you've called {@link RecyclerView.Adapter#notifyDataSetChanged()}, until the 10142 * next layout pass, the return value of this method will be {@link #NO_POSITION}. 10143 * 10144 * @return The adapter position of the item if it still exists in the adapter. 10145 * {@link RecyclerView#NO_POSITION} if item has been removed from the adapter, 10146 * {@link RecyclerView.Adapter#notifyDataSetChanged()} has been called after the last 10147 * layout pass or the ViewHolder has already been recycled. 10148 */ getAdapterPosition()10149 public final int getAdapterPosition() { 10150 if (mOwnerRecyclerView == null) { 10151 return NO_POSITION; 10152 } 10153 return mOwnerRecyclerView.getAdapterPositionFor(this); 10154 } 10155 10156 /** 10157 * When LayoutManager supports animations, RecyclerView tracks 3 positions for ViewHolders 10158 * to perform animations. 10159 * <p> 10160 * If a ViewHolder was laid out in the previous onLayout call, old position will keep its 10161 * adapter index in the previous layout. 10162 * 10163 * @return The previous adapter index of the Item represented by this ViewHolder or 10164 * {@link #NO_POSITION} if old position does not exists or cleared (pre-layout is 10165 * complete). 10166 */ getOldPosition()10167 public final int getOldPosition() { 10168 return mOldPosition; 10169 } 10170 10171 /** 10172 * Returns The itemId represented by this ViewHolder. 10173 * 10174 * @return The item's id if adapter has stable ids, {@link RecyclerView#NO_ID} 10175 * otherwise 10176 */ getItemId()10177 public final long getItemId() { 10178 return mItemId; 10179 } 10180 10181 /** 10182 * @return The view type of this ViewHolder. 10183 */ getItemViewType()10184 public final int getItemViewType() { 10185 return mItemViewType; 10186 } 10187 isScrap()10188 boolean isScrap() { 10189 return mScrapContainer != null; 10190 } 10191 unScrap()10192 void unScrap() { 10193 mScrapContainer.unscrapView(this); 10194 } 10195 wasReturnedFromScrap()10196 boolean wasReturnedFromScrap() { 10197 return (mFlags & FLAG_RETURNED_FROM_SCRAP) != 0; 10198 } 10199 clearReturnedFromScrapFlag()10200 void clearReturnedFromScrapFlag() { 10201 mFlags = mFlags & ~FLAG_RETURNED_FROM_SCRAP; 10202 } 10203 clearTmpDetachFlag()10204 void clearTmpDetachFlag() { 10205 mFlags = mFlags & ~FLAG_TMP_DETACHED; 10206 } 10207 stopIgnoring()10208 void stopIgnoring() { 10209 mFlags = mFlags & ~FLAG_IGNORE; 10210 } 10211 setScrapContainer(Recycler recycler, boolean isChangeScrap)10212 void setScrapContainer(Recycler recycler, boolean isChangeScrap) { 10213 mScrapContainer = recycler; 10214 mInChangeScrap = isChangeScrap; 10215 } 10216 isInvalid()10217 boolean isInvalid() { 10218 return (mFlags & FLAG_INVALID) != 0; 10219 } 10220 needsUpdate()10221 boolean needsUpdate() { 10222 return (mFlags & FLAG_UPDATE) != 0; 10223 } 10224 isBound()10225 boolean isBound() { 10226 return (mFlags & FLAG_BOUND) != 0; 10227 } 10228 isRemoved()10229 boolean isRemoved() { 10230 return (mFlags & FLAG_REMOVED) != 0; 10231 } 10232 hasAnyOfTheFlags(int flags)10233 boolean hasAnyOfTheFlags(int flags) { 10234 return (mFlags & flags) != 0; 10235 } 10236 isTmpDetached()10237 boolean isTmpDetached() { 10238 return (mFlags & FLAG_TMP_DETACHED) != 0; 10239 } 10240 isAdapterPositionUnknown()10241 boolean isAdapterPositionUnknown() { 10242 return (mFlags & FLAG_ADAPTER_POSITION_UNKNOWN) != 0 || isInvalid(); 10243 } 10244 setFlags(int flags, int mask)10245 void setFlags(int flags, int mask) { 10246 mFlags = (mFlags & ~mask) | (flags & mask); 10247 } 10248 addFlags(int flags)10249 void addFlags(int flags) { 10250 mFlags |= flags; 10251 } 10252 addChangePayload(Object payload)10253 void addChangePayload(Object payload) { 10254 if (payload == null) { 10255 addFlags(FLAG_ADAPTER_FULLUPDATE); 10256 } else if ((mFlags & FLAG_ADAPTER_FULLUPDATE) == 0) { 10257 createPayloadsIfNeeded(); 10258 mPayloads.add(payload); 10259 } 10260 } 10261 createPayloadsIfNeeded()10262 private void createPayloadsIfNeeded() { 10263 if (mPayloads == null) { 10264 mPayloads = new ArrayList<Object>(); 10265 mUnmodifiedPayloads = Collections.unmodifiableList(mPayloads); 10266 } 10267 } 10268 clearPayload()10269 void clearPayload() { 10270 if (mPayloads != null) { 10271 mPayloads.clear(); 10272 } 10273 mFlags = mFlags & ~FLAG_ADAPTER_FULLUPDATE; 10274 } 10275 getUnmodifiedPayloads()10276 List<Object> getUnmodifiedPayloads() { 10277 if ((mFlags & FLAG_ADAPTER_FULLUPDATE) == 0) { 10278 if (mPayloads == null || mPayloads.size() == 0) { 10279 // Initial state, no update being called. 10280 return FULLUPDATE_PAYLOADS; 10281 } 10282 // there are none-null payloads 10283 return mUnmodifiedPayloads; 10284 } else { 10285 // a full update has been called. 10286 return FULLUPDATE_PAYLOADS; 10287 } 10288 } 10289 resetInternal()10290 void resetInternal() { 10291 mFlags = 0; 10292 mPosition = NO_POSITION; 10293 mOldPosition = NO_POSITION; 10294 mItemId = NO_ID; 10295 mPreLayoutPosition = NO_POSITION; 10296 mIsRecyclableCount = 0; 10297 mShadowedHolder = null; 10298 mShadowingHolder = null; 10299 clearPayload(); 10300 mWasImportantForAccessibilityBeforeHidden = View.IMPORTANT_FOR_ACCESSIBILITY_AUTO; 10301 mPendingAccessibilityState = PENDING_ACCESSIBILITY_STATE_NOT_SET; 10302 clearNestedRecyclerViewIfNotNested(this); 10303 } 10304 10305 /** 10306 * Called when the child view enters the hidden state 10307 */ onEnteredHiddenState(RecyclerView parent)10308 private void onEnteredHiddenState(RecyclerView parent) { 10309 // While the view item is in hidden state, make it invisible for the accessibility. 10310 mWasImportantForAccessibilityBeforeHidden = 10311 itemView.getImportantForAccessibility(); 10312 parent.setChildImportantForAccessibilityInternal(this, 10313 View.IMPORTANT_FOR_ACCESSIBILITY_NO_HIDE_DESCENDANTS); 10314 } 10315 10316 /** 10317 * Called when the child view leaves the hidden state 10318 */ onLeftHiddenState(RecyclerView parent)10319 private void onLeftHiddenState(RecyclerView parent) { 10320 parent.setChildImportantForAccessibilityInternal(this, 10321 mWasImportantForAccessibilityBeforeHidden); 10322 mWasImportantForAccessibilityBeforeHidden = View.IMPORTANT_FOR_ACCESSIBILITY_AUTO; 10323 } 10324 10325 @Override toString()10326 public String toString() { 10327 final StringBuilder sb = new StringBuilder("ViewHolder{" 10328 + Integer.toHexString(hashCode()) + " position=" + mPosition + " id=" + mItemId 10329 + ", oldPos=" + mOldPosition + ", pLpos:" + mPreLayoutPosition); 10330 if (isScrap()) { 10331 sb.append(" scrap ") 10332 .append(mInChangeScrap ? "[changeScrap]" : "[attachedScrap]"); 10333 } 10334 if (isInvalid()) sb.append(" invalid"); 10335 if (!isBound()) sb.append(" unbound"); 10336 if (needsUpdate()) sb.append(" update"); 10337 if (isRemoved()) sb.append(" removed"); 10338 if (shouldIgnore()) sb.append(" ignored"); 10339 if (isTmpDetached()) sb.append(" tmpDetached"); 10340 if (!isRecyclable()) sb.append(" not recyclable(" + mIsRecyclableCount + ")"); 10341 if (isAdapterPositionUnknown()) sb.append(" undefined adapter position"); 10342 10343 if (itemView.getParent() == null) sb.append(" no parent"); 10344 sb.append("}"); 10345 return sb.toString(); 10346 } 10347 10348 /** 10349 * Informs the recycler whether this item can be recycled. Views which are not 10350 * recyclable will not be reused for other items until setIsRecyclable() is 10351 * later set to true. Calls to setIsRecyclable() should always be paired (one 10352 * call to setIsRecyclabe(false) should always be matched with a later call to 10353 * setIsRecyclable(true)). Pairs of calls may be nested, as the state is internally 10354 * reference-counted. 10355 * 10356 * @param recyclable Whether this item is available to be recycled. Default value 10357 * is true. 10358 * 10359 * @see #isRecyclable() 10360 */ setIsRecyclable(boolean recyclable)10361 public final void setIsRecyclable(boolean recyclable) { 10362 mIsRecyclableCount = recyclable ? mIsRecyclableCount - 1 : mIsRecyclableCount + 1; 10363 if (mIsRecyclableCount < 0) { 10364 mIsRecyclableCount = 0; 10365 if (DEBUG) { 10366 throw new RuntimeException("isRecyclable decremented below 0: " 10367 + "unmatched pair of setIsRecyable() calls for " + this); 10368 } 10369 Log.e(VIEW_LOG_TAG, "isRecyclable decremented below 0: " 10370 + "unmatched pair of setIsRecyable() calls for " + this); 10371 } else if (!recyclable && mIsRecyclableCount == 1) { 10372 mFlags |= FLAG_NOT_RECYCLABLE; 10373 } else if (recyclable && mIsRecyclableCount == 0) { 10374 mFlags &= ~FLAG_NOT_RECYCLABLE; 10375 } 10376 if (DEBUG) { 10377 Log.d(TAG, "setIsRecyclable val:" + recyclable + ":" + this); 10378 } 10379 } 10380 10381 /** 10382 * @return true if this item is available to be recycled, false otherwise. 10383 * 10384 * @see #setIsRecyclable(boolean) 10385 */ isRecyclable()10386 public final boolean isRecyclable() { 10387 return (mFlags & FLAG_NOT_RECYCLABLE) == 0 10388 && !itemView.hasTransientState(); 10389 } 10390 10391 /** 10392 * Returns whether we have animations referring to this view holder or not. 10393 * This is similar to isRecyclable flag but does not check transient state. 10394 */ shouldBeKeptAsChild()10395 private boolean shouldBeKeptAsChild() { 10396 return (mFlags & FLAG_NOT_RECYCLABLE) != 0; 10397 } 10398 10399 /** 10400 * @return True if ViewHolder is not referenced by RecyclerView animations but has 10401 * transient state which will prevent it from being recycled. 10402 */ doesTransientStatePreventRecycling()10403 private boolean doesTransientStatePreventRecycling() { 10404 return (mFlags & FLAG_NOT_RECYCLABLE) == 0 && itemView.hasTransientState(); 10405 } 10406 isUpdated()10407 boolean isUpdated() { 10408 return (mFlags & FLAG_UPDATE) != 0; 10409 } 10410 } 10411 10412 /** 10413 * This method is here so that we can control the important for a11y changes and test it. 10414 */ 10415 @VisibleForTesting setChildImportantForAccessibilityInternal(ViewHolder viewHolder, int importantForAccessibility)10416 boolean setChildImportantForAccessibilityInternal(ViewHolder viewHolder, 10417 int importantForAccessibility) { 10418 if (isComputingLayout()) { 10419 viewHolder.mPendingAccessibilityState = importantForAccessibility; 10420 mPendingAccessibilityImportanceChange.add(viewHolder); 10421 return false; 10422 } 10423 viewHolder.itemView.setImportantForAccessibility(importantForAccessibility); 10424 return true; 10425 } 10426 dispatchPendingImportantForAccessibilityChanges()10427 void dispatchPendingImportantForAccessibilityChanges() { 10428 for (int i = mPendingAccessibilityImportanceChange.size() - 1; i >= 0; i--) { 10429 ViewHolder viewHolder = mPendingAccessibilityImportanceChange.get(i); 10430 if (viewHolder.itemView.getParent() != this || viewHolder.shouldIgnore()) { 10431 continue; 10432 } 10433 int state = viewHolder.mPendingAccessibilityState; 10434 if (state != ViewHolder.PENDING_ACCESSIBILITY_STATE_NOT_SET) { 10435 //noinspection WrongConstant 10436 viewHolder.itemView.setImportantForAccessibility(state); 10437 viewHolder.mPendingAccessibilityState = 10438 ViewHolder.PENDING_ACCESSIBILITY_STATE_NOT_SET; 10439 } 10440 } 10441 mPendingAccessibilityImportanceChange.clear(); 10442 } 10443 getAdapterPositionFor(ViewHolder viewHolder)10444 int getAdapterPositionFor(ViewHolder viewHolder) { 10445 if (viewHolder.hasAnyOfTheFlags(ViewHolder.FLAG_INVALID 10446 | ViewHolder.FLAG_REMOVED | ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN) 10447 || !viewHolder.isBound()) { 10448 return RecyclerView.NO_POSITION; 10449 } 10450 return mAdapterHelper.applyPendingUpdatesToPosition(viewHolder.mPosition); 10451 } 10452 10453 /** 10454 * {@link android.view.ViewGroup.MarginLayoutParams LayoutParams} subclass for children of 10455 * {@link RecyclerView}. Custom {@link LayoutManager layout managers} are encouraged 10456 * to create their own subclass of this <code>LayoutParams</code> class 10457 * to store any additional required per-child view metadata about the layout. 10458 */ 10459 public static class LayoutParams extends android.view.ViewGroup.MarginLayoutParams { 10460 ViewHolder mViewHolder; 10461 final Rect mDecorInsets = new Rect(); 10462 boolean mInsetsDirty = true; 10463 // Flag is set to true if the view is bound while it is detached from RV. 10464 // In this case, we need to manually call invalidate after view is added to guarantee that 10465 // invalidation is populated through the View hierarchy 10466 boolean mPendingInvalidate = false; 10467 LayoutParams(Context c, AttributeSet attrs)10468 public LayoutParams(Context c, AttributeSet attrs) { 10469 super(c, attrs); 10470 } 10471 LayoutParams(int width, int height)10472 public LayoutParams(int width, int height) { 10473 super(width, height); 10474 } 10475 LayoutParams(MarginLayoutParams source)10476 public LayoutParams(MarginLayoutParams source) { 10477 super(source); 10478 } 10479 LayoutParams(ViewGroup.LayoutParams source)10480 public LayoutParams(ViewGroup.LayoutParams source) { 10481 super(source); 10482 } 10483 LayoutParams(LayoutParams source)10484 public LayoutParams(LayoutParams source) { 10485 super((ViewGroup.LayoutParams) source); 10486 } 10487 10488 /** 10489 * Returns true if the view this LayoutParams is attached to needs to have its content 10490 * updated from the corresponding adapter. 10491 * 10492 * @return true if the view should have its content updated 10493 */ viewNeedsUpdate()10494 public boolean viewNeedsUpdate() { 10495 return mViewHolder.needsUpdate(); 10496 } 10497 10498 /** 10499 * Returns true if the view this LayoutParams is attached to is now representing 10500 * potentially invalid data. A LayoutManager should scrap/recycle it. 10501 * 10502 * @return true if the view is invalid 10503 */ isViewInvalid()10504 public boolean isViewInvalid() { 10505 return mViewHolder.isInvalid(); 10506 } 10507 10508 /** 10509 * Returns true if the adapter data item corresponding to the view this LayoutParams 10510 * is attached to has been removed from the data set. A LayoutManager may choose to 10511 * treat it differently in order to animate its outgoing or disappearing state. 10512 * 10513 * @return true if the item the view corresponds to was removed from the data set 10514 */ isItemRemoved()10515 public boolean isItemRemoved() { 10516 return mViewHolder.isRemoved(); 10517 } 10518 10519 /** 10520 * Returns true if the adapter data item corresponding to the view this LayoutParams 10521 * is attached to has been changed in the data set. A LayoutManager may choose to 10522 * treat it differently in order to animate its changing state. 10523 * 10524 * @return true if the item the view corresponds to was changed in the data set 10525 */ isItemChanged()10526 public boolean isItemChanged() { 10527 return mViewHolder.isUpdated(); 10528 } 10529 10530 /** 10531 * @deprecated use {@link #getViewLayoutPosition()} or {@link #getViewAdapterPosition()} 10532 */ 10533 @Deprecated getViewPosition()10534 public int getViewPosition() { 10535 return mViewHolder.getPosition(); 10536 } 10537 10538 /** 10539 * Returns the adapter position that the view this LayoutParams is attached to corresponds 10540 * to as of latest layout calculation. 10541 * 10542 * @return the adapter position this view as of latest layout pass 10543 */ getViewLayoutPosition()10544 public int getViewLayoutPosition() { 10545 return mViewHolder.getLayoutPosition(); 10546 } 10547 10548 /** 10549 * Returns the up-to-date adapter position that the view this LayoutParams is attached to 10550 * corresponds to. 10551 * 10552 * @return the up-to-date adapter position this view. It may return 10553 * {@link RecyclerView#NO_POSITION} if item represented by this View has been removed or 10554 * its up-to-date position cannot be calculated. 10555 */ getViewAdapterPosition()10556 public int getViewAdapterPosition() { 10557 return mViewHolder.getAdapterPosition(); 10558 } 10559 } 10560 10561 /** 10562 * Observer base class for watching changes to an {@link Adapter}. 10563 * See {@link Adapter#registerAdapterDataObserver(AdapterDataObserver)}. 10564 */ 10565 public abstract static class AdapterDataObserver { onChanged()10566 public void onChanged() { 10567 // Do nothing 10568 } 10569 onItemRangeChanged(int positionStart, int itemCount)10570 public void onItemRangeChanged(int positionStart, int itemCount) { 10571 // do nothing 10572 } 10573 onItemRangeChanged(int positionStart, int itemCount, Object payload)10574 public void onItemRangeChanged(int positionStart, int itemCount, Object payload) { 10575 // fallback to onItemRangeChanged(positionStart, itemCount) if app 10576 // does not override this method. 10577 onItemRangeChanged(positionStart, itemCount); 10578 } 10579 onItemRangeInserted(int positionStart, int itemCount)10580 public void onItemRangeInserted(int positionStart, int itemCount) { 10581 // do nothing 10582 } 10583 onItemRangeRemoved(int positionStart, int itemCount)10584 public void onItemRangeRemoved(int positionStart, int itemCount) { 10585 // do nothing 10586 } 10587 onItemRangeMoved(int fromPosition, int toPosition, int itemCount)10588 public void onItemRangeMoved(int fromPosition, int toPosition, int itemCount) { 10589 // do nothing 10590 } 10591 } 10592 10593 /** 10594 * <p>Base class for smooth scrolling. Handles basic tracking of the target view position and 10595 * provides methods to trigger a programmatic scroll.</p> 10596 * 10597 * @see LinearSmoothScroller 10598 */ 10599 public abstract static class SmoothScroller { 10600 10601 private int mTargetPosition = RecyclerView.NO_POSITION; 10602 10603 private RecyclerView mRecyclerView; 10604 10605 private LayoutManager mLayoutManager; 10606 10607 private boolean mPendingInitialRun; 10608 10609 private boolean mRunning; 10610 10611 private View mTargetView; 10612 10613 private final Action mRecyclingAction; 10614 SmoothScroller()10615 public SmoothScroller() { 10616 mRecyclingAction = new Action(0, 0); 10617 } 10618 10619 /** 10620 * Starts a smooth scroll for the given target position. 10621 * <p>In each animation step, {@link RecyclerView} will check 10622 * for the target view and call either 10623 * {@link #onTargetFound(android.view.View, RecyclerView.State, SmoothScroller.Action)} or 10624 * {@link #onSeekTargetStep(int, int, RecyclerView.State, SmoothScroller.Action)} until 10625 * SmoothScroller is stopped.</p> 10626 * 10627 * <p>Note that if RecyclerView finds the target view, it will automatically stop the 10628 * SmoothScroller. This <b>does not</b> mean that scroll will stop, it only means it will 10629 * stop calling SmoothScroller in each animation step.</p> 10630 */ start(RecyclerView recyclerView, LayoutManager layoutManager)10631 void start(RecyclerView recyclerView, LayoutManager layoutManager) { 10632 mRecyclerView = recyclerView; 10633 mLayoutManager = layoutManager; 10634 if (mTargetPosition == RecyclerView.NO_POSITION) { 10635 throw new IllegalArgumentException("Invalid target position"); 10636 } 10637 mRecyclerView.mState.mTargetPosition = mTargetPosition; 10638 mRunning = true; 10639 mPendingInitialRun = true; 10640 mTargetView = findViewByPosition(getTargetPosition()); 10641 onStart(); 10642 mRecyclerView.mViewFlinger.postOnAnimation(); 10643 } 10644 setTargetPosition(int targetPosition)10645 public void setTargetPosition(int targetPosition) { 10646 mTargetPosition = targetPosition; 10647 } 10648 10649 /** 10650 * @return The LayoutManager to which this SmoothScroller is attached. Will return 10651 * <code>null</code> after the SmoothScroller is stopped. 10652 */ 10653 @Nullable getLayoutManager()10654 public LayoutManager getLayoutManager() { 10655 return mLayoutManager; 10656 } 10657 10658 /** 10659 * Stops running the SmoothScroller in each animation callback. Note that this does not 10660 * cancel any existing {@link Action} updated by 10661 * {@link #onTargetFound(android.view.View, RecyclerView.State, SmoothScroller.Action)} or 10662 * {@link #onSeekTargetStep(int, int, RecyclerView.State, SmoothScroller.Action)}. 10663 */ stop()10664 protected final void stop() { 10665 if (!mRunning) { 10666 return; 10667 } 10668 onStop(); 10669 mRecyclerView.mState.mTargetPosition = RecyclerView.NO_POSITION; 10670 mTargetView = null; 10671 mTargetPosition = RecyclerView.NO_POSITION; 10672 mPendingInitialRun = false; 10673 mRunning = false; 10674 // trigger a cleanup 10675 mLayoutManager.onSmoothScrollerStopped(this); 10676 // clear references to avoid any potential leak by a custom smooth scroller 10677 mLayoutManager = null; 10678 mRecyclerView = null; 10679 } 10680 10681 /** 10682 * Returns true if SmoothScroller has been started but has not received the first 10683 * animation 10684 * callback yet. 10685 * 10686 * @return True if this SmoothScroller is waiting to start 10687 */ isPendingInitialRun()10688 public boolean isPendingInitialRun() { 10689 return mPendingInitialRun; 10690 } 10691 10692 10693 /** 10694 * @return True if SmoothScroller is currently active 10695 */ isRunning()10696 public boolean isRunning() { 10697 return mRunning; 10698 } 10699 10700 /** 10701 * Returns the adapter position of the target item 10702 * 10703 * @return Adapter position of the target item or 10704 * {@link RecyclerView#NO_POSITION} if no target view is set. 10705 */ getTargetPosition()10706 public int getTargetPosition() { 10707 return mTargetPosition; 10708 } 10709 onAnimation(int dx, int dy)10710 private void onAnimation(int dx, int dy) { 10711 final RecyclerView recyclerView = mRecyclerView; 10712 if (!mRunning || mTargetPosition == RecyclerView.NO_POSITION || recyclerView == null) { 10713 stop(); 10714 } 10715 mPendingInitialRun = false; 10716 if (mTargetView != null) { 10717 // verify target position 10718 if (getChildPosition(mTargetView) == mTargetPosition) { 10719 onTargetFound(mTargetView, recyclerView.mState, mRecyclingAction); 10720 mRecyclingAction.runIfNecessary(recyclerView); 10721 stop(); 10722 } else { 10723 Log.e(TAG, "Passed over target position while smooth scrolling."); 10724 mTargetView = null; 10725 } 10726 } 10727 if (mRunning) { 10728 onSeekTargetStep(dx, dy, recyclerView.mState, mRecyclingAction); 10729 boolean hadJumpTarget = mRecyclingAction.hasJumpTarget(); 10730 mRecyclingAction.runIfNecessary(recyclerView); 10731 if (hadJumpTarget) { 10732 // It is not stopped so needs to be restarted 10733 if (mRunning) { 10734 mPendingInitialRun = true; 10735 recyclerView.mViewFlinger.postOnAnimation(); 10736 } else { 10737 stop(); // done 10738 } 10739 } 10740 } 10741 } 10742 10743 /** 10744 * @see RecyclerView#getChildLayoutPosition(android.view.View) 10745 */ getChildPosition(View view)10746 public int getChildPosition(View view) { 10747 return mRecyclerView.getChildLayoutPosition(view); 10748 } 10749 10750 /** 10751 * @see RecyclerView.LayoutManager#getChildCount() 10752 */ getChildCount()10753 public int getChildCount() { 10754 return mRecyclerView.mLayout.getChildCount(); 10755 } 10756 10757 /** 10758 * @see RecyclerView.LayoutManager#findViewByPosition(int) 10759 */ findViewByPosition(int position)10760 public View findViewByPosition(int position) { 10761 return mRecyclerView.mLayout.findViewByPosition(position); 10762 } 10763 10764 /** 10765 * @see RecyclerView#scrollToPosition(int) 10766 * @deprecated Use {@link Action#jumpTo(int)}. 10767 */ 10768 @Deprecated instantScrollToPosition(int position)10769 public void instantScrollToPosition(int position) { 10770 mRecyclerView.scrollToPosition(position); 10771 } 10772 onChildAttachedToWindow(View child)10773 protected void onChildAttachedToWindow(View child) { 10774 if (getChildPosition(child) == getTargetPosition()) { 10775 mTargetView = child; 10776 if (DEBUG) { 10777 Log.d(TAG, "smooth scroll target view has been attached"); 10778 } 10779 } 10780 } 10781 10782 /** 10783 * Normalizes the vector. 10784 * @param scrollVector The vector that points to the target scroll position 10785 */ normalize(PointF scrollVector)10786 protected void normalize(PointF scrollVector) { 10787 final double magnitude = Math.sqrt(scrollVector.x * scrollVector.x + scrollVector.y 10788 * scrollVector.y); 10789 scrollVector.x /= magnitude; 10790 scrollVector.y /= magnitude; 10791 } 10792 10793 /** 10794 * Called when smooth scroll is started. This might be a good time to do setup. 10795 */ onStart()10796 protected abstract void onStart(); 10797 10798 /** 10799 * Called when smooth scroller is stopped. This is a good place to cleanup your state etc. 10800 * @see #stop() 10801 */ onStop()10802 protected abstract void onStop(); 10803 10804 /** 10805 * <p>RecyclerView will call this method each time it scrolls until it can find the target 10806 * position in the layout.</p> 10807 * <p>SmoothScroller should check dx, dy and if scroll should be changed, update the 10808 * provided {@link Action} to define the next scroll.</p> 10809 * 10810 * @param dx Last scroll amount horizontally 10811 * @param dy Last scroll amount vertically 10812 * @param state Transient state of RecyclerView 10813 * @param action If you want to trigger a new smooth scroll and cancel the previous one, 10814 * update this object. 10815 */ onSeekTargetStep(int dx, int dy, State state, Action action)10816 protected abstract void onSeekTargetStep(int dx, int dy, State state, Action action); 10817 10818 /** 10819 * Called when the target position is laid out. This is the last callback SmoothScroller 10820 * will receive and it should update the provided {@link Action} to define the scroll 10821 * details towards the target view. 10822 * @param targetView The view element which render the target position. 10823 * @param state Transient state of RecyclerView 10824 * @param action Action instance that you should update to define final scroll action 10825 * towards the targetView 10826 */ onTargetFound(View targetView, State state, Action action)10827 protected abstract void onTargetFound(View targetView, State state, Action action); 10828 10829 /** 10830 * Holds information about a smooth scroll request by a {@link SmoothScroller}. 10831 */ 10832 public static class Action { 10833 10834 public static final int UNDEFINED_DURATION = Integer.MIN_VALUE; 10835 10836 private int mDx; 10837 10838 private int mDy; 10839 10840 private int mDuration; 10841 10842 private int mJumpToPosition = NO_POSITION; 10843 10844 private Interpolator mInterpolator; 10845 10846 private boolean mChanged = false; 10847 10848 // we track this variable to inform custom implementer if they are updating the action 10849 // in every animation callback 10850 private int mConsecutiveUpdates = 0; 10851 10852 /** 10853 * @param dx Pixels to scroll horizontally 10854 * @param dy Pixels to scroll vertically 10855 */ Action(int dx, int dy)10856 public Action(int dx, int dy) { 10857 this(dx, dy, UNDEFINED_DURATION, null); 10858 } 10859 10860 /** 10861 * @param dx Pixels to scroll horizontally 10862 * @param dy Pixels to scroll vertically 10863 * @param duration Duration of the animation in milliseconds 10864 */ Action(int dx, int dy, int duration)10865 public Action(int dx, int dy, int duration) { 10866 this(dx, dy, duration, null); 10867 } 10868 10869 /** 10870 * @param dx Pixels to scroll horizontally 10871 * @param dy Pixels to scroll vertically 10872 * @param duration Duration of the animation in milliseconds 10873 * @param interpolator Interpolator to be used when calculating scroll position in each 10874 * animation step 10875 */ Action(int dx, int dy, int duration, Interpolator interpolator)10876 public Action(int dx, int dy, int duration, Interpolator interpolator) { 10877 mDx = dx; 10878 mDy = dy; 10879 mDuration = duration; 10880 mInterpolator = interpolator; 10881 } 10882 10883 /** 10884 * Instead of specifying pixels to scroll, use the target position to jump using 10885 * {@link RecyclerView#scrollToPosition(int)}. 10886 * <p> 10887 * You may prefer using this method if scroll target is really far away and you prefer 10888 * to jump to a location and smooth scroll afterwards. 10889 * <p> 10890 * Note that calling this method takes priority over other update methods such as 10891 * {@link #update(int, int, int, Interpolator)}, {@link #setX(float)}, 10892 * {@link #setY(float)} and #{@link #setInterpolator(Interpolator)}. If you call 10893 * {@link #jumpTo(int)}, the other changes will not be considered for this animation 10894 * frame. 10895 * 10896 * @param targetPosition The target item position to scroll to using instant scrolling. 10897 */ jumpTo(int targetPosition)10898 public void jumpTo(int targetPosition) { 10899 mJumpToPosition = targetPosition; 10900 } 10901 hasJumpTarget()10902 boolean hasJumpTarget() { 10903 return mJumpToPosition >= 0; 10904 } 10905 runIfNecessary(RecyclerView recyclerView)10906 void runIfNecessary(RecyclerView recyclerView) { 10907 if (mJumpToPosition >= 0) { 10908 final int position = mJumpToPosition; 10909 mJumpToPosition = NO_POSITION; 10910 recyclerView.jumpToPositionForSmoothScroller(position); 10911 mChanged = false; 10912 return; 10913 } 10914 if (mChanged) { 10915 validate(); 10916 if (mInterpolator == null) { 10917 if (mDuration == UNDEFINED_DURATION) { 10918 recyclerView.mViewFlinger.smoothScrollBy(mDx, mDy); 10919 } else { 10920 recyclerView.mViewFlinger.smoothScrollBy(mDx, mDy, mDuration); 10921 } 10922 } else { 10923 recyclerView.mViewFlinger.smoothScrollBy( 10924 mDx, mDy, mDuration, mInterpolator); 10925 } 10926 mConsecutiveUpdates++; 10927 if (mConsecutiveUpdates > 10) { 10928 // A new action is being set in every animation step. This looks like a bad 10929 // implementation. Inform developer. 10930 Log.e(TAG, "Smooth Scroll action is being updated too frequently. Make sure" 10931 + " you are not changing it unless necessary"); 10932 } 10933 mChanged = false; 10934 } else { 10935 mConsecutiveUpdates = 0; 10936 } 10937 } 10938 validate()10939 private void validate() { 10940 if (mInterpolator != null && mDuration < 1) { 10941 throw new IllegalStateException("If you provide an interpolator, you must" 10942 + " set a positive duration"); 10943 } else if (mDuration < 1) { 10944 throw new IllegalStateException("Scroll duration must be a positive number"); 10945 } 10946 } 10947 getDx()10948 public int getDx() { 10949 return mDx; 10950 } 10951 setDx(int dx)10952 public void setDx(int dx) { 10953 mChanged = true; 10954 mDx = dx; 10955 } 10956 getDy()10957 public int getDy() { 10958 return mDy; 10959 } 10960 setDy(int dy)10961 public void setDy(int dy) { 10962 mChanged = true; 10963 mDy = dy; 10964 } 10965 getDuration()10966 public int getDuration() { 10967 return mDuration; 10968 } 10969 setDuration(int duration)10970 public void setDuration(int duration) { 10971 mChanged = true; 10972 mDuration = duration; 10973 } 10974 getInterpolator()10975 public Interpolator getInterpolator() { 10976 return mInterpolator; 10977 } 10978 10979 /** 10980 * Sets the interpolator to calculate scroll steps 10981 * @param interpolator The interpolator to use. If you specify an interpolator, you must 10982 * also set the duration. 10983 * @see #setDuration(int) 10984 */ setInterpolator(Interpolator interpolator)10985 public void setInterpolator(Interpolator interpolator) { 10986 mChanged = true; 10987 mInterpolator = interpolator; 10988 } 10989 10990 /** 10991 * Updates the action with given parameters. 10992 * @param dx Pixels to scroll horizontally 10993 * @param dy Pixels to scroll vertically 10994 * @param duration Duration of the animation in milliseconds 10995 * @param interpolator Interpolator to be used when calculating scroll position in each 10996 * animation step 10997 */ update(int dx, int dy, int duration, Interpolator interpolator)10998 public void update(int dx, int dy, int duration, Interpolator interpolator) { 10999 mDx = dx; 11000 mDy = dy; 11001 mDuration = duration; 11002 mInterpolator = interpolator; 11003 mChanged = true; 11004 } 11005 } 11006 11007 /** 11008 * An interface which is optionally implemented by custom {@link RecyclerView.LayoutManager} 11009 * to provide a hint to a {@link SmoothScroller} about the location of the target position. 11010 */ 11011 public interface ScrollVectorProvider { 11012 /** 11013 * Should calculate the vector that points to the direction where the target position 11014 * can be found. 11015 * <p> 11016 * This method is used by the {@link LinearSmoothScroller} to initiate a scroll towards 11017 * the target position. 11018 * <p> 11019 * The magnitude of the vector is not important. It is always normalized before being 11020 * used by the {@link LinearSmoothScroller}. 11021 * <p> 11022 * LayoutManager should not check whether the position exists in the adapter or not. 11023 * 11024 * @param targetPosition the target position to which the returned vector should point 11025 * 11026 * @return the scroll vector for a given position. 11027 */ computeScrollVectorForPosition(int targetPosition)11028 PointF computeScrollVectorForPosition(int targetPosition); 11029 } 11030 } 11031 11032 static class AdapterDataObservable extends Observable<AdapterDataObserver> { hasObservers()11033 public boolean hasObservers() { 11034 return !mObservers.isEmpty(); 11035 } 11036 notifyChanged()11037 public void notifyChanged() { 11038 // since onChanged() is implemented by the app, it could do anything, including 11039 // removing itself from {@link mObservers} - and that could cause problems if 11040 // an iterator is used on the ArrayList {@link mObservers}. 11041 // to avoid such problems, just march thru the list in the reverse order. 11042 for (int i = mObservers.size() - 1; i >= 0; i--) { 11043 mObservers.get(i).onChanged(); 11044 } 11045 } 11046 notifyItemRangeChanged(int positionStart, int itemCount)11047 public void notifyItemRangeChanged(int positionStart, int itemCount) { 11048 notifyItemRangeChanged(positionStart, itemCount, null); 11049 } 11050 notifyItemRangeChanged(int positionStart, int itemCount, Object payload)11051 public void notifyItemRangeChanged(int positionStart, int itemCount, Object payload) { 11052 // since onItemRangeChanged() is implemented by the app, it could do anything, including 11053 // removing itself from {@link mObservers} - and that could cause problems if 11054 // an iterator is used on the ArrayList {@link mObservers}. 11055 // to avoid such problems, just march thru the list in the reverse order. 11056 for (int i = mObservers.size() - 1; i >= 0; i--) { 11057 mObservers.get(i).onItemRangeChanged(positionStart, itemCount, payload); 11058 } 11059 } 11060 notifyItemRangeInserted(int positionStart, int itemCount)11061 public void notifyItemRangeInserted(int positionStart, int itemCount) { 11062 // since onItemRangeInserted() is implemented by the app, it could do anything, 11063 // including removing itself from {@link mObservers} - and that could cause problems if 11064 // an iterator is used on the ArrayList {@link mObservers}. 11065 // to avoid such problems, just march thru the list in the reverse order. 11066 for (int i = mObservers.size() - 1; i >= 0; i--) { 11067 mObservers.get(i).onItemRangeInserted(positionStart, itemCount); 11068 } 11069 } 11070 notifyItemRangeRemoved(int positionStart, int itemCount)11071 public void notifyItemRangeRemoved(int positionStart, int itemCount) { 11072 // since onItemRangeRemoved() is implemented by the app, it could do anything, including 11073 // removing itself from {@link mObservers} - and that could cause problems if 11074 // an iterator is used on the ArrayList {@link mObservers}. 11075 // to avoid such problems, just march thru the list in the reverse order. 11076 for (int i = mObservers.size() - 1; i >= 0; i--) { 11077 mObservers.get(i).onItemRangeRemoved(positionStart, itemCount); 11078 } 11079 } 11080 notifyItemMoved(int fromPosition, int toPosition)11081 public void notifyItemMoved(int fromPosition, int toPosition) { 11082 for (int i = mObservers.size() - 1; i >= 0; i--) { 11083 mObservers.get(i).onItemRangeMoved(fromPosition, toPosition, 1); 11084 } 11085 } 11086 } 11087 11088 /** 11089 * This is public so that the CREATOR can be access on cold launch. 11090 * @hide 11091 */ 11092 public static class SavedState extends AbsSavedState { 11093 11094 Parcelable mLayoutState; 11095 11096 /** 11097 * called by CREATOR 11098 */ SavedState(Parcel in)11099 SavedState(Parcel in) { 11100 super(in); 11101 mLayoutState = in.readParcelable(LayoutManager.class.getClassLoader()); 11102 } 11103 11104 /** 11105 * Called by onSaveInstanceState 11106 */ SavedState(Parcelable superState)11107 SavedState(Parcelable superState) { 11108 super(superState); 11109 } 11110 11111 @Override writeToParcel(Parcel dest, int flags)11112 public void writeToParcel(Parcel dest, int flags) { 11113 super.writeToParcel(dest, flags); 11114 dest.writeParcelable(mLayoutState, 0); 11115 } 11116 copyFrom(SavedState other)11117 void copyFrom(SavedState other) { 11118 mLayoutState = other.mLayoutState; 11119 } 11120 11121 public static final Parcelable.Creator<SavedState> CREATOR = new Parcelable.Creator<SavedState>() { 11122 @Override 11123 public SavedState createFromParcel(Parcel in) { 11124 return new SavedState(in); 11125 } 11126 11127 @Override 11128 public SavedState[] newArray(int size) { 11129 return new SavedState[size]; 11130 } 11131 }; 11132 } 11133 /** 11134 * <p>Contains useful information about the current RecyclerView state like target scroll 11135 * position or view focus. State object can also keep arbitrary data, identified by resource 11136 * ids.</p> 11137 * <p>Often times, RecyclerView components will need to pass information between each other. 11138 * To provide a well defined data bus between components, RecyclerView passes the same State 11139 * object to component callbacks and these components can use it to exchange data.</p> 11140 * <p>If you implement custom components, you can use State's put/get/remove methods to pass 11141 * data between your components without needing to manage their lifecycles.</p> 11142 */ 11143 public static class State { 11144 static final int STEP_START = 1; 11145 static final int STEP_LAYOUT = 1 << 1; 11146 static final int STEP_ANIMATIONS = 1 << 2; 11147 assertLayoutStep(int accepted)11148 void assertLayoutStep(int accepted) { 11149 if ((accepted & mLayoutStep) == 0) { 11150 throw new IllegalStateException("Layout state should be one of " 11151 + Integer.toBinaryString(accepted) + " but it is " 11152 + Integer.toBinaryString(mLayoutStep)); 11153 } 11154 } 11155 11156 11157 /** Owned by SmoothScroller */ 11158 private int mTargetPosition = RecyclerView.NO_POSITION; 11159 11160 private SparseArray<Object> mData; 11161 11162 //////////////////////////////////////////////////////////////////////////////////////////// 11163 // Fields below are carried from one layout pass to the next 11164 //////////////////////////////////////////////////////////////////////////////////////////// 11165 11166 /** 11167 * Number of items adapter had in the previous layout. 11168 */ 11169 int mPreviousLayoutItemCount = 0; 11170 11171 /** 11172 * Number of items that were NOT laid out but has been deleted from the adapter after the 11173 * previous layout. 11174 */ 11175 int mDeletedInvisibleItemCountSincePreviousLayout = 0; 11176 11177 //////////////////////////////////////////////////////////////////////////////////////////// 11178 // Fields below must be updated or cleared before they are used (generally before a pass) 11179 //////////////////////////////////////////////////////////////////////////////////////////// 11180 11181 @IntDef(flag = true, value = { 11182 STEP_START, STEP_LAYOUT, STEP_ANIMATIONS 11183 }) 11184 @Retention(RetentionPolicy.SOURCE) 11185 @interface LayoutState {} 11186 11187 @LayoutState 11188 int mLayoutStep = STEP_START; 11189 11190 /** 11191 * Number of items adapter has. 11192 */ 11193 int mItemCount = 0; 11194 11195 boolean mStructureChanged = false; 11196 11197 boolean mInPreLayout = false; 11198 11199 boolean mTrackOldChangeHolders = false; 11200 11201 boolean mIsMeasuring = false; 11202 11203 //////////////////////////////////////////////////////////////////////////////////////////// 11204 // Fields below are always reset outside of the pass (or passes) that use them 11205 //////////////////////////////////////////////////////////////////////////////////////////// 11206 11207 boolean mRunSimpleAnimations = false; 11208 11209 boolean mRunPredictiveAnimations = false; 11210 11211 /** 11212 * This data is saved before a layout calculation happens. After the layout is finished, 11213 * if the previously focused view has been replaced with another view for the same item, we 11214 * move the focus to the new item automatically. 11215 */ 11216 int mFocusedItemPosition; 11217 long mFocusedItemId; 11218 // when a sub child has focus, record its id and see if we can directly request focus on 11219 // that one instead 11220 int mFocusedSubChildId; 11221 11222 //////////////////////////////////////////////////////////////////////////////////////////// 11223 reset()11224 State reset() { 11225 mTargetPosition = RecyclerView.NO_POSITION; 11226 if (mData != null) { 11227 mData.clear(); 11228 } 11229 mItemCount = 0; 11230 mStructureChanged = false; 11231 mIsMeasuring = false; 11232 return this; 11233 } 11234 11235 /** 11236 * Prepare for a prefetch occurring on the RecyclerView in between traversals, potentially 11237 * prior to any layout passes. 11238 * 11239 * <p>Don't touch any state stored between layout passes, only reset per-layout state, so 11240 * that Recycler#getViewForPosition() can function safely.</p> 11241 */ prepareForNestedPrefetch(Adapter adapter)11242 void prepareForNestedPrefetch(Adapter adapter) { 11243 mLayoutStep = STEP_START; 11244 mItemCount = adapter.getItemCount(); 11245 mStructureChanged = false; 11246 mInPreLayout = false; 11247 mTrackOldChangeHolders = false; 11248 mIsMeasuring = false; 11249 } 11250 11251 /** 11252 * Returns true if the RecyclerView is currently measuring the layout. This value is 11253 * {@code true} only if the LayoutManager opted into the auto measure API and RecyclerView 11254 * has non-exact measurement specs. 11255 * <p> 11256 * Note that if the LayoutManager supports predictive animations and it is calculating the 11257 * pre-layout step, this value will be {@code false} even if the RecyclerView is in 11258 * {@code onMeasure} call. This is because pre-layout means the previous state of the 11259 * RecyclerView and measurements made for that state cannot change the RecyclerView's size. 11260 * LayoutManager is always guaranteed to receive another call to 11261 * {@link LayoutManager#onLayoutChildren(Recycler, State)} when this happens. 11262 * 11263 * @return True if the RecyclerView is currently calculating its bounds, false otherwise. 11264 */ isMeasuring()11265 public boolean isMeasuring() { 11266 return mIsMeasuring; 11267 } 11268 11269 /** 11270 * Returns true if 11271 * @return 11272 */ isPreLayout()11273 public boolean isPreLayout() { 11274 return mInPreLayout; 11275 } 11276 11277 /** 11278 * Returns whether RecyclerView will run predictive animations in this layout pass 11279 * or not. 11280 * 11281 * @return true if RecyclerView is calculating predictive animations to be run at the end 11282 * of the layout pass. 11283 */ willRunPredictiveAnimations()11284 public boolean willRunPredictiveAnimations() { 11285 return mRunPredictiveAnimations; 11286 } 11287 11288 /** 11289 * Returns whether RecyclerView will run simple animations in this layout pass 11290 * or not. 11291 * 11292 * @return true if RecyclerView is calculating simple animations to be run at the end of 11293 * the layout pass. 11294 */ willRunSimpleAnimations()11295 public boolean willRunSimpleAnimations() { 11296 return mRunSimpleAnimations; 11297 } 11298 11299 /** 11300 * Removes the mapping from the specified id, if there was any. 11301 * @param resourceId Id of the resource you want to remove. It is suggested to use R.id.* to 11302 * preserve cross functionality and avoid conflicts. 11303 */ remove(int resourceId)11304 public void remove(int resourceId) { 11305 if (mData == null) { 11306 return; 11307 } 11308 mData.remove(resourceId); 11309 } 11310 11311 /** 11312 * Gets the Object mapped from the specified id, or <code>null</code> 11313 * if no such data exists. 11314 * 11315 * @param resourceId Id of the resource you want to remove. It is suggested to use R.id.* 11316 * to 11317 * preserve cross functionality and avoid conflicts. 11318 */ get(int resourceId)11319 public <T> T get(int resourceId) { 11320 if (mData == null) { 11321 return null; 11322 } 11323 return (T) mData.get(resourceId); 11324 } 11325 11326 /** 11327 * Adds a mapping from the specified id to the specified value, replacing the previous 11328 * mapping from the specified key if there was one. 11329 * 11330 * @param resourceId Id of the resource you want to add. It is suggested to use R.id.* to 11331 * preserve cross functionality and avoid conflicts. 11332 * @param data The data you want to associate with the resourceId. 11333 */ put(int resourceId, Object data)11334 public void put(int resourceId, Object data) { 11335 if (mData == null) { 11336 mData = new SparseArray<Object>(); 11337 } 11338 mData.put(resourceId, data); 11339 } 11340 11341 /** 11342 * If scroll is triggered to make a certain item visible, this value will return the 11343 * adapter index of that item. 11344 * @return Adapter index of the target item or 11345 * {@link RecyclerView#NO_POSITION} if there is no target 11346 * position. 11347 */ getTargetScrollPosition()11348 public int getTargetScrollPosition() { 11349 return mTargetPosition; 11350 } 11351 11352 /** 11353 * Returns if current scroll has a target position. 11354 * @return true if scroll is being triggered to make a certain position visible 11355 * @see #getTargetScrollPosition() 11356 */ hasTargetScrollPosition()11357 public boolean hasTargetScrollPosition() { 11358 return mTargetPosition != RecyclerView.NO_POSITION; 11359 } 11360 11361 /** 11362 * @return true if the structure of the data set has changed since the last call to 11363 * onLayoutChildren, false otherwise 11364 */ didStructureChange()11365 public boolean didStructureChange() { 11366 return mStructureChanged; 11367 } 11368 11369 /** 11370 * Returns the total number of items that can be laid out. Note that this number is not 11371 * necessarily equal to the number of items in the adapter, so you should always use this 11372 * number for your position calculations and never access the adapter directly. 11373 * <p> 11374 * RecyclerView listens for Adapter's notify events and calculates the effects of adapter 11375 * data changes on existing Views. These calculations are used to decide which animations 11376 * should be run. 11377 * <p> 11378 * To support predictive animations, RecyclerView may rewrite or reorder Adapter changes to 11379 * present the correct state to LayoutManager in pre-layout pass. 11380 * <p> 11381 * For example, a newly added item is not included in pre-layout item count because 11382 * pre-layout reflects the contents of the adapter before the item is added. Behind the 11383 * scenes, RecyclerView offsets {@link Recycler#getViewForPosition(int)} calls such that 11384 * LayoutManager does not know about the new item's existence in pre-layout. The item will 11385 * be available in second layout pass and will be included in the item count. Similar 11386 * adjustments are made for moved and removed items as well. 11387 * <p> 11388 * You can get the adapter's item count via {@link LayoutManager#getItemCount()} method. 11389 * 11390 * @return The number of items currently available 11391 * @see LayoutManager#getItemCount() 11392 */ getItemCount()11393 public int getItemCount() { 11394 return mInPreLayout 11395 ? (mPreviousLayoutItemCount - mDeletedInvisibleItemCountSincePreviousLayout) 11396 : mItemCount; 11397 } 11398 11399 @Override toString()11400 public String toString() { 11401 return "State{" 11402 + "mTargetPosition=" + mTargetPosition 11403 + ", mData=" + mData 11404 + ", mItemCount=" + mItemCount 11405 + ", mPreviousLayoutItemCount=" + mPreviousLayoutItemCount 11406 + ", mDeletedInvisibleItemCountSincePreviousLayout=" 11407 + mDeletedInvisibleItemCountSincePreviousLayout 11408 + ", mStructureChanged=" + mStructureChanged 11409 + ", mInPreLayout=" + mInPreLayout 11410 + ", mRunSimpleAnimations=" + mRunSimpleAnimations 11411 + ", mRunPredictiveAnimations=" + mRunPredictiveAnimations 11412 + '}'; 11413 } 11414 } 11415 11416 /** 11417 * This class defines the behavior of fling if the developer wishes to handle it. 11418 * <p> 11419 * Subclasses of {@link OnFlingListener} can be used to implement custom fling behavior. 11420 * 11421 * @see #setOnFlingListener(OnFlingListener) 11422 */ 11423 public abstract static class OnFlingListener { 11424 11425 /** 11426 * Override this to handle a fling given the velocities in both x and y directions. 11427 * Note that this method will only be called if the associated {@link LayoutManager} 11428 * supports scrolling and the fling is not handled by nested scrolls first. 11429 * 11430 * @param velocityX the fling velocity on the X axis 11431 * @param velocityY the fling velocity on the Y axis 11432 * 11433 * @return true if the fling washandled, false otherwise. 11434 */ onFling(int velocityX, int velocityY)11435 public abstract boolean onFling(int velocityX, int velocityY); 11436 } 11437 11438 /** 11439 * Internal listener that manages items after animations finish. This is how items are 11440 * retained (not recycled) during animations, but allowed to be recycled afterwards. 11441 * It depends on the contract with the ItemAnimator to call the appropriate dispatch*Finished() 11442 * method on the animator's listener when it is done animating any item. 11443 */ 11444 private class ItemAnimatorRestoreListener implements ItemAnimator.ItemAnimatorListener { 11445 ItemAnimatorRestoreListener()11446 ItemAnimatorRestoreListener() { 11447 } 11448 11449 @Override onAnimationFinished(ViewHolder item)11450 public void onAnimationFinished(ViewHolder item) { 11451 item.setIsRecyclable(true); 11452 if (item.mShadowedHolder != null && item.mShadowingHolder == null) { // old vh 11453 item.mShadowedHolder = null; 11454 } 11455 // always null this because an OldViewHolder can never become NewViewHolder w/o being 11456 // recycled. 11457 item.mShadowingHolder = null; 11458 if (!item.shouldBeKeptAsChild()) { 11459 if (!removeAnimatingView(item.itemView) && item.isTmpDetached()) { 11460 removeDetachedView(item.itemView, false); 11461 } 11462 } 11463 } 11464 } 11465 11466 /** 11467 * This class defines the animations that take place on items as changes are made 11468 * to the adapter. 11469 * 11470 * Subclasses of ItemAnimator can be used to implement custom animations for actions on 11471 * ViewHolder items. The RecyclerView will manage retaining these items while they 11472 * are being animated, but implementors must call {@link #dispatchAnimationFinished(ViewHolder)} 11473 * when a ViewHolder's animation is finished. In other words, there must be a matching 11474 * {@link #dispatchAnimationFinished(ViewHolder)} call for each 11475 * {@link #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) animateAppearance()}, 11476 * {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11477 * animateChange()} 11478 * {@link #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) animatePersistence()}, 11479 * and 11480 * {@link #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11481 * animateDisappearance()} call. 11482 * 11483 * <p>By default, RecyclerView uses {@link DefaultItemAnimator}.</p> 11484 * 11485 * @see #setItemAnimator(ItemAnimator) 11486 */ 11487 @SuppressWarnings("UnusedParameters") 11488 public abstract static class ItemAnimator { 11489 11490 /** 11491 * The Item represented by this ViewHolder is updated. 11492 * <p> 11493 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11494 */ 11495 public static final int FLAG_CHANGED = ViewHolder.FLAG_UPDATE; 11496 11497 /** 11498 * The Item represented by this ViewHolder is removed from the adapter. 11499 * <p> 11500 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11501 */ 11502 public static final int FLAG_REMOVED = ViewHolder.FLAG_REMOVED; 11503 11504 /** 11505 * Adapter {@link Adapter#notifyDataSetChanged()} has been called and the content 11506 * represented by this ViewHolder is invalid. 11507 * <p> 11508 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11509 */ 11510 public static final int FLAG_INVALIDATED = ViewHolder.FLAG_INVALID; 11511 11512 /** 11513 * The position of the Item represented by this ViewHolder has been changed. This flag is 11514 * not bound to {@link Adapter#notifyItemMoved(int, int)}. It might be set in response to 11515 * any adapter change that may have a side effect on this item. (e.g. The item before this 11516 * one has been removed from the Adapter). 11517 * <p> 11518 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11519 */ 11520 public static final int FLAG_MOVED = ViewHolder.FLAG_MOVED; 11521 11522 /** 11523 * This ViewHolder was not laid out but has been added to the layout in pre-layout state 11524 * by the {@link LayoutManager}. This means that the item was already in the Adapter but 11525 * invisible and it may become visible in the post layout phase. LayoutManagers may prefer 11526 * to add new items in pre-layout to specify their virtual location when they are invisible 11527 * (e.g. to specify the item should <i>animate in</i> from below the visible area). 11528 * <p> 11529 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11530 */ 11531 public static final int FLAG_APPEARED_IN_PRE_LAYOUT = 11532 ViewHolder.FLAG_APPEARED_IN_PRE_LAYOUT; 11533 11534 /** 11535 * The set of flags that might be passed to 11536 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11537 */ 11538 @IntDef(flag = true, value = { 11539 FLAG_CHANGED, FLAG_REMOVED, FLAG_MOVED, FLAG_INVALIDATED, 11540 FLAG_APPEARED_IN_PRE_LAYOUT 11541 }) 11542 @Retention(RetentionPolicy.SOURCE) 11543 public @interface AdapterChanges {} 11544 private ItemAnimatorListener mListener = null; 11545 private ArrayList<ItemAnimatorFinishedListener> mFinishedListeners = 11546 new ArrayList<ItemAnimatorFinishedListener>(); 11547 11548 private long mAddDuration = 120; 11549 private long mRemoveDuration = 120; 11550 private long mMoveDuration = 250; 11551 private long mChangeDuration = 250; 11552 11553 /** 11554 * Gets the current duration for which all move animations will run. 11555 * 11556 * @return The current move duration 11557 */ getMoveDuration()11558 public long getMoveDuration() { 11559 return mMoveDuration; 11560 } 11561 11562 /** 11563 * Sets the duration for which all move animations will run. 11564 * 11565 * @param moveDuration The move duration 11566 */ setMoveDuration(long moveDuration)11567 public void setMoveDuration(long moveDuration) { 11568 mMoveDuration = moveDuration; 11569 } 11570 11571 /** 11572 * Gets the current duration for which all add animations will run. 11573 * 11574 * @return The current add duration 11575 */ getAddDuration()11576 public long getAddDuration() { 11577 return mAddDuration; 11578 } 11579 11580 /** 11581 * Sets the duration for which all add animations will run. 11582 * 11583 * @param addDuration The add duration 11584 */ setAddDuration(long addDuration)11585 public void setAddDuration(long addDuration) { 11586 mAddDuration = addDuration; 11587 } 11588 11589 /** 11590 * Gets the current duration for which all remove animations will run. 11591 * 11592 * @return The current remove duration 11593 */ getRemoveDuration()11594 public long getRemoveDuration() { 11595 return mRemoveDuration; 11596 } 11597 11598 /** 11599 * Sets the duration for which all remove animations will run. 11600 * 11601 * @param removeDuration The remove duration 11602 */ setRemoveDuration(long removeDuration)11603 public void setRemoveDuration(long removeDuration) { 11604 mRemoveDuration = removeDuration; 11605 } 11606 11607 /** 11608 * Gets the current duration for which all change animations will run. 11609 * 11610 * @return The current change duration 11611 */ getChangeDuration()11612 public long getChangeDuration() { 11613 return mChangeDuration; 11614 } 11615 11616 /** 11617 * Sets the duration for which all change animations will run. 11618 * 11619 * @param changeDuration The change duration 11620 */ setChangeDuration(long changeDuration)11621 public void setChangeDuration(long changeDuration) { 11622 mChangeDuration = changeDuration; 11623 } 11624 11625 /** 11626 * Internal only: 11627 * Sets the listener that must be called when the animator is finished 11628 * animating the item (or immediately if no animation happens). This is set 11629 * internally and is not intended to be set by external code. 11630 * 11631 * @param listener The listener that must be called. 11632 */ setListener(ItemAnimatorListener listener)11633 void setListener(ItemAnimatorListener listener) { 11634 mListener = listener; 11635 } 11636 11637 /** 11638 * Called by the RecyclerView before the layout begins. Item animator should record 11639 * necessary information about the View before it is potentially rebound, moved or removed. 11640 * <p> 11641 * The data returned from this method will be passed to the related <code>animate**</code> 11642 * methods. 11643 * <p> 11644 * Note that this method may be called after pre-layout phase if LayoutManager adds new 11645 * Views to the layout in pre-layout pass. 11646 * <p> 11647 * The default implementation returns an {@link ItemHolderInfo} which holds the bounds of 11648 * the View and the adapter change flags. 11649 * 11650 * @param state The current State of RecyclerView which includes some useful data 11651 * about the layout that will be calculated. 11652 * @param viewHolder The ViewHolder whose information should be recorded. 11653 * @param changeFlags Additional information about what changes happened in the Adapter 11654 * about the Item represented by this ViewHolder. For instance, if 11655 * item is deleted from the adapter, {@link #FLAG_REMOVED} will be set. 11656 * @param payloads The payload list that was previously passed to 11657 * {@link Adapter#notifyItemChanged(int, Object)} or 11658 * {@link Adapter#notifyItemRangeChanged(int, int, Object)}. 11659 * 11660 * @return An ItemHolderInfo instance that preserves necessary information about the 11661 * ViewHolder. This object will be passed back to related <code>animate**</code> methods 11662 * after layout is complete. 11663 * 11664 * @see #recordPostLayoutInformation(State, ViewHolder) 11665 * @see #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11666 * @see #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11667 * @see #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11668 * @see #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11669 */ recordPreLayoutInformation(@onNull State state, @NonNull ViewHolder viewHolder, @AdapterChanges int changeFlags, @NonNull List<Object> payloads)11670 public @NonNull ItemHolderInfo recordPreLayoutInformation(@NonNull State state, 11671 @NonNull ViewHolder viewHolder, @AdapterChanges int changeFlags, 11672 @NonNull List<Object> payloads) { 11673 return obtainHolderInfo().setFrom(viewHolder); 11674 } 11675 11676 /** 11677 * Called by the RecyclerView after the layout is complete. Item animator should record 11678 * necessary information about the View's final state. 11679 * <p> 11680 * The data returned from this method will be passed to the related <code>animate**</code> 11681 * methods. 11682 * <p> 11683 * The default implementation returns an {@link ItemHolderInfo} which holds the bounds of 11684 * the View. 11685 * 11686 * @param state The current State of RecyclerView which includes some useful data about 11687 * the layout that will be calculated. 11688 * @param viewHolder The ViewHolder whose information should be recorded. 11689 * 11690 * @return An ItemHolderInfo that preserves necessary information about the ViewHolder. 11691 * This object will be passed back to related <code>animate**</code> methods when 11692 * RecyclerView decides how items should be animated. 11693 * 11694 * @see #recordPreLayoutInformation(State, ViewHolder, int, List) 11695 * @see #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11696 * @see #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11697 * @see #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11698 * @see #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11699 */ recordPostLayoutInformation(@onNull State state, @NonNull ViewHolder viewHolder)11700 public @NonNull ItemHolderInfo recordPostLayoutInformation(@NonNull State state, 11701 @NonNull ViewHolder viewHolder) { 11702 return obtainHolderInfo().setFrom(viewHolder); 11703 } 11704 11705 /** 11706 * Called by the RecyclerView when a ViewHolder has disappeared from the layout. 11707 * <p> 11708 * This means that the View was a child of the LayoutManager when layout started but has 11709 * been removed by the LayoutManager. It might have been removed from the adapter or simply 11710 * become invisible due to other factors. You can distinguish these two cases by checking 11711 * the change flags that were passed to 11712 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11713 * <p> 11714 * Note that when a ViewHolder both changes and disappears in the same layout pass, the 11715 * animation callback method which will be called by the RecyclerView depends on the 11716 * ItemAnimator's decision whether to re-use the same ViewHolder or not, and also the 11717 * LayoutManager's decision whether to layout the changed version of a disappearing 11718 * ViewHolder or not. RecyclerView will call 11719 * {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11720 * animateChange} instead of {@code animateDisappearance} if and only if the ItemAnimator 11721 * returns {@code false} from 11722 * {@link #canReuseUpdatedViewHolder(ViewHolder) canReuseUpdatedViewHolder} and the 11723 * LayoutManager lays out a new disappearing view that holds the updated information. 11724 * Built-in LayoutManagers try to avoid laying out updated versions of disappearing views. 11725 * <p> 11726 * If LayoutManager supports predictive animations, it might provide a target disappear 11727 * location for the View by laying it out in that location. When that happens, 11728 * RecyclerView will call {@link #recordPostLayoutInformation(State, ViewHolder)} and the 11729 * response of that call will be passed to this method as the <code>postLayoutInfo</code>. 11730 * <p> 11731 * ItemAnimator must call {@link #dispatchAnimationFinished(ViewHolder)} when the animation 11732 * is complete (or instantly call {@link #dispatchAnimationFinished(ViewHolder)} if it 11733 * decides not to animate the view). 11734 * 11735 * @param viewHolder The ViewHolder which should be animated 11736 * @param preLayoutInfo The information that was returned from 11737 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11738 * @param postLayoutInfo The information that was returned from 11739 * {@link #recordPostLayoutInformation(State, ViewHolder)}. Might be 11740 * null if the LayoutManager did not layout the item. 11741 * 11742 * @return true if a later call to {@link #runPendingAnimations()} is requested, 11743 * false otherwise. 11744 */ animateDisappearance(@onNull ViewHolder viewHolder, @NonNull ItemHolderInfo preLayoutInfo, @Nullable ItemHolderInfo postLayoutInfo)11745 public abstract boolean animateDisappearance(@NonNull ViewHolder viewHolder, 11746 @NonNull ItemHolderInfo preLayoutInfo, @Nullable ItemHolderInfo postLayoutInfo); 11747 11748 /** 11749 * Called by the RecyclerView when a ViewHolder is added to the layout. 11750 * <p> 11751 * In detail, this means that the ViewHolder was <b>not</b> a child when the layout started 11752 * but has been added by the LayoutManager. It might be newly added to the adapter or 11753 * simply become visible due to other factors. 11754 * <p> 11755 * ItemAnimator must call {@link #dispatchAnimationFinished(ViewHolder)} when the animation 11756 * is complete (or instantly call {@link #dispatchAnimationFinished(ViewHolder)} if it 11757 * decides not to animate the view). 11758 * 11759 * @param viewHolder The ViewHolder which should be animated 11760 * @param preLayoutInfo The information that was returned from 11761 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11762 * Might be null if Item was just added to the adapter or 11763 * LayoutManager does not support predictive animations or it could 11764 * not predict that this ViewHolder will become visible. 11765 * @param postLayoutInfo The information that was returned from {@link 11766 * #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11767 * 11768 * @return true if a later call to {@link #runPendingAnimations()} is requested, 11769 * false otherwise. 11770 */ animateAppearance(@onNull ViewHolder viewHolder, @Nullable ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo)11771 public abstract boolean animateAppearance(@NonNull ViewHolder viewHolder, 11772 @Nullable ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo); 11773 11774 /** 11775 * Called by the RecyclerView when a ViewHolder is present in both before and after the 11776 * layout and RecyclerView has not received a {@link Adapter#notifyItemChanged(int)} call 11777 * for it or a {@link Adapter#notifyDataSetChanged()} call. 11778 * <p> 11779 * This ViewHolder still represents the same data that it was representing when the layout 11780 * started but its position / size may be changed by the LayoutManager. 11781 * <p> 11782 * If the Item's layout position didn't change, RecyclerView still calls this method because 11783 * it does not track this information (or does not necessarily know that an animation is 11784 * not required). Your ItemAnimator should handle this case and if there is nothing to 11785 * animate, it should call {@link #dispatchAnimationFinished(ViewHolder)} and return 11786 * <code>false</code>. 11787 * <p> 11788 * ItemAnimator must call {@link #dispatchAnimationFinished(ViewHolder)} when the animation 11789 * is complete (or instantly call {@link #dispatchAnimationFinished(ViewHolder)} if it 11790 * decides not to animate the view). 11791 * 11792 * @param viewHolder The ViewHolder which should be animated 11793 * @param preLayoutInfo The information that was returned from 11794 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11795 * @param postLayoutInfo The information that was returned from {@link 11796 * #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11797 * 11798 * @return true if a later call to {@link #runPendingAnimations()} is requested, 11799 * false otherwise. 11800 */ animatePersistence(@onNull ViewHolder viewHolder, @NonNull ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo)11801 public abstract boolean animatePersistence(@NonNull ViewHolder viewHolder, 11802 @NonNull ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo); 11803 11804 /** 11805 * Called by the RecyclerView when an adapter item is present both before and after the 11806 * layout and RecyclerView has received a {@link Adapter#notifyItemChanged(int)} call 11807 * for it. This method may also be called when 11808 * {@link Adapter#notifyDataSetChanged()} is called and adapter has stable ids so that 11809 * RecyclerView could still rebind views to the same ViewHolders. If viewType changes when 11810 * {@link Adapter#notifyDataSetChanged()} is called, this method <b>will not</b> be called, 11811 * instead, {@link #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo)} will be 11812 * called for the new ViewHolder and the old one will be recycled. 11813 * <p> 11814 * If this method is called due to a {@link Adapter#notifyDataSetChanged()} call, there is 11815 * a good possibility that item contents didn't really change but it is rebound from the 11816 * adapter. {@link DefaultItemAnimator} will skip animating the View if its location on the 11817 * screen didn't change and your animator should handle this case as well and avoid creating 11818 * unnecessary animations. 11819 * <p> 11820 * When an item is updated, ItemAnimator has a chance to ask RecyclerView to keep the 11821 * previous presentation of the item as-is and supply a new ViewHolder for the updated 11822 * presentation (see: {@link #canReuseUpdatedViewHolder(ViewHolder, List)}. 11823 * This is useful if you don't know the contents of the Item and would like 11824 * to cross-fade the old and the new one ({@link DefaultItemAnimator} uses this technique). 11825 * <p> 11826 * When you are writing a custom item animator for your layout, it might be more performant 11827 * and elegant to re-use the same ViewHolder and animate the content changes manually. 11828 * <p> 11829 * When {@link Adapter#notifyItemChanged(int)} is called, the Item's view type may change. 11830 * If the Item's view type has changed or ItemAnimator returned <code>false</code> for 11831 * this ViewHolder when {@link #canReuseUpdatedViewHolder(ViewHolder, List)} was called, the 11832 * <code>oldHolder</code> and <code>newHolder</code> will be different ViewHolder instances 11833 * which represent the same Item. In that case, only the new ViewHolder is visible 11834 * to the LayoutManager but RecyclerView keeps old ViewHolder attached for animations. 11835 * <p> 11836 * ItemAnimator must call {@link #dispatchAnimationFinished(ViewHolder)} for each distinct 11837 * ViewHolder when their animation is complete 11838 * (or instantly call {@link #dispatchAnimationFinished(ViewHolder)} if it decides not to 11839 * animate the view). 11840 * <p> 11841 * If oldHolder and newHolder are the same instance, you should call 11842 * {@link #dispatchAnimationFinished(ViewHolder)} <b>only once</b>. 11843 * <p> 11844 * Note that when a ViewHolder both changes and disappears in the same layout pass, the 11845 * animation callback method which will be called by the RecyclerView depends on the 11846 * ItemAnimator's decision whether to re-use the same ViewHolder or not, and also the 11847 * LayoutManager's decision whether to layout the changed version of a disappearing 11848 * ViewHolder or not. RecyclerView will call 11849 * {@code animateChange} instead of 11850 * {@link #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11851 * animateDisappearance} if and only if the ItemAnimator returns {@code false} from 11852 * {@link #canReuseUpdatedViewHolder(ViewHolder) canReuseUpdatedViewHolder} and the 11853 * LayoutManager lays out a new disappearing view that holds the updated information. 11854 * Built-in LayoutManagers try to avoid laying out updated versions of disappearing views. 11855 * 11856 * @param oldHolder The ViewHolder before the layout is started, might be the same 11857 * instance with newHolder. 11858 * @param newHolder The ViewHolder after the layout is finished, might be the same 11859 * instance with oldHolder. 11860 * @param preLayoutInfo The information that was returned from 11861 * {@link #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11862 * @param postLayoutInfo The information that was returned from {@link 11863 * #recordPreLayoutInformation(State, ViewHolder, int, List)}. 11864 * 11865 * @return true if a later call to {@link #runPendingAnimations()} is requested, 11866 * false otherwise. 11867 */ animateChange(@onNull ViewHolder oldHolder, @NonNull ViewHolder newHolder, @NonNull ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo)11868 public abstract boolean animateChange(@NonNull ViewHolder oldHolder, 11869 @NonNull ViewHolder newHolder, 11870 @NonNull ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo); 11871 buildAdapterChangeFlagsForAnimations(ViewHolder viewHolder)11872 @AdapterChanges static int buildAdapterChangeFlagsForAnimations(ViewHolder viewHolder) { 11873 int flags = viewHolder.mFlags & (FLAG_INVALIDATED | FLAG_REMOVED | FLAG_CHANGED); 11874 if (viewHolder.isInvalid()) { 11875 return FLAG_INVALIDATED; 11876 } 11877 if ((flags & FLAG_INVALIDATED) == 0) { 11878 final int oldPos = viewHolder.getOldPosition(); 11879 final int pos = viewHolder.getAdapterPosition(); 11880 if (oldPos != NO_POSITION && pos != NO_POSITION && oldPos != pos) { 11881 flags |= FLAG_MOVED; 11882 } 11883 } 11884 return flags; 11885 } 11886 11887 /** 11888 * Called when there are pending animations waiting to be started. This state 11889 * is governed by the return values from 11890 * {@link #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11891 * animateAppearance()}, 11892 * {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11893 * animateChange()} 11894 * {@link #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11895 * animatePersistence()}, and 11896 * {@link #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11897 * animateDisappearance()}, which inform the RecyclerView that the ItemAnimator wants to be 11898 * called later to start the associated animations. runPendingAnimations() will be scheduled 11899 * to be run on the next frame. 11900 */ runPendingAnimations()11901 public abstract void runPendingAnimations(); 11902 11903 /** 11904 * Method called when an animation on a view should be ended immediately. 11905 * This could happen when other events, like scrolling, occur, so that 11906 * animating views can be quickly put into their proper end locations. 11907 * Implementations should ensure that any animations running on the item 11908 * are canceled and affected properties are set to their end values. 11909 * Also, {@link #dispatchAnimationFinished(ViewHolder)} should be called for each finished 11910 * animation since the animations are effectively done when this method is called. 11911 * 11912 * @param item The item for which an animation should be stopped. 11913 */ endAnimation(ViewHolder item)11914 public abstract void endAnimation(ViewHolder item); 11915 11916 /** 11917 * Method called when all item animations should be ended immediately. 11918 * This could happen when other events, like scrolling, occur, so that 11919 * animating views can be quickly put into their proper end locations. 11920 * Implementations should ensure that any animations running on any items 11921 * are canceled and affected properties are set to their end values. 11922 * Also, {@link #dispatchAnimationFinished(ViewHolder)} should be called for each finished 11923 * animation since the animations are effectively done when this method is called. 11924 */ endAnimations()11925 public abstract void endAnimations(); 11926 11927 /** 11928 * Method which returns whether there are any item animations currently running. 11929 * This method can be used to determine whether to delay other actions until 11930 * animations end. 11931 * 11932 * @return true if there are any item animations currently running, false otherwise. 11933 */ isRunning()11934 public abstract boolean isRunning(); 11935 11936 /** 11937 * Method to be called by subclasses when an animation is finished. 11938 * <p> 11939 * For each call RecyclerView makes to 11940 * {@link #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11941 * animateAppearance()}, 11942 * {@link #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11943 * animatePersistence()}, or 11944 * {@link #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11945 * animateDisappearance()}, there 11946 * should 11947 * be a matching {@link #dispatchAnimationFinished(ViewHolder)} call by the subclass. 11948 * <p> 11949 * For {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11950 * animateChange()}, subclass should call this method for both the <code>oldHolder</code> 11951 * and <code>newHolder</code> (if they are not the same instance). 11952 * 11953 * @param viewHolder The ViewHolder whose animation is finished. 11954 * @see #onAnimationFinished(ViewHolder) 11955 */ dispatchAnimationFinished(ViewHolder viewHolder)11956 public final void dispatchAnimationFinished(ViewHolder viewHolder) { 11957 onAnimationFinished(viewHolder); 11958 if (mListener != null) { 11959 mListener.onAnimationFinished(viewHolder); 11960 } 11961 } 11962 11963 /** 11964 * Called after {@link #dispatchAnimationFinished(ViewHolder)} is called by the 11965 * ItemAnimator. 11966 * 11967 * @param viewHolder The ViewHolder whose animation is finished. There might still be other 11968 * animations running on this ViewHolder. 11969 * @see #dispatchAnimationFinished(ViewHolder) 11970 */ onAnimationFinished(ViewHolder viewHolder)11971 public void onAnimationFinished(ViewHolder viewHolder) { 11972 } 11973 11974 /** 11975 * Method to be called by subclasses when an animation is started. 11976 * <p> 11977 * For each call RecyclerView makes to 11978 * {@link #animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11979 * animateAppearance()}, 11980 * {@link #animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11981 * animatePersistence()}, or 11982 * {@link #animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo) 11983 * animateDisappearance()}, there should be a matching 11984 * {@link #dispatchAnimationStarted(ViewHolder)} call by the subclass. 11985 * <p> 11986 * For {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo) 11987 * animateChange()}, subclass should call this method for both the <code>oldHolder</code> 11988 * and <code>newHolder</code> (if they are not the same instance). 11989 * <p> 11990 * If your ItemAnimator decides not to animate a ViewHolder, it should call 11991 * {@link #dispatchAnimationFinished(ViewHolder)} <b>without</b> calling 11992 * {@link #dispatchAnimationStarted(ViewHolder)}. 11993 * 11994 * @param viewHolder The ViewHolder whose animation is starting. 11995 * @see #onAnimationStarted(ViewHolder) 11996 */ dispatchAnimationStarted(ViewHolder viewHolder)11997 public final void dispatchAnimationStarted(ViewHolder viewHolder) { 11998 onAnimationStarted(viewHolder); 11999 } 12000 12001 /** 12002 * Called when a new animation is started on the given ViewHolder. 12003 * 12004 * @param viewHolder The ViewHolder which started animating. Note that the ViewHolder 12005 * might already be animating and this might be another animation. 12006 * @see #dispatchAnimationStarted(ViewHolder) 12007 */ onAnimationStarted(ViewHolder viewHolder)12008 public void onAnimationStarted(ViewHolder viewHolder) { 12009 12010 } 12011 12012 /** 12013 * Like {@link #isRunning()}, this method returns whether there are any item 12014 * animations currently running. Additionally, the listener passed in will be called 12015 * when there are no item animations running, either immediately (before the method 12016 * returns) if no animations are currently running, or when the currently running 12017 * animations are {@link #dispatchAnimationsFinished() finished}. 12018 * 12019 * <p>Note that the listener is transient - it is either called immediately and not 12020 * stored at all, or stored only until it is called when running animations 12021 * are finished sometime later.</p> 12022 * 12023 * @param listener A listener to be called immediately if no animations are running 12024 * or later when currently-running animations have finished. A null listener is 12025 * equivalent to calling {@link #isRunning()}. 12026 * @return true if there are any item animations currently running, false otherwise. 12027 */ isRunning(ItemAnimatorFinishedListener listener)12028 public final boolean isRunning(ItemAnimatorFinishedListener listener) { 12029 boolean running = isRunning(); 12030 if (listener != null) { 12031 if (!running) { 12032 listener.onAnimationsFinished(); 12033 } else { 12034 mFinishedListeners.add(listener); 12035 } 12036 } 12037 return running; 12038 } 12039 12040 /** 12041 * When an item is changed, ItemAnimator can decide whether it wants to re-use 12042 * the same ViewHolder for animations or RecyclerView should create a copy of the 12043 * item and ItemAnimator will use both to run the animation (e.g. cross-fade). 12044 * <p> 12045 * Note that this method will only be called if the {@link ViewHolder} still has the same 12046 * type ({@link Adapter#getItemViewType(int)}). Otherwise, ItemAnimator will always receive 12047 * both {@link ViewHolder}s in the 12048 * {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo)} method. 12049 * <p> 12050 * If your application is using change payloads, you can override 12051 * {@link #canReuseUpdatedViewHolder(ViewHolder, List)} to decide based on payloads. 12052 * 12053 * @param viewHolder The ViewHolder which represents the changed item's old content. 12054 * 12055 * @return True if RecyclerView should just rebind to the same ViewHolder or false if 12056 * RecyclerView should create a new ViewHolder and pass this ViewHolder to the 12057 * ItemAnimator to animate. Default implementation returns <code>true</code>. 12058 * 12059 * @see #canReuseUpdatedViewHolder(ViewHolder, List) 12060 */ canReuseUpdatedViewHolder(@onNull ViewHolder viewHolder)12061 public boolean canReuseUpdatedViewHolder(@NonNull ViewHolder viewHolder) { 12062 return true; 12063 } 12064 12065 /** 12066 * When an item is changed, ItemAnimator can decide whether it wants to re-use 12067 * the same ViewHolder for animations or RecyclerView should create a copy of the 12068 * item and ItemAnimator will use both to run the animation (e.g. cross-fade). 12069 * <p> 12070 * Note that this method will only be called if the {@link ViewHolder} still has the same 12071 * type ({@link Adapter#getItemViewType(int)}). Otherwise, ItemAnimator will always receive 12072 * both {@link ViewHolder}s in the 12073 * {@link #animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo)} method. 12074 * 12075 * @param viewHolder The ViewHolder which represents the changed item's old content. 12076 * @param payloads A non-null list of merged payloads that were sent with change 12077 * notifications. Can be empty if the adapter is invalidated via 12078 * {@link RecyclerView.Adapter#notifyDataSetChanged()}. The same list of 12079 * payloads will be passed into 12080 * {@link RecyclerView.Adapter#onBindViewHolder(ViewHolder, int, List)} 12081 * method <b>if</b> this method returns <code>true</code>. 12082 * 12083 * @return True if RecyclerView should just rebind to the same ViewHolder or false if 12084 * RecyclerView should create a new ViewHolder and pass this ViewHolder to the 12085 * ItemAnimator to animate. Default implementation calls 12086 * {@link #canReuseUpdatedViewHolder(ViewHolder)}. 12087 * 12088 * @see #canReuseUpdatedViewHolder(ViewHolder) 12089 */ canReuseUpdatedViewHolder(@onNull ViewHolder viewHolder, @NonNull List<Object> payloads)12090 public boolean canReuseUpdatedViewHolder(@NonNull ViewHolder viewHolder, 12091 @NonNull List<Object> payloads) { 12092 return canReuseUpdatedViewHolder(viewHolder); 12093 } 12094 12095 /** 12096 * This method should be called by ItemAnimator implementations to notify 12097 * any listeners that all pending and active item animations are finished. 12098 */ dispatchAnimationsFinished()12099 public final void dispatchAnimationsFinished() { 12100 final int count = mFinishedListeners.size(); 12101 for (int i = 0; i < count; ++i) { 12102 mFinishedListeners.get(i).onAnimationsFinished(); 12103 } 12104 mFinishedListeners.clear(); 12105 } 12106 12107 /** 12108 * Returns a new {@link ItemHolderInfo} which will be used to store information about the 12109 * ViewHolder. This information will later be passed into <code>animate**</code> methods. 12110 * <p> 12111 * You can override this method if you want to extend {@link ItemHolderInfo} and provide 12112 * your own instances. 12113 * 12114 * @return A new {@link ItemHolderInfo}. 12115 */ obtainHolderInfo()12116 public ItemHolderInfo obtainHolderInfo() { 12117 return new ItemHolderInfo(); 12118 } 12119 12120 /** 12121 * The interface to be implemented by listeners to animation events from this 12122 * ItemAnimator. This is used internally and is not intended for developers to 12123 * create directly. 12124 */ 12125 interface ItemAnimatorListener { onAnimationFinished(ViewHolder item)12126 void onAnimationFinished(ViewHolder item); 12127 } 12128 12129 /** 12130 * This interface is used to inform listeners when all pending or running animations 12131 * in an ItemAnimator are finished. This can be used, for example, to delay an action 12132 * in a data set until currently-running animations are complete. 12133 * 12134 * @see #isRunning(ItemAnimatorFinishedListener) 12135 */ 12136 public interface ItemAnimatorFinishedListener { 12137 /** 12138 * Notifies when all pending or running animations in an ItemAnimator are finished. 12139 */ onAnimationsFinished()12140 void onAnimationsFinished(); 12141 } 12142 12143 /** 12144 * A simple data structure that holds information about an item's bounds. 12145 * This information is used in calculating item animations. Default implementation of 12146 * {@link #recordPreLayoutInformation(RecyclerView.State, ViewHolder, int, List)} and 12147 * {@link #recordPostLayoutInformation(RecyclerView.State, ViewHolder)} returns this data 12148 * structure. You can extend this class if you would like to keep more information about 12149 * the Views. 12150 * <p> 12151 * If you want to provide your own implementation but still use `super` methods to record 12152 * basic information, you can override {@link #obtainHolderInfo()} to provide your own 12153 * instances. 12154 */ 12155 public static class ItemHolderInfo { 12156 12157 /** 12158 * The left edge of the View (excluding decorations) 12159 */ 12160 public int left; 12161 12162 /** 12163 * The top edge of the View (excluding decorations) 12164 */ 12165 public int top; 12166 12167 /** 12168 * The right edge of the View (excluding decorations) 12169 */ 12170 public int right; 12171 12172 /** 12173 * The bottom edge of the View (excluding decorations) 12174 */ 12175 public int bottom; 12176 12177 /** 12178 * The change flags that were passed to 12179 * {@link #recordPreLayoutInformation(RecyclerView.State, ViewHolder, int, List)}. 12180 */ 12181 @AdapterChanges 12182 public int changeFlags; 12183 ItemHolderInfo()12184 public ItemHolderInfo() { 12185 } 12186 12187 /** 12188 * Sets the {@link #left}, {@link #top}, {@link #right} and {@link #bottom} values from 12189 * the given ViewHolder. Clears all {@link #changeFlags}. 12190 * 12191 * @param holder The ViewHolder whose bounds should be copied. 12192 * @return This {@link ItemHolderInfo} 12193 */ setFrom(RecyclerView.ViewHolder holder)12194 public ItemHolderInfo setFrom(RecyclerView.ViewHolder holder) { 12195 return setFrom(holder, 0); 12196 } 12197 12198 /** 12199 * Sets the {@link #left}, {@link #top}, {@link #right} and {@link #bottom} values from 12200 * the given ViewHolder and sets the {@link #changeFlags} to the given flags parameter. 12201 * 12202 * @param holder The ViewHolder whose bounds should be copied. 12203 * @param flags The adapter change flags that were passed into 12204 * {@link #recordPreLayoutInformation(RecyclerView.State, ViewHolder, int, 12205 * List)}. 12206 * @return This {@link ItemHolderInfo} 12207 */ setFrom(RecyclerView.ViewHolder holder, @AdapterChanges int flags)12208 public ItemHolderInfo setFrom(RecyclerView.ViewHolder holder, 12209 @AdapterChanges int flags) { 12210 final View view = holder.itemView; 12211 this.left = view.getLeft(); 12212 this.top = view.getTop(); 12213 this.right = view.getRight(); 12214 this.bottom = view.getBottom(); 12215 return this; 12216 } 12217 } 12218 } 12219 12220 @Override getChildDrawingOrder(int childCount, int i)12221 protected int getChildDrawingOrder(int childCount, int i) { 12222 if (mChildDrawingOrderCallback == null) { 12223 return super.getChildDrawingOrder(childCount, i); 12224 } else { 12225 return mChildDrawingOrderCallback.onGetChildDrawingOrder(childCount, i); 12226 } 12227 } 12228 12229 /** 12230 * A callback interface that can be used to alter the drawing order of RecyclerView children. 12231 * <p> 12232 * It works using the {@link ViewGroup#getChildDrawingOrder(int, int)} method, so any case 12233 * that applies to that method also applies to this callback. For example, changing the drawing 12234 * order of two views will not have any effect if their elevation values are different since 12235 * elevation overrides the result of this callback. 12236 */ 12237 public interface ChildDrawingOrderCallback { 12238 /** 12239 * Returns the index of the child to draw for this iteration. Override this 12240 * if you want to change the drawing order of children. By default, it 12241 * returns i. 12242 * 12243 * @param i The current iteration. 12244 * @return The index of the child to draw this iteration. 12245 * 12246 * @see RecyclerView#setChildDrawingOrderCallback(RecyclerView.ChildDrawingOrderCallback) 12247 */ onGetChildDrawingOrder(int childCount, int i)12248 int onGetChildDrawingOrder(int childCount, int i); 12249 } 12250 } 12251