/* * Copyright (C) 2013 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.support.v7.widget; import android.content.Context; import android.content.res.TypedArray; import android.database.Observable; import android.graphics.Canvas; import android.graphics.Matrix; import android.graphics.PointF; import android.graphics.Rect; import android.graphics.RectF; import android.os.Build; import android.os.Bundle; import android.os.Parcel; import android.os.Parcelable; import android.os.SystemClock; import android.support.annotation.CallSuper; import android.support.annotation.IntDef; import android.support.annotation.NonNull; import android.support.annotation.Nullable; import android.support.annotation.RestrictTo; import android.support.annotation.VisibleForTesting; import android.support.v4.os.ParcelableCompat; import android.support.v4.os.ParcelableCompatCreatorCallbacks; import android.support.v4.os.TraceCompat; import android.support.v4.view.AbsSavedState; import android.support.v4.view.InputDeviceCompat; import android.support.v4.view.MotionEventCompat; import android.support.v4.view.NestedScrollingChild; import android.support.v4.view.NestedScrollingChildHelper; import android.support.v4.view.ScrollingView; import android.support.v4.view.VelocityTrackerCompat; import android.support.v4.view.ViewCompat; import android.support.v4.view.accessibility.AccessibilityEventCompat; import android.support.v4.view.accessibility.AccessibilityNodeInfoCompat; import android.support.v4.view.accessibility.AccessibilityRecordCompat; import android.support.v4.widget.EdgeEffectCompat; import android.support.v4.widget.ScrollerCompat; import android.support.v7.recyclerview.R; import android.support.v7.widget.RecyclerView.ItemAnimator.ItemHolderInfo; import android.util.AttributeSet; import android.util.Log; import android.util.SparseArray; import android.util.SparseIntArray; import android.util.TypedValue; import android.view.Display; import android.view.FocusFinder; import android.view.MotionEvent; import android.view.VelocityTracker; import android.view.View; import android.view.ViewConfiguration; import android.view.ViewGroup; import android.view.ViewParent; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityManager; import android.view.animation.Interpolator; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.reflect.Constructor; import java.lang.reflect.InvocationTargetException; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.concurrent.TimeUnit; import static android.support.annotation.RestrictTo.Scope.GROUP_ID; import static android.support.v7.widget.AdapterHelper.Callback; import static android.support.v7.widget.AdapterHelper.UpdateOp; /** * A flexible view for providing a limited window into a large data set. * *

Glossary of terms:

* *

Adapter: A subclass of {@link Adapter} responsible for providing views * that represent items in a data set.
Position: The position of a data item within an Adapter.
Index: The index of an attached child view as used in a call to * {@link ViewGroup#getChildAt}. Contrast with Position.
Binding: The process of preparing a child view to display data corresponding * to a position within the adapter.
Recycle (view): A view previously used to display data for a specific adapter * position may be placed in a cache for later reuse to display the same type of data again * later. This can drastically improve performance by skipping initial layout inflation * or construction.
Scrap (view): A child view that has entered into a temporarily detached * state during layout. Scrap views may be reused without becoming fully detached * from the parent RecyclerView, either unmodified if no rebinding is required or modified * by the adapter if the view was considered dirty.
Dirty (view): A child view that must be rebound by the adapter before * being displayed.

* *

Positions in RecyclerView:

* RecyclerView introduces an additional level of abstraction between the {@link Adapter} and * {@link LayoutManager} to be able to detect data set changes in batches during a layout * calculation. This saves LayoutManager from tracking adapter changes to calculate animations. * It also helps with performance because all view bindings happen at the same time and unnecessary * bindings are avoided. *

* For this reason, there are two types of position related methods in RecyclerView: *

layout position: Position of an item in the latest layout calculation. This is the * position from the LayoutManager's perspective.
adapter position: Position of an item in the adapter. This is the position from * the Adapter's perspective.

* These two positions are the same except the time between dispatching adapter.notify* * events and calculating the updated layout. *

* Methods that return or receive *LayoutPosition* use position as of the latest * layout calculation (e.g. {@link ViewHolder#getLayoutPosition()}, * {@link #findViewHolderForLayoutPosition(int)}). These positions include all changes until the * last layout calculation. You can rely on these positions to be consistent with what user is * currently seeing on the screen. For example, if you have a list of items on the screen and user * asks for the 5^th element, you should use these methods as they'll match what user * is seeing. *

* The other set of position related methods are in the form of * *AdapterPosition*. (e.g. {@link ViewHolder#getAdapterPosition()}, * {@link #findViewHolderForAdapterPosition(int)}) You should use these methods when you need to * work with up-to-date adapter positions even if they may not have been reflected to layout yet. * For example, if you want to access the item in the adapter on a ViewHolder click, you should use * {@link ViewHolder#getAdapterPosition()}. Beware that these methods may not be able to calculate * adapter positions if {@link Adapter#notifyDataSetChanged()} has been called and new layout has * not yet been calculated. For this reasons, you should carefully handle {@link #NO_POSITION} or * null results from these methods. *

* When writing a {@link LayoutManager} you almost always want to use layout positions whereas when * writing an {@link Adapter}, you probably want to use adapter positions. * * @attr ref android.support.v7.recyclerview.R.styleable#RecyclerView_layoutManager */ public class RecyclerView extends ViewGroup implements ScrollingView, NestedScrollingChild { static final String TAG = "RecyclerView"; static final boolean DEBUG = false; private static final int[] NESTED_SCROLLING_ATTRS = {16843830 /* android.R.attr.nestedScrollingEnabled */}; private static final int[] CLIP_TO_PADDING_ATTR = {android.R.attr.clipToPadding}; /** * On Kitkat and JB MR2, there is a bug which prevents DisplayList from being invalidated if * a View is two levels deep(wrt to ViewHolder.itemView). DisplayList can be invalidated by * setting View's visibility to INVISIBLE when View is detached. On Kitkat and JB MR2, Recycler * recursively traverses itemView and invalidates display list for each ViewGroup that matches * this criteria. */ static final boolean FORCE_INVALIDATE_DISPLAY_LIST = Build.VERSION.SDK_INT == 18 || Build.VERSION.SDK_INT == 19 || Build.VERSION.SDK_INT == 20; /** * On M+, an unspecified measure spec may include a hint which we can use. On older platforms, * this value might be garbage. To save LayoutManagers from it, RecyclerView sets the size to * 0 when mode is unspecified. */ static final boolean ALLOW_SIZE_IN_UNSPECIFIED_SPEC = Build.VERSION.SDK_INT >= 23; static final boolean POST_UPDATES_ON_ANIMATION = Build.VERSION.SDK_INT >= 16; /** * On L+, with RenderThread, the UI thread has idle time after it has passed a frame off to * RenderThread but before the next frame begins. We schedule prefetch work in this window. */ private static final boolean ALLOW_PREFETCHING = Build.VERSION.SDK_INT >= 21; static final boolean DISPATCH_TEMP_DETACH = false; public static final int HORIZONTAL = 0; public static final int VERTICAL = 1; public static final int NO_POSITION = -1; public static final long NO_ID = -1; public static final int INVALID_TYPE = -1; /** * Constant for use with {@link #setScrollingTouchSlop(int)}. Indicates * that the RecyclerView should use the standard touch slop for smooth, * continuous scrolling. */ public static final int TOUCH_SLOP_DEFAULT = 0; /** * Constant for use with {@link #setScrollingTouchSlop(int)}. Indicates * that the RecyclerView should use the standard touch slop for scrolling * widgets that snap to a page or other coarse-grained barrier. */ public static final int TOUCH_SLOP_PAGING = 1; static final int MAX_SCROLL_DURATION = 2000; /** * RecyclerView is calculating a scroll. * If there are too many of these in Systrace, some Views inside RecyclerView might be causing * it. Try to avoid using EditText, focusable views or handle them with care. */ static final String TRACE_SCROLL_TAG = "RV Scroll"; /** * OnLayout has been called by the View system. * If this shows up too many times in Systrace, make sure the children of RecyclerView do not * update themselves directly. This will cause a full re-layout but when it happens via the * Adapter notifyItemChanged, RecyclerView can avoid full layout calculation. */ private static final String TRACE_ON_LAYOUT_TAG = "RV OnLayout"; /** * NotifyDataSetChanged or equal has been called. * If this is taking a long time, try sending granular notify adapter changes instead of just * calling notifyDataSetChanged or setAdapter / swapAdapter. Adding stable ids to your adapter * might help. */ private static final String TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG = "RV FullInvalidate"; /** * RecyclerView is doing a layout for partial adapter updates (we know what has changed) * If this is taking a long time, you may have dispatched too many Adapter updates causing too * many Views being rebind. Make sure all are necessary and also prefer using notify*Range * methods. */ private static final String TRACE_HANDLE_ADAPTER_UPDATES_TAG = "RV PartialInvalidate"; /** * RecyclerView is rebinding a View. * If this is taking a lot of time, consider optimizing your layout or make sure you are not * doing extra operations in onBindViewHolder call. */ static final String TRACE_BIND_VIEW_TAG = "RV OnBindView"; /** * RecyclerView is attempting to pre-populate off screen views. */ private static final String TRACE_PREFETCH_TAG = "RV Prefetch"; /** * RecyclerView is creating a new View. * If too many of these present in Systrace: * - There might be a problem in Recycling (e.g. custom Animations that set transient state and * prevent recycling or ItemAnimator not implementing the contract properly. ({@link * > Adapter#onFailedToRecycleView(ViewHolder)}) * * - There might be too many item view types. * > Try merging them * * - There might be too many itemChange animations and not enough space in RecyclerPool. * >Try increasing your pool size and item cache size. */ static final String TRACE_CREATE_VIEW_TAG = "RV CreateView"; private static final Class[] LAYOUT_MANAGER_CONSTRUCTOR_SIGNATURE = new Class[]{Context.class, AttributeSet.class, int.class, int.class}; private final RecyclerViewDataObserver mObserver = new RecyclerViewDataObserver(); final Recycler mRecycler = new Recycler(); private SavedState mPendingSavedState; /** * Handles adapter updates */ AdapterHelper mAdapterHelper; /** * Handles abstraction between LayoutManager children and RecyclerView children */ ChildHelper mChildHelper; /** * Keeps data about views to be used for animations */ final ViewInfoStore mViewInfoStore = new ViewInfoStore(); /** * Prior to L, there is no way to query this variable which is why we override the setter and * track it here. */ boolean mClipToPadding; /** * Note: this Runnable is only ever posted if: * 1) We've been through first layout * 2) We know we have a fixed size (mHasFixedSize) * 3) We're attached */ final Runnable mUpdateChildViewsRunnable = new Runnable() { @Override public void run() { if (!mFirstLayoutComplete || isLayoutRequested()) { // a layout request will happen, we should not do layout here. return; } if (!mIsAttached) { requestLayout(); // if we are not attached yet, mark us as requiring layout and skip return; } if (mLayoutFrozen) { mLayoutRequestEaten = true; return; //we'll process updates when ice age ends. } consumePendingUpdateOperations(); } }; final Rect mTempRect = new Rect(); private final Rect mTempRect2 = new Rect(); final RectF mTempRectF = new RectF(); Adapter mAdapter; @VisibleForTesting LayoutManager mLayout; RecyclerListener mRecyclerListener; final ArrayList mItemDecorations = new ArrayList<>(); private final ArrayList mOnItemTouchListeners = new ArrayList<>(); private OnItemTouchListener mActiveOnItemTouchListener; boolean mIsAttached; boolean mHasFixedSize; @VisibleForTesting boolean mFirstLayoutComplete; // Counting lock to control whether we should ignore requestLayout calls from children or not. private int mEatRequestLayout = 0; boolean mLayoutRequestEaten; boolean mLayoutFrozen; private boolean mIgnoreMotionEventTillDown; // binary OR of change events that were eaten during a layout or scroll. private int mEatenAccessibilityChangeFlags; boolean mAdapterUpdateDuringMeasure; private final AccessibilityManager mAccessibilityManager; private List mOnChildAttachStateListeners; /** * Set to true when an adapter data set changed notification is received. * In that case, we cannot run any animations since we don't know what happened. */ boolean mDataSetHasChangedAfterLayout = false; /** * This variable is incremented during a dispatchLayout and/or scroll. * Some methods should not be called during these periods (e.g. adapter data change). * Doing so will create hard to find bugs so we better check it and throw an exception. * * @see #assertInLayoutOrScroll(String) * @see #assertNotInLayoutOrScroll(String) */ private int mLayoutOrScrollCounter = 0; /** * Similar to mLayoutOrScrollCounter but logs a warning instead of throwing an exception * (for API compatibility). *

* It is a bad practice for a developer to update the data in a scroll callback since it is * potentially called during a layout. */ private int mDispatchScrollCounter = 0; private EdgeEffectCompat mLeftGlow, mTopGlow, mRightGlow, mBottomGlow; ItemAnimator mItemAnimator = new DefaultItemAnimator(); private static final int INVALID_POINTER = -1; /** * The RecyclerView is not currently scrolling. * @see #getScrollState() */ public static final int SCROLL_STATE_IDLE = 0; /** * The RecyclerView is currently being dragged by outside input such as user touch input. * @see #getScrollState() */ public static final int SCROLL_STATE_DRAGGING = 1; /** * The RecyclerView is currently animating to a final position while not under * outside control. * @see #getScrollState() */ public static final int SCROLL_STATE_SETTLING = 2; // Touch/scrolling handling private int mScrollState = SCROLL_STATE_IDLE; private int mScrollPointerId = INVALID_POINTER; private VelocityTracker mVelocityTracker; private int mInitialTouchX; private int mInitialTouchY; private int mLastTouchX; private int mLastTouchY; private int mTouchSlop; private OnFlingListener mOnFlingListener; private final int mMinFlingVelocity; private final int mMaxFlingVelocity; // This value is used when handling generic motion events. private float mScrollFactor = Float.MIN_VALUE; private boolean mPreserveFocusAfterLayout = true; final ViewFlinger mViewFlinger = new ViewFlinger(); private static final long MIN_PREFETCH_TIME_NANOS = TimeUnit.MILLISECONDS.toNanos(4); static long sFrameIntervalNanos = 0; ViewPrefetcher mViewPrefetcher = ALLOW_PREFETCHING ? new ViewPrefetcher() : null; final State mState = new State(); private OnScrollListener mScrollListener; private List mScrollListeners; // For use in item animations boolean mItemsAddedOrRemoved = false; boolean mItemsChanged = false; private ItemAnimator.ItemAnimatorListener mItemAnimatorListener = new ItemAnimatorRestoreListener(); boolean mPostedAnimatorRunner = false; RecyclerViewAccessibilityDelegate mAccessibilityDelegate; private ChildDrawingOrderCallback mChildDrawingOrderCallback; // simple array to keep min and max child position during a layout calculation // preserved not to create a new one in each layout pass private final int[] mMinMaxLayoutPositions = new int[2]; private NestedScrollingChildHelper mScrollingChildHelper; private final int[] mScrollOffset = new int[2]; private final int[] mScrollConsumed = new int[2]; private final int[] mNestedOffsets = new int[2]; /** * These are views that had their a11y importance changed during a layout. We defer these events * until the end of the layout because a11y service may make sync calls back to the RV while * the View's state is undefined. */ private final List mPendingAccessibilityImportanceChange = new ArrayList(); private Runnable mItemAnimatorRunner = new Runnable() { @Override public void run() { if (mItemAnimator != null) { mItemAnimator.runPendingAnimations(); } mPostedAnimatorRunner = false; } }; static final Interpolator sQuinticInterpolator = new Interpolator() { @Override public float getInterpolation(float t) { t -= 1.0f; return t * t * t * t * t + 1.0f; } }; /** * The callback to convert view info diffs into animations. */ private final ViewInfoStore.ProcessCallback mViewInfoProcessCallback = new ViewInfoStore.ProcessCallback() { @Override public void processDisappeared(ViewHolder viewHolder, @NonNull ItemHolderInfo info, @Nullable ItemHolderInfo postInfo) { mRecycler.unscrapView(viewHolder); animateDisappearance(viewHolder, info, postInfo); } @Override public void processAppeared(ViewHolder viewHolder, ItemHolderInfo preInfo, ItemHolderInfo info) { animateAppearance(viewHolder, preInfo, info); } @Override public void processPersistent(ViewHolder viewHolder, @NonNull ItemHolderInfo preInfo, @NonNull ItemHolderInfo postInfo) { viewHolder.setIsRecyclable(false); if (mDataSetHasChangedAfterLayout) { // since it was rebound, use change instead as we'll be mapping them from // stable ids. If stable ids were false, we would not be running any // animations if (mItemAnimator.animateChange(viewHolder, viewHolder, preInfo, postInfo)) { postAnimationRunner(); } } else if (mItemAnimator.animatePersistence(viewHolder, preInfo, postInfo)) { postAnimationRunner(); } } @Override public void unused(ViewHolder viewHolder) { mLayout.removeAndRecycleView(viewHolder.itemView, mRecycler); } }; public RecyclerView(Context context) { this(context, null); } public RecyclerView(Context context, @Nullable AttributeSet attrs) { this(context, attrs, 0); } public RecyclerView(Context context, @Nullable AttributeSet attrs, int defStyle) { super(context, attrs, defStyle); if (attrs != null) { TypedArray a = context.obtainStyledAttributes(attrs, CLIP_TO_PADDING_ATTR, defStyle, 0); mClipToPadding = a.getBoolean(0, true); a.recycle(); } else { mClipToPadding = true; } setScrollContainer(true); setFocusableInTouchMode(true); final ViewConfiguration vc = ViewConfiguration.get(context); mTouchSlop = vc.getScaledTouchSlop(); mMinFlingVelocity = vc.getScaledMinimumFlingVelocity(); mMaxFlingVelocity = vc.getScaledMaximumFlingVelocity(); setWillNotDraw(getOverScrollMode() == View.OVER_SCROLL_NEVER); mItemAnimator.setListener(mItemAnimatorListener); initAdapterManager(); initChildrenHelper(); // If not explicitly specified this view is important for accessibility. if (ViewCompat.getImportantForAccessibility(this) == ViewCompat.IMPORTANT_FOR_ACCESSIBILITY_AUTO) { ViewCompat.setImportantForAccessibility(this, ViewCompat.IMPORTANT_FOR_ACCESSIBILITY_YES); } mAccessibilityManager = (AccessibilityManager) getContext() .getSystemService(Context.ACCESSIBILITY_SERVICE); setAccessibilityDelegateCompat(new RecyclerViewAccessibilityDelegate(this)); // Create the layoutManager if specified. boolean nestedScrollingEnabled = true; if (attrs != null) { int defStyleRes = 0; TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.RecyclerView, defStyle, defStyleRes); String layoutManagerName = a.getString(R.styleable.RecyclerView_layoutManager); int descendantFocusability = a.getInt( R.styleable.RecyclerView_android_descendantFocusability, -1); if (descendantFocusability == -1) { setDescendantFocusability(ViewGroup.FOCUS_AFTER_DESCENDANTS); } a.recycle(); createLayoutManager(context, layoutManagerName, attrs, defStyle, defStyleRes); if (Build.VERSION.SDK_INT >= 21) { a = context.obtainStyledAttributes(attrs, NESTED_SCROLLING_ATTRS, defStyle, defStyleRes); nestedScrollingEnabled = a.getBoolean(0, true); a.recycle(); } } else { setDescendantFocusability(ViewGroup.FOCUS_AFTER_DESCENDANTS); } // Re-set whether nested scrolling is enabled so that it is set on all API levels setNestedScrollingEnabled(nestedScrollingEnabled); } /** * Returns the accessibility delegate compatibility implementation used by the RecyclerView. * @return An instance of AccessibilityDelegateCompat used by RecyclerView */ public RecyclerViewAccessibilityDelegate getCompatAccessibilityDelegate() { return mAccessibilityDelegate; } /** * Sets the accessibility delegate compatibility implementation used by RecyclerView. * @param accessibilityDelegate The accessibility delegate to be used by RecyclerView. */ public void setAccessibilityDelegateCompat( RecyclerViewAccessibilityDelegate accessibilityDelegate) { mAccessibilityDelegate = accessibilityDelegate; ViewCompat.setAccessibilityDelegate(this, mAccessibilityDelegate); } /** * Instantiate and set a LayoutManager, if specified in the attributes. */ private void createLayoutManager(Context context, String className, AttributeSet attrs, int defStyleAttr, int defStyleRes) { if (className != null) { className = className.trim(); if (className.length() != 0) { // Can't use isEmpty since it was added in API 9. className = getFullClassName(context, className); try { ClassLoader classLoader; if (isInEditMode()) { // Stupid layoutlib cannot handle simple class loaders. classLoader = this.getClass().getClassLoader(); } else { classLoader = context.getClassLoader(); } Class layoutManagerClass = classLoader.loadClass(className).asSubclass(LayoutManager.class); Constructor constructor; Object[] constructorArgs = null; try { constructor = layoutManagerClass .getConstructor(LAYOUT_MANAGER_CONSTRUCTOR_SIGNATURE); constructorArgs = new Object[]{context, attrs, defStyleAttr, defStyleRes}; } catch (NoSuchMethodException e) { try { constructor = layoutManagerClass.getConstructor(); } catch (NoSuchMethodException e1) { e1.initCause(e); throw new IllegalStateException(attrs.getPositionDescription() + ": Error creating LayoutManager " + className, e1); } } constructor.setAccessible(true); setLayoutManager(constructor.newInstance(constructorArgs)); } catch (ClassNotFoundException e) { throw new IllegalStateException(attrs.getPositionDescription() + ": Unable to find LayoutManager " + className, e); } catch (InvocationTargetException e) { throw new IllegalStateException(attrs.getPositionDescription() + ": Could not instantiate the LayoutManager: " + className, e); } catch (InstantiationException e) { throw new IllegalStateException(attrs.getPositionDescription() + ": Could not instantiate the LayoutManager: " + className, e); } catch (IllegalAccessException e) { throw new IllegalStateException(attrs.getPositionDescription() + ": Cannot access non-public constructor " + className, e); } catch (ClassCastException e) { throw new IllegalStateException(attrs.getPositionDescription() + ": Class is not a LayoutManager " + className, e); } } } } private String getFullClassName(Context context, String className) { if (className.charAt(0) == '.') { return context.getPackageName() + className; } if (className.contains(".")) { return className; } return RecyclerView.class.getPackage().getName() + '.' + className; } private void initChildrenHelper() { mChildHelper = new ChildHelper(new ChildHelper.Callback() { @Override public int getChildCount() { return RecyclerView.this.getChildCount(); } @Override public void addView(View child, int index) { RecyclerView.this.addView(child, index); dispatchChildAttached(child); } @Override public int indexOfChild(View view) { return RecyclerView.this.indexOfChild(view); } @Override public void removeViewAt(int index) { final View child = RecyclerView.this.getChildAt(index); if (child != null) { dispatchChildDetached(child); } RecyclerView.this.removeViewAt(index); } @Override public View getChildAt(int offset) { return RecyclerView.this.getChildAt(offset); } @Override public void removeAllViews() { final int count = getChildCount(); for (int i = 0; i < count; i ++) { dispatchChildDetached(getChildAt(i)); } RecyclerView.this.removeAllViews(); } @Override public ViewHolder getChildViewHolder(View view) { return getChildViewHolderInt(view); } @Override public void attachViewToParent(View child, int index, ViewGroup.LayoutParams layoutParams) { final ViewHolder vh = getChildViewHolderInt(child); if (vh != null) { if (!vh.isTmpDetached() && !vh.shouldIgnore()) { throw new IllegalArgumentException("Called attach on a child which is not" + " detached: " + vh); } if (DEBUG) { Log.d(TAG, "reAttach " + vh); } vh.clearTmpDetachFlag(); } RecyclerView.this.attachViewToParent(child, index, layoutParams); } @Override public void detachViewFromParent(int offset) { final View view = getChildAt(offset); if (view != null) { final ViewHolder vh = getChildViewHolderInt(view); if (vh != null) { if (vh.isTmpDetached() && !vh.shouldIgnore()) { throw new IllegalArgumentException("called detach on an already" + " detached child " + vh); } if (DEBUG) { Log.d(TAG, "tmpDetach " + vh); } vh.addFlags(ViewHolder.FLAG_TMP_DETACHED); } } RecyclerView.this.detachViewFromParent(offset); } @Override public void onEnteredHiddenState(View child) { final ViewHolder vh = getChildViewHolderInt(child); if (vh != null) { vh.onEnteredHiddenState(RecyclerView.this); } } @Override public void onLeftHiddenState(View child) { final ViewHolder vh = getChildViewHolderInt(child); if (vh != null) { vh.onLeftHiddenState(RecyclerView.this); } } }); } void initAdapterManager() { mAdapterHelper = new AdapterHelper(new Callback() { @Override public ViewHolder findViewHolder(int position) { final ViewHolder vh = findViewHolderForPosition(position, true); if (vh == null) { return null; } // ensure it is not hidden because for adapter helper, the only thing matter is that // LM thinks view is a child. if (mChildHelper.isHidden(vh.itemView)) { if (DEBUG) { Log.d(TAG, "assuming view holder cannot be find because it is hidden"); } return null; } return vh; } @Override public void offsetPositionsForRemovingInvisible(int start, int count) { offsetPositionRecordsForRemove(start, count, true); mItemsAddedOrRemoved = true; mState.mDeletedInvisibleItemCountSincePreviousLayout += count; } @Override public void offsetPositionsForRemovingLaidOutOrNewView(int positionStart, int itemCount) { offsetPositionRecordsForRemove(positionStart, itemCount, false); mItemsAddedOrRemoved = true; } @Override public void markViewHoldersUpdated(int positionStart, int itemCount, Object payload) { viewRangeUpdate(positionStart, itemCount, payload); mItemsChanged = true; } @Override public void onDispatchFirstPass(UpdateOp op) { dispatchUpdate(op); } void dispatchUpdate(UpdateOp op) { switch (op.cmd) { case UpdateOp.ADD: mLayout.onItemsAdded(RecyclerView.this, op.positionStart, op.itemCount); break; case UpdateOp.REMOVE: mLayout.onItemsRemoved(RecyclerView.this, op.positionStart, op.itemCount); break; case UpdateOp.UPDATE: mLayout.onItemsUpdated(RecyclerView.this, op.positionStart, op.itemCount, op.payload); break; case UpdateOp.MOVE: mLayout.onItemsMoved(RecyclerView.this, op.positionStart, op.itemCount, 1); break; } } @Override public void onDispatchSecondPass(UpdateOp op) { dispatchUpdate(op); } @Override public void offsetPositionsForAdd(int positionStart, int itemCount) { offsetPositionRecordsForInsert(positionStart, itemCount); mItemsAddedOrRemoved = true; } @Override public void offsetPositionsForMove(int from, int to) { offsetPositionRecordsForMove(from, to); // should we create mItemsMoved ? mItemsAddedOrRemoved = true; } }); } /** * RecyclerView can perform several optimizations if it can know in advance that RecyclerView's * size is not affected by the adapter contents. RecyclerView can still change its size based * on other factors (e.g. its parent's size) but this size calculation cannot depend on the * size of its children or contents of its adapter (except the number of items in the adapter). *

* If your use of RecyclerView falls into this category, set this to {@code true}. It will allow * RecyclerView to avoid invalidating the whole layout when its adapter contents change. * * @param hasFixedSize true if adapter changes cannot affect the size of the RecyclerView. */ public void setHasFixedSize(boolean hasFixedSize) { mHasFixedSize = hasFixedSize; } /** * @return true if the app has specified that changes in adapter content cannot change * the size of the RecyclerView itself. */ public boolean hasFixedSize() { return mHasFixedSize; } @Override public void setClipToPadding(boolean clipToPadding) { if (clipToPadding != mClipToPadding) { invalidateGlows(); } mClipToPadding = clipToPadding; super.setClipToPadding(clipToPadding); if (mFirstLayoutComplete) { requestLayout(); } } /** * Returns whether this RecyclerView will clip its children to its padding, and resize (but * not clip) any EdgeEffect to the padded region, if padding is present. *

* By default, children are clipped to the padding of their parent * RecyclerView. This clipping behavior is only enabled if padding is non-zero. * * @return true if this RecyclerView clips children to its padding and resizes (but doesn't * clip) any EdgeEffect to the padded region, false otherwise. * * @attr name android:clipToPadding */ public boolean getClipToPadding() { return mClipToPadding; } /** * Configure the scrolling touch slop for a specific use case. * * Set up the RecyclerView's scrolling motion threshold based on common usages. * Valid arguments are {@link #TOUCH_SLOP_DEFAULT} and {@link #TOUCH_SLOP_PAGING}. * * @param slopConstant One of the TOUCH_SLOP_ constants representing * the intended usage of this RecyclerView */ public void setScrollingTouchSlop(int slopConstant) { final ViewConfiguration vc = ViewConfiguration.get(getContext()); switch (slopConstant) { default: Log.w(TAG, "setScrollingTouchSlop(): bad argument constant " + slopConstant + "; using default value"); // fall-through case TOUCH_SLOP_DEFAULT: mTouchSlop = vc.getScaledTouchSlop(); break; case TOUCH_SLOP_PAGING: mTouchSlop = vc.getScaledPagingTouchSlop(); break; } } /** * Swaps the current adapter with the provided one. It is similar to * {@link #setAdapter(Adapter)} but assumes existing adapter and the new adapter uses the same * {@link ViewHolder} and does not clear the RecycledViewPool. *

* Note that it still calls onAdapterChanged callbacks. * * @param adapter The new adapter to set, or null to set no adapter. * @param removeAndRecycleExistingViews If set to true, RecyclerView will recycle all existing * Views. If adapters have stable ids and/or you want to * animate the disappearing views, you may prefer to set * this to false. * @see #setAdapter(Adapter) */ public void swapAdapter(Adapter adapter, boolean removeAndRecycleExistingViews) { // bail out if layout is frozen setLayoutFrozen(false); setAdapterInternal(adapter, true, removeAndRecycleExistingViews); setDataSetChangedAfterLayout(); requestLayout(); } /** * Set a new adapter to provide child views on demand. *

* When adapter is changed, all existing views are recycled back to the pool. If the pool has * only one adapter, it will be cleared. * * @param adapter The new adapter to set, or null to set no adapter. * @see #swapAdapter(Adapter, boolean) */ public void setAdapter(Adapter adapter) { // bail out if layout is frozen setLayoutFrozen(false); setAdapterInternal(adapter, false, true); requestLayout(); } /** * Replaces the current adapter with the new one and triggers listeners. * @param adapter The new adapter * @param compatibleWithPrevious If true, the new adapter is using the same View Holders and * item types with the current adapter (helps us avoid cache * invalidation). * @param removeAndRecycleViews If true, we'll remove and recycle all existing views. If * compatibleWithPrevious is false, this parameter is ignored. */ private void setAdapterInternal(Adapter adapter, boolean compatibleWithPrevious, boolean removeAndRecycleViews) { if (mAdapter != null) { mAdapter.unregisterAdapterDataObserver(mObserver); mAdapter.onDetachedFromRecyclerView(this); } if (!compatibleWithPrevious || removeAndRecycleViews) { // end all running animations if (mItemAnimator != null) { mItemAnimator.endAnimations(); } // Since animations are ended, mLayout.children should be equal to // recyclerView.children. This may not be true if item animator's end does not work as // expected. (e.g. not release children instantly). It is safer to use mLayout's child // count. if (mLayout != null) { mLayout.removeAndRecycleAllViews(mRecycler); mLayout.removeAndRecycleScrapInt(mRecycler); } // we should clear it here before adapters are swapped to ensure correct callbacks. mRecycler.clear(); } mAdapterHelper.reset(); final Adapter oldAdapter = mAdapter; mAdapter = adapter; if (adapter != null) { adapter.registerAdapterDataObserver(mObserver); adapter.onAttachedToRecyclerView(this); } if (mLayout != null) { mLayout.onAdapterChanged(oldAdapter, mAdapter); } mRecycler.onAdapterChanged(oldAdapter, mAdapter, compatibleWithPrevious); mState.mStructureChanged = true; markKnownViewsInvalid(); } /** * Retrieves the previously set adapter or null if no adapter is set. * * @return The previously set adapter * @see #setAdapter(Adapter) */ public Adapter getAdapter() { return mAdapter; } /** * Register a listener that will be notified whenever a child view is recycled. * *

This listener will be called when a LayoutManager or the RecyclerView decides * that a child view is no longer needed. If an application associates expensive * or heavyweight data with item views, this may be a good place to release * or free those resources.

* * @param listener Listener to register, or null to clear */ public void setRecyclerListener(RecyclerListener listener) { mRecyclerListener = listener; } /** *

Return the offset of the RecyclerView's text baseline from the its top * boundary. If the LayoutManager of this RecyclerView does not support baseline alignment, * this method returns -1.

* * @return the offset of the baseline within the RecyclerView's bounds or -1 * if baseline alignment is not supported */ @Override public int getBaseline() { if (mLayout != null) { return mLayout.getBaseline(); } else { return super.getBaseline(); } } /** * Register a listener that will be notified whenever a child view is attached to or detached * from RecyclerView. * *

* * @param listener Listener to register */ public void addOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener) { if (mOnChildAttachStateListeners == null) { mOnChildAttachStateListeners = new ArrayList<>(); } mOnChildAttachStateListeners.add(listener); } /** * Removes the provided listener from child attached state listeners list. * * @param listener Listener to unregister */ public void removeOnChildAttachStateChangeListener(OnChildAttachStateChangeListener listener) { if (mOnChildAttachStateListeners == null) { return; } mOnChildAttachStateListeners.remove(listener); } /** * Removes all listeners that were added via * {@link #addOnChildAttachStateChangeListener(OnChildAttachStateChangeListener)}. */ public void clearOnChildAttachStateChangeListeners() { if (mOnChildAttachStateListeners != null) { mOnChildAttachStateListeners.clear(); } } /** * Set the {@link LayoutManager} that this RecyclerView will use. * *

In contrast to other adapter-backed views such as {@link android.widget.ListView} * or {@link android.widget.GridView}, RecyclerView allows client code to provide custom * layout arrangements for child views. These arrangements are controlled by the * {@link LayoutManager}. A LayoutManager must be provided for RecyclerView to function.

* *

Several default strategies are provided for common uses such as lists and grids.

* * @param layout LayoutManager to use */ public void setLayoutManager(LayoutManager layout) { if (layout == mLayout) { return; } stopScroll(); // TODO We should do this switch a dispatchLayout pass and animate children. There is a good // chance that LayoutManagers will re-use views. if (mLayout != null) { // end all running animations if (mItemAnimator != null) { mItemAnimator.endAnimations(); } mLayout.removeAndRecycleAllViews(mRecycler); mLayout.removeAndRecycleScrapInt(mRecycler); mRecycler.clear(); if (mIsAttached) { mLayout.dispatchDetachedFromWindow(this, mRecycler); } mLayout.setRecyclerView(null); mLayout = null; } else { mRecycler.clear(); } // this is just a defensive measure for faulty item animators. mChildHelper.removeAllViewsUnfiltered(); mLayout = layout; if (layout != null) { if (layout.mRecyclerView != null) { throw new IllegalArgumentException("LayoutManager " + layout + " is already attached to a RecyclerView: " + layout.mRecyclerView); } mLayout.setRecyclerView(this); if (mIsAttached) { mLayout.dispatchAttachedToWindow(this); } } mRecycler.updateViewCacheSize(); requestLayout(); } /** * Set a {@link OnFlingListener} for this {@link RecyclerView}. *

* If the {@link OnFlingListener} is set then it will receive * calls to {@link #fling(int,int)} and will be able to intercept them. * * @param onFlingListener The {@link OnFlingListener} instance. */ public void setOnFlingListener(@Nullable OnFlingListener onFlingListener) { mOnFlingListener = onFlingListener; } /** * Get the current {@link OnFlingListener} from this {@link RecyclerView}. * * @return The {@link OnFlingListener} instance currently set (can be null). */ @Nullable public OnFlingListener getOnFlingListener() { return mOnFlingListener; } @Override protected Parcelable onSaveInstanceState() { SavedState state = new SavedState(super.onSaveInstanceState()); if (mPendingSavedState != null) { state.copyFrom(mPendingSavedState); } else if (mLayout != null) { state.mLayoutState = mLayout.onSaveInstanceState(); } else { state.mLayoutState = null; } return state; } @Override protected void onRestoreInstanceState(Parcelable state) { if (!(state instanceof SavedState)) { super.onRestoreInstanceState(state); return; } mPendingSavedState = (SavedState) state; super.onRestoreInstanceState(mPendingSavedState.getSuperState()); if (mLayout != null && mPendingSavedState.mLayoutState != null) { mLayout.onRestoreInstanceState(mPendingSavedState.mLayoutState); } } /** * Override to prevent freezing of any views created by the adapter. */ @Override protected void dispatchSaveInstanceState(SparseArray container) { dispatchFreezeSelfOnly(container); } /** * Override to prevent thawing of any views created by the adapter. */ @Override protected void dispatchRestoreInstanceState(SparseArray container) { dispatchThawSelfOnly(container); } /** * Adds a view to the animatingViews list. * mAnimatingViews holds the child views that are currently being kept around * purely for the purpose of being animated out of view. They are drawn as a regular * part of the child list of the RecyclerView, but they are invisible to the LayoutManager * as they are managed separately from the regular child views. * @param viewHolder The ViewHolder to be removed */ private void addAnimatingView(ViewHolder viewHolder) { final View view = viewHolder.itemView; final boolean alreadyParented = view.getParent() == this; mRecycler.unscrapView(getChildViewHolder(view)); if (viewHolder.isTmpDetached()) { // re-attach mChildHelper.attachViewToParent(view, -1, view.getLayoutParams(), true); } else if(!alreadyParented) { mChildHelper.addView(view, true); } else { mChildHelper.hide(view); } } /** * Removes a view from the animatingViews list. * @param view The view to be removed * @see #addAnimatingView(RecyclerView.ViewHolder) * @return true if an animating view is removed */ boolean removeAnimatingView(View view) { eatRequestLayout(); final boolean removed = mChildHelper.removeViewIfHidden(view); if (removed) { final ViewHolder viewHolder = getChildViewHolderInt(view); mRecycler.unscrapView(viewHolder); mRecycler.recycleViewHolderInternal(viewHolder); if (DEBUG) { Log.d(TAG, "after removing animated view: " + view + ", " + this); } } // only clear request eaten flag if we removed the view. resumeRequestLayout(!removed); return removed; } /** * Return the {@link LayoutManager} currently responsible for * layout policy for this RecyclerView. * * @return The currently bound LayoutManager */ public LayoutManager getLayoutManager() { return mLayout; } /** * Retrieve this RecyclerView's {@link RecycledViewPool}. This method will never return null; * if no pool is set for this view a new one will be created. See * {@link #setRecycledViewPool(RecycledViewPool) setRecycledViewPool} for more information. * * @return The pool used to store recycled item views for reuse. * @see #setRecycledViewPool(RecycledViewPool) */ public RecycledViewPool getRecycledViewPool() { return mRecycler.getRecycledViewPool(); } /** * Recycled view pools allow multiple RecyclerViews to share a common pool of scrap views. * This can be useful if you have multiple RecyclerViews with adapters that use the same * view types, for example if you have several data sets with the same kinds of item views * displayed by a {@link android.support.v4.view.ViewPager ViewPager}. * * @param pool Pool to set. If this parameter is null a new pool will be created and used. */ public void setRecycledViewPool(RecycledViewPool pool) { mRecycler.setRecycledViewPool(pool); } /** * Sets a new {@link ViewCacheExtension} to be used by the Recycler. * * @param extension ViewCacheExtension to be used or null if you want to clear the existing one. * * @see {@link ViewCacheExtension#getViewForPositionAndType(Recycler, int, int)} */ public void setViewCacheExtension(ViewCacheExtension extension) { mRecycler.setViewCacheExtension(extension); } /** * Set the number of offscreen views to retain before adding them to the potentially shared * {@link #getRecycledViewPool() recycled view pool}. * *

The offscreen view cache stays aware of changes in the attached adapter, allowing * a LayoutManager to reuse those views unmodified without needing to return to the adapter * to rebind them.

* * @param size Number of views to cache offscreen before returning them to the general * recycled view pool */ public void setItemViewCacheSize(int size) { mRecycler.setViewCacheSize(size); } /** * Return the current scrolling state of the RecyclerView. * * @return {@link #SCROLL_STATE_IDLE}, {@link #SCROLL_STATE_DRAGGING} or * {@link #SCROLL_STATE_SETTLING} */ public int getScrollState() { return mScrollState; } void setScrollState(int state) { if (state == mScrollState) { return; } if (DEBUG) { Log.d(TAG, "setting scroll state to " + state + " from " + mScrollState, new Exception()); } mScrollState = state; if (state != SCROLL_STATE_SETTLING) { stopScrollersInternal(); } dispatchOnScrollStateChanged(state); } /** * Add an {@link ItemDecoration} to this RecyclerView. Item decorations can * affect both measurement and drawing of individual item views. * *

Item decorations are ordered. Decorations placed earlier in the list will * be run/queried/drawn first for their effects on item views. Padding added to views * will be nested; a padding added by an earlier decoration will mean further * item decorations in the list will be asked to draw/pad within the previous decoration's * given area.

* * @param decor Decoration to add * @param index Position in the decoration chain to insert this decoration at. If this value * is negative the decoration will be added at the end. */ public void addItemDecoration(ItemDecoration decor, int index) { if (mLayout != null) { mLayout.assertNotInLayoutOrScroll("Cannot add item decoration during a scroll or" + " layout"); } if (mItemDecorations.isEmpty()) { setWillNotDraw(false); } if (index < 0) { mItemDecorations.add(decor); } else { mItemDecorations.add(index, decor); } markItemDecorInsetsDirty(); requestLayout(); } /** * Add an {@link ItemDecoration} to this RecyclerView. Item decorations can * affect both measurement and drawing of individual item views. * *

* * @param decor Decoration to add */ public void addItemDecoration(ItemDecoration decor) { addItemDecoration(decor, -1); } /** * Remove an {@link ItemDecoration} from this RecyclerView. * *

The given decoration will no longer impact the measurement and drawing of * item views.

* * @param decor Decoration to remove * @see #addItemDecoration(ItemDecoration) */ public void removeItemDecoration(ItemDecoration decor) { if (mLayout != null) { mLayout.assertNotInLayoutOrScroll("Cannot remove item decoration during a scroll or" + " layout"); } mItemDecorations.remove(decor); if (mItemDecorations.isEmpty()) { setWillNotDraw(getOverScrollMode() == View.OVER_SCROLL_NEVER); } markItemDecorInsetsDirty(); requestLayout(); } /** * Sets the {@link ChildDrawingOrderCallback} to be used for drawing children. *

* See {@link ViewGroup#getChildDrawingOrder(int, int)} for details. Calling this method will * always call {@link ViewGroup#setChildrenDrawingOrderEnabled(boolean)}. The parameter will be * true if childDrawingOrderCallback is not null, false otherwise. *

* Note that child drawing order may be overridden by View's elevation. * * @param childDrawingOrderCallback The ChildDrawingOrderCallback to be used by the drawing * system. */ public void setChildDrawingOrderCallback(ChildDrawingOrderCallback childDrawingOrderCallback) { if (childDrawingOrderCallback == mChildDrawingOrderCallback) { return; } mChildDrawingOrderCallback = childDrawingOrderCallback; setChildrenDrawingOrderEnabled(mChildDrawingOrderCallback != null); } /** * Set a listener that will be notified of any changes in scroll state or position. * * @param listener Listener to set or null to clear * * @deprecated Use {@link #addOnScrollListener(OnScrollListener)} and * {@link #removeOnScrollListener(OnScrollListener)} */ @Deprecated public void setOnScrollListener(OnScrollListener listener) { mScrollListener = listener; } /** * Add a listener that will be notified of any changes in scroll state or position. * *

Components that add a listener should take care to remove it when finished. * Other components that take ownership of a view may call {@link #clearOnScrollListeners()} * to remove all attached listeners.

* * @param listener listener to set or null to clear */ public void addOnScrollListener(OnScrollListener listener) { if (mScrollListeners == null) { mScrollListeners = new ArrayList<>(); } mScrollListeners.add(listener); } /** * Remove a listener that was notified of any changes in scroll state or position. * * @param listener listener to set or null to clear */ public void removeOnScrollListener(OnScrollListener listener) { if (mScrollListeners != null) { mScrollListeners.remove(listener); } } /** * Remove all secondary listener that were notified of any changes in scroll state or position. */ public void clearOnScrollListeners() { if (mScrollListeners != null) { mScrollListeners.clear(); } } /** * Convenience method to scroll to a certain position. * * RecyclerView does not implement scrolling logic, rather forwards the call to * {@link android.support.v7.widget.RecyclerView.LayoutManager#scrollToPosition(int)} * @param position Scroll to this adapter position * @see android.support.v7.widget.RecyclerView.LayoutManager#scrollToPosition(int) */ public void scrollToPosition(int position) { if (mLayoutFrozen) { return; } stopScroll(); if (mLayout == null) { Log.e(TAG, "Cannot scroll to position a LayoutManager set. " + "Call setLayoutManager with a non-null argument."); return; } mLayout.scrollToPosition(position); awakenScrollBars(); } void jumpToPositionForSmoothScroller(int position) { if (mLayout == null) { return; } mLayout.scrollToPosition(position); awakenScrollBars(); } /** * Starts a smooth scroll to an adapter position. *

* To support smooth scrolling, you must override * {@link LayoutManager#smoothScrollToPosition(RecyclerView, State, int)} and create a * {@link SmoothScroller}. *

* {@link LayoutManager} is responsible for creating the actual scroll action. If you want to * provide a custom smooth scroll logic, override * {@link LayoutManager#smoothScrollToPosition(RecyclerView, State, int)} in your * LayoutManager. * * @param position The adapter position to scroll to * @see LayoutManager#smoothScrollToPosition(RecyclerView, State, int) */ public void smoothScrollToPosition(int position) { if (mLayoutFrozen) { return; } if (mLayout == null) { Log.e(TAG, "Cannot smooth scroll without a LayoutManager set. " + "Call setLayoutManager with a non-null argument."); return; } mLayout.smoothScrollToPosition(this, mState, position); } @Override public void scrollTo(int x, int y) { Log.w(TAG, "RecyclerView does not support scrolling to an absolute position. " + "Use scrollToPosition instead"); } @Override public void scrollBy(int x, int y) { if (mLayout == null) { Log.e(TAG, "Cannot scroll without a LayoutManager set. " + "Call setLayoutManager with a non-null argument."); return; } if (mLayoutFrozen) { return; } final boolean canScrollHorizontal = mLayout.canScrollHorizontally(); final boolean canScrollVertical = mLayout.canScrollVertically(); if (canScrollHorizontal || canScrollVertical) { scrollByInternal(canScrollHorizontal ? x : 0, canScrollVertical ? y : 0, null); } } /** * Helper method reflect data changes to the state. *

* Adapter changes during a scroll may trigger a crash because scroll assumes no data change * but data actually changed. *

* This method consumes all deferred changes to avoid that case. */ void consumePendingUpdateOperations() { if (!mFirstLayoutComplete || mDataSetHasChangedAfterLayout) { TraceCompat.beginSection(TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG); dispatchLayout(); TraceCompat.endSection(); return; } if (!mAdapterHelper.hasPendingUpdates()) { return; } // if it is only an item change (no add-remove-notifyDataSetChanged) we can check if any // of the visible items is affected and if not, just ignore the change. if (mAdapterHelper.hasAnyUpdateTypes(UpdateOp.UPDATE) && !mAdapterHelper .hasAnyUpdateTypes(UpdateOp.ADD | UpdateOp.REMOVE | UpdateOp.MOVE)) { TraceCompat.beginSection(TRACE_HANDLE_ADAPTER_UPDATES_TAG); eatRequestLayout(); mAdapterHelper.preProcess(); if (!mLayoutRequestEaten) { if (hasUpdatedView()) { dispatchLayout(); } else { // no need to layout, clean state mAdapterHelper.consumePostponedUpdates(); } } resumeRequestLayout(true); TraceCompat.endSection(); } else if (mAdapterHelper.hasPendingUpdates()) { TraceCompat.beginSection(TRACE_ON_DATA_SET_CHANGE_LAYOUT_TAG); dispatchLayout(); TraceCompat.endSection(); } } /** * @return True if an existing view holder needs to be updated */ private boolean hasUpdatedView() { final int childCount = mChildHelper.getChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); if (holder == null || holder.shouldIgnore()) { continue; } if (holder.isUpdated()) { return true; } } return false; } /** * Does not perform bounds checking. Used by internal methods that have already validated input. *

* It also reports any unused scroll request to the related EdgeEffect. * * @param x The amount of horizontal scroll request * @param y The amount of vertical scroll request * @param ev The originating MotionEvent, or null if not from a touch event. * * @return Whether any scroll was consumed in either direction. */ boolean scrollByInternal(int x, int y, MotionEvent ev) { int unconsumedX = 0, unconsumedY = 0; int consumedX = 0, consumedY = 0; consumePendingUpdateOperations(); if (mAdapter != null) { eatRequestLayout(); onEnterLayoutOrScroll(); TraceCompat.beginSection(TRACE_SCROLL_TAG); if (x != 0) { consumedX = mLayout.scrollHorizontallyBy(x, mRecycler, mState); unconsumedX = x - consumedX; } if (y != 0) { consumedY = mLayout.scrollVerticallyBy(y, mRecycler, mState); unconsumedY = y - consumedY; } TraceCompat.endSection(); repositionShadowingViews(); onExitLayoutOrScroll(); resumeRequestLayout(false); } if (!mItemDecorations.isEmpty()) { invalidate(); } if (dispatchNestedScroll(consumedX, consumedY, unconsumedX, unconsumedY, mScrollOffset)) { // Update the last touch co-ords, taking any scroll offset into account mLastTouchX -= mScrollOffset[0]; mLastTouchY -= mScrollOffset[1]; if (ev != null) { ev.offsetLocation(mScrollOffset[0], mScrollOffset[1]); } mNestedOffsets[0] += mScrollOffset[0]; mNestedOffsets[1] += mScrollOffset[1]; } else if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { if (ev != null) { pullGlows(ev.getX(), unconsumedX, ev.getY(), unconsumedY); } considerReleasingGlowsOnScroll(x, y); } if (consumedX != 0 || consumedY != 0) { dispatchOnScrolled(consumedX, consumedY); } if (!awakenScrollBars()) { invalidate(); } return consumedX != 0 || consumedY != 0; } /** *

Compute the horizontal offset of the horizontal scrollbar's thumb within the horizontal * range. This value is used to compute the length of the thumb within the scrollbar's track. *

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeHorizontalScrollRange()} and {@link #computeHorizontalScrollExtent()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeHorizontalScrollOffset(RecyclerView.State)} in your * LayoutManager.

* * @return The horizontal offset of the scrollbar's thumb * @see android.support.v7.widget.RecyclerView.LayoutManager#computeHorizontalScrollOffset * (RecyclerView.State) */ @Override public int computeHorizontalScrollOffset() { if (mLayout == null) { return 0; } return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollOffset(mState) : 0; } /** *

Compute the horizontal extent of the horizontal scrollbar's thumb within the * horizontal range. This value is used to compute the length of the thumb within the * scrollbar's track.

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeHorizontalScrollRange()} and {@link #computeHorizontalScrollOffset()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeHorizontalScrollExtent(RecyclerView.State)} in your * LayoutManager.

* * @return The horizontal extent of the scrollbar's thumb * @see RecyclerView.LayoutManager#computeHorizontalScrollExtent(RecyclerView.State) */ @Override public int computeHorizontalScrollExtent() { if (mLayout == null) { return 0; } return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollExtent(mState) : 0; } /** *

Compute the horizontal range that the horizontal scrollbar represents.

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeHorizontalScrollExtent()} and {@link #computeHorizontalScrollOffset()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeHorizontalScrollRange(RecyclerView.State)} in your * LayoutManager.

* * @return The total horizontal range represented by the vertical scrollbar * @see RecyclerView.LayoutManager#computeHorizontalScrollRange(RecyclerView.State) */ @Override public int computeHorizontalScrollRange() { if (mLayout == null) { return 0; } return mLayout.canScrollHorizontally() ? mLayout.computeHorizontalScrollRange(mState) : 0; } /** *

Compute the vertical offset of the vertical scrollbar's thumb within the vertical range. * This value is used to compute the length of the thumb within the scrollbar's track.

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeVerticalScrollRange()} and {@link #computeVerticalScrollExtent()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeVerticalScrollOffset(RecyclerView.State)} in your * LayoutManager.

* * @return The vertical offset of the scrollbar's thumb * @see android.support.v7.widget.RecyclerView.LayoutManager#computeVerticalScrollOffset * (RecyclerView.State) */ @Override public int computeVerticalScrollOffset() { if (mLayout == null) { return 0; } return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollOffset(mState) : 0; } /** *

Compute the vertical extent of the vertical scrollbar's thumb within the vertical range. * This value is used to compute the length of the thumb within the scrollbar's track.

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeVerticalScrollRange()} and {@link #computeVerticalScrollOffset()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeVerticalScrollExtent(RecyclerView.State)} in your * LayoutManager.

* * @return The vertical extent of the scrollbar's thumb * @see RecyclerView.LayoutManager#computeVerticalScrollExtent(RecyclerView.State) */ @Override public int computeVerticalScrollExtent() { if (mLayout == null) { return 0; } return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollExtent(mState) : 0; } /** *

Compute the vertical range that the vertical scrollbar represents.

* *

The range is expressed in arbitrary units that must be the same as the units used by * {@link #computeVerticalScrollExtent()} and {@link #computeVerticalScrollOffset()}.

* *

Default implementation returns 0.

* *

If you want to support scroll bars, override * {@link RecyclerView.LayoutManager#computeVerticalScrollRange(RecyclerView.State)} in your * LayoutManager.

* * @return The total vertical range represented by the vertical scrollbar * @see RecyclerView.LayoutManager#computeVerticalScrollRange(RecyclerView.State) */ @Override public int computeVerticalScrollRange() { if (mLayout == null) { return 0; } return mLayout.canScrollVertically() ? mLayout.computeVerticalScrollRange(mState) : 0; } void eatRequestLayout() { mEatRequestLayout++; if (mEatRequestLayout == 1 && !mLayoutFrozen) { mLayoutRequestEaten = false; } } void resumeRequestLayout(boolean performLayoutChildren) { if (mEatRequestLayout < 1) { //noinspection PointlessBooleanExpression if (DEBUG) { throw new IllegalStateException("invalid eat request layout count"); } mEatRequestLayout = 1; } if (!performLayoutChildren) { // Reset the layout request eaten counter. // This is necessary since eatRequest calls can be nested in which case the other // call will override the inner one. // for instance: // eat layout for process adapter updates // eat layout for dispatchLayout // a bunch of req layout calls arrive mLayoutRequestEaten = false; } if (mEatRequestLayout == 1) { // when layout is frozen we should delay dispatchLayout() if (performLayoutChildren && mLayoutRequestEaten && !mLayoutFrozen && mLayout != null && mAdapter != null) { dispatchLayout(); } if (!mLayoutFrozen) { mLayoutRequestEaten = false; } } mEatRequestLayout--; } /** * Enable or disable layout and scroll. After setLayoutFrozen(true) is called, * Layout requests will be postponed until setLayoutFrozen(false) is called; * child views are not updated when RecyclerView is frozen, {@link #smoothScrollBy(int, int)}, * {@link #scrollBy(int, int)}, {@link #scrollToPosition(int)} and * {@link #smoothScrollToPosition(int)} are dropped; TouchEvents and GenericMotionEvents are * dropped; {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} will not be * called. * *

* setLayoutFrozen(true) does not prevent app from directly calling {@link * LayoutManager#scrollToPosition(int)}, {@link LayoutManager#smoothScrollToPosition( * RecyclerView, State, int)}. *

* {@link #setAdapter(Adapter)} and {@link #swapAdapter(Adapter, boolean)} will automatically * stop frozen. *

* Note: Running ItemAnimator is not stopped automatically, it's caller's * responsibility to call ItemAnimator.end(). * * @param frozen true to freeze layout and scroll, false to re-enable. */ public void setLayoutFrozen(boolean frozen) { if (frozen != mLayoutFrozen) { assertNotInLayoutOrScroll("Do not setLayoutFrozen in layout or scroll"); if (!frozen) { mLayoutFrozen = false; if (mLayoutRequestEaten && mLayout != null && mAdapter != null) { requestLayout(); } mLayoutRequestEaten = false; } else { final long now = SystemClock.uptimeMillis(); MotionEvent cancelEvent = MotionEvent.obtain(now, now, MotionEvent.ACTION_CANCEL, 0.0f, 0.0f, 0); onTouchEvent(cancelEvent); mLayoutFrozen = true; mIgnoreMotionEventTillDown = true; stopScroll(); } } } /** * Returns true if layout and scroll are frozen. * * @return true if layout and scroll are frozen * @see #setLayoutFrozen(boolean) */ public boolean isLayoutFrozen() { return mLayoutFrozen; } /** * Animate a scroll by the given amount of pixels along either axis. * * @param dx Pixels to scroll horizontally * @param dy Pixels to scroll vertically */ public void smoothScrollBy(int dx, int dy) { if (mLayout == null) { Log.e(TAG, "Cannot smooth scroll without a LayoutManager set. " + "Call setLayoutManager with a non-null argument."); return; } if (mLayoutFrozen) { return; } if (!mLayout.canScrollHorizontally()) { dx = 0; } if (!mLayout.canScrollVertically()) { dy = 0; } if (dx != 0 || dy != 0) { mViewFlinger.smoothScrollBy(dx, dy); } } /** * Begin a standard fling with an initial velocity along each axis in pixels per second. * If the velocity given is below the system-defined minimum this method will return false * and no fling will occur. * * @param velocityX Initial horizontal velocity in pixels per second * @param velocityY Initial vertical velocity in pixels per second * @return true if the fling was started, false if the velocity was too low to fling or * LayoutManager does not support scrolling in the axis fling is issued. * * @see LayoutManager#canScrollVertically() * @see LayoutManager#canScrollHorizontally() */ public boolean fling(int velocityX, int velocityY) { if (mLayout == null) { Log.e(TAG, "Cannot fling without a LayoutManager set. " + "Call setLayoutManager with a non-null argument."); return false; } if (mLayoutFrozen) { return false; } final boolean canScrollHorizontal = mLayout.canScrollHorizontally(); final boolean canScrollVertical = mLayout.canScrollVertically(); if (!canScrollHorizontal || Math.abs(velocityX) < mMinFlingVelocity) { velocityX = 0; } if (!canScrollVertical || Math.abs(velocityY) < mMinFlingVelocity) { velocityY = 0; } if (velocityX == 0 && velocityY == 0) { // If we don't have any velocity, return false return false; } if (!dispatchNestedPreFling(velocityX, velocityY)) { final boolean canScroll = canScrollHorizontal || canScrollVertical; dispatchNestedFling(velocityX, velocityY, canScroll); if (mOnFlingListener != null && mOnFlingListener.onFling(velocityX, velocityY)) { return true; } if (canScroll) { velocityX = Math.max(-mMaxFlingVelocity, Math.min(velocityX, mMaxFlingVelocity)); velocityY = Math.max(-mMaxFlingVelocity, Math.min(velocityY, mMaxFlingVelocity)); mViewFlinger.fling(velocityX, velocityY); return true; } } return false; } /** * Stop any current scroll in progress, such as one started by * {@link #smoothScrollBy(int, int)}, {@link #fling(int, int)} or a touch-initiated fling. */ public void stopScroll() { setScrollState(SCROLL_STATE_IDLE); stopScrollersInternal(); } /** * Similar to {@link #stopScroll()} but does not set the state. */ private void stopScrollersInternal() { mViewFlinger.stop(); if (mLayout != null) { mLayout.stopSmoothScroller(); } } /** * Returns the minimum velocity to start a fling. * * @return The minimum velocity to start a fling */ public int getMinFlingVelocity() { return mMinFlingVelocity; } /** * Returns the maximum fling velocity used by this RecyclerView. * * @return The maximum fling velocity used by this RecyclerView. */ public int getMaxFlingVelocity() { return mMaxFlingVelocity; } /** * Apply a pull to relevant overscroll glow effects */ private void pullGlows(float x, float overscrollX, float y, float overscrollY) { boolean invalidate = false; if (overscrollX < 0) { ensureLeftGlow(); if (mLeftGlow.onPull(-overscrollX / getWidth(), 1f - y / getHeight())) { invalidate = true; } } else if (overscrollX > 0) { ensureRightGlow(); if (mRightGlow.onPull(overscrollX / getWidth(), y / getHeight())) { invalidate = true; } } if (overscrollY < 0) { ensureTopGlow(); if (mTopGlow.onPull(-overscrollY / getHeight(), x / getWidth())) { invalidate = true; } } else if (overscrollY > 0) { ensureBottomGlow(); if (mBottomGlow.onPull(overscrollY / getHeight(), 1f - x / getWidth())) { invalidate = true; } } if (invalidate || overscrollX != 0 || overscrollY != 0) { ViewCompat.postInvalidateOnAnimation(this); } } private void releaseGlows() { boolean needsInvalidate = false; if (mLeftGlow != null) needsInvalidate = mLeftGlow.onRelease(); if (mTopGlow != null) needsInvalidate |= mTopGlow.onRelease(); if (mRightGlow != null) needsInvalidate |= mRightGlow.onRelease(); if (mBottomGlow != null) needsInvalidate |= mBottomGlow.onRelease(); if (needsInvalidate) { ViewCompat.postInvalidateOnAnimation(this); } } void considerReleasingGlowsOnScroll(int dx, int dy) { boolean needsInvalidate = false; if (mLeftGlow != null && !mLeftGlow.isFinished() && dx > 0) { needsInvalidate = mLeftGlow.onRelease(); } if (mRightGlow != null && !mRightGlow.isFinished() && dx < 0) { needsInvalidate |= mRightGlow.onRelease(); } if (mTopGlow != null && !mTopGlow.isFinished() && dy > 0) { needsInvalidate |= mTopGlow.onRelease(); } if (mBottomGlow != null && !mBottomGlow.isFinished() && dy < 0) { needsInvalidate |= mBottomGlow.onRelease(); } if (needsInvalidate) { ViewCompat.postInvalidateOnAnimation(this); } } void absorbGlows(int velocityX, int velocityY) { if (velocityX < 0) { ensureLeftGlow(); mLeftGlow.onAbsorb(-velocityX); } else if (velocityX > 0) { ensureRightGlow(); mRightGlow.onAbsorb(velocityX); } if (velocityY < 0) { ensureTopGlow(); mTopGlow.onAbsorb(-velocityY); } else if (velocityY > 0) { ensureBottomGlow(); mBottomGlow.onAbsorb(velocityY); } if (velocityX != 0 || velocityY != 0) { ViewCompat.postInvalidateOnAnimation(this); } } void ensureLeftGlow() { if (mLeftGlow != null) { return; } mLeftGlow = new EdgeEffectCompat(getContext()); if (mClipToPadding) { mLeftGlow.setSize(getMeasuredHeight() - getPaddingTop() - getPaddingBottom(), getMeasuredWidth() - getPaddingLeft() - getPaddingRight()); } else { mLeftGlow.setSize(getMeasuredHeight(), getMeasuredWidth()); } } void ensureRightGlow() { if (mRightGlow != null) { return; } mRightGlow = new EdgeEffectCompat(getContext()); if (mClipToPadding) { mRightGlow.setSize(getMeasuredHeight() - getPaddingTop() - getPaddingBottom(), getMeasuredWidth() - getPaddingLeft() - getPaddingRight()); } else { mRightGlow.setSize(getMeasuredHeight(), getMeasuredWidth()); } } void ensureTopGlow() { if (mTopGlow != null) { return; } mTopGlow = new EdgeEffectCompat(getContext()); if (mClipToPadding) { mTopGlow.setSize(getMeasuredWidth() - getPaddingLeft() - getPaddingRight(), getMeasuredHeight() - getPaddingTop() - getPaddingBottom()); } else { mTopGlow.setSize(getMeasuredWidth(), getMeasuredHeight()); } } void ensureBottomGlow() { if (mBottomGlow != null) { return; } mBottomGlow = new EdgeEffectCompat(getContext()); if (mClipToPadding) { mBottomGlow.setSize(getMeasuredWidth() - getPaddingLeft() - getPaddingRight(), getMeasuredHeight() - getPaddingTop() - getPaddingBottom()); } else { mBottomGlow.setSize(getMeasuredWidth(), getMeasuredHeight()); } } void invalidateGlows() { mLeftGlow = mRightGlow = mTopGlow = mBottomGlow = null; } /** * Since RecyclerView is a collection ViewGroup that includes virtual children (items that are * in the Adapter but not visible in the UI), it employs a more involved focus search strategy * that differs from other ViewGroups. *

* It first does a focus search within the RecyclerView. If this search finds a View that is in * the focus direction with respect to the currently focused View, RecyclerView returns that * child as the next focus target. When it cannot find such child, it calls * {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} to layout more Views * in the focus search direction. If LayoutManager adds a View that matches the * focus search criteria, it will be returned as the focus search result. Otherwise, * RecyclerView will call parent to handle the focus search like a regular ViewGroup. *

* When the direction is {@link View#FOCUS_FORWARD} or {@link View#FOCUS_BACKWARD}, a View that * is not in the focus direction is still valid focus target which may not be the desired * behavior if the Adapter has more children in the focus direction. To handle this case, * RecyclerView converts the focus direction to an absolute direction and makes a preliminary * focus search in that direction. If there are no Views to gain focus, it will call * {@link LayoutManager#onFocusSearchFailed(View, int, Recycler, State)} before running a * focus search with the original (relative) direction. This allows RecyclerView to provide * better candidates to the focus search while still allowing the view system to take focus from * the RecyclerView and give it to a more suitable child if such child exists. * * @param focused The view that currently has focus * @param direction One of {@link View#FOCUS_UP}, {@link View#FOCUS_DOWN}, * {@link View#FOCUS_LEFT}, {@link View#FOCUS_RIGHT}, {@link View#FOCUS_FORWARD}, * {@link View#FOCUS_BACKWARD} or 0 for not applicable. * * @return A new View that can be the next focus after the focused View */ @Override public View focusSearch(View focused, int direction) { View result = mLayout.onInterceptFocusSearch(focused, direction); if (result != null) { return result; } final boolean canRunFocusFailure = mAdapter != null && mLayout != null && !isComputingLayout() && !mLayoutFrozen; final FocusFinder ff = FocusFinder.getInstance(); if (canRunFocusFailure && (direction == View.FOCUS_FORWARD || direction == View.FOCUS_BACKWARD)) { // convert direction to absolute direction and see if we have a view there and if not // tell LayoutManager to add if it can. boolean needsFocusFailureLayout = false; if (mLayout.canScrollVertically()) { final int absDir = direction == View.FOCUS_FORWARD ? View.FOCUS_DOWN : View.FOCUS_UP; final View found = ff.findNextFocus(this, focused, absDir); needsFocusFailureLayout = found == null; } if (!needsFocusFailureLayout && mLayout.canScrollHorizontally()) { boolean rtl = mLayout.getLayoutDirection() == ViewCompat.LAYOUT_DIRECTION_RTL; final int absDir = (direction == View.FOCUS_FORWARD) ^ rtl ? View.FOCUS_RIGHT : View.FOCUS_LEFT; final View found = ff.findNextFocus(this, focused, absDir); needsFocusFailureLayout = found == null; } if (needsFocusFailureLayout) { consumePendingUpdateOperations(); final View focusedItemView = findContainingItemView(focused); if (focusedItemView == null) { // panic, focused view is not a child anymore, cannot call super. return null; } eatRequestLayout(); mLayout.onFocusSearchFailed(focused, direction, mRecycler, mState); resumeRequestLayout(false); } result = ff.findNextFocus(this, focused, direction); } else { result = ff.findNextFocus(this, focused, direction); if (result == null && canRunFocusFailure) { consumePendingUpdateOperations(); final View focusedItemView = findContainingItemView(focused); if (focusedItemView == null) { // panic, focused view is not a child anymore, cannot call super. return null; } eatRequestLayout(); result = mLayout.onFocusSearchFailed(focused, direction, mRecycler, mState); resumeRequestLayout(false); } } return isPreferredNextFocus(focused, result, direction) ? result : super.focusSearch(focused, direction); } /** * Checks if the new focus candidate is a good enough candidate such that RecyclerView will * assign it as the next focus View instead of letting view hierarchy decide. * A good candidate means a View that is aligned in the focus direction wrt the focused View * and is not the RecyclerView itself. * When this method returns false, RecyclerView will let the parent make the decision so the * same View may still get the focus as a result of that search. */ private boolean isPreferredNextFocus(View focused, View next, int direction) { if (next == null || next == this) { return false; } if (focused == null) { return true; } if(direction == View.FOCUS_FORWARD || direction == View.FOCUS_BACKWARD) { final boolean rtl = mLayout.getLayoutDirection() == ViewCompat.LAYOUT_DIRECTION_RTL; final int absHorizontal = (direction == View.FOCUS_FORWARD) ^ rtl ? View.FOCUS_RIGHT : View.FOCUS_LEFT; if (isPreferredNextFocusAbsolute(focused, next, absHorizontal)) { return true; } if (direction == View.FOCUS_FORWARD) { return isPreferredNextFocusAbsolute(focused, next, View.FOCUS_DOWN); } else { return isPreferredNextFocusAbsolute(focused, next, View.FOCUS_UP); } } else { return isPreferredNextFocusAbsolute(focused, next, direction); } } /** * Logic taken from FocusSearch#isCandidate */ private boolean isPreferredNextFocusAbsolute(View focused, View next, int direction) { mTempRect.set(0, 0, focused.getWidth(), focused.getHeight()); mTempRect2.set(0, 0, next.getWidth(), next.getHeight()); offsetDescendantRectToMyCoords(focused, mTempRect); offsetDescendantRectToMyCoords(next, mTempRect2); switch (direction) { case View.FOCUS_LEFT: return (mTempRect.right > mTempRect2.right || mTempRect.left >= mTempRect2.right) && mTempRect.left > mTempRect2.left; case View.FOCUS_RIGHT: return (mTempRect.left < mTempRect2.left || mTempRect.right <= mTempRect2.left) && mTempRect.right < mTempRect2.right; case View.FOCUS_UP: return (mTempRect.bottom > mTempRect2.bottom || mTempRect.top >= mTempRect2.bottom) && mTempRect.top > mTempRect2.top; case View.FOCUS_DOWN: return (mTempRect.top < mTempRect2.top || mTempRect.bottom <= mTempRect2.top) && mTempRect.bottom < mTempRect2.bottom; } throw new IllegalArgumentException("direction must be absolute. received:" + direction); } @Override public void requestChildFocus(View child, View focused) { if (!mLayout.onRequestChildFocus(this, mState, child, focused) && focused != null) { mTempRect.set(0, 0, focused.getWidth(), focused.getHeight()); // get item decor offsets w/o refreshing. If they are invalid, there will be another // layout pass to fix them, then it is LayoutManager's responsibility to keep focused // View in viewport. final ViewGroup.LayoutParams focusedLayoutParams = focused.getLayoutParams(); if (focusedLayoutParams instanceof LayoutParams) { // if focused child has item decors, use them. Otherwise, ignore. final LayoutParams lp = (LayoutParams) focusedLayoutParams; if (!lp.mInsetsDirty) { final Rect insets = lp.mDecorInsets; mTempRect.left -= insets.left; mTempRect.right += insets.right; mTempRect.top -= insets.top; mTempRect.bottom += insets.bottom; } } offsetDescendantRectToMyCoords(focused, mTempRect); offsetRectIntoDescendantCoords(child, mTempRect); requestChildRectangleOnScreen(child, mTempRect, !mFirstLayoutComplete); } super.requestChildFocus(child, focused); } @Override public boolean requestChildRectangleOnScreen(View child, Rect rect, boolean immediate) { return mLayout.requestChildRectangleOnScreen(this, child, rect, immediate); } @Override public void addFocusables(ArrayList views, int direction, int focusableMode) { if (mLayout == null || !mLayout.onAddFocusables(this, views, direction, focusableMode)) { super.addFocusables(views, direction, focusableMode); } } @Override protected boolean onRequestFocusInDescendants(int direction, Rect previouslyFocusedRect) { if (isComputingLayout()) { // if we are in the middle of a layout calculation, don't let any child take focus. // RV will handle it after layout calculation is finished. return false; } return super.onRequestFocusInDescendants(direction, previouslyFocusedRect); } @Override protected void onAttachedToWindow() { super.onAttachedToWindow(); mLayoutOrScrollCounter = 0; mIsAttached = true; mFirstLayoutComplete = mFirstLayoutComplete && !isLayoutRequested(); if (mLayout != null) { mLayout.dispatchAttachedToWindow(this); } mPostedAnimatorRunner = false; if (ALLOW_PREFETCHING && sFrameIntervalNanos == 0) { // We only query the display/refresh rate once, since it's an expensive binder call float refreshRate = 60.0f; Display display = ViewCompat.getDisplay(this); if (!isInEditMode() && display != null) { float displayRefreshRate = display.getRefreshRate(); if (displayRefreshRate >= 30.0f) { // break 60 fps assumption if data appears good refreshRate = displayRefreshRate; } } sFrameIntervalNanos = (long) (1000000000 / refreshRate); } } @Override protected void onDetachedFromWindow() { super.onDetachedFromWindow(); if (mItemAnimator != null) { mItemAnimator.endAnimations(); } stopScroll(); mIsAttached = false; if (mLayout != null) { mLayout.dispatchDetachedFromWindow(this, mRecycler); } mPendingAccessibilityImportanceChange.clear(); removeCallbacks(mItemAnimatorRunner); mViewInfoStore.onDetach(); } /** * Returns true if RecyclerView is attached to window. */ // @override public boolean isAttachedToWindow() { return mIsAttached; } /** * Checks if RecyclerView is in the middle of a layout or scroll and throws an * {@link IllegalStateException} if it is not. * * @param message The message for the exception. Can be null. * @see #assertNotInLayoutOrScroll(String) */ void assertInLayoutOrScroll(String message) { if (!isComputingLayout()) { if (message == null) { throw new IllegalStateException("Cannot call this method unless RecyclerView is " + "computing a layout or scrolling"); } throw new IllegalStateException(message); } } /** * Checks if RecyclerView is in the middle of a layout or scroll and throws an * {@link IllegalStateException} if it is. * * @param message The message for the exception. Can be null. * @see #assertInLayoutOrScroll(String) */ void assertNotInLayoutOrScroll(String message) { if (isComputingLayout()) { if (message == null) { throw new IllegalStateException("Cannot call this method while RecyclerView is " + "computing a layout or scrolling"); } throw new IllegalStateException(message); } if (mDispatchScrollCounter > 0) { Log.w(TAG, "Cannot call this method in a scroll callback. Scroll callbacks might be run" + " during a measure & layout pass where you cannot change the RecyclerView" + " data. Any method call that might change the structure of the RecyclerView" + " or the adapter contents should be postponed to the next frame.", new IllegalStateException("")); } } /** * Add an {@link OnItemTouchListener} to intercept touch events before they are dispatched * to child views or this view's standard scrolling behavior. * *

Client code may use listeners to implement item manipulation behavior. Once a listener * returns true from * {@link OnItemTouchListener#onInterceptTouchEvent(RecyclerView, MotionEvent)} its * {@link OnItemTouchListener#onTouchEvent(RecyclerView, MotionEvent)} method will be called * for each incoming MotionEvent until the end of the gesture.

* * @param listener Listener to add * @see SimpleOnItemTouchListener */ public void addOnItemTouchListener(OnItemTouchListener listener) { mOnItemTouchListeners.add(listener); } /** * Remove an {@link OnItemTouchListener}. It will no longer be able to intercept touch events. * * @param listener Listener to remove */ public void removeOnItemTouchListener(OnItemTouchListener listener) { mOnItemTouchListeners.remove(listener); if (mActiveOnItemTouchListener == listener) { mActiveOnItemTouchListener = null; } } private boolean dispatchOnItemTouchIntercept(MotionEvent e) { final int action = e.getAction(); if (action == MotionEvent.ACTION_CANCEL || action == MotionEvent.ACTION_DOWN) { mActiveOnItemTouchListener = null; } final int listenerCount = mOnItemTouchListeners.size(); for (int i = 0; i < listenerCount; i++) { final OnItemTouchListener listener = mOnItemTouchListeners.get(i); if (listener.onInterceptTouchEvent(this, e) && action != MotionEvent.ACTION_CANCEL) { mActiveOnItemTouchListener = listener; return true; } } return false; } private boolean dispatchOnItemTouch(MotionEvent e) { final int action = e.getAction(); if (mActiveOnItemTouchListener != null) { if (action == MotionEvent.ACTION_DOWN) { // Stale state from a previous gesture, we're starting a new one. Clear it. mActiveOnItemTouchListener = null; } else { mActiveOnItemTouchListener.onTouchEvent(this, e); if (action == MotionEvent.ACTION_CANCEL || action == MotionEvent.ACTION_UP) { // Clean up for the next gesture. mActiveOnItemTouchListener = null; } return true; } } // Listeners will have already received the ACTION_DOWN via dispatchOnItemTouchIntercept // as called from onInterceptTouchEvent; skip it. if (action != MotionEvent.ACTION_DOWN) { final int listenerCount = mOnItemTouchListeners.size(); for (int i = 0; i < listenerCount; i++) { final OnItemTouchListener listener = mOnItemTouchListeners.get(i); if (listener.onInterceptTouchEvent(this, e)) { mActiveOnItemTouchListener = listener; return true; } } } return false; } @Override public boolean onInterceptTouchEvent(MotionEvent e) { if (mLayoutFrozen) { // When layout is frozen, RV does not intercept the motion event. // A child view e.g. a button may still get the click. return false; } if (dispatchOnItemTouchIntercept(e)) { cancelTouch(); return true; } if (mLayout == null) { return false; } final boolean canScrollHorizontally = mLayout.canScrollHorizontally(); final boolean canScrollVertically = mLayout.canScrollVertically(); if (mVelocityTracker == null) { mVelocityTracker = VelocityTracker.obtain(); } mVelocityTracker.addMovement(e); final int action = MotionEventCompat.getActionMasked(e); final int actionIndex = MotionEventCompat.getActionIndex(e); switch (action) { case MotionEvent.ACTION_DOWN: if (mIgnoreMotionEventTillDown) { mIgnoreMotionEventTillDown = false; } mScrollPointerId = e.getPointerId(0); mInitialTouchX = mLastTouchX = (int) (e.getX() + 0.5f); mInitialTouchY = mLastTouchY = (int) (e.getY() + 0.5f); if (mScrollState == SCROLL_STATE_SETTLING) { getParent().requestDisallowInterceptTouchEvent(true); setScrollState(SCROLL_STATE_DRAGGING); } // Clear the nested offsets mNestedOffsets[0] = mNestedOffsets[1] = 0; int nestedScrollAxis = ViewCompat.SCROLL_AXIS_NONE; if (canScrollHorizontally) { nestedScrollAxis |= ViewCompat.SCROLL_AXIS_HORIZONTAL; } if (canScrollVertically) { nestedScrollAxis |= ViewCompat.SCROLL_AXIS_VERTICAL; } startNestedScroll(nestedScrollAxis); break; case MotionEventCompat.ACTION_POINTER_DOWN: mScrollPointerId = e.getPointerId(actionIndex); mInitialTouchX = mLastTouchX = (int) (e.getX(actionIndex) + 0.5f); mInitialTouchY = mLastTouchY = (int) (e.getY(actionIndex) + 0.5f); break; case MotionEvent.ACTION_MOVE: { final int index = e.findPointerIndex(mScrollPointerId); if (index < 0) { Log.e(TAG, "Error processing scroll; pointer index for id " + mScrollPointerId + " not found. Did any MotionEvents get skipped?"); return false; } final int x = (int) (e.getX(index) + 0.5f); final int y = (int) (e.getY(index) + 0.5f); if (mScrollState != SCROLL_STATE_DRAGGING) { final int dx = x - mInitialTouchX; final int dy = y - mInitialTouchY; boolean startScroll = false; if (canScrollHorizontally && Math.abs(dx) > mTouchSlop) { mLastTouchX = mInitialTouchX + mTouchSlop * (dx < 0 ? -1 : 1); startScroll = true; } if (canScrollVertically && Math.abs(dy) > mTouchSlop) { mLastTouchY = mInitialTouchY + mTouchSlop * (dy < 0 ? -1 : 1); startScroll = true; } if (startScroll) { setScrollState(SCROLL_STATE_DRAGGING); } } } break; case MotionEventCompat.ACTION_POINTER_UP: { onPointerUp(e); } break; case MotionEvent.ACTION_UP: { mVelocityTracker.clear(); stopNestedScroll(); } break; case MotionEvent.ACTION_CANCEL: { cancelTouch(); } } return mScrollState == SCROLL_STATE_DRAGGING; } @Override public void requestDisallowInterceptTouchEvent(boolean disallowIntercept) { final int listenerCount = mOnItemTouchListeners.size(); for (int i = 0; i < listenerCount; i++) { final OnItemTouchListener listener = mOnItemTouchListeners.get(i); listener.onRequestDisallowInterceptTouchEvent(disallowIntercept); } super.requestDisallowInterceptTouchEvent(disallowIntercept); } @Override public boolean onTouchEvent(MotionEvent e) { if (mLayoutFrozen || mIgnoreMotionEventTillDown) { return false; } if (dispatchOnItemTouch(e)) { cancelTouch(); return true; } if (mLayout == null) { return false; } final boolean canScrollHorizontally = mLayout.canScrollHorizontally(); final boolean canScrollVertically = mLayout.canScrollVertically(); if (mVelocityTracker == null) { mVelocityTracker = VelocityTracker.obtain(); } boolean eventAddedToVelocityTracker = false; final MotionEvent vtev = MotionEvent.obtain(e); final int action = MotionEventCompat.getActionMasked(e); final int actionIndex = MotionEventCompat.getActionIndex(e); if (action == MotionEvent.ACTION_DOWN) { mNestedOffsets[0] = mNestedOffsets[1] = 0; } vtev.offsetLocation(mNestedOffsets[0], mNestedOffsets[1]); switch (action) { case MotionEvent.ACTION_DOWN: { mScrollPointerId = e.getPointerId(0); mInitialTouchX = mLastTouchX = (int) (e.getX() + 0.5f); mInitialTouchY = mLastTouchY = (int) (e.getY() + 0.5f); int nestedScrollAxis = ViewCompat.SCROLL_AXIS_NONE; if (canScrollHorizontally) { nestedScrollAxis |= ViewCompat.SCROLL_AXIS_HORIZONTAL; } if (canScrollVertically) { nestedScrollAxis |= ViewCompat.SCROLL_AXIS_VERTICAL; } startNestedScroll(nestedScrollAxis); } break; case MotionEventCompat.ACTION_POINTER_DOWN: { mScrollPointerId = e.getPointerId(actionIndex); mInitialTouchX = mLastTouchX = (int) (e.getX(actionIndex) + 0.5f); mInitialTouchY = mLastTouchY = (int) (e.getY(actionIndex) + 0.5f); } break; case MotionEvent.ACTION_MOVE: { final int index = e.findPointerIndex(mScrollPointerId); if (index < 0) { Log.e(TAG, "Error processing scroll; pointer index for id " + mScrollPointerId + " not found. Did any MotionEvents get skipped?"); return false; } final int x = (int) (e.getX(index) + 0.5f); final int y = (int) (e.getY(index) + 0.5f); int dx = mLastTouchX - x; int dy = mLastTouchY - y; if (dispatchNestedPreScroll(dx, dy, mScrollConsumed, mScrollOffset)) { dx -= mScrollConsumed[0]; dy -= mScrollConsumed[1]; vtev.offsetLocation(mScrollOffset[0], mScrollOffset[1]); // Updated the nested offsets mNestedOffsets[0] += mScrollOffset[0]; mNestedOffsets[1] += mScrollOffset[1]; } if (mScrollState != SCROLL_STATE_DRAGGING) { boolean startScroll = false; if (canScrollHorizontally && Math.abs(dx) > mTouchSlop) { if (dx > 0) { dx -= mTouchSlop; } else { dx += mTouchSlop; } startScroll = true; } if (canScrollVertically && Math.abs(dy) > mTouchSlop) { if (dy > 0) { dy -= mTouchSlop; } else { dy += mTouchSlop; } startScroll = true; } if (startScroll) { setScrollState(SCROLL_STATE_DRAGGING); } } if (mScrollState == SCROLL_STATE_DRAGGING) { mLastTouchX = x - mScrollOffset[0]; mLastTouchY = y - mScrollOffset[1]; if (scrollByInternal( canScrollHorizontally ? dx : 0, canScrollVertically ? dy : 0, vtev)) { getParent().requestDisallowInterceptTouchEvent(true); } if (ALLOW_PREFETCHING) { mViewPrefetcher.postFromTraversal(dx, dy); } } } break; case MotionEventCompat.ACTION_POINTER_UP: { onPointerUp(e); } break; case MotionEvent.ACTION_UP: { mVelocityTracker.addMovement(vtev); eventAddedToVelocityTracker = true; mVelocityTracker.computeCurrentVelocity(1000, mMaxFlingVelocity); final float xvel = canScrollHorizontally ? -VelocityTrackerCompat.getXVelocity(mVelocityTracker, mScrollPointerId) : 0; final float yvel = canScrollVertically ? -VelocityTrackerCompat.getYVelocity(mVelocityTracker, mScrollPointerId) : 0; if (!((xvel != 0 || yvel != 0) && fling((int) xvel, (int) yvel))) { setScrollState(SCROLL_STATE_IDLE); } resetTouch(); } break; case MotionEvent.ACTION_CANCEL: { cancelTouch(); } break; } if (!eventAddedToVelocityTracker) { mVelocityTracker.addMovement(vtev); } vtev.recycle(); return true; } private void resetTouch() { if (mVelocityTracker != null) { mVelocityTracker.clear(); } stopNestedScroll(); releaseGlows(); } private void cancelTouch() { resetTouch(); setScrollState(SCROLL_STATE_IDLE); } private void onPointerUp(MotionEvent e) { final int actionIndex = MotionEventCompat.getActionIndex(e); if (e.getPointerId(actionIndex) == mScrollPointerId) { // Pick a new pointer to pick up the slack. final int newIndex = actionIndex == 0 ? 1 : 0; mScrollPointerId = e.getPointerId(newIndex); mInitialTouchX = mLastTouchX = (int) (e.getX(newIndex) + 0.5f); mInitialTouchY = mLastTouchY = (int) (e.getY(newIndex) + 0.5f); } } // @Override public boolean onGenericMotionEvent(MotionEvent event) { if (mLayout == null) { return false; } if (mLayoutFrozen) { return false; } if ((event.getSource() & InputDeviceCompat.SOURCE_CLASS_POINTER) != 0) { if (event.getAction() == MotionEventCompat.ACTION_SCROLL) { final float vScroll, hScroll; if (mLayout.canScrollVertically()) { // Inverse the sign of the vertical scroll to align the scroll orientation // with AbsListView. vScroll = -MotionEventCompat .getAxisValue(event, MotionEventCompat.AXIS_VSCROLL); } else { vScroll = 0f; } if (mLayout.canScrollHorizontally()) { hScroll = MotionEventCompat .getAxisValue(event, MotionEventCompat.AXIS_HSCROLL); } else { hScroll = 0f; } if (vScroll != 0 || hScroll != 0) { final float scrollFactor = getScrollFactor(); scrollByInternal((int) (hScroll * scrollFactor), (int) (vScroll * scrollFactor), event); } } } return false; } /** * Ported from View.getVerticalScrollFactor. */ private float getScrollFactor() { if (mScrollFactor == Float.MIN_VALUE) { TypedValue outValue = new TypedValue(); if (getContext().getTheme().resolveAttribute( android.R.attr.listPreferredItemHeight, outValue, true)) { mScrollFactor = outValue.getDimension( getContext().getResources().getDisplayMetrics()); } else { return 0; //listPreferredItemHeight is not defined, no generic scrolling } } return mScrollFactor; } @Override protected void onMeasure(int widthSpec, int heightSpec) { if (mLayout == null) { defaultOnMeasure(widthSpec, heightSpec); return; } if (mLayout.mAutoMeasure) { final int widthMode = MeasureSpec.getMode(widthSpec); final int heightMode = MeasureSpec.getMode(heightSpec); final boolean skipMeasure = widthMode == MeasureSpec.EXACTLY && heightMode == MeasureSpec.EXACTLY; mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); if (skipMeasure || mAdapter == null) { return; } if (mState.mLayoutStep == State.STEP_START) { dispatchLayoutStep1(); } // set dimensions in 2nd step. Pre-layout should happen with old dimensions for // consistency mLayout.setMeasureSpecs(widthSpec, heightSpec); mState.mIsMeasuring = true; dispatchLayoutStep2(); // now we can get the width and height from the children. mLayout.setMeasuredDimensionFromChildren(widthSpec, heightSpec); // if RecyclerView has non-exact width and height and if there is at least one child // which also has non-exact width & height, we have to re-measure. if (mLayout.shouldMeasureTwice()) { mLayout.setMeasureSpecs( MeasureSpec.makeMeasureSpec(getMeasuredWidth(), MeasureSpec.EXACTLY), MeasureSpec.makeMeasureSpec(getMeasuredHeight(), MeasureSpec.EXACTLY)); mState.mIsMeasuring = true; dispatchLayoutStep2(); // now we can get the width and height from the children. mLayout.setMeasuredDimensionFromChildren(widthSpec, heightSpec); } } else { if (mHasFixedSize) { mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); return; } // custom onMeasure if (mAdapterUpdateDuringMeasure) { eatRequestLayout(); processAdapterUpdatesAndSetAnimationFlags(); if (mState.mRunPredictiveAnimations) { mState.mInPreLayout = true; } else { // consume remaining updates to provide a consistent state with the layout pass. mAdapterHelper.consumeUpdatesInOnePass(); mState.mInPreLayout = false; } mAdapterUpdateDuringMeasure = false; resumeRequestLayout(false); } if (mAdapter != null) { mState.mItemCount = mAdapter.getItemCount(); } else { mState.mItemCount = 0; } eatRequestLayout(); mLayout.onMeasure(mRecycler, mState, widthSpec, heightSpec); resumeRequestLayout(false); mState.mInPreLayout = false; // clear } } /** * Used when onMeasure is called before layout manager is set */ void defaultOnMeasure(int widthSpec, int heightSpec) { // calling LayoutManager here is not pretty but that API is already public and it is better // than creating another method since this is internal. final int width = LayoutManager.chooseSize(widthSpec, getPaddingLeft() + getPaddingRight(), ViewCompat.getMinimumWidth(this)); final int height = LayoutManager.chooseSize(heightSpec, getPaddingTop() + getPaddingBottom(), ViewCompat.getMinimumHeight(this)); setMeasuredDimension(width, height); } @Override protected void onSizeChanged(int w, int h, int oldw, int oldh) { super.onSizeChanged(w, h, oldw, oldh); if (w != oldw || h != oldh) { invalidateGlows(); // layout's w/h are updated during measure/layout steps. } } /** * Sets the {@link ItemAnimator} that will handle animations involving changes * to the items in this RecyclerView. By default, RecyclerView instantiates and * uses an instance of {@link DefaultItemAnimator}. Whether item animations are * enabled for the RecyclerView depends on the ItemAnimator and whether * the LayoutManager {@link LayoutManager#supportsPredictiveItemAnimations() * supports item animations}. * * @param animator The ItemAnimator being set. If null, no animations will occur * when changes occur to the items in this RecyclerView. */ public void setItemAnimator(ItemAnimator animator) { if (mItemAnimator != null) { mItemAnimator.endAnimations(); mItemAnimator.setListener(null); } mItemAnimator = animator; if (mItemAnimator != null) { mItemAnimator.setListener(mItemAnimatorListener); } } void onEnterLayoutOrScroll() { mLayoutOrScrollCounter ++; } void onExitLayoutOrScroll() { mLayoutOrScrollCounter --; if (mLayoutOrScrollCounter < 1) { if (DEBUG && mLayoutOrScrollCounter < 0) { throw new IllegalStateException("layout or scroll counter cannot go below zero." + "Some calls are not matching"); } mLayoutOrScrollCounter = 0; dispatchContentChangedIfNecessary(); dispatchPendingImportantForAccessibilityChanges(); } } boolean isAccessibilityEnabled() { return mAccessibilityManager != null && mAccessibilityManager.isEnabled(); } private void dispatchContentChangedIfNecessary() { final int flags = mEatenAccessibilityChangeFlags; mEatenAccessibilityChangeFlags = 0; if (flags != 0 && isAccessibilityEnabled()) { final AccessibilityEvent event = AccessibilityEvent.obtain(); event.setEventType(AccessibilityEventCompat.TYPE_WINDOW_CONTENT_CHANGED); AccessibilityEventCompat.setContentChangeTypes(event, flags); sendAccessibilityEventUnchecked(event); } } /** * Returns whether RecyclerView is currently computing a layout. *

* If this method returns true, it means that RecyclerView is in a lockdown state and any * attempt to update adapter contents will result in an exception because adapter contents * cannot be changed while RecyclerView is trying to compute the layout. *

* It is very unlikely that your code will be running during this state as it is * called by the framework when a layout traversal happens or RecyclerView starts to scroll * in response to system events (touch, accessibility etc). *

* This case may happen if you have some custom logic to change adapter contents in * response to a View callback (e.g. focus change callback) which might be triggered during a * layout calculation. In these cases, you should just postpone the change using a Handler or a * similar mechanism. * * @return true if RecyclerView is currently computing a layout, false * otherwise */ public boolean isComputingLayout() { return mLayoutOrScrollCounter > 0; } /** * Returns true if an accessibility event should not be dispatched now. This happens when an * accessibility request arrives while RecyclerView does not have a stable state which is very * hard to handle for a LayoutManager. Instead, this method records necessary information about * the event and dispatches a window change event after the critical section is finished. * * @return True if the accessibility event should be postponed. */ boolean shouldDeferAccessibilityEvent(AccessibilityEvent event) { if (isComputingLayout()) { int type = 0; if (event != null) { type = AccessibilityEventCompat.getContentChangeTypes(event); } if (type == 0) { type = AccessibilityEventCompat.CONTENT_CHANGE_TYPE_UNDEFINED; } mEatenAccessibilityChangeFlags |= type; return true; } return false; } @Override public void sendAccessibilityEventUnchecked(AccessibilityEvent event) { if (shouldDeferAccessibilityEvent(event)) { return; } super.sendAccessibilityEventUnchecked(event); } /** * Gets the current ItemAnimator for this RecyclerView. A null return value * indicates that there is no animator and that item changes will happen without * any animations. By default, RecyclerView instantiates and * uses an instance of {@link DefaultItemAnimator}. * * @return ItemAnimator The current ItemAnimator. If null, no animations will occur * when changes occur to the items in this RecyclerView. */ public ItemAnimator getItemAnimator() { return mItemAnimator; } /** * Post a runnable to the next frame to run pending item animations. Only the first such * request will be posted, governed by the mPostedAnimatorRunner flag. */ void postAnimationRunner() { if (!mPostedAnimatorRunner && mIsAttached) { ViewCompat.postOnAnimation(this, mItemAnimatorRunner); mPostedAnimatorRunner = true; } } private boolean predictiveItemAnimationsEnabled() { return (mItemAnimator != null && mLayout.supportsPredictiveItemAnimations()); } /** * Consumes adapter updates and calculates which type of animations we want to run. * Called in onMeasure and dispatchLayout. *

* This method may process only the pre-layout state of updates or all of them. */ private void processAdapterUpdatesAndSetAnimationFlags() { if (mDataSetHasChangedAfterLayout) { // Processing these items have no value since data set changed unexpectedly. // Instead, we just reset it. mAdapterHelper.reset(); markKnownViewsInvalid(); mLayout.onItemsChanged(this); } // simple animations are a subset of advanced animations (which will cause a // pre-layout step) // If layout supports predictive animations, pre-process to decide if we want to run them if (predictiveItemAnimationsEnabled()) { mAdapterHelper.preProcess(); } else { mAdapterHelper.consumeUpdatesInOnePass(); } boolean animationTypeSupported = mItemsAddedOrRemoved || mItemsChanged; mState.mRunSimpleAnimations = mFirstLayoutComplete && mItemAnimator != null && (mDataSetHasChangedAfterLayout || animationTypeSupported || mLayout.mRequestedSimpleAnimations) && (!mDataSetHasChangedAfterLayout || mAdapter.hasStableIds()); mState.mRunPredictiveAnimations = mState.mRunSimpleAnimations && animationTypeSupported && !mDataSetHasChangedAfterLayout && predictiveItemAnimationsEnabled(); } /** * Wrapper around layoutChildren() that handles animating changes caused by layout. * Animations work on the assumption that there are five different kinds of items * in play: * PERSISTENT: items are visible before and after layout * REMOVED: items were visible before layout and were removed by the app * ADDED: items did not exist before layout and were added by the app * DISAPPEARING: items exist in the data set before/after, but changed from * visible to non-visible in the process of layout (they were moved off * screen as a side-effect of other changes) * APPEARING: items exist in the data set before/after, but changed from * non-visible to visible in the process of layout (they were moved on * screen as a side-effect of other changes) * The overall approach figures out what items exist before/after layout and * infers one of the five above states for each of the items. Then the animations * are set up accordingly: * PERSISTENT views are animated via * {@link ItemAnimator#animatePersistence(ViewHolder, ItemHolderInfo, ItemHolderInfo)} * DISAPPEARING views are animated via * {@link ItemAnimator#animateDisappearance(ViewHolder, ItemHolderInfo, ItemHolderInfo)} * APPEARING views are animated via * {@link ItemAnimator#animateAppearance(ViewHolder, ItemHolderInfo, ItemHolderInfo)} * and changed views are animated via * {@link ItemAnimator#animateChange(ViewHolder, ViewHolder, ItemHolderInfo, ItemHolderInfo)}. */ void dispatchLayout() { if (mAdapter == null) { Log.e(TAG, "No adapter attached; skipping layout"); // leave the state in START return; } if (mLayout == null) { Log.e(TAG, "No layout manager attached; skipping layout"); // leave the state in START return; } mState.mIsMeasuring = false; if (mState.mLayoutStep == State.STEP_START) { dispatchLayoutStep1(); mLayout.setExactMeasureSpecsFrom(this); dispatchLayoutStep2(); } else if (mAdapterHelper.hasUpdates() || mLayout.getWidth() != getWidth() || mLayout.getHeight() != getHeight()) { // First 2 steps are done in onMeasure but looks like we have to run again due to // changed size. mLayout.setExactMeasureSpecsFrom(this); dispatchLayoutStep2(); } else { // always make sure we sync them (to ensure mode is exact) mLayout.setExactMeasureSpecsFrom(this); } dispatchLayoutStep3(); } private void saveFocusInfo() { View child = null; if (mPreserveFocusAfterLayout && hasFocus() && mAdapter != null) { child = getFocusedChild(); } final ViewHolder focusedVh = child == null ? null : findContainingViewHolder(child); if (focusedVh == null) { resetFocusInfo(); } else { mState.mFocusedItemId = mAdapter.hasStableIds() ? focusedVh.getItemId() : NO_ID; mState.mFocusedItemPosition = mDataSetHasChangedAfterLayout ? NO_POSITION : focusedVh.getAdapterPosition(); mState.mFocusedSubChildId = getDeepestFocusedViewWithId(focusedVh.itemView); } } private void resetFocusInfo() { mState.mFocusedItemId = NO_ID; mState.mFocusedItemPosition = NO_POSITION; mState.mFocusedSubChildId = View.NO_ID; } private void recoverFocusFromState() { if (!mPreserveFocusAfterLayout || mAdapter == null || !hasFocus()) { return; } // only recover focus if RV itself has the focus or the focused view is hidden if (!isFocused()) { final View focusedChild = getFocusedChild(); if (focusedChild == null || !mChildHelper.isHidden(focusedChild)) { return; } } ViewHolder focusTarget = null; if (mState.mFocusedItemPosition != NO_POSITION) { focusTarget = findViewHolderForAdapterPosition(mState.mFocusedItemPosition); } if (focusTarget == null && mState.mFocusedItemId != NO_ID && mAdapter.hasStableIds()) { focusTarget = findViewHolderForItemId(mState.mFocusedItemId); } if (focusTarget == null || focusTarget.itemView.hasFocus() || !focusTarget.itemView.hasFocusable()) { return; } // looks like the focused item has been replaced with another view that represents the // same item in the adapter. Request focus on that. View viewToFocus = focusTarget.itemView; if (mState.mFocusedSubChildId != NO_ID) { View child = focusTarget.itemView.findViewById(mState.mFocusedSubChildId); if (child != null && child.isFocusable()) { viewToFocus = child; } } viewToFocus.requestFocus(); } private int getDeepestFocusedViewWithId(View view) { int lastKnownId = view.getId(); while (!view.isFocused() && view instanceof ViewGroup && view.hasFocus()) { view = ((ViewGroup) view).getFocusedChild(); final int id = view.getId(); if (id != View.NO_ID) { lastKnownId = view.getId(); } } return lastKnownId; } /** * The first step of a layout where we; * - process adapter updates * - decide which animation should run * - save information about current views * - If necessary, run predictive layout and save its information */ private void dispatchLayoutStep1() { mState.assertLayoutStep(State.STEP_START); mState.mIsMeasuring = false; eatRequestLayout(); mViewInfoStore.clear(); onEnterLayoutOrScroll(); saveFocusInfo(); processAdapterUpdatesAndSetAnimationFlags(); mState.mTrackOldChangeHolders = mState.mRunSimpleAnimations && mItemsChanged; mItemsAddedOrRemoved = mItemsChanged = false; mState.mInPreLayout = mState.mRunPredictiveAnimations; mState.mItemCount = mAdapter.getItemCount(); findMinMaxChildLayoutPositions(mMinMaxLayoutPositions); if (mState.mRunSimpleAnimations) { // Step 0: Find out where all non-removed items are, pre-layout int count = mChildHelper.getChildCount(); for (int i = 0; i < count; ++i) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); if (holder.shouldIgnore() || (holder.isInvalid() && !mAdapter.hasStableIds())) { continue; } final ItemHolderInfo animationInfo = mItemAnimator .recordPreLayoutInformation(mState, holder, ItemAnimator.buildAdapterChangeFlagsForAnimations(holder), holder.getUnmodifiedPayloads()); mViewInfoStore.addToPreLayout(holder, animationInfo); if (mState.mTrackOldChangeHolders && holder.isUpdated() && !holder.isRemoved() && !holder.shouldIgnore() && !holder.isInvalid()) { long key = getChangedHolderKey(holder); // This is NOT the only place where a ViewHolder is added to old change holders // list. There is another case where: // * A VH is currently hidden but not deleted // * The hidden item is changed in the adapter // * Layout manager decides to layout the item in the pre-Layout pass (step1) // When this case is detected, RV will un-hide that view and add to the old // change holders list. mViewInfoStore.addToOldChangeHolders(key, holder); } } } if (mState.mRunPredictiveAnimations) { // Step 1: run prelayout: This will use the old positions of items. The layout manager // is expected to layout everything, even removed items (though not to add removed // items back to the container). This gives the pre-layout position of APPEARING views // which come into existence as part of the real layout. // Save old positions so that LayoutManager can run its mapping logic. saveOldPositions(); final boolean didStructureChange = mState.mStructureChanged; mState.mStructureChanged = false; // temporarily disable flag because we are asking for previous layout mLayout.onLayoutChildren(mRecycler, mState); mState.mStructureChanged = didStructureChange; for (int i = 0; i < mChildHelper.getChildCount(); ++i) { final View child = mChildHelper.getChildAt(i); final ViewHolder viewHolder = getChildViewHolderInt(child); if (viewHolder.shouldIgnore()) { continue; } if (!mViewInfoStore.isInPreLayout(viewHolder)) { int flags = ItemAnimator.buildAdapterChangeFlagsForAnimations(viewHolder); boolean wasHidden = viewHolder .hasAnyOfTheFlags(ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); if (!wasHidden) { flags |= ItemAnimator.FLAG_APPEARED_IN_PRE_LAYOUT; } final ItemHolderInfo animationInfo = mItemAnimator.recordPreLayoutInformation( mState, viewHolder, flags, viewHolder.getUnmodifiedPayloads()); if (wasHidden) { recordAnimationInfoIfBouncedHiddenView(viewHolder, animationInfo); } else { mViewInfoStore.addToAppearedInPreLayoutHolders(viewHolder, animationInfo); } } } // we don't process disappearing list because they may re-appear in post layout pass. clearOldPositions(); } else { clearOldPositions(); } onExitLayoutOrScroll(); resumeRequestLayout(false); mState.mLayoutStep = State.STEP_LAYOUT; } /** * The second layout step where we do the actual layout of the views for the final state. * This step might be run multiple times if necessary (e.g. measure). */ private void dispatchLayoutStep2() { eatRequestLayout(); onEnterLayoutOrScroll(); mState.assertLayoutStep(State.STEP_LAYOUT | State.STEP_ANIMATIONS); mAdapterHelper.consumeUpdatesInOnePass(); mState.mItemCount = mAdapter.getItemCount(); mState.mDeletedInvisibleItemCountSincePreviousLayout = 0; // Step 2: Run layout mState.mInPreLayout = false; mLayout.onLayoutChildren(mRecycler, mState); mState.mStructureChanged = false; mPendingSavedState = null; // onLayoutChildren may have caused client code to disable item animations; re-check mState.mRunSimpleAnimations = mState.mRunSimpleAnimations && mItemAnimator != null; mState.mLayoutStep = State.STEP_ANIMATIONS; onExitLayoutOrScroll(); resumeRequestLayout(false); } /** * The final step of the layout where we save the information about views for animations, * trigger animations and do any necessary cleanup. */ private void dispatchLayoutStep3() { mState.assertLayoutStep(State.STEP_ANIMATIONS); eatRequestLayout(); onEnterLayoutOrScroll(); mState.mLayoutStep = State.STEP_START; if (mState.mRunSimpleAnimations) { // Step 3: Find out where things are now, and process change animations. // traverse list in reverse because we may call animateChange in the loop which may // remove the target view holder. for (int i = mChildHelper.getChildCount() - 1; i >= 0; i--) { ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); if (holder.shouldIgnore()) { continue; } long key = getChangedHolderKey(holder); final ItemHolderInfo animationInfo = mItemAnimator .recordPostLayoutInformation(mState, holder); ViewHolder oldChangeViewHolder = mViewInfoStore.getFromOldChangeHolders(key); if (oldChangeViewHolder != null && !oldChangeViewHolder.shouldIgnore()) { // run a change animation // If an Item is CHANGED but the updated version is disappearing, it creates // a conflicting case. // Since a view that is marked as disappearing is likely to be going out of // bounds, we run a change animation. Both views will be cleaned automatically // once their animations finish. // On the other hand, if it is the same view holder instance, we run a // disappearing animation instead because we are not going to rebind the updated // VH unless it is enforced by the layout manager. final boolean oldDisappearing = mViewInfoStore.isDisappearing( oldChangeViewHolder); final boolean newDisappearing = mViewInfoStore.isDisappearing(holder); if (oldDisappearing && oldChangeViewHolder == holder) { // run disappear animation instead of change mViewInfoStore.addToPostLayout(holder, animationInfo); } else { final ItemHolderInfo preInfo = mViewInfoStore.popFromPreLayout( oldChangeViewHolder); // we add and remove so that any post info is merged. mViewInfoStore.addToPostLayout(holder, animationInfo); ItemHolderInfo postInfo = mViewInfoStore.popFromPostLayout(holder); if (preInfo == null) { handleMissingPreInfoForChangeError(key, holder, oldChangeViewHolder); } else { animateChange(oldChangeViewHolder, holder, preInfo, postInfo, oldDisappearing, newDisappearing); } } } else { mViewInfoStore.addToPostLayout(holder, animationInfo); } } // Step 4: Process view info lists and trigger animations mViewInfoStore.process(mViewInfoProcessCallback); } mLayout.removeAndRecycleScrapInt(mRecycler); mState.mPreviousLayoutItemCount = mState.mItemCount; mDataSetHasChangedAfterLayout = false; mState.mRunSimpleAnimations = false; mState.mRunPredictiveAnimations = false; mLayout.mRequestedSimpleAnimations = false; if (mRecycler.mChangedScrap != null) { mRecycler.mChangedScrap.clear(); } mLayout.onLayoutCompleted(mState); onExitLayoutOrScroll(); resumeRequestLayout(false); mViewInfoStore.clear(); if (didChildRangeChange(mMinMaxLayoutPositions[0], mMinMaxLayoutPositions[1])) { dispatchOnScrolled(0, 0); } recoverFocusFromState(); resetFocusInfo(); } /** * This handles the case where there is an unexpected VH missing in the pre-layout map. *

* We might be able to detect the error in the application which will help the developer to * resolve the issue. *

* If it is not an expected error, we at least print an error to notify the developer and ignore * the animation. * * https://code.google.com/p/android/issues/detail?id=193958 * * @param key The change key * @param holder Current ViewHolder * @param oldChangeViewHolder Changed ViewHolder */ private void handleMissingPreInfoForChangeError(long key, ViewHolder holder, ViewHolder oldChangeViewHolder) { // check if two VH have the same key, if so, print that as an error final int childCount = mChildHelper.getChildCount(); for (int i = 0; i < childCount; i++) { View view = mChildHelper.getChildAt(i); ViewHolder other = getChildViewHolderInt(view); if (other == holder) { continue; } final long otherKey = getChangedHolderKey(other); if (otherKey == key) { if (mAdapter != null && mAdapter.hasStableIds()) { throw new IllegalStateException("Two different ViewHolders have the same stable" + " ID. Stable IDs in your adapter MUST BE unique and SHOULD NOT" + " change.\n ViewHolder 1:" + other + " \n View Holder 2:" + holder); } else { throw new IllegalStateException("Two different ViewHolders have the same change" + " ID. This might happen due to inconsistent Adapter update events or" + " if the LayoutManager lays out the same View multiple times." + "\n ViewHolder 1:" + other + " \n View Holder 2:" + holder); } } } // Very unlikely to happen but if it does, notify the developer. Log.e(TAG, "Problem while matching changed view holders with the new" + "ones. The pre-layout information for the change holder " + oldChangeViewHolder + " cannot be found but it is necessary for " + holder); } /** * Records the animation information for a view holder that was bounced from hidden list. It * also clears the bounce back flag. */ void recordAnimationInfoIfBouncedHiddenView(ViewHolder viewHolder, ItemHolderInfo animationInfo) { // looks like this view bounced back from hidden list! viewHolder.setFlags(0, ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); if (mState.mTrackOldChangeHolders && viewHolder.isUpdated() && !viewHolder.isRemoved() && !viewHolder.shouldIgnore()) { long key = getChangedHolderKey(viewHolder); mViewInfoStore.addToOldChangeHolders(key, viewHolder); } mViewInfoStore.addToPreLayout(viewHolder, animationInfo); } private void findMinMaxChildLayoutPositions(int[] into) { final int count = mChildHelper.getChildCount(); if (count == 0) { into[0] = NO_POSITION; into[1] = NO_POSITION; return; } int minPositionPreLayout = Integer.MAX_VALUE; int maxPositionPreLayout = Integer.MIN_VALUE; for (int i = 0; i < count; ++i) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getChildAt(i)); if (holder.shouldIgnore()) { continue; } final int pos = holder.getLayoutPosition(); if (pos < minPositionPreLayout) { minPositionPreLayout = pos; } if (pos > maxPositionPreLayout) { maxPositionPreLayout = pos; } } into[0] = minPositionPreLayout; into[1] = maxPositionPreLayout; } private boolean didChildRangeChange(int minPositionPreLayout, int maxPositionPreLayout) { findMinMaxChildLayoutPositions(mMinMaxLayoutPositions); return mMinMaxLayoutPositions[0] != minPositionPreLayout || mMinMaxLayoutPositions[1] != maxPositionPreLayout; } @Override protected void removeDetachedView(View child, boolean animate) { ViewHolder vh = getChildViewHolderInt(child); if (vh != null) { if (vh.isTmpDetached()) { vh.clearTmpDetachFlag(); } else if (!vh.shouldIgnore()) { throw new IllegalArgumentException("Called removeDetachedView with a view which" + " is not flagged as tmp detached." + vh); } } dispatchChildDetached(child); super.removeDetachedView(child, animate); } /** * Returns a unique key to be used while handling change animations. * It might be child's position or stable id depending on the adapter type. */ long getChangedHolderKey(ViewHolder holder) { return mAdapter.hasStableIds() ? holder.getItemId() : holder.mPosition; } void animateAppearance(@NonNull ViewHolder itemHolder, @Nullable ItemHolderInfo preLayoutInfo, @NonNull ItemHolderInfo postLayoutInfo) { itemHolder.setIsRecyclable(false); if (mItemAnimator.animateAppearance(itemHolder, preLayoutInfo, postLayoutInfo)) { postAnimationRunner(); } } void animateDisappearance(@NonNull ViewHolder holder, @NonNull ItemHolderInfo preLayoutInfo, @Nullable ItemHolderInfo postLayoutInfo) { addAnimatingView(holder); holder.setIsRecyclable(false); if (mItemAnimator.animateDisappearance(holder, preLayoutInfo, postLayoutInfo)) { postAnimationRunner(); } } private void animateChange(@NonNull ViewHolder oldHolder, @NonNull ViewHolder newHolder, @NonNull ItemHolderInfo preInfo, @NonNull ItemHolderInfo postInfo, boolean oldHolderDisappearing, boolean newHolderDisappearing) { oldHolder.setIsRecyclable(false); if (oldHolderDisappearing) { addAnimatingView(oldHolder); } if (oldHolder != newHolder) { if (newHolderDisappearing) { addAnimatingView(newHolder); } oldHolder.mShadowedHolder = newHolder; // old holder should disappear after animation ends addAnimatingView(oldHolder); mRecycler.unscrapView(oldHolder); newHolder.setIsRecyclable(false); newHolder.mShadowingHolder = oldHolder; } if (mItemAnimator.animateChange(oldHolder, newHolder, preInfo, postInfo)) { postAnimationRunner(); } } @Override protected void onLayout(boolean changed, int l, int t, int r, int b) { TraceCompat.beginSection(TRACE_ON_LAYOUT_TAG); dispatchLayout(); TraceCompat.endSection(); mFirstLayoutComplete = true; } @Override public void requestLayout() { if (mEatRequestLayout == 0 && !mLayoutFrozen) { super.requestLayout(); } else { mLayoutRequestEaten = true; } } void markItemDecorInsetsDirty() { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final View child = mChildHelper.getUnfilteredChildAt(i); ((LayoutParams) child.getLayoutParams()).mInsetsDirty = true; } mRecycler.markItemDecorInsetsDirty(); } @Override public void draw(Canvas c) { super.draw(c); final int count = mItemDecorations.size(); for (int i = 0; i < count; i++) { mItemDecorations.get(i).onDrawOver(c, this, mState); } // TODO If padding is not 0 and clipChildrenToPadding is false, to draw glows properly, we // need find children closest to edges. Not sure if it is worth the effort. boolean needsInvalidate = false; if (mLeftGlow != null && !mLeftGlow.isFinished()) { final int restore = c.save(); final int padding = mClipToPadding ? getPaddingBottom() : 0; c.rotate(270); c.translate(-getHeight() + padding, 0); needsInvalidate = mLeftGlow != null && mLeftGlow.draw(c); c.restoreToCount(restore); } if (mTopGlow != null && !mTopGlow.isFinished()) { final int restore = c.save(); if (mClipToPadding) { c.translate(getPaddingLeft(), getPaddingTop()); } needsInvalidate |= mTopGlow != null && mTopGlow.draw(c); c.restoreToCount(restore); } if (mRightGlow != null && !mRightGlow.isFinished()) { final int restore = c.save(); final int width = getWidth(); final int padding = mClipToPadding ? getPaddingTop() : 0; c.rotate(90); c.translate(-padding, -width); needsInvalidate |= mRightGlow != null && mRightGlow.draw(c); c.restoreToCount(restore); } if (mBottomGlow != null && !mBottomGlow.isFinished()) { final int restore = c.save(); c.rotate(180); if (mClipToPadding) { c.translate(-getWidth() + getPaddingRight(), -getHeight() + getPaddingBottom()); } else { c.translate(-getWidth(), -getHeight()); } needsInvalidate |= mBottomGlow != null && mBottomGlow.draw(c); c.restoreToCount(restore); } // If some views are animating, ItemDecorators are likely to move/change with them. // Invalidate RecyclerView to re-draw decorators. This is still efficient because children's // display lists are not invalidated. if (!needsInvalidate && mItemAnimator != null && mItemDecorations.size() > 0 && mItemAnimator.isRunning()) { needsInvalidate = true; } if (needsInvalidate) { ViewCompat.postInvalidateOnAnimation(this); } } @Override public void onDraw(Canvas c) { super.onDraw(c); final int count = mItemDecorations.size(); for (int i = 0; i < count; i++) { mItemDecorations.get(i).onDraw(c, this, mState); } } @Override protected boolean checkLayoutParams(ViewGroup.LayoutParams p) { return p instanceof LayoutParams && mLayout.checkLayoutParams((LayoutParams) p); } @Override protected ViewGroup.LayoutParams generateDefaultLayoutParams() { if (mLayout == null) { throw new IllegalStateException("RecyclerView has no LayoutManager"); } return mLayout.generateDefaultLayoutParams(); } @Override public ViewGroup.LayoutParams generateLayoutParams(AttributeSet attrs) { if (mLayout == null) { throw new IllegalStateException("RecyclerView has no LayoutManager"); } return mLayout.generateLayoutParams(getContext(), attrs); } @Override protected ViewGroup.LayoutParams generateLayoutParams(ViewGroup.LayoutParams p) { if (mLayout == null) { throw new IllegalStateException("RecyclerView has no LayoutManager"); } return mLayout.generateLayoutParams(p); } /** * Returns true if RecyclerView is currently running some animations. *

* If you want to be notified when animations are finished, use * {@link ItemAnimator#isRunning(ItemAnimator.ItemAnimatorFinishedListener)}. * * @return True if there are some item animations currently running or waiting to be started. */ public boolean isAnimating() { return mItemAnimator != null && mItemAnimator.isRunning(); } void saveOldPositions() { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (DEBUG && holder.mPosition == -1 && !holder.isRemoved()) { throw new IllegalStateException("view holder cannot have position -1 unless it" + " is removed"); } if (!holder.shouldIgnore()) { holder.saveOldPosition(); } } } void clearOldPositions() { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (!holder.shouldIgnore()) { holder.clearOldPosition(); } } mRecycler.clearOldPositions(); } void offsetPositionRecordsForMove(int from, int to) { final int childCount = mChildHelper.getUnfilteredChildCount(); final int start, end, inBetweenOffset; if (from < to) { start = from; end = to; inBetweenOffset = -1; } else { start = to; end = from; inBetweenOffset = 1; } for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder == null || holder.mPosition < start || holder.mPosition > end) { continue; } if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForMove attached child " + i + " holder " + holder); } if (holder.mPosition == from) { holder.offsetPosition(to - from, false); } else { holder.offsetPosition(inBetweenOffset, false); } mState.mStructureChanged = true; } mRecycler.offsetPositionRecordsForMove(from, to); requestLayout(); } void offsetPositionRecordsForInsert(int positionStart, int itemCount) { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.shouldIgnore() && holder.mPosition >= positionStart) { if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForInsert attached child " + i + " holder " + holder + " now at position " + (holder.mPosition + itemCount)); } holder.offsetPosition(itemCount, false); mState.mStructureChanged = true; } } mRecycler.offsetPositionRecordsForInsert(positionStart, itemCount); requestLayout(); } void offsetPositionRecordsForRemove(int positionStart, int itemCount, boolean applyToPreLayout) { final int positionEnd = positionStart + itemCount; final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.shouldIgnore()) { if (holder.mPosition >= positionEnd) { if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForRemove attached child " + i + " holder " + holder + " now at position " + (holder.mPosition - itemCount)); } holder.offsetPosition(-itemCount, applyToPreLayout); mState.mStructureChanged = true; } else if (holder.mPosition >= positionStart) { if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForRemove attached child " + i + " holder " + holder + " now REMOVED"); } holder.flagRemovedAndOffsetPosition(positionStart - 1, -itemCount, applyToPreLayout); mState.mStructureChanged = true; } } } mRecycler.offsetPositionRecordsForRemove(positionStart, itemCount, applyToPreLayout); requestLayout(); } /** * Rebind existing views for the given range, or create as needed. * * @param positionStart Adapter position to start at * @param itemCount Number of views that must explicitly be rebound */ void viewRangeUpdate(int positionStart, int itemCount, Object payload) { final int childCount = mChildHelper.getUnfilteredChildCount(); final int positionEnd = positionStart + itemCount; for (int i = 0; i < childCount; i++) { final View child = mChildHelper.getUnfilteredChildAt(i); final ViewHolder holder = getChildViewHolderInt(child); if (holder == null || holder.shouldIgnore()) { continue; } if (holder.mPosition >= positionStart && holder.mPosition < positionEnd) { // We re-bind these view holders after pre-processing is complete so that // ViewHolders have their final positions assigned. holder.addFlags(ViewHolder.FLAG_UPDATE); holder.addChangePayload(payload); // lp cannot be null since we get ViewHolder from it. ((LayoutParams) child.getLayoutParams()).mInsetsDirty = true; } } mRecycler.viewRangeUpdate(positionStart, itemCount); } boolean canReuseUpdatedViewHolder(ViewHolder viewHolder) { return mItemAnimator == null || mItemAnimator.canReuseUpdatedViewHolder(viewHolder, viewHolder.getUnmodifiedPayloads()); } void setDataSetChangedAfterLayout() { if (mDataSetHasChangedAfterLayout) { return; } mDataSetHasChangedAfterLayout = true; final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.shouldIgnore()) { holder.addFlags(ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN); } } mRecycler.setAdapterPositionsAsUnknown(); } /** * Mark all known views as invalid. Used in response to a, "the whole world might have changed" * data change event. */ void markKnownViewsInvalid() { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.shouldIgnore()) { holder.addFlags(ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID); } } markItemDecorInsetsDirty(); mRecycler.markKnownViewsInvalid(); } /** * Invalidates all ItemDecorations. If RecyclerView has item decorations, calling this method * will trigger a {@link #requestLayout()} call. */ public void invalidateItemDecorations() { if (mItemDecorations.size() == 0) { return; } if (mLayout != null) { mLayout.assertNotInLayoutOrScroll("Cannot invalidate item decorations during a scroll" + " or layout"); } markItemDecorInsetsDirty(); requestLayout(); } /** * Returns true if the RecyclerView should attempt to preserve currently focused Adapter Item's * focus even if the View representing the Item is replaced during a layout calculation. *

* By default, this value is {@code true}. * * @return True if the RecyclerView will try to preserve focused Item after a layout if it loses * focus. * * @see #setPreserveFocusAfterLayout(boolean) */ public boolean getPreserveFocusAfterLayout() { return mPreserveFocusAfterLayout; } /** * Set whether the RecyclerView should try to keep the same Item focused after a layout * calculation or not. *

* Usually, LayoutManagers keep focused views visible before and after layout but sometimes, * views may lose focus during a layout calculation as their state changes or they are replaced * with another view due to type change or animation. In these cases, RecyclerView can request * focus on the new view automatically. * * @param preserveFocusAfterLayout Whether RecyclerView should preserve focused Item during a * layout calculations. Defaults to true. * * @see #getPreserveFocusAfterLayout() */ public void setPreserveFocusAfterLayout(boolean preserveFocusAfterLayout) { mPreserveFocusAfterLayout = preserveFocusAfterLayout; } /** * Retrieve the {@link ViewHolder} for the given child view. * * @param child Child of this RecyclerView to query for its ViewHolder * @return The child view's ViewHolder */ public ViewHolder getChildViewHolder(View child) { final ViewParent parent = child.getParent(); if (parent != null && parent != this) { throw new IllegalArgumentException("View " + child + " is not a direct child of " + this); } return getChildViewHolderInt(child); } /** * Traverses the ancestors of the given view and returns the item view that contains it and * also a direct child of the RecyclerView. This returned view can be used to get the * ViewHolder by calling {@link #getChildViewHolder(View)}. * * @param view The view that is a descendant of the RecyclerView. * * @return The direct child of the RecyclerView which contains the given view or null if the * provided view is not a descendant of this RecyclerView. * * @see #getChildViewHolder(View) * @see #findContainingViewHolder(View) */ @Nullable public View findContainingItemView(View view) { ViewParent parent = view.getParent(); while (parent != null && parent != this && parent instanceof View) { view = (View) parent; parent = view.getParent(); } return parent == this ? view : null; } /** * Returns the ViewHolder that contains the given view. * * @param view The view that is a descendant of the RecyclerView. * * @return The ViewHolder that contains the given view or null if the provided view is not a * descendant of this RecyclerView. */ @Nullable public ViewHolder findContainingViewHolder(View view) { View itemView = findContainingItemView(view); return itemView == null ? null : getChildViewHolder(itemView); } static ViewHolder getChildViewHolderInt(View child) { if (child == null) { return null; } return ((LayoutParams) child.getLayoutParams()).mViewHolder; } /** * @deprecated use {@link #getChildAdapterPosition(View)} or * {@link #getChildLayoutPosition(View)}. */ @Deprecated public int getChildPosition(View child) { return getChildAdapterPosition(child); } /** * Return the adapter position that the given child view corresponds to. * * @param child Child View to query * @return Adapter position corresponding to the given view or {@link #NO_POSITION} */ public int getChildAdapterPosition(View child) { final ViewHolder holder = getChildViewHolderInt(child); return holder != null ? holder.getAdapterPosition() : NO_POSITION; } /** * Return the adapter position of the given child view as of the latest completed layout pass. *

* This position may not be equal to Item's adapter position if there are pending changes * in the adapter which have not been reflected to the layout yet. * * @param child Child View to query * @return Adapter position of the given View as of last layout pass or {@link #NO_POSITION} if * the View is representing a removed item. */ public int getChildLayoutPosition(View child) { final ViewHolder holder = getChildViewHolderInt(child); return holder != null ? holder.getLayoutPosition() : NO_POSITION; } /** * Return the stable item id that the given child view corresponds to. * * @param child Child View to query * @return Item id corresponding to the given view or {@link #NO_ID} */ public long getChildItemId(View child) { if (mAdapter == null || !mAdapter.hasStableIds()) { return NO_ID; } final ViewHolder holder = getChildViewHolderInt(child); return holder != null ? holder.getItemId() : NO_ID; } /** * @deprecated use {@link #findViewHolderForLayoutPosition(int)} or * {@link #findViewHolderForAdapterPosition(int)} */ @Deprecated public ViewHolder findViewHolderForPosition(int position) { return findViewHolderForPosition(position, false); } /** * Return the ViewHolder for the item in the given position of the data set as of the latest * layout pass. *

* This method checks only the children of RecyclerView. If the item at the given * position is not laid out, it will not create a new one. *

* Note that when Adapter contents change, ViewHolder positions are not updated until the * next layout calculation. If there are pending adapter updates, the return value of this * method may not match your adapter contents. You can use * #{@link ViewHolder#getAdapterPosition()} to get the current adapter position of a ViewHolder. *

* When the ItemAnimator is running a change animation, there might be 2 ViewHolders * with the same layout position representing the same Item. In this case, the updated * ViewHolder will be returned. * * @param position The position of the item in the data set of the adapter * @return The ViewHolder at position or null if there is no such item */ public ViewHolder findViewHolderForLayoutPosition(int position) { return findViewHolderForPosition(position, false); } /** * Return the ViewHolder for the item in the given position of the data set. Unlike * {@link #findViewHolderForLayoutPosition(int)} this method takes into account any pending * adapter changes that may not be reflected to the layout yet. On the other hand, if * {@link Adapter#notifyDataSetChanged()} has been called but the new layout has not been * calculated yet, this method will return null since the new positions of views * are unknown until the layout is calculated. *

* This method checks only the children of RecyclerView. If the item at the given * position is not laid out, it will not create a new one. *

* When the ItemAnimator is running a change animation, there might be 2 ViewHolders * representing the same Item. In this case, the updated ViewHolder will be returned. * * @param position The position of the item in the data set of the adapter * @return The ViewHolder at position or null if there is no such item */ public ViewHolder findViewHolderForAdapterPosition(int position) { if (mDataSetHasChangedAfterLayout) { return null; } final int childCount = mChildHelper.getUnfilteredChildCount(); // hidden VHs are not preferred but if that is the only one we find, we rather return it ViewHolder hidden = null; for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.isRemoved() && getAdapterPositionFor(holder) == position) { if (mChildHelper.isHidden(holder.itemView)) { hidden = holder; } else { return holder; } } } return hidden; } ViewHolder findViewHolderForPosition(int position, boolean checkNewPosition) { final int childCount = mChildHelper.getUnfilteredChildCount(); ViewHolder hidden = null; for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.isRemoved()) { if (checkNewPosition) { if (holder.mPosition != position) { continue; } } else if (holder.getLayoutPosition() != position) { continue; } if (mChildHelper.isHidden(holder.itemView)) { hidden = holder; } else { return holder; } } } // This method should not query cached views. It creates a problem during adapter updates // when we are dealing with already laid out views. Also, for the public method, it is more // reasonable to return null if position is not laid out. return hidden; } /** * Return the ViewHolder for the item with the given id. The RecyclerView must * use an Adapter with {@link Adapter#setHasStableIds(boolean) stableIds} to * return a non-null value. *

* This method checks only the children of RecyclerView. If the item with the given * id is not laid out, it will not create a new one. * * When the ItemAnimator is running a change animation, there might be 2 ViewHolders with the * same id. In this case, the updated ViewHolder will be returned. * * @param id The id for the requested item * @return The ViewHolder with the given id or null if there is no such item */ public ViewHolder findViewHolderForItemId(long id) { if (mAdapter == null || !mAdapter.hasStableIds()) { return null; } final int childCount = mChildHelper.getUnfilteredChildCount(); ViewHolder hidden = null; for (int i = 0; i < childCount; i++) { final ViewHolder holder = getChildViewHolderInt(mChildHelper.getUnfilteredChildAt(i)); if (holder != null && !holder.isRemoved() && holder.getItemId() == id) { if (mChildHelper.isHidden(holder.itemView)) { hidden = holder; } else { return holder; } } } return hidden; } /** * Find the topmost view under the given point. * * @param x Horizontal position in pixels to search * @param y Vertical position in pixels to search * @return The child view under (x, y) or null if no matching child is found */ public View findChildViewUnder(float x, float y) { final int count = mChildHelper.getChildCount(); for (int i = count - 1; i >= 0; i--) { final View child = mChildHelper.getChildAt(i); final float translationX = ViewCompat.getTranslationX(child); final float translationY = ViewCompat.getTranslationY(child); if (x >= child.getLeft() + translationX && x <= child.getRight() + translationX && y >= child.getTop() + translationY && y <= child.getBottom() + translationY) { return child; } } return null; } @Override public boolean drawChild(Canvas canvas, View child, long drawingTime) { return super.drawChild(canvas, child, drawingTime); } /** * Offset the bounds of all child views by dy pixels. * Useful for implementing simple scrolling in {@link LayoutManager LayoutManagers}. * * @param dy Vertical pixel offset to apply to the bounds of all child views */ public void offsetChildrenVertical(int dy) { final int childCount = mChildHelper.getChildCount(); for (int i = 0; i < childCount; i++) { mChildHelper.getChildAt(i).offsetTopAndBottom(dy); } } /** * Called when an item view is attached to this RecyclerView. * *

Subclasses of RecyclerView may want to perform extra bookkeeping or modifications * of child views as they become attached. This will be called before a * {@link LayoutManager} measures or lays out the view and is a good time to perform these * changes.

* * @param child Child view that is now attached to this RecyclerView and its associated window */ public void onChildAttachedToWindow(View child) { } /** * Called when an item view is detached from this RecyclerView. * *

Subclasses of RecyclerView may want to perform extra bookkeeping or modifications * of child views as they become detached. This will be called as a * {@link LayoutManager} fully detaches the child view from the parent and its window.

* * @param child Child view that is now detached from this RecyclerView and its associated window */ public void onChildDetachedFromWindow(View child) { } /** * Offset the bounds of all child views by dx pixels. * Useful for implementing simple scrolling in {@link LayoutManager LayoutManagers}. * * @param dx Horizontal pixel offset to apply to the bounds of all child views */ public void offsetChildrenHorizontal(int dx) { final int childCount = mChildHelper.getChildCount(); for (int i = 0; i < childCount; i++) { mChildHelper.getChildAt(i).offsetLeftAndRight(dx); } } /** * Returns the bounds of the view including its decoration and margins. * * @param view The view element to check * @param outBounds A rect that will receive the bounds of the element including its * decoration and margins. */ public void getDecoratedBoundsWithMargins(View view, Rect outBounds) { getDecoratedBoundsWithMarginsInt(view, outBounds); } static void getDecoratedBoundsWithMarginsInt(View view, Rect outBounds) { final LayoutParams lp = (LayoutParams) view.getLayoutParams(); final Rect insets = lp.mDecorInsets; outBounds.set(view.getLeft() - insets.left - lp.leftMargin, view.getTop() - insets.top - lp.topMargin, view.getRight() + insets.right + lp.rightMargin, view.getBottom() + insets.bottom + lp.bottomMargin); } Rect getItemDecorInsetsForChild(View child) { final LayoutParams lp = (LayoutParams) child.getLayoutParams(); if (!lp.mInsetsDirty) { return lp.mDecorInsets; } if (mState.isPreLayout() && (lp.isItemChanged() || lp.isViewInvalid())) { // changed/invalid items should not be updated until they are rebound. return lp.mDecorInsets; } final Rect insets = lp.mDecorInsets; insets.set(0, 0, 0, 0); final int decorCount = mItemDecorations.size(); for (int i = 0; i < decorCount; i++) { mTempRect.set(0, 0, 0, 0); mItemDecorations.get(i).getItemOffsets(mTempRect, child, this, mState); insets.left += mTempRect.left; insets.top += mTempRect.top; insets.right += mTempRect.right; insets.bottom += mTempRect.bottom; } lp.mInsetsDirty = false; return insets; } /** * Called when the scroll position of this RecyclerView changes. Subclasses should use * this method to respond to scrolling within the adapter's data set instead of an explicit * listener. * *

This method will always be invoked before listeners. If a subclass needs to perform * any additional upkeep or bookkeeping after scrolling but before listeners run, * this is a good place to do so.

* *

This differs from {@link View#onScrollChanged(int, int, int, int)} in that it receives * the distance scrolled in either direction within the adapter's data set instead of absolute * scroll coordinates. Since RecyclerView cannot compute the absolute scroll position from * any arbitrary point in the data set, onScrollChanged will always receive * the current {@link View#getScrollX()} and {@link View#getScrollY()} values which * do not correspond to the data set scroll position. However, some subclasses may choose * to use these fields as special offsets.

* * @param dx horizontal distance scrolled in pixels * @param dy vertical distance scrolled in pixels */ public void onScrolled(int dx, int dy) { // Do nothing } void dispatchOnScrolled(int hresult, int vresult) { mDispatchScrollCounter ++; // Pass the current scrollX/scrollY values; no actual change in these properties occurred // but some general-purpose code may choose to respond to changes this way. final int scrollX = getScrollX(); final int scrollY = getScrollY(); onScrollChanged(scrollX, scrollY, scrollX, scrollY); // Pass the real deltas to onScrolled, the RecyclerView-specific method. onScrolled(hresult, vresult); // Invoke listeners last. Subclassed view methods always handle the event first. // All internal state is consistent by the time listeners are invoked. if (mScrollListener != null) { mScrollListener.onScrolled(this, hresult, vresult); } if (mScrollListeners != null) { for (int i = mScrollListeners.size() - 1; i >= 0; i--) { mScrollListeners.get(i).onScrolled(this, hresult, vresult); } } mDispatchScrollCounter --; } /** * Called when the scroll state of this RecyclerView changes. Subclasses should use this * method to respond to state changes instead of an explicit listener. * *

This method will always be invoked before listeners, but after the LayoutManager * responds to the scroll state change.

* * @param state the new scroll state, one of {@link #SCROLL_STATE_IDLE}, * {@link #SCROLL_STATE_DRAGGING} or {@link #SCROLL_STATE_SETTLING} */ public void onScrollStateChanged(int state) { // Do nothing } void dispatchOnScrollStateChanged(int state) { // Let the LayoutManager go first; this allows it to bring any properties into // a consistent state before the RecyclerView subclass responds. if (mLayout != null) { mLayout.onScrollStateChanged(state); } // Let the RecyclerView subclass handle this event next; any LayoutManager property // changes will be reflected by this time. onScrollStateChanged(state); // Listeners go last. All other internal state is consistent by this point. if (mScrollListener != null) { mScrollListener.onScrollStateChanged(this, state); } if (mScrollListeners != null) { for (int i = mScrollListeners.size() - 1; i >= 0; i--) { mScrollListeners.get(i).onScrollStateChanged(this, state); } } } /** * Returns whether there are pending adapter updates which are not yet applied to the layout. *

* If this method returns true, it means that what user is currently seeing may not * reflect them adapter contents (depending on what has changed). * You may use this information to defer or cancel some operations. *

* This method returns true if RecyclerView has not yet calculated the first layout after it is * attached to the Window or the Adapter has been replaced. * * @return True if there are some adapter updates which are not yet reflected to layout or false * if layout is up to date. */ public boolean hasPendingAdapterUpdates() { return !mFirstLayoutComplete || mDataSetHasChangedAfterLayout || mAdapterHelper.hasPendingUpdates(); } /** * Runs prefetch work immediately after a traversal, in the downtime while the UI thread is * waiting for VSYNC. */ class ViewPrefetcher implements Runnable { long mPostTimeNanos; private int mDx; private int mDy; int[] mItemPrefetchArray; /** * Schedule a prefetch immediately after the current traversal. */ public void postFromTraversal(int dx, int dy) { if (ALLOW_PREFETCHING && mAdapter != null && mLayout != null && mLayout.getItemPrefetchCount() > 0) { mDx = dx; mDy = dy; mPostTimeNanos = System.nanoTime(); RecyclerView.this.post(this); } } public boolean lastPrefetchIncludedPosition(int position) { if (mItemPrefetchArray != null) { for (int i = 0; i < mItemPrefetchArray.length; i++) { if (mItemPrefetchArray[i] == position) return true; } } return false; } /** * Called when prefetch indices are no longer valid for cache prioritization. */ public void clearPrefetchPositions() { if (mItemPrefetchArray != null) { Arrays.fill(mItemPrefetchArray, -1); } } @Override public void run() { try { TraceCompat.beginSection(TRACE_PREFETCH_TAG); final int prefetchCount = mLayout.getItemPrefetchCount(); if (mAdapter == null || mLayout == null || !mLayout.isItemPrefetchEnabled() || prefetchCount < 1 || hasPendingAdapterUpdates()) { // abort - no work return; } // Query last vsync so we can predict next one. Note that drawing time not yet // valid in animation/input callbacks, so query it here to be safe. long lastFrameVsyncNanos = TimeUnit.MILLISECONDS.toNanos(getDrawingTime()); if (lastFrameVsyncNanos == 0 || sFrameIntervalNanos == 0) { // abort - couldn't get info for estimating next vsync return; } long nowNanos = System.nanoTime(); long nextFrameNanos = lastFrameVsyncNanos + sFrameIntervalNanos; if (nowNanos - mPostTimeNanos > sFrameIntervalNanos || nextFrameNanos - nowNanos < MIN_PREFETCH_TIME_NANOS) { // abort - Executing either too far after post, or too near next scheduled vsync return; } if (mItemPrefetchArray == null || mItemPrefetchArray.length < prefetchCount) { mItemPrefetchArray = new int[prefetchCount]; } Arrays.fill(mItemPrefetchArray, -1); int viewCount = mLayout.gatherPrefetchIndices(mDx, mDy, mState, mItemPrefetchArray); mRecycler.prefetch(mItemPrefetchArray, viewCount); } finally { TraceCompat.endSection(); } } } private class ViewFlinger implements Runnable { private int mLastFlingX; private int mLastFlingY; private ScrollerCompat mScroller; private Interpolator mInterpolator = sQuinticInterpolator; // When set to true, postOnAnimation callbacks are delayed until the run method completes private boolean mEatRunOnAnimationRequest = false; // Tracks if postAnimationCallback should be re-attached when it is done private boolean mReSchedulePostAnimationCallback = false; public ViewFlinger() { mScroller = ScrollerCompat.create(getContext(), sQuinticInterpolator); } @Override public void run() { if (mLayout == null) { stop(); return; // no layout, cannot scroll. } disableRunOnAnimationRequests(); consumePendingUpdateOperations(); // keep a local reference so that if it is changed during onAnimation method, it won't // cause unexpected behaviors final ScrollerCompat scroller = mScroller; final SmoothScroller smoothScroller = mLayout.mSmoothScroller; if (scroller.computeScrollOffset()) { final int x = scroller.getCurrX(); final int y = scroller.getCurrY(); final int dx = x - mLastFlingX; final int dy = y - mLastFlingY; int hresult = 0; int vresult = 0; mLastFlingX = x; mLastFlingY = y; int overscrollX = 0, overscrollY = 0; if (mAdapter != null) { eatRequestLayout(); onEnterLayoutOrScroll(); TraceCompat.beginSection(TRACE_SCROLL_TAG); if (dx != 0) { hresult = mLayout.scrollHorizontallyBy(dx, mRecycler, mState); overscrollX = dx - hresult; } if (dy != 0) { vresult = mLayout.scrollVerticallyBy(dy, mRecycler, mState); overscrollY = dy - vresult; } TraceCompat.endSection(); repositionShadowingViews(); onExitLayoutOrScroll(); resumeRequestLayout(false); if (smoothScroller != null && !smoothScroller.isPendingInitialRun() && smoothScroller.isRunning()) { final int adapterSize = mState.getItemCount(); if (adapterSize == 0) { smoothScroller.stop(); } else if (smoothScroller.getTargetPosition() >= adapterSize) { smoothScroller.setTargetPosition(adapterSize - 1); smoothScroller.onAnimation(dx - overscrollX, dy - overscrollY); } else { smoothScroller.onAnimation(dx - overscrollX, dy - overscrollY); } } } if (!mItemDecorations.isEmpty()) { invalidate(); } if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { considerReleasingGlowsOnScroll(dx, dy); } if (overscrollX != 0 || overscrollY != 0) { final int vel = (int) scroller.getCurrVelocity(); int velX = 0; if (overscrollX != x) { velX = overscrollX < 0 ? -vel : overscrollX > 0 ? vel : 0; } int velY = 0; if (overscrollY != y) { velY = overscrollY < 0 ? -vel : overscrollY > 0 ? vel : 0; } if (getOverScrollMode() != View.OVER_SCROLL_NEVER) { absorbGlows(velX, velY); } if ((velX != 0 || overscrollX == x || scroller.getFinalX() == 0) && (velY != 0 || overscrollY == y || scroller.getFinalY() == 0)) { scroller.abortAnimation(); } } if (hresult != 0 || vresult != 0) { dispatchOnScrolled(hresult, vresult); } if (!awakenScrollBars()) { invalidate(); } final boolean fullyConsumedVertical = dy != 0 && mLayout.canScrollVertically() && vresult == dy; final boolean fullyConsumedHorizontal = dx != 0 && mLayout.canScrollHorizontally() && hresult == dx; final boolean fullyConsumedAny = (dx == 0 && dy == 0) || fullyConsumedHorizontal || fullyConsumedVertical; if (scroller.isFinished() || !fullyConsumedAny) { setScrollState(SCROLL_STATE_IDLE); // setting state to idle will stop this. if (ALLOW_PREFETCHING) { mViewPrefetcher.clearPrefetchPositions(); } } else { postOnAnimation(); if (ALLOW_PREFETCHING) { mViewPrefetcher.postFromTraversal(dx, dy); } } } // call this after the onAnimation is complete not to have inconsistent callbacks etc. if (smoothScroller != null) { if (smoothScroller.isPendingInitialRun()) { smoothScroller.onAnimation(0, 0); } if (!mReSchedulePostAnimationCallback) { smoothScroller.stop(); //stop if it does not trigger any scroll } } enableRunOnAnimationRequests(); } private void disableRunOnAnimationRequests() { mReSchedulePostAnimationCallback = false; mEatRunOnAnimationRequest = true; } private void enableRunOnAnimationRequests() { mEatRunOnAnimationRequest = false; if (mReSchedulePostAnimationCallback) { postOnAnimation(); } } void postOnAnimation() { if (mEatRunOnAnimationRequest) { mReSchedulePostAnimationCallback = true; } else { removeCallbacks(this); ViewCompat.postOnAnimation(RecyclerView.this, this); } } public void fling(int velocityX, int velocityY) { setScrollState(SCROLL_STATE_SETTLING); mLastFlingX = mLastFlingY = 0; mScroller.fling(0, 0, velocityX, velocityY, Integer.MIN_VALUE, Integer.MAX_VALUE, Integer.MIN_VALUE, Integer.MAX_VALUE); postOnAnimation(); } public void smoothScrollBy(int dx, int dy) { smoothScrollBy(dx, dy, 0, 0); } public void smoothScrollBy(int dx, int dy, int vx, int vy) { smoothScrollBy(dx, dy, computeScrollDuration(dx, dy, vx, vy)); } private float distanceInfluenceForSnapDuration(float f) { f -= 0.5f; // center the values about 0. f *= 0.3f * Math.PI / 2.0f; return (float) Math.sin(f); } private int computeScrollDuration(int dx, int dy, int vx, int vy) { final int absDx = Math.abs(dx); final int absDy = Math.abs(dy); final boolean horizontal = absDx > absDy; final int velocity = (int) Math.sqrt(vx * vx + vy * vy); final int delta = (int) Math.sqrt(dx * dx + dy * dy); final int containerSize = horizontal ? getWidth() : getHeight(); final int halfContainerSize = containerSize / 2; final float distanceRatio = Math.min(1.f, 1.f * delta / containerSize); final float distance = halfContainerSize + halfContainerSize * distanceInfluenceForSnapDuration(distanceRatio); final int duration; if (velocity > 0) { duration = 4 * Math.round(1000 * Math.abs(distance / velocity)); } else { float absDelta = (float) (horizontal ? absDx : absDy); duration = (int) (((absDelta / containerSize) + 1) * 300); } return Math.min(duration, MAX_SCROLL_DURATION); } public void smoothScrollBy(int dx, int dy, int duration) { smoothScrollBy(dx, dy, duration, sQuinticInterpolator); } public void smoothScrollBy(int dx, int dy, int duration, Interpolator interpolator) { if (mInterpolator != interpolator) { mInterpolator = interpolator; mScroller = ScrollerCompat.create(getContext(), interpolator); } setScrollState(SCROLL_STATE_SETTLING); mLastFlingX = mLastFlingY = 0; mScroller.startScroll(0, 0, dx, dy, duration); postOnAnimation(); } public void stop() { removeCallbacks(this); mScroller.abortAnimation(); } } void repositionShadowingViews() { // Fix up shadow views used by change animations int count = mChildHelper.getChildCount(); for (int i = 0; i < count; i++) { View view = mChildHelper.getChildAt(i); ViewHolder holder = getChildViewHolder(view); if (holder != null && holder.mShadowingHolder != null) { View shadowingView = holder.mShadowingHolder.itemView; int left = view.getLeft(); int top = view.getTop(); if (left != shadowingView.getLeft() || top != shadowingView.getTop()) { shadowingView.layout(left, top, left + shadowingView.getWidth(), top + shadowingView.getHeight()); } } } } private class RecyclerViewDataObserver extends AdapterDataObserver { RecyclerViewDataObserver() { } @Override public void onChanged() { assertNotInLayoutOrScroll(null); if (mAdapter.hasStableIds()) { // TODO Determine what actually changed. // This is more important to implement now since this callback will disable all // animations because we cannot rely on positions. mState.mStructureChanged = true; setDataSetChangedAfterLayout(); } else { mState.mStructureChanged = true; setDataSetChangedAfterLayout(); } if (!mAdapterHelper.hasPendingUpdates()) { requestLayout(); } } @Override public void onItemRangeChanged(int positionStart, int itemCount, Object payload) { assertNotInLayoutOrScroll(null); if (mAdapterHelper.onItemRangeChanged(positionStart, itemCount, payload)) { triggerUpdateProcessor(); } } @Override public void onItemRangeInserted(int positionStart, int itemCount) { assertNotInLayoutOrScroll(null); if (mAdapterHelper.onItemRangeInserted(positionStart, itemCount)) { triggerUpdateProcessor(); } } @Override public void onItemRangeRemoved(int positionStart, int itemCount) { assertNotInLayoutOrScroll(null); if (mAdapterHelper.onItemRangeRemoved(positionStart, itemCount)) { triggerUpdateProcessor(); } } @Override public void onItemRangeMoved(int fromPosition, int toPosition, int itemCount) { assertNotInLayoutOrScroll(null); if (mAdapterHelper.onItemRangeMoved(fromPosition, toPosition, itemCount)) { triggerUpdateProcessor(); } } void triggerUpdateProcessor() { if (POST_UPDATES_ON_ANIMATION && mHasFixedSize && mIsAttached) { ViewCompat.postOnAnimation(RecyclerView.this, mUpdateChildViewsRunnable); } else { mAdapterUpdateDuringMeasure = true; requestLayout(); } } } /** * RecycledViewPool lets you share Views between multiple RecyclerViews. *

* If you want to recycle views across RecyclerViews, create an instance of RecycledViewPool * and use {@link RecyclerView#setRecycledViewPool(RecycledViewPool)}. *

* RecyclerView automatically creates a pool for itself if you don't provide one. * */ public static class RecycledViewPool { private SparseArray> mScrap = new SparseArray>(); private SparseIntArray mMaxScrap = new SparseIntArray(); private int mAttachCount = 0; private static final int DEFAULT_MAX_SCRAP = 5; public void clear() { mScrap.clear(); } public void setMaxRecycledViews(int viewType, int max) { mMaxScrap.put(viewType, max); final ArrayList scrapHeap = mScrap.get(viewType); if (scrapHeap != null) { while (scrapHeap.size() > max) { scrapHeap.remove(scrapHeap.size() - 1); } } } public ViewHolder getRecycledView(int viewType) { final ArrayList scrapHeap = mScrap.get(viewType); if (scrapHeap != null && !scrapHeap.isEmpty()) { final int index = scrapHeap.size() - 1; final ViewHolder scrap = scrapHeap.get(index); scrapHeap.remove(index); return scrap; } return null; } int size() { int count = 0; for (int i = 0; i < mScrap.size(); i ++) { ArrayList viewHolders = mScrap.valueAt(i); if (viewHolders != null) { count += viewHolders.size(); } } return count; } public void putRecycledView(ViewHolder scrap) { final int viewType = scrap.getItemViewType(); final ArrayList scrapHeap = getScrapHeapForType(viewType); if (mMaxScrap.get(viewType) <= scrapHeap.size()) { return; } if (DEBUG && scrapHeap.contains(scrap)) { throw new IllegalArgumentException("this scrap item already exists"); } scrap.resetInternal(); scrapHeap.add(scrap); } void attach(Adapter adapter) { mAttachCount++; } void detach() { mAttachCount--; } /** * Detaches the old adapter and attaches the new one. *

* RecycledViewPool will clear its cache if it has only one adapter attached and the new * adapter uses a different ViewHolder than the oldAdapter. * * @param oldAdapter The previous adapter instance. Will be detached. * @param newAdapter The new adapter instance. Will be attached. * @param compatibleWithPrevious True if both oldAdapter and newAdapter are using the same * ViewHolder and view types. */ void onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, boolean compatibleWithPrevious) { if (oldAdapter != null) { detach(); } if (!compatibleWithPrevious && mAttachCount == 0) { clear(); } if (newAdapter != null) { attach(newAdapter); } } private ArrayList getScrapHeapForType(int viewType) { ArrayList scrap = mScrap.get(viewType); if (scrap == null) { scrap = new ArrayList<>(); mScrap.put(viewType, scrap); if (mMaxScrap.indexOfKey(viewType) < 0) { mMaxScrap.put(viewType, DEFAULT_MAX_SCRAP); } } return scrap; } } /** * A Recycler is responsible for managing scrapped or detached item views for reuse. * *

A "scrapped" view is a view that is still attached to its parent RecyclerView but * that has been marked for removal or reuse.

* *

Typical use of a Recycler by a {@link LayoutManager} will be to obtain views for * an adapter's data set representing the data at a given position or item ID. * If the view to be reused is considered "dirty" the adapter will be asked to rebind it. * If not, the view can be quickly reused by the LayoutManager with no further work. * Clean views that have not {@link android.view.View#isLayoutRequested() requested layout} * may be repositioned by a LayoutManager without remeasurement.

*/ public final class Recycler { final ArrayList mAttachedScrap = new ArrayList<>(); ArrayList mChangedScrap = null; final ArrayList mCachedViews = new ArrayList(); private final List mUnmodifiableAttachedScrap = Collections.unmodifiableList(mAttachedScrap); private int mRequestedCacheMax = DEFAULT_CACHE_SIZE; int mViewCacheMax = DEFAULT_CACHE_SIZE; private RecycledViewPool mRecyclerPool; private ViewCacheExtension mViewCacheExtension; static final int DEFAULT_CACHE_SIZE = 2; /** * Clear scrap views out of this recycler. Detached views contained within a * recycled view pool will remain. */ public void clear() { mAttachedScrap.clear(); recycleAndClearCachedViews(); } /** * Set the maximum number of detached, valid views we should retain for later use. * * @param viewCount Number of views to keep before sending views to the shared pool */ public void setViewCacheSize(int viewCount) { mRequestedCacheMax = viewCount; updateViewCacheSize(); } void updateViewCacheSize() { int extraCache = 0; if (mLayout != null && ALLOW_PREFETCHING) { extraCache = mLayout.isItemPrefetchEnabled() ? mLayout.getItemPrefetchCount() : 0; } mViewCacheMax = mRequestedCacheMax + extraCache; // first, try the views that can be recycled for (int i = mCachedViews.size() - 1; i >= 0 && mCachedViews.size() > mViewCacheMax; i--) { recycleCachedViewAt(i); } } /** * Returns an unmodifiable list of ViewHolders that are currently in the scrap list. * * @return List of ViewHolders in the scrap list. */ public List getScrapList() { return mUnmodifiableAttachedScrap; } /** * Helper method for getViewForPosition. *

* Checks whether a given view holder can be used for the provided position. * * @param holder ViewHolder * @return true if ViewHolder matches the provided position, false otherwise */ boolean validateViewHolderForOffsetPosition(ViewHolder holder) { // if it is a removed holder, nothing to verify since we cannot ask adapter anymore // if it is not removed, verify the type and id. if (holder.isRemoved()) { if (DEBUG && !mState.isPreLayout()) { throw new IllegalStateException("should not receive a removed view unless it" + " is pre layout"); } return mState.isPreLayout(); } if (holder.mPosition < 0 || holder.mPosition >= mAdapter.getItemCount()) { throw new IndexOutOfBoundsException("Inconsistency detected. Invalid view holder " + "adapter position" + holder); } if (!mState.isPreLayout()) { // don't check type if it is pre-layout. final int type = mAdapter.getItemViewType(holder.mPosition); if (type != holder.getItemViewType()) { return false; } } if (mAdapter.hasStableIds()) { return holder.getItemId() == mAdapter.getItemId(holder.mPosition); } return true; } /** * Binds the given View to the position. The View can be a View previously retrieved via * {@link #getViewForPosition(int)} or created by * {@link Adapter#onCreateViewHolder(ViewGroup, int)}. *

* Generally, a LayoutManager should acquire its views via {@link #getViewForPosition(int)} * and let the RecyclerView handle caching. This is a helper method for LayoutManager who * wants to handle its own recycling logic. *

* Note that, {@link #getViewForPosition(int)} already binds the View to the position so * you don't need to call this method unless you want to bind this View to another position. * * @param view The view to update. * @param position The position of the item to bind to this View. */ public void bindViewToPosition(View view, int position) { ViewHolder holder = getChildViewHolderInt(view); if (holder == null) { throw new IllegalArgumentException("The view does not have a ViewHolder. You cannot" + " pass arbitrary views to this method, they should be created by the " + "Adapter"); } final int offsetPosition = mAdapterHelper.findPositionOffset(position); if (offsetPosition < 0 || offsetPosition >= mAdapter.getItemCount()) { throw new IndexOutOfBoundsException("Inconsistency detected. Invalid item " + "position " + position + "(offset:" + offsetPosition + ")." + "state:" + mState.getItemCount()); } holder.mOwnerRecyclerView = RecyclerView.this; mAdapter.bindViewHolder(holder, offsetPosition); attachAccessibilityDelegate(view); if (mState.isPreLayout()) { holder.mPreLayoutPosition = position; } final ViewGroup.LayoutParams lp = holder.itemView.getLayoutParams(); final LayoutParams rvLayoutParams; if (lp == null) { rvLayoutParams = (LayoutParams) generateDefaultLayoutParams(); holder.itemView.setLayoutParams(rvLayoutParams); } else if (!checkLayoutParams(lp)) { rvLayoutParams = (LayoutParams) generateLayoutParams(lp); holder.itemView.setLayoutParams(rvLayoutParams); } else { rvLayoutParams = (LayoutParams) lp; } rvLayoutParams.mInsetsDirty = true; rvLayoutParams.mViewHolder = holder; rvLayoutParams.mPendingInvalidate = holder.itemView.getParent() == null; } /** * RecyclerView provides artificial position range (item count) in pre-layout state and * automatically maps these positions to {@link Adapter} positions when * {@link #getViewForPosition(int)} or {@link #bindViewToPosition(View, int)} is called. *

* Usually, LayoutManager does not need to worry about this. However, in some cases, your * LayoutManager may need to call some custom component with item positions in which * case you need the actual adapter position instead of the pre layout position. You * can use this method to convert a pre-layout position to adapter (post layout) position. *

* Note that if the provided position belongs to a deleted ViewHolder, this method will * return -1. *

* Calling this method in post-layout state returns the same value back. * * @param position The pre-layout position to convert. Must be greater or equal to 0 and * less than {@link State#getItemCount()}. */ public int convertPreLayoutPositionToPostLayout(int position) { if (position < 0 || position >= mState.getItemCount()) { throw new IndexOutOfBoundsException("invalid position " + position + ". State " + "item count is " + mState.getItemCount()); } if (!mState.isPreLayout()) { return position; } return mAdapterHelper.findPositionOffset(position); } /** * Obtain a view initialized for the given position. * * This method should be used by {@link LayoutManager} implementations to obtain * views to represent data from an {@link Adapter}. *

* The Recycler may reuse a scrap or detached view from a shared pool if one is * available for the correct view type. If the adapter has not indicated that the * data at the given position has changed, the Recycler will attempt to hand back * a scrap view that was previously initialized for that data without rebinding. * * @param position Position to obtain a view for * @return A view representing the data at position from adapter */ public View getViewForPosition(int position) { return getViewForPosition(position, false); } View getViewForPosition(int position, boolean dryRun) { if (position < 0 || position >= mState.getItemCount()) { throw new IndexOutOfBoundsException("Invalid item position " + position + "(" + position + "). Item count:" + mState.getItemCount()); } boolean fromScrap = false; ViewHolder holder = null; // 0) If there is a changed scrap, try to find from there if (mState.isPreLayout()) { holder = getChangedScrapViewForPosition(position); fromScrap = holder != null; } // 1) Find from scrap by position if (holder == null) { holder = getScrapViewForPosition(position, INVALID_TYPE, dryRun); if (holder != null) { if (!validateViewHolderForOffsetPosition(holder)) { // recycle this scrap if (!dryRun) { // we would like to recycle this but need to make sure it is not used by // animation logic etc. holder.addFlags(ViewHolder.FLAG_INVALID); if (holder.isScrap()) { removeDetachedView(holder.itemView, false); holder.unScrap(); } else if (holder.wasReturnedFromScrap()) { holder.clearReturnedFromScrapFlag(); } recycleViewHolderInternal(holder); } holder = null; } else { fromScrap = true; } } } if (holder == null) { final int offsetPosition = mAdapterHelper.findPositionOffset(position); if (offsetPosition < 0 || offsetPosition >= mAdapter.getItemCount()) { throw new IndexOutOfBoundsException("Inconsistency detected. Invalid item " + "position " + position + "(offset:" + offsetPosition + ")." + "state:" + mState.getItemCount()); } final int type = mAdapter.getItemViewType(offsetPosition); // 2) Find from scrap via stable ids, if exists if (mAdapter.hasStableIds()) { holder = getScrapViewForId(mAdapter.getItemId(offsetPosition), type, dryRun); if (holder != null) { // update position holder.mPosition = offsetPosition; fromScrap = true; } } if (holder == null && mViewCacheExtension != null) { // We are NOT sending the offsetPosition because LayoutManager does not // know it. final View view = mViewCacheExtension .getViewForPositionAndType(this, position, type); if (view != null) { holder = getChildViewHolder(view); if (holder == null) { throw new IllegalArgumentException("getViewForPositionAndType returned" + " a view which does not have a ViewHolder"); } else if (holder.shouldIgnore()) { throw new IllegalArgumentException("getViewForPositionAndType returned" + " a view that is ignored. You must call stopIgnoring before" + " returning this view."); } } } if (holder == null) { // fallback to recycler // try recycler. // Head to the shared pool. if (DEBUG) { Log.d(TAG, "getViewForPosition(" + position + ") fetching from shared " + "pool"); } holder = getRecycledViewPool().getRecycledView(type); if (holder != null) { holder.resetInternal(); if (FORCE_INVALIDATE_DISPLAY_LIST) { invalidateDisplayListInt(holder); } } } if (holder == null) { holder = mAdapter.createViewHolder(RecyclerView.this, type); if (DEBUG) { Log.d(TAG, "getViewForPosition created new ViewHolder"); } } } // This is very ugly but the only place we can grab this information // before the View is rebound and returned to the LayoutManager for post layout ops. // We don't need this in pre-layout since the VH is not updated by the LM. if (fromScrap && !mState.isPreLayout() && holder .hasAnyOfTheFlags(ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST)) { holder.setFlags(0, ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); if (mState.mRunSimpleAnimations) { int changeFlags = ItemAnimator .buildAdapterChangeFlagsForAnimations(holder); changeFlags |= ItemAnimator.FLAG_APPEARED_IN_PRE_LAYOUT; final ItemHolderInfo info = mItemAnimator.recordPreLayoutInformation(mState, holder, changeFlags, holder.getUnmodifiedPayloads()); recordAnimationInfoIfBouncedHiddenView(holder, info); } } boolean bound = false; if (mState.isPreLayout() && holder.isBound()) { // do not update unless we absolutely have to. holder.mPreLayoutPosition = position; } else if (!holder.isBound() || holder.needsUpdate() || holder.isInvalid()) { if (DEBUG && holder.isRemoved()) { throw new IllegalStateException("Removed holder should be bound and it should" + " come here only in pre-layout. Holder: " + holder); } final int offsetPosition = mAdapterHelper.findPositionOffset(position); holder.mOwnerRecyclerView = RecyclerView.this; mAdapter.bindViewHolder(holder, offsetPosition); attachAccessibilityDelegate(holder.itemView); bound = true; if (mState.isPreLayout()) { holder.mPreLayoutPosition = position; } } final ViewGroup.LayoutParams lp = holder.itemView.getLayoutParams(); final LayoutParams rvLayoutParams; if (lp == null) { rvLayoutParams = (LayoutParams) generateDefaultLayoutParams(); holder.itemView.setLayoutParams(rvLayoutParams); } else if (!checkLayoutParams(lp)) { rvLayoutParams = (LayoutParams) generateLayoutParams(lp); holder.itemView.setLayoutParams(rvLayoutParams); } else { rvLayoutParams = (LayoutParams) lp; } rvLayoutParams.mViewHolder = holder; rvLayoutParams.mPendingInvalidate = fromScrap && bound; return holder.itemView; } private void attachAccessibilityDelegate(View itemView) { if (isAccessibilityEnabled()) { if (ViewCompat.getImportantForAccessibility(itemView) == ViewCompat.IMPORTANT_FOR_ACCESSIBILITY_AUTO) { ViewCompat.setImportantForAccessibility(itemView, ViewCompat.IMPORTANT_FOR_ACCESSIBILITY_YES); } if (!ViewCompat.hasAccessibilityDelegate(itemView)) { ViewCompat.setAccessibilityDelegate(itemView, mAccessibilityDelegate.getItemDelegate()); } } } private void invalidateDisplayListInt(ViewHolder holder) { if (holder.itemView instanceof ViewGroup) { invalidateDisplayListInt((ViewGroup) holder.itemView, false); } } private void invalidateDisplayListInt(ViewGroup viewGroup, boolean invalidateThis) { for (int i = viewGroup.getChildCount() - 1; i >= 0; i--) { final View view = viewGroup.getChildAt(i); if (view instanceof ViewGroup) { invalidateDisplayListInt((ViewGroup) view, true); } } if (!invalidateThis) { return; } // we need to force it to become invisible if (viewGroup.getVisibility() == View.INVISIBLE) { viewGroup.setVisibility(View.VISIBLE); viewGroup.setVisibility(View.INVISIBLE); } else { final int visibility = viewGroup.getVisibility(); viewGroup.setVisibility(View.INVISIBLE); viewGroup.setVisibility(visibility); } } /** * Recycle a detached view. The specified view will be added to a pool of views * for later rebinding and reuse. * *

A view must be fully detached (removed from parent) before it may be recycled. If the * View is scrapped, it will be removed from scrap list.

* * @param view Removed view for recycling * @see LayoutManager#removeAndRecycleView(View, Recycler) */ public void recycleView(View view) { // This public recycle method tries to make view recycle-able since layout manager // intended to recycle this view (e.g. even if it is in scrap or change cache) ViewHolder holder = getChildViewHolderInt(view); if (holder.isTmpDetached()) { removeDetachedView(view, false); } if (holder.isScrap()) { holder.unScrap(); } else if (holder.wasReturnedFromScrap()){ holder.clearReturnedFromScrapFlag(); } recycleViewHolderInternal(holder); } /** * Internally, use this method instead of {@link #recycleView(android.view.View)} to * catch potential bugs. * @param view */ void recycleViewInternal(View view) { recycleViewHolderInternal(getChildViewHolderInt(view)); } void recycleAndClearCachedViews() { final int count = mCachedViews.size(); for (int i = count - 1; i >= 0; i--) { recycleCachedViewAt(i); } mCachedViews.clear(); if (ALLOW_PREFETCHING) { mViewPrefetcher.clearPrefetchPositions(); } } /** * Recycles a cached view and removes the view from the list. Views are added to cache * if and only if they are recyclable, so this method does not check it again. *

* A small exception to this rule is when the view does not have an animator reference * but transient state is true (due to animations created outside ItemAnimator). In that * case, adapter may choose to recycle it. From RecyclerView's perspective, the view is * still recyclable since Adapter wants to do so. * * @param cachedViewIndex The index of the view in cached views list */ void recycleCachedViewAt(int cachedViewIndex) { if (DEBUG) { Log.d(TAG, "Recycling cached view at index " + cachedViewIndex); } ViewHolder viewHolder = mCachedViews.get(cachedViewIndex); if (DEBUG) { Log.d(TAG, "CachedViewHolder to be recycled: " + viewHolder); } addViewHolderToRecycledViewPool(viewHolder); mCachedViews.remove(cachedViewIndex); } /** * internal implementation checks if view is scrapped or attached and throws an exception * if so. * Public version un-scraps before calling recycle. */ void recycleViewHolderInternal(ViewHolder holder) { if (holder.isScrap() || holder.itemView.getParent() != null) { throw new IllegalArgumentException( "Scrapped or attached views may not be recycled. isScrap:" + holder.isScrap() + " isAttached:" + (holder.itemView.getParent() != null)); } if (holder.isTmpDetached()) { throw new IllegalArgumentException("Tmp detached view should be removed " + "from RecyclerView before it can be recycled: " + holder); } if (holder.shouldIgnore()) { throw new IllegalArgumentException("Trying to recycle an ignored view holder. You" + " should first call stopIgnoringView(view) before calling recycle."); } //noinspection unchecked final boolean transientStatePreventsRecycling = holder .doesTransientStatePreventRecycling(); final boolean forceRecycle = mAdapter != null && transientStatePreventsRecycling && mAdapter.onFailedToRecycleView(holder); boolean cached = false; boolean recycled = false; if (DEBUG && mCachedViews.contains(holder)) { throw new IllegalArgumentException("cached view received recycle internal? " + holder); } if (forceRecycle || holder.isRecyclable()) { if (mViewCacheMax > 0 && !holder.hasAnyOfTheFlags(ViewHolder.FLAG_INVALID | ViewHolder.FLAG_REMOVED | ViewHolder.FLAG_UPDATE)) { // Retire oldest cached view int cachedViewSize = mCachedViews.size(); if (cachedViewSize >= mViewCacheMax && cachedViewSize > 0) { recycleCachedViewAt(0); cachedViewSize--; } int targetCacheIndex = cachedViewSize; if (ALLOW_PREFETCHING && cachedViewSize > 0 && !mViewPrefetcher.lastPrefetchIncludedPosition(holder.mPosition)) { // when adding the view, skip past most recently prefetched views int cacheIndex = cachedViewSize - 1; while (cacheIndex >= 0) { int cachedPos = mCachedViews.get(cacheIndex).mPosition; if (!mViewPrefetcher.lastPrefetchIncludedPosition(cachedPos)) { break; } cacheIndex--; } targetCacheIndex = cacheIndex + 1; } mCachedViews.add(targetCacheIndex, holder); cached = true; } if (!cached) { addViewHolderToRecycledViewPool(holder); recycled = true; } } else if (DEBUG) { Log.d(TAG, "trying to recycle a non-recycleable holder. Hopefully, it will " + "re-visit here. We are still removing it from animation lists"); } // even if the holder is not removed, we still call this method so that it is removed // from view holder lists. mViewInfoStore.removeViewHolder(holder); if (!cached && !recycled && transientStatePreventsRecycling) { holder.mOwnerRecyclerView = null; } } void addViewHolderToRecycledViewPool(ViewHolder holder) { ViewCompat.setAccessibilityDelegate(holder.itemView, null); dispatchViewRecycled(holder); holder.mOwnerRecyclerView = null; getRecycledViewPool().putRecycledView(holder); } /** * Used as a fast path for unscrapping and recycling a view during a bulk operation. * The caller must call {@link #clearScrap()} when it's done to update the recycler's * internal bookkeeping. */ void quickRecycleScrapView(View view) { final ViewHolder holder = getChildViewHolderInt(view); holder.mScrapContainer = null; holder.mInChangeScrap = false; holder.clearReturnedFromScrapFlag(); recycleViewHolderInternal(holder); } /** * Mark an attached view as scrap. * *

"Scrap" views are still attached to their parent RecyclerView but are eligible * for rebinding and reuse. Requests for a view for a given position may return a * reused or rebound scrap view instance.

* * @param view View to scrap */ void scrapView(View view) { final ViewHolder holder = getChildViewHolderInt(view); if (holder.hasAnyOfTheFlags(ViewHolder.FLAG_REMOVED | ViewHolder.FLAG_INVALID) || !holder.isUpdated() || canReuseUpdatedViewHolder(holder)) { if (holder.isInvalid() && !holder.isRemoved() && !mAdapter.hasStableIds()) { throw new IllegalArgumentException("Called scrap view with an invalid view." + " Invalid views cannot be reused from scrap, they should rebound from" + " recycler pool."); } holder.setScrapContainer(this, false); mAttachedScrap.add(holder); } else { if (mChangedScrap == null) { mChangedScrap = new ArrayList(); } holder.setScrapContainer(this, true); mChangedScrap.add(holder); } } /** * Remove a previously scrapped view from the pool of eligible scrap. * *

This view will no longer be eligible for reuse until re-scrapped or * until it is explicitly removed and recycled.

*/ void unscrapView(ViewHolder holder) { if (holder.mInChangeScrap) { mChangedScrap.remove(holder); } else { mAttachedScrap.remove(holder); } holder.mScrapContainer = null; holder.mInChangeScrap = false; holder.clearReturnedFromScrapFlag(); } int getScrapCount() { return mAttachedScrap.size(); } View getScrapViewAt(int index) { return mAttachedScrap.get(index).itemView; } void clearScrap() { mAttachedScrap.clear(); if (mChangedScrap != null) { mChangedScrap.clear(); } } ViewHolder getChangedScrapViewForPosition(int position) { // If pre-layout, check the changed scrap for an exact match. final int changedScrapSize; if (mChangedScrap == null || (changedScrapSize = mChangedScrap.size()) == 0) { return null; } // find by position for (int i = 0; i < changedScrapSize; i++) { final ViewHolder holder = mChangedScrap.get(i); if (!holder.wasReturnedFromScrap() && holder.getLayoutPosition() == position) { holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); return holder; } } // find by id if (mAdapter.hasStableIds()) { final int offsetPosition = mAdapterHelper.findPositionOffset(position); if (offsetPosition > 0 && offsetPosition < mAdapter.getItemCount()) { final long id = mAdapter.getItemId(offsetPosition); for (int i = 0; i < changedScrapSize; i++) { final ViewHolder holder = mChangedScrap.get(i); if (!holder.wasReturnedFromScrap() && holder.getItemId() == id) { holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); return holder; } } } } return null; } /** * Returns a scrap view for the position. If type is not INVALID_TYPE, it also checks if * ViewHolder's type matches the provided type. * * @param position Item position * @param type View type * @param dryRun Does a dry run, finds the ViewHolder but does not remove * @return a ViewHolder that can be re-used for this position. */ ViewHolder getScrapViewForPosition(int position, int type, boolean dryRun) { final int scrapCount = mAttachedScrap.size(); // Try first for an exact, non-invalid match from scrap. for (int i = 0; i < scrapCount; i++) { final ViewHolder holder = mAttachedScrap.get(i); if (!holder.wasReturnedFromScrap() && holder.getLayoutPosition() == position && !holder.isInvalid() && (mState.mInPreLayout || !holder.isRemoved())) { if (type != INVALID_TYPE && holder.getItemViewType() != type) { Log.e(TAG, "Scrap view for position " + position + " isn't dirty but has" + " wrong view type! (found " + holder.getItemViewType() + " but expected " + type + ")"); break; } holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); return holder; } } if (!dryRun) { View view = mChildHelper.findHiddenNonRemovedView(position, type); if (view != null) { // This View is good to be used. We just need to unhide, detach and move to the // scrap list. final ViewHolder vh = getChildViewHolderInt(view); mChildHelper.unhide(view); int layoutIndex = mChildHelper.indexOfChild(view); if (layoutIndex == RecyclerView.NO_POSITION) { throw new IllegalStateException("layout index should not be -1 after " + "unhiding a view:" + vh); } mChildHelper.detachViewFromParent(layoutIndex); scrapView(view); vh.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP | ViewHolder.FLAG_BOUNCED_FROM_HIDDEN_LIST); return vh; } } // Search in our first-level recycled view cache. final int cacheSize = mCachedViews.size(); for (int i = 0; i < cacheSize; i++) { final ViewHolder holder = mCachedViews.get(i); // invalid view holders may be in cache if adapter has stable ids as they can be // retrieved via getScrapViewForId if (!holder.isInvalid() && holder.getLayoutPosition() == position) { if (!dryRun) { mCachedViews.remove(i); } if (DEBUG) { Log.d(TAG, "getScrapViewForPosition(" + position + ", " + type + ") found match in cache: " + holder); } return holder; } } return null; } ViewHolder getScrapViewForId(long id, int type, boolean dryRun) { // Look in our attached views first final int count = mAttachedScrap.size(); for (int i = count - 1; i >= 0; i--) { final ViewHolder holder = mAttachedScrap.get(i); if (holder.getItemId() == id && !holder.wasReturnedFromScrap()) { if (type == holder.getItemViewType()) { holder.addFlags(ViewHolder.FLAG_RETURNED_FROM_SCRAP); if (holder.isRemoved()) { // this might be valid in two cases: // > item is removed but we are in pre-layout pass // >> do nothing. return as is. make sure we don't rebind // > item is removed then added to another position and we are in // post layout. // >> remove removed and invalid flags, add update flag to rebind // because item was invisible to us and we don't know what happened in // between. if (!mState.isPreLayout()) { holder.setFlags(ViewHolder.FLAG_UPDATE, ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID | ViewHolder.FLAG_REMOVED); } } return holder; } else if (!dryRun) { // if we are running animations, it is actually better to keep it in scrap // but this would force layout manager to lay it out which would be bad. // Recycle this scrap. Type mismatch. mAttachedScrap.remove(i); removeDetachedView(holder.itemView, false); quickRecycleScrapView(holder.itemView); } } } // Search the first-level cache final int cacheSize = mCachedViews.size(); for (int i = cacheSize - 1; i >= 0; i--) { final ViewHolder holder = mCachedViews.get(i); if (holder.getItemId() == id) { if (type == holder.getItemViewType()) { if (!dryRun) { mCachedViews.remove(i); } return holder; } else if (!dryRun) { recycleCachedViewAt(i); } } } return null; } void dispatchViewRecycled(ViewHolder holder) { if (mRecyclerListener != null) { mRecyclerListener.onViewRecycled(holder); } if (mAdapter != null) { mAdapter.onViewRecycled(holder); } if (mState != null) { mViewInfoStore.removeViewHolder(holder); } if (DEBUG) Log.d(TAG, "dispatchViewRecycled: " + holder); } void onAdapterChanged(Adapter oldAdapter, Adapter newAdapter, boolean compatibleWithPrevious) { clear(); getRecycledViewPool().onAdapterChanged(oldAdapter, newAdapter, compatibleWithPrevious); } void offsetPositionRecordsForMove(int from, int to) { final int start, end, inBetweenOffset; if (from < to) { start = from; end = to; inBetweenOffset = -1; } else { start = to; end = from; inBetweenOffset = 1; } final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); if (holder == null || holder.mPosition < start || holder.mPosition > end) { continue; } if (holder.mPosition == from) { holder.offsetPosition(to - from, false); } else { holder.offsetPosition(inBetweenOffset, false); } if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForMove cached child " + i + " holder " + holder); } } } void offsetPositionRecordsForInsert(int insertedAt, int count) { final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); if (holder != null && holder.mPosition >= insertedAt) { if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForInsert cached " + i + " holder " + holder + " now at position " + (holder.mPosition + count)); } holder.offsetPosition(count, true); } } } /** * @param removedFrom Remove start index * @param count Remove count * @param applyToPreLayout If true, changes will affect ViewHolder's pre-layout position, if * false, they'll be applied before the second layout pass */ void offsetPositionRecordsForRemove(int removedFrom, int count, boolean applyToPreLayout) { final int removedEnd = removedFrom + count; final int cachedCount = mCachedViews.size(); for (int i = cachedCount - 1; i >= 0; i--) { final ViewHolder holder = mCachedViews.get(i); if (holder != null) { if (holder.mPosition >= removedEnd) { if (DEBUG) { Log.d(TAG, "offsetPositionRecordsForRemove cached " + i + " holder " + holder + " now at position " + (holder.mPosition - count)); } holder.offsetPosition(-count, applyToPreLayout); } else if (holder.mPosition >= removedFrom) { // Item for this view was removed. Dump it from the cache. holder.addFlags(ViewHolder.FLAG_REMOVED); recycleCachedViewAt(i); } } } } void setViewCacheExtension(ViewCacheExtension extension) { mViewCacheExtension = extension; } void setRecycledViewPool(RecycledViewPool pool) { if (mRecyclerPool != null) { mRecyclerPool.detach(); } mRecyclerPool = pool; if (pool != null) { mRecyclerPool.attach(getAdapter()); } } RecycledViewPool getRecycledViewPool() { if (mRecyclerPool == null) { mRecyclerPool = new RecycledViewPool(); } return mRecyclerPool; } void viewRangeUpdate(int positionStart, int itemCount) { final int positionEnd = positionStart + itemCount; final int cachedCount = mCachedViews.size(); for (int i = cachedCount - 1; i >= 0; i--) { final ViewHolder holder = mCachedViews.get(i); if (holder == null) { continue; } final int pos = holder.getLayoutPosition(); if (pos >= positionStart && pos < positionEnd) { holder.addFlags(ViewHolder.FLAG_UPDATE); recycleCachedViewAt(i); // cached views should not be flagged as changed because this will cause them // to animate when they are returned from cache. } } } void setAdapterPositionsAsUnknown() { final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); if (holder != null) { holder.addFlags(ViewHolder.FLAG_ADAPTER_POSITION_UNKNOWN); } } } void markKnownViewsInvalid() { if (mAdapter != null && mAdapter.hasStableIds()) { final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); if (holder != null) { holder.addFlags(ViewHolder.FLAG_UPDATE | ViewHolder.FLAG_INVALID); holder.addChangePayload(null); } } } else { // we cannot re-use cached views in this case. Recycle them all recycleAndClearCachedViews(); } } void clearOldPositions() { final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); holder.clearOldPosition(); } final int scrapCount = mAttachedScrap.size(); for (int i = 0; i < scrapCount; i++) { mAttachedScrap.get(i).clearOldPosition(); } if (mChangedScrap != null) { final int changedScrapCount = mChangedScrap.size(); for (int i = 0; i < changedScrapCount; i++) { mChangedScrap.get(i).clearOldPosition(); } } } void markItemDecorInsetsDirty() { final int cachedCount = mCachedViews.size(); for (int i = 0; i < cachedCount; i++) { final ViewHolder holder = mCachedViews.get(i); LayoutParams layoutParams = (LayoutParams) holder.itemView.getLayoutParams(); if (layoutParams != null) { layoutParams.mInsetsDirty = true; } } } boolean isPrefetchPositionAttached(int position) { final int childCount = mChildHelper.getUnfilteredChildCount(); for (int i = 0; i < childCount; i++) { View attachedView = mChildHelper.getUnfilteredChildAt(i); ViewHolder holder = getChildViewHolderInt(attachedView); // TODO: consider ignoring if holder isInvalid // Note: can use mPosition here because adapter doesn't have pending updates if (holder.mPosition == position) { return true; } } return false; } void prefetch(int[] itemPrefetchArray, int viewCount) { if (viewCount == 0) return; int childPosition = itemPrefetchArray[viewCount - 1]; if (childPosition < 0) { throw new IllegalArgumentException("Recycler requested to prefetch invalid view " + childPosition); } View prefetchView = null; if (!isPrefetchPositionAttached(childPosition)) { // only prefetch if child not already attached prefetchView = getViewForPosition(childPosition); } if (viewCount > 1) { prefetch(itemPrefetchArray, viewCount - 1); } if (prefetchView != null) { recycleView(prefetchView); } } } /** * ViewCacheExtension is a helper class to provide an additional layer of view caching that can * be controlled by the developer. *

* When {@link Recycler#getViewForPosition(int)} is called, Recycler checks attached scrap and * first level cache to find a matching View. If it cannot find a suitable View, Recycler will * call the {@link #getViewForPositionAndType(Recycler, int, int)} before checking * {@link RecycledViewPool}. *

* Note that, Recycler never sends Views to this method to be cached. It is developers * responsibility to decide whether they want to keep their Views in this custom cache or let * the default recycling policy handle it. */ public abstract static class ViewCacheExtension { /** * Returns a View that can be binded to the given Adapter position. *

* This method should not create a new View. Instead, it is expected to return * an already created View that can be re-used for the given type and position. * If the View is marked as ignored, it should first call * {@link LayoutManager#stopIgnoringView(View)} before returning the View. *

* RecyclerView will re-bind the returned View to the position if necessary. * * @param recycler The Recycler that can be used to bind the View * @param position The adapter position * @param type The type of the View, defined by adapter * @return A View that is bound to the given position or NULL if there is no View to re-use * @see LayoutManager#ignoreView(View) */ abstract public View getViewForPositionAndType(Recycler recycler, int position, int type); } /** * Base class for an Adapter * *

Adapters provide a binding from an app-specific data set to views that are displayed * within a {@link RecyclerView}.

*/ public static abstract class Adapter { private final AdapterDataObservable mObservable = new AdapterDataObservable(); private boolean mHasStableIds = false; /** * Called when RecyclerView needs a new {@link ViewHolder} of the given type to represent * an item. *

* This new ViewHolder should be constructed with a new View that can represent the items * of the given type. You can either create a new View manually or inflate it from an XML * layout file. *

* The new ViewHolder will be used to display items of the adapter using * {@link #onBindViewHolder(ViewHolder, int, List)}. Since it will be re-used to display * different items in the data set, it is a good idea to cache references to sub views of * the View to avoid unnecessary {@link View#findViewById(int)} calls. * * @param parent The ViewGroup into which the new View will be added after it is bound to * an adapter position. * @param viewType The view type of the new View. * * @return A new ViewHolder that holds a View of the given view type. * @see #getItemViewType(int) * @see #onBindViewHolder(ViewHolder, int) */ public abstract VH onCreateViewHolder(ViewGroup parent, int viewType); /** * Called by RecyclerView to display the data at the specified position. This method should * update the contents of the {@link ViewHolder#itemView} to reflect the item at the given * position. *

* Note that unlike {@link android.widget.ListView}, RecyclerView will not call this method * again if the position of the item changes in the data set unless the item itself is * invalidated or the new position cannot be determined. For this reason, you should only * use the position parameter while acquiring the related data item inside * this method and should not keep a copy of it. If you need the position of an item later * on (e.g. in a click listener), use {@link ViewHolder#getAdapterPosition()} which will * have the updated adapter position. * * Override {@link #onBindViewHolder(ViewHolder, int, List)} instead if Adapter can * handle efficient partial bind. * * @param holder The ViewHolder which should be updated to represent the contents of the * item at the given position in the data set. * @param position The position of the item within the adapter's data set. */ public abstract void onBindViewHolder(VH holder, int position); /** * Called by RecyclerView to display the data at the specified position. This method * should update the contents of the {@link ViewHolder#itemView} to reflect the item at * the given position. *

* Partial bind vs full bind: *

* The payloads parameter is a merge list from {@link #notifyItemChanged(int, Object)} or * {@link #notifyItemRangeChanged(int, int, Object)}. If the payloads list is not empty, * the ViewHolder is currently bound to old data and Adapter may run an efficient partial * update using the payload info. If the payload is empty, Adapter must run a full bind. * Adapter should not assume that the payload passed in notify methods will be received by * onBindViewHolder(). For example when the view is not attached to the screen, the * payload in notifyItemChange() will be simply dropped. * * @param holder The ViewHolder which should be updated to represent the contents of the * item at the given position in the data set. * @param position The position of the item within the adapter's data set. * @param payloads A non-null list of merged payloads. Can be empty list if requires full * update. */ public void onBindViewHolder(VH holder, int position, List