Java tutorial
/* * Copyright (C) 2014 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 io.github.clendy.leanback.widget; import android.content.Context; import android.graphics.PointF; import android.graphics.Rect; import android.os.Bundle; import android.os.Parcel; import android.os.Parcelable; import android.support.v4.util.CircularIntArray; import android.support.v4.view.ViewCompat; import android.support.v7.widget.LinearSmoothScroller; import android.support.v7.widget.OrientationHelper; import android.support.v7.widget.RecyclerView; import android.support.v7.widget.RecyclerView.Recycler; import android.support.v7.widget.RecyclerView.State; import android.util.AttributeSet; import android.util.Log; import android.view.Gravity; import android.view.View; import android.view.View.MeasureSpec; import android.view.ViewGroup; import android.view.ViewGroup.MarginLayoutParams; import java.io.PrintWriter; import java.io.StringWriter; import java.util.ArrayList; import io.github.clendy.leanback.os.TraceHelper; import static android.support.v7.widget.RecyclerView.HORIZONTAL; import static android.support.v7.widget.RecyclerView.NO_ID; import static android.support.v7.widget.RecyclerView.NO_POSITION; import static android.support.v7.widget.RecyclerView.VERTICAL; final class GridLayoutManager extends RecyclerView.LayoutManager { /* * LayoutParams for {@link HorizontalGridView} and {@link VerticalGridView}. * The class currently does two internal jobs: * - Saves optical bounds insets. * - Caches focus align view center. */ static class LayoutParams extends RecyclerView.LayoutParams { // For placement private int mLeftInset; private int mTopInset; private int mRightInset; private int mBottomInset; // For alignment private int mAlignX; private int mAlignY; private int[] mAlignMultiple; private ItemAlignmentFacet mAlignmentFacet; public LayoutParams(Context c, AttributeSet attrs) { super(c, attrs); } public LayoutParams(int width, int height) { super(width, height); } public LayoutParams(MarginLayoutParams source) { super(source); } public LayoutParams(ViewGroup.LayoutParams source) { super(source); } public LayoutParams(RecyclerView.LayoutParams source) { super(source); } public LayoutParams(LayoutParams source) { super(source); } int getAlignX() { return mAlignX; } int getAlignY() { return mAlignY; } int getOpticalLeft(View view) { return view.getLeft() + mLeftInset; } int getOpticalTop(View view) { return view.getTop() + mTopInset; } int getOpticalRight(View view) { return view.getRight() - mRightInset; } int getOpticalBottom(View view) { return view.getBottom() - mBottomInset; } int getOpticalWidth(View view) { return view.getWidth() - mLeftInset - mRightInset; } int getOpticalHeight(View view) { return view.getHeight() - mTopInset - mBottomInset; } int getOpticalLeftInset() { return mLeftInset; } int getOpticalRightInset() { return mRightInset; } int getOpticalTopInset() { return mTopInset; } int getOpticalBottomInset() { return mBottomInset; } void setAlignX(int alignX) { mAlignX = alignX; } void setAlignY(int alignY) { mAlignY = alignY; } void setItemAlignmentFacet(ItemAlignmentFacet facet) { mAlignmentFacet = facet; } ItemAlignmentFacet getItemAlignmentFacet() { return mAlignmentFacet; } void calculateItemAlignments(int orientation, View view) { ItemAlignmentFacet.ItemAlignmentDef[] defs = mAlignmentFacet.getAlignmentDefs(); if (mAlignMultiple == null || mAlignMultiple.length != defs.length) { mAlignMultiple = new int[defs.length]; } for (int i = 0; i < defs.length; i++) { mAlignMultiple[i] = ItemAlignmentFacetHelper.getAlignmentPosition(view, defs[i], orientation); } if (orientation == HORIZONTAL) { mAlignX = mAlignMultiple[0]; } else { mAlignY = mAlignMultiple[0]; } } int[] getAlignMultiple() { return mAlignMultiple; } void setOpticalInsets(int leftInset, int topInset, int rightInset, int bottomInset) { mLeftInset = leftInset; mTopInset = topInset; mRightInset = rightInset; mBottomInset = bottomInset; } } /** * Base class which scrolls to selected view in onStop(). */ abstract class GridLinearSmoothScroller extends LinearSmoothScroller { GridLinearSmoothScroller() { super(mBaseGridView.getContext()); } @Override protected void onStop() { // onTargetFound() may not be called if we hit the "wall" first. View targetView = findViewByPosition(getTargetPosition()); if (hasFocus() && targetView != null) { mInSelection = true; targetView.requestFocus(); mInSelection = false; } if (needsDispatchChildSelectedOnStop()) { dispatchChildSelected(); } super.onStop(); } boolean needsDispatchChildSelectedOnStop() { return true; } @Override protected void onTargetFound(View targetView, RecyclerView.State state, Action action) { if (getScrollPosition(targetView, null, sTwoInts)) { int dx, dy; if (mOrientation == HORIZONTAL) { dx = sTwoInts[0]; dy = sTwoInts[1]; } else { dx = sTwoInts[1]; dy = sTwoInts[0]; } final int distance = (int) Math.sqrt(dx * dx + dy * dy); final int time = calculateTimeForDeceleration(distance); action.update(dx, dy, time, mDecelerateInterpolator); } } } /** * The SmoothScroller that remembers pending DPAD keys and consume pending keys * during scroll. */ final class PendingMoveSmoothScroller extends GridLinearSmoothScroller { // -2 is a target position that LinearSmoothScroller can never find until // consumePendingMovesXXX() sets real targetPosition. final static int TARGET_UNDEFINED = -2; // whether the grid is staggered. private final boolean mStaggeredGrid; // Number of pending movements on primary direction, negative if PREV_ITEM. private int mPendingMoves; PendingMoveSmoothScroller(int initialPendingMoves, boolean staggeredGrid) { mPendingMoves = initialPendingMoves; mStaggeredGrid = staggeredGrid; setTargetPosition(TARGET_UNDEFINED); } void increasePendingMoves() { if (mPendingMoves < MAX_PENDING_MOVES) { mPendingMoves++; if (mPendingMoves == 0) { dispatchChildSelected(); } } } void decreasePendingMoves() { if (mPendingMoves > -MAX_PENDING_MOVES) { mPendingMoves--; if (mPendingMoves == 0) { dispatchChildSelected(); } } } /** * Called before laid out an item when non-staggered grid can handle pending movements * by skipping "mNumRows" per movement; staggered grid will have to wait the item * has been laid out in consumePendingMovesAfterLayout(). */ void consumePendingMovesBeforeLayout() { if (mStaggeredGrid || mPendingMoves == 0) { return; } View newSelected = null; int startPos = mPendingMoves > 0 ? mFocusPosition + mNumRows : mFocusPosition - mNumRows; for (int pos = startPos; mPendingMoves != 0; pos = mPendingMoves > 0 ? pos + mNumRows : pos - mNumRows) { View v = findViewByPosition(pos); if (v == null) { break; } if (!canScrollTo(v)) { continue; } newSelected = v; mFocusPosition = pos; mSubFocusPosition = 0; if (mPendingMoves > 0) { mPendingMoves--; } else { mPendingMoves++; } } if (newSelected != null && hasFocus()) { mInSelection = true; newSelected.requestFocus(); mInSelection = false; } } /** * Called after laid out an item. Staggered grid should find view on same * Row and consume pending movements. */ void consumePendingMovesAfterLayout() { if (mStaggeredGrid && mPendingMoves != 0) { // consume pending moves, focus to item on the same row. final int focusedRow = mGrid != null && mFocusPosition != NO_POSITION ? mGrid.getLocation(mFocusPosition).row : NO_POSITION; View newSelected = null; for (int i = 0, count = getChildCount(); i < count && mPendingMoves != 0; i++) { int index = mPendingMoves > 0 ? i : count - 1 - i; final View child = getChildAt(index); if (!canScrollTo(child)) { continue; } int position = getPositionByIndex(index); Grid.Location loc = mGrid.getLocation(position); if (focusedRow == NO_POSITION || (loc != null && loc.row == focusedRow)) { if (mFocusPosition == NO_POSITION) { mFocusPosition = position; mSubFocusPosition = 0; newSelected = child; } else if ((mPendingMoves > 0 && position > mFocusPosition) || (mPendingMoves < 0 && position < mFocusPosition)) { mFocusPosition = position; mSubFocusPosition = 0; if (mPendingMoves > 0) { mPendingMoves--; } else { mPendingMoves++; } newSelected = child; } } } if (newSelected != null && hasFocus()) { mInSelection = true; newSelected.requestFocus(); mInSelection = false; } if (mPendingMoves == 0) { dispatchChildSelected(); } } if (mPendingMoves == 0 || (mPendingMoves > 0 && hasCreatedLastItem()) || (mPendingMoves < 0 && hasCreatedFirstItem())) { setTargetPosition(mFocusPosition); stop(); } } @Override protected void updateActionForInterimTarget(Action action) { if (mPendingMoves == 0) { return; } super.updateActionForInterimTarget(action); } @Override public PointF computeScrollVectorForPosition(int targetPosition) { if (mPendingMoves == 0) { return null; } int direction = (mReverseFlowPrimary ? mPendingMoves > 0 : mPendingMoves < 0) ? -1 : 1; if (mOrientation == HORIZONTAL) { return new PointF(direction, 0); } else { return new PointF(0, direction); } } @Override boolean needsDispatchChildSelectedOnStop() { return mPendingMoves != 0; } @Override protected void onStop() { super.onStop(); // if we hit wall, need clear the remaining pending moves. mPendingMoves = 0; mPendingMoveSmoothScroller = null; View v = findViewByPosition(getTargetPosition()); if (v != null) scrollToView(v, true); } } ; private static final String TAG = "GridLayoutManager"; private static final boolean DEBUG = false; private static final boolean TRACE = false; // maximum pending movement in one direction. private final static int MAX_PENDING_MOVES = 10; private String getTag() { return TAG + ":" + mBaseGridView.getId(); } private final BaseGridView mBaseGridView; /** * Note on conventions in the presence of RTL layout directions: * Many properties and method names reference entities related to the * beginnings and ends of things. In the presence of RTL flows, * it may not be clear whether this is intended to reference a * quantity that changes direction in RTL cases, or a quantity that * does not. Here are the conventions in use: * * start/end: coordinate quantities - do reverse * (optical) left/right: coordinate quantities - do not reverse * low/high: coordinate quantities - do not reverse * min/max: coordinate quantities - do not reverse * scroll offset - coordinate quantities - do not reverse * first/last: positional indices - do not reverse * front/end: positional indices - do not reverse * prepend/append: related to positional indices - do not reverse * * Note that although quantities do not reverse in RTL flows, their * relationship does. In LTR flows, the first positional index is * leftmost; in RTL flows, it is rightmost. Thus, anywhere that * positional quantities are mapped onto coordinate quantities, * the flow must be checked and the logic reversed. */ /** * The orientation of a "row". */ private int mOrientation = HORIZONTAL; private OrientationHelper mOrientationHelper = OrientationHelper.createHorizontalHelper(this); private RecyclerView.State mState; private RecyclerView.Recycler mRecycler; private boolean mInLayout; private boolean mInScroll; private boolean mInFastRelayout; /** * During full layout pass, when GridView had focus: onLayoutChildren will * skip non-focusable child and adjust mFocusPosition. */ private boolean mInLayoutSearchFocus; private boolean mInSelection = false; private OnChildSelectedListener mChildSelectedListener = null; private OnChildViewHolderSelectedListener mChildViewHolderSelectedListener = null; private OnChildLaidOutListener mChildLaidOutListener = null; /** * The focused position, it's not the currently visually aligned position * but it is the final position that we intend to focus on. If there are * multiple setSelection() called, mFocusPosition saves last value. */ private int mFocusPosition = NO_POSITION; /** * A view can have mutliple alignment position, this is the index of which * alignment is used, by default is 0. */ private int mSubFocusPosition = 0; /** * LinearSmoothScroller that consume pending DPAD movements. */ private PendingMoveSmoothScroller mPendingMoveSmoothScroller; /** * The offset to be applied to mFocusPosition, due to adapter change, on the next * layout. Set to Integer.MIN_VALUE means we should stop adding delta to mFocusPosition * until next layout cycler. * TODO: This is somewhat duplication of RecyclerView getOldPosition() which is * unfortunately cleared after prelayout. */ private int mFocusPositionOffset = 0; /** * Extra pixels applied on primary direction. */ private int mPrimaryScrollExtra; /** * Force a full layout under certain situations. E.g. Rows change, jump to invisible child. */ private boolean mForceFullLayout; /** * True if layout is enabled. */ private boolean mLayoutEnabled = true; /** * override child visibility */ private int mChildVisibility = -1; /** * The scroll offsets of the viewport relative to the entire view. */ private int mScrollOffsetPrimary; private int mScrollOffsetSecondary; /** * User-specified row height/column width. Can be WRAP_CONTENT. */ private int mRowSizeSecondaryRequested; /** * The fixed size of each grid item in the secondary direction. This corresponds to * the row height, equal for all rows. Grid items may have variable length * in the primary direction. */ private int mFixedRowSizeSecondary; /** * Tracks the secondary size of each row. */ private int[] mRowSizeSecondary; /** * Flag controlling whether the current/next layout should * be updating the secondary size of rows. */ private boolean mRowSecondarySizeRefresh; /** * The maximum measured size of the view. */ private int mMaxSizeSecondary; /** * Margin between items. */ private int mHorizontalMargin; /** * Margin between items vertically. */ private int mVerticalMargin; /** * Margin in main direction. */ private int mMarginPrimary; /** * Margin in second direction. */ private int mMarginSecondary; /** * How to position child in secondary direction. */ private int mGravity = Gravity.START | Gravity.TOP; /** * The number of rows in the grid. */ private int mNumRows; /** * Number of rows requested, can be 0 to be determined by parent size and * rowHeight. */ private int mNumRowsRequested = 1; /** * Saves grid information of each view. */ Grid mGrid; /** * Focus Scroll strategy. */ private int mFocusScrollStrategy = BaseGridView.FOCUS_SCROLL_ALIGNED; /** * Defines how item view is aligned in the window. */ private final WindowAlignment mWindowAlignment = new WindowAlignment(); /** * Defines how item view is aligned. */ private final ItemAlignment mItemAlignment = new ItemAlignment(); /** * Dimensions of the view, width or height depending on orientation. */ private int mSizePrimary; /** * Pixels of extra space for layout item (outside the widget) */ private int mExtraLayoutSpace; /** * Allow DPAD key to navigate out at the front of the View (where position = 0), * default is false. */ private boolean mFocusOutFront; /** * Allow DPAD key to navigate out at the end of the view, default is false. */ private boolean mFocusOutEnd; /** * True if focus search is disabled. */ private boolean mFocusSearchDisabled; /** * True if prune child, might be disabled during transition. */ private boolean mPruneChild = true; /** * True if scroll content, might be disabled during transition. */ private boolean mScrollEnabled = true; /** * Temporary variable: an int array of length=2. */ private static int[] sTwoInts = new int[2]; /** * Set to true for RTL layout in horizontal orientation */ private boolean mReverseFlowPrimary = false; /** * Set to true for RTL layout in vertical orientation */ private boolean mReverseFlowSecondary = false; /** * Temporaries used for measuring. */ private int[] mMeasuredDimension = new int[2]; final ViewsStateBundle mChildrenStates = new ViewsStateBundle(); /** * Optional interface implemented by Adapter. */ private FacetProviderAdapter mFacetProviderAdapter; public GridLayoutManager(BaseGridView baseGridView) { mBaseGridView = baseGridView; } public void setOrientation(int orientation) { if (orientation != HORIZONTAL && orientation != VERTICAL) { if (DEBUG) Log.v(getTag(), "invalid orientation: " + orientation); return; } mOrientation = orientation; mOrientationHelper = OrientationHelper.createOrientationHelper(this, mOrientation); mWindowAlignment.setOrientation(orientation); mItemAlignment.setOrientation(orientation); mForceFullLayout = true; } public void onRtlPropertiesChanged(int layoutDirection) { if (mOrientation == HORIZONTAL) { mReverseFlowPrimary = layoutDirection == View.LAYOUT_DIRECTION_RTL; mReverseFlowSecondary = false; } else { mReverseFlowSecondary = layoutDirection == View.LAYOUT_DIRECTION_RTL; mReverseFlowPrimary = false; } mWindowAlignment.horizontal.setReversedFlow(layoutDirection == View.LAYOUT_DIRECTION_RTL); } public int getFocusScrollStrategy() { return mFocusScrollStrategy; } public void setFocusScrollStrategy(int focusScrollStrategy) { mFocusScrollStrategy = focusScrollStrategy; } public void setWindowAlignment(int windowAlignment) { mWindowAlignment.mainAxis().setWindowAlignment(windowAlignment); } public int getWindowAlignment() { return mWindowAlignment.mainAxis().getWindowAlignment(); } public void setWindowAlignmentOffset(int alignmentOffset) { mWindowAlignment.mainAxis().setWindowAlignmentOffset(alignmentOffset); } public int getWindowAlignmentOffset() { return mWindowAlignment.mainAxis().getWindowAlignmentOffset(); } public void setWindowAlignmentOffsetPercent(float offsetPercent) { mWindowAlignment.mainAxis().setWindowAlignmentOffsetPercent(offsetPercent); } public float getWindowAlignmentOffsetPercent() { return mWindowAlignment.mainAxis().getWindowAlignmentOffsetPercent(); } public void setItemAlignmentOffset(int alignmentOffset) { mItemAlignment.mainAxis().setItemAlignmentOffset(alignmentOffset); updateChildAlignments(); } public int getItemAlignmentOffset() { return mItemAlignment.mainAxis().getItemAlignmentOffset(); } public void setItemAlignmentOffsetWithPadding(boolean withPadding) { mItemAlignment.mainAxis().setItemAlignmentOffsetWithPadding(withPadding); updateChildAlignments(); } public boolean isItemAlignmentOffsetWithPadding() { return mItemAlignment.mainAxis().isItemAlignmentOffsetWithPadding(); } public void setItemAlignmentOffsetPercent(float offsetPercent) { mItemAlignment.mainAxis().setItemAlignmentOffsetPercent(offsetPercent); updateChildAlignments(); } public float getItemAlignmentOffsetPercent() { return mItemAlignment.mainAxis().getItemAlignmentOffsetPercent(); } public void setItemAlignmentViewId(int viewId) { mItemAlignment.mainAxis().setItemAlignmentViewId(viewId); updateChildAlignments(); } public int getItemAlignmentViewId() { return mItemAlignment.mainAxis().getItemAlignmentViewId(); } public void setFocusOutAllowed(boolean throughFront, boolean throughEnd) { mFocusOutFront = throughFront; mFocusOutEnd = throughEnd; } public void setNumRows(int numRows) { if (numRows < 0) throw new IllegalArgumentException(); mNumRowsRequested = numRows; } /** * Set the row height. May be WRAP_CONTENT, or a size in pixels. */ public void setRowHeight(int height) { if (height >= 0 || height == ViewGroup.LayoutParams.WRAP_CONTENT) { mRowSizeSecondaryRequested = height; } else { throw new IllegalArgumentException("Invalid row height: " + height); } } public void setItemMargin(int margin) { mVerticalMargin = mHorizontalMargin = margin; mMarginPrimary = mMarginSecondary = margin; } public void setVerticalMargin(int margin) { if (mOrientation == HORIZONTAL) { mMarginSecondary = mVerticalMargin = margin; } else { mMarginPrimary = mVerticalMargin = margin; } } public void setHorizontalMargin(int margin) { if (mOrientation == HORIZONTAL) { mMarginPrimary = mHorizontalMargin = margin; } else { mMarginSecondary = mHorizontalMargin = margin; } } public int getVerticalMargin() { return mVerticalMargin; } public int getHorizontalMargin() { return mHorizontalMargin; } public void setGravity(int gravity) { mGravity = gravity; } protected boolean hasDoneFirstLayout() { return mGrid != null; } public void setOnChildSelectedListener(OnChildSelectedListener listener) { mChildSelectedListener = listener; } public void setOnChildViewHolderSelectedListener(OnChildViewHolderSelectedListener listener) { mChildViewHolderSelectedListener = listener; } void setOnChildLaidOutListener(OnChildLaidOutListener listener) { mChildLaidOutListener = listener; } private int getPositionByView(View view) { if (view == null) { return NO_POSITION; } LayoutParams params = (LayoutParams) view.getLayoutParams(); if (params == null || params.isItemRemoved()) { // when item is removed, the position value can be any value. return NO_POSITION; } return params.getViewPosition(); } private int getSubPositionByView(View view, View childView) { if (view == null || childView == null) { return 0; } final LayoutParams lp = (LayoutParams) view.getLayoutParams(); final ItemAlignmentFacet facet = lp.getItemAlignmentFacet(); if (facet != null) { final ItemAlignmentFacet.ItemAlignmentDef[] defs = facet.getAlignmentDefs(); if (defs.length > 1) { while (childView != view) { int id = childView.getId(); if (id != View.NO_ID) { for (int i = 1; i < defs.length; i++) { if (defs[i].getItemAlignmentFocusViewId() == id) { return i; } } } childView = (View) childView.getParent(); } } } return 0; } private int getPositionByIndex(int index) { return getPositionByView(getChildAt(index)); } private void dispatchChildSelected() { if (mChildSelectedListener == null && mChildViewHolderSelectedListener == null) { return; } if (TRACE) TraceHelper.beginSection("onChildSelected"); View view = mFocusPosition == NO_POSITION ? null : findViewByPosition(mFocusPosition); if (view != null) { RecyclerView.ViewHolder vh = mBaseGridView.getChildViewHolder(view); if (mChildSelectedListener != null) { mChildSelectedListener.onChildSelected(mBaseGridView, view, mFocusPosition, vh == null ? NO_ID : vh.getItemId()); } if (mChildViewHolderSelectedListener != null) { mChildViewHolderSelectedListener.onChildViewHolderSelected(mBaseGridView, vh, mFocusPosition, mSubFocusPosition); } } else { if (mChildSelectedListener != null) { mChildSelectedListener.onChildSelected(mBaseGridView, null, NO_POSITION, NO_ID); } if (mChildViewHolderSelectedListener != null) { mChildViewHolderSelectedListener.onChildViewHolderSelected(mBaseGridView, null, NO_POSITION, 0); } } if (TRACE) TraceHelper.endSection(); // Children may request layout when a child selection event occurs (such as a change of // padding on the current and previously selected rows). // If in layout, a child requesting layout may have been laid out before the selection // callback. // If it was not, the child will be laid out after the selection callback. // If so, the layout request will be honoured though the view system will emit a double- // layout warning. // If not in layout, we may be scrolling in which case the child layout request will be // eaten by recyclerview. Post a requestLayout. if (!mInLayout && !mBaseGridView.isLayoutRequested()) { int childCount = getChildCount(); for (int i = 0; i < childCount; i++) { if (getChildAt(i).isLayoutRequested()) { forceRequestLayout(); break; } } } } @Override public boolean canScrollHorizontally() { // We can scroll horizontally if we have horizontal orientation, or if // we are vertical and have more than one column. return mOrientation == HORIZONTAL || mNumRows > 1; } @Override public boolean canScrollVertically() { // We can scroll vertically if we have vertical orientation, or if we // are horizontal and have more than one row. return mOrientation == VERTICAL || mNumRows > 1; } @Override public RecyclerView.LayoutParams generateDefaultLayoutParams() { return new LayoutParams(ViewGroup.LayoutParams.WRAP_CONTENT, ViewGroup.LayoutParams.WRAP_CONTENT); } @Override public RecyclerView.LayoutParams generateLayoutParams(Context context, AttributeSet attrs) { return new LayoutParams(context, attrs); } @Override public RecyclerView.LayoutParams generateLayoutParams(ViewGroup.LayoutParams lp) { if (lp instanceof LayoutParams) { return new LayoutParams((LayoutParams) lp); } else if (lp instanceof RecyclerView.LayoutParams) { return new LayoutParams((RecyclerView.LayoutParams) lp); } else if (lp instanceof MarginLayoutParams) { return new LayoutParams((MarginLayoutParams) lp); } else { return new LayoutParams(lp); } } protected View getViewForPosition(int position) { return mRecycler.getViewForPosition(position); } final int getOpticalLeft(View v) { return ((LayoutParams) v.getLayoutParams()).getOpticalLeft(v); } final int getOpticalRight(View v) { return ((LayoutParams) v.getLayoutParams()).getOpticalRight(v); } final int getOpticalTop(View v) { return ((LayoutParams) v.getLayoutParams()).getOpticalTop(v); } final int getOpticalBottom(View v) { return ((LayoutParams) v.getLayoutParams()).getOpticalBottom(v); } private int getViewMin(View v) { // return (mOrientation == HORIZONTAL) ? getOpticalLeft(v) : getOpticalTop(v); return mOrientationHelper.getDecoratedStart(v); } private int getViewMax(View v) { // return (mOrientation == HORIZONTAL) ? getOpticalRight(v) : getOpticalBottom(v); return mOrientationHelper.getDecoratedEnd(v); } private int getViewPrimarySize(View view) { LayoutParams p = (LayoutParams) view.getLayoutParams(); return mOrientation == HORIZONTAL ? p.getOpticalWidth(view) : p.getOpticalHeight(view); } private int getViewCenter(View view) { return (mOrientation == HORIZONTAL) ? getViewCenterX(view) : getViewCenterY(view); } private int getViewCenterSecondary(View view) { return (mOrientation == HORIZONTAL) ? getViewCenterY(view) : getViewCenterX(view); } private int getViewCenterX(View v) { LayoutParams p = (LayoutParams) v.getLayoutParams(); return p.getOpticalLeft(v) + p.getAlignX(); } private int getViewCenterY(View v) { LayoutParams p = (LayoutParams) v.getLayoutParams(); return p.getOpticalTop(v) + p.getAlignY(); } /** * Save Recycler and State for convenience. Must be paired with leaveContext(). */ private void saveContext(Recycler recycler, State state) { if (mRecycler != null || mState != null) { Log.e(TAG, "Recycler information was not released, bug!"); } mRecycler = recycler; mState = state; } /** * Discard saved Recycler and State. */ private void leaveContext() { mRecycler = null; mState = null; } /** * Re-initialize data structures for a data change or handling invisible * selection. The method tries its best to preserve position information so * that staggered grid looks same before and after re-initialize. * * @return true if can fastRelayout() */ private boolean layoutInit() { boolean focusViewWasInTree = mGrid != null && mFocusPosition >= 0 && mFocusPosition >= mGrid.getFirstVisibleIndex() && mFocusPosition <= mGrid.getLastVisibleIndex(); final int newItemCount = mState.getItemCount(); if (newItemCount == 0) { mFocusPosition = NO_POSITION; mSubFocusPosition = 0; } else if (mFocusPosition >= newItemCount) { mFocusPosition = newItemCount - 1; mSubFocusPosition = 0; } else if (mFocusPosition == NO_POSITION && newItemCount > 0) { // if focus position is never set before, initialize it to 0 mFocusPosition = 0; mSubFocusPosition = 0; } if (!mState.didStructureChange() && mGrid.getFirstVisibleIndex() >= 0 && !mForceFullLayout && mGrid != null && mGrid.getNumRows() == mNumRows) { updateScrollController(); updateScrollSecondAxis(); mGrid.setMargin(mMarginPrimary); if (!focusViewWasInTree && mFocusPosition != NO_POSITION) { mGrid.setStart(mFocusPosition); } return true; } else { mForceFullLayout = false; int firstVisibleIndex = focusViewWasInTree ? mGrid.getFirstVisibleIndex() : 0; if (mGrid == null || mNumRows != mGrid.getNumRows() || mReverseFlowPrimary != mGrid.isReversedFlow()) { mGrid = Grid.createStaggeredMultipleRows(mNumRows); mGrid.setProvider(mGridProvider); mGrid.setReversedFlow(mReverseFlowPrimary); } initScrollController(); updateScrollSecondAxis(); mGrid.setMargin(mMarginPrimary); detachAndScrapAttachedViews(mRecycler); mGrid.resetVisibleIndex(); if (mFocusPosition == NO_POSITION) { mBaseGridView.clearFocus(); } mWindowAlignment.mainAxis().invalidateScrollMin(); mWindowAlignment.mainAxis().invalidateScrollMax(); if (focusViewWasInTree && firstVisibleIndex <= mFocusPosition) { // if focusView was in tree, we will add item from first visible item mGrid.setStart(firstVisibleIndex); } else { // if focusView was not in tree, it's probably because focus position jumped // far away from visible range, so use mFocusPosition as start mGrid.setStart(mFocusPosition); } return false; } } private int getRowSizeSecondary(int rowIndex) { if (mFixedRowSizeSecondary != 0) { return mFixedRowSizeSecondary; } if (mRowSizeSecondary == null) { return 0; } return mRowSizeSecondary[rowIndex]; } private int getRowStartSecondary(int rowIndex) { int start = 0; // Iterate from left to right, which is a different index traversal // in RTL flow if (mReverseFlowSecondary) { for (int i = mNumRows - 1; i > rowIndex; i--) { start += getRowSizeSecondary(i) + mMarginSecondary; } } else { for (int i = 0; i < rowIndex; i++) { start += getRowSizeSecondary(i) + mMarginSecondary; } } return start; } private int getSizeSecondary() { int rightmostIndex = mReverseFlowSecondary ? 0 : mNumRows - 1; return getRowStartSecondary(rightmostIndex) + getRowSizeSecondary(rightmostIndex); } private void measureScrapChild(int position, int widthSpec, int heightSpec, int[] measuredDimension) { View view = mRecycler.getViewForPosition(position); if (view != null) { LayoutParams p = (LayoutParams) view.getLayoutParams(); int childWidthSpec = ViewGroup.getChildMeasureSpec(widthSpec, getPaddingLeft() + getPaddingRight(), p.width); int childHeightSpec = ViewGroup.getChildMeasureSpec(heightSpec, getPaddingTop() + getPaddingBottom(), p.height); view.measure(childWidthSpec, childHeightSpec); measuredDimension[0] = view.getMeasuredWidth(); measuredDimension[1] = view.getMeasuredHeight(); mRecycler.recycleView(view); } } private boolean processRowSizeSecondary(boolean measure) { if (mFixedRowSizeSecondary != 0 || mRowSizeSecondary == null) { return false; } if (TRACE) TraceHelper.beginSection("processRowSizeSecondary"); CircularIntArray[] rows = mGrid == null ? null : mGrid.getItemPositionsInRows(); boolean changed = false; int scrapChildWidth = -1; int scrapChildHeight = -1; for (int rowIndex = 0; rowIndex < mNumRows; rowIndex++) { CircularIntArray row = rows == null ? null : rows[rowIndex]; final int rowItemsPairCount = row == null ? 0 : row.size(); int rowSize = -1; for (int rowItemPairIndex = 0; rowItemPairIndex < rowItemsPairCount; rowItemPairIndex += 2) { final int rowIndexStart = row.get(rowItemPairIndex); final int rowIndexEnd = row.get(rowItemPairIndex + 1); for (int i = rowIndexStart; i <= rowIndexEnd; i++) { final View view = findViewByPosition(i); if (view == null) { continue; } if (measure && view.isLayoutRequested()) { measureChild(view); } final int secondarySize = mOrientation == HORIZONTAL ? view.getMeasuredHeight() : view.getMeasuredWidth(); if (secondarySize > rowSize) { rowSize = secondarySize; } } } final int itemCount = mState.getItemCount(); if (measure && rowSize < 0 && itemCount > 0) { if (scrapChildWidth < 0 && scrapChildHeight < 0) { int position; if (mFocusPosition == NO_POSITION) { position = 0; } else if (mFocusPosition >= itemCount) { position = itemCount - 1; } else { position = mFocusPosition; } measureScrapChild(position, MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED), MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED), mMeasuredDimension); scrapChildWidth = mMeasuredDimension[0]; scrapChildHeight = mMeasuredDimension[1]; if (DEBUG) Log.v(TAG, "measured scrap child: " + scrapChildWidth + " " + scrapChildHeight); } rowSize = mOrientation == HORIZONTAL ? scrapChildHeight : scrapChildWidth; } if (rowSize < 0) { rowSize = 0; } if (mRowSizeSecondary[rowIndex] != rowSize) { if (DEBUG) Log.v(getTag(), "row size secondary changed: " + mRowSizeSecondary[rowIndex] + ", " + rowSize); mRowSizeSecondary[rowIndex] = rowSize; changed = true; } } if (TRACE) TraceHelper.endSection(); return changed; } /** * Checks if we need to update row secondary sizes. */ private void updateRowSecondarySizeRefresh() { mRowSecondarySizeRefresh = processRowSizeSecondary(false); if (mRowSecondarySizeRefresh) { if (DEBUG) Log.v(getTag(), "mRowSecondarySizeRefresh now set"); forceRequestLayout(); } } private void forceRequestLayout() { if (DEBUG) Log.v(getTag(), "forceRequestLayout"); // RecyclerView prevents us from requesting layout in many cases // (during layout, during scroll, etc.) // For secondary row size wrap_content support we currently need a // second layout pass to update the measured size after having measured // and added child views in layoutChildren. // Force the second layout by posting a delayed runnable. // TODO: investigate allowing a second layout pass, // or move child add/measure logic to the measure phase. ViewCompat.postOnAnimation(mBaseGridView, mRequestLayoutRunnable); } private final Runnable mRequestLayoutRunnable = new Runnable() { @Override public void run() { if (DEBUG) Log.v(getTag(), "request Layout from runnable"); requestLayout(); } }; @Override public void onMeasure(Recycler recycler, State state, int widthSpec, int heightSpec) { saveContext(recycler, state); int sizePrimary, sizeSecondary, modeSecondary, paddingSecondary; int measuredSizeSecondary; if (mOrientation == HORIZONTAL) { sizePrimary = MeasureSpec.getSize(widthSpec); sizeSecondary = MeasureSpec.getSize(heightSpec); modeSecondary = MeasureSpec.getMode(heightSpec); paddingSecondary = getPaddingTop() + getPaddingBottom(); } else { sizeSecondary = MeasureSpec.getSize(widthSpec); sizePrimary = MeasureSpec.getSize(heightSpec); modeSecondary = MeasureSpec.getMode(widthSpec); paddingSecondary = getPaddingLeft() + getPaddingRight(); } if (DEBUG) Log.v(getTag(), "onMeasure widthSpec " + Integer.toHexString(widthSpec) + " heightSpec " + Integer.toHexString(heightSpec) + " modeSecondary " + Integer.toHexString(modeSecondary) + " sizeSecondary " + sizeSecondary + " " + this); mMaxSizeSecondary = sizeSecondary; if (mRowSizeSecondaryRequested == ViewGroup.LayoutParams.WRAP_CONTENT) { mNumRows = mNumRowsRequested == 0 ? 1 : mNumRowsRequested; mFixedRowSizeSecondary = 0; if (mRowSizeSecondary == null || mRowSizeSecondary.length != mNumRows) { mRowSizeSecondary = new int[mNumRows]; } // Measure all current children and update cached row heights processRowSizeSecondary(true); switch (modeSecondary) { case MeasureSpec.UNSPECIFIED: measuredSizeSecondary = getSizeSecondary() + paddingSecondary; break; case MeasureSpec.AT_MOST: measuredSizeSecondary = Math.min(getSizeSecondary() + paddingSecondary, mMaxSizeSecondary); break; case MeasureSpec.EXACTLY: measuredSizeSecondary = mMaxSizeSecondary; break; default: throw new IllegalStateException("wrong spec"); } } else { switch (modeSecondary) { case MeasureSpec.UNSPECIFIED: if (mRowSizeSecondaryRequested == 0) { if (mOrientation == HORIZONTAL) { throw new IllegalStateException("Must specify rowHeight or view height"); } else { throw new IllegalStateException("Must specify columnWidth or view width"); } } mFixedRowSizeSecondary = mRowSizeSecondaryRequested; mNumRows = mNumRowsRequested == 0 ? 1 : mNumRowsRequested; measuredSizeSecondary = mFixedRowSizeSecondary * mNumRows + mMarginSecondary * (mNumRows - 1) + paddingSecondary; break; case MeasureSpec.AT_MOST: case MeasureSpec.EXACTLY: if (mNumRowsRequested == 0 && mRowSizeSecondaryRequested == 0) { mNumRows = 1; mFixedRowSizeSecondary = sizeSecondary - paddingSecondary; } else if (mNumRowsRequested == 0) { mFixedRowSizeSecondary = mRowSizeSecondaryRequested; mNumRows = (sizeSecondary + mMarginSecondary) / (mRowSizeSecondaryRequested + mMarginSecondary); } else if (mRowSizeSecondaryRequested == 0) { mNumRows = mNumRowsRequested; mFixedRowSizeSecondary = (sizeSecondary - paddingSecondary - mMarginSecondary * (mNumRows - 1)) / mNumRows; } else { mNumRows = mNumRowsRequested; mFixedRowSizeSecondary = mRowSizeSecondaryRequested; } measuredSizeSecondary = sizeSecondary; if (modeSecondary == MeasureSpec.AT_MOST) { int childrenSize = mFixedRowSizeSecondary * mNumRows + mMarginSecondary * (mNumRows - 1) + paddingSecondary; if (childrenSize < measuredSizeSecondary) { measuredSizeSecondary = childrenSize; } } break; default: throw new IllegalStateException("wrong spec"); } } if (mOrientation == HORIZONTAL) { setMeasuredDimension(sizePrimary, measuredSizeSecondary); } else { setMeasuredDimension(measuredSizeSecondary, sizePrimary); } if (DEBUG) { Log.v(getTag(), "onMeasure sizePrimary " + sizePrimary + " measuredSizeSecondary " + measuredSizeSecondary + " mFixedRowSizeSecondary " + mFixedRowSizeSecondary + " mNumRows " + mNumRows); } leaveContext(); } private void measureChild(View child) { if (TRACE) TraceHelper.beginSection("measureChild"); final ViewGroup.LayoutParams lp = child.getLayoutParams(); final int secondarySpec = (mRowSizeSecondaryRequested == ViewGroup.LayoutParams.WRAP_CONTENT) ? MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED) : MeasureSpec.makeMeasureSpec(mFixedRowSizeSecondary, MeasureSpec.EXACTLY); int widthSpec, heightSpec; if (mOrientation == HORIZONTAL) { widthSpec = ViewGroup.getChildMeasureSpec(MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED), 0, lp.width); heightSpec = ViewGroup.getChildMeasureSpec(secondarySpec, 0, lp.height); } else { heightSpec = ViewGroup.getChildMeasureSpec(MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED), 0, lp.height); widthSpec = ViewGroup.getChildMeasureSpec(secondarySpec, 0, lp.width); } child.measure(widthSpec, heightSpec); if (DEBUG) Log.v(getTag(), "measureChild secondarySpec " + Integer.toHexString(secondarySpec) + " widthSpec " + Integer.toHexString(widthSpec) + " heightSpec " + Integer.toHexString(heightSpec) + " measuredWidth " + child.getMeasuredWidth() + " measuredHeight " + child.getMeasuredHeight()); if (DEBUG) Log.v(getTag(), "child lp width " + lp.width + " height " + lp.height); if (TRACE) TraceHelper.endSection(); } /** * Get facet from the ViewHolder or the viewType. */ private <E> E getFacet(RecyclerView.ViewHolder vh, Class<? extends E> facetClass) { E facet = null; if (vh instanceof FacetProvider) { facet = (E) ((FacetProvider) vh).getFacet(facetClass); } if (facet == null && mFacetProviderAdapter != null) { FacetProvider p = mFacetProviderAdapter.getFacetProvider(vh.getItemViewType()); if (p != null) { facet = (E) p.getFacet(facetClass); } } return facet; } private Grid.Provider mGridProvider = new Grid.Provider() { @Override public int getCount() { return mState.getItemCount(); } @Override public int createItem(int index, boolean append, Object[] item) { if (TRACE) TraceHelper.beginSection("createItem"); if (TRACE) TraceHelper.beginSection("getview"); View v = getViewForPosition(index); if (TRACE) TraceHelper.endSection(); LayoutParams lp = (LayoutParams) v.getLayoutParams(); RecyclerView.ViewHolder vh = mBaseGridView.getChildViewHolder(v); lp.setItemAlignmentFacet((ItemAlignmentFacet) getFacet(vh, ItemAlignmentFacet.class)); // See recyclerView docs: we don't need re-add scraped view if it was removed. if (!lp.isItemRemoved()) { if (TRACE) TraceHelper.beginSection("addView"); if (append) { addView(v); } else { addView(v, 0); } if (TRACE) TraceHelper.endSection(); if (mChildVisibility != -1) { // v.setVisibility(mChildVisibility); // FIXME switch (mChildVisibility) { case View.VISIBLE: v.setVisibility(View.VISIBLE); break; case View.INVISIBLE: v.setVisibility(View.INVISIBLE); break; case View.GONE: v.setVisibility(View.GONE); break; default: break; } } if (mPendingMoveSmoothScroller != null) { mPendingMoveSmoothScroller.consumePendingMovesBeforeLayout(); } int subindex = getSubPositionByView(v, v.findFocus()); if (!mInLayout) { // when we are appending item during scroll pass and the item's position // matches the mFocusPosition, we should signal a childSelected event. // However if we are still running PendingMoveSmoothScroller, we defer and // signal the event in PendingMoveSmoothScroller.onStop(). This can // avoid lots of childSelected events during a long smooth scrolling and // increase performance. if (index == mFocusPosition && subindex == mSubFocusPosition && (mPendingMoveSmoothScroller == null || mPendingMoveSmoothScroller.mPendingMoves == 0)) { dispatchChildSelected(); } } else if (!mInFastRelayout) { // fastRelayout will dispatch event at end of onLayoutChildren(). // For full layout, two situations here: // 1. mInLayoutSearchFocus is false, dispatchChildSelected() at mFocusPosition. // 2. mInLayoutSearchFocus is true: dispatchChildSelected() on first child // equal to or after mFocusPosition that can take focus. if (!mInLayoutSearchFocus && index == mFocusPosition && subindex == mSubFocusPosition) { dispatchChildSelected(); } else if (mInLayoutSearchFocus && index >= mFocusPosition && v.hasFocusable()) { mFocusPosition = index; mSubFocusPosition = subindex; mInLayoutSearchFocus = false; dispatchChildSelected(); } } measureChild(v); } item[0] = v; return mOrientation == HORIZONTAL ? v.getMeasuredWidth() : v.getMeasuredHeight(); } @Override public void addItem(Object item, int index, int length, int rowIndex, int edge) { View v = (View) item; int start, end; if (edge == Integer.MIN_VALUE || edge == Integer.MAX_VALUE) { edge = !mGrid.isReversedFlow() ? mWindowAlignment.mainAxis().getPaddingLow() : mWindowAlignment.mainAxis().getSize() - mWindowAlignment.mainAxis().getPaddingHigh(); } boolean edgeIsMin = !mGrid.isReversedFlow(); if (edgeIsMin) { start = edge; end = edge + length; } else { start = edge - length; end = edge; } int startSecondary = getRowStartSecondary(rowIndex) - mScrollOffsetSecondary; mChildrenStates.loadView(v, index); layoutChild(rowIndex, v, start, end, startSecondary); if (DEBUG) { Log.d(getTag(), "addView " + index + " " + v); } if (TRACE) TraceHelper.endSection(); if (index == mGrid.getFirstVisibleIndex()) { if (!mGrid.isReversedFlow()) { updateScrollMin(); } else { updateScrollMax(); } } if (index == mGrid.getLastVisibleIndex()) { if (!mGrid.isReversedFlow()) { updateScrollMax(); } else { updateScrollMin(); } } if (!mInLayout && mPendingMoveSmoothScroller != null) { mPendingMoveSmoothScroller.consumePendingMovesAfterLayout(); } if (mChildLaidOutListener != null) { RecyclerView.ViewHolder vh = mBaseGridView.getChildViewHolder(v); mChildLaidOutListener.onChildLaidOut(mBaseGridView, v, index, vh == null ? NO_ID : vh.getItemId()); } } @Override public void removeItem(int index) { if (TRACE) TraceHelper.beginSection("removeItem"); View v = findViewByPosition(index); if (mInLayout) { detachAndScrapView(v, mRecycler); } else { removeAndRecycleView(v, mRecycler); } if (TRACE) TraceHelper.endSection(); } @Override public int getEdge(int index) { if (mReverseFlowPrimary) { return getViewMax(findViewByPosition(index)); } else { return getViewMin(findViewByPosition(index)); } } @Override public int getSize(int index) { return getViewPrimarySize(findViewByPosition(index)); } }; private void layoutChild(int rowIndex, View v, int start, int end, int startSecondary) { if (TRACE) TraceHelper.beginSection("layoutChild"); int sizeSecondary = mOrientation == HORIZONTAL ? v.getMeasuredHeight() : v.getMeasuredWidth(); if (mFixedRowSizeSecondary > 0) { sizeSecondary = Math.min(sizeSecondary, mFixedRowSizeSecondary); } final int verticalGravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; final int horizontalGravity = (mReverseFlowPrimary || mReverseFlowSecondary) ? Gravity.getAbsoluteGravity(mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK, View.LAYOUT_DIRECTION_RTL) : mGravity & Gravity.HORIZONTAL_GRAVITY_MASK; if (mOrientation == HORIZONTAL && verticalGravity == Gravity.TOP || mOrientation == VERTICAL && horizontalGravity == Gravity.LEFT) { // do nothing } else if (mOrientation == HORIZONTAL && verticalGravity == Gravity.BOTTOM || mOrientation == VERTICAL && horizontalGravity == Gravity.RIGHT) { startSecondary += getRowSizeSecondary(rowIndex) - sizeSecondary; } else if (mOrientation == HORIZONTAL && verticalGravity == Gravity.CENTER_VERTICAL || mOrientation == VERTICAL && horizontalGravity == Gravity.CENTER_HORIZONTAL) { startSecondary += (getRowSizeSecondary(rowIndex) - sizeSecondary) / 2; } int left, top, right, bottom; if (mOrientation == HORIZONTAL) { left = start; top = startSecondary; right = end; bottom = startSecondary + sizeSecondary; } else { top = start; left = startSecondary; bottom = end; right = startSecondary + sizeSecondary; } v.layout(left, top, right, bottom); updateChildOpticalInsets(v, left, top, right, bottom); updateChildAlignments(v); if (TRACE) TraceHelper.endSection(); } private void updateChildOpticalInsets(View v, int left, int top, int right, int bottom) { LayoutParams p = (LayoutParams) v.getLayoutParams(); p.setOpticalInsets(left - v.getLeft(), top - v.getTop(), v.getRight() - right, v.getBottom() - bottom); } private void updateChildAlignments(View v) { final LayoutParams p = (LayoutParams) v.getLayoutParams(); if (p.getItemAlignmentFacet() == null) { // Fallback to global settings on grid view p.setAlignX(mItemAlignment.horizontal.getAlignmentPosition(v)); p.setAlignY(mItemAlignment.vertical.getAlignmentPosition(v)); } else { // Use ItemAlignmentFacet defined on specific ViewHolder p.calculateItemAlignments(mOrientation, v); if (mOrientation == HORIZONTAL) { p.setAlignY(mItemAlignment.vertical.getAlignmentPosition(v)); } else { p.setAlignX(mItemAlignment.horizontal.getAlignmentPosition(v)); } } } private void updateChildAlignments() { for (int i = 0, c = getChildCount(); i < c; i++) { updateChildAlignments(getChildAt(i)); } } void setExtraLayoutSpace(int extraLayoutSpace) { if (mExtraLayoutSpace == extraLayoutSpace) { return; } else if (mExtraLayoutSpace < 0) { throw new IllegalArgumentException("ExtraLayoutSpace must >= 0"); } mExtraLayoutSpace = extraLayoutSpace; requestLayout(); } int getExtraLayoutSpace() { return mExtraLayoutSpace; } private void removeInvisibleViewsAtEnd() { if (mPruneChild) { mGrid.removeInvisibleItemsAtEnd(mFocusPosition, mReverseFlowPrimary ? -mExtraLayoutSpace : mSizePrimary + mExtraLayoutSpace); } } private void removeInvisibleViewsAtFront() { if (mPruneChild) { mGrid.removeInvisibleItemsAtFront(mFocusPosition, mReverseFlowPrimary ? mSizePrimary + mExtraLayoutSpace : -mExtraLayoutSpace); } } private boolean appendOneColumnVisibleItems() { return mGrid.appendOneColumnVisibleItems(); } private boolean prependOneColumnVisibleItems() { return mGrid.prependOneColumnVisibleItems(); } private void appendVisibleItems() { mGrid.appendVisibleItems(mReverseFlowPrimary ? -mExtraLayoutSpace : mSizePrimary + mExtraLayoutSpace); } private void prependVisibleItems() { mGrid.prependVisibleItems(mReverseFlowPrimary ? mSizePrimary + mExtraLayoutSpace : -mExtraLayoutSpace); } /** * Fast layout when there is no structure change, adapter change, etc. * It will layout all views was layout requested or updated, until hit a view * with different size, then it break and detachAndScrap all views after that. */ private void fastRelayout() { boolean invalidateAfter = false; final int childCount = getChildCount(); int position = -1; for (int index = 0; index < childCount; index++) { View view = getChildAt(index); position = getPositionByIndex(index); Grid.Location location = mGrid.getLocation(position); if (location == null) { if (DEBUG) Log.w(getTag(), "fastRelayout(): no Location at " + position); invalidateAfter = true; break; } int startSecondary = getRowStartSecondary(location.row) - mScrollOffsetSecondary; int primarySize, end; int start = getViewMin(view); int oldPrimarySize = getViewPrimarySize(view); LayoutParams lp = (LayoutParams) view.getLayoutParams(); if (lp.viewNeedsUpdate()) { int viewIndex = mBaseGridView.indexOfChild(view); detachAndScrapView(view, mRecycler); view = getViewForPosition(position); addView(view, viewIndex); } if (view.isLayoutRequested()) { measureChild(view); } if (mOrientation == HORIZONTAL) { primarySize = view.getMeasuredWidth(); end = start + primarySize; } else { primarySize = view.getMeasuredHeight(); end = start + primarySize; } layoutChild(location.row, view, start, end, startSecondary); if (oldPrimarySize != primarySize) { // size changed invalidate remaining Locations if (DEBUG) Log.d(getTag(), "fastRelayout: view size changed at " + position); invalidateAfter = true; break; } } if (invalidateAfter) { final int savedLastPos = mGrid.getLastVisibleIndex(); mGrid.invalidateItemsAfter(position); if (mPruneChild) { // in regular prune child mode, we just append items up to edge limit appendVisibleItems(); if (mFocusPosition >= 0 && mFocusPosition <= savedLastPos) { // make sure add focus view back: the view might be outside edge limit // when there is delta in onLayoutChildren(). while (mGrid.getLastVisibleIndex() < mFocusPosition) { mGrid.appendOneColumnVisibleItems(); } } } else { // prune disabled(e.g. in RowsFragment transition): append all removed items while (mGrid.appendOneColumnVisibleItems() && mGrid.getLastVisibleIndex() < savedLastPos) ; } } updateScrollMin(); updateScrollMax(); updateScrollSecondAxis(); } public void removeAndRecycleAllViews(RecyclerView.Recycler recycler) { if (TRACE) TraceHelper.beginSection("removeAndRecycleAllViews"); if (DEBUG) Log.v(TAG, "removeAndRecycleAllViews " + getChildCount()); for (int i = getChildCount() - 1; i >= 0; i--) { removeAndRecycleViewAt(i, recycler); } if (TRACE) TraceHelper.endSection(); } // Lays out items based on the current scroll position @Override public void onLayoutChildren(RecyclerView.Recycler recycler, RecyclerView.State state) { if (DEBUG) { Log.v(getTag(), "layoutChildren start numRows " + mNumRows + " mScrollOffsetSecondary " + mScrollOffsetSecondary + " mScrollOffsetPrimary " + mScrollOffsetPrimary + " inPreLayout " + state.isPreLayout() + " didStructureChange " + state.didStructureChange() + " mForceFullLayout " + mForceFullLayout); Log.v(getTag(), "width " + getWidth() + " height " + getHeight()); } if (mNumRows == 0) { // haven't done measure yet return; } final int itemCount = state.getItemCount(); if (itemCount < 0) { return; } if (!mLayoutEnabled) { discardLayoutInfo(); removeAndRecycleAllViews(recycler); return; } mInLayout = true; if (state.didStructureChange()) { // didStructureChange() == true means attached item has been removed/added. // scroll animation: we are unable to continue a scroll animation, // kill the scroll animation, and let ItemAnimation move the item to new position. // position smooth scroller: kill the animation and stop at final position. // pending smooth scroller: stop and scroll to current focus position. mBaseGridView.stopScroll(); } final boolean scrollToFocus = !isSmoothScrolling() && mFocusScrollStrategy == BaseGridView.FOCUS_SCROLL_ALIGNED; if (mFocusPosition != NO_POSITION && mFocusPositionOffset != Integer.MIN_VALUE) { mFocusPosition = mFocusPosition + mFocusPositionOffset; mSubFocusPosition = 0; } mFocusPositionOffset = 0; saveContext(recycler, state); // Track the old focus view so we can adjust our system scroll position // so that any scroll animations happening now will remain valid. // We must use same delta in Pre Layout (if prelayout exists) and second layout. // So we cache the deltas in PreLayout and use it in second layout. int delta = 0, deltaSecondary = 0; if (mFocusPosition != NO_POSITION && scrollToFocus && mBaseGridView.getScrollState() != RecyclerView.SCROLL_STATE_IDLE) { // FIXME: we should get the remaining scroll animation offset from RecyclerView View focusView = findViewByPosition(mFocusPosition); if (focusView != null) { if (getScrollPosition(focusView, focusView.findFocus(), sTwoInts)) { delta = sTwoInts[0]; deltaSecondary = sTwoInts[1]; } } } boolean hadFocus = mBaseGridView.hasFocus(); int savedFocusPos = mFocusPosition; if (mInFastRelayout = layoutInit()) { fastRelayout(); // appends items till focus position. if (mFocusPosition != NO_POSITION) { View focusView = findViewByPosition(mFocusPosition); if (focusView != null) { if (scrollToFocus) { scrollToView(focusView, false); } if (hadFocus && !focusView.hasFocus()) { focusView.requestFocus(); } } } } else { mInLayoutSearchFocus = hadFocus; if (mFocusPosition != NO_POSITION) { // appends items till focus position. while (appendOneColumnVisibleItems() && findViewByPosition(mFocusPosition) == null) ; } // multiple rounds: scrollToView of first round may drag first/last child into // "visible window" and we update scrollMin/scrollMax then run second scrollToView int oldFirstVisible; int oldLastVisible; do { updateScrollMin(); updateScrollMax(); oldFirstVisible = mGrid.getFirstVisibleIndex(); oldLastVisible = mGrid.getLastVisibleIndex(); View focusView = findViewByPosition(mFocusPosition); // we need force to initialize the child view's position scrollToView(focusView, false); if (focusView != null && hadFocus && !focusView.hasFocus()) { focusView.requestFocus(); } appendVisibleItems(); prependVisibleItems(); removeInvisibleViewsAtFront(); removeInvisibleViewsAtEnd(); } while (mGrid.getFirstVisibleIndex() != oldFirstVisible || mGrid.getLastVisibleIndex() != oldLastVisible); } if (scrollToFocus) { scrollDirectionPrimary(-delta); scrollDirectionSecondary(-deltaSecondary); } appendVisibleItems(); prependVisibleItems(); removeInvisibleViewsAtFront(); removeInvisibleViewsAtEnd(); if (DEBUG) { StringWriter sw = new StringWriter(); PrintWriter pw = new PrintWriter(sw); mGrid.debugPrint(pw); Log.d(getTag(), sw.toString()); } if (mRowSecondarySizeRefresh) { mRowSecondarySizeRefresh = false; } else { updateRowSecondarySizeRefresh(); } // For fastRelayout, only dispatch event when focus position changes. if (mInFastRelayout && mFocusPosition != savedFocusPos) { dispatchChildSelected(); } else if (!mInFastRelayout && mInLayoutSearchFocus) { // For full layout we dispatchChildSelected() in createItem() unless searched all // children and found none is focusable then dispatchChildSelected() here. dispatchChildSelected(); } mInLayout = false; leaveContext(); if (DEBUG) Log.v(getTag(), "layoutChildren end"); } private void offsetChildrenSecondary(int increment) { final int childCount = getChildCount(); if (mOrientation == HORIZONTAL) { for (int i = 0; i < childCount; i++) { getChildAt(i).offsetTopAndBottom(increment); } } else { for (int i = 0; i < childCount; i++) { getChildAt(i).offsetLeftAndRight(increment); } } } private void offsetChildrenPrimary(int increment) { final int childCount = getChildCount(); if (mOrientation == VERTICAL) { for (int i = 0; i < childCount; i++) { getChildAt(i).offsetTopAndBottom(increment); } } else { for (int i = 0; i < childCount; i++) { getChildAt(i).offsetLeftAndRight(increment); } } } @Override public int scrollHorizontallyBy(int dx, Recycler recycler, RecyclerView.State state) { if (DEBUG) Log.v(getTag(), "scrollHorizontallyBy " + dx); if (!mLayoutEnabled || !hasDoneFirstLayout()) { return 0; } saveContext(recycler, state); mInScroll = true; int result; if (mOrientation == HORIZONTAL) { result = scrollDirectionPrimary(dx); } else { result = scrollDirectionSecondary(dx); } leaveContext(); mInScroll = false; return result; } @Override public int scrollVerticallyBy(int dy, Recycler recycler, RecyclerView.State state) { if (DEBUG) Log.v(getTag(), "scrollVerticallyBy " + dy); if (!mLayoutEnabled || !hasDoneFirstLayout()) { return 0; } mInScroll = true; saveContext(recycler, state); int result; if (mOrientation == VERTICAL) { result = scrollDirectionPrimary(dy); } else { result = scrollDirectionSecondary(dy); } leaveContext(); mInScroll = false; return result; } // scroll in main direction may add/prune views private int scrollDirectionPrimary(int da) { if (TRACE) TraceHelper.beginSection("scrollPrimary"); boolean isMaxUnknown = false, isMinUnknown = false; int minScroll = 0, maxScroll = 0; if (da > 0) { isMaxUnknown = mWindowAlignment.mainAxis().isMaxUnknown(); if (!isMaxUnknown) { maxScroll = mWindowAlignment.mainAxis().getMaxScroll(); if (mScrollOffsetPrimary + da > maxScroll) { da = maxScroll - mScrollOffsetPrimary; } } } else if (da < 0) { isMinUnknown = mWindowAlignment.mainAxis().isMinUnknown(); if (!isMinUnknown) { minScroll = mWindowAlignment.mainAxis().getMinScroll(); if (mScrollOffsetPrimary + da < minScroll) { da = minScroll - mScrollOffsetPrimary; } } } if (da == 0) { if (TRACE) TraceHelper.endSection(); return 0; } offsetChildrenPrimary(-da); mScrollOffsetPrimary += da; if (mInLayout) { if (TRACE) TraceHelper.endSection(); return da; } int childCount = getChildCount(); boolean updated; if (mReverseFlowPrimary ? da > 0 : da < 0) { prependVisibleItems(); } else { appendVisibleItems(); } updated = getChildCount() > childCount; childCount = getChildCount(); if (TRACE) TraceHelper.beginSection("remove"); if (mReverseFlowPrimary ? da > 0 : da < 0) { removeInvisibleViewsAtEnd(); } else { removeInvisibleViewsAtFront(); } if (TRACE) TraceHelper.endSection(); updated |= getChildCount() < childCount; if (updated) { updateRowSecondarySizeRefresh(); } mBaseGridView.invalidate(); if (TRACE) TraceHelper.endSection(); return da; } // scroll in second direction will not add/prune views private int scrollDirectionSecondary(int dy) { if (dy == 0) { return 0; } offsetChildrenSecondary(-dy); mScrollOffsetSecondary += dy; mBaseGridView.invalidate(); return dy; } private void updateScrollMax() { int highVisiblePos = (!mReverseFlowPrimary) ? mGrid.getLastVisibleIndex() : mGrid.getFirstVisibleIndex(); int highMaxPos = (!mReverseFlowPrimary) ? mState.getItemCount() - 1 : 0; if (highVisiblePos < 0) { return; } final boolean highAvailable = highVisiblePos == highMaxPos; final boolean maxUnknown = mWindowAlignment.mainAxis().isMaxUnknown(); if (!highAvailable && maxUnknown) { return; } int maxEdge = mGrid.findRowMax(true, sTwoInts) + mScrollOffsetPrimary; int rowIndex = sTwoInts[0]; int pos = sTwoInts[1]; int savedMaxEdge = mWindowAlignment.mainAxis().getMaxEdge(); mWindowAlignment.mainAxis().setMaxEdge(maxEdge); int maxScroll = getPrimarySystemScrollPosition(findViewByPosition(pos)); mWindowAlignment.mainAxis().setMaxEdge(savedMaxEdge); if (highAvailable) { mWindowAlignment.mainAxis().setMaxEdge(maxEdge); mWindowAlignment.mainAxis().setMaxScroll(maxScroll); if (DEBUG) Log.v(getTag(), "updating scroll maxEdge to " + maxEdge + " scrollMax to " + maxScroll); } else { mWindowAlignment.mainAxis().invalidateScrollMax(); if (DEBUG) Log.v(getTag(), "Invalidate scrollMax since it should be " + "greater than " + maxScroll); } } private void updateScrollMin() { int lowVisiblePos = (!mReverseFlowPrimary) ? mGrid.getFirstVisibleIndex() : mGrid.getLastVisibleIndex(); int lowMinPos = (!mReverseFlowPrimary) ? 0 : mState.getItemCount() - 1; if (lowVisiblePos < 0) { return; } final boolean lowAvailable = lowVisiblePos == lowMinPos; final boolean minUnknown = mWindowAlignment.mainAxis().isMinUnknown(); if (!lowAvailable && minUnknown) { return; } int minEdge = mGrid.findRowMin(false, sTwoInts) + mScrollOffsetPrimary; int rowIndex = sTwoInts[0]; int pos = sTwoInts[1]; int savedMinEdge = mWindowAlignment.mainAxis().getMinEdge(); mWindowAlignment.mainAxis().setMinEdge(minEdge); int minScroll = getPrimarySystemScrollPosition(findViewByPosition(pos)); mWindowAlignment.mainAxis().setMinEdge(savedMinEdge); if (lowAvailable) { mWindowAlignment.mainAxis().setMinEdge(minEdge); mWindowAlignment.mainAxis().setMinScroll(minScroll); if (DEBUG) Log.v(getTag(), "updating scroll minEdge to " + minEdge + " scrollMin to " + minScroll); } else { mWindowAlignment.mainAxis().invalidateScrollMin(); if (DEBUG) Log.v(getTag(), "Invalidate scrollMin, since it should be " + "less than " + minScroll); } } private void updateScrollSecondAxis() { mWindowAlignment.secondAxis().setMinEdge(0); mWindowAlignment.secondAxis().setMaxEdge(getSizeSecondary()); } private void initScrollController() { mWindowAlignment.reset(); mWindowAlignment.horizontal.setSize(getWidth()); mWindowAlignment.vertical.setSize(getHeight()); mWindowAlignment.horizontal.setPadding(getPaddingLeft(), getPaddingRight()); mWindowAlignment.vertical.setPadding(getPaddingTop(), getPaddingBottom()); mSizePrimary = mWindowAlignment.mainAxis().getSize(); mScrollOffsetPrimary = -mWindowAlignment.mainAxis().getPaddingLow(); mScrollOffsetSecondary = -mWindowAlignment.secondAxis().getPaddingLow(); if (DEBUG) { Log.v(getTag(), "initScrollController mSizePrimary " + mSizePrimary + " mWindowAlignment " + mWindowAlignment + " mScrollOffsetPrimary " + mScrollOffsetPrimary); } } private void updateScrollController() { // mScrollOffsetPrimary and mScrollOffsetSecondary includes the padding. // e.g. when topPadding is 16 for horizontal grid view, the initial // mScrollOffsetSecondary is -16. fastRelayout() put views based on offsets(not padding), // when padding changes to 20, we also need update mScrollOffsetSecondary to -20 before // fastRelayout() is performed int paddingPrimaryDiff, paddingSecondaryDiff; if (mOrientation == HORIZONTAL) { paddingPrimaryDiff = getPaddingLeft() - mWindowAlignment.horizontal.getPaddingLow(); paddingSecondaryDiff = getPaddingTop() - mWindowAlignment.vertical.getPaddingLow(); } else { paddingPrimaryDiff = getPaddingTop() - mWindowAlignment.vertical.getPaddingLow(); paddingSecondaryDiff = getPaddingLeft() - mWindowAlignment.horizontal.getPaddingLow(); } mScrollOffsetPrimary -= paddingPrimaryDiff; mScrollOffsetSecondary -= paddingSecondaryDiff; mWindowAlignment.horizontal.setSize(getWidth()); mWindowAlignment.vertical.setSize(getHeight()); mWindowAlignment.horizontal.setPadding(getPaddingLeft(), getPaddingRight()); mWindowAlignment.vertical.setPadding(getPaddingTop(), getPaddingBottom()); mSizePrimary = mWindowAlignment.mainAxis().getSize(); if (DEBUG) { Log.v(getTag(), "updateScrollController mSizePrimary " + mSizePrimary + " mWindowAlignment " + mWindowAlignment + " mScrollOffsetPrimary " + mScrollOffsetPrimary); } } public void setSelection(RecyclerView parent, int position, int primaryScrollExtra) { setSelection(parent, position, 0, false, primaryScrollExtra); } public void setSelectionSmooth(RecyclerView parent, int position) { setSelection(parent, position, 0, true, 0); } public void setSelectionWithSub(RecyclerView parent, int position, int subposition, int primaryScrollExtra) { setSelection(parent, position, subposition, false, primaryScrollExtra); } public void setSelectionSmoothWithSub(RecyclerView parent, int position, int subposition) { setSelection(parent, position, subposition, true, 0); } public int getSelection() { return mFocusPosition; } public int getSubSelection() { return mSubFocusPosition; } public void setSelection(RecyclerView parent, int position, int subposition, boolean smooth, int primaryScrollExtra) { if (mFocusPosition != position && position != NO_POSITION || subposition != mSubFocusPosition || primaryScrollExtra != mPrimaryScrollExtra) { scrollToSelection(parent, position, subposition, smooth, primaryScrollExtra); } } private void scrollToSelection(RecyclerView parent, int position, int subposition, boolean smooth, int primaryScrollExtra) { if (TRACE) TraceHelper.beginSection("scrollToSelection"); mPrimaryScrollExtra = primaryScrollExtra; View view = findViewByPosition(position); if (view != null) { mInSelection = true; scrollToView(view, smooth); mInSelection = false; } else { mFocusPosition = position; mSubFocusPosition = subposition; mFocusPositionOffset = Integer.MIN_VALUE; if (!mLayoutEnabled) { return; } if (smooth) { if (!hasDoneFirstLayout()) { Log.w(getTag(), "setSelectionSmooth should " + "not be called before first layout pass"); return; } startPositionSmoothScroller(position); } else { mForceFullLayout = true; parent.requestLayout(); } } if (TRACE) TraceHelper.endSection(); } void startPositionSmoothScroller(int position) { LinearSmoothScroller linearSmoothScroller = new GridLinearSmoothScroller() { @Override public PointF computeScrollVectorForPosition(int targetPosition) { if (getChildCount() == 0) { return null; } final int firstChildPos = getPosition(getChildAt(0)); // TODO We should be able to deduce direction from bounds of current and target // focus, rather than making assumptions about positions and directionality final boolean isStart = mReverseFlowPrimary ? targetPosition > firstChildPos : targetPosition < firstChildPos; final int direction = isStart ? -1 : 1; if (mOrientation == HORIZONTAL) { return new PointF(direction, 0); } else { return new PointF(0, direction); } } }; linearSmoothScroller.setTargetPosition(position); startSmoothScroll(linearSmoothScroller); } private void processPendingMovement(boolean forward) { if (forward ? hasCreatedLastItem() : hasCreatedFirstItem()) { return; } if (mPendingMoveSmoothScroller == null) { // Stop existing scroller and create a new PendingMoveSmoothScroller. mBaseGridView.stopScroll(); PendingMoveSmoothScroller linearSmoothScroller = new PendingMoveSmoothScroller(forward ? 1 : -1, mNumRows > 1); mFocusPositionOffset = 0; startSmoothScroll(linearSmoothScroller); if (linearSmoothScroller.isRunning()) { mPendingMoveSmoothScroller = linearSmoothScroller; } } else { if (forward) { mPendingMoveSmoothScroller.increasePendingMoves(); } else { mPendingMoveSmoothScroller.decreasePendingMoves(); } } } @Override public void onItemsAdded(RecyclerView recyclerView, int positionStart, int itemCount) { if (DEBUG) Log.v(getTag(), "onItemsAdded positionStart " + positionStart + " itemCount " + itemCount); if (mFocusPosition != NO_POSITION && mFocusPositionOffset != Integer.MIN_VALUE) { int pos = mFocusPosition + mFocusPositionOffset; if (positionStart <= pos) { mFocusPositionOffset += itemCount; } } mChildrenStates.clear(); } @Override public void onItemsChanged(RecyclerView recyclerView) { if (DEBUG) Log.v(getTag(), "onItemsChanged"); mFocusPositionOffset = 0; mChildrenStates.clear(); } @Override public void onItemsRemoved(RecyclerView recyclerView, int positionStart, int itemCount) { if (DEBUG) Log.v(getTag(), "onItemsRemoved positionStart " + positionStart + " itemCount " + itemCount); if (mFocusPosition != NO_POSITION && mFocusPositionOffset != Integer.MIN_VALUE) { int pos = mFocusPosition + mFocusPositionOffset; if (positionStart <= pos) { if (positionStart + itemCount > pos) { // stop updating offset after the focus item was removed mFocusPositionOffset = Integer.MIN_VALUE; } else { mFocusPositionOffset -= itemCount; } } } mChildrenStates.clear(); } @Override public void onItemsMoved(RecyclerView recyclerView, int fromPosition, int toPosition, int itemCount) { if (DEBUG) Log.v(getTag(), "onItemsMoved fromPosition " + fromPosition + " toPosition " + toPosition); if (mFocusPosition != NO_POSITION && mFocusPositionOffset != Integer.MIN_VALUE) { int pos = mFocusPosition + mFocusPositionOffset; if (fromPosition <= pos && pos < fromPosition + itemCount) { // moved items include focused position mFocusPositionOffset += toPosition - fromPosition; } else if (fromPosition < pos && toPosition > pos - itemCount) { // move items before focus position to after focused position mFocusPositionOffset -= itemCount; } else if (fromPosition > pos && toPosition < pos) { // move items after focus position to before focused position mFocusPositionOffset += itemCount; } } mChildrenStates.clear(); } @Override public void onItemsUpdated(RecyclerView recyclerView, int positionStart, int itemCount) { if (DEBUG) Log.v(getTag(), "onItemsUpdated positionStart " + positionStart + " itemCount " + itemCount); for (int i = positionStart, end = positionStart + itemCount; i < end; i++) { mChildrenStates.remove(i); } } @Override public boolean onRequestChildFocus(RecyclerView parent, View child, View focused) { if (mFocusSearchDisabled) { return true; } if (getPositionByView(child) == NO_POSITION) { // This shouldn't happen, but in case it does be sure not to attempt a // scroll to a view whose item has been removed. return true; } if (!mInLayout && !mInSelection && !mInScroll) { scrollToView(child, focused, true); } return true; } @Override public boolean requestChildRectangleOnScreen(RecyclerView parent, View view, Rect rect, boolean immediate) { if (DEBUG) Log.v(getTag(), "requestChildRectangleOnScreen " + view + " " + rect); return false; } int getScrollOffsetX() { return mOrientation == HORIZONTAL ? mScrollOffsetPrimary : mScrollOffsetSecondary; } int getScrollOffsetY() { return mOrientation == HORIZONTAL ? mScrollOffsetSecondary : mScrollOffsetPrimary; } public void getViewSelectedOffsets(View view, int[] offsets) { if (mOrientation == HORIZONTAL) { offsets[0] = getPrimarySystemScrollPosition(view) - mScrollOffsetPrimary; offsets[1] = getSecondarySystemScrollPosition(view) - mScrollOffsetSecondary; } else { offsets[1] = getPrimarySystemScrollPosition(view) - mScrollOffsetPrimary; offsets[0] = getSecondarySystemScrollPosition(view) - mScrollOffsetSecondary; } } private int getPrimarySystemScrollPosition(View view) { final int viewCenterPrimary = mScrollOffsetPrimary + getViewCenter(view); final int viewMin = getViewMin(view); final int viewMax = getViewMax(view); // TODO: change to use State object in onRequestChildFocus() boolean isMin, isMax; if (!mReverseFlowPrimary) { isMin = mGrid.getFirstVisibleIndex() == 0; isMax = mGrid.getLastVisibleIndex() == (mState == null ? getItemCount() : mState.getItemCount()) - 1; } else { isMax = mGrid.getFirstVisibleIndex() == 0; isMin = mGrid.getLastVisibleIndex() == (mState == null ? getItemCount() : mState.getItemCount()) - 1; } for (int i = getChildCount() - 1; (isMin || isMax) && i >= 0; i--) { View v = getChildAt(i); if (v == view || v == null) { continue; } if (isMin && getViewMin(v) < viewMin) { isMin = false; } if (isMax && getViewMax(v) > viewMax) { isMax = false; } } return mWindowAlignment.mainAxis().getSystemScrollPos(viewCenterPrimary, isMin, isMax); } /** * Get adjusted primary position for a given childView (if there is multiple ItemAlignment defined * on the view). */ private int getAdjustedPrimaryScrollPosition(int scrollPrimary, View view, View childView) { int subindex = getSubPositionByView(view, childView); if (subindex != 0) { final LayoutParams lp = (LayoutParams) view.getLayoutParams(); scrollPrimary += lp.getAlignMultiple()[subindex] - lp.getAlignMultiple()[0]; } return scrollPrimary; } private int getSecondarySystemScrollPosition(View view) { int viewCenterSecondary = mScrollOffsetSecondary + getViewCenterSecondary(view); int pos = getPositionByView(view); Grid.Location location = mGrid.getLocation(pos); final int row = location.row; final boolean isMin, isMax; if (!mReverseFlowSecondary) { isMin = row == 0; isMax = row == mGrid.getNumRows() - 1; } else { isMax = row == 0; isMin = row == mGrid.getNumRows() - 1; } return mWindowAlignment.secondAxis().getSystemScrollPos(viewCenterSecondary, isMin, isMax); } /** * Scroll to a given child view and change mFocusPosition. */ private void scrollToView(View view, boolean smooth) { scrollToView(view, view == null ? null : view.findFocus(), smooth); } /** * Scroll to a given child view and change mFocusPosition. */ private void scrollToView(View view, View childView, boolean smooth) { int newFocusPosition = getPositionByView(view); int newSubFocusPosition = getSubPositionByView(view, childView); if (newFocusPosition != mFocusPosition || newSubFocusPosition != mSubFocusPosition) { mFocusPosition = newFocusPosition; mSubFocusPosition = newSubFocusPosition; mFocusPositionOffset = 0; if (!mInLayout) { dispatchChildSelected(); } if (mBaseGridView.isChildrenDrawingOrderEnabledInternal()) { mBaseGridView.invalidate(); } } if (view == null) { return; } if (!view.hasFocus() && mBaseGridView.hasFocus()) { // transfer focus to the child if it does not have focus yet (e.g. triggered // by setSelection()) view.requestFocus(); } if (!mScrollEnabled && smooth) { return; } if (getScrollPosition(view, childView, sTwoInts)) { scrollGrid(sTwoInts[0], sTwoInts[1], smooth); } } private boolean getScrollPosition(View view, View childView, int[] deltas) { switch (mFocusScrollStrategy) { case BaseGridView.FOCUS_SCROLL_ALIGNED: default: return getAlignedPosition(view, childView, deltas); case BaseGridView.FOCUS_SCROLL_ITEM: case BaseGridView.FOCUS_SCROLL_PAGE: return getNoneAlignedPosition(view, deltas); } } private boolean getNoneAlignedPosition(View view, int[] deltas) { int pos = getPositionByView(view); int viewMin = getViewMin(view); int viewMax = getViewMax(view); // we either align "firstView" to left/top padding edge // or align "lastView" to right/bottom padding edge View firstView = null; View lastView = null; int paddingLow = mWindowAlignment.mainAxis().getPaddingLow(); int clientSize = mWindowAlignment.mainAxis().getClientSize(); final int row = mGrid.getRowIndex(pos); if (viewMin < paddingLow) { // view enters low padding area: firstView = view; if (mFocusScrollStrategy == BaseGridView.FOCUS_SCROLL_PAGE) { // scroll one "page" left/top, // align first visible item of the "page" at the low padding edge. while (prependOneColumnVisibleItems()) { CircularIntArray positions = mGrid.getItemPositionsInRows(mGrid.getFirstVisibleIndex(), pos)[row]; firstView = findViewByPosition(positions.get(0)); if (viewMax - getViewMin(firstView) > clientSize) { if (positions.size() > 2) { firstView = findViewByPosition(positions.get(2)); } break; } } } } else if (viewMax > clientSize + paddingLow) { // view enters high padding area: if (mFocusScrollStrategy == BaseGridView.FOCUS_SCROLL_PAGE) { // scroll whole one page right/bottom, align view at the low padding edge. firstView = view; do { CircularIntArray positions = mGrid.getItemPositionsInRows(pos, mGrid.getLastVisibleIndex())[row]; lastView = findViewByPosition(positions.get(positions.size() - 1)); if (getViewMax(lastView) - viewMin > clientSize) { lastView = null; break; } } while (appendOneColumnVisibleItems()); if (lastView != null) { // however if we reached end, we should align last view. firstView = null; } } else { lastView = view; } } int scrollPrimary = 0; int scrollSecondary = 0; if (firstView != null) { scrollPrimary = getViewMin(firstView) - paddingLow; } else if (lastView != null) { scrollPrimary = getViewMax(lastView) - (paddingLow + clientSize); } View secondaryAlignedView; if (firstView != null) { secondaryAlignedView = firstView; } else if (lastView != null) { secondaryAlignedView = lastView; } else { secondaryAlignedView = view; } scrollSecondary = getSecondarySystemScrollPosition(secondaryAlignedView); scrollSecondary -= mScrollOffsetSecondary; if (scrollPrimary != 0 || scrollSecondary != 0) { deltas[0] = scrollPrimary; deltas[1] = scrollSecondary; return true; } return false; } private boolean getAlignedPosition(View view, View childView, int[] deltas) { int scrollPrimary = getPrimarySystemScrollPosition(view); if (childView != null) { scrollPrimary = getAdjustedPrimaryScrollPosition(scrollPrimary, view, childView); } int scrollSecondary = getSecondarySystemScrollPosition(view); if (DEBUG) { Log.v(getTag(), "getAlignedPosition " + scrollPrimary + " " + scrollSecondary + " " + mPrimaryScrollExtra + " " + mWindowAlignment); Log.v(getTag(), "getAlignedPosition " + mScrollOffsetPrimary + " " + mScrollOffsetSecondary); } scrollPrimary -= mScrollOffsetPrimary; scrollSecondary -= mScrollOffsetSecondary; scrollPrimary += mPrimaryScrollExtra; if (scrollPrimary != 0 || scrollSecondary != 0) { deltas[0] = scrollPrimary; deltas[1] = scrollSecondary; return true; } return false; } private void scrollGrid(int scrollPrimary, int scrollSecondary, boolean smooth) { if (mInLayout) { scrollDirectionPrimary(scrollPrimary); scrollDirectionSecondary(scrollSecondary); } else { int scrollX; int scrollY; if (mOrientation == HORIZONTAL) { scrollX = scrollPrimary; scrollY = scrollSecondary; } else { scrollX = scrollSecondary; scrollY = scrollPrimary; } if (smooth) { mBaseGridView.smoothScrollBy(scrollX, scrollY); } else { mBaseGridView.scrollBy(scrollX, scrollY); } } } public void setPruneChild(boolean pruneChild) { if (mPruneChild != pruneChild) { mPruneChild = pruneChild; if (mPruneChild) { requestLayout(); } } } public boolean getPruneChild() { return mPruneChild; } public void setScrollEnabled(boolean scrollEnabled) { if (mScrollEnabled != scrollEnabled) { mScrollEnabled = scrollEnabled; if (mScrollEnabled && mFocusScrollStrategy == BaseGridView.FOCUS_SCROLL_ALIGNED && mFocusPosition != NO_POSITION) { scrollToSelection(mBaseGridView, mFocusPosition, mSubFocusPosition, true, mPrimaryScrollExtra); } } } public boolean isScrollEnabled() { return mScrollEnabled; } private int findImmediateChildIndex(View view) { while (view != null && view != mBaseGridView) { int index = mBaseGridView.indexOfChild(view); if (index >= 0) { return index; } view = (View) view.getParent(); } return NO_POSITION; } void setFocusSearchDisabled(boolean disabled) { mFocusSearchDisabled = disabled; } boolean isFocusSearchDisabled() { return mFocusSearchDisabled; } @Override public View onInterceptFocusSearch(View focused, int direction) { if (mFocusSearchDisabled) { return focused; } return null; } boolean hasPreviousViewInSameRow(int pos) { if (mGrid == null || pos == NO_POSITION || mGrid.getFirstVisibleIndex() < 0) { return false; } if (mGrid.getFirstVisibleIndex() > 0) { return true; } final int focusedRow = mGrid.getLocation(pos).row; for (int i = getChildCount() - 1; i >= 0; i--) { int position = getPositionByIndex(i); Grid.Location loc = mGrid.getLocation(position); if (loc != null && loc.row == focusedRow) { if (position < pos) { return true; } } } return false; } @Override public boolean onAddFocusables(RecyclerView recyclerView, ArrayList<View> views, int direction, int focusableMode) { if (mFocusSearchDisabled) { return true; } // If this viewgroup or one of its children currently has focus then we // consider our children for focus searching in main direction on the same row. // If this viewgroup has no focus and using focus align, we want the system // to ignore our children and pass focus to the viewgroup, which will pass // focus on to its children appropriately. // If this viewgroup has no focus and not using focus align, we want to // consider the child that does not overlap with padding area. if (recyclerView.hasFocus()) { final int movement = getMovement(direction); if (movement != PREV_ITEM && movement != NEXT_ITEM) { // Move on secondary direction uses default addFocusables(). return false; } if (mPendingMoveSmoothScroller != null) { // don't find next focusable if has pending movement. return true; } final View focused = recyclerView.findFocus(); final int focusedPos = getPositionByIndex(findImmediateChildIndex(focused)); // Add focusables of focused item. if (focusedPos != NO_POSITION) { findViewByPosition(focusedPos).addFocusables(views, direction, focusableMode); } final int focusedRow = mGrid != null && focusedPos != NO_POSITION ? mGrid.getLocation(focusedPos).row : NO_POSITION; // Add focusables of next neighbor of same row on the focus search direction. if (mGrid != null) { final int focusableCount = views.size(); for (int i = 0, count = getChildCount(); i < count; i++) { int index = movement == NEXT_ITEM ? i : count - 1 - i; final View child = getChildAt(index); if (child.getVisibility() != View.VISIBLE || !child.hasFocusable()) { continue; } int position = getPositionByIndex(index); Grid.Location loc = mGrid.getLocation(position); if (focusedRow == NO_POSITION || (loc != null && loc.row == focusedRow)) { if (focusedPos == NO_POSITION || (movement == NEXT_ITEM && position > focusedPos) || (movement == PREV_ITEM && position < focusedPos)) { child.addFocusables(views, direction, focusableMode); if (views.size() > focusableCount) { break; } } } } } } else { if (mFocusScrollStrategy != BaseGridView.FOCUS_SCROLL_ALIGNED) { // adding views not overlapping padding area to avoid scrolling in gaining focus int left = mWindowAlignment.mainAxis().getPaddingLow(); int right = mWindowAlignment.mainAxis().getClientSize() + left; int focusableCount = views.size(); for (int i = 0, count = getChildCount(); i < count; i++) { View child = getChildAt(i); if (child.getVisibility() == View.VISIBLE) { if (getViewMin(child) >= left && getViewMax(child) <= right) { child.addFocusables(views, direction, focusableMode); } } } // if we cannot find any, then just add all children. if (views.size() == focusableCount) { for (int i = 0, count = getChildCount(); i < count; i++) { View child = getChildAt(i); if (child.getVisibility() == View.VISIBLE) { child.addFocusables(views, direction, focusableMode); } } if (views.size() != focusableCount) { return true; } } else { return true; } // if still cannot find any, fall through and add itself } if (recyclerView.isFocusable()) { views.add(recyclerView); } } return true; } private boolean hasCreatedLastItem() { int count = mState.getItemCount(); return count == 0 || findViewByPosition(count - 1) != null; } private boolean hasCreatedFirstItem() { int count = mState.getItemCount(); return count == 0 || findViewByPosition(0) != null; } boolean canScrollTo(View view) { return view.getVisibility() == View.VISIBLE && (!hasFocus() || view.hasFocusable()); } @Override public View onFocusSearchFailed(View focused, int direction, Recycler recycler, RecyclerView.State state) { if (DEBUG) Log.v(getTag(), "onFocusSearchFailed direction " + direction); View view = null; int movement = getMovement(direction); final boolean isScroll = mBaseGridView.getScrollState() != RecyclerView.SCROLL_STATE_IDLE; saveContext(recycler, state); if (movement == NEXT_ITEM) { if (isScroll || !mFocusOutEnd) { view = focused; } if (mScrollEnabled && !hasCreatedLastItem()) { processPendingMovement(true); view = focused; } } else if (movement == PREV_ITEM) { if (isScroll || !mFocusOutFront) { view = focused; } if (mScrollEnabled && !hasCreatedFirstItem()) { processPendingMovement(false); view = focused; } } leaveContext(); if (DEBUG) Log.v(getTag(), "onFocusSearchFailed returning view " + view); return view; } boolean gridOnRequestFocusInDescendants(RecyclerView recyclerView, int direction, Rect previouslyFocusedRect) { switch (mFocusScrollStrategy) { case BaseGridView.FOCUS_SCROLL_ALIGNED: default: return gridOnRequestFocusInDescendantsAligned(recyclerView, direction, previouslyFocusedRect); case BaseGridView.FOCUS_SCROLL_PAGE: case BaseGridView.FOCUS_SCROLL_ITEM: return gridOnRequestFocusInDescendantsUnaligned(recyclerView, direction, previouslyFocusedRect); } } private boolean gridOnRequestFocusInDescendantsAligned(RecyclerView recyclerView, int direction, Rect previouslyFocusedRect) { View view = findViewByPosition(mFocusPosition); if (view != null) { boolean result = view.requestFocus(direction, previouslyFocusedRect); if (!result && DEBUG) { Log.w(getTag(), "failed to request focus on " + view); } return result; } return false; } private boolean gridOnRequestFocusInDescendantsUnaligned(RecyclerView recyclerView, int direction, Rect previouslyFocusedRect) { // focus to view not overlapping padding area to avoid scrolling in gaining focus int index; int increment; int end; int count = getChildCount(); if ((direction & View.FOCUS_FORWARD) != 0) { index = 0; increment = 1; end = count; } else { index = count - 1; increment = -1; end = -1; } int left = mWindowAlignment.mainAxis().getPaddingLow(); int right = mWindowAlignment.mainAxis().getClientSize() + left; for (int i = index; i != end; i += increment) { View child = getChildAt(i); if (child.getVisibility() == View.VISIBLE) { if (getViewMin(child) >= left && getViewMax(child) <= right) { if (child.requestFocus(direction, previouslyFocusedRect)) { return true; } } } } return false; } private final static int PREV_ITEM = 0; private final static int NEXT_ITEM = 1; private final static int PREV_ROW = 2; private final static int NEXT_ROW = 3; private int getMovement(int direction) { int movement = View.FOCUS_LEFT; if (mOrientation == HORIZONTAL) { switch (direction) { case View.FOCUS_LEFT: movement = (!mReverseFlowPrimary) ? PREV_ITEM : NEXT_ITEM; break; case View.FOCUS_RIGHT: movement = (!mReverseFlowPrimary) ? NEXT_ITEM : PREV_ITEM; break; case View.FOCUS_UP: movement = PREV_ROW; break; case View.FOCUS_DOWN: movement = NEXT_ROW; break; } } else if (mOrientation == VERTICAL) { switch (direction) { case View.FOCUS_LEFT: movement = (!mReverseFlowPrimary) ? PREV_ROW : NEXT_ROW; break; case View.FOCUS_RIGHT: movement = (!mReverseFlowPrimary) ? NEXT_ROW : PREV_ROW; break; case View.FOCUS_UP: movement = PREV_ITEM; break; case View.FOCUS_DOWN: movement = NEXT_ITEM; break; } } return movement; } int getChildDrawingOrder(RecyclerView recyclerView, int childCount, int i) { View view = findViewByPosition(mFocusPosition); if (view == null) { return i; } int focusIndex = recyclerView.indexOfChild(view); // supposely 0 1 2 3 4 5 6 7 8 9, 4 is the center item // drawing order is 0 1 2 3 9 8 7 6 5 4 if (i < focusIndex) { return i; } else if (i < childCount - 1) { return focusIndex + childCount - 1 - i; } else { return focusIndex; } } @Override public void onAdapterChanged(RecyclerView.Adapter oldAdapter, RecyclerView.Adapter newAdapter) { if (DEBUG) Log.v(getTag(), "onAdapterChanged to " + newAdapter); if (oldAdapter != null) { discardLayoutInfo(); mFocusPosition = NO_POSITION; mFocusPositionOffset = 0; mChildrenStates.clear(); } if (newAdapter instanceof FacetProviderAdapter) { mFacetProviderAdapter = (FacetProviderAdapter) newAdapter; } else { mFacetProviderAdapter = null; } super.onAdapterChanged(oldAdapter, newAdapter); } private void discardLayoutInfo() { mGrid = null; mRowSizeSecondary = null; mRowSecondarySizeRefresh = false; } public void setLayoutEnabled(boolean layoutEnabled) { if (mLayoutEnabled != layoutEnabled) { mLayoutEnabled = layoutEnabled; requestLayout(); } } void setChildrenVisibility(int visiblity) { mChildVisibility = visiblity; if (mChildVisibility != -1) { int count = getChildCount(); for (int i = 0; i < count; i++) { // getChildAt(i).setVisibility(mChildVisibility); switch (mChildVisibility) { case View.VISIBLE: getChildAt(i).setVisibility(View.VISIBLE); break; case View.INVISIBLE: getChildAt(i).setVisibility(View.INVISIBLE); break; case View.GONE: getChildAt(i).setVisibility(View.GONE); break; default: break; } } } } final static class SavedState implements Parcelable { int index; // index inside adapter of the current view Bundle childStates = Bundle.EMPTY; @Override public void writeToParcel(Parcel out, int flags) { out.writeInt(index); out.writeBundle(childStates); } @SuppressWarnings("hiding") public static final Parcelable.Creator<SavedState> CREATOR = new Parcelable.Creator<SavedState>() { @Override public SavedState createFromParcel(Parcel in) { return new SavedState(in); } @Override public SavedState[] newArray(int size) { return new SavedState[size]; } }; @Override public int describeContents() { return 0; } SavedState(Parcel in) { index = in.readInt(); childStates = in.readBundle(GridLayoutManager.class.getClassLoader()); } SavedState() { } } @Override public Parcelable onSaveInstanceState() { if (DEBUG) Log.v(getTag(), "onSaveInstanceState getSelection() " + getSelection()); SavedState ss = new SavedState(); // save selected index ss.index = getSelection(); // save offscreen child (state when they are recycled) Bundle bundle = mChildrenStates.saveAsBundle(); // save views currently is on screen (TODO save cached views) for (int i = 0, count = getChildCount(); i < count; i++) { View view = getChildAt(i); int position = getPositionByView(view); if (position != NO_POSITION) { bundle = mChildrenStates.saveOnScreenView(bundle, view, position); } } ss.childStates = bundle; return ss; } void onChildRecycled(RecyclerView.ViewHolder holder) { final int position = holder.getAdapterPosition(); if (position != NO_POSITION) { mChildrenStates.saveOffscreenView(holder.itemView, position); } } @Override public void onRestoreInstanceState(Parcelable state) { if (!(state instanceof SavedState)) { return; } SavedState loadingState = (SavedState) state; mFocusPosition = loadingState.index; mFocusPositionOffset = 0; mChildrenStates.loadFromBundle(loadingState.childStates); mForceFullLayout = true; requestLayout(); if (DEBUG) Log.v(getTag(), "onRestoreInstanceState mFocusPosition " + mFocusPosition); } /** * Returns the adapter position of the first visible view. This position does not include * adapter changes that were dispatched after the last layout pass. * <p> * If RecyclerView has item decorators, they will be considered in calculations as well. * <p> * LayoutManager may pre-cache some views that are not necessarily visible. Those views * are ignored in this method. * * @return The adapter position of the first visible item or {@link RecyclerView#NO_POSITION} if * there aren't any visible items. * @see #findFirstCompletelyVisibleItemPosition() * @see #findLastVisibleItemPosition() */ public int findFirstVisibleItemPosition() { final View child = findOneVisibleChild(0, getChildCount(), false, true); return child == null ? NO_POSITION : getPosition(child); } /** * Returns the adapter position of the first fully visible view. This position does not include * adapter changes that were dispatched after the last layout pass. * <p> * Note that bounds check is only performed in the current orientation. That means, if * LayoutManager is horizontal, it will only check the view's left and right edges. * * @return The adapter position of the first fully visible item or * {@link RecyclerView#NO_POSITION} if there aren't any visible items. * @see #findFirstVisibleItemPosition() * @see #findLastCompletelyVisibleItemPosition() */ public int findFirstCompletelyVisibleItemPosition() { final View child = findOneVisibleChild(0, getChildCount(), true, false); return child == null ? NO_POSITION : getPosition(child); } /** * Returns the adapter position of the last visible view. This position does not include * adapter changes that were dispatched after the last layout pass. * <p> * If RecyclerView has item decorators, they will be considered in calculations as well. * <p> * LayoutManager may pre-cache some views that are not necessarily visible. Those views * are ignored in this method. * * @return The adapter position of the last visible view or {@link RecyclerView#NO_POSITION} if * there aren't any visible items. * @see #findLastCompletelyVisibleItemPosition() * @see #findFirstVisibleItemPosition() */ public int findLastVisibleItemPosition() { final View child = findOneVisibleChild(getChildCount() - 1, -1, false, true); return child == null ? NO_POSITION : getPosition(child); } /** * Returns the adapter position of the last fully visible view. This position does not include * adapter changes that were dispatched after the last layout pass. * <p> * Note that bounds check is only performed in the current orientation. That means, if * LayoutManager is horizontal, it will only check the view's left and right edges. * * @return The adapter position of the last fully visible view or * {@link RecyclerView#NO_POSITION} if there aren't any visible items. * @see #findLastVisibleItemPosition() * @see #findFirstCompletelyVisibleItemPosition() */ public int findLastCompletelyVisibleItemPosition() { final View child = findOneVisibleChild(getChildCount() - 1, -1, true, false); return child == null ? NO_POSITION : getPosition(child); } private View findOneVisibleChild(int fromIndex, int toIndex, boolean completelyVisible, boolean acceptPartiallyVisible) { ensureLayoutState(); final int start = mOrientationHelper.getStartAfterPadding(); final int end = mOrientationHelper.getEndAfterPadding(); final int next = toIndex > fromIndex ? 1 : -1; View partiallyVisible = null; for (int i = fromIndex; i != toIndex; i += next) { final View child = getChildAt(i); final int childStart = mOrientationHelper.getDecoratedStart(child); final int childEnd = mOrientationHelper.getDecoratedEnd(child); if (childStart < end && childEnd > start) { if (completelyVisible) { if (childStart >= start && childEnd <= end) { return child; } else if (acceptPartiallyVisible && partiallyVisible == null) { partiallyVisible = child; } } else { return child; } } } return partiallyVisible; } private void ensureLayoutState() { if (mOrientationHelper == null) { mOrientationHelper = OrientationHelper.createOrientationHelper(this, mOrientation); } } public boolean ensureRecyclerState() { return mRecycler != null && mState != null; } public Recycler getRecycler() { return mRecycler; } public State getState() { return mState; } public int getNumRows() { return mNumRowsRequested; } }