/* * Copyright (C) 2012 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 com.android.launcher3; import static com.android.launcher3.compat.AccessibilityManagerCompat.isAccessibilityEnabled; import static com.android.launcher3.compat.AccessibilityManagerCompat.isObservedEventType; import android.animation.LayoutTransition; import android.animation.TimeInterpolator; import android.annotation.SuppressLint; import android.content.Context; import android.content.res.TypedArray; import android.graphics.Matrix; import android.graphics.Rect; import android.os.Bundle; import android.provider.Settings; import android.util.AttributeSet; import android.util.Log; import android.view.InputDevice; import android.view.KeyEvent; import android.view.MotionEvent; import android.view.VelocityTracker; import android.view.View; import android.view.ViewConfiguration; import android.view.ViewDebug; import android.view.ViewGroup; import android.view.ViewParent; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityNodeInfo; import android.view.animation.Interpolator; import android.widget.ScrollView; import com.android.launcher3.anim.Interpolators; import com.android.launcher3.config.FeatureFlags; import com.android.launcher3.pageindicators.PageIndicator; import com.android.launcher3.touch.OverScroll; import com.android.launcher3.util.Thunk; import java.util.ArrayList; /** * An abstraction of the original Workspace which supports browsing through a * sequential list of "pages" */ public abstract class PagedView extends ViewGroup { private static final String TAG = "PagedView"; private static final boolean DEBUG = false; protected static final int INVALID_PAGE = -1; protected static final ComputePageScrollsLogic SIMPLE_SCROLL_LOGIC = (v) -> v.getVisibility() != GONE; public static final int PAGE_SNAP_ANIMATION_DURATION = 750; public static final int SLOW_PAGE_SNAP_ANIMATION_DURATION = 950; // OverScroll constants private final static int OVERSCROLL_PAGE_SNAP_ANIMATION_DURATION = 270; private static final float RETURN_TO_ORIGINAL_PAGE_THRESHOLD = 0.33f; // The page is moved more than halfway, automatically move to the next page on touch up. private static final float SIGNIFICANT_MOVE_THRESHOLD = 0.4f; private static final float MAX_SCROLL_PROGRESS = 1.0f; // The following constants need to be scaled based on density. The scaled versions will be // assigned to the corresponding member variables below. private static final int FLING_THRESHOLD_VELOCITY = 500; private static final int MIN_SNAP_VELOCITY = 1500; private static final int MIN_FLING_VELOCITY = 250; public static final int INVALID_RESTORE_PAGE = -1001; private boolean mFreeScroll = false; private boolean mSettleOnPageInFreeScroll = false; protected int mFlingThresholdVelocity; protected int mMinFlingVelocity; protected int mMinSnapVelocity; protected boolean mFirstLayout = true; @ViewDebug.ExportedProperty(category = "launcher") protected int mCurrentPage; @ViewDebug.ExportedProperty(category = "launcher") protected int mNextPage = INVALID_PAGE; protected int mMaxScrollX; protected LauncherScroller mScroller; private Interpolator mDefaultInterpolator; private VelocityTracker mVelocityTracker; protected int mPageSpacing = 0; private float mDownMotionX; private float mDownMotionY; private float mLastMotionX; private float mLastMotionXRemainder; private float mTotalMotionX; protected int[] mPageScrolls; protected final static int TOUCH_STATE_REST = 0; protected final static int TOUCH_STATE_SCROLLING = 1; protected final static int TOUCH_STATE_PREV_PAGE = 2; protected final static int TOUCH_STATE_NEXT_PAGE = 3; protected int mTouchState = TOUCH_STATE_REST; protected int mTouchSlop; private int mMaximumVelocity; protected boolean mAllowOverScroll = true; protected static final int INVALID_POINTER = -1; protected int mActivePointerId = INVALID_POINTER; protected boolean mIsPageInTransition = false; protected boolean mWasInOverscroll = false; // mOverScrollX is equal to getScrollX() when we're within the normal scroll range. Otherwise // it is equal to the scaled overscroll position. We use a separate value so as to prevent // the screens from continuing to translate beyond the normal bounds. protected int mOverScrollX; protected int mUnboundedScrollX; // Page Indicator @Thunk int mPageIndicatorViewId; protected T mPageIndicator; // Convenience/caching private static final Matrix sTmpInvMatrix = new Matrix(); private static final float[] sTmpPoint = new float[2]; private static final Rect sTmpRect = new Rect(); protected final Rect mInsets = new Rect(); protected boolean mIsRtl; // Similar to the platform implementation of isLayoutValid(); protected boolean mIsLayoutValid; private int[] mTmpIntPair = new int[2]; public PagedView(Context context) { this(context, null); } public PagedView(Context context, AttributeSet attrs) { this(context, attrs, 0); } public PagedView(Context context, AttributeSet attrs, int defStyle) { super(context, attrs, defStyle); TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.PagedView, defStyle, 0); mPageIndicatorViewId = a.getResourceId(R.styleable.PagedView_pageIndicator, -1); a.recycle(); setHapticFeedbackEnabled(false); mIsRtl = Utilities.isRtl(getResources()); init(); } /** * Initializes various states for this workspace. */ protected void init() { mScroller = new LauncherScroller(getContext()); setDefaultInterpolator(Interpolators.SCROLL); mCurrentPage = 0; final ViewConfiguration configuration = ViewConfiguration.get(getContext()); mTouchSlop = configuration.getScaledPagingTouchSlop(); mMaximumVelocity = configuration.getScaledMaximumFlingVelocity(); float density = getResources().getDisplayMetrics().density; mFlingThresholdVelocity = (int) (FLING_THRESHOLD_VELOCITY * density); mMinFlingVelocity = (int) (MIN_FLING_VELOCITY * density); mMinSnapVelocity = (int) (MIN_SNAP_VELOCITY * density); if (Utilities.ATLEAST_OREO) { setDefaultFocusHighlightEnabled(false); } } protected void setDefaultInterpolator(Interpolator interpolator) { mDefaultInterpolator = interpolator; mScroller.setInterpolator(mDefaultInterpolator); } public void initParentViews(View parent) { if (mPageIndicatorViewId > -1) { mPageIndicator = parent.findViewById(mPageIndicatorViewId); mPageIndicator.setMarkersCount(getChildCount()); } } public T getPageIndicator() { return mPageIndicator; } /** * Returns the index of the currently displayed page. When in free scroll mode, this is the page * that the user was on before entering free scroll mode (e.g. the home screen page they * long-pressed on to enter the overview). Try using {@link #getPageNearestToCenterOfScreen()} * to get the page the user is currently scrolling over. */ public int getCurrentPage() { return mCurrentPage; } /** * Returns the index of page to be shown immediately afterwards. */ public int getNextPage() { return (mNextPage != INVALID_PAGE) ? mNextPage : mCurrentPage; } public int getPageCount() { return getChildCount(); } public View getPageAt(int index) { return getChildAt(index); } protected int indexToPage(int index) { return index; } protected void scrollAndForceFinish(int scrollX) { scrollTo(scrollX, 0); mScroller.setFinalX(scrollX); forceFinishScroller(true); } /** * Updates the scroll of the current page immediately to its final scroll position. We use this * in CustomizePagedView to allow tabs to share the same PagedView while resetting the scroll of * the previous tab page. */ protected void updateCurrentPageScroll() { // If the current page is invalid, just reset the scroll position to zero int newX = 0; if (0 <= mCurrentPage && mCurrentPage < getPageCount()) { newX = getScrollForPage(mCurrentPage); } scrollAndForceFinish(newX); } private void abortScrollerAnimation(boolean resetNextPage) { mScroller.abortAnimation(); // We need to clean up the next page here to avoid computeScrollHelper from // updating current page on the pass. if (resetNextPage) { mNextPage = INVALID_PAGE; pageEndTransition(); } } private void forceFinishScroller(boolean resetNextPage) { mScroller.forceFinished(true); // We need to clean up the next page here to avoid computeScrollHelper from // updating current page on the pass. if (resetNextPage) { mNextPage = INVALID_PAGE; pageEndTransition(); } } private int validateNewPage(int newPage) { // Ensure that it is clamped by the actual set of children in all cases return Utilities.boundToRange(newPage, 0, getPageCount() - 1); } /** * Sets the current page. */ public void setCurrentPage(int currentPage) { if (!mScroller.isFinished()) { abortScrollerAnimation(true); } // don't introduce any checks like mCurrentPage == currentPage here-- if we change the // the default if (getChildCount() == 0) { return; } int prevPage = mCurrentPage; mCurrentPage = validateNewPage(currentPage); updateCurrentPageScroll(); notifyPageSwitchListener(prevPage); invalidate(); } /** * Should be called whenever the page changes. In the case of a scroll, we wait until the page * has settled. */ protected void notifyPageSwitchListener(int prevPage) { updatePageIndicator(); } private void updatePageIndicator() { if (mPageIndicator != null) { mPageIndicator.setActiveMarker(getNextPage()); } } protected void pageBeginTransition() { if (!mIsPageInTransition) { mIsPageInTransition = true; onPageBeginTransition(); } } protected void pageEndTransition() { if (mIsPageInTransition) { mIsPageInTransition = false; onPageEndTransition(); } } protected boolean isPageInTransition() { return mIsPageInTransition; } /** * Called when the page starts moving as part of the scroll. Subclasses can override this * to provide custom behavior during animation. */ protected void onPageBeginTransition() { } /** * Called when the page ends moving as part of the scroll. Subclasses can override this * to provide custom behavior during animation. */ protected void onPageEndTransition() { mWasInOverscroll = false; } protected int getUnboundedScrollX() { return mUnboundedScrollX; } @Override public void scrollBy(int x, int y) { scrollTo(getUnboundedScrollX() + x, getScrollY() + y); } @Override public void scrollTo(int x, int y) { // In free scroll mode, we clamp the scrollX if (mFreeScroll) { // If the scroller is trying to move to a location beyond the maximum allowed // in the free scroll mode, we make sure to end the scroll operation. if (!mScroller.isFinished() && (x > mMaxScrollX || x < 0)) { forceFinishScroller(false); } x = Utilities.boundToRange(x, 0, mMaxScrollX); } mUnboundedScrollX = x; boolean isXBeforeFirstPage = mIsRtl ? (x > mMaxScrollX) : (x < 0); boolean isXAfterLastPage = mIsRtl ? (x < 0) : (x > mMaxScrollX); if (isXBeforeFirstPage) { super.scrollTo(mIsRtl ? mMaxScrollX : 0, y); if (mAllowOverScroll) { mWasInOverscroll = true; if (mIsRtl) { overScroll(x - mMaxScrollX); } else { overScroll(x); } } } else if (isXAfterLastPage) { super.scrollTo(mIsRtl ? 0 : mMaxScrollX, y); if (mAllowOverScroll) { mWasInOverscroll = true; if (mIsRtl) { overScroll(x); } else { overScroll(x - mMaxScrollX); } } } else { if (mWasInOverscroll) { overScroll(0); mWasInOverscroll = false; } mOverScrollX = x; super.scrollTo(x, y); } } private void sendScrollAccessibilityEvent() { if (isObservedEventType(getContext(), AccessibilityEvent.TYPE_VIEW_SCROLLED)) { if (mCurrentPage != getNextPage()) { AccessibilityEvent ev = AccessibilityEvent.obtain(AccessibilityEvent.TYPE_VIEW_SCROLLED); ev.setScrollable(true); ev.setScrollX(getScrollX()); ev.setScrollY(getScrollY()); ev.setMaxScrollX(mMaxScrollX); ev.setMaxScrollY(0); sendAccessibilityEventUnchecked(ev); } } } // we moved this functionality to a helper function so SmoothPagedView can reuse it protected boolean computeScrollHelper() { return computeScrollHelper(true); } protected void announcePageForAccessibility() { if (isAccessibilityEnabled(getContext())) { // Notify the user when the page changes announceForAccessibility(getCurrentPageDescription()); } } protected boolean computeScrollHelper(boolean shouldInvalidate) { if (mScroller.computeScrollOffset()) { // Don't bother scrolling if the page does not need to be moved if (getUnboundedScrollX() != mScroller.getCurrX() || getScrollY() != mScroller.getCurrY() || mOverScrollX != mScroller.getCurrX()) { scrollTo(mScroller.getCurrX(), mScroller.getCurrY()); } if (shouldInvalidate) { invalidate(); } return true; } else if (mNextPage != INVALID_PAGE && shouldInvalidate) { sendScrollAccessibilityEvent(); int prevPage = mCurrentPage; mCurrentPage = validateNewPage(mNextPage); mNextPage = INVALID_PAGE; notifyPageSwitchListener(prevPage); // We don't want to trigger a page end moving unless the page has settled // and the user has stopped scrolling if (mTouchState == TOUCH_STATE_REST) { pageEndTransition(); } if (canAnnouncePageDescription()) { announcePageForAccessibility(); } } return false; } @Override public void computeScroll() { computeScrollHelper(); } public int getExpectedHeight() { return getMeasuredHeight(); } public int getNormalChildHeight() { return getExpectedHeight() - getPaddingTop() - getPaddingBottom() - mInsets.top - mInsets.bottom; } public int getExpectedWidth() { return getMeasuredWidth(); } public int getNormalChildWidth() { return getExpectedWidth() - getPaddingLeft() - getPaddingRight() - mInsets.left - mInsets.right; } @Override public void requestLayout() { mIsLayoutValid = false; super.requestLayout(); } @Override public void forceLayout() { mIsLayoutValid = false; super.forceLayout(); } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { if (getChildCount() == 0) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); return; } // We measure the dimensions of the PagedView to be larger than the pages so that when we // zoom out (and scale down), the view is still contained in the parent int widthMode = MeasureSpec.getMode(widthMeasureSpec); int widthSize = MeasureSpec.getSize(widthMeasureSpec); int heightMode = MeasureSpec.getMode(heightMeasureSpec); int heightSize = MeasureSpec.getSize(heightMeasureSpec); if (widthMode == MeasureSpec.UNSPECIFIED || heightMode == MeasureSpec.UNSPECIFIED) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); return; } // Return early if we aren't given a proper dimension if (widthSize <= 0 || heightSize <= 0) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); return; } // The children are given the same width and height as the workspace // unless they were set to WRAP_CONTENT if (DEBUG) Log.d(TAG, "PagedView.onMeasure(): " + widthSize + ", " + heightSize); int myWidthSpec = MeasureSpec.makeMeasureSpec( widthSize - mInsets.left - mInsets.right, MeasureSpec.EXACTLY); int myHeightSpec = MeasureSpec.makeMeasureSpec( heightSize - mInsets.top - mInsets.bottom, MeasureSpec.EXACTLY); // measureChildren takes accounts for content padding, we only need to care about extra // space due to insets. measureChildren(myWidthSpec, myHeightSpec); setMeasuredDimension(widthSize, heightSize); } protected void restoreScrollOnLayout() { setCurrentPage(getNextPage()); } @SuppressLint("DrawAllocation") @Override protected void onLayout(boolean changed, int left, int top, int right, int bottom) { mIsLayoutValid = true; final int childCount = getChildCount(); boolean pageScrollChanged = false; if (mPageScrolls == null || childCount != mPageScrolls.length) { mPageScrolls = new int[childCount]; pageScrollChanged = true; } if (childCount == 0) { return; } if (DEBUG) Log.d(TAG, "PagedView.onLayout()"); if (getPageScrolls(mPageScrolls, true, SIMPLE_SCROLL_LOGIC)) { pageScrollChanged = true; } final LayoutTransition transition = getLayoutTransition(); // If the transition is running defer updating max scroll, as some empty pages could // still be present, and a max scroll change could cause sudden jumps in scroll. if (transition != null && transition.isRunning()) { transition.addTransitionListener(new LayoutTransition.TransitionListener() { @Override public void startTransition(LayoutTransition transition, ViewGroup container, View view, int transitionType) { } @Override public void endTransition(LayoutTransition transition, ViewGroup container, View view, int transitionType) { // Wait until all transitions are complete. if (!transition.isRunning()) { transition.removeTransitionListener(this); updateMaxScrollX(); } } }); } else { updateMaxScrollX(); } if (mFirstLayout && mCurrentPage >= 0 && mCurrentPage < childCount) { updateCurrentPageScroll(); mFirstLayout = false; } if (mScroller.isFinished() && pageScrollChanged) { restoreScrollOnLayout(); } } /** * Initializes {@code outPageScrolls} with scroll positions for view at that index. The length * of {@code outPageScrolls} should be same as the the childCount * */ protected boolean getPageScrolls(int[] outPageScrolls, boolean layoutChildren, ComputePageScrollsLogic scrollLogic) { final int childCount = getChildCount(); final int startIndex = mIsRtl ? childCount - 1 : 0; final int endIndex = mIsRtl ? -1 : childCount; final int delta = mIsRtl ? -1 : 1; final int verticalCenter = (getPaddingTop() + getMeasuredHeight() + mInsets.top - mInsets.bottom - getPaddingBottom()) / 2; final int scrollOffsetLeft = mInsets.left + getPaddingLeft(); boolean pageScrollChanged = false; for (int i = startIndex, childLeft = scrollOffsetLeft + offsetForPageScrolls(); i != endIndex; i += delta) { final View child = getPageAt(i); if (scrollLogic.shouldIncludeView(child)) { final int childTop = verticalCenter - child.getMeasuredHeight() / 2; final int childWidth = child.getMeasuredWidth(); if (layoutChildren) { final int childHeight = child.getMeasuredHeight(); child.layout(childLeft, childTop, childLeft + child.getMeasuredWidth(), childTop + childHeight); } final int pageScroll = childLeft - scrollOffsetLeft; if (outPageScrolls[i] != pageScroll) { pageScrollChanged = true; outPageScrolls[i] = pageScroll; } childLeft += childWidth + mPageSpacing + getChildGap(); } } return pageScrollChanged; } protected int getChildGap() { return 0; } private void updateMaxScrollX() { mMaxScrollX = computeMaxScrollX(); } protected int computeMaxScrollX() { int childCount = getChildCount(); if (childCount > 0) { final int index = mIsRtl ? 0 : childCount - 1; return getScrollForPage(index); } else { return 0; } } protected int offsetForPageScrolls() { return 0; } public void setPageSpacing(int pageSpacing) { mPageSpacing = pageSpacing; requestLayout(); } private void dispatchPageCountChanged() { if (mPageIndicator != null) { mPageIndicator.setMarkersCount(getChildCount()); } // This ensures that when children are added, they get the correct transforms / alphas // in accordance with any scroll effects. invalidate(); } @Override public void onViewAdded(View child) { super.onViewAdded(child); dispatchPageCountChanged(); } @Override public void onViewRemoved(View child) { super.onViewRemoved(child); mCurrentPage = validateNewPage(mCurrentPage); dispatchPageCountChanged(); } protected int getChildOffset(int index) { if (index < 0 || index > getChildCount() - 1) return 0; return getPageAt(index).getLeft(); } @Override public boolean requestChildRectangleOnScreen(View child, Rect rectangle, boolean immediate) { int page = indexToPage(indexOfChild(child)); if (page != mCurrentPage || !mScroller.isFinished()) { if (immediate) { setCurrentPage(page); } else { snapToPage(page); } return true; } return false; } @Override protected boolean onRequestFocusInDescendants(int direction, Rect previouslyFocusedRect) { int focusablePage; if (mNextPage != INVALID_PAGE) { focusablePage = mNextPage; } else { focusablePage = mCurrentPage; } View v = getPageAt(focusablePage); if (v != null) { return v.requestFocus(direction, previouslyFocusedRect); } return false; } @Override public boolean dispatchUnhandledMove(View focused, int direction) { if (super.dispatchUnhandledMove(focused, direction)) { return true; } if (mIsRtl) { if (direction == View.FOCUS_LEFT) { direction = View.FOCUS_RIGHT; } else if (direction == View.FOCUS_RIGHT) { direction = View.FOCUS_LEFT; } } if (direction == View.FOCUS_LEFT) { if (getCurrentPage() > 0) { snapToPage(getCurrentPage() - 1); return true; } } else if (direction == View.FOCUS_RIGHT) { if (getCurrentPage() < getPageCount() - 1) { snapToPage(getCurrentPage() + 1); return true; } } return false; } @Override public void addFocusables(ArrayList views, int direction, int focusableMode) { if (getDescendantFocusability() == FOCUS_BLOCK_DESCENDANTS) { return; } // XXX-RTL: This will be fixed in a future CL if (mCurrentPage >= 0 && mCurrentPage < getPageCount()) { getPageAt(mCurrentPage).addFocusables(views, direction, focusableMode); } if (direction == View.FOCUS_LEFT) { if (mCurrentPage > 0) { getPageAt(mCurrentPage - 1).addFocusables(views, direction, focusableMode); } } else if (direction == View.FOCUS_RIGHT){ if (mCurrentPage < getPageCount() - 1) { getPageAt(mCurrentPage + 1).addFocusables(views, direction, focusableMode); } } } /** * If one of our descendant views decides that it could be focused now, only * pass that along if it's on the current page. * * This happens when live folders requery, and if they're off page, they * end up calling requestFocus, which pulls it on page. */ @Override public void focusableViewAvailable(View focused) { View current = getPageAt(mCurrentPage); View v = focused; while (true) { if (v == current) { super.focusableViewAvailable(focused); return; } if (v == this) { return; } ViewParent parent = v.getParent(); if (parent instanceof View) { v = (View)v.getParent(); } else { return; } } } /** * {@inheritDoc} */ @Override public void requestDisallowInterceptTouchEvent(boolean disallowIntercept) { if (disallowIntercept) { // We need to make sure to cancel our long press if // a scrollable widget takes over touch events final View currentPage = getPageAt(mCurrentPage); currentPage.cancelLongPress(); } super.requestDisallowInterceptTouchEvent(disallowIntercept); } /** Returns whether x and y originated within the buffered viewport */ private boolean isTouchPointInViewportWithBuffer(int x, int y) { sTmpRect.set(-getMeasuredWidth() / 2, 0, 3 * getMeasuredWidth() / 2, getMeasuredHeight()); return sTmpRect.contains(x, y); } @Override public boolean onInterceptTouchEvent(MotionEvent ev) { /* * This method JUST determines whether we want to intercept the motion. * If we return true, onTouchEvent will be called and we do the actual * scrolling there. */ acquireVelocityTrackerAndAddMovement(ev); // Skip touch handling if there are no pages to swipe if (getChildCount() <= 0) return super.onInterceptTouchEvent(ev); /* * Shortcut the most recurring case: the user is in the dragging * state and he is moving his finger. We want to intercept this * motion. */ final int action = ev.getAction(); if ((action == MotionEvent.ACTION_MOVE) && (mTouchState == TOUCH_STATE_SCROLLING)) { return true; } switch (action & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_MOVE: { /* * mIsBeingDragged == false, otherwise the shortcut would have caught it. Check * whether the user has moved far enough from his original down touch. */ if (mActivePointerId != INVALID_POINTER) { determineScrollingStart(ev); } // if mActivePointerId is INVALID_POINTER, then we must have missed an ACTION_DOWN // event. in that case, treat the first occurence of a move event as a ACTION_DOWN // i.e. fall through to the next case (don't break) // (We sometimes miss ACTION_DOWN events in Workspace because it ignores all events // while it's small- this was causing a crash before we checked for INVALID_POINTER) break; } case MotionEvent.ACTION_DOWN: { final float x = ev.getX(); final float y = ev.getY(); // Remember location of down touch mDownMotionX = x; mDownMotionY = y; mLastMotionX = x; mLastMotionXRemainder = 0; mTotalMotionX = 0; mActivePointerId = ev.getPointerId(0); /* * If being flinged and user touches the screen, initiate drag; * otherwise don't. mScroller.isFinished should be false when * being flinged. */ final int xDist = Math.abs(mScroller.getFinalX() - mScroller.getCurrX()); final boolean finishedScrolling = (mScroller.isFinished() || xDist < mTouchSlop / 3); if (finishedScrolling) { mTouchState = TOUCH_STATE_REST; if (!mScroller.isFinished() && !mFreeScroll) { setCurrentPage(getNextPage()); pageEndTransition(); } } else { if (isTouchPointInViewportWithBuffer((int) mDownMotionX, (int) mDownMotionY)) { mTouchState = TOUCH_STATE_SCROLLING; } else { mTouchState = TOUCH_STATE_REST; } } break; } case MotionEvent.ACTION_UP: case MotionEvent.ACTION_CANCEL: resetTouchState(); break; case MotionEvent.ACTION_POINTER_UP: onSecondaryPointerUp(ev); releaseVelocityTracker(); break; } /* * The only time we want to intercept motion events is if we are in the * drag mode. */ return mTouchState != TOUCH_STATE_REST; } public boolean isHandlingTouch() { return mTouchState != TOUCH_STATE_REST; } protected void determineScrollingStart(MotionEvent ev) { determineScrollingStart(ev, 1.0f); } /* * Determines if we should change the touch state to start scrolling after the * user moves their touch point too far. */ protected void determineScrollingStart(MotionEvent ev, float touchSlopScale) { // Disallow scrolling if we don't have a valid pointer index final int pointerIndex = ev.findPointerIndex(mActivePointerId); if (pointerIndex == -1) return; // Disallow scrolling if we started the gesture from outside the viewport final float x = ev.getX(pointerIndex); final float y = ev.getY(pointerIndex); if (!isTouchPointInViewportWithBuffer((int) x, (int) y)) return; final int xDiff = (int) Math.abs(x - mLastMotionX); final int touchSlop = Math.round(touchSlopScale * mTouchSlop); boolean xMoved = xDiff > touchSlop; if (xMoved) { // Scroll if the user moved far enough along the X axis mTouchState = TOUCH_STATE_SCROLLING; mTotalMotionX += Math.abs(mLastMotionX - x); mLastMotionX = x; mLastMotionXRemainder = 0; onScrollInteractionBegin(); pageBeginTransition(); // Stop listening for things like pinches. requestDisallowInterceptTouchEvent(true); } } protected void cancelCurrentPageLongPress() { // Try canceling the long press. It could also have been scheduled // by a distant descendant, so use the mAllowLongPress flag to block // everything final View currentPage = getPageAt(mCurrentPage); if (currentPage != null) { currentPage.cancelLongPress(); } } protected float getScrollProgress(int screenCenter, View v, int page) { final int halfScreenSize = getMeasuredWidth() / 2; int delta = screenCenter - (getScrollForPage(page) + halfScreenSize); int count = getChildCount(); final int totalDistance; int adjacentPage = page + 1; if ((delta < 0 && !mIsRtl) || (delta > 0 && mIsRtl)) { adjacentPage = page - 1; } if (adjacentPage < 0 || adjacentPage > count - 1) { totalDistance = v.getMeasuredWidth() + mPageSpacing; } else { totalDistance = Math.abs(getScrollForPage(adjacentPage) - getScrollForPage(page)); } float scrollProgress = delta / (totalDistance * 1.0f); scrollProgress = Math.min(scrollProgress, MAX_SCROLL_PROGRESS); scrollProgress = Math.max(scrollProgress, - MAX_SCROLL_PROGRESS); return scrollProgress; } public int getScrollForPage(int index) { if (mPageScrolls == null || index >= mPageScrolls.length || index < 0) { return 0; } else { return mPageScrolls[index]; } } // While layout transitions are occurring, a child's position may stray from its baseline // position. This method returns the magnitude of this stray at any given time. public int getLayoutTransitionOffsetForPage(int index) { if (mPageScrolls == null || index >= mPageScrolls.length || index < 0) { return 0; } else { View child = getChildAt(index); int scrollOffset = mIsRtl ? getPaddingRight() : getPaddingLeft(); int baselineX = mPageScrolls[index] + scrollOffset; return (int) (child.getX() - baselineX); } } protected void dampedOverScroll(float amount) { if (Float.compare(amount, 0f) == 0) return; int overScrollAmount = OverScroll.dampedScroll(amount, getMeasuredWidth()); if (amount < 0) { mOverScrollX = overScrollAmount; super.scrollTo(mOverScrollX, getScrollY()); } else { mOverScrollX = mMaxScrollX + overScrollAmount; super.scrollTo(mOverScrollX, getScrollY()); } invalidate(); } protected void overScroll(float amount) { dampedOverScroll(amount); } protected void enableFreeScroll(boolean settleOnPageInFreeScroll) { setEnableFreeScroll(true); mSettleOnPageInFreeScroll = settleOnPageInFreeScroll; } private void setEnableFreeScroll(boolean freeScroll) { boolean wasFreeScroll = mFreeScroll; mFreeScroll = freeScroll; if (mFreeScroll) { setCurrentPage(getNextPage()); } else if (wasFreeScroll) { snapToPage(getNextPage()); } setEnableOverscroll(!freeScroll); } protected void setEnableOverscroll(boolean enable) { mAllowOverScroll = enable; } @Override public boolean onTouchEvent(MotionEvent ev) { super.onTouchEvent(ev); // Skip touch handling if there are no pages to swipe if (getChildCount() <= 0) return super.onTouchEvent(ev); acquireVelocityTrackerAndAddMovement(ev); final int action = ev.getAction(); switch (action & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_DOWN: /* * If being flinged and user touches, stop the fling. isFinished * will be false if being flinged. */ if (!mScroller.isFinished()) { abortScrollerAnimation(false); } // Remember where the motion event started mDownMotionX = mLastMotionX = ev.getX(); mDownMotionY = ev.getY(); mLastMotionXRemainder = 0; mTotalMotionX = 0; mActivePointerId = ev.getPointerId(0); if (mTouchState == TOUCH_STATE_SCROLLING) { onScrollInteractionBegin(); pageBeginTransition(); } break; case MotionEvent.ACTION_MOVE: if (mTouchState == TOUCH_STATE_SCROLLING) { // Scroll to follow the motion event final int pointerIndex = ev.findPointerIndex(mActivePointerId); if (pointerIndex == -1) return true; final float x = ev.getX(pointerIndex); final float deltaX = mLastMotionX + mLastMotionXRemainder - x; mTotalMotionX += Math.abs(deltaX); // Only scroll and update mLastMotionX if we have moved some discrete amount. We // keep the remainder because we are actually testing if we've moved from the last // scrolled position (which is discrete). if (Math.abs(deltaX) >= 1.0f) { scrollBy((int) deltaX, 0); mLastMotionX = x; mLastMotionXRemainder = deltaX - (int) deltaX; } else { awakenScrollBars(); } } else { determineScrollingStart(ev); } break; case MotionEvent.ACTION_UP: if (mTouchState == TOUCH_STATE_SCROLLING) { final int activePointerId = mActivePointerId; final int pointerIndex = ev.findPointerIndex(activePointerId); final float x = ev.getX(pointerIndex); final VelocityTracker velocityTracker = mVelocityTracker; velocityTracker.computeCurrentVelocity(1000, mMaximumVelocity); int velocityX = (int) velocityTracker.getXVelocity(activePointerId); final int deltaX = (int) (x - mDownMotionX); final int pageWidth = getPageAt(mCurrentPage).getMeasuredWidth(); boolean isSignificantMove = Math.abs(deltaX) > pageWidth * SIGNIFICANT_MOVE_THRESHOLD; mTotalMotionX += Math.abs(mLastMotionX + mLastMotionXRemainder - x); boolean isFling = mTotalMotionX > mTouchSlop && shouldFlingForVelocity(velocityX); if (!mFreeScroll) { // In the case that the page is moved far to one direction and then is flung // in the opposite direction, we use a threshold to determine whether we should // just return to the starting page, or if we should skip one further. boolean returnToOriginalPage = false; if (Math.abs(deltaX) > pageWidth * RETURN_TO_ORIGINAL_PAGE_THRESHOLD && Math.signum(velocityX) != Math.signum(deltaX) && isFling) { returnToOriginalPage = true; } int finalPage; // We give flings precedence over large moves, which is why we short-circuit our // test for a large move if a fling has been registered. That is, a large // move to the left and fling to the right will register as a fling to the right. boolean isDeltaXLeft = mIsRtl ? deltaX > 0 : deltaX < 0; boolean isVelocityXLeft = mIsRtl ? velocityX > 0 : velocityX < 0; if (((isSignificantMove && !isDeltaXLeft && !isFling) || (isFling && !isVelocityXLeft)) && mCurrentPage > 0) { finalPage = returnToOriginalPage ? mCurrentPage : mCurrentPage - 1; snapToPageWithVelocity(finalPage, velocityX); } else if (((isSignificantMove && isDeltaXLeft && !isFling) || (isFling && isVelocityXLeft)) && mCurrentPage < getChildCount() - 1) { finalPage = returnToOriginalPage ? mCurrentPage : mCurrentPage + 1; snapToPageWithVelocity(finalPage, velocityX); } else { snapToDestination(); } } else { if (!mScroller.isFinished()) { abortScrollerAnimation(true); } float scaleX = getScaleX(); int vX = (int) (-velocityX * scaleX); int initialScrollX = (int) (getScrollX() * scaleX); mScroller.setInterpolator(mDefaultInterpolator); mScroller.fling(initialScrollX, getScrollY(), vX, 0, Integer.MIN_VALUE, Integer.MAX_VALUE, 0, 0); int unscaledScrollX = (int) (mScroller.getFinalX() / scaleX); mNextPage = getPageNearestToCenterOfScreen(unscaledScrollX); int firstPageScroll = getScrollForPage(!mIsRtl ? 0 : getPageCount() - 1); int lastPageScroll = getScrollForPage(!mIsRtl ? getPageCount() - 1 : 0); if (mSettleOnPageInFreeScroll && unscaledScrollX > 0 && unscaledScrollX < mMaxScrollX) { // If scrolling ends in the half of the added space that is closer to the // end, settle to the end. Otherwise snap to the nearest page. // If flinging past one of the ends, don't change the velocity as it will // get stopped at the end anyway. final int finalX = unscaledScrollX < firstPageScroll / 2 ? 0 : unscaledScrollX > (lastPageScroll + mMaxScrollX) / 2 ? mMaxScrollX : getScrollForPage(mNextPage); mScroller.setFinalX((int) (finalX * getScaleX())); // Ensure the scroll/snap doesn't happen too fast; int extraScrollDuration = OVERSCROLL_PAGE_SNAP_ANIMATION_DURATION - mScroller.getDuration(); if (extraScrollDuration > 0) { mScroller.extendDuration(extraScrollDuration); } } invalidate(); } onScrollInteractionEnd(); } else if (mTouchState == TOUCH_STATE_PREV_PAGE) { // at this point we have not moved beyond the touch slop // (otherwise mTouchState would be TOUCH_STATE_SCROLLING), so // we can just page int nextPage = Math.max(0, mCurrentPage - 1); if (nextPage != mCurrentPage) { snapToPage(nextPage); } else { snapToDestination(); } } else if (mTouchState == TOUCH_STATE_NEXT_PAGE) { // at this point we have not moved beyond the touch slop // (otherwise mTouchState would be TOUCH_STATE_SCROLLING), so // we can just page int nextPage = Math.min(getChildCount() - 1, mCurrentPage + 1); if (nextPage != mCurrentPage) { snapToPage(nextPage); } else { snapToDestination(); } } // End any intermediate reordering states resetTouchState(); break; case MotionEvent.ACTION_CANCEL: if (mTouchState == TOUCH_STATE_SCROLLING) { snapToDestination(); onScrollInteractionEnd(); } resetTouchState(); break; case MotionEvent.ACTION_POINTER_UP: onSecondaryPointerUp(ev); releaseVelocityTracker(); break; } return true; } protected boolean shouldFlingForVelocity(int velocityX) { return Math.abs(velocityX) > mFlingThresholdVelocity; } private void resetTouchState() { releaseVelocityTracker(); mTouchState = TOUCH_STATE_REST; mActivePointerId = INVALID_POINTER; } /** * Triggered by scrolling via touch */ protected void onScrollInteractionBegin() { } protected void onScrollInteractionEnd() { } @Override public boolean onGenericMotionEvent(MotionEvent event) { if ((event.getSource() & InputDevice.SOURCE_CLASS_POINTER) != 0) { switch (event.getAction()) { case MotionEvent.ACTION_SCROLL: { // Handle mouse (or ext. device) by shifting the page depending on the scroll final float vscroll; final float hscroll; if ((event.getMetaState() & KeyEvent.META_SHIFT_ON) != 0) { vscroll = 0; hscroll = event.getAxisValue(MotionEvent.AXIS_VSCROLL); } else { vscroll = -event.getAxisValue(MotionEvent.AXIS_VSCROLL); hscroll = event.getAxisValue(MotionEvent.AXIS_HSCROLL); } if (hscroll != 0 || vscroll != 0) { boolean isForwardScroll = mIsRtl ? (hscroll < 0 || vscroll < 0) : (hscroll > 0 || vscroll > 0); if (isForwardScroll) { scrollRight(); } else { scrollLeft(); } return true; } } } } return super.onGenericMotionEvent(event); } private void acquireVelocityTrackerAndAddMovement(MotionEvent ev) { if (mVelocityTracker == null) { mVelocityTracker = VelocityTracker.obtain(); } mVelocityTracker.addMovement(ev); } private void releaseVelocityTracker() { if (mVelocityTracker != null) { mVelocityTracker.clear(); mVelocityTracker.recycle(); mVelocityTracker = null; } } private void onSecondaryPointerUp(MotionEvent ev) { final int pointerIndex = (ev.getAction() & MotionEvent.ACTION_POINTER_INDEX_MASK) >> MotionEvent.ACTION_POINTER_INDEX_SHIFT; final int pointerId = ev.getPointerId(pointerIndex); if (pointerId == mActivePointerId) { // This was our active pointer going up. Choose a new // active pointer and adjust accordingly. // TODO: Make this decision more intelligent. final int newPointerIndex = pointerIndex == 0 ? 1 : 0; mLastMotionX = mDownMotionX = ev.getX(newPointerIndex); mLastMotionXRemainder = 0; mActivePointerId = ev.getPointerId(newPointerIndex); if (mVelocityTracker != null) { mVelocityTracker.clear(); } } } @Override public void requestChildFocus(View child, View focused) { super.requestChildFocus(child, focused); int page = indexToPage(indexOfChild(child)); if (page >= 0 && page != getCurrentPage() && !isInTouchMode()) { snapToPage(page); } } public int getPageNearestToCenterOfScreen() { return getPageNearestToCenterOfScreen(getScrollX()); } private int getPageNearestToCenterOfScreen(int scaledScrollX) { int screenCenter = scaledScrollX + (getMeasuredWidth() / 2); int minDistanceFromScreenCenter = Integer.MAX_VALUE; int minDistanceFromScreenCenterIndex = -1; final int childCount = getChildCount(); for (int i = 0; i < childCount; ++i) { View layout = getPageAt(i); int childWidth = layout.getMeasuredWidth(); int halfChildWidth = (childWidth / 2); int childCenter = getChildOffset(i) + halfChildWidth; int distanceFromScreenCenter = Math.abs(childCenter - screenCenter); if (distanceFromScreenCenter < minDistanceFromScreenCenter) { minDistanceFromScreenCenter = distanceFromScreenCenter; minDistanceFromScreenCenterIndex = i; } } return minDistanceFromScreenCenterIndex; } protected void snapToDestination() { snapToPage(getPageNearestToCenterOfScreen(), getPageSnapDuration()); } protected boolean isInOverScroll() { return (mOverScrollX > mMaxScrollX || mOverScrollX < 0); } protected int getPageSnapDuration() { if (isInOverScroll()) { return OVERSCROLL_PAGE_SNAP_ANIMATION_DURATION; } return PAGE_SNAP_ANIMATION_DURATION; } // We want the duration of the page snap animation to be influenced by the distance that // the screen has to travel, however, we don't want this duration to be effected in a // purely linear fashion. Instead, we use this method to moderate the effect that the distance // of travel has on the overall snap duration. private float distanceInfluenceForSnapDuration(float f) { f -= 0.5f; // center the values about 0. f *= 0.3f * Math.PI / 2.0f; return (float) Math.sin(f); } protected boolean snapToPageWithVelocity(int whichPage, int velocity) { whichPage = validateNewPage(whichPage); int halfScreenSize = getMeasuredWidth() / 2; final int newX = getScrollForPage(whichPage); int delta = newX - getUnboundedScrollX(); int duration = 0; if (Math.abs(velocity) < mMinFlingVelocity) { // If the velocity is low enough, then treat this more as an automatic page advance // as opposed to an apparent physical response to flinging return snapToPage(whichPage, PAGE_SNAP_ANIMATION_DURATION); } // Here we compute a "distance" that will be used in the computation of the overall // snap duration. This is a function of the actual distance that needs to be traveled; // we keep this value close to half screen size in order to reduce the variance in snap // duration as a function of the distance the page needs to travel. float distanceRatio = Math.min(1f, 1.0f * Math.abs(delta) / (2 * halfScreenSize)); float distance = halfScreenSize + halfScreenSize * distanceInfluenceForSnapDuration(distanceRatio); velocity = Math.abs(velocity); velocity = Math.max(mMinSnapVelocity, velocity); // we want the page's snap velocity to approximately match the velocity at which the // user flings, so we scale the duration by a value near to the derivative of the scroll // interpolator at zero, ie. 5. We use 4 to make it a little slower. duration = 4 * Math.round(1000 * Math.abs(distance / velocity)); return snapToPage(whichPage, delta, duration); } public boolean snapToPage(int whichPage) { return snapToPage(whichPage, PAGE_SNAP_ANIMATION_DURATION); } public boolean snapToPageImmediately(int whichPage) { return snapToPage(whichPage, PAGE_SNAP_ANIMATION_DURATION, true, null); } public boolean snapToPage(int whichPage, int duration) { return snapToPage(whichPage, duration, false, null); } public boolean snapToPage(int whichPage, int duration, TimeInterpolator interpolator) { return snapToPage(whichPage, duration, false, interpolator); } protected boolean snapToPage(int whichPage, int duration, boolean immediate, TimeInterpolator interpolator) { whichPage = validateNewPage(whichPage); int newX = getScrollForPage(whichPage); final int delta = newX - getUnboundedScrollX(); return snapToPage(whichPage, delta, duration, immediate, interpolator); } protected boolean snapToPage(int whichPage, int delta, int duration) { return snapToPage(whichPage, delta, duration, false, null); } protected boolean snapToPage(int whichPage, int delta, int duration, boolean immediate, TimeInterpolator interpolator) { if (mFirstLayout) { setCurrentPage(whichPage); return false; } if (FeatureFlags.IS_DOGFOOD_BUILD) { duration *= Settings.System.getFloat(getContext().getContentResolver(), Settings.System.WINDOW_ANIMATION_SCALE, 1); } whichPage = validateNewPage(whichPage); mNextPage = whichPage; awakenScrollBars(duration); if (immediate) { duration = 0; } else if (duration == 0) { duration = Math.abs(delta); } if (duration != 0) { pageBeginTransition(); } if (!mScroller.isFinished()) { abortScrollerAnimation(false); } if (interpolator != null) { mScroller.setInterpolator(interpolator); } else { mScroller.setInterpolator(mDefaultInterpolator); } mScroller.startScroll(getUnboundedScrollX(), 0, delta, 0, duration); updatePageIndicator(); // Trigger a compute() to finish switching pages if necessary if (immediate) { computeScroll(); pageEndTransition(); } invalidate(); return Math.abs(delta) > 0; } public boolean scrollLeft() { if (getNextPage() > 0) { snapToPage(getNextPage() - 1); return true; } return false; } public boolean scrollRight() { if (getNextPage() < getChildCount() - 1) { snapToPage(getNextPage() + 1); return true; } return false; } @Override public CharSequence getAccessibilityClassName() { // Some accessibility services have special logic for ScrollView. Since we provide same // accessibility info as ScrollView, inform the service to handle use the same way. return ScrollView.class.getName(); } protected boolean isPageOrderFlipped() { return false; } /* Accessibility */ @SuppressWarnings("deprecation") @Override public void onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo info) { super.onInitializeAccessibilityNodeInfo(info); final boolean pagesFlipped = isPageOrderFlipped(); info.setScrollable(getPageCount() > 1); if (getCurrentPage() < getPageCount() - 1) { info.addAction(pagesFlipped ? AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD : AccessibilityNodeInfo.ACTION_SCROLL_FORWARD); } if (getCurrentPage() > 0) { info.addAction(pagesFlipped ? AccessibilityNodeInfo.ACTION_SCROLL_FORWARD : AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD); } // Accessibility-wise, PagedView doesn't support long click, so disabling it. // Besides disabling the accessibility long-click, this also prevents this view from getting // accessibility focus. info.setLongClickable(false); info.removeAction(AccessibilityNodeInfo.AccessibilityAction.ACTION_LONG_CLICK); } @Override public void sendAccessibilityEvent(int eventType) { // Don't let the view send real scroll events. if (eventType != AccessibilityEvent.TYPE_VIEW_SCROLLED) { super.sendAccessibilityEvent(eventType); } } @Override public void onInitializeAccessibilityEvent(AccessibilityEvent event) { super.onInitializeAccessibilityEvent(event); event.setScrollable(getPageCount() > 1); } @Override public boolean performAccessibilityAction(int action, Bundle arguments) { if (super.performAccessibilityAction(action, arguments)) { return true; } final boolean pagesFlipped = isPageOrderFlipped(); switch (action) { case AccessibilityNodeInfo.ACTION_SCROLL_FORWARD: { if (pagesFlipped ? scrollLeft() : scrollRight()) { return true; } } break; case AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD: { if (pagesFlipped ? scrollRight() : scrollLeft()) { return true; } } break; } return false; } protected boolean canAnnouncePageDescription() { return true; } protected String getCurrentPageDescription() { return getContext().getString(R.string.default_scroll_format, getNextPage() + 1, getChildCount()); } protected float getDownMotionX() { return mDownMotionX; } protected float getDownMotionY() { return mDownMotionY; } protected interface ComputePageScrollsLogic { boolean shouldIncludeView(View view); } public int[] getVisibleChildrenRange() { float visibleLeft = 0; float visibleRight = visibleLeft + getMeasuredWidth(); float scaleX = getScaleX(); if (scaleX < 1 && scaleX > 0) { float mid = getMeasuredWidth() / 2; visibleLeft = mid - ((mid - visibleLeft) / scaleX); visibleRight = mid + ((visibleRight - mid) / scaleX); } int leftChild = -1; int rightChild = -1; final int childCount = getChildCount(); for (int i = 0; i < childCount; i++) { final View child = getPageAt(i); float left = child.getLeft() + child.getTranslationX() - getScrollX(); if (left <= visibleRight && (left + child.getMeasuredWidth()) >= visibleLeft) { if (leftChild == -1) { leftChild = i; } rightChild = i; } } mTmpIntPair[0] = leftChild; mTmpIntPair[1] = rightChild; return mTmpIntPair; } }