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android / platform / frameworks / base / 2f52c713149f950fdd689d1f688e4cc17e7e42d6 / . / packages / SystemUI / src / com / android / systemui / statusbar / notification / stack / NotificationStackScrollLayout.java
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/*
* 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 com.android.systemui.statusbar.notification.stack;
import static com.android.systemui.Dependency.ALLOW_NOTIFICATION_LONG_PRESS_NAME;
import static com.android.systemui.statusbar.notification.ActivityLaunchAnimator.ExpandAnimationParameters;
import static com.android.systemui.statusbar.notification.stack.StackScrollAlgorithm.ANCHOR_SCROLLING;
import static com.android.systemui.statusbar.notification.stack.StackStateAnimator.ANIMATION_DURATION_SWIPE;
import static com.android.systemui.statusbar.phone.NotificationIconAreaController.HIGH_PRIORITY;
import static com.android.systemui.util.InjectionInflationController.VIEW_CONTEXT;
import static java.lang.annotation.RetentionPolicy.SOURCE;
import android.animation.Animator;
import android.animation.AnimatorListenerAdapter;
import android.animation.TimeAnimator;
import android.animation.ValueAnimator;
import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.content.Context;
import android.content.Intent;
import android.content.res.Configuration;
import android.content.res.Resources;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.Outline;
import android.graphics.Paint;
import android.graphics.Point;
import android.graphics.PointF;
import android.graphics.PorterDuff;
import android.graphics.PorterDuffXfermode;
import android.graphics.Rect;
import android.os.Bundle;
import android.os.ServiceManager;
import android.provider.Settings;
import android.service.notification.NotificationListenerService;
import android.service.notification.StatusBarNotification;
import android.util.AttributeSet;
import android.util.DisplayMetrics;
import android.util.Log;
import android.util.MathUtils;
import android.util.Pair;
import android.view.ContextThemeWrapper;
import android.view.InputDevice;
import android.view.LayoutInflater;
import android.view.MotionEvent;
import android.view.VelocityTracker;
import android.view.View;
import android.view.ViewConfiguration;
import android.view.ViewGroup;
import android.view.ViewOutlineProvider;
import android.view.ViewTreeObserver;
import android.view.WindowInsets;
import android.view.accessibility.AccessibilityEvent;
import android.view.accessibility.AccessibilityNodeInfo;
import android.view.animation.AnimationUtils;
import android.view.animation.Interpolator;
import android.widget.OverScroller;
import android.widget.ScrollView;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.graphics.ColorUtils;
import com.android.internal.logging.MetricsLogger;
import com.android.internal.logging.nano.MetricsProto.MetricsEvent;
import com.android.internal.statusbar.IStatusBarService;
import com.android.keyguard.KeyguardSliceView;
import com.android.settingslib.Utils;
import com.android.systemui.Dependency;
import com.android.systemui.Dumpable;
import com.android.systemui.ExpandHelper;
import com.android.systemui.Interpolators;
import com.android.systemui.R;
import com.android.systemui.SwipeHelper;
import com.android.systemui.classifier.FalsingManagerFactory;
import com.android.systemui.colorextraction.SysuiColorExtractor;
import com.android.systemui.plugins.ActivityStarter;
import com.android.systemui.plugins.FalsingManager;
import com.android.systemui.plugins.statusbar.NotificationMenuRowPlugin;
import com.android.systemui.plugins.statusbar.NotificationMenuRowPlugin.MenuItem;
import com.android.systemui.plugins.statusbar.NotificationMenuRowPlugin.OnMenuEventListener;
import com.android.systemui.plugins.statusbar.NotificationSwipeActionHelper;
import com.android.systemui.plugins.statusbar.StatusBarStateController;
import com.android.systemui.plugins.statusbar.StatusBarStateController.StateListener;
import com.android.systemui.statusbar.AmbientPulseManager;
import com.android.systemui.statusbar.CommandQueue;
import com.android.systemui.statusbar.DragDownHelper.DragDownCallback;
import com.android.systemui.statusbar.EmptyShadeView;
import com.android.systemui.statusbar.NotificationLockscreenUserManager;
import com.android.systemui.statusbar.NotificationRemoteInputManager;
import com.android.systemui.statusbar.NotificationShelf;
import com.android.systemui.statusbar.RemoteInputController;
import com.android.systemui.statusbar.StatusBarState;
import com.android.systemui.statusbar.SysuiStatusBarStateController;
import com.android.systemui.statusbar.notification.DynamicPrivacyController;
import com.android.systemui.statusbar.notification.FakeShadowView;
import com.android.systemui.statusbar.notification.NotificationEntryListener;
import com.android.systemui.statusbar.notification.NotificationEntryManager;
import com.android.systemui.statusbar.notification.NotificationUtils;
import com.android.systemui.statusbar.notification.ShadeViewRefactor;
import com.android.systemui.statusbar.notification.ShadeViewRefactor.RefactorComponent;
import com.android.systemui.statusbar.notification.VisualStabilityManager;
import com.android.systemui.statusbar.notification.collection.NotificationEntry;
import com.android.systemui.statusbar.notification.logging.NotificationLogger;
import com.android.systemui.statusbar.notification.row.ActivatableNotificationView;
import com.android.systemui.statusbar.notification.row.ExpandableNotificationRow;
import com.android.systemui.statusbar.notification.row.ExpandableView;
import com.android.systemui.statusbar.notification.row.FooterView;
import com.android.systemui.statusbar.notification.row.NotificationBlockingHelperManager;
import com.android.systemui.statusbar.notification.row.NotificationGuts;
import com.android.systemui.statusbar.notification.row.NotificationGutsManager;
import com.android.systemui.statusbar.notification.row.NotificationSnooze;
import com.android.systemui.statusbar.notification.row.StackScrollerDecorView;
import com.android.systemui.statusbar.phone.DozeParameters;
import com.android.systemui.statusbar.phone.HeadsUpAppearanceController;
import com.android.systemui.statusbar.phone.HeadsUpManagerPhone;
import com.android.systemui.statusbar.phone.HeadsUpTouchHelper;
import com.android.systemui.statusbar.phone.LockscreenGestureLogger;
import com.android.systemui.statusbar.phone.NotificationGroupManager;
import com.android.systemui.statusbar.phone.NotificationGroupManager.OnGroupChangeListener;
import com.android.systemui.statusbar.phone.NotificationIconAreaController;
import com.android.systemui.statusbar.phone.NotificationPanelView;
import com.android.systemui.statusbar.phone.ScrimController;
import com.android.systemui.statusbar.phone.ShadeController;
import com.android.systemui.statusbar.phone.StatusBar;
import com.android.systemui.statusbar.policy.ConfigurationController;
import com.android.systemui.statusbar.policy.ConfigurationController.ConfigurationListener;
import com.android.systemui.statusbar.policy.HeadsUpUtil;
import com.android.systemui.statusbar.policy.ScrollAdapter;
import com.android.systemui.tuner.TunerService;
import com.android.systemui.util.Assert;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.lang.annotation.Retention;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashSet;
import java.util.List;
import java.util.function.BiConsumer;
import javax.inject.Inject;
import javax.inject.Named;
/**
* A layout which handles a dynamic amount of notifications and presents them in a scrollable stack.
*/
public class NotificationStackScrollLayout extends ViewGroup implements ScrollAdapter,
NotificationListContainer, ConfigurationListener, Dumpable,
DynamicPrivacyController.Listener {
public static final float BACKGROUND_ALPHA_DIMMED = 0.7f;
private static final String TAG = "StackScroller";
private static final boolean DEBUG = false;
private static final float RUBBER_BAND_FACTOR_NORMAL = 0.35f;
private static final float RUBBER_BAND_FACTOR_AFTER_EXPAND = 0.15f;
private static final float RUBBER_BAND_FACTOR_ON_PANEL_EXPAND = 0.21f;
/**
* Sentinel value for no current active pointer. Used by {@link #mActivePointerId}.
*/
private static final int INVALID_POINTER = -1;
static final int NUM_SECTIONS = 2;
/**
* The distance in pixels between sections when the sections are directly adjacent (no visible
* gap is drawn between them). In this case we don't want to round their corners.
*/
private static final int DISTANCE_BETWEEN_ADJACENT_SECTIONS_PX = 1;
private final AmbientPulseManager mAmbientPulseManager;
private ExpandHelper mExpandHelper;
private final NotificationSwipeHelper mSwipeHelper;
private int mCurrentStackHeight = Integer.MAX_VALUE;
private final Paint mBackgroundPaint = new Paint();
private final boolean mShouldDrawNotificationBackground;
private boolean mHighPriorityBeforeSpeedBump;
private final boolean mAllowLongPress;
private boolean mDismissRtl;
private float mExpandedHeight;
private int mOwnScrollY;
private View mScrollAnchorView;
private int mScrollAnchorViewY;
private int mMaxLayoutHeight;
private VelocityTracker mVelocityTracker;
private OverScroller mScroller;
/** Last Y position reported by {@link #mScroller}, used to calculate scroll delta. */
private int mLastScrollerY;
/**
* True if the max position was set to a known position on the last call to {@link #mScroller}.
*/
private boolean mIsScrollerBoundSet;
private Runnable mFinishScrollingCallback;
private int mTouchSlop;
private int mMinimumVelocity;
private int mMaximumVelocity;
private int mOverflingDistance;
private float mMaxOverScroll;
private boolean mIsBeingDragged;
private int mLastMotionY;
private int mDownX;
private int mActivePointerId = INVALID_POINTER;
private boolean mTouchIsClick;
private float mInitialTouchX;
private float mInitialTouchY;
private Paint mDebugPaint;
private int mContentHeight;
private int mIntrinsicContentHeight;
private int mCollapsedSize;
private int mPaddingBetweenElements;
private int mIncreasedPaddingBetweenElements;
private int mMaxTopPadding;
private int mTopPadding;
private int mBottomMargin;
private int mBottomInset = 0;
private float mQsExpansionFraction;
/**
* The algorithm which calculates the properties for our children
*/
protected final StackScrollAlgorithm mStackScrollAlgorithm;
private final AmbientState mAmbientState;
private NotificationGroupManager mGroupManager;
private HashSet<ExpandableView> mChildrenToAddAnimated = new HashSet<>();
private ArrayList<View> mAddedHeadsUpChildren = new ArrayList<>();
private ArrayList<ExpandableView> mChildrenToRemoveAnimated = new ArrayList<>();
private ArrayList<ExpandableView> mChildrenChangingPositions = new ArrayList<>();
private HashSet<View> mFromMoreCardAdditions = new HashSet<>();
private ArrayList<AnimationEvent> mAnimationEvents = new ArrayList<>();
private ArrayList<View> mSwipedOutViews = new ArrayList<>();
private final StackStateAnimator mStateAnimator = new StackStateAnimator(this);
private boolean mAnimationsEnabled;
private boolean mChangePositionInProgress;
private boolean mChildTransferInProgress;
/**
* The raw amount of the overScroll on the top, which is not rubber-banded.
*/
private float mOverScrolledTopPixels;
/**
* The raw amount of the overScroll on the bottom, which is not rubber-banded.
*/
private float mOverScrolledBottomPixels;
private NotificationLogger.OnChildLocationsChangedListener mListener;
private OnOverscrollTopChangedListener mOverscrollTopChangedListener;
private ExpandableView.OnHeightChangedListener mOnHeightChangedListener;
private OnEmptySpaceClickListener mOnEmptySpaceClickListener;
private boolean mNeedsAnimation;
private boolean mTopPaddingNeedsAnimation;
private boolean mDimmedNeedsAnimation;
private boolean mHideSensitiveNeedsAnimation;
private boolean mDarkNeedsAnimation;
private int mDarkAnimationOriginIndex;
private boolean mActivateNeedsAnimation;
private boolean mGoToFullShadeNeedsAnimation;
private boolean mIsExpanded = true;
private boolean mChildrenUpdateRequested;
private boolean mIsExpansionChanging;
private boolean mPanelTracking;
private boolean mExpandingNotification;
private boolean mExpandedInThisMotion;
private boolean mShouldShowShelfOnly;
protected boolean mScrollingEnabled;
protected FooterView mFooterView;
protected EmptyShadeView mEmptyShadeView;
private boolean mDismissAllInProgress;
private boolean mFadeNotificationsOnDismiss;
/**
* Was the scroller scrolled to the top when the down motion was observed?
*/
private boolean mScrolledToTopOnFirstDown;
/**
* The minimal amount of over scroll which is needed in order to switch to the quick settings
* when over scrolling on a expanded card.
*/
private float mMinTopOverScrollToEscape;
private int mIntrinsicPadding;
private float mStackTranslation;
private float mTopPaddingOverflow;
private boolean mDontReportNextOverScroll;
private boolean mDontClampNextScroll;
private boolean mNeedViewResizeAnimation;
private ExpandableView mExpandedGroupView;
private boolean mEverythingNeedsAnimation;
/**
* The maximum scrollPosition which we are allowed to reach when a notification was expanded.
* This is needed to avoid scrolling too far after the notification was collapsed in the same
* motion.
*/
private int mMaxScrollAfterExpand;
private ExpandableNotificationRow.LongPressListener mLongPressListener;
boolean mCheckForLeavebehind;
/**
* Should in this touch motion only be scrolling allowed? It's true when the scroller was
* animating.
*/
private boolean mOnlyScrollingInThisMotion;
private boolean mDisallowDismissInThisMotion;
private boolean mDisallowScrollingInThisMotion;
private long mGoToFullShadeDelay;
private ViewTreeObserver.OnPreDrawListener mChildrenUpdater
= new ViewTreeObserver.OnPreDrawListener() {
@Override
public boolean onPreDraw() {
updateForcedScroll();
updateChildren();
mChildrenUpdateRequested = false;
getViewTreeObserver().removeOnPreDrawListener(this);
return true;
}
};
private StatusBar mStatusBar;
private int[] mTempInt2 = new int[2];
private boolean mGenerateChildOrderChangedEvent;
private HashSet<Runnable> mAnimationFinishedRunnables = new HashSet<>();
private HashSet<ExpandableView> mClearTransientViewsWhenFinished = new HashSet<>();
private HashSet<Pair<ExpandableNotificationRow, Boolean>> mHeadsUpChangeAnimations
= new HashSet<>();
private HeadsUpManagerPhone mHeadsUpManager;
private final NotificationRoundnessManager mRoundnessManager;
private boolean mTrackingHeadsUp;
private ScrimController mScrimController;
private boolean mForceNoOverlappingRendering;
private final ArrayList<Pair<ExpandableNotificationRow, Boolean>> mTmpList = new ArrayList<>();
private FalsingManager mFalsingManager;
private boolean mAnimationRunning;
private ViewTreeObserver.OnPreDrawListener mRunningAnimationUpdater
= new ViewTreeObserver.OnPreDrawListener() {
@Override
public boolean onPreDraw() {
onPreDrawDuringAnimation();
return true;
}
};
private NotificationSection[] mSections = new NotificationSection[NUM_SECTIONS];
private boolean mAnimateNextBackgroundTop;
private boolean mAnimateNextBackgroundBottom;
private boolean mAnimateNextSectionBoundsChange;
private int mBgColor;
private float mDimAmount;
private ValueAnimator mDimAnimator;
private ArrayList<ExpandableView> mTmpSortedChildren = new ArrayList<>();
private final Animator.AnimatorListener mDimEndListener = new AnimatorListenerAdapter() {
@Override
public void onAnimationEnd(Animator animation) {
mDimAnimator = null;
}
};
private ValueAnimator.AnimatorUpdateListener mDimUpdateListener
= new ValueAnimator.AnimatorUpdateListener() {
@Override
public void onAnimationUpdate(ValueAnimator animation) {
setDimAmount((Float) animation.getAnimatedValue());
}
};
protected ViewGroup mQsContainer;
private boolean mContinuousShadowUpdate;
private boolean mContinuousBackgroundUpdate;
private ViewTreeObserver.OnPreDrawListener mShadowUpdater
= new ViewTreeObserver.OnPreDrawListener() {
@Override
public boolean onPreDraw() {
updateViewShadows();
return true;
}
};
private ViewTreeObserver.OnPreDrawListener mBackgroundUpdater = () -> {
updateBackground();
return true;
};
private Comparator<ExpandableView> mViewPositionComparator = new Comparator<ExpandableView>() {
@Override
public int compare(ExpandableView view, ExpandableView otherView) {
float endY = view.getTranslationY() + view.getActualHeight();
float otherEndY = otherView.getTranslationY() + otherView.getActualHeight();
if (endY < otherEndY) {
return -1;
} else if (endY > otherEndY) {
return 1;
} else {
// The two notifications end at the same location
return 0;
}
}
};
private final ViewOutlineProvider mOutlineProvider = new ViewOutlineProvider() {
@Override
public void getOutline(View view, Outline outline) {
if (mAmbientState.isDarkAtAll()) {
float xProgress = mDarkXInterpolator.getInterpolation(
(1 - mLinearDarkAmount) * mBackgroundXFactor);
outline.setRoundRect(mBackgroundAnimationRect,
MathUtils.lerp(mCornerRadius / 2.0f, mCornerRadius,
xProgress));
} else {
ViewOutlineProvider.BACKGROUND.getOutline(view, outline);
}
}
};
private PorterDuffXfermode mSrcMode = new PorterDuffXfermode(PorterDuff.Mode.SRC);
private boolean mPulsing;
private boolean mGroupExpandedForMeasure;
private boolean mScrollable;
private View mForcedScroll;
/**
* @see #setDarkAmount(float, float)
*/
private float mInterpolatedDarkAmount = 0f;
/**
* @see #setDarkAmount(float, float)
*/
private float mLinearDarkAmount = 0f;
/**
* How fast the background scales in the X direction as a factor of the Y expansion.
*/
private float mBackgroundXFactor = 1f;
private boolean mSwipingInProgress;
private boolean mUsingLightTheme;
private boolean mQsExpanded;
private boolean mForwardScrollable;
private boolean mBackwardScrollable;
private NotificationShelf mShelf;
private int mMaxDisplayedNotifications = -1;
private int mStatusBarHeight;
private int mMinInteractionHeight;
private boolean mNoAmbient;
private final Rect mClipRect = new Rect();
private boolean mIsClipped;
private Rect mRequestedClipBounds;
private boolean mInHeadsUpPinnedMode;
private boolean mHeadsUpAnimatingAway;
private int mStatusBarState;
private int mCachedBackgroundColor;
private boolean mHeadsUpGoingAwayAnimationsAllowed = true;
private Runnable mReflingAndAnimateScroll = () -> {
if (ANCHOR_SCROLLING) {
maybeReflingScroller();
}
animateScroll();
};
private int mCornerRadius;
private int mSidePaddings;
private final Rect mBackgroundAnimationRect = new Rect();
private int mAntiBurnInOffsetX;
private ArrayList<BiConsumer<Float, Float>> mExpandedHeightListeners = new ArrayList<>();
private int mHeadsUpInset;
private HeadsUpAppearanceController mHeadsUpAppearanceController;
private NotificationIconAreaController mIconAreaController;
private float mHorizontalPanelTranslation;
private final NotificationLockscreenUserManager mLockscreenUserManager =
Dependency.get(NotificationLockscreenUserManager.class);
private final Rect mTmpRect = new Rect();
private final NotificationEntryManager mEntryManager =
Dependency.get(NotificationEntryManager.class);
private final IStatusBarService mBarService = IStatusBarService.Stub.asInterface(
ServiceManager.getService(Context.STATUS_BAR_SERVICE));
@VisibleForTesting
protected final MetricsLogger mMetricsLogger = Dependency.get(MetricsLogger.class);
private final NotificationRemoteInputManager mRemoteInputManager =
Dependency.get(NotificationRemoteInputManager.class);
private final SysuiColorExtractor mColorExtractor = Dependency.get(SysuiColorExtractor.class);
private final DisplayMetrics mDisplayMetrics = Dependency.get(DisplayMetrics.class);
private final LockscreenGestureLogger mLockscreenGestureLogger =
Dependency.get(LockscreenGestureLogger.class);
private final VisualStabilityManager mVisualStabilityManager =
Dependency.get(VisualStabilityManager.class);
protected boolean mClearAllEnabled;
private Interpolator mDarkXInterpolator = Interpolators.FAST_OUT_SLOW_IN;
private NotificationPanelView mNotificationPanel;
private final ShadeController mShadeController = Dependency.get(ShadeController.class);
private final NotificationGutsManager
mNotificationGutsManager = Dependency.get(NotificationGutsManager.class);
private final NotificationSectionsManager mSectionsManager;
/**
* If the {@link NotificationShelf} should be visible when dark.
*/
private boolean mAnimateBottomOnLayout;
@Inject
public NotificationStackScrollLayout(
@Named(VIEW_CONTEXT) Context context,
AttributeSet attrs,
@Named(ALLOW_NOTIFICATION_LONG_PRESS_NAME) boolean allowLongPress,
NotificationRoundnessManager notificationRoundnessManager,
AmbientPulseManager ambientPulseManager,
DynamicPrivacyController dynamicPrivacyController,
ConfigurationController configurationController,
ActivityStarter activityStarter,
StatusBarStateController statusBarStateController) {
super(context, attrs, 0, 0);
Resources res = getResources();
mAllowLongPress = allowLongPress;
for (int i = 0; i < NUM_SECTIONS; i++) {
mSections[i] = new NotificationSection(this);
}
mAmbientPulseManager = ambientPulseManager;
mSectionsManager =
new NotificationSectionsManager(
this,
activityStarter,
statusBarStateController,
configurationController,
NotificationUtils.useNewInterruptionModel(context));
mSectionsManager.initialize(LayoutInflater.from(context));
mSectionsManager.setOnClearGentleNotifsClickListener(v -> {
// Leave the shade open if there will be other notifs left over to clear
final boolean closeShade = !hasActiveClearableNotifications(ROWS_HIGH_PRIORITY);
clearNotifications(ROWS_GENTLE, closeShade);
});
mAmbientState = new AmbientState(context, mSectionsManager);
mRoundnessManager = notificationRoundnessManager;
mBgColor = context.getColor(R.color.notification_shade_background_color);
int minHeight = res.getDimensionPixelSize(R.dimen.notification_min_height);
int maxHeight = res.getDimensionPixelSize(R.dimen.notification_max_height);
mExpandHelper = new ExpandHelper(getContext(), mExpandHelperCallback,
minHeight, maxHeight);
mExpandHelper.setEventSource(this);
mExpandHelper.setScrollAdapter(this);
mSwipeHelper = new NotificationSwipeHelper(SwipeHelper.X, mNotificationCallback,
getContext(), mMenuEventListener);
mStackScrollAlgorithm = createStackScrollAlgorithm(context);
initView(context);
mFalsingManager = FalsingManagerFactory.getInstance(context);
mShouldDrawNotificationBackground =
res.getBoolean(R.bool.config_drawNotificationBackground);
mFadeNotificationsOnDismiss =
res.getBoolean(R.bool.config_fadeNotificationsOnDismiss);
mRoundnessManager.setAnimatedChildren(mChildrenToAddAnimated);
mRoundnessManager.setOnRoundingChangedCallback(this::invalidate);
addOnExpandedHeightListener(mRoundnessManager::setExpanded);
setOutlineProvider(mOutlineProvider);
// Blocking helper manager wants to know the expanded state, update as well.
NotificationBlockingHelperManager blockingHelperManager =
Dependency.get(NotificationBlockingHelperManager.class);
addOnExpandedHeightListener((height, unused) -> {
blockingHelperManager.setNotificationShadeExpanded(height);
});
updateWillNotDraw();
mBackgroundPaint.setAntiAlias(true);
if (DEBUG) {
mDebugPaint = new Paint();
mDebugPaint.setColor(0xffff0000);
mDebugPaint.setStrokeWidth(2);
mDebugPaint.setStyle(Paint.Style.STROKE);
mDebugPaint.setTextSize(25f);
}
mClearAllEnabled = res.getBoolean(R.bool.config_enableNotificationsClearAll);
TunerService tunerService = Dependency.get(TunerService.class);
tunerService.addTunable((key, newValue) -> {
if (key.equals(HIGH_PRIORITY)) {
mHighPriorityBeforeSpeedBump = "1".equals(newValue);
} else if (key.equals(Settings.Secure.NOTIFICATION_DISMISS_RTL)) {
updateDismissRtlSetting("1".equals(newValue));
}
}, HIGH_PRIORITY, Settings.Secure.NOTIFICATION_DISMISS_RTL);
mEntryManager.addNotificationEntryListener(new NotificationEntryListener() {
@Override
public void onPostEntryUpdated(NotificationEntry entry) {
if (!entry.notification.isClearable()) {
// The user may have performed a dismiss action on the notification, since it's
// not clearable we should snap it back.
snapViewIfNeeded(entry);
}
}
});
dynamicPrivacyController.addListener(this);
}
private void updateDismissRtlSetting(boolean dismissRtl) {
mDismissRtl = dismissRtl;
for (int i = 0; i < getChildCount(); i++) {
View child = getChildAt(i);
if (child instanceof ExpandableNotificationRow) {
((ExpandableNotificationRow) child).setDismissRtl(dismissRtl);
}
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onFinishInflate() {
super.onFinishInflate();
inflateEmptyShadeView();
inflateFooterView();
mVisualStabilityManager.setVisibilityLocationProvider(this::isInVisibleLocation);
if (mAllowLongPress) {
setLongPressListener(mNotificationGutsManager::openGuts);
}
}
/**
* @return the height at which we will wake up when pulsing
*/
public float getPulseHeight() {
ActivatableNotificationView firstChild = getFirstChildWithBackground();
if (firstChild != null) {
return firstChild.getCollapsedHeight();
}
return 0f;
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onDensityOrFontScaleChanged() {
reinflateViews();
}
private void reinflateViews() {
inflateFooterView();
inflateEmptyShadeView();
updateFooter();
mSectionsManager.reinflateViews(LayoutInflater.from(mContext));
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onThemeChanged() {
final boolean useDarkText = mColorExtractor.getNeutralColors().supportsDarkText();
updateDecorViews(useDarkText);
updateFooter();
}
@Override
public void onOverlayChanged() {
int newRadius = mContext.getResources().getDimensionPixelSize(
Utils.getThemeAttr(mContext, android.R.attr.dialogCornerRadius));
if (mCornerRadius != newRadius) {
mCornerRadius = newRadius;
invalidate();
}
reinflateViews();
}
@VisibleForTesting
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void updateFooter() {
boolean showDismissView = mClearAllEnabled && hasActiveClearableNotifications(ROWS_ALL);
boolean showFooterView = (showDismissView ||
mEntryManager.getNotificationData().getActiveNotifications().size() != 0)
&& mStatusBarState != StatusBarState.KEYGUARD
&& !mRemoteInputManager.getController().isRemoteInputActive();
updateFooterView(showFooterView, showDismissView);
}
/**
* Return whether there are any clearable notifications
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean hasActiveClearableNotifications(@SelectedRows int selection) {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (!(child instanceof ExpandableNotificationRow)) {
continue;
}
final ExpandableNotificationRow row = (ExpandableNotificationRow) child;
if (row.canViewBeDismissed() && matchesSelection(row, selection)) {
return true;
}
}
return false;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public RemoteInputController.Delegate createDelegate() {
return new RemoteInputController.Delegate() {
public void setRemoteInputActive(NotificationEntry entry,
boolean remoteInputActive) {
mHeadsUpManager.setRemoteInputActive(entry, remoteInputActive);
entry.notifyHeightChanged(true /* needsAnimation */);
updateFooter();
}
public void lockScrollTo(NotificationEntry entry) {
NotificationStackScrollLayout.this.lockScrollTo(entry.getRow());
}
public void requestDisallowLongPressAndDismiss() {
requestDisallowLongPress();
requestDisallowDismiss();
}
};
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onAttachedToWindow() {
super.onAttachedToWindow();
((SysuiStatusBarStateController) Dependency.get(StatusBarStateController.class))
.addCallback(mStateListener, SysuiStatusBarStateController.RANK_STACK_SCROLLER);
Dependency.get(ConfigurationController.class).addCallback(this);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onDetachedFromWindow() {
super.onDetachedFromWindow();
Dependency.get(StatusBarStateController.class).removeCallback(mStateListener);
Dependency.get(ConfigurationController.class).removeCallback(this);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public NotificationSwipeActionHelper getSwipeActionHelper() {
return mSwipeHelper;
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onUiModeChanged() {
mBgColor = mContext.getColor(R.color.notification_shade_background_color);
updateBackgroundDimming();
mShelf.onUiModeChanged();
mSectionsManager.onUiModeChanged();
}
@ShadeViewRefactor(RefactorComponent.DECORATOR)
protected void onDraw(Canvas canvas) {
if (mShouldDrawNotificationBackground
&& (mSections[0].getCurrentBounds().top
< mSections[NUM_SECTIONS - 1].getCurrentBounds().bottom
|| mAmbientState.isDark())) {
drawBackground(canvas);
} else if (mInHeadsUpPinnedMode || mHeadsUpAnimatingAway) {
drawHeadsUpBackground(canvas);
}
if (DEBUG) {
int y = mTopPadding;
canvas.drawLine(0, y, getWidth(), y, mDebugPaint);
y = getLayoutHeight();
canvas.drawLine(0, y, getWidth(), y, mDebugPaint);
y = getHeight() - getEmptyBottomMargin();
canvas.drawLine(0, y, getWidth(), y, mDebugPaint);
}
}
@Override
public void draw(Canvas canvas) {
super.draw(canvas);
if (DEBUG && ANCHOR_SCROLLING) {
if (mScrollAnchorView instanceof ExpandableNotificationRow) {
canvas.drawRect(0,
mScrollAnchorView.getTranslationY(),
getWidth(),
mScrollAnchorView.getTranslationY()
+ ((ExpandableNotificationRow) mScrollAnchorView).getActualHeight(),
mDebugPaint);
canvas.drawText(Integer.toString(mScrollAnchorViewY), getWidth() - 200,
mScrollAnchorView.getTranslationY() + 30, mDebugPaint);
int y = (int) mShelf.getTranslationY();
canvas.drawLine(0, y, getWidth(), y, mDebugPaint);
}
canvas.drawText(Integer.toString(getMaxNegativeScrollAmount()), getWidth() - 100,
getIntrinsicPadding() + 30, mDebugPaint);
canvas.drawText(Integer.toString(getMaxPositiveScrollAmount()), getWidth() - 100,
getHeight() - 30, mDebugPaint);
}
}
@ShadeViewRefactor(RefactorComponent.DECORATOR)
private void drawBackground(Canvas canvas) {
int lockScreenLeft = mSidePaddings;
int lockScreenRight = getWidth() - mSidePaddings;
int lockScreenTop = mSections[0].getCurrentBounds().top;
int lockScreenBottom = mSections[NUM_SECTIONS - 1].getCurrentBounds().bottom;
int darkLeft = getWidth() / 2;
int darkTop = mTopPadding;
float yProgress = 1 - mInterpolatedDarkAmount;
float xProgress = mDarkXInterpolator.getInterpolation(
(1 - mLinearDarkAmount) * mBackgroundXFactor);
int left = (int) MathUtils.lerp(darkLeft, lockScreenLeft, xProgress);
int right = (int) MathUtils.lerp(darkLeft, lockScreenRight, xProgress);
int top = (int) MathUtils.lerp(darkTop, lockScreenTop, yProgress);
int bottom = (int) MathUtils.lerp(darkTop, lockScreenBottom, yProgress);
mBackgroundAnimationRect.set(
left,
top,
right,
bottom);
int backgroundTopAnimationOffset = top - lockScreenTop;
// TODO(kprevas): this may not be necessary any more since we don't display the shelf in AOD
boolean anySectionHasVisibleChild = false;
for (NotificationSection section : mSections) {
if (section.getFirstVisibleChild() != null) {
anySectionHasVisibleChild = true;
break;
}
}
if (!mAmbientState.isDark() || anySectionHasVisibleChild) {
drawBackgroundRects(canvas, left, right, top, backgroundTopAnimationOffset);
}
updateClipping();
}
/**
* Draws round rects for each background section.
*
* We want to draw a round rect for each background section as defined by {@link #mSections}.
* However, if two sections are directly adjacent with no gap between them (e.g. on the
* lockscreen where the shelf can appear directly below the high priority section, or while
* scrolling the shade so that the top of the shelf is right at the bottom of the high priority
* section), we don't want to round the adjacent corners.
*
* Since {@link Canvas} doesn't provide a way to draw a half-rounded rect, this means that we
* need to coalesce the backgrounds for adjacent sections and draw them as a single round rect.
* This method tracks the top of each rect we need to draw, then iterates through the visible
* sections. If a section is not adjacent to the previous section, we draw the previous rect
* behind the sections we've accumulated up to that point, then start a new rect at the top of
* the current section. When we're done iterating we will always have one rect left to draw.
*/
private void drawBackgroundRects(Canvas canvas, int left, int right, int top,
int animationYOffset) {
int backgroundRectTop = top;
int lastSectionBottom =
mSections[0].getCurrentBounds().bottom + animationYOffset;
int currentLeft = left;
int currentRight = right;
boolean first = true;
for (NotificationSection section : mSections) {
if (section.getFirstVisibleChild() == null) {
continue;
}
int sectionTop = section.getCurrentBounds().top + animationYOffset;
int ownLeft = Math.min(Math.max(left, section.getCurrentBounds().left), right);
int ownRight = Math.max(Math.min(right, section.getCurrentBounds().right), ownLeft);
// If sections are directly adjacent to each other, we don't want to draw them
// as separate roundrects, as the rounded corners right next to each other look
// bad.
if (sectionTop - lastSectionBottom > DISTANCE_BETWEEN_ADJACENT_SECTIONS_PX
|| ((currentLeft != ownLeft || currentRight != ownRight) && !first)) {
canvas.drawRoundRect(currentLeft,
backgroundRectTop,
currentRight,
lastSectionBottom,
mCornerRadius, mCornerRadius, mBackgroundPaint);
backgroundRectTop = sectionTop;
}
currentLeft = ownLeft;
currentRight = ownRight;
lastSectionBottom =
section.getCurrentBounds().bottom + animationYOffset;
first = false;
}
canvas.drawRoundRect(currentLeft,
backgroundRectTop,
currentRight,
lastSectionBottom,
mCornerRadius, mCornerRadius, mBackgroundPaint);
}
private void drawHeadsUpBackground(Canvas canvas) {
int left = mSidePaddings;
int right = getWidth() - mSidePaddings;
float top = getHeight();
float bottom = 0;
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE
&& child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
if ((row.isPinned() || row.isHeadsUpAnimatingAway()) && row.getTranslation() < 0
&& row.getProvider().shouldShowGutsOnSnapOpen()) {
top = Math.min(top, row.getTranslationY());
bottom = Math.max(bottom, row.getTranslationY() + row.getActualHeight());
}
}
}
if (top < bottom) {
canvas.drawRoundRect(
left, top, right, bottom,
mCornerRadius, mCornerRadius, mBackgroundPaint);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateBackgroundDimming() {
// No need to update the background color if it's not being drawn.
if (!mShouldDrawNotificationBackground) {
return;
}
// Interpolate between semi-transparent notification panel background color
// and white AOD separator.
float colorInterpolation = MathUtils.smoothStep(0.4f /* start */, 1f /* end */,
mLinearDarkAmount);
int color = ColorUtils.blendARGB(mBgColor, Color.WHITE, colorInterpolation);
if (mCachedBackgroundColor != color) {
mCachedBackgroundColor = color;
mBackgroundPaint.setColor(color);
invalidate();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void initView(Context context) {
mScroller = new OverScroller(getContext());
setDescendantFocusability(FOCUS_AFTER_DESCENDANTS);
setClipChildren(false);
final ViewConfiguration configuration = ViewConfiguration.get(context);
mTouchSlop = configuration.getScaledTouchSlop();
mMinimumVelocity = configuration.getScaledMinimumFlingVelocity();
mMaximumVelocity = configuration.getScaledMaximumFlingVelocity();
mOverflingDistance = configuration.getScaledOverflingDistance();
Resources res = context.getResources();
mCollapsedSize = res.getDimensionPixelSize(R.dimen.notification_min_height);
mStackScrollAlgorithm.initView(context);
mAmbientState.reload(context);
mPaddingBetweenElements = Math.max(1,
res.getDimensionPixelSize(R.dimen.notification_divider_height));
mIncreasedPaddingBetweenElements =
res.getDimensionPixelSize(R.dimen.notification_divider_height_increased);
mMinTopOverScrollToEscape = res.getDimensionPixelSize(
R.dimen.min_top_overscroll_to_qs);
mStatusBarHeight = res.getDimensionPixelSize(R.dimen.status_bar_height);
mBottomMargin = res.getDimensionPixelSize(R.dimen.notification_panel_margin_bottom);
mSidePaddings = res.getDimensionPixelSize(R.dimen.notification_side_paddings);
mMinInteractionHeight = res.getDimensionPixelSize(
R.dimen.notification_min_interaction_height);
mCornerRadius = res.getDimensionPixelSize(
Utils.getThemeAttr(mContext, android.R.attr.dialogCornerRadius));
mHeadsUpInset = mStatusBarHeight + res.getDimensionPixelSize(
R.dimen.heads_up_status_bar_padding);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void notifyHeightChangeListener(ExpandableView view) {
notifyHeightChangeListener(view, false /* needsAnimation */);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void notifyHeightChangeListener(ExpandableView view, boolean needsAnimation) {
if (mOnHeightChangedListener != null) {
mOnHeightChangedListener.onHeightChanged(view, needsAnimation);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
super.onMeasure(widthMeasureSpec, heightMeasureSpec);
int width = MeasureSpec.getSize(widthMeasureSpec);
int childWidthSpec = MeasureSpec.makeMeasureSpec(width - mSidePaddings * 2,
MeasureSpec.getMode(widthMeasureSpec));
// Don't constrain the height of the children so we know how big they'd like to be
int childHeightSpec = MeasureSpec.makeMeasureSpec(MeasureSpec.getSize(heightMeasureSpec),
MeasureSpec.UNSPECIFIED);
// We need to measure all children even the GONE ones, such that the heights are calculated
// correctly as they are used to calculate how many we can fit on the screen.
final int size = getChildCount();
for (int i = 0; i < size; i++) {
measureChild(getChildAt(i), childWidthSpec, childHeightSpec);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onLayout(boolean changed, int l, int t, int r, int b) {
// we layout all our children centered on the top
float centerX = getWidth() / 2.0f;
for (int i = 0; i < getChildCount(); i++) {
View child = getChildAt(i);
// We need to layout all children even the GONE ones, such that the heights are
// calculated correctly as they are used to calculate how many we can fit on the screen
float width = child.getMeasuredWidth();
float height = child.getMeasuredHeight();
child.layout((int) (centerX - width / 2.0f),
0,
(int) (centerX + width / 2.0f),
(int) height);
}
setMaxLayoutHeight(getHeight());
updateContentHeight();
clampScrollPosition();
requestChildrenUpdate();
updateFirstAndLastBackgroundViews();
updateAlgorithmLayoutMinHeight();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void requestAnimationOnViewResize(ExpandableNotificationRow row) {
if (mAnimationsEnabled && (mIsExpanded || row != null && row.isPinned())) {
mNeedViewResizeAnimation = true;
mNeedsAnimation = true;
}
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public void updateSpeedBumpIndex(int newIndex, boolean noAmbient) {
mAmbientState.setSpeedBumpIndex(newIndex);
mNoAmbient = noAmbient;
}
@Override
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setChildLocationsChangedListener(
NotificationLogger.OnChildLocationsChangedListener listener) {
mListener = listener;
}
@Override
@ShadeViewRefactor(RefactorComponent.LAYOUT_ALGORITHM)
public boolean isInVisibleLocation(NotificationEntry entry) {
ExpandableNotificationRow row = entry.getRow();
ExpandableViewState childViewState = row.getViewState();
if (childViewState == null) {
return false;
}
if ((childViewState.location & ExpandableViewState.VISIBLE_LOCATIONS) == 0) {
return false;
}
if (row.getVisibility() != View.VISIBLE) {
return false;
}
return true;
}
@ShadeViewRefactor(RefactorComponent.LAYOUT_ALGORITHM)
private void setMaxLayoutHeight(int maxLayoutHeight) {
mMaxLayoutHeight = maxLayoutHeight;
mShelf.setMaxLayoutHeight(maxLayoutHeight);
updateAlgorithmHeightAndPadding();
}
@ShadeViewRefactor(RefactorComponent.LAYOUT_ALGORITHM)
private void updateAlgorithmHeightAndPadding() {
mAmbientState.setLayoutHeight(getLayoutHeight());
updateAlgorithmLayoutMinHeight();
mAmbientState.setTopPadding(mTopPadding);
}
@ShadeViewRefactor(RefactorComponent.LAYOUT_ALGORITHM)
private void updateAlgorithmLayoutMinHeight() {
mAmbientState.setLayoutMinHeight(mQsExpanded || isHeadsUpTransition()
? getLayoutMinHeight() : 0);
}
/**
* Updates the children views according to the stack scroll algorithm. Call this whenever
* modifications to {@link #mOwnScrollY} are performed to reflect it in the view layout.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateChildren() {
updateScrollStateForAddedChildren();
mAmbientState.setCurrentScrollVelocity(mScroller.isFinished()
? 0
: mScroller.getCurrVelocity());
if (ANCHOR_SCROLLING) {
mAmbientState.setAnchorViewIndex(indexOfChild(mScrollAnchorView));
mAmbientState.setAnchorViewY(mScrollAnchorViewY);
} else {
mAmbientState.setScrollY(mOwnScrollY);
}
mStackScrollAlgorithm.resetViewStates(mAmbientState);
if (!isCurrentlyAnimating() && !mNeedsAnimation) {
applyCurrentState();
} else {
startAnimationToState();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void onPreDrawDuringAnimation() {
mShelf.updateAppearance();
updateClippingToTopRoundedCorner();
if (!mNeedsAnimation && !mChildrenUpdateRequested) {
updateBackground();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateClippingToTopRoundedCorner() {
Float clipStart = (float) mTopPadding
+ mStackTranslation
+ mAmbientState.getExpandAnimationTopChange();
Float clipEnd = clipStart + mCornerRadius;
boolean first = true;
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child.getVisibility() == GONE) {
continue;
}
float start = child.getTranslationY();
float end = start + child.getActualHeight();
boolean clip = clipStart > start && clipStart < end
|| clipEnd >= start && clipEnd <= end;
clip &= !(first && isScrolledToTop());
child.setDistanceToTopRoundness(clip ? Math.max(start - clipStart, 0)
: ExpandableView.NO_ROUNDNESS);
first = false;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateScrollStateForAddedChildren() {
if (mChildrenToAddAnimated.isEmpty()) {
return;
}
if (!ANCHOR_SCROLLING) {
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (mChildrenToAddAnimated.contains(child)) {
int startingPosition = getPositionInLinearLayout(child);
float increasedPaddingAmount = child.getIncreasedPaddingAmount();
int padding = increasedPaddingAmount == 1.0f ? mIncreasedPaddingBetweenElements
: increasedPaddingAmount == -1.0f ? 0 : mPaddingBetweenElements;
int childHeight = getIntrinsicHeight(child) + padding;
if (startingPosition < mOwnScrollY) {
// This child starts off screen, so let's keep it offscreen to keep the
// others visible
setOwnScrollY(mOwnScrollY + childHeight);
}
}
}
}
clampScrollPosition();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateForcedScroll() {
if (mForcedScroll != null && (!mForcedScroll.hasFocus()
|| !mForcedScroll.isAttachedToWindow())) {
mForcedScroll = null;
}
if (mForcedScroll != null) {
ExpandableView expandableView = (ExpandableView) mForcedScroll;
int positionInLinearLayout = getPositionInLinearLayout(expandableView);
int targetScroll = targetScrollForView(expandableView, positionInLinearLayout);
int outOfViewScroll = positionInLinearLayout + expandableView.getIntrinsicHeight();
if (ANCHOR_SCROLLING) {
// TODO
} else {
targetScroll = Math.max(0, Math.min(targetScroll, getScrollRange()));
// Only apply the scroll if we're scrolling the view upwards, or the view is so
// far up that it is not visible anymore.
if (mOwnScrollY < targetScroll || outOfViewScroll < mOwnScrollY) {
setOwnScrollY(targetScroll);
}
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void requestChildrenUpdate() {
if (!mChildrenUpdateRequested) {
getViewTreeObserver().addOnPreDrawListener(mChildrenUpdater);
mChildrenUpdateRequested = true;
invalidate();
}
}
/**
* Returns best effort count of visible notifications.
*/
public int getVisibleNotificationCount() {
int count = 0;
for (int i = 0; i < getChildCount(); i++) {
final View child = getChildAt(i);
if (child.getVisibility() != View.GONE && child instanceof ExpandableNotificationRow) {
count++;
}
}
return count;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private boolean isCurrentlyAnimating() {
return mStateAnimator.isRunning();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void clampScrollPosition() {
if (ANCHOR_SCROLLING) {
// TODO
} else {
int scrollRange = getScrollRange();
if (scrollRange < mOwnScrollY) {
setOwnScrollY(scrollRange);
}
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public int getTopPadding() {
return mTopPadding;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void setTopPadding(int topPadding, boolean animate) {
if (mTopPadding != topPadding) {
mTopPadding = topPadding;
updateAlgorithmHeightAndPadding();
updateContentHeight();
if (animate && mAnimationsEnabled && mIsExpanded) {
mTopPaddingNeedsAnimation = true;
mNeedsAnimation = true;
}
requestChildrenUpdate();
notifyHeightChangeListener(null, animate);
}
}
/**
* Update the height of the panel.
*
* @param height the expanded height of the panel
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void setExpandedHeight(float height) {
mExpandedHeight = height;
setIsExpanded(height > 0);
int minExpansionHeight = getMinExpansionHeight();
if (height < minExpansionHeight) {
mClipRect.left = 0;
mClipRect.right = getWidth();
mClipRect.top = 0;
mClipRect.bottom = (int) height;
height = minExpansionHeight;
setRequestedClipBounds(mClipRect);
} else {
setRequestedClipBounds(null);
}
int stackHeight;
float translationY;
float appearEndPosition = getAppearEndPosition();
float appearStartPosition = getAppearStartPosition();
float appearFraction = 1.0f;
boolean appearing = height < appearEndPosition;
mAmbientState.setAppearing(appearing);
if (!appearing) {
translationY = 0;
if (mShouldShowShelfOnly) {
stackHeight = mTopPadding + mShelf.getIntrinsicHeight();
} else if (mQsExpanded) {
int stackStartPosition = mContentHeight - mTopPadding + mIntrinsicPadding;
int stackEndPosition = mMaxTopPadding + mShelf.getIntrinsicHeight();
if (stackStartPosition <= stackEndPosition) {
stackHeight = stackEndPosition;
} else {
stackHeight = (int) NotificationUtils.interpolate(stackStartPosition,
stackEndPosition, mQsExpansionFraction);
}
} else {
stackHeight = (int) height;
}
} else {
appearFraction = getAppearFraction(height);
if (appearFraction >= 0) {
translationY = NotificationUtils.interpolate(getExpandTranslationStart(), 0,
appearFraction);
} else {
// This may happen when pushing up a heads up. We linearly push it up from the
// start
translationY = height - appearStartPosition + getExpandTranslationStart();
}
if (isHeadsUpTransition()) {
stackHeight =
getFirstVisibleSection().getFirstVisibleChild().getPinnedHeadsUpHeight();
translationY = MathUtils.lerp(mHeadsUpInset - mTopPadding, 0, appearFraction);
} else {
stackHeight = (int) (height - translationY);
}
}
if (stackHeight != mCurrentStackHeight) {
mCurrentStackHeight = stackHeight;
updateAlgorithmHeightAndPadding();
requestChildrenUpdate();
}
setStackTranslation(translationY);
for (int i = 0; i < mExpandedHeightListeners.size(); i++) {
BiConsumer<Float, Float> listener = mExpandedHeightListeners.get(i);
listener.accept(mExpandedHeight, appearFraction);
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void setRequestedClipBounds(Rect clipRect) {
mRequestedClipBounds = clipRect;
updateClipping();
}
/**
* Return the height of the content ignoring the footer.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getIntrinsicContentHeight() {
return mIntrinsicContentHeight;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void updateClipping() {
boolean clipped = mRequestedClipBounds != null && !mInHeadsUpPinnedMode
&& !mHeadsUpAnimatingAway;
boolean clipToOutline = false;
if (mIsClipped != clipped) {
mIsClipped = clipped;
}
if (!mAmbientPulseManager.hasNotifications() && mAmbientState.isFullyDark()) {
setClipBounds(null);
} else if (mAmbientState.isDarkAtAll()) {
clipToOutline = true;
invalidateOutline();
} else if (clipped) {
setClipBounds(mRequestedClipBounds);
} else {
setClipBounds(null);
}
setClipToOutline(clipToOutline);
}
/**
* @return The translation at the beginning when expanding.
* Measured relative to the resting position.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private float getExpandTranslationStart() {
return -mTopPadding + getMinExpansionHeight() - mShelf.getIntrinsicHeight();
}
/**
* @return the position from where the appear transition starts when expanding.
* Measured in absolute height.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private float getAppearStartPosition() {
if (isHeadsUpTransition()) {
return mHeadsUpInset
+ getFirstVisibleSection().getFirstVisibleChild().getPinnedHeadsUpHeight();
}
return getMinExpansionHeight();
}
/**
* @return the height of the top heads up notification when pinned. This is different from the
* intrinsic height, which also includes whether the notification is system expanded and
* is mainly used when dragging down from a heads up notification.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int getTopHeadsUpPinnedHeight() {
NotificationEntry topEntry = mHeadsUpManager.getTopEntry();
if (topEntry == null) {
return 0;
}
ExpandableNotificationRow row = topEntry.getRow();
if (row.isChildInGroup()) {
final NotificationEntry groupSummary
= mGroupManager.getGroupSummary(row.getStatusBarNotification());
if (groupSummary != null) {
row = groupSummary.getRow();
}
}
return row.getPinnedHeadsUpHeight();
}
/**
* @return the position from where the appear transition ends when expanding.
* Measured in absolute height.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private float getAppearEndPosition() {
int appearPosition;
int notGoneChildCount = getNotGoneChildCount();
if (mEmptyShadeView.getVisibility() == GONE && notGoneChildCount != 0) {
if (isHeadsUpTransition()
|| (mHeadsUpManager.hasPinnedHeadsUp() && !mAmbientState.isDark())) {
appearPosition = getTopHeadsUpPinnedHeight();
} else {
appearPosition = 0;
if (notGoneChildCount >= 1 && mShelf.getVisibility() != GONE) {
appearPosition += mShelf.getIntrinsicHeight();
}
}
} else {
appearPosition = mEmptyShadeView.getHeight();
}
return appearPosition + (onKeyguard() ? mTopPadding : mIntrinsicPadding);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private boolean isHeadsUpTransition() {
NotificationSection firstVisibleSection = getFirstVisibleSection();
return mTrackingHeadsUp && firstVisibleSection != null
&& firstVisibleSection.getFirstVisibleChild().isAboveShelf();
}
/**
* @param height the height of the panel
* @return the fraction of the appear animation that has been performed
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getAppearFraction(float height) {
float appearEndPosition = getAppearEndPosition();
float appearStartPosition = getAppearStartPosition();
return (height - appearStartPosition)
/ (appearEndPosition - appearStartPosition);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getStackTranslation() {
return mStackTranslation;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void setStackTranslation(float stackTranslation) {
if (stackTranslation != mStackTranslation) {
mStackTranslation = stackTranslation;
mAmbientState.setStackTranslation(stackTranslation);
requestChildrenUpdate();
}
}
/**
* Get the current height of the view. This is at most the msize of the view given by a the
* layout but it can also be made smaller by setting {@link #mCurrentStackHeight}
*
* @return either the layout height or the externally defined height, whichever is smaller
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private int getLayoutHeight() {
return Math.min(mMaxLayoutHeight, mCurrentStackHeight);
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public int getFirstItemMinHeight() {
final ExpandableView firstChild = getFirstChildNotGone();
return firstChild != null ? firstChild.getMinHeight() : mCollapsedSize;
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public void setQsContainer(ViewGroup qsContainer) {
mQsContainer = qsContainer;
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public static boolean isPinnedHeadsUp(View v) {
if (v instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) v;
return row.isHeadsUp() && row.isPinned();
}
return false;
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
private boolean isHeadsUp(View v) {
if (v instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) v;
return row.isHeadsUp();
}
return false;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public ExpandableView getClosestChildAtRawPosition(float touchX, float touchY) {
getLocationOnScreen(mTempInt2);
float localTouchY = touchY - mTempInt2[1];
ExpandableView closestChild = null;
float minDist = Float.MAX_VALUE;
// find the view closest to the location, accounting for GONE views
final int count = getChildCount();
for (int childIdx = 0; childIdx < count; childIdx++) {
ExpandableView slidingChild = (ExpandableView) getChildAt(childIdx);
if (slidingChild.getVisibility() == GONE
|| slidingChild instanceof StackScrollerDecorView) {
continue;
}
float childTop = slidingChild.getTranslationY();
float top = childTop + slidingChild.getClipTopAmount();
float bottom = childTop + slidingChild.getActualHeight()
- slidingChild.getClipBottomAmount();
float dist = Math.min(Math.abs(top - localTouchY), Math.abs(bottom - localTouchY));
if (dist < minDist) {
closestChild = slidingChild;
minDist = dist;
}
}
return closestChild;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private ExpandableView getChildAtPosition(float touchX, float touchY) {
return getChildAtPosition(touchX, touchY, true /* requireMinHeight */);
}
/**
* Get the child at a certain screen location.
*
* @param touchX the x coordinate
* @param touchY the y coordinate
* @param requireMinHeight Whether a minimum height is required for a child to be returned.
* @return the child at the given location.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private ExpandableView getChildAtPosition(float touchX, float touchY,
boolean requireMinHeight) {
// find the view under the pointer, accounting for GONE views
final int count = getChildCount();
for (int childIdx = 0; childIdx < count; childIdx++) {
ExpandableView slidingChild = (ExpandableView) getChildAt(childIdx);
if (slidingChild.getVisibility() != VISIBLE
|| slidingChild instanceof StackScrollerDecorView) {
continue;
}
float childTop = slidingChild.getTranslationY();
float top = childTop + slidingChild.getClipTopAmount();
float bottom = childTop + slidingChild.getActualHeight()
- slidingChild.getClipBottomAmount();
// Allow the full width of this view to prevent gesture conflict on Keyguard (phone and
// camera affordance).
int left = 0;
int right = getWidth();
if ((bottom - top >= mMinInteractionHeight || !requireMinHeight)
&& touchY >= top && touchY <= bottom && touchX >= left && touchX <= right) {
if (slidingChild instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) slidingChild;
NotificationEntry entry = row.getEntry();
if (!mIsExpanded && row.isHeadsUp() && row.isPinned()
&& mHeadsUpManager.getTopEntry().getRow() != row
&& mGroupManager.getGroupSummary(
mHeadsUpManager.getTopEntry().notification)
!= entry) {
continue;
}
return row.getViewAtPosition(touchY - childTop);
}
return slidingChild;
}
}
return null;
}
public ExpandableView getChildAtRawPosition(float touchX, float touchY) {
getLocationOnScreen(mTempInt2);
return getChildAtPosition(touchX - mTempInt2[0], touchY - mTempInt2[1]);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setScrollingEnabled(boolean enable) {
mScrollingEnabled = enable;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void lockScrollTo(View v) {
if (mForcedScroll == v) {
return;
}
mForcedScroll = v;
scrollTo(v);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean scrollTo(View v) {
ExpandableView expandableView = (ExpandableView) v;
if (ANCHOR_SCROLLING) {
// TODO
} else {
int positionInLinearLayout = getPositionInLinearLayout(v);
int targetScroll = targetScrollForView(expandableView, positionInLinearLayout);
int outOfViewScroll = positionInLinearLayout + expandableView.getIntrinsicHeight();
// Only apply the scroll if we're scrolling the view upwards, or the view is so far up
// that it is not visible anymore.
if (mOwnScrollY < targetScroll || outOfViewScroll < mOwnScrollY) {
mScroller.startScroll(mScrollX, mOwnScrollY, 0, targetScroll - mOwnScrollY);
mDontReportNextOverScroll = true;
animateScroll();
return true;
}
}
return false;
}
/**
* @return the scroll necessary to make the bottom edge of {@param v} align with the top of
* the IME.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int targetScrollForView(ExpandableView v, int positionInLinearLayout) {
return positionInLinearLayout + v.getIntrinsicHeight() +
getImeInset() - getHeight()
+ ((!isExpanded() && isPinnedHeadsUp(v)) ? mHeadsUpInset : getTopPadding());
}
@Override
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public WindowInsets onApplyWindowInsets(WindowInsets insets) {
mBottomInset = insets.getSystemWindowInsetBottom();
if (ANCHOR_SCROLLING) {
// TODO
} else {
int range = getScrollRange();
if (mOwnScrollY > range) {
// HACK: We're repeatedly getting staggered insets here while the IME is
// animating away. To work around that we'll wait until things have settled.
removeCallbacks(mReclamp);
postDelayed(mReclamp, 50);
} else if (mForcedScroll != null) {
// The scroll was requested before we got the actual inset - in case we need
// to scroll up some more do so now.
scrollTo(mForcedScroll);
}
}
return insets;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private Runnable mReclamp = new Runnable() {
@Override
public void run() {
if (ANCHOR_SCROLLING) {
// TODO
} else {
int range = getScrollRange();
mScroller.startScroll(mScrollX, mOwnScrollY, 0, range - mOwnScrollY);
}
mDontReportNextOverScroll = true;
mDontClampNextScroll = true;
animateScroll();
}
};
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setExpandingEnabled(boolean enable) {
mExpandHelper.setEnabled(enable);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private boolean isScrollingEnabled() {
return mScrollingEnabled;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private boolean onKeyguard() {
return mStatusBarState == StatusBarState.KEYGUARD;
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void onConfigurationChanged(Configuration newConfig) {
super.onConfigurationChanged(newConfig);
mStatusBarHeight = getResources().getDimensionPixelOffset(R.dimen.status_bar_height);
float densityScale = getResources().getDisplayMetrics().density;
mSwipeHelper.setDensityScale(densityScale);
float pagingTouchSlop = ViewConfiguration.get(getContext()).getScaledPagingTouchSlop();
mSwipeHelper.setPagingTouchSlop(pagingTouchSlop);
initView(getContext());
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void dismissViewAnimated(View child, Runnable endRunnable, int delay, long duration) {
mSwipeHelper.dismissChild(child, 0, endRunnable, delay, true, duration,
true /* isDismissAll */);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void snapViewIfNeeded(NotificationEntry entry) {
ExpandableNotificationRow child = entry.getRow();
boolean animate = mIsExpanded || isPinnedHeadsUp(child);
// If the child is showing the notification menu snap to that
if (child.getProvider() != null) {
float targetLeft = child.getProvider().isMenuVisible() ? child.getTranslation() : 0;
mSwipeHelper.snapChildIfNeeded(child, animate, targetLeft);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public ViewGroup getViewParentForNotification(NotificationEntry entry) {
return this;
}
/**
* Perform a scroll upwards and adapt the overscroll amounts accordingly
*
* @param deltaY The amount to scroll upwards, has to be positive.
* @return The amount of scrolling to be performed by the scroller,
* not handled by the overScroll amount.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private float overScrollUp(int deltaY, int range) {
deltaY = Math.max(deltaY, 0);
float currentTopAmount = getCurrentOverScrollAmount(true);
float newTopAmount = currentTopAmount - deltaY;
if (currentTopAmount > 0) {
setOverScrollAmount(newTopAmount, true /* onTop */,
false /* animate */);
}
// Top overScroll might not grab all scrolling motion,
// we have to scroll as well.
if (ANCHOR_SCROLLING) {
float scrollAmount = newTopAmount < 0 ? -newTopAmount : 0.0f;
// TODO: once we're recycling this will need to check the adapter position of the child
ExpandableView lastRow = getLastRowNotGone();
if (lastRow != null && !lastRow.isInShelf()) {
float distanceToMax = Math.max(0, getMaxPositiveScrollAmount());
if (scrollAmount > distanceToMax) {
float currentBottomPixels = getCurrentOverScrolledPixels(false);
// We overScroll on the bottom
setOverScrolledPixels(currentBottomPixels + (scrollAmount - distanceToMax),
false /* onTop */,
false /* animate */);
mScrollAnchorViewY -= distanceToMax;
scrollAmount = 0f;
}
}
return scrollAmount;
} else {
float scrollAmount = newTopAmount < 0 ? -newTopAmount : 0.0f;
float newScrollY = mOwnScrollY + scrollAmount;
if (newScrollY > range) {
if (!mExpandedInThisMotion) {
float currentBottomPixels = getCurrentOverScrolledPixels(false);
// We overScroll on the bottom
setOverScrolledPixels(currentBottomPixels + newScrollY - range,
false /* onTop */,
false /* animate */);
}
setOwnScrollY(range);
scrollAmount = 0.0f;
}
return scrollAmount;
}
}
/**
* Perform a scroll downward and adapt the overscroll amounts accordingly
*
* @param deltaY The amount to scroll downwards, has to be negative.
* @return The amount of scrolling to be performed by the scroller,
* not handled by the overScroll amount.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private float overScrollDown(int deltaY) {
deltaY = Math.min(deltaY, 0);
float currentBottomAmount = getCurrentOverScrollAmount(false);
float newBottomAmount = currentBottomAmount + deltaY;
if (currentBottomAmount > 0) {
setOverScrollAmount(newBottomAmount, false /* onTop */,
false /* animate */);
}
// Bottom overScroll might not grab all scrolling motion,
// we have to scroll as well.
if (ANCHOR_SCROLLING) {
float scrollAmount = newBottomAmount < 0 ? newBottomAmount : 0.0f;
// TODO: once we're recycling this will need to check the adapter position of the child
ExpandableView firstChild = getFirstChildNotGone();
float top = firstChild.getTranslationY();
float distanceToTop = mScrollAnchorView.getTranslationY() - top - mScrollAnchorViewY;
if (distanceToTop < -scrollAmount) {
float currentTopPixels = getCurrentOverScrolledPixels(true);
// We overScroll on the top
setOverScrolledPixels(currentTopPixels + (-scrollAmount - distanceToTop),
true /* onTop */,
false /* animate */);
mScrollAnchorView = firstChild;
mScrollAnchorViewY = 0;
scrollAmount = 0f;
}
return scrollAmount;
} else {
float scrollAmount = newBottomAmount < 0 ? newBottomAmount : 0.0f;
float newScrollY = mOwnScrollY + scrollAmount;
if (newScrollY < 0) {
float currentTopPixels = getCurrentOverScrolledPixels(true);
// We overScroll on the top
setOverScrolledPixels(currentTopPixels - newScrollY,
true /* onTop */,
false /* animate */);
setOwnScrollY(0);
scrollAmount = 0.0f;
}
return scrollAmount;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void initVelocityTrackerIfNotExists() {
if (mVelocityTracker == null) {
mVelocityTracker = VelocityTracker.obtain();
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void recycleVelocityTracker() {
if (mVelocityTracker != null) {
mVelocityTracker.recycle();
mVelocityTracker = null;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void initOrResetVelocityTracker() {
if (mVelocityTracker == null) {
mVelocityTracker = VelocityTracker.obtain();
} else {
mVelocityTracker.clear();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setFinishScrollingCallback(Runnable runnable) {
mFinishScrollingCallback = runnable;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void animateScroll() {
if (mScroller.computeScrollOffset()) {
if (ANCHOR_SCROLLING) {
int oldY = mLastScrollerY;
int y = mScroller.getCurrY();
int deltaY = y - oldY;
if (deltaY != 0) {
int maxNegativeScrollAmount = getMaxNegativeScrollAmount();
int maxPositiveScrollAmount = getMaxPositiveScrollAmount();
if ((maxNegativeScrollAmount < 0 && deltaY < maxNegativeScrollAmount)
|| (maxPositiveScrollAmount > 0 && deltaY > maxPositiveScrollAmount)) {
// This frame takes us into overscroll, so set the max overscroll based on
// the current velocity
setMaxOverScrollFromCurrentVelocity();
}
customOverScrollBy(deltaY, oldY, 0, (int) mMaxOverScroll);
mLastScrollerY = y;
}
} else {
int oldY = mOwnScrollY;
int y = mScroller.getCurrY();
if (oldY != y) {
int range = getScrollRange();
if (y < 0 && oldY >= 0 || y > range && oldY <= range) {
// This frame takes us into overscroll, so set the max overscroll based on
// the current velocity
setMaxOverScrollFromCurrentVelocity();
}
if (mDontClampNextScroll) {
range = Math.max(range, oldY);
}
customOverScrollBy(y - oldY, oldY, range,
(int) (mMaxOverScroll));
}
}
postOnAnimation(mReflingAndAnimateScroll);
} else {
mDontClampNextScroll = false;
if (mFinishScrollingCallback != null) {
mFinishScrollingCallback.run();
}
}
}
private void setMaxOverScrollFromCurrentVelocity() {
float currVelocity = mScroller.getCurrVelocity();
if (currVelocity >= mMinimumVelocity) {
mMaxOverScroll = Math.abs(currVelocity) / 1000 * mOverflingDistance;
}
}
/**
* Scrolls by the given delta, overscrolling if needed. If called during a fling and the delta
* would cause us to exceed the provided maximum overscroll, springs back instead.
*
* This method performs the determination of whether we're exceeding the overscroll and clamps
* the scroll amount if so. The actual scrolling/overscrolling happens in
* {@link #onCustomOverScrolled(int, boolean)} (absolute scrolling) or
* {@link #onCustomOverScrolledBy(int, boolean)} (anchor scrolling).
*
* @param deltaY The (signed) number of pixels to scroll.
* @param scrollY The current scroll position (absolute scrolling only).
* @param scrollRangeY The maximum allowable scroll position (absolute scrolling only).
* @param maxOverScrollY The current (unsigned) limit on number of pixels to overscroll by.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void customOverScrollBy(int deltaY, int scrollY, int scrollRangeY, int maxOverScrollY) {
if (ANCHOR_SCROLLING) {
boolean clampedY = false;
if (deltaY < 0) {
int maxScrollAmount = getMaxNegativeScrollAmount();
if (maxScrollAmount > Integer.MIN_VALUE) {
maxScrollAmount -= maxOverScrollY;
if (deltaY < maxScrollAmount) {
deltaY = maxScrollAmount;
clampedY = true;
}
}
} else {
int maxScrollAmount = getMaxPositiveScrollAmount();
if (maxScrollAmount < Integer.MAX_VALUE) {
maxScrollAmount += maxOverScrollY;
if (deltaY > maxScrollAmount) {
deltaY = maxScrollAmount;
clampedY = true;
}
}
}
onCustomOverScrolledBy(deltaY, clampedY);
} else {
int newScrollY = scrollY + deltaY;
final int top = -maxOverScrollY;
final int bottom = maxOverScrollY + scrollRangeY;
boolean clampedY = false;
if (newScrollY > bottom) {
newScrollY = bottom;
clampedY = true;
} else if (newScrollY < top) {
newScrollY = top;
clampedY = true;
}
onCustomOverScrolled(newScrollY, clampedY);
}
}
/**
* Set the amount of overScrolled pixels which will force the view to apply a rubber-banded
* overscroll effect based on numPixels. By default this will also cancel animations on the
* same overScroll edge.
*
* @param numPixels The amount of pixels to overScroll by. These will be scaled according to
* the rubber-banding logic.
* @param onTop Should the effect be applied on top of the scroller.
* @param animate Should an animation be performed.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setOverScrolledPixels(float numPixels, boolean onTop, boolean animate) {
setOverScrollAmount(numPixels * getRubberBandFactor(onTop), onTop, animate, true);
}
/**
* Set the effective overScroll amount which will be directly reflected in the layout.
* By default this will also cancel animations on the same overScroll edge.
*
* @param amount The amount to overScroll by.
* @param onTop Should the effect be applied on top of the scroller.
* @param animate Should an animation be performed.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setOverScrollAmount(float amount, boolean onTop, boolean animate) {
setOverScrollAmount(amount, onTop, animate, true);
}
/**
* Set the effective overScroll amount which will be directly reflected in the layout.
*
* @param amount The amount to overScroll by.
* @param onTop Should the effect be applied on top of the scroller.
* @param animate Should an animation be performed.
* @param cancelAnimators Should running animations be cancelled.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setOverScrollAmount(float amount, boolean onTop, boolean animate,
boolean cancelAnimators) {
setOverScrollAmount(amount, onTop, animate, cancelAnimators, isRubberbanded(onTop));
}
/**
* Set the effective overScroll amount which will be directly reflected in the layout.
*
* @param amount The amount to overScroll by.
* @param onTop Should the effect be applied on top of the scroller.
* @param animate Should an animation be performed.
* @param cancelAnimators Should running animations be cancelled.
* @param isRubberbanded The value which will be passed to
* {@link OnOverscrollTopChangedListener#onOverscrollTopChanged}
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setOverScrollAmount(float amount, boolean onTop, boolean animate,
boolean cancelAnimators, boolean isRubberbanded) {
if (cancelAnimators) {
mStateAnimator.cancelOverScrollAnimators(onTop);
}
setOverScrollAmountInternal(amount, onTop, animate, isRubberbanded);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void setOverScrollAmountInternal(float amount, boolean onTop, boolean animate,
boolean isRubberbanded) {
amount = Math.max(0, amount);
if (animate) {
mStateAnimator.animateOverScrollToAmount(amount, onTop, isRubberbanded);
} else {
setOverScrolledPixels(amount / getRubberBandFactor(onTop), onTop);
mAmbientState.setOverScrollAmount(amount, onTop);
if (onTop) {
notifyOverscrollTopListener(amount, isRubberbanded);
}
requestChildrenUpdate();
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void notifyOverscrollTopListener(float amount, boolean isRubberbanded) {
mExpandHelper.onlyObserveMovements(amount > 1.0f);
if (mDontReportNextOverScroll) {
mDontReportNextOverScroll = false;
return;
}
if (mOverscrollTopChangedListener != null) {
mOverscrollTopChangedListener.onOverscrollTopChanged(amount, isRubberbanded);
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void setOverscrollTopChangedListener(
OnOverscrollTopChangedListener overscrollTopChangedListener) {
mOverscrollTopChangedListener = overscrollTopChangedListener;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getCurrentOverScrollAmount(boolean top) {
return mAmbientState.getOverScrollAmount(top);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getCurrentOverScrolledPixels(boolean top) {
return top ? mOverScrolledTopPixels : mOverScrolledBottomPixels;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void setOverScrolledPixels(float amount, boolean onTop) {
if (onTop) {
mOverScrolledTopPixels = amount;
} else {
mOverScrolledBottomPixels = amount;
}
}
/**
* Scrolls by the given delta, overscrolling if needed. If called during a fling and the delta
* would cause us to exceed the provided maximum overscroll, springs back instead.
*
* @param deltaY The (signed) number of pixels to scroll.
* @param clampedY Whether this value was clamped by the calling method, meaning we've reached
* the overscroll limit.
*/
private void onCustomOverScrolledBy(int deltaY, boolean clampedY) {
assert ANCHOR_SCROLLING;
mScrollAnchorViewY -= deltaY;
// Treat animating scrolls differently; see #computeScroll() for why.
if (!mScroller.isFinished()) {
if (clampedY) {
springBack();
} else {
float overScrollTop = getCurrentOverScrollAmount(true /* top */);
if (isScrolledToTop() && mScrollAnchorViewY > 0) {
notifyOverscrollTopListener(mScrollAnchorViewY,
isRubberbanded(true /* onTop */));
} else {
notifyOverscrollTopListener(overScrollTop, isRubberbanded(true /* onTop */));
}
}
}
updateScrollAnchor();
updateOnScrollChange();
}
/**
* Scrolls to the given position, overscrolling if needed. If called during a fling and the
* position exceeds the provided maximum overscroll, springs back instead.
*
* @param scrollY The target scroll position.
* @param clampedY Whether this value was clamped by the calling method, meaning we've reached
* the overscroll limit.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void onCustomOverScrolled(int scrollY, boolean clampedY) {
assert !ANCHOR_SCROLLING;
// Treat animating scrolls differently; see #computeScroll() for why.
if (!mScroller.isFinished()) {
setOwnScrollY(scrollY);
if (clampedY) {
springBack();
} else {
float overScrollTop = getCurrentOverScrollAmount(true);
if (mOwnScrollY < 0) {
notifyOverscrollTopListener(-mOwnScrollY, isRubberbanded(true));
} else {
notifyOverscrollTopListener(overScrollTop, isRubberbanded(true));
}
}
} else {
setOwnScrollY(scrollY);
}
}
/**
* Springs back from an overscroll by stopping the {@link #mScroller} and animating the
* overscroll amount back to zero.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void springBack() {
if (ANCHOR_SCROLLING) {
boolean overScrolledTop = isScrolledToTop() && mScrollAnchorViewY > 0;
int maxPositiveScrollAmount = getMaxPositiveScrollAmount();
boolean overscrolledBottom = maxPositiveScrollAmount < 0;
if (overScrolledTop || overscrolledBottom) {
float newAmount;
if (overScrolledTop) {
newAmount = mScrollAnchorViewY;
mScrollAnchorViewY = 0;
mDontReportNextOverScroll = true;
} else {
newAmount = -maxPositiveScrollAmount;
mScrollAnchorViewY -= maxPositiveScrollAmount;
}
setOverScrollAmount(newAmount, overScrolledTop, false);
setOverScrollAmount(0.0f, overScrolledTop, true);
mScroller.forceFinished(true);
}
} else {
int scrollRange = getScrollRange();
boolean overScrolledTop = mOwnScrollY <= 0;
boolean overScrolledBottom = mOwnScrollY >= scrollRange;
if (overScrolledTop || overScrolledBottom) {
boolean onTop;
float newAmount;
if (overScrolledTop) {
onTop = true;
newAmount = -mOwnScrollY;
setOwnScrollY(0);
mDontReportNextOverScroll = true;
} else {
onTop = false;
newAmount = mOwnScrollY - scrollRange;
setOwnScrollY(scrollRange);
}
setOverScrollAmount(newAmount, onTop, false);
setOverScrollAmount(0.0f, onTop, true);
mScroller.forceFinished(true);
}
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int getScrollRange() {
// In current design, it only use the top HUN to treat all of HUNs
// although there are more than one HUNs
int contentHeight = mContentHeight;
if (!isExpanded() && mHeadsUpManager.hasPinnedHeadsUp()) {
contentHeight = mHeadsUpInset + getTopHeadsUpPinnedHeight();
}
int scrollRange = Math.max(0, contentHeight - mMaxLayoutHeight);
int imeInset = getImeInset();
scrollRange += Math.min(imeInset, Math.max(0, contentHeight - (getHeight() - imeInset)));
return scrollRange;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int getImeInset() {
return Math.max(0, mBottomInset - (getRootView().getHeight() - getHeight()));
}
/**
* @return the first child which has visibility unequal to GONE
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public ExpandableView getFirstChildNotGone() {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE && child != mShelf) {
return (ExpandableView) child;
}
}
return null;
}
/**
* @return the child before the given view which has visibility unequal to GONE
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public ExpandableView getViewBeforeView(ExpandableView view) {
ExpandableView previousView = null;
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (child == view) {
return previousView;
}
if (child.getVisibility() != View.GONE) {
previousView = (ExpandableView) child;
}
}
return null;
}
/**
* @return The first child which has visibility unequal to GONE which is currently below the
* given translationY or equal to it.
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private View getFirstChildBelowTranlsationY(float translationY, boolean ignoreChildren) {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (child.getVisibility() == View.GONE) {
continue;
}
float rowTranslation = child.getTranslationY();
if (rowTranslation >= translationY) {
return child;
} else if (!ignoreChildren && child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
if (row.isSummaryWithChildren() && row.areChildrenExpanded()) {
List<ExpandableNotificationRow> notificationChildren =
row.getNotificationChildren();
for (int childIndex = 0; childIndex < notificationChildren.size();
childIndex++) {
ExpandableNotificationRow rowChild = notificationChildren.get(childIndex);
if (rowChild.getTranslationY() + rowTranslation >= translationY) {
return rowChild;
}
}
}
}
}
return null;
}
/**
* @return the last child which has visibility unequal to GONE
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public ExpandableView getLastChildNotGone() {
int childCount = getChildCount();
for (int i = childCount - 1; i >= 0; i--) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE && child != mShelf) {
return (ExpandableView) child;
}
}
return null;
}
private ExpandableNotificationRow getLastRowNotGone() {
int childCount = getChildCount();
for (int i = childCount - 1; i >= 0; i--) {
View child = getChildAt(i);
if (child instanceof ExpandableNotificationRow && child.getVisibility() != View.GONE) {
return (ExpandableNotificationRow) child;
}
}
return null;
}
/**
* @return the number of children which have visibility unequal to GONE
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getNotGoneChildCount() {
int childCount = getChildCount();
int count = 0;
for (int i = 0; i < childCount; i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child.getVisibility() != View.GONE && !child.willBeGone() && child != mShelf) {
count++;
}
}
return count;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateContentHeight() {
int height = 0;
float previousPaddingRequest = mPaddingBetweenElements;
float previousPaddingAmount = 0.0f;
int numShownItems = 0;
boolean finish = false;
int maxDisplayedNotifications = mMaxDisplayedNotifications;
for (int i = 0; i < getChildCount(); i++) {
ExpandableView expandableView = (ExpandableView) getChildAt(i);
boolean footerViewOnLockScreen = expandableView == mFooterView && onKeyguard();
if (expandableView.getVisibility() != View.GONE
&& !expandableView.hasNoContentHeight() && !footerViewOnLockScreen) {
boolean limitReached = maxDisplayedNotifications != -1
&& numShownItems >= maxDisplayedNotifications;
if (limitReached) {
expandableView = mShelf;
finish = true;
}
float increasedPaddingAmount = expandableView.getIncreasedPaddingAmount();
float padding;
if (increasedPaddingAmount >= 0.0f) {
padding = (int) NotificationUtils.interpolate(
previousPaddingRequest,
mIncreasedPaddingBetweenElements,
increasedPaddingAmount);
previousPaddingRequest = (int) NotificationUtils.interpolate(
mPaddingBetweenElements,
mIncreasedPaddingBetweenElements,
increasedPaddingAmount);
} else {
int ownPadding = (int) NotificationUtils.interpolate(
0,
mPaddingBetweenElements,
1.0f + increasedPaddingAmount);
if (previousPaddingAmount > 0.0f) {
padding = (int) NotificationUtils.interpolate(
ownPadding,
mIncreasedPaddingBetweenElements,
previousPaddingAmount);
} else {
padding = ownPadding;
}
previousPaddingRequest = ownPadding;
}
if (height != 0) {
height += padding;
}
previousPaddingAmount = increasedPaddingAmount;
height += expandableView.getIntrinsicHeight();
numShownItems++;
if (finish) {
break;
}
}
}
mIntrinsicContentHeight = height;
mContentHeight = height + mTopPadding + mBottomMargin;
updateScrollability();
clampScrollPosition();
mAmbientState.setLayoutMaxHeight(mContentHeight);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean hasPulsingNotifications() {
return mPulsing;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateScrollability() {
boolean scrollable = !mQsExpanded && getScrollRange() > 0;
if (scrollable != mScrollable) {
mScrollable = scrollable;
setFocusable(scrollable);
updateForwardAndBackwardScrollability();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateForwardAndBackwardScrollability() {
boolean forwardScrollable = mScrollable && !isScrolledToBottom();
boolean backwardsScrollable = mScrollable && !isScrolledToTop();
boolean changed = forwardScrollable != mForwardScrollable
|| backwardsScrollable != mBackwardScrollable;
mForwardScrollable = forwardScrollable;
mBackwardScrollable = backwardsScrollable;
if (changed) {
sendAccessibilityEvent(AccessibilityEvent.TYPE_WINDOW_CONTENT_CHANGED);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateBackground() {
// No need to update the background color if it's not being drawn.
if (!mShouldDrawNotificationBackground || mAmbientState.isFullyDark()) {
return;
}
updateBackgroundBounds();
if (didSectionBoundsChange()) {
boolean animate = mAnimateNextSectionBoundsChange || mAnimateNextBackgroundTop
|| mAnimateNextBackgroundBottom || areSectionBoundsAnimating();
if (!isExpanded()) {
abortBackgroundAnimators();
animate = false;
}
if (animate) {
startBackgroundAnimation();
} else {
for (NotificationSection section : mSections) {
section.resetCurrentBounds();
}
invalidate();
}
} else {
abortBackgroundAnimators();
}
mAnimateNextBackgroundTop = false;
mAnimateNextBackgroundBottom = false;
mAnimateNextSectionBoundsChange = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void abortBackgroundAnimators() {
for (NotificationSection section : mSections) {
section.cancelAnimators();
}
}
private boolean didSectionBoundsChange() {
for (NotificationSection section : mSections) {
if (section.didBoundsChange()) {
return true;
}
}
return false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private boolean areSectionBoundsAnimating() {
for (NotificationSection section : mSections) {
if (section.areBoundsAnimating()) {
return true;
}
}
return false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void startBackgroundAnimation() {
// TODO(kprevas): do we still need separate fields for top/bottom?
// or can each section manage its own animation state?
NotificationSection firstVisibleSection = getFirstVisibleSection();
NotificationSection lastVisibleSection = getLastVisibleSection();
for (NotificationSection section : mSections) {
section.startBackgroundAnimation(
section == firstVisibleSection
? mAnimateNextBackgroundTop
: mAnimateNextSectionBoundsChange,
section == lastVisibleSection
? mAnimateNextBackgroundBottom
: mAnimateNextSectionBoundsChange);
}
}
/**
* Update the background bounds to the new desired bounds
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateBackgroundBounds() {
int left = mSidePaddings;
int right = getWidth() - mSidePaddings;
for (NotificationSection section : mSections) {
section.getBounds().left = left;
section.getBounds().right = right;
}
if (!mIsExpanded) {
for (NotificationSection section : mSections) {
section.getBounds().top = 0;
section.getBounds().bottom = 0;
}
return;
}
int minTopPosition = 0;
NotificationSection lastSection = getLastVisibleSection();
if (mStatusBarState != StatusBarState.KEYGUARD) {
minTopPosition = (int) (mTopPadding + mStackTranslation);
} else if (lastSection == null) {
minTopPosition = mTopPadding;
}
boolean shiftPulsingWithFirst = mAmbientPulseManager.getAllEntries().count() <= 1;
for (NotificationSection section : mSections) {
int minBottomPosition = minTopPosition;
if (section == lastSection) {
// We need to make sure the section goes all the way to the shelf
minBottomPosition = (int) (ViewState.getFinalTranslationY(mShelf)
+ mShelf.getIntrinsicHeight());
}
minTopPosition = section.updateBounds(minTopPosition, minBottomPosition,
shiftPulsingWithFirst);
shiftPulsingWithFirst = false;
}
}
private NotificationSection getFirstVisibleSection() {
for (NotificationSection section : mSections) {
if (section.getFirstVisibleChild() != null) {
return section;
}
}
return null;
}
private NotificationSection getLastVisibleSection() {
for (int i = mSections.length - 1; i >= 0; i--) {
NotificationSection section = mSections[i];
if (section.getLastVisibleChild() != null) {
return section;
}
}
return null;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private ActivatableNotificationView getLastChildWithBackground() {
int childCount = getChildCount();
for (int i = childCount - 1; i >= 0; i--) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE && child instanceof ActivatableNotificationView
&& child != mShelf) {
return (ActivatableNotificationView) child;
}
}
return null;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private ActivatableNotificationView getFirstChildWithBackground() {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE && child instanceof ActivatableNotificationView
&& child != mShelf) {
return (ActivatableNotificationView) child;
}
}
return null;
}
/**
* Fling the scroll view
*
* @param velocityY The initial velocity in the Y direction. Positive
* numbers mean that the finger/cursor is moving down the screen,
* which means we want to scroll towards the top.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void fling(int velocityY) {
if (getChildCount() > 0) {
float topAmount = getCurrentOverScrollAmount(true);
float bottomAmount = getCurrentOverScrollAmount(false);
if (velocityY < 0 && topAmount > 0) {
if (ANCHOR_SCROLLING) {
mScrollAnchorViewY += topAmount;
} else {
setOwnScrollY(mOwnScrollY - (int) topAmount);
}
mDontReportNextOverScroll = true;
setOverScrollAmount(0, true, false);
mMaxOverScroll = Math.abs(velocityY) / 1000f * getRubberBandFactor(true /* onTop */)
* mOverflingDistance + topAmount;
} else if (velocityY > 0 && bottomAmount > 0) {
if (ANCHOR_SCROLLING) {
mScrollAnchorViewY -= bottomAmount;
} else {
setOwnScrollY((int) (mOwnScrollY + bottomAmount));
}
setOverScrollAmount(0, false, false);
mMaxOverScroll = Math.abs(velocityY) / 1000f
* getRubberBandFactor(false /* onTop */) * mOverflingDistance
+ bottomAmount;
} else {
// it will be set once we reach the boundary
mMaxOverScroll = 0.0f;
}
if (ANCHOR_SCROLLING) {
flingScroller(velocityY);
} else {
int scrollRange = getScrollRange();
int minScrollY = Math.max(0, scrollRange);
if (mExpandedInThisMotion) {
minScrollY = Math.min(minScrollY, mMaxScrollAfterExpand);
}
mScroller.fling(mScrollX, mOwnScrollY, 1, velocityY, 0, 0, 0, minScrollY, 0,
mExpandedInThisMotion && mOwnScrollY >= 0 ? 0 : Integer.MAX_VALUE / 2);
}
animateScroll();
}
}
/**
* Flings the overscroller with the given velocity (anchor-based scrolling).
*
* Because anchor-based scrolling can't track the current scroll position, the overscroller is
* always started at startY = 0, and we interpret the positions it computes as relative to the
* start of the scroll.
*/
private void flingScroller(int velocityY) {
assert ANCHOR_SCROLLING;
mIsScrollerBoundSet = false;
maybeFlingScroller(velocityY, true /* always fling */);
}
private void maybeFlingScroller(int velocityY, boolean alwaysFling) {
assert ANCHOR_SCROLLING;
// Attempt to determine the maximum amount to scroll before we reach the end.
// If the first view is not materialized (for an upwards scroll) or the last view is either
// not materialized or is pinned to the shade (for a downwards scroll), we don't know this
// amount, so we do an unbounded fling and rely on {@link #maybeReflingScroller()} to update
// the scroller once we approach the start/end of the list.
int minY = Integer.MIN_VALUE;
int maxY = Integer.MAX_VALUE;
if (velocityY < 0) {
minY = getMaxNegativeScrollAmount();
if (minY > Integer.MIN_VALUE) {
mIsScrollerBoundSet = true;
}
} else {
maxY = getMaxPositiveScrollAmount();
if (maxY < Integer.MAX_VALUE) {
mIsScrollerBoundSet = true;
}
}
if (mIsScrollerBoundSet || alwaysFling) {
mLastScrollerY = 0;
// x velocity is set to 1 to avoid overscroller bug
mScroller.fling(0, 0, 1, velocityY, 0, 0, minY, maxY, 0,
mExpandedInThisMotion && !isScrolledToTop() ? 0 : Integer.MAX_VALUE / 2);
}
}
/**
* Returns the maximum number of pixels we can scroll in the positive direction (downwards)
* before reaching the bottom of the list (discounting overscroll).
*
* If the return value is negative then we have overscrolled; this is a transient state which
* should immediately be handled by adjusting the anchor position and adding the extra space to
* the bottom overscroll amount.
*
* If we don't know how many pixels we have left to scroll (because the last row has not been
* materialized, or it's in the shelf so it doesn't have its "natural" position), we return
* {@link Integer#MAX_VALUE}.
*/
private int getMaxPositiveScrollAmount() {
assert ANCHOR_SCROLLING;
// TODO: once we're recycling we need to check the adapter position of the last child.
ExpandableNotificationRow lastRow = getLastRowNotGone();
if (mScrollAnchorView != null && lastRow != null && !lastRow.isInShelf()) {
// distance from bottom of last child to bottom of notifications area is:
// distance from bottom of last child
return (int) (lastRow.getTranslationY() + lastRow.getActualHeight()
// to top of anchor view
- mScrollAnchorView.getTranslationY()
// plus distance from anchor view to top of notifications area
+ mScrollAnchorViewY
// minus height of notifications area.
- (mMaxLayoutHeight - getIntrinsicPadding() - mFooterView.getActualHeight()));
} else {
return Integer.MAX_VALUE;
}
}
/**
* Returns the maximum number of pixels (as a negative number) we can scroll in the negative
* direction (upwards) before reaching the top of the list (discounting overscroll).
*
* If the return value is positive then we have overscrolled; this is a transient state which
* should immediately be handled by adjusting the anchor position and adding the extra space to
* the top overscroll amount.
*
* If we don't know how many pixels we have left to scroll (because the first row has not been
* materialized), we return {@link Integer#MIN_VALUE}.
*/
private int getMaxNegativeScrollAmount() {
assert ANCHOR_SCROLLING;
// TODO: once we're recycling we need to check the adapter position of the first child.
ExpandableView firstChild = getFirstChildNotGone();
if (mScrollAnchorView != null && firstChild != null) {
// distance from top of first child to top of notifications area is:
// distance from top of anchor view
return (int) -(mScrollAnchorView.getTranslationY()
// to top of first child
- firstChild.getTranslationY()
// minus distance from top of anchor view to top of notifications area.
- mScrollAnchorViewY);
} else {
return Integer.MIN_VALUE;
}
}
/**
* During a fling, if we were unable to set the bounds of the fling due to the top/bottom view
* not being materialized or being pinned to the shelf, we need to check on every frame if we're
* able to set the bounds. If we are, we fling the scroller again with the newly computed
* bounds.
*/
private void maybeReflingScroller() {
if (!mIsScrollerBoundSet) {
// Because mScroller is a flywheel scroller, we fling with the minimum possible
// velocity to establish direction, so as not to perceptibly affect the velocity.
maybeFlingScroller((int) Math.signum(mScroller.getCurrVelocity()),
false /* alwaysFling */);
}
}
/**
* @return Whether a fling performed on the top overscroll edge lead to the expanded
* overScroll view (i.e QS).
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private boolean shouldOverScrollFling(int initialVelocity) {
float topOverScroll = getCurrentOverScrollAmount(true);
return mScrolledToTopOnFirstDown
&& !mExpandedInThisMotion
&& topOverScroll > mMinTopOverScrollToEscape
&& initialVelocity > 0;
}
/**
* Updates the top padding of the notifications, taking {@link #getIntrinsicPadding()} into
* account.
*
* @param qsHeight the top padding imposed by the quick settings panel
* @param animate whether to animate the change
* @param ignoreIntrinsicPadding if true, {@link #getIntrinsicPadding()} is ignored and
* {@code qsHeight} is the final top padding
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void updateTopPadding(float qsHeight, boolean animate,
boolean ignoreIntrinsicPadding) {
int topPadding = (int) qsHeight;
int minStackHeight = getLayoutMinHeight();
if (topPadding + minStackHeight > getHeight()) {
mTopPaddingOverflow = topPadding + minStackHeight - getHeight();
} else {
mTopPaddingOverflow = 0;
}
setTopPadding(ignoreIntrinsicPadding ? topPadding : clampPadding(topPadding),
animate);
setExpandedHeight(mExpandedHeight);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void setMaxTopPadding(int maxTopPadding) {
mMaxTopPadding = maxTopPadding;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getLayoutMinHeight() {
if (isHeadsUpTransition()) {
return getTopHeadsUpPinnedHeight();
}
return mShelf.getVisibility() == GONE ? 0 : mShelf.getIntrinsicHeight();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getTopPaddingOverflow() {
return mTopPaddingOverflow;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getPeekHeight() {
final ExpandableView firstChild = getFirstChildNotGone();
final int firstChildMinHeight = firstChild != null ? firstChild.getCollapsedHeight()
: mCollapsedSize;
int shelfHeight = 0;
if (getLastVisibleSection() != null && mShelf.getVisibility() != GONE) {
shelfHeight = mShelf.getIntrinsicHeight();
}
return mIntrinsicPadding + firstChildMinHeight + shelfHeight;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int clampPadding(int desiredPadding) {
return Math.max(desiredPadding, mIntrinsicPadding);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private float getRubberBandFactor(boolean onTop) {
if (!onTop) {
return RUBBER_BAND_FACTOR_NORMAL;
}
if (mExpandedInThisMotion) {
return RUBBER_BAND_FACTOR_AFTER_EXPAND;
} else if (mIsExpansionChanging || mPanelTracking) {
return RUBBER_BAND_FACTOR_ON_PANEL_EXPAND;
} else if (mScrolledToTopOnFirstDown) {
return 1.0f;
}
return RUBBER_BAND_FACTOR_NORMAL;
}
/**
* Accompanying function for {@link #getRubberBandFactor}: Returns true if the overscroll is
* rubberbanded, false if it is technically an overscroll but rather a motion to expand the
* overscroll view (e.g. expand QS).
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private boolean isRubberbanded(boolean onTop) {
return !onTop || mExpandedInThisMotion || mIsExpansionChanging || mPanelTracking
|| !mScrolledToTopOnFirstDown;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setChildTransferInProgress(boolean childTransferInProgress) {
Assert.isMainThread();
mChildTransferInProgress = childTransferInProgress;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
@Override
public void onViewRemoved(View child) {
super.onViewRemoved(child);
// we only call our internal methods if this is actually a removal and not just a
// notification which becomes a child notification
if (!mChildTransferInProgress) {
onViewRemovedInternal((ExpandableView) child, this);
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
@Override
public void cleanUpViewStateForEntry(NotificationEntry entry) {
View child = entry.getRow();
if (child == mSwipeHelper.getTranslatingParentView()) {
mSwipeHelper.clearTranslatingParentView();
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void onViewRemovedInternal(ExpandableView child, ViewGroup container) {
if (mChangePositionInProgress) {
// This is only a position change, don't do anything special
return;
}
child.setOnHeightChangedListener(null);
updateScrollStateForRemovedChild(child);
boolean animationGenerated = generateRemoveAnimation(child);
if (animationGenerated) {
if (!mSwipedOutViews.contains(child)
|| Math.abs(child.getTranslation()) != child.getWidth()) {
container.addTransientView(child, 0);
child.setTransientContainer(container);
}
} else {
mSwipedOutViews.remove(child);
}
updateAnimationState(false, child);
focusNextViewIfFocused(child);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void focusNextViewIfFocused(View view) {
if (view instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
if (row.shouldRefocusOnDismiss()) {
View nextView = row.getChildAfterViewWhenDismissed();
if (nextView == null) {
View groupParentWhenDismissed = row.getGroupParentWhenDismissed();
nextView = getFirstChildBelowTranlsationY(groupParentWhenDismissed != null
? groupParentWhenDismissed.getTranslationY()
: view.getTranslationY(), true /* ignoreChildren */);
}
if (nextView != null) {
nextView.requestAccessibilityFocus();
}
}
}
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
private boolean isChildInGroup(View child) {
return child instanceof ExpandableNotificationRow
&& mGroupManager.isChildInGroupWithSummary(
((ExpandableNotificationRow) child).getStatusBarNotification());
}
/**
* Generate a remove animation for a child view.
*
* @param child The view to generate the remove animation for.
* @return Whether an animation was generated.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private boolean generateRemoveAnimation(ExpandableView child) {
if (removeRemovedChildFromHeadsUpChangeAnimations(child)) {
mAddedHeadsUpChildren.remove(child);
return false;
}
if (isClickedHeadsUp(child)) {
// An animation is already running, add it transiently
mClearTransientViewsWhenFinished.add(child);
return true;
}
if (mIsExpanded && mAnimationsEnabled && !isChildInInvisibleGroup(child)) {
if (!mChildrenToAddAnimated.contains(child)) {
// Generate Animations
mChildrenToRemoveAnimated.add(child);
mNeedsAnimation = true;
return true;
} else {
mChildrenToAddAnimated.remove(child);
mFromMoreCardAdditions.remove(child);
return false;
}
}
return false;
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
private boolean isClickedHeadsUp(View child) {
return HeadsUpUtil.isClickedHeadsUpNotification(child);
}
/**
* Remove a removed child view from the heads up animations if it was just added there
*
* @return whether any child was removed from the list to animate
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private boolean removeRemovedChildFromHeadsUpChangeAnimations(View child) {
boolean hasAddEvent = false;
for (Pair<ExpandableNotificationRow, Boolean> eventPair : mHeadsUpChangeAnimations) {
ExpandableNotificationRow row = eventPair.first;
boolean isHeadsUp = eventPair.second;
if (child == row) {
mTmpList.add(eventPair);
hasAddEvent |= isHeadsUp;
}
}
if (hasAddEvent) {
// This child was just added lets remove all events.
mHeadsUpChangeAnimations.removeAll(mTmpList);
((ExpandableNotificationRow) child).setHeadsUpAnimatingAway(false);
}
mTmpList.clear();
return hasAddEvent;
}
/**
* @param child the child to query
* @return whether a view is not a top level child but a child notification and that group is
* not expanded
*/
@ShadeViewRefactor(RefactorComponent.ADAPTER)
private boolean isChildInInvisibleGroup(View child) {
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
NotificationEntry groupSummary =
mGroupManager.getGroupSummary(row.getStatusBarNotification());
if (groupSummary != null && groupSummary.getRow() != row) {
return row.getVisibility() == View.INVISIBLE;
}
}
return false;
}
/**
* Updates the scroll position when a child was removed
*
* @param removedChild the removed child
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateScrollStateForRemovedChild(ExpandableView removedChild) {
if (ANCHOR_SCROLLING) {
if (removedChild == mScrollAnchorView) {
ExpandableView firstChild = getFirstChildNotGone();
if (firstChild != null) {
mScrollAnchorView = firstChild;
} else {
mScrollAnchorView = mShelf;
}
// Adjust anchor view Y by the distance between the old and new anchors
// so that there's no visible change.
mScrollAnchorViewY +=
mScrollAnchorView.getTranslationY() - removedChild.getTranslationY();
}
updateScrollAnchor();
// TODO: once we're recycling this will need to check the adapter position of the child
if (mScrollAnchorView == getFirstChildNotGone() && mScrollAnchorViewY > 0) {
mScrollAnchorViewY = 0;
}
updateOnScrollChange();
} else {
int startingPosition = getPositionInLinearLayout(removedChild);
float increasedPaddingAmount = removedChild.getIncreasedPaddingAmount();
int padding;
if (increasedPaddingAmount >= 0) {
padding = (int) NotificationUtils.interpolate(
mPaddingBetweenElements,
mIncreasedPaddingBetweenElements,
increasedPaddingAmount);
} else {
padding = (int) NotificationUtils.interpolate(
0,
mPaddingBetweenElements,
1.0f + increasedPaddingAmount);
}
int childHeight = getIntrinsicHeight(removedChild) + padding;
int endPosition = startingPosition + childHeight;
if (endPosition <= mOwnScrollY) {
// This child is fully scrolled of the top, so we have to deduct its height from the
// scrollPosition
setOwnScrollY(mOwnScrollY - childHeight);
} else if (startingPosition < mOwnScrollY) {
// This child is currently being scrolled into, set the scroll position to the
// start of this child
setOwnScrollY(startingPosition);
}
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private int getIntrinsicHeight(View view) {
if (view instanceof ExpandableView) {
ExpandableView expandableView = (ExpandableView) view;
return expandableView.getIntrinsicHeight();
}
return view.getHeight();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getPositionInLinearLayout(View requestedView) {
ExpandableNotificationRow childInGroup = null;
ExpandableNotificationRow requestedRow = null;
if (isChildInGroup(requestedView)) {
// We're asking for a child in a group. Calculate the position of the parent first,
// then within the parent.
childInGroup = (ExpandableNotificationRow) requestedView;
requestedView = requestedRow = childInGroup.getNotificationParent();
}
int position = 0;
float previousPaddingRequest = mPaddingBetweenElements;
float previousPaddingAmount = 0.0f;
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
boolean notGone = child.getVisibility() != View.GONE;
if (notGone && !child.hasNoContentHeight()) {
float increasedPaddingAmount = child.getIncreasedPaddingAmount();
float padding;
if (increasedPaddingAmount >= 0.0f) {
padding = (int) NotificationUtils.interpolate(
previousPaddingRequest,
mIncreasedPaddingBetweenElements,
increasedPaddingAmount);
previousPaddingRequest = (int) NotificationUtils.interpolate(
mPaddingBetweenElements,
mIncreasedPaddingBetweenElements,
increasedPaddingAmount);
} else {
int ownPadding = (int) NotificationUtils.interpolate(
0,
mPaddingBetweenElements,
1.0f + increasedPaddingAmount);
if (previousPaddingAmount > 0.0f) {
padding = (int) NotificationUtils.interpolate(
ownPadding,
mIncreasedPaddingBetweenElements,
previousPaddingAmount);
} else {
padding = ownPadding;
}
previousPaddingRequest = ownPadding;
}
if (position != 0) {
position += padding;
}
previousPaddingAmount = increasedPaddingAmount;
}
if (child == requestedView) {
if (requestedRow != null) {
position += requestedRow.getPositionOfChild(childInGroup);
}
return position;
}
if (notGone) {
position += getIntrinsicHeight(child);
}
}
return 0;
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onViewAdded(View child) {
super.onViewAdded(child);
onViewAddedInternal((ExpandableView) child);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateFirstAndLastBackgroundViews() {
NotificationSection firstSection = getFirstVisibleSection();
NotificationSection lastSection = getLastVisibleSection();
ActivatableNotificationView previousFirstChild =
firstSection == null ? null : firstSection.getFirstVisibleChild();
ActivatableNotificationView previousLastChild =
lastSection == null ? null : lastSection.getLastVisibleChild();
ActivatableNotificationView firstChild = getFirstChildWithBackground();
ActivatableNotificationView lastChild = getLastChildWithBackground();
boolean sectionViewsChanged = mSectionsManager.updateFirstAndLastViewsInSections(
mSections[0], mSections[1], firstChild, lastChild);
if (mAnimationsEnabled && mIsExpanded) {
mAnimateNextBackgroundTop = firstChild != previousFirstChild;
mAnimateNextBackgroundBottom = lastChild != previousLastChild || mAnimateBottomOnLayout;
mAnimateNextSectionBoundsChange = sectionViewsChanged;
} else {
mAnimateNextBackgroundTop = false;
mAnimateNextBackgroundBottom = false;
mAnimateNextSectionBoundsChange = false;
}
mAmbientState.setLastVisibleBackgroundChild(lastChild);
mRoundnessManager.updateRoundedChildren(mSections);
mAnimateBottomOnLayout = false;
invalidate();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void onViewAddedInternal(ExpandableView child) {
updateHideSensitiveForChild(child);
child.setOnHeightChangedListener(this);
generateAddAnimation(child, false /* fromMoreCard */);
updateAnimationState(child);
updateChronometerForChild(child);
if (child instanceof ExpandableNotificationRow) {
((ExpandableNotificationRow) child).setDismissRtl(mDismissRtl);
}
if (ANCHOR_SCROLLING) {
// TODO: once we're recycling this will need to check the adapter position of the child
if (child == getFirstChildNotGone() && (isScrolledToTop() || !mIsExpanded)) {
// New child was added at the top while we're scrolled to the top;
// make it the new anchor view so that we stay at the top.
mScrollAnchorView = child;
}
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void updateHideSensitiveForChild(ExpandableView child) {
child.setHideSensitiveForIntrinsicHeight(mAmbientState.isHideSensitive());
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void notifyGroupChildRemoved(ExpandableView row, ViewGroup childrenContainer) {
onViewRemovedInternal(row, childrenContainer);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void notifyGroupChildAdded(ExpandableView row) {
onViewAddedInternal(row);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setAnimationsEnabled(boolean animationsEnabled) {
mAnimationsEnabled = animationsEnabled;
updateNotificationAnimationStates();
if (!animationsEnabled) {
mSwipedOutViews.clear();
mChildrenToRemoveAnimated.clear();
clearTemporaryViewsInGroup(this);
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateNotificationAnimationStates() {
boolean running = mAnimationsEnabled || hasPulsingNotifications();
mShelf.setAnimationsEnabled(running);
mIconAreaController.setAnimationsEnabled(running);
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
View child = getChildAt(i);
running &= mIsExpanded || isPinnedHeadsUp(child);
updateAnimationState(running, child);
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateAnimationState(View child) {
updateAnimationState((mAnimationsEnabled || hasPulsingNotifications())
&& (mIsExpanded || isPinnedHeadsUp(child)), child);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setExpandingNotification(ExpandableNotificationRow row) {
mAmbientState.setExpandingNotification(row);
requestChildrenUpdate();
}
@Override
@ShadeViewRefactor(RefactorComponent.ADAPTER)
public void bindRow(ExpandableNotificationRow row) {
row.setHeadsUpAnimatingAwayListener(animatingAway -> {
mRoundnessManager.onHeadsupAnimatingAwayChanged(row, animatingAway);
mHeadsUpAppearanceController.updateHeader(row.getEntry());
});
}
@Override
public boolean containsView(View v) {
return v.getParent() == this;
}
@Override
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void applyExpandAnimationParams(ExpandAnimationParameters params) {
mAmbientState.setExpandAnimationTopChange(params == null ? 0 : params.getTopChange());
requestChildrenUpdate();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateAnimationState(boolean running, View child) {
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
row.setIconAnimationRunning(running);
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public boolean isAddOrRemoveAnimationPending() {
return mNeedsAnimation
&& (!mChildrenToAddAnimated.isEmpty() || !mChildrenToRemoveAnimated.isEmpty());
}
@Override
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void generateAddAnimation(ExpandableView child, boolean fromMoreCard) {
if (mIsExpanded && mAnimationsEnabled && !mChangePositionInProgress) {
// Generate Animations
mChildrenToAddAnimated.add(child);
if (fromMoreCard) {
mFromMoreCardAdditions.add(child);
}
mNeedsAnimation = true;
}
if (isHeadsUp(child) && mAnimationsEnabled && !mChangePositionInProgress) {
mAddedHeadsUpChildren.add(child);
mChildrenToAddAnimated.remove(child);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void changeViewPosition(ExpandableView child, int newIndex) {
Assert.isMainThread();
if (mChangePositionInProgress) {
throw new IllegalStateException("Reentrant call to changeViewPosition");
}
int currentIndex = indexOfChild(child);
if (currentIndex == -1) {
boolean isTransient = false;
if (child instanceof ExpandableNotificationRow
&& ((ExpandableNotificationRow) child).getTransientContainer() != null) {
isTransient = true;
}
Log.e(TAG, "Attempting to re-position "
+ (isTransient ? "transient" : "")
+ " view {"
+ child
+ "}");
return;
}
if (child != null && child.getParent() == this && currentIndex != newIndex) {
mChangePositionInProgress = true;
((ExpandableView) child).setChangingPosition(true);
removeView(child);
addView(child, newIndex);
((ExpandableView) child).setChangingPosition(false);
mChangePositionInProgress = false;
if (mIsExpanded && mAnimationsEnabled && child.getVisibility() != View.GONE) {
mChildrenChangingPositions.add(child);
mNeedsAnimation = true;
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void startAnimationToState() {
if (mNeedsAnimation) {
generateAllAnimationEvents();
mNeedsAnimation = false;
}
if (!mAnimationEvents.isEmpty() || isCurrentlyAnimating()) {
setAnimationRunning(true);
mStateAnimator.startAnimationForEvents(mAnimationEvents, mGoToFullShadeDelay);
mAnimationEvents.clear();
updateBackground();
updateViewShadows();
updateClippingToTopRoundedCorner();
} else {
applyCurrentState();
}
mGoToFullShadeDelay = 0;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateAllAnimationEvents() {
generateHeadsUpAnimationEvents();
generateChildRemovalEvents();
generateChildAdditionEvents();
generatePositionChangeEvents();
generateTopPaddingEvent();
generateActivateEvent();
generateDimmedEvent();
generateHideSensitiveEvent();
generateDarkEvent();
generateGoToFullShadeEvent();
generateViewResizeEvent();
generateGroupExpansionEvent();
generateAnimateEverythingEvent();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateHeadsUpAnimationEvents() {
for (Pair<ExpandableNotificationRow, Boolean> eventPair : mHeadsUpChangeAnimations) {
ExpandableNotificationRow row = eventPair.first;
boolean isHeadsUp = eventPair.second;
int type = AnimationEvent.ANIMATION_TYPE_HEADS_UP_OTHER;
boolean onBottom = false;
boolean pinnedAndClosed = row.isPinned() && !mIsExpanded;
if (!mIsExpanded && !isHeadsUp) {
type = row.wasJustClicked()
? AnimationEvent.ANIMATION_TYPE_HEADS_UP_DISAPPEAR_CLICK
: AnimationEvent.ANIMATION_TYPE_HEADS_UP_DISAPPEAR;
if (row.isChildInGroup()) {
// We can otherwise get stuck in there if it was just isolated
row.setHeadsUpAnimatingAway(false);
continue;
}
} else {
ExpandableViewState viewState = row.getViewState();
if (viewState == null) {
// A view state was never generated for this view, so we don't need to animate
// this. This may happen with notification children.
continue;
}
if (isHeadsUp && (mAddedHeadsUpChildren.contains(row) || pinnedAndClosed)) {
if (pinnedAndClosed || shouldHunAppearFromBottom(viewState)) {
// Our custom add animation
type = AnimationEvent.ANIMATION_TYPE_HEADS_UP_APPEAR;
} else {
// Normal add animation
type = AnimationEvent.ANIMATION_TYPE_ADD;
}
onBottom = !pinnedAndClosed;
}
}
AnimationEvent event = new AnimationEvent(row, type);
event.headsUpFromBottom = onBottom;
mAnimationEvents.add(event);
}
mHeadsUpChangeAnimations.clear();
mAddedHeadsUpChildren.clear();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private boolean shouldHunAppearFromBottom(ExpandableViewState viewState) {
if (viewState.yTranslation + viewState.height < mAmbientState.getMaxHeadsUpTranslation()) {
return false;
}
return true;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateGroupExpansionEvent() {
// Generate a group expansion/collapsing event if there is such a group at all
if (mExpandedGroupView != null) {
mAnimationEvents.add(new AnimationEvent(mExpandedGroupView,
AnimationEvent.ANIMATION_TYPE_GROUP_EXPANSION_CHANGED));
mExpandedGroupView = null;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateViewResizeEvent() {
if (mNeedViewResizeAnimation) {
boolean hasDisappearAnimation = false;
for (AnimationEvent animationEvent : mAnimationEvents) {
final int type = animationEvent.animationType;
if (type == AnimationEvent.ANIMATION_TYPE_HEADS_UP_DISAPPEAR_CLICK
|| type == AnimationEvent.ANIMATION_TYPE_HEADS_UP_DISAPPEAR) {
hasDisappearAnimation = true;
break;
}
}
if (!hasDisappearAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_VIEW_RESIZE));
}
}
mNeedViewResizeAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateChildRemovalEvents() {
for (ExpandableView child : mChildrenToRemoveAnimated) {
boolean childWasSwipedOut = mSwipedOutViews.contains(child);
// we need to know the view after this one
float removedTranslation = child.getTranslationY();
boolean ignoreChildren = true;
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
if (row.isRemoved() && row.wasChildInGroupWhenRemoved()) {
removedTranslation = row.getTranslationWhenRemoved();
ignoreChildren = false;
}
childWasSwipedOut |= Math.abs(row.getTranslation()) == row.getWidth();
}
if (!childWasSwipedOut) {
Rect clipBounds = child.getClipBounds();
childWasSwipedOut = clipBounds != null && clipBounds.height() == 0;
if (childWasSwipedOut && child instanceof ExpandableView) {
// Clean up any potential transient views if the child has already been swiped
// out, as we won't be animating it further (due to its height already being
// clipped to 0.
ViewGroup transientContainer = ((ExpandableView) child).getTransientContainer();
if (transientContainer != null) {
transientContainer.removeTransientView(child);
}
}
}
int animationType = childWasSwipedOut
? AnimationEvent.ANIMATION_TYPE_REMOVE_SWIPED_OUT
: AnimationEvent.ANIMATION_TYPE_REMOVE;
AnimationEvent event = new AnimationEvent(child, animationType);
event.viewAfterChangingView = getFirstChildBelowTranlsationY(removedTranslation,
ignoreChildren);
mAnimationEvents.add(event);
mSwipedOutViews.remove(child);
}
mChildrenToRemoveAnimated.clear();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generatePositionChangeEvents() {
for (ExpandableView child : mChildrenChangingPositions) {
mAnimationEvents.add(new AnimationEvent(child,
AnimationEvent.ANIMATION_TYPE_CHANGE_POSITION));
}
mChildrenChangingPositions.clear();
if (mGenerateChildOrderChangedEvent) {
mAnimationEvents.add(new AnimationEvent(null,
AnimationEvent.ANIMATION_TYPE_CHANGE_POSITION));
mGenerateChildOrderChangedEvent = false;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateChildAdditionEvents() {
for (ExpandableView child : mChildrenToAddAnimated) {
if (mFromMoreCardAdditions.contains(child)) {
mAnimationEvents.add(new AnimationEvent(child,
AnimationEvent.ANIMATION_TYPE_ADD,
StackStateAnimator.ANIMATION_DURATION_STANDARD));
} else {
mAnimationEvents.add(new AnimationEvent(child,
AnimationEvent.ANIMATION_TYPE_ADD));
}
}
mChildrenToAddAnimated.clear();
mFromMoreCardAdditions.clear();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateTopPaddingEvent() {
if (mTopPaddingNeedsAnimation) {
AnimationEvent event;
if (mAmbientState.isDark()) {
event = new AnimationEvent(null /* view */,
AnimationEvent.ANIMATION_TYPE_TOP_PADDING_CHANGED,
KeyguardSliceView.DEFAULT_ANIM_DURATION);
} else {
event = new AnimationEvent(null /* view */,
AnimationEvent.ANIMATION_TYPE_TOP_PADDING_CHANGED);
}
mAnimationEvents.add(event);
}
mTopPaddingNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateActivateEvent() {
if (mActivateNeedsAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_ACTIVATED_CHILD));
}
mActivateNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateAnimateEverythingEvent() {
if (mEverythingNeedsAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_EVERYTHING));
}
mEverythingNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateDimmedEvent() {
if (mDimmedNeedsAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_DIMMED));
}
mDimmedNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateHideSensitiveEvent() {
if (mHideSensitiveNeedsAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_HIDE_SENSITIVE));
}
mHideSensitiveNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateDarkEvent() {
if (mDarkNeedsAnimation) {
AnimationEvent ev = new AnimationEvent(null,
AnimationEvent.ANIMATION_TYPE_DARK,
new AnimationFilter()
.animateDark()
.animateY(mShelf));
ev.darkAnimationOriginIndex = mDarkAnimationOriginIndex;
mAnimationEvents.add(ev);
}
mDarkNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void generateGoToFullShadeEvent() {
if (mGoToFullShadeNeedsAnimation) {
mAnimationEvents.add(
new AnimationEvent(null, AnimationEvent.ANIMATION_TYPE_GO_TO_FULL_SHADE));
}
mGoToFullShadeNeedsAnimation = false;
}
@ShadeViewRefactor(RefactorComponent.LAYOUT_ALGORITHM)
protected StackScrollAlgorithm createStackScrollAlgorithm(Context context) {
return new StackScrollAlgorithm(context, this);
}
/**
* @return Whether a y coordinate is inside the content.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean isInContentBounds(float y) {
return y < getHeight() - getEmptyBottomMargin();
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void setLongPressListener(ExpandableNotificationRow.LongPressListener listener) {
mLongPressListener = listener;
}
@Override
@ShadeViewRefactor(RefactorComponent.INPUT)
public boolean onTouchEvent(MotionEvent ev) {
boolean isCancelOrUp = ev.getActionMasked() == MotionEvent.ACTION_CANCEL
|| ev.getActionMasked() == MotionEvent.ACTION_UP;
handleEmptySpaceClick(ev);
boolean expandWantsIt = false;
boolean swipingInProgress = mSwipingInProgress;
if (mIsExpanded && !swipingInProgress && !mOnlyScrollingInThisMotion) {
if (isCancelOrUp) {
mExpandHelper.onlyObserveMovements(false);
}
boolean wasExpandingBefore = mExpandingNotification;
expandWantsIt = mExpandHelper.onTouchEvent(ev);
if (mExpandedInThisMotion && !mExpandingNotification && wasExpandingBefore
&& !mDisallowScrollingInThisMotion) {
dispatchDownEventToScroller(ev);
}
}
boolean scrollerWantsIt = false;
if (mIsExpanded && !swipingInProgress && !mExpandingNotification
&& !mDisallowScrollingInThisMotion) {
scrollerWantsIt = onScrollTouch(ev);
}
boolean horizontalSwipeWantsIt = false;
if (!mIsBeingDragged
&& !mExpandingNotification
&& !mExpandedInThisMotion
&& !mOnlyScrollingInThisMotion
&& !mDisallowDismissInThisMotion) {
horizontalSwipeWantsIt = mSwipeHelper.onTouchEvent(ev);
}
// Check if we need to clear any snooze leavebehinds
NotificationGuts guts = mNotificationGutsManager.getExposedGuts();
if (guts != null && !NotificationSwipeHelper.isTouchInView(ev, guts)
&& guts.getGutsContent() instanceof NotificationSnooze) {
NotificationSnooze ns = (NotificationSnooze) guts.getGutsContent();
if ((ns.isExpanded() && isCancelOrUp)
|| (!horizontalSwipeWantsIt && scrollerWantsIt)) {
// If the leavebehind is expanded we clear it on the next up event, otherwise we
// clear it on the next non-horizontal swipe or expand event.
checkSnoozeLeavebehind();
}
}
if (ev.getActionMasked() == MotionEvent.ACTION_UP) {
mCheckForLeavebehind = true;
}
return horizontalSwipeWantsIt || scrollerWantsIt || expandWantsIt || super.onTouchEvent(ev);
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void dispatchDownEventToScroller(MotionEvent ev) {
MotionEvent downEvent = MotionEvent.obtain(ev);
downEvent.setAction(MotionEvent.ACTION_DOWN);
onScrollTouch(downEvent);
downEvent.recycle();
}
@Override
@ShadeViewRefactor(RefactorComponent.INPUT)
public boolean onGenericMotionEvent(MotionEvent event) {
if (!isScrollingEnabled() || !mIsExpanded || mSwipingInProgress || mExpandingNotification
|| mDisallowScrollingInThisMotion) {
return false;
}
if ((event.getSource() & InputDevice.SOURCE_CLASS_POINTER) != 0) {
switch (event.getAction()) {
case MotionEvent.ACTION_SCROLL: {
if (!mIsBeingDragged) {
final float vscroll = event.getAxisValue(MotionEvent.AXIS_VSCROLL);
if (vscroll != 0) {
final int delta = (int) (vscroll * getVerticalScrollFactor());
if (ANCHOR_SCROLLING) {
mScrollAnchorViewY -= delta;
updateScrollAnchor();
clampScrollPosition();
updateOnScrollChange();
} else {
final int range = getScrollRange();
int oldScrollY = mOwnScrollY;
int newScrollY = oldScrollY - delta;
if (newScrollY < 0) {
newScrollY = 0;
} else if (newScrollY > range) {
newScrollY = range;
}
if (newScrollY != oldScrollY) {
setOwnScrollY(newScrollY);
return true;
}
}
}
}
}
}
}
return super.onGenericMotionEvent(event);
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private boolean onScrollTouch(MotionEvent ev) {
if (!isScrollingEnabled()) {
return false;
}
if (isInsideQsContainer(ev) && !mIsBeingDragged) {
return false;
}
mForcedScroll = null;
initVelocityTrackerIfNotExists();
mVelocityTracker.addMovement(ev);
final int action = ev.getAction();
switch (action & MotionEvent.ACTION_MASK) {
case MotionEvent.ACTION_DOWN: {
if (getChildCount() == 0 || !isInContentBounds(ev)) {
return false;
}
boolean isBeingDragged = !mScroller.isFinished();
setIsBeingDragged(isBeingDragged);
/*
* If being flinged and user touches, stop the fling. isFinished
* will be false if being flinged.
*/
if (!mScroller.isFinished()) {
mScroller.forceFinished(true);
}
// Remember where the motion event started
mLastMotionY = (int) ev.getY();
mDownX = (int) ev.getX();
mActivePointerId = ev.getPointerId(0);
break;
}
case MotionEvent.ACTION_MOVE:
final int activePointerIndex = ev.findPointerIndex(mActivePointerId);
if (activePointerIndex == -1) {
Log.e(TAG, "Invalid pointerId=" + mActivePointerId + " in onTouchEvent");
break;
}
final int y = (int) ev.getY(activePointerIndex);
final int x = (int) ev.getX(activePointerIndex);
int deltaY = mLastMotionY - y;
final int xDiff = Math.abs(x - mDownX);
final int yDiff = Math.abs(deltaY);
if (!mIsBeingDragged && yDiff > mTouchSlop && yDiff > xDiff) {
setIsBeingDragged(true);
if (deltaY > 0) {
deltaY -= mTouchSlop;
} else {
deltaY += mTouchSlop;
}
}
if (mIsBeingDragged) {
// Scroll to follow the motion event
mLastMotionY = y;
float scrollAmount;
int range;
if (ANCHOR_SCROLLING) {
range = 0; // unused in the methods it's being passed to
} else {
range = getScrollRange();
if (mExpandedInThisMotion) {
range = Math.min(range, mMaxScrollAfterExpand);
}
}
if (deltaY < 0) {
scrollAmount = overScrollDown(deltaY);
} else {
scrollAmount = overScrollUp(deltaY, range);
}
// Calling customOverScrollBy will call onCustomOverScrolled, which
// sets the scrolling if applicable.
if (scrollAmount != 0.0f) {
// The scrolling motion could not be compensated with the
// existing overScroll, we have to scroll the view
customOverScrollBy((int) scrollAmount, mOwnScrollY,
range, getHeight() / 2);
// If we're scrolling, leavebehinds should be dismissed
checkSnoozeLeavebehind();
}
}
break;
case MotionEvent.ACTION_UP:
if (mIsBeingDragged) {
final VelocityTracker velocityTracker = mVelocityTracker;
velocityTracker.computeCurrentVelocity(1000, mMaximumVelocity);
int initialVelocity = (int) velocityTracker.getYVelocity(mActivePointerId);
if (shouldOverScrollFling(initialVelocity)) {
onOverScrollFling(true, initialVelocity);
} else {
if (getChildCount() > 0) {
if ((Math.abs(initialVelocity) > mMinimumVelocity)) {
float currentOverScrollTop = getCurrentOverScrollAmount(true);
if (currentOverScrollTop == 0.0f || initialVelocity > 0) {
fling(-initialVelocity);
} else {
onOverScrollFling(false, initialVelocity);
}
} else {
if (ANCHOR_SCROLLING) {
// TODO
} else {
if (mScroller.springBack(mScrollX, mOwnScrollY, 0, 0, 0,
getScrollRange())) {
animateScroll();
}
}
}
}
}
mActivePointerId = INVALID_POINTER;
endDrag();
}
break;
case MotionEvent.ACTION_CANCEL:
if (mIsBeingDragged && getChildCount() > 0) {
if (ANCHOR_SCROLLING) {
// TODO
} else {
if (mScroller.springBack(mScrollX, mOwnScrollY, 0, 0, 0,
getScrollRange())) {
animateScroll();
}
}
mActivePointerId = INVALID_POINTER;
endDrag();
}
break;
case MotionEvent.ACTION_POINTER_DOWN: {
final int index = ev.getActionIndex();
mLastMotionY = (int) ev.getY(index);
mDownX = (int) ev.getX(index);
mActivePointerId = ev.getPointerId(index);
break;
}
case MotionEvent.ACTION_POINTER_UP:
onSecondaryPointerUp(ev);
mLastMotionY = (int) ev.getY(ev.findPointerIndex(mActivePointerId));
mDownX = (int) ev.getX(ev.findPointerIndex(mActivePointerId));
break;
}
return true;
}
@ShadeViewRefactor(RefactorComponent.INPUT)
protected boolean isInsideQsContainer(MotionEvent ev) {
return ev.getY() < mQsContainer.getBottom();
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void onOverScrollFling(boolean open, int initialVelocity) {
if (mOverscrollTopChangedListener != null) {
mOverscrollTopChangedListener.flingTopOverscroll(initialVelocity, open);
}
mDontReportNextOverScroll = true;
setOverScrollAmount(0.0f, true, false);
}
@ShadeViewRefactor(RefactorComponent.INPUT)
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;
mLastMotionY = (int) ev.getY(newPointerIndex);
mActivePointerId = ev.getPointerId(newPointerIndex);
if (mVelocityTracker != null) {
mVelocityTracker.clear();
}
}
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void endDrag() {
setIsBeingDragged(false);
recycleVelocityTracker();
if (getCurrentOverScrollAmount(true /* onTop */) > 0) {
setOverScrollAmount(0, true /* onTop */, true /* animate */);
}
if (getCurrentOverScrollAmount(false /* onTop */) > 0) {
setOverScrollAmount(0, false /* onTop */, true /* animate */);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.INPUT)
public boolean onInterceptTouchEvent(MotionEvent ev) {
initDownStates(ev);
handleEmptySpaceClick(ev);
boolean expandWantsIt = false;
boolean swipingInProgress = mSwipingInProgress;
if (!swipingInProgress && !mOnlyScrollingInThisMotion) {
expandWantsIt = mExpandHelper.onInterceptTouchEvent(ev);
}
boolean scrollWantsIt = false;
if (!swipingInProgress && !mExpandingNotification) {
scrollWantsIt = onInterceptTouchEventScroll(ev);
}
boolean swipeWantsIt = false;
if (!mIsBeingDragged
&& !mExpandingNotification
&& !mExpandedInThisMotion
&& !mOnlyScrollingInThisMotion
&& !mDisallowDismissInThisMotion) {
swipeWantsIt = mSwipeHelper.onInterceptTouchEvent(ev);
}
// Check if we need to clear any snooze leavebehinds
boolean isUp = ev.getActionMasked() == MotionEvent.ACTION_UP;
NotificationGuts guts = mNotificationGutsManager.getExposedGuts();
if (!NotificationSwipeHelper.isTouchInView(ev, guts) && isUp && !swipeWantsIt &&
!expandWantsIt && !scrollWantsIt) {
mCheckForLeavebehind = false;
mNotificationGutsManager.closeAndSaveGuts(true /* removeLeavebehind */,
false /* force */, false /* removeControls */, -1 /* x */, -1 /* y */,
false /* resetMenu */);
}
if (ev.getActionMasked() == MotionEvent.ACTION_UP) {
mCheckForLeavebehind = true;
}
return swipeWantsIt || scrollWantsIt || expandWantsIt || super.onInterceptTouchEvent(ev);
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void handleEmptySpaceClick(MotionEvent ev) {
switch (ev.getActionMasked()) {
case MotionEvent.ACTION_MOVE:
if (mTouchIsClick && (Math.abs(ev.getY() - mInitialTouchY) > mTouchSlop
|| Math.abs(ev.getX() - mInitialTouchX) > mTouchSlop)) {
mTouchIsClick = false;
}
break;
case MotionEvent.ACTION_UP:
if (mStatusBarState != StatusBarState.KEYGUARD && mTouchIsClick &&
isBelowLastNotification(mInitialTouchX, mInitialTouchY)) {
mOnEmptySpaceClickListener.onEmptySpaceClicked(mInitialTouchX, mInitialTouchY);
}
break;
}
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void initDownStates(MotionEvent ev) {
if (ev.getAction() == MotionEvent.ACTION_DOWN) {
mExpandedInThisMotion = false;
mOnlyScrollingInThisMotion = !mScroller.isFinished();
mDisallowScrollingInThisMotion = false;
mDisallowDismissInThisMotion = false;
mTouchIsClick = true;
mInitialTouchX = ev.getX();
mInitialTouchY = ev.getY();
}
}
@Override
@ShadeViewRefactor(RefactorComponent.INPUT)
public void requestDisallowInterceptTouchEvent(boolean disallowIntercept) {
super.requestDisallowInterceptTouchEvent(disallowIntercept);
if (disallowIntercept) {
cancelLongPress();
}
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private boolean onInterceptTouchEventScroll(MotionEvent ev) {
if (!isScrollingEnabled()) {
return false;
}
/*
* This method JUST determines whether we want to intercept the motion.
* If we return true, onMotionEvent will be called and we do the actual
* scrolling there.
*/
/*
* Shortcut the most recurring case: the user is in the dragging
* state and is moving their finger. We want to intercept this
* motion.
*/
final int action = ev.getAction();
if ((action == MotionEvent.ACTION_MOVE) && (mIsBeingDragged)) {
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 the original down touch.
*/
/*
* Locally do absolute value. mLastMotionY is set to the y value
* of the down event.
*/
final int activePointerId = mActivePointerId;
if (activePointerId == INVALID_POINTER) {
// If we don't have a valid id, the touch down wasn't on content.
break;
}
final int pointerIndex = ev.findPointerIndex(activePointerId);
if (pointerIndex == -1) {
Log.e(TAG, "Invalid pointerId=" + activePointerId
+ " in onInterceptTouchEvent");
break;
}
final int y = (int) ev.getY(pointerIndex);
final int x = (int) ev.getX(pointerIndex);
final int yDiff = Math.abs(y - mLastMotionY);
final int xDiff = Math.abs(x - mDownX);
if (yDiff > mTouchSlop && yDiff > xDiff) {
setIsBeingDragged(true);
mLastMotionY = y;
mDownX = x;
initVelocityTrackerIfNotExists();
mVelocityTracker.addMovement(ev);
}
break;
}
case MotionEvent.ACTION_DOWN: {
final int y = (int) ev.getY();
mScrolledToTopOnFirstDown = isScrolledToTop();
if (getChildAtPosition(ev.getX(), y, false /* requireMinHeight */) == null) {
setIsBeingDragged(false);
recycleVelocityTracker();
break;
}
/*
* Remember location of down touch.
* ACTION_DOWN always refers to pointer index 0.
*/
mLastMotionY = y;
mDownX = (int) ev.getX();
mActivePointerId = ev.getPointerId(0);
initOrResetVelocityTracker();
mVelocityTracker.addMovement(ev);
/*
* If being flinged and user touches the screen, initiate drag;
* otherwise don't. mScroller.isFinished should be false when
* being flinged.
*/
boolean isBeingDragged = !mScroller.isFinished();
setIsBeingDragged(isBeingDragged);
break;
}
case MotionEvent.ACTION_CANCEL:
case MotionEvent.ACTION_UP:
/* Release the drag */
setIsBeingDragged(false);
mActivePointerId = INVALID_POINTER;
recycleVelocityTracker();
if (ANCHOR_SCROLLING) {
// TODO
} else {
if (mScroller.springBack(mScrollX, mOwnScrollY, 0, 0, 0, getScrollRange())) {
animateScroll();
}
}
break;
case MotionEvent.ACTION_POINTER_UP:
onSecondaryPointerUp(ev);
break;
}
/*
* The only time we want to intercept motion events is if we are in the
* drag mode.
*/
return mIsBeingDragged;
}
/**
* @return Whether the specified motion event is actually happening over the content.
*/
@ShadeViewRefactor(RefactorComponent.INPUT)
private boolean isInContentBounds(MotionEvent event) {
return isInContentBounds(event.getY());
}
@VisibleForTesting
@ShadeViewRefactor(RefactorComponent.INPUT)
void setIsBeingDragged(boolean isDragged) {
mIsBeingDragged = isDragged;
if (isDragged) {
requestDisallowInterceptTouchEvent(true);
cancelLongPress();
resetExposedMenuView(true /* animate */, true /* force */);
}
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void requestDisallowLongPress() {
cancelLongPress();
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void requestDisallowDismiss() {
mDisallowDismissInThisMotion = true;
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void cancelLongPress() {
mSwipeHelper.cancelLongPress();
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void setOnEmptySpaceClickListener(OnEmptySpaceClickListener listener) {
mOnEmptySpaceClickListener = listener;
}
/** @hide */
@Override
@ShadeViewRefactor(RefactorComponent.INPUT)
public boolean performAccessibilityActionInternal(int action, Bundle arguments) {
if (super.performAccessibilityActionInternal(action, arguments)) {
return true;
}
if (!isEnabled()) {
return false;
}
int direction = -1;
switch (action) {
case AccessibilityNodeInfo.ACTION_SCROLL_FORWARD:
// fall through
case android.R.id.accessibilityActionScrollDown:
direction = 1;
// fall through
case AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD:
// fall through
case android.R.id.accessibilityActionScrollUp:
if (ANCHOR_SCROLLING) {
// TODO
} else {
final int viewportHeight =
getHeight() - mPaddingBottom - mTopPadding - mPaddingTop
- mShelf.getIntrinsicHeight();
final int targetScrollY = Math.max(0,
Math.min(mOwnScrollY + direction * viewportHeight, getScrollRange()));
if (targetScrollY != mOwnScrollY) {
mScroller.startScroll(mScrollX, mOwnScrollY, 0,
targetScrollY - mOwnScrollY);
animateScroll();
return true;
}
}
break;
}
return false;
}
@ShadeViewRefactor(RefactorComponent.INPUT)
public void closeControlsIfOutsideTouch(MotionEvent ev) {
NotificationGuts guts = mNotificationGutsManager.getExposedGuts();
NotificationMenuRowPlugin menuRow = mSwipeHelper.getCurrentMenuRow();
View translatingParentView = mSwipeHelper.getTranslatingParentView();
View view = null;
if (guts != null && !guts.getGutsContent().isLeavebehind()) {
// Only close visible guts if they're not a leavebehind.
view = guts;
} else if (menuRow != null && menuRow.isMenuVisible()
&& translatingParentView != null) {
// Checking menu
view = translatingParentView;
}
if (view != null && !NotificationSwipeHelper.isTouchInView(ev, view)) {
// Touch was outside visible guts / menu notification, close what's visible
mNotificationGutsManager.closeAndSaveGuts(false /* removeLeavebehind */,
false /* force */, true /* removeControls */, -1 /* x */, -1 /* y */,
false /* resetMenu */);
resetExposedMenuView(true /* animate */, true /* force */);
}
}
@ShadeViewRefactor(RefactorComponent.INPUT)
private void setSwipingInProgress(boolean swiping) {
mSwipingInProgress = swiping;
if (swiping) {
requestDisallowInterceptTouchEvent(true);
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onWindowFocusChanged(boolean hasWindowFocus) {
super.onWindowFocusChanged(hasWindowFocus);
if (!hasWindowFocus) {
cancelLongPress();
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void clearChildFocus(View child) {
super.clearChildFocus(child);
if (mForcedScroll == child) {
mForcedScroll = null;
}
}
@Override
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public boolean isScrolledToTop() {
if (ANCHOR_SCROLLING) {
updateScrollAnchor();
// TODO: once we're recycling this will need to check the adapter position of the child
return mScrollAnchorView == getFirstChildNotGone() && mScrollAnchorViewY >= 0;
} else {
return mOwnScrollY == 0;
}
}
@Override
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public boolean isScrolledToBottom() {
if (ANCHOR_SCROLLING) {
return getMaxPositiveScrollAmount() <= 0;
} else {
return mOwnScrollY >= getScrollRange();
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public View getHostView() {
return this;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getEmptyBottomMargin() {
return Math.max(mMaxLayoutHeight - mContentHeight, 0);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void checkSnoozeLeavebehind() {
if (mCheckForLeavebehind) {
mNotificationGutsManager.closeAndSaveGuts(true /* removeLeavebehind */,
false /* force */, false /* removeControls */, -1 /* x */, -1 /* y */,
false /* resetMenu */);
mCheckForLeavebehind = false;
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void resetCheckSnoozeLeavebehind() {
mCheckForLeavebehind = true;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onExpansionStarted() {
mIsExpansionChanging = true;
mAmbientState.setExpansionChanging(true);
checkSnoozeLeavebehind();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onExpansionStopped() {
mIsExpansionChanging = false;
resetCheckSnoozeLeavebehind();
mAmbientState.setExpansionChanging(false);
if (!mIsExpanded) {
resetScrollPosition();
mStatusBar.resetUserExpandedStates();
clearTemporaryViews();
clearUserLockedViews();
ArrayList<ExpandableView> draggedViews = mAmbientState.getDraggedViews();
if (draggedViews.size() > 0) {
draggedViews.clear();
updateContinuousShadowDrawing();
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void clearUserLockedViews() {
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
row.setUserLocked(false);
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void clearTemporaryViews() {
// lets make sure nothing is transient anymore
clearTemporaryViewsInGroup(this);
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
clearTemporaryViewsInGroup(row.getChildrenContainer());
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void clearTemporaryViewsInGroup(ViewGroup viewGroup) {
while (viewGroup != null && viewGroup.getTransientViewCount() != 0) {
viewGroup.removeTransientView(viewGroup.getTransientView(0));
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onPanelTrackingStarted() {
mPanelTracking = true;
mAmbientState.setPanelTracking(true);
resetExposedMenuView(true /* animate */, true /* force */);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onPanelTrackingStopped() {
mPanelTracking = false;
mAmbientState.setPanelTracking(false);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void resetScrollPosition() {
mScroller.abortAnimation();
if (ANCHOR_SCROLLING) {
// TODO: once we're recycling this will need to modify the adapter position instead
mScrollAnchorView = getFirstChildNotGone();
mScrollAnchorViewY = 0;
updateOnScrollChange();
} else {
setOwnScrollY(0);
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void setIsExpanded(boolean isExpanded) {
boolean changed = isExpanded != mIsExpanded;
mIsExpanded = isExpanded;
mStackScrollAlgorithm.setIsExpanded(isExpanded);
mAmbientState.setShadeExpanded(isExpanded);
mStateAnimator.setShadeExpanded(isExpanded);
mSwipeHelper.setIsExpanded(isExpanded);
if (changed) {
if (!mIsExpanded) {
mGroupManager.collapseAllGroups();
mExpandHelper.cancelImmediately();
}
updateNotificationAnimationStates();
updateChronometers();
requestChildrenUpdate();
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void updateChronometers() {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
updateChronometerForChild(getChildAt(i));
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void updateChronometerForChild(View child) {
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
row.setChronometerRunning(mIsExpanded);
}
}
@Override
public void onHeightChanged(ExpandableView view, boolean needsAnimation) {
updateContentHeight();
updateScrollPositionOnExpandInBottom(view);
clampScrollPosition();
notifyHeightChangeListener(view, needsAnimation);
ExpandableNotificationRow row = view instanceof ExpandableNotificationRow
? (ExpandableNotificationRow) view
: null;
NotificationSection firstSection = getFirstVisibleSection();
ActivatableNotificationView firstVisibleChild =
firstSection == null ? null : firstSection.getFirstVisibleChild();
if (row != null) {
if (row == firstVisibleChild
|| row.getNotificationParent() == firstVisibleChild) {
updateAlgorithmLayoutMinHeight();
}
}
if (needsAnimation) {
requestAnimationOnViewResize(row);
}
requestChildrenUpdate();
}
@Override
public void onReset(ExpandableView view) {
updateAnimationState(view);
updateChronometerForChild(view);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateScrollPositionOnExpandInBottom(ExpandableView view) {
if (view instanceof ExpandableNotificationRow && !onKeyguard()) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
// TODO: once we're recycling this will need to check the adapter position of the child
if (row.isUserLocked() && row != getFirstChildNotGone()) {
if (row.isSummaryWithChildren()) {
return;
}
// We are actually expanding this view
float endPosition = row.getTranslationY() + row.getActualHeight();
if (row.isChildInGroup()) {
endPosition += row.getNotificationParent().getTranslationY();
}
int layoutEnd = mMaxLayoutHeight + (int) mStackTranslation;
NotificationSection lastSection = getLastVisibleSection();
ActivatableNotificationView lastVisibleChild =
lastSection == null ? null : lastSection.getLastVisibleChild();
if (row != lastVisibleChild && mShelf.getVisibility() != GONE) {
layoutEnd -= mShelf.getIntrinsicHeight() + mPaddingBetweenElements;
}
if (endPosition > layoutEnd) {
if (ANCHOR_SCROLLING) {
mScrollAnchorViewY -= (endPosition - layoutEnd);
updateScrollAnchor();
updateOnScrollChange();
} else {
setOwnScrollY((int) (mOwnScrollY + endPosition - layoutEnd));
}
mDisallowScrollingInThisMotion = true;
}
}
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setOnHeightChangedListener(
ExpandableView.OnHeightChangedListener onHeightChangedListener) {
this.mOnHeightChangedListener = onHeightChangedListener;
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onChildAnimationFinished() {
setAnimationRunning(false);
requestChildrenUpdate();
runAnimationFinishedRunnables();
clearTransient();
clearHeadsUpDisappearRunning();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void clearHeadsUpDisappearRunning() {
for (int i = 0; i < getChildCount(); i++) {
View view = getChildAt(i);
if (view instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
row.setHeadsUpAnimatingAway(false);
if (row.isSummaryWithChildren()) {
for (ExpandableNotificationRow child : row.getNotificationChildren()) {
child.setHeadsUpAnimatingAway(false);
}
}
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void clearTransient() {
for (ExpandableView view : mClearTransientViewsWhenFinished) {
StackStateAnimator.removeTransientView(view);
}
mClearTransientViewsWhenFinished.clear();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void runAnimationFinishedRunnables() {
for (Runnable runnable : mAnimationFinishedRunnables) {
runnable.run();
}
mAnimationFinishedRunnables.clear();
}
/**
* See {@link AmbientState#setDimmed}.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setDimmed(boolean dimmed, boolean animate) {
dimmed &= onKeyguard();
mAmbientState.setDimmed(dimmed);
if (animate && mAnimationsEnabled) {
mDimmedNeedsAnimation = true;
mNeedsAnimation = true;
animateDimmed(dimmed);
} else {
setDimAmount(dimmed ? 1.0f : 0.0f);
}
requestChildrenUpdate();
}
@VisibleForTesting
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
boolean isDimmed() {
return mAmbientState.isDimmed();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void setDimAmount(float dimAmount) {
mDimAmount = dimAmount;
updateBackgroundDimming();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void animateDimmed(boolean dimmed) {
if (mDimAnimator != null) {
mDimAnimator.cancel();
}
float target = dimmed ? 1.0f : 0.0f;
if (target == mDimAmount) {
return;
}
mDimAnimator = TimeAnimator.ofFloat(mDimAmount, target);
mDimAnimator.setDuration(StackStateAnimator.ANIMATION_DURATION_DIMMED_ACTIVATED);
mDimAnimator.setInterpolator(Interpolators.FAST_OUT_SLOW_IN);
mDimAnimator.addListener(mDimEndListener);
mDimAnimator.addUpdateListener(mDimUpdateListener);
mDimAnimator.start();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void setHideSensitive(boolean hideSensitive, boolean animate) {
if (hideSensitive != mAmbientState.isHideSensitive()) {
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
ExpandableView v = (ExpandableView) getChildAt(i);
v.setHideSensitiveForIntrinsicHeight(hideSensitive);
}
mAmbientState.setHideSensitive(hideSensitive);
if (animate && mAnimationsEnabled) {
mHideSensitiveNeedsAnimation = true;
mNeedsAnimation = true;
}
updateContentHeight();
requestChildrenUpdate();
}
}
/**
* See {@link AmbientState#setActivatedChild}.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setActivatedChild(ActivatableNotificationView activatedChild) {
mAmbientState.setActivatedChild(activatedChild);
if (mAnimationsEnabled) {
mActivateNeedsAnimation = true;
mNeedsAnimation = true;
}
requestChildrenUpdate();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public ActivatableNotificationView getActivatedChild() {
return mAmbientState.getActivatedChild();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void applyCurrentState() {
int numChildren = getChildCount();
for (int i = 0; i < numChildren; i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
child.applyViewState();
}
if (mListener != null) {
mListener.onChildLocationsChanged();
}
runAnimationFinishedRunnables();
setAnimationRunning(false);
updateBackground();
updateViewShadows();
updateClippingToTopRoundedCorner();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateViewShadows() {
// we need to work around an issue where the shadow would not cast between siblings when
// their z difference is between 0 and 0.1
// Lefts first sort by Z difference
for (int i = 0; i < getChildCount(); i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child.getVisibility() != GONE) {
mTmpSortedChildren.add(child);
}
}
Collections.sort(mTmpSortedChildren, mViewPositionComparator);
// Now lets update the shadow for the views
ExpandableView previous = null;
for (int i = 0; i < mTmpSortedChildren.size(); i++) {
ExpandableView expandableView = mTmpSortedChildren.get(i);
float translationZ = expandableView.getTranslationZ();
float otherZ = previous == null ? translationZ : previous.getTranslationZ();
float diff = otherZ - translationZ;
if (diff <= 0.0f || diff >= FakeShadowView.SHADOW_SIBLING_TRESHOLD) {
// There is no fake shadow to be drawn
expandableView.setFakeShadowIntensity(0.0f, 0.0f, 0, 0);
} else {
float yLocation = previous.getTranslationY() + previous.getActualHeight() -
expandableView.getTranslationY() - previous.getExtraBottomPadding();
expandableView.setFakeShadowIntensity(
diff / FakeShadowView.SHADOW_SIBLING_TRESHOLD,
previous.getOutlineAlpha(), (int) yLocation,
previous.getOutlineTranslation());
}
previous = expandableView;
}
mTmpSortedChildren.clear();
}
/**
* Update colors of "dismiss" and "empty shade" views.
*
* @param lightTheme True if light theme should be used.
*/
@ShadeViewRefactor(RefactorComponent.DECORATOR)
public void updateDecorViews(boolean lightTheme) {
if (lightTheme == mUsingLightTheme) {
return;
}
mUsingLightTheme = lightTheme;
Context context = new ContextThemeWrapper(mContext,
lightTheme ? R.style.Theme_SystemUI_Light : R.style.Theme_SystemUI);
final int textColor = Utils.getColorAttrDefaultColor(context, R.attr.wallpaperTextColor);
mFooterView.setTextColor(textColor);
mEmptyShadeView.setTextColor(textColor);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void goToFullShade(long delay) {
mGoToFullShadeNeedsAnimation = true;
mGoToFullShadeDelay = delay;
mNeedsAnimation = true;
requestChildrenUpdate();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void cancelExpandHelper() {
mExpandHelper.cancel();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void setIntrinsicPadding(int intrinsicPadding) {
mIntrinsicPadding = intrinsicPadding;
mAmbientState.setIntrinsicPadding(intrinsicPadding);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getIntrinsicPadding() {
return mIntrinsicPadding;
}
/**
* @return the y position of the first notification
*/
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getNotificationsTopY() {
return mTopPadding + getStackTranslation();
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean shouldDelayChildPressedState() {
return true;
}
/**
* See {@link AmbientState#setDark}.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setDark(boolean dark, boolean animate, @Nullable PointF touchWakeUpScreenLocation) {
if (mAmbientState.isDark() == dark) {
return;
}
mAmbientState.setDark(dark);
if (animate && mAnimationsEnabled) {
mDarkNeedsAnimation = true;
mDarkAnimationOriginIndex = findDarkAnimationOriginIndex(touchWakeUpScreenLocation);
mNeedsAnimation = true;
} else {
setDarkAmount(dark ? 1f : 0f);
updateBackground();
}
requestChildrenUpdate();
updateWillNotDraw();
notifyHeightChangeListener(mShelf);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updatePanelTranslation() {
setTranslationX(mHorizontalPanelTranslation + mAntiBurnInOffsetX * mInterpolatedDarkAmount);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHorizontalPanelTranslation(float verticalPanelTranslation) {
mHorizontalPanelTranslation = verticalPanelTranslation;
updatePanelTranslation();
}
/**
* Updates whether or not this Layout will perform its own custom drawing (i.e. whether or
* not {@link #onDraw(Canvas)} is called). This method should be called whenever the
* {@link #mAmbientState}'s dark mode is toggled.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void updateWillNotDraw() {
boolean willDraw = mShouldDrawNotificationBackground || DEBUG;
setWillNotDraw(!willDraw);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void setDarkAmount(float darkAmount) {
setDarkAmount(darkAmount, darkAmount);
}
/**
* Sets the current dark amount.
*
* @param linearDarkAmount The dark amount that follows linear interpoloation in the
* animation,
* i.e. animates from 0 to 1 or vice-versa in a linear manner.
* @param interpolatedDarkAmount The dark amount that follows the actual interpolation of the
* animation curve.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setDarkAmount(float linearDarkAmount, float interpolatedDarkAmount) {
mLinearDarkAmount = linearDarkAmount;
mInterpolatedDarkAmount = interpolatedDarkAmount;
boolean wasFullyDark = mAmbientState.isFullyDark();
boolean wasDarkAtAll = mAmbientState.isDarkAtAll();
mAmbientState.setDarkAmount(interpolatedDarkAmount);
boolean nowFullyDark = mAmbientState.isFullyDark();
boolean nowDarkAtAll = mAmbientState.isDarkAtAll();
if (nowFullyDark != wasFullyDark) {
updateContentHeight();
if (nowFullyDark) {
updateDarkShelfVisibility();
}
}
if (!wasDarkAtAll && nowDarkAtAll) {
resetExposedMenuView(true /* animate */, true /* animate */);
}
if (nowFullyDark != wasFullyDark || wasDarkAtAll != nowDarkAtAll) {
invalidateOutline();
}
updateAlgorithmHeightAndPadding();
updateBackgroundDimming();
updatePanelTranslation();
requestChildrenUpdate();
}
private void updateDarkShelfVisibility() {
DozeParameters dozeParameters = DozeParameters.getInstance(mContext);
if (dozeParameters.shouldControlScreenOff()) {
mShelf.fadeInTranslating();
}
updateClipping();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void notifyDarkAnimationStart(boolean dark) {
// We only swap the scaling factor if we're fully dark or fully awake to avoid
// interpolation issues when playing with the power button.
if (mInterpolatedDarkAmount == 0 || mInterpolatedDarkAmount == 1) {
mBackgroundXFactor = dark ? 1.8f : 1.5f;
mDarkXInterpolator = dark
? Interpolators.FAST_OUT_SLOW_IN_REVERSE
: Interpolators.FAST_OUT_SLOW_IN;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private int findDarkAnimationOriginIndex(@Nullable PointF screenLocation) {
if (screenLocation == null || screenLocation.y < mTopPadding) {
return AnimationEvent.DARK_ANIMATION_ORIGIN_INDEX_ABOVE;
}
if (screenLocation.y > getBottomMostNotificationBottom()) {
return AnimationEvent.DARK_ANIMATION_ORIGIN_INDEX_BELOW;
}
View child = getClosestChildAtRawPosition(screenLocation.x, screenLocation.y);
if (child != null) {
return getNotGoneIndex(child);
} else {
return AnimationEvent.DARK_ANIMATION_ORIGIN_INDEX_ABOVE;
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private int getNotGoneIndex(View child) {
int count = getChildCount();
int notGoneIndex = 0;
for (int i = 0; i < count; i++) {
View v = getChildAt(i);
if (child == v) {
return notGoneIndex;
}
if (v.getVisibility() != View.GONE) {
notGoneIndex++;
}
}
return -1;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setFooterView(@NonNull FooterView footerView) {
int index = -1;
if (mFooterView != null) {
index = indexOfChild(mFooterView);
removeView(mFooterView);
}
mFooterView = footerView;
addView(mFooterView, index);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setEmptyShadeView(EmptyShadeView emptyShadeView) {
int index = -1;
if (mEmptyShadeView != null) {
index = indexOfChild(mEmptyShadeView);
removeView(mEmptyShadeView);
}
mEmptyShadeView = emptyShadeView;
addView(mEmptyShadeView, index);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void updateEmptyShadeView(boolean visible) {
mEmptyShadeView.setVisible(visible, mIsExpanded && mAnimationsEnabled);
int oldTextRes = mEmptyShadeView.getTextResource();
int newTextRes = mStatusBar.areNotificationsHidden()
? R.string.dnd_suppressing_shade_text : R.string.empty_shade_text;
if (oldTextRes != newTextRes) {
mEmptyShadeView.setText(newTextRes);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void updateFooterView(boolean visible, boolean showDismissView) {
if (mFooterView == null) {
return;
}
boolean animate = mIsExpanded && mAnimationsEnabled;
mFooterView.setVisible(visible, animate);
mFooterView.setSecondaryVisible(showDismissView, animate);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setDismissAllInProgress(boolean dismissAllInProgress) {
mDismissAllInProgress = dismissAllInProgress;
mAmbientState.setDismissAllInProgress(dismissAllInProgress);
handleDismissAllClipping();
}
@ShadeViewRefactor(RefactorComponent.ADAPTER)
private void handleDismissAllClipping() {
final int count = getChildCount();
boolean previousChildWillBeDismissed = false;
for (int i = 0; i < count; i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child.getVisibility() == GONE) {
continue;
}
if (mDismissAllInProgress && previousChildWillBeDismissed) {
child.setMinClipTopAmount(child.getClipTopAmount());
} else {
child.setMinClipTopAmount(0);
}
previousChildWillBeDismissed = StackScrollAlgorithm.canChildBeDismissed(child);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean isFooterViewNotGone() {
return mFooterView != null
&& mFooterView.getVisibility() != View.GONE
&& !mFooterView.willBeGone();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean isFooterViewContentVisible() {
return mFooterView != null && mFooterView.isContentVisible();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public int getFooterViewHeight() {
return mFooterView == null ? 0 : mFooterView.getHeight() + mPaddingBetweenElements;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public int getEmptyShadeViewHeight() {
return mEmptyShadeView.getHeight();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getBottomMostNotificationBottom() {
final int count = getChildCount();
float max = 0;
for (int childIdx = 0; childIdx < count; childIdx++) {
ExpandableView child = (ExpandableView) getChildAt(childIdx);
if (child.getVisibility() == GONE) {
continue;
}
float bottom = child.getTranslationY() + child.getActualHeight()
- child.getClipBottomAmount();
if (bottom > max) {
max = bottom;
}
}
return max + getStackTranslation();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setStatusBar(StatusBar statusBar) {
this.mStatusBar = statusBar;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setGroupManager(NotificationGroupManager groupManager) {
this.mGroupManager = groupManager;
mGroupManager.addOnGroupChangeListener(mOnGroupChangeListener);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void requestAnimateEverything() {
if (mIsExpanded && mAnimationsEnabled) {
mEverythingNeedsAnimation = true;
mNeedsAnimation = true;
requestChildrenUpdate();
}
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public boolean isBelowLastNotification(float touchX, float touchY) {
int childCount = getChildCount();
for (int i = childCount - 1; i >= 0; i--) {
ExpandableView child = (ExpandableView) getChildAt(i);
if (child.getVisibility() != View.GONE) {
float childTop = child.getY();
if (childTop > touchY) {
// we are above a notification entirely let's abort
return false;
}
boolean belowChild = touchY > childTop + child.getActualHeight()
- child.getClipBottomAmount();
if (child == mFooterView) {
if (!belowChild && !mFooterView.isOnEmptySpace(touchX - mFooterView.getX(),
touchY - childTop)) {
// We clicked on the dismiss button
return false;
}
} else if (child == mEmptyShadeView) {
// We arrived at the empty shade view, for which we accept all clicks
return true;
} else if (!belowChild) {
// We are on a child
return false;
}
}
}
return touchY > mTopPadding + mStackTranslation;
}
/** @hide */
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onInitializeAccessibilityEventInternal(AccessibilityEvent event) {
super.onInitializeAccessibilityEventInternal(event);
event.setScrollable(mScrollable);
event.setScrollX(mScrollX);
event.setMaxScrollX(mScrollX);
if (ANCHOR_SCROLLING) {
// TODO
} else {
event.setScrollY(mOwnScrollY);
event.setMaxScrollY(getScrollRange());
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void onInitializeAccessibilityNodeInfoInternal(AccessibilityNodeInfo info) {
super.onInitializeAccessibilityNodeInfoInternal(info);
if (mScrollable) {
info.setScrollable(true);
if (mBackwardScrollable) {
info.addAction(
AccessibilityNodeInfo.AccessibilityAction.ACTION_SCROLL_BACKWARD);
info.addAction(AccessibilityNodeInfo.AccessibilityAction.ACTION_SCROLL_UP);
}
if (mForwardScrollable) {
info.addAction(AccessibilityNodeInfo.AccessibilityAction.ACTION_SCROLL_FORWARD);
info.addAction(AccessibilityNodeInfo.AccessibilityAction.ACTION_SCROLL_DOWN);
}
}
// Talkback only listenes to scroll events of certain classes, let's make us a scrollview
info.setClassName(ScrollView.class.getName());
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public void generateChildOrderChangedEvent() {
if (mIsExpanded && mAnimationsEnabled) {
mGenerateChildOrderChangedEvent = true;
mNeedsAnimation = true;
requestChildrenUpdate();
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public int getContainerChildCount() {
return getChildCount();
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public View getContainerChildAt(int i) {
return getChildAt(i);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void removeContainerView(View v) {
Assert.isMainThread();
removeView(v);
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void addContainerView(View v) {
Assert.isMainThread();
addView(v);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void runAfterAnimationFinished(Runnable runnable) {
mAnimationFinishedRunnables.add(runnable);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHeadsUpManager(HeadsUpManagerPhone headsUpManager) {
mHeadsUpManager = headsUpManager;
mHeadsUpManager.addListener(mRoundnessManager);
mHeadsUpManager.setAnimationStateHandler(this::setHeadsUpGoingAwayAnimationsAllowed);
}
public void generateHeadsUpAnimation(NotificationEntry entry, boolean isHeadsUp) {
ExpandableNotificationRow row = entry.getHeadsUpAnimationView();
generateHeadsUpAnimation(row, isHeadsUp);
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void generateHeadsUpAnimation(ExpandableNotificationRow row, boolean isHeadsUp) {
if (mAnimationsEnabled && (isHeadsUp || mHeadsUpGoingAwayAnimationsAllowed)) {
mHeadsUpChangeAnimations.add(new Pair<>(row, isHeadsUp));
mNeedsAnimation = true;
if (!mIsExpanded && !isHeadsUp) {
row.setHeadsUpAnimatingAway(true);
}
requestChildrenUpdate();
}
}
/**
* Set the boundary for the bottom heads up position. The heads up will always be above this
* position.
*
* @param height the height of the screen
* @param bottomBarHeight the height of the bar on the bottom
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHeadsUpBoundaries(int height, int bottomBarHeight) {
mAmbientState.setMaxHeadsUpTranslation(height - bottomBarHeight);
mStateAnimator.setHeadsUpAppearHeightBottom(height);
requestChildrenUpdate();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setTrackingHeadsUp(ExpandableNotificationRow row) {
mTrackingHeadsUp = row != null;
mRoundnessManager.setTrackingHeadsUp(row);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setScrimController(ScrimController scrimController) {
mScrimController = scrimController;
mScrimController.setScrimBehindChangeRunnable(this::updateBackgroundDimming);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void forceNoOverlappingRendering(boolean force) {
mForceNoOverlappingRendering = force;
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean hasOverlappingRendering() {
return !mForceNoOverlappingRendering && super.hasOverlappingRendering();
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void setAnimationRunning(boolean animationRunning) {
if (animationRunning != mAnimationRunning) {
if (animationRunning) {
getViewTreeObserver().addOnPreDrawListener(mRunningAnimationUpdater);
} else {
getViewTreeObserver().removeOnPreDrawListener(mRunningAnimationUpdater);
}
mAnimationRunning = animationRunning;
updateContinuousShadowDrawing();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean isExpanded() {
return mIsExpanded;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setPulsing(boolean pulsing, boolean animated) {
if (!mPulsing && !pulsing) {
return;
}
mPulsing = pulsing;
mAmbientState.setPulsing(pulsing);
mSwipeHelper.setPulsing(pulsing);
updateNotificationAnimationStates();
updateAlgorithmHeightAndPadding();
updateContentHeight();
requestChildrenUpdate();
notifyHeightChangeListener(null, animated);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setQsExpanded(boolean qsExpanded) {
mQsExpanded = qsExpanded;
updateAlgorithmLayoutMinHeight();
updateScrollability();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setQsExpansionFraction(float qsExpansionFraction) {
mQsExpansionFraction = qsExpansionFraction;
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
private void setOwnScrollY(int ownScrollY) {
assert !ANCHOR_SCROLLING;
if (ownScrollY != mOwnScrollY) {
// We still want to call the normal scrolled changed for accessibility reasons
onScrollChanged(mScrollX, ownScrollY, mScrollX, mOwnScrollY);
mOwnScrollY = ownScrollY;
updateOnScrollChange();
}
}
private void updateOnScrollChange() {
updateForwardAndBackwardScrollability();
requestChildrenUpdate();
}
private void updateScrollAnchor() {
int anchorIndex = indexOfChild(mScrollAnchorView);
// If the anchor view has been scrolled off the top, move to the next view.
while (mScrollAnchorViewY < 0) {
View nextAnchor = null;
for (int i = anchorIndex + 1; i < getChildCount(); i++) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE
&& child instanceof ExpandableNotificationRow) {
anchorIndex = i;
nextAnchor = child;
break;
}
}
if (nextAnchor == null) {
break;
}
mScrollAnchorViewY +=
(int) (nextAnchor.getTranslationY() - mScrollAnchorView.getTranslationY());
mScrollAnchorView = nextAnchor;
}
// If the view above the anchor view is fully visible, make it the anchor view.
while (anchorIndex > 0 && mScrollAnchorViewY > 0) {
View prevAnchor = null;
for (int i = anchorIndex - 1; i >= 0; i--) {
View child = getChildAt(i);
if (child.getVisibility() != View.GONE
&& child instanceof ExpandableNotificationRow) {
anchorIndex = i;
prevAnchor = child;
break;
}
}
if (prevAnchor == null) {
break;
}
float distanceToPreviousAnchor =
mScrollAnchorView.getTranslationY() - prevAnchor.getTranslationY();
if (distanceToPreviousAnchor < mScrollAnchorViewY) {
mScrollAnchorViewY -= (int) distanceToPreviousAnchor;
mScrollAnchorView = prevAnchor;
}
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setShelf(NotificationShelf shelf) {
int index = -1;
if (mShelf != null) {
index = indexOfChild(mShelf);
removeView(mShelf);
}
mShelf = shelf;
addView(mShelf, index);
mAmbientState.setShelf(shelf);
mStateAnimator.setShelf(shelf);
shelf.bind(mAmbientState, this);
if (ANCHOR_SCROLLING) {
mScrollAnchorView = mShelf;
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public NotificationShelf getNotificationShelf() {
return mShelf;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setMaxDisplayedNotifications(int maxDisplayedNotifications) {
if (mMaxDisplayedNotifications != maxDisplayedNotifications) {
mMaxDisplayedNotifications = maxDisplayedNotifications;
updateContentHeight();
notifyHeightChangeListener(mShelf);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setShouldShowShelfOnly(boolean shouldShowShelfOnly) {
mShouldShowShelfOnly = shouldShowShelfOnly;
updateAlgorithmLayoutMinHeight();
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public int getMinExpansionHeight() {
return mShelf.getIntrinsicHeight() - (mShelf.getIntrinsicHeight() - mStatusBarHeight) / 2;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setInHeadsUpPinnedMode(boolean inHeadsUpPinnedMode) {
mInHeadsUpPinnedMode = inHeadsUpPinnedMode;
updateClipping();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHeadsUpAnimatingAway(boolean headsUpAnimatingAway) {
mHeadsUpAnimatingAway = headsUpAnimatingAway;
updateClipping();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
@VisibleForTesting
protected void setStatusBarState(int statusBarState) {
mStatusBarState = statusBarState;
mAmbientState.setStatusBarState(statusBarState);
}
private void onStatePostChange() {
boolean onKeyguard = onKeyguard();
boolean publicMode = mLockscreenUserManager.isAnyProfilePublicMode();
if (mHeadsUpAppearanceController != null) {
mHeadsUpAppearanceController.setPublicMode(publicMode);
}
SysuiStatusBarStateController state = (SysuiStatusBarStateController)
Dependency.get(StatusBarStateController.class);
setHideSensitive(publicMode, state.goingToFullShade() /* animate */);
setDimmed(onKeyguard, state.fromShadeLocked() /* animate */);
setExpandingEnabled(!onKeyguard);
ActivatableNotificationView activatedChild = getActivatedChild();
setActivatedChild(null);
if (activatedChild != null) {
activatedChild.makeInactive(false /* animate */);
}
updateFooter();
requestChildrenUpdate();
onUpdateRowStates();
mEntryManager.updateNotifications();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setExpandingVelocity(float expandingVelocity) {
mAmbientState.setExpandingVelocity(expandingVelocity);
}
@ShadeViewRefactor(RefactorComponent.COORDINATOR)
public float getOpeningHeight() {
if (mEmptyShadeView.getVisibility() == GONE) {
return getMinExpansionHeight();
} else {
return getAppearEndPosition();
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setIsFullWidth(boolean isFullWidth) {
mAmbientState.setPanelFullWidth(isFullWidth);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setUnlockHintRunning(boolean running) {
mAmbientState.setUnlockHintRunning(running);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setQsCustomizerShowing(boolean isShowing) {
mAmbientState.setQsCustomizerShowing(isShowing);
requestChildrenUpdate();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHeadsUpGoingAwayAnimationsAllowed(boolean headsUpGoingAwayAnimationsAllowed) {
mHeadsUpGoingAwayAnimationsAllowed = headsUpGoingAwayAnimationsAllowed;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setAntiBurnInOffsetX(int antiBurnInOffsetX) {
mAntiBurnInOffsetX = antiBurnInOffsetX;
updatePanelTranslation();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
pw.println(String.format("[%s: pulsing=%s qsCustomizerShowing=%s visibility=%s"
+ " alpha:%f scrollY:%d maxTopPadding:%d showShelfOnly=%s"
+ " qsExpandFraction=%f]",
this.getClass().getSimpleName(),
mPulsing ? "T" : "f",
mAmbientState.isQsCustomizerShowing() ? "T" : "f",
getVisibility() == View.VISIBLE ? "visible"
: getVisibility() == View.GONE ? "gone"
: "invisible",
getAlpha(),
mAmbientState.getScrollY(),
mMaxTopPadding,
mShouldShowShelfOnly ? "T" : "f",
mQsExpansionFraction));
int childCount = getChildCount();
pw.println(" Number of children: " + childCount);
pw.println();
for (int i = 0; i < childCount; i++) {
ExpandableView child = (ExpandableView) getChildAt(i);
child.dump(fd, pw, args);
if (!(child instanceof ExpandableNotificationRow)) {
pw.println(" " + child.getClass().getSimpleName());
// Notifications dump it's viewstate as part of their dump to support children
ExpandableViewState viewState = child.getViewState();
if (viewState == null) {
pw.println(" no viewState!!!");
} else {
pw.print(" ");
viewState.dump(fd, pw, args);
pw.println();
pw.println();
}
}
}
int transientViewCount = getTransientViewCount();
pw.println(" Transient Views: " + transientViewCount);
for (int i = 0; i < transientViewCount; i++) {
ExpandableView child = (ExpandableView) getTransientView(i);
child.dump(fd, pw, args);
}
ArrayList<ExpandableView> draggedViews = mAmbientState.getDraggedViews();
int draggedCount = draggedViews.size();
pw.println(" Dragged Views: " + draggedCount);
for (int i = 0; i < draggedCount; i++) {
ExpandableView child = (ExpandableView) draggedViews.get(i);
child.dump(fd, pw, args);
}
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean isFullyDark() {
return mAmbientState.isFullyDark();
}
/**
* Add a listener whenever the expanded height changes. The first value passed as an argument
* is the expanded height and the second one is the appearFraction.
*
* @param listener the listener to notify.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void addOnExpandedHeightListener(BiConsumer<Float, Float> listener) {
mExpandedHeightListeners.add(listener);
}
/**
* Stop a listener from listening to the expandedHeight.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void removeOnExpandedHeightListener(BiConsumer<Float, Float> listener) {
mExpandedHeightListeners.remove(listener);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setHeadsUpAppearanceController(
HeadsUpAppearanceController headsUpAppearanceController) {
mHeadsUpAppearanceController = headsUpAppearanceController;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setIconAreaController(NotificationIconAreaController controller) {
mIconAreaController = controller;
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void manageNotifications(View v) {
Intent intent = new Intent(Settings.ACTION_ALL_APPS_NOTIFICATION_SETTINGS);
mStatusBar.startActivity(intent, true, true, Intent.FLAG_ACTIVITY_SINGLE_TOP);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void clearNotifications(
@SelectedRows int selection,
boolean closeShade) {
// animate-swipe all dismissable notifications, then animate the shade closed
int numChildren = getChildCount();
final ArrayList<View> viewsToHide = new ArrayList<>(numChildren);
final ArrayList<ExpandableNotificationRow> viewsToRemove = new ArrayList<>(numChildren);
for (int i = 0; i < numChildren; i++) {
final View child = getChildAt(i);
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
boolean parentVisible = false;
boolean hasClipBounds = child.getClipBounds(mTmpRect);
if (includeChildInDismissAll(row, selection)) {
viewsToRemove.add(row);
if (child.getVisibility() == View.VISIBLE
&& (!hasClipBounds || mTmpRect.height() > 0)) {
viewsToHide.add(child);
parentVisible = true;
}
} else if (child.getVisibility() == View.VISIBLE
&& (!hasClipBounds || mTmpRect.height() > 0)) {
parentVisible = true;
}
List<ExpandableNotificationRow> children = row.getNotificationChildren();
if (children != null) {
for (ExpandableNotificationRow childRow : children) {
if (includeChildInDismissAll(row, selection)) {
viewsToRemove.add(childRow);
if (parentVisible && row.areChildrenExpanded()) {
hasClipBounds = childRow.getClipBounds(mTmpRect);
if (childRow.getVisibility() == View.VISIBLE
&& (!hasClipBounds || mTmpRect.height() > 0)) {
viewsToHide.add(childRow);
}
}
}
}
}
}
}
if (viewsToRemove.isEmpty()) {
if (closeShade) {
mStatusBar.animateCollapsePanels(CommandQueue.FLAG_EXCLUDE_NONE);
}
return;
}
performDismissAllAnimations(viewsToHide, closeShade, () -> {
for (ExpandableNotificationRow rowToRemove : viewsToRemove) {
if (StackScrollAlgorithm.canChildBeDismissed(rowToRemove)) {
if (selection == ROWS_ALL) {
// TODO: This is a listener method; we shouldn't be calling it. Can we just
// call performRemoveNotification as below?
mEntryManager.removeNotification(
rowToRemove.getEntry().key,
null /* ranking */,
NotificationListenerService.REASON_CANCEL_ALL);
} else {
mEntryManager.performRemoveNotification(
rowToRemove.getEntry().notification,
NotificationListenerService.REASON_CANCEL_ALL);
}
} else {
rowToRemove.resetTranslation();
}
}
if (selection == ROWS_ALL) {
try {
mBarService.onClearAllNotifications(mLockscreenUserManager.getCurrentUserId());
} catch (Exception ex) {
}
}
});
}
private boolean includeChildInDismissAll(
ExpandableNotificationRow row,
@SelectedRows int selection) {
return StackScrollAlgorithm.canChildBeDismissed(row) && matchesSelection(row, selection);
}
/**
* Given a list of rows, animates them away in a staggered fashion as if they were dismissed.
* Doesn't actually dismiss them, though -- that must be done in the onAnimationComplete
* handler.
*
* @param hideAnimatedList List of rows to animated away. Should only be views that are
* currently visible, or else the stagger will look funky.
* @param closeShade Whether to close the shade after the stagger animation completes.
* @param onAnimationComplete Called after the entire animation completes (including the shade
* closing if appropriate). The rows must be dismissed for real here.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void performDismissAllAnimations(
final ArrayList<View> hideAnimatedList,
final boolean closeShade,
final Runnable onAnimationComplete) {
final Runnable onSlideAwayAnimationComplete = () -> {
if (closeShade) {
mShadeController.addPostCollapseAction(() -> {
setDismissAllInProgress(false);
onAnimationComplete.run();
});
mStatusBar.animateCollapsePanels(CommandQueue.FLAG_EXCLUDE_NONE);
} else {
setDismissAllInProgress(false);
onAnimationComplete.run();
}
};
if (hideAnimatedList.isEmpty()) {
onSlideAwayAnimationComplete.run();
return;
}
// let's disable our normal animations
setDismissAllInProgress(true);
// Decrease the delay for every row we animate to give the sense of
// accelerating the swipes
int rowDelayDecrement = 10;
int currentDelay = 140;
int totalDelay = 180;
int numItems = hideAnimatedList.size();
for (int i = numItems - 1; i >= 0; i--) {
View view = hideAnimatedList.get(i);
Runnable endRunnable = null;
if (i == 0) {
endRunnable = onSlideAwayAnimationComplete;
}
dismissViewAnimated(view, endRunnable, totalDelay, ANIMATION_DURATION_SWIPE);
currentDelay = Math.max(50, currentDelay - rowDelayDecrement);
totalDelay += currentDelay;
}
}
@VisibleForTesting
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
protected void inflateFooterView() {
FooterView footerView = (FooterView) LayoutInflater.from(mContext).inflate(
R.layout.status_bar_notification_footer, this, false);
footerView.setDismissButtonClickListener(v -> {
mMetricsLogger.action(MetricsEvent.ACTION_DISMISS_ALL_NOTES);
clearNotifications(ROWS_ALL, true /* closeShade */);
});
footerView.setManageButtonClickListener(this::manageNotifications);
setFooterView(footerView);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private void inflateEmptyShadeView() {
EmptyShadeView view = (EmptyShadeView) LayoutInflater.from(mContext).inflate(
R.layout.status_bar_no_notifications, this, false);
view.setText(R.string.empty_shade_text);
setEmptyShadeView(view);
}
/**
* Updates expanded, dimmed and locked states of notification rows.
*/
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
public void onUpdateRowStates() {
changeViewPosition(mFooterView, -1);
// The following views will be moved to the end of mStackScroller. This counter represents
// the offset from the last child. Initialized to 1 for the very last position. It is post-
// incremented in the following "changeViewPosition" calls so that its value is correct for
// subsequent calls.
int offsetFromEnd = 1;
changeViewPosition(mEmptyShadeView,
getChildCount() - offsetFromEnd++);
// No post-increment for this call because it is the last one. Make sure to add one if
// another "changeViewPosition" call is ever added.
changeViewPosition(mShelf,
getChildCount() - offsetFromEnd);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void setNotificationPanel(NotificationPanelView notificationPanelView) {
mNotificationPanel = notificationPanelView;
}
public void updateIconAreaViews() {
mIconAreaController.updateNotificationIcons();
}
/**
* Set how far the wake up is when waking up from pulsing. This is a height and will adjust the
* notification positions accordingly.
* @param height the new wake up height
* @return the overflow how much the height is further than he lowest notification
*/
public float setPulseHeight(float height) {
mAmbientState.setPulseHeight(height);
requestChildrenUpdate();
return Math.max(0, height - mAmbientState.getInnerHeight(true /* ignorePulseHeight */));
}
/**
* Set the amount how much we're dozing. This is different from how dark the shade is, when
* the notification is pulsing.
*/
public void setDozeAmount(float dozeAmount) {
mAmbientState.setDozeAmount(dozeAmount);
updateContinuousBackgroundDrawing();
requestChildrenUpdate();
}
public void wakeUpFromPulse() {
setPulseHeight(getPulseHeight());
// Let's place the hidden views at the end of the pulsing notification to make sure we have
// a smooth animation
boolean firstVisibleView = true;
float wakeUplocation = -1f;
int childCount = getChildCount();
for (int i = 0; i < childCount; i++) {
ExpandableView view = (ExpandableView) getChildAt(i);
if (view.getVisibility() == View.GONE) {
continue;
}
boolean isShelf = view == mShelf;
if (!(view instanceof ExpandableNotificationRow) && !isShelf) {
continue;
}
if (view.getVisibility() == View.VISIBLE && !isShelf) {
if (firstVisibleView) {
firstVisibleView = false;
wakeUplocation = view.getTranslationY()
+ view.getActualHeight() - mShelf.getIntrinsicHeight();
}
} else if (!firstVisibleView) {
view.setTranslationY(wakeUplocation);
}
}
mDimmedNeedsAnimation = true;
}
@Override
public void onDynamicPrivacyChanged() {
if (mIsExpanded) {
// The bottom might change because we're using the final actual height of the view
mAnimateBottomOnLayout = true;
}
}
/**
* A listener that is notified when the empty space below the notifications is clicked on
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public interface OnEmptySpaceClickListener {
void onEmptySpaceClicked(float x, float y);
}
/**
* A listener that gets notified when the overscroll at the top has changed.
*/
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public interface OnOverscrollTopChangedListener {
/**
* Notifies a listener that the overscroll has changed.
*
* @param amount the amount of overscroll, in pixels
* @param isRubberbanded if true, this is a rubberbanded overscroll; if false, this is an
* unrubberbanded motion to directly expand overscroll view (e.g
* expand
* QS)
*/
void onOverscrollTopChanged(float amount, boolean isRubberbanded);
/**
* Notify a listener that the scroller wants to escape from the scrolling motion and
* start a fling animation to the expanded or collapsed overscroll view (e.g expand the QS)
*
* @param velocity The velocity that the Scroller had when over flinging
* @param open Should the fling open or close the overscroll view.
*/
void flingTopOverscroll(float velocity, boolean open);
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public boolean hasActiveNotifications() {
return !mEntryManager.getNotificationData().getActiveNotifications().isEmpty();
}
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void updateSpeedBumpIndex() {
int speedBumpIndex = 0;
int currentIndex = 0;
final int N = getChildCount();
for (int i = 0; i < N; i++) {
View view = getChildAt(i);
if (view.getVisibility() == View.GONE || !(view instanceof ExpandableNotificationRow)) {
continue;
}
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
currentIndex++;
boolean beforeSpeedBump;
if (mHighPriorityBeforeSpeedBump) {
beforeSpeedBump = row.getEntry().isHighPriority();
} else {
beforeSpeedBump = !row.getEntry().ambient;
}
if (beforeSpeedBump) {
speedBumpIndex = currentIndex;
}
}
boolean noAmbient = speedBumpIndex == N;
updateSpeedBumpIndex(speedBumpIndex, noAmbient);
}
/** Updates the indices of the boundaries between sections. */
@ShadeViewRefactor(RefactorComponent.INPUT)
public void updateSectionBoundaries() {
mSectionsManager.updateSectionBoundaries();
}
private void updateContinuousBackgroundDrawing() {
boolean continuousBackground = !mAmbientState.isFullyAwake()
&& !mAmbientState.getDraggedViews().isEmpty();
if (continuousBackground != mContinuousBackgroundUpdate) {
mContinuousBackgroundUpdate = continuousBackground;
if (continuousBackground) {
getViewTreeObserver().addOnPreDrawListener(mBackgroundUpdater);
} else {
getViewTreeObserver().removeOnPreDrawListener(mBackgroundUpdater);
}
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private void updateContinuousShadowDrawing() {
boolean continuousShadowUpdate = mAnimationRunning
|| !mAmbientState.getDraggedViews().isEmpty();
if (continuousShadowUpdate != mContinuousShadowUpdate) {
if (continuousShadowUpdate) {
getViewTreeObserver().addOnPreDrawListener(mShadowUpdater);
} else {
getViewTreeObserver().removeOnPreDrawListener(mShadowUpdater);
}
mContinuousShadowUpdate = continuousShadowUpdate;
}
}
@Override
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
public void resetExposedMenuView(boolean animate, boolean force) {
mSwipeHelper.resetExposedMenuView(animate, force);
}
private static boolean matchesSelection(
ExpandableNotificationRow row,
@SelectedRows int selection) {
switch (selection) {
case ROWS_ALL:
return true;
case ROWS_HIGH_PRIORITY:
return row.getEntry().isHighPriority();
case ROWS_GENTLE:
return !row.getEntry().isHighPriority();
default:
throw new IllegalArgumentException("Unknown selection: " + selection);
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
static class AnimationEvent {
static AnimationFilter[] FILTERS = new AnimationFilter[]{
// ANIMATION_TYPE_ADD
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_REMOVE
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_REMOVE_SWIPED_OUT
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_TOP_PADDING_CHANGED
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateDimmed()
.animateZ(),
// ANIMATION_TYPE_ACTIVATED_CHILD
new AnimationFilter()
.animateZ(),
// ANIMATION_TYPE_DIMMED
new AnimationFilter()
.animateDimmed(),
// ANIMATION_TYPE_CHANGE_POSITION
new AnimationFilter()
.animateAlpha() // maybe the children change positions
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
// ANIMATION_TYPE_DARK
null, // Unused
// ANIMATION_TYPE_GO_TO_FULL_SHADE
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateDimmed()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_HIDE_SENSITIVE
new AnimationFilter()
.animateHideSensitive(),
// ANIMATION_TYPE_VIEW_RESIZE
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
// ANIMATION_TYPE_GROUP_EXPANSION_CHANGED
new AnimationFilter()
.animateAlpha()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
// ANIMATION_TYPE_HEADS_UP_APPEAR
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
// ANIMATION_TYPE_HEADS_UP_DISAPPEAR
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_HEADS_UP_DISAPPEAR_CLICK
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ()
.hasDelays(),
// ANIMATION_TYPE_HEADS_UP_OTHER
new AnimationFilter()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
// ANIMATION_TYPE_EVERYTHING
new AnimationFilter()
.animateAlpha()
.animateDark()
.animateDimmed()
.animateHideSensitive()
.animateHeight()
.animateTopInset()
.animateY()
.animateZ(),
};
static int[] LENGTHS = new int[]{
// ANIMATION_TYPE_ADD
StackStateAnimator.ANIMATION_DURATION_APPEAR_DISAPPEAR,
// ANIMATION_TYPE_REMOVE
StackStateAnimator.ANIMATION_DURATION_APPEAR_DISAPPEAR,
// ANIMATION_TYPE_REMOVE_SWIPED_OUT
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_TOP_PADDING_CHANGED
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_ACTIVATED_CHILD
StackStateAnimator.ANIMATION_DURATION_DIMMED_ACTIVATED,
// ANIMATION_TYPE_DIMMED
StackStateAnimator.ANIMATION_DURATION_DIMMED_ACTIVATED,
// ANIMATION_TYPE_CHANGE_POSITION
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_DARK
StackStateAnimator.ANIMATION_DURATION_WAKEUP,
// ANIMATION_TYPE_GO_TO_FULL_SHADE
StackStateAnimator.ANIMATION_DURATION_GO_TO_FULL_SHADE,
// ANIMATION_TYPE_HIDE_SENSITIVE
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_VIEW_RESIZE
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_GROUP_EXPANSION_CHANGED
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_HEADS_UP_APPEAR
StackStateAnimator.ANIMATION_DURATION_HEADS_UP_APPEAR,
// ANIMATION_TYPE_HEADS_UP_DISAPPEAR
StackStateAnimator.ANIMATION_DURATION_HEADS_UP_DISAPPEAR,
// ANIMATION_TYPE_HEADS_UP_DISAPPEAR_CLICK
StackStateAnimator.ANIMATION_DURATION_HEADS_UP_DISAPPEAR,
// ANIMATION_TYPE_HEADS_UP_OTHER
StackStateAnimator.ANIMATION_DURATION_STANDARD,
// ANIMATION_TYPE_EVERYTHING
StackStateAnimator.ANIMATION_DURATION_STANDARD,
};
static final int ANIMATION_TYPE_ADD = 0;
static final int ANIMATION_TYPE_REMOVE = 1;
static final int ANIMATION_TYPE_REMOVE_SWIPED_OUT = 2;
static final int ANIMATION_TYPE_TOP_PADDING_CHANGED = 3;
static final int ANIMATION_TYPE_ACTIVATED_CHILD = 4;
static final int ANIMATION_TYPE_DIMMED = 5;
static final int ANIMATION_TYPE_CHANGE_POSITION = 6;
static final int ANIMATION_TYPE_DARK = 7;
static final int ANIMATION_TYPE_GO_TO_FULL_SHADE = 8;
static final int ANIMATION_TYPE_HIDE_SENSITIVE = 9;
static final int ANIMATION_TYPE_VIEW_RESIZE = 10;
static final int ANIMATION_TYPE_GROUP_EXPANSION_CHANGED = 11;
static final int ANIMATION_TYPE_HEADS_UP_APPEAR = 12;
static final int ANIMATION_TYPE_HEADS_UP_DISAPPEAR = 13;
static final int ANIMATION_TYPE_HEADS_UP_DISAPPEAR_CLICK = 14;
static final int ANIMATION_TYPE_HEADS_UP_OTHER = 15;
static final int ANIMATION_TYPE_EVERYTHING = 16;
static final int DARK_ANIMATION_ORIGIN_INDEX_ABOVE = -1;
static final int DARK_ANIMATION_ORIGIN_INDEX_BELOW = -2;
final long eventStartTime;
final ExpandableView mChangingView;
final int animationType;
final AnimationFilter filter;
final long length;
View viewAfterChangingView;
int darkAnimationOriginIndex;
boolean headsUpFromBottom;
AnimationEvent(ExpandableView view, int type) {
this(view, type, LENGTHS[type]);
}
AnimationEvent(ExpandableView view, int type, AnimationFilter filter) {
this(view, type, LENGTHS[type], filter);
}
AnimationEvent(ExpandableView view, int type, long length) {
this(view, type, length, FILTERS[type]);
}
AnimationEvent(ExpandableView view, int type, long length, AnimationFilter filter) {
eventStartTime = AnimationUtils.currentAnimationTimeMillis();
mChangingView = view;
animationType = type;
this.length = length;
this.filter = filter;
}
/**
* Combines the length of several animation events into a single value.
*
* @param events The events of the lengths to combine.
* @return The combined length. Depending on the event types, this might be the maximum of
* all events or the length of a specific event.
*/
static long combineLength(ArrayList<AnimationEvent> events) {
long length = 0;
int size = events.size();
for (int i = 0; i < size; i++) {
AnimationEvent event = events.get(i);
length = Math.max(length, event.length);
if (event.animationType == ANIMATION_TYPE_GO_TO_FULL_SHADE) {
return event.length;
}
}
return length;
}
}
@ShadeViewRefactor(RefactorComponent.STATE_RESOLVER)
private final StateListener mStateListener = new StateListener() {
@Override
public void onStatePreChange(int oldState, int newState) {
if (oldState == StatusBarState.SHADE_LOCKED && newState == StatusBarState.KEYGUARD) {
requestAnimateEverything();
}
}
@Override
public void onStateChanged(int newState) {
setStatusBarState(newState);
}
@Override
public void onStatePostChange() {
NotificationStackScrollLayout.this.onStatePostChange();
}
};
@VisibleForTesting
@ShadeViewRefactor(RefactorComponent.INPUT)
protected final OnMenuEventListener mMenuEventListener = new OnMenuEventListener() {
@Override
public void onMenuClicked(View view, int x, int y, MenuItem item) {
if (mLongPressListener == null) {
return;
}
if (view instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
mMetricsLogger.write(row.getStatusBarNotification().getLogMaker()
.setCategory(MetricsEvent.ACTION_TOUCH_GEAR)
.setType(MetricsEvent.TYPE_ACTION)
);
}
mLongPressListener.onLongPress(view, x, y, item);
}
@Override
public void onMenuReset(View row) {
View translatingParentView = mSwipeHelper.getTranslatingParentView();
if (translatingParentView != null && row == translatingParentView) {
mSwipeHelper.clearExposedMenuView();
mSwipeHelper.clearTranslatingParentView();
if (row instanceof ExpandableNotificationRow) {
mHeadsUpManager.setMenuShown(
((ExpandableNotificationRow) row).getEntry(), false);
}
}
}
@Override
public void onMenuShown(View row) {
if (row instanceof ExpandableNotificationRow) {
ExpandableNotificationRow notificationRow = (ExpandableNotificationRow) row;
mMetricsLogger.write(notificationRow.getStatusBarNotification().getLogMaker()
.setCategory(MetricsEvent.ACTION_REVEAL_GEAR)
.setType(MetricsEvent.TYPE_ACTION));
mHeadsUpManager.setMenuShown(notificationRow.getEntry(), true);
mSwipeHelper.onMenuShown(row);
mNotificationGutsManager.closeAndSaveGuts(true /* removeLeavebehind */,
false /* force */, false /* removeControls */, -1 /* x */, -1 /* y */,
false /* resetMenu */);
// Check to see if we want to go directly to the notfication guts
NotificationMenuRowPlugin provider = notificationRow.getProvider();
if (provider.shouldShowGutsOnSnapOpen()) {
MenuItem item = provider.menuItemToExposeOnSnap();
if (item != null) {
Point origin = provider.getRevealAnimationOrigin();
mNotificationGutsManager.openGuts(row, origin.x, origin.y, item);
} else {
Log.e(TAG, "Provider has shouldShowGutsOnSnapOpen, but provided no "
+ "menu item in menuItemtoExposeOnSnap. Skipping.");
}
// Close the menu row since we went directly to the guts
resetExposedMenuView(false, true);
}
}
}
};
@ShadeViewRefactor(RefactorComponent.INPUT)
private final NotificationSwipeHelper.NotificationCallback mNotificationCallback =
new NotificationSwipeHelper.NotificationCallback() {
@Override
public void onDismiss() {
mNotificationGutsManager.closeAndSaveGuts(true /* removeLeavebehind */,
false /* force */, false /* removeControls */, -1 /* x */, -1 /* y */,
false /* resetMenu */);
}
@Override
public void onSnooze(StatusBarNotification sbn,
NotificationSwipeActionHelper.SnoozeOption snoozeOption) {
mStatusBar.setNotificationSnoozed(sbn, snoozeOption);
}
@Override
public boolean shouldDismissQuickly() {
return NotificationStackScrollLayout.this.isExpanded() && mAmbientState.isFullyAwake();
}
@Override
public void onDragCancelled(View v) {
setSwipingInProgress(false);
mFalsingManager.onNotificatonStopDismissing();
}
/**
* Handles cleanup after the given {@code view} has been fully swiped out (including
* re-invoking dismiss logic in case the notification has not made its way out yet).
*/
@Override
public void onChildDismissed(View view) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
if (!row.isDismissed()) {
handleChildViewDismissed(view);
}
ViewGroup transientContainer = row.getTransientContainer();
if (transientContainer != null) {
transientContainer.removeTransientView(view);
}
}
/**
* Starts up notification dismiss and tells the notification, if any, to remove itself from
* layout.
*
* @param view view (e.g. notification) to dismiss from the layout
*/
public void handleChildViewDismissed(View view) {
setSwipingInProgress(false);
if (mDismissAllInProgress) {
return;
}
boolean isBlockingHelperShown = false;
mAmbientState.onDragFinished(view);
updateContinuousShadowDrawing();
if (view instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) view;
if (row.isHeadsUp()) {
mHeadsUpManager.addSwipedOutNotification(
row.getStatusBarNotification().getKey());
}
isBlockingHelperShown =
row.performDismissWithBlockingHelper(false /* fromAccessibility */);
}
if (!isBlockingHelperShown) {
mSwipedOutViews.add(view);
}
mFalsingManager.onNotificationDismissed();
if (mFalsingManager.shouldEnforceBouncer()) {
mStatusBar.executeRunnableDismissingKeyguard(
null,
null /* cancelAction */,
false /* dismissShade */,
true /* afterKeyguardGone */,
false /* deferred */);
}
}
@Override
public boolean isAntiFalsingNeeded() {
return onKeyguard();
}
@Override
public View getChildAtPosition(MotionEvent ev) {
View child = NotificationStackScrollLayout.this.getChildAtPosition(ev.getX(),
ev.getY());
if (child instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) child;
ExpandableNotificationRow parent = row.getNotificationParent();
if (parent != null && parent.areChildrenExpanded()
&& (parent.areGutsExposed()
|| mSwipeHelper.getExposedMenuView() == parent
|| (parent.getNotificationChildren().size() == 1
&& parent.getEntry().isClearable()))) {
// In this case the group is expanded and showing the menu for the
// group, further interaction should apply to the group, not any
// child notifications so we use the parent of the child. We also do the same
// if we only have a single child.
child = parent;
}
}
return child;
}
@Override
public void onBeginDrag(View v) {
mFalsingManager.onNotificatonStartDismissing();
setSwipingInProgress(true);
mAmbientState.onBeginDrag((ExpandableView) v);
updateContinuousShadowDrawing();
updateContinuousBackgroundDrawing();
requestChildrenUpdate();
}
@Override
public void onChildSnappedBack(View animView, float targetLeft) {
mAmbientState.onDragFinished(animView);
updateContinuousShadowDrawing();
updateContinuousBackgroundDrawing();
}
@Override
public boolean updateSwipeProgress(View animView, boolean dismissable,
float swipeProgress) {
// Returning true prevents alpha fading.
return !mFadeNotificationsOnDismiss;
}
@Override
public float getFalsingThresholdFactor() {
return mStatusBar.isWakeUpComingFromTouch() ? 1.5f : 1.0f;
}
@Override
public int getConstrainSwipeStartPosition() {
NotificationMenuRowPlugin menuRow = mSwipeHelper.getCurrentMenuRow();
if (menuRow != null) {
return Math.abs(menuRow.getMenuSnapTarget());
}
return 0;
}
@Override
public boolean canChildBeDismissed(View v) {
return StackScrollAlgorithm.canChildBeDismissed(v);
}
@Override
public boolean canChildBeDismissedInDirection(View v, boolean isRightOrDown) {
//TODO: b/131242807 for why this doesn't do anything with direction
return canChildBeDismissed(v);
}
};
// ---------------------- DragDownHelper.OnDragDownListener ------------------------------------
@ShadeViewRefactor(RefactorComponent.INPUT)
private final DragDownCallback mDragDownCallback = new DragDownCallback() {
/* Only ever called as a consequence of a lockscreen expansion gesture. */
@Override
public boolean onDraggedDown(View startingChild, int dragLengthY) {
if (mStatusBarState == StatusBarState.KEYGUARD
&& hasActiveNotifications()) {
mLockscreenGestureLogger.write(
MetricsEvent.ACTION_LS_SHADE,
(int) (dragLengthY / mDisplayMetrics.density),
0 /* velocityDp - N/A */);
if (!mAmbientState.isDark() || startingChild != null) {
// We have notifications, go to locked shade.
mShadeController.goToLockedShade(startingChild);
if (startingChild instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) startingChild;
row.onExpandedByGesture(true /* drag down is always an open */);
}
}
return true;
} else {
// abort gesture.
return false;
}
}
@Override
public void onDragDownReset() {
setDimmed(true /* dimmed */, true /* animated */);
resetScrollPosition();
resetCheckSnoozeLeavebehind();
}
@Override
public void onCrossedThreshold(boolean above) {
setDimmed(!above /* dimmed */, true /* animate */);
}
@Override
public void onTouchSlopExceeded() {
cancelLongPress();
checkSnoozeLeavebehind();
}
@Override
public void setEmptyDragAmount(float amount) {
mNotificationPanel.setEmptyDragAmount(amount);
}
@Override
public boolean isFalsingCheckNeeded() {
return mStatusBarState == StatusBarState.KEYGUARD;
}
};
public DragDownCallback getDragDownCallback() { return mDragDownCallback; }
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private final HeadsUpTouchHelper.Callback mHeadsUpCallback = new HeadsUpTouchHelper.Callback() {
@Override
public ExpandableView getChildAtRawPosition(float touchX, float touchY) {
return NotificationStackScrollLayout.this.getChildAtRawPosition(touchX, touchY);
}
@Override
public boolean isExpanded() {
return mIsExpanded;
}
@Override
public Context getContext() {
return mContext;
}
};
public HeadsUpTouchHelper.Callback getHeadsUpCallback() { return mHeadsUpCallback; }
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private final OnGroupChangeListener mOnGroupChangeListener = new OnGroupChangeListener() {
@Override
public void onGroupExpansionChanged(ExpandableNotificationRow changedRow, boolean expanded) {
boolean animated = !mGroupExpandedForMeasure && mAnimationsEnabled
&& (mIsExpanded || changedRow.isPinned());
if (animated) {
mExpandedGroupView = changedRow;
mNeedsAnimation = true;
}
changedRow.setChildrenExpanded(expanded, animated);
if (!mGroupExpandedForMeasure) {
onHeightChanged(changedRow, false /* needsAnimation */);
}
runAfterAnimationFinished(new Runnable() {
@Override
public void run() {
changedRow.onFinishedExpansionChange();
}
});
}
@Override
public void onGroupCreatedFromChildren(NotificationGroupManager.NotificationGroup group) {
mStatusBar.requestNotificationUpdate();
}
@Override
public void onGroupsChanged() {
mStatusBar.requestNotificationUpdate();
}
};
@ShadeViewRefactor(RefactorComponent.SHADE_VIEW)
private ExpandHelper.Callback mExpandHelperCallback = new ExpandHelper.Callback() {
@Override
public ExpandableView getChildAtPosition(float touchX, float touchY) {
return NotificationStackScrollLayout.this.getChildAtPosition(touchX, touchY);
}
@Override
public ExpandableView getChildAtRawPosition(float touchX, float touchY) {
return NotificationStackScrollLayout.this.getChildAtRawPosition(touchX, touchY);
}
@Override
public boolean canChildBeExpanded(View v) {
return v instanceof ExpandableNotificationRow
&& ((ExpandableNotificationRow) v).isExpandable()
&& !((ExpandableNotificationRow) v).areGutsExposed()
&& (mIsExpanded || !((ExpandableNotificationRow) v).isPinned());
}
/* Only ever called as a consequence of an expansion gesture in the shade. */
@Override
public void setUserExpandedChild(View v, boolean userExpanded) {
if (v instanceof ExpandableNotificationRow) {
ExpandableNotificationRow row = (ExpandableNotificationRow) v;
if (userExpanded && onKeyguard()) {
// Due to a race when locking the screen while touching, a notification may be
// expanded even after we went back to keyguard. An example of this happens if
// you click in the empty space while expanding a group.
// We also need to un-user lock it here, since otherwise the content height
// calculated might be wrong. We also can't invert the two calls since
// un-userlocking it will trigger a layout switch in the content view.
row.setUserLocked(false);
updateContentHeight();
notifyHeightChangeListener(row);
return;
}
row.setUserExpanded(userExpanded, true /* allowChildrenExpansion */);
row.onExpandedByGesture(userExpanded);
}
}
@Override
public void setExpansionCancelled(View v) {
if (v instanceof ExpandableNotificationRow) {
((ExpandableNotificationRow) v).setGroupExpansionChanging(false);
}
}
@Override
public void setUserLockedChild(View v, boolean userLocked) {
if (v instanceof ExpandableNotificationRow) {
((ExpandableNotificationRow) v).setUserLocked(userLocked);
}
cancelLongPress();
requestDisallowInterceptTouchEvent(true);
}
@Override
public void expansionStateChanged(boolean isExpanding) {
mExpandingNotification = isExpanding;
if (!mExpandedInThisMotion) {
if (ANCHOR_SCROLLING) {
// TODO
} else {
mMaxScrollAfterExpand = mOwnScrollY;
}
mExpandedInThisMotion = true;
}
}
@Override
public int getMaxExpandHeight(ExpandableView view) {
return view.getMaxContentHeight();
}
};
public ExpandHelper.Callback getExpandHelperCallback() {
return mExpandHelperCallback;
}
/** Enum for selecting some or all notification rows (does not included non-notif views). */
@Retention(SOURCE)
@IntDef({ROWS_ALL, ROWS_HIGH_PRIORITY, ROWS_GENTLE})
public @interface SelectedRows {}
/** All rows representing notifs. */
public static final int ROWS_ALL = 0;
/** Only rows where entry.isHighPriority() is true. */
public static final int ROWS_HIGH_PRIORITY = 1;
/** Only rows where entry.isHighPriority() is false. */
public static final int ROWS_GENTLE = 2;
}