packages/SystemUI/src/com/android/systemui/bubbles/BubbleData.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2019 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.bubbles;

 import static com.android.internal.annotations.VisibleForTesting.Visibility.PRIVATE;
 import static com.android.systemui.bubbles.BubbleDebugConfig.DEBUG_BUBBLE_DATA;
 import static com.android.systemui.bubbles.BubbleDebugConfig.TAG_BUBBLES;
 import static com.android.systemui.bubbles.BubbleDebugConfig.TAG_WITH_CLASS_NAME;

 import static java.util.stream.Collectors.toList;

 import android.app.Notification;
 import android.app.PendingIntent;
 import android.content.Context;
 import android.service.notification.NotificationListenerService;
 import android.service.notification.NotificationListenerService.RankingMap;
 import android.util.Log;
 import android.util.Pair;

 import androidx.annotation.Nullable;

 import com.android.internal.annotations.VisibleForTesting;
 import com.android.systemui.bubbles.BubbleController.DismissReason;
 import com.android.systemui.statusbar.notification.collection.NotificationEntry;

 import java.io.FileDescriptor;
 import java.io.PrintWriter;
 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.Comparator;
 import java.util.HashMap;
 import java.util.List;
 import java.util.Map;
 import java.util.Objects;

 import javax.inject.Inject;
 import javax.inject.Singleton;

 /**
  * Keeps track of active bubbles.
  */
 @Singleton
 public class BubbleData {

     private static final String TAG = TAG_WITH_CLASS_NAME ? "BubbleData" : TAG_BUBBLES;

     private static final int MAX_BUBBLES = 5;

     private static final Comparator<Bubble> BUBBLES_BY_SORT_KEY_DESCENDING =
             Comparator.comparing(BubbleData::sortKey).reversed();

     private static final Comparator<Map.Entry<String, Long>> GROUPS_BY_MAX_SORT_KEY_DESCENDING =
             Comparator.<Map.Entry<String, Long>, Long>comparing(Map.Entry::getValue).reversed();

     /** Contains information about changes that have been made to the state of bubbles. */
     static final class Update {
         boolean expandedChanged;
         boolean selectionChanged;
         boolean orderChanged;
         boolean expanded;
         @Nullable Bubble selectedBubble;
         @Nullable Bubble addedBubble;
         @Nullable Bubble updatedBubble;
         // Pair with Bubble and @DismissReason Integer
         final List<Pair<Bubble, Integer>> removedBubbles = new ArrayList<>();

         // A read-only view of the bubbles list, changes there will be reflected here.
         final List<Bubble> bubbles;

         private Update(List<Bubble> bubbleOrder) {
             bubbles = Collections.unmodifiableList(bubbleOrder);
         }

         boolean anythingChanged() {
             return expandedChanged
                     || selectionChanged
                     || addedBubble != null
                     || updatedBubble != null
                     || !removedBubbles.isEmpty()
                     || orderChanged;
         }

         void bubbleRemoved(Bubble bubbleToRemove, @DismissReason  int reason) {
             removedBubbles.add(new Pair<>(bubbleToRemove, reason));
         }
     }

     /**
      * This interface reports changes to the state and appearance of bubbles which should be applied
      * as necessary to the UI.
      */
     interface Listener {
         /** Reports changes have have occurred as a result of the most recent operation. */
         void applyUpdate(Update update);
     }

     interface TimeSource {
         long currentTimeMillis();
     }

     private final Context mContext;
     private final List<Bubble> mBubbles;
     private Bubble mSelectedBubble;
     private boolean mExpanded;

     // State tracked during an operation -- keeps track of what listener events to dispatch.
     private Update mStateChange;

     private NotificationListenerService.Ranking mTmpRanking;

     private TimeSource mTimeSource = System::currentTimeMillis;

     @Nullable
     private Listener mListener;

     /**
      * We track groups with summaries that aren't visibly displayed but still kept around because
      * the bubble(s) associated with the summary still exist.
      *
      * The summary must be kept around so that developers can cancel it (and hence the bubbles
      * associated with it). This list is used to check if the summary should be hidden from the
      * shade.
      *
      * Key: group key of the NotificationEntry
      * Value: key of the NotificationEntry
      */
     private HashMap<String, String> mSuppressedGroupKeys = new HashMap<>();

     @Inject
     public BubbleData(Context context) {
         mContext = context;
         mBubbles = new ArrayList<>();
         mStateChange = new Update(mBubbles);
     }

     public boolean hasBubbles() {
         return !mBubbles.isEmpty();
     }

     public boolean isExpanded() {
         return mExpanded;
     }

     public boolean hasBubbleWithKey(String key) {
         return getBubbleWithKey(key) != null;
     }

     @Nullable
     public Bubble getSelectedBubble() {
         return mSelectedBubble;
     }

     public void setExpanded(boolean expanded) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "setExpanded: " + expanded);
         }
         setExpandedInternal(expanded);
         dispatchPendingChanges();
     }

     public void setSelectedBubble(Bubble bubble) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "setSelectedBubble: " + bubble);
         }
         setSelectedBubbleInternal(bubble);
         dispatchPendingChanges();
     }

     void notificationEntryUpdated(NotificationEntry entry, boolean suppressFlyout) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "notificationEntryUpdated: " + entry);
         }
         Bubble bubble = getBubbleWithKey(entry.key);
         if (bubble == null) {
             // Create a new bubble
             bubble = new Bubble(mContext, entry);
             bubble.setSuppressFlyout(suppressFlyout);
             doAdd(bubble);
             trim();
         } else {
             // Updates an existing bubble
             bubble.updateEntry(entry);
             doUpdate(bubble);
         }
         if (bubble.shouldAutoExpand()) {
             setSelectedBubbleInternal(bubble);
             if (!mExpanded) {
                 setExpandedInternal(true);
             }
         } else if (mSelectedBubble == null) {
             setSelectedBubbleInternal(bubble);
         }
         boolean isBubbleExpandedAndSelected = mExpanded && mSelectedBubble == bubble;
         bubble.setShowInShadeWhenBubble(!isBubbleExpandedAndSelected);
         bubble.setShowBubbleDot(!isBubbleExpandedAndSelected);
         dispatchPendingChanges();
     }

     public void notificationEntryRemoved(NotificationEntry entry, @DismissReason int reason) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "notificationEntryRemoved: entry=" + entry + " reason=" + reason);
         }
         doRemove(entry.key, reason);
         dispatchPendingChanges();
     }

     /**
      * Called when NotificationListener has received adjusted notification rank and reapplied
      * filtering and sorting. This is used to dismiss any bubbles which should no longer be shown
      * due to changes in permissions on the notification channel or the global setting.
      *
      * @param rankingMap the updated ranking map from NotificationListenerService
      */
     public void notificationRankingUpdated(RankingMap rankingMap) {
         if (mTmpRanking == null) {
             mTmpRanking = new NotificationListenerService.Ranking();
         }

         String[] orderedKeys = rankingMap.getOrderedKeys();
         for (int i = 0; i < orderedKeys.length; i++) {
             String key = orderedKeys[i];
             if (hasBubbleWithKey(key)) {
                 rankingMap.getRanking(key, mTmpRanking);
                 if (!mTmpRanking.canBubble()) {
                     doRemove(key, BubbleController.DISMISS_BLOCKED);
                 }
             }
         }
         dispatchPendingChanges();
     }

     /**
      * Adds a group key indicating that the summary for this group should be suppressed.
      *
      * @param groupKey the group key of the group whose summary should be suppressed.
      * @param notifKey the notification entry key of that summary.
      */
     void addSummaryToSuppress(String groupKey, String notifKey) {
         mSuppressedGroupKeys.put(groupKey, notifKey);
     }

     /**
      * Retrieves the notif entry key of the summary associated with the provided group key.
      *
      * @param groupKey the group to look up
      * @return the key for the {@link NotificationEntry} that is the summary of this group.
      */
     String getSummaryKey(String groupKey) {
         return mSuppressedGroupKeys.get(groupKey);
     }

     /**
      * Removes a group key indicating that summary for this group should no longer be suppressed.
      */
     void removeSuppressedSummary(String groupKey) {
         mSuppressedGroupKeys.remove(groupKey);
     }

     /**
      * Whether the summary for the provided group key is suppressed.
      */
     boolean isSummarySuppressed(String groupKey) {
         return mSuppressedGroupKeys.containsKey(groupKey);
     }

     /**
      * Retrieves any bubbles that are part of the notification group represented by the provided
      * group key.
      */
     ArrayList<Bubble> getBubblesInGroup(@Nullable String groupKey) {
         ArrayList<Bubble> bubbleChildren = new ArrayList<>();
         if (groupKey == null) {
             return bubbleChildren;
         }
         for (Bubble b : mBubbles) {
             if (groupKey.equals(b.getEntry().notification.getGroupKey())) {
                 bubbleChildren.add(b);
             }
         }
         return bubbleChildren;
     }

     private void doAdd(Bubble bubble) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "doAdd: " + bubble);
         }
         int minInsertPoint = 0;
         boolean newGroup = !hasBubbleWithGroupId(bubble.getGroupId());
         if (isExpanded()) {
             // first bubble of a group goes to the beginning, otherwise within the existing group
             minInsertPoint = newGroup ? 0 : findFirstIndexForGroup(bubble.getGroupId());
         }
         if (insertBubble(minInsertPoint, bubble) < mBubbles.size() - 1) {
             mStateChange.orderChanged = true;
         }
         mStateChange.addedBubble = bubble;
         if (!isExpanded()) {
             mStateChange.orderChanged |= packGroup(findFirstIndexForGroup(bubble.getGroupId()));
             // Top bubble becomes selected.
             setSelectedBubbleInternal(mBubbles.get(0));
         }
     }

     private void trim() {
         if (mBubbles.size() > MAX_BUBBLES) {
             mBubbles.stream()
                     // sort oldest first (ascending lastActivity)
                     .sorted(Comparator.comparingLong(Bubble::getLastActivity))
                     // skip the selected bubble
                     .filter((b) -> !b.equals(mSelectedBubble))
                     .findFirst()
                     .ifPresent((b) -> doRemove(b.getKey(), BubbleController.DISMISS_AGED));
         }
     }

     private void doUpdate(Bubble bubble) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "doUpdate: " + bubble);
         }
         mStateChange.updatedBubble = bubble;
         if (!isExpanded()) {
             // while collapsed, update causes re-pack
             int prevPos = mBubbles.indexOf(bubble);
             mBubbles.remove(bubble);
             int newPos = insertBubble(0, bubble);
             if (prevPos != newPos) {
                 packGroup(newPos);
                 mStateChange.orderChanged = true;
             }
             setSelectedBubbleInternal(mBubbles.get(0));
         }
     }

     private void doRemove(String key, @DismissReason int reason) {
         int indexToRemove = indexForKey(key);
         if (indexToRemove == -1) {
             return;
         }
         Bubble bubbleToRemove = mBubbles.get(indexToRemove);
         if (mBubbles.size() == 1) {
             // Going to become empty, handle specially.
             setExpandedInternal(false);
             setSelectedBubbleInternal(null);
         }
         if (indexToRemove < mBubbles.size() - 1) {
             // Removing anything but the last bubble means positions will change.
             mStateChange.orderChanged = true;
         }
         mBubbles.remove(indexToRemove);
         mStateChange.bubbleRemoved(bubbleToRemove, reason);
         if (!isExpanded()) {
             mStateChange.orderChanged |= repackAll();
         }

         // Note: If mBubbles.isEmpty(), then mSelectedBubble is now null.
         if (Objects.equals(mSelectedBubble, bubbleToRemove)) {
             // Move selection to the new bubble at the same position.
             int newIndex = Math.min(indexToRemove, mBubbles.size() - 1);
             Bubble newSelected = mBubbles.get(newIndex);
             setSelectedBubbleInternal(newSelected);
         }
         maybeSendDeleteIntent(reason, bubbleToRemove.getEntry());
     }

     public void dismissAll(@DismissReason int reason) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "dismissAll: reason=" + reason);
         }
         if (mBubbles.isEmpty()) {
             return;
         }
         setExpandedInternal(false);
         setSelectedBubbleInternal(null);
         while (!mBubbles.isEmpty()) {
             Bubble bubble = mBubbles.remove(0);
             maybeSendDeleteIntent(reason, bubble.getEntry());
             mStateChange.bubbleRemoved(bubble, reason);
         }
         dispatchPendingChanges();
     }

     /**
      * Indicates that the provided display is no longer in use and should be cleaned up.
      *
      * @param displayId the id of the display to clean up.
      */
     void notifyDisplayEmpty(int displayId) {
         for (Bubble b : mBubbles) {
             if (b.getDisplayId() == displayId) {
                 if (b.getExpandedView() != null) {
                     b.getExpandedView().notifyDisplayEmpty();
                 }
                 return;
             }
         }
     }

     private void dispatchPendingChanges() {
         if (mListener != null && mStateChange.anythingChanged()) {
             mListener.applyUpdate(mStateChange);
         }
         mStateChange = new Update(mBubbles);
     }

     /**
      * Requests a change to the selected bubble.
      *
      * @param bubble the new selected bubble
      */
     private void setSelectedBubbleInternal(@Nullable Bubble bubble) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "setSelectedBubbleInternal: " + bubble);
         }
         if (Objects.equals(bubble, mSelectedBubble)) {
             return;
         }
         if (bubble != null && !mBubbles.contains(bubble)) {
             Log.e(TAG, "Cannot select bubble which doesn't exist!"
                     + " (" + bubble + ") bubbles=" + mBubbles);
             return;
         }
         if (mExpanded && bubble != null) {
             bubble.markAsAccessedAt(mTimeSource.currentTimeMillis());
         }
         mSelectedBubble = bubble;
         mStateChange.selectedBubble = bubble;
         mStateChange.selectionChanged = true;
     }

     /**
      * Requests a change to the expanded state.
      *
      * @param shouldExpand the new requested state
      */
     private void setExpandedInternal(boolean shouldExpand) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "setExpandedInternal: shouldExpand=" + shouldExpand);
         }
         if (mExpanded == shouldExpand) {
             return;
         }
         if (shouldExpand) {
             if (mBubbles.isEmpty()) {
                 Log.e(TAG, "Attempt to expand stack when empty!");
                 return;
             }
             if (mSelectedBubble == null) {
                 Log.e(TAG, "Attempt to expand stack without selected bubble!");
                 return;
             }
             mSelectedBubble.markAsAccessedAt(mTimeSource.currentTimeMillis());
             mStateChange.orderChanged |= repackAll();
         } else if (!mBubbles.isEmpty()) {
             // Apply ordering and grouping rules from expanded -> collapsed, then save
             // the result.
             mStateChange.orderChanged |= repackAll();
             // Save the state which should be returned to when expanded (with no other changes)

             if (mBubbles.indexOf(mSelectedBubble) > 0) {
                 // Move the selected bubble to the top while collapsed.
                 if (!mSelectedBubble.isOngoing() && mBubbles.get(0).isOngoing()) {
                     // The selected bubble cannot be raised to the first position because
                     // there is an ongoing bubble there. Instead, force the top ongoing bubble
                     // to become selected.
                     setSelectedBubbleInternal(mBubbles.get(0));
                 } else {
                     // Raise the selected bubble (and it's group) up to the front so the selected
                     // bubble remains on top.
                     mBubbles.remove(mSelectedBubble);
                     mBubbles.add(0, mSelectedBubble);
                     mStateChange.orderChanged |= packGroup(0);
                 }
             }
         }
         mExpanded = shouldExpand;
         mStateChange.expanded = shouldExpand;
         mStateChange.expandedChanged = true;
     }

     private static long sortKey(Bubble bubble) {
         long key = bubble.getLastUpdateTime();
         if (bubble.isOngoing()) {
             // Set 2nd highest bit (signed long int), to partition between ongoing and regular
             key |= 0x4000000000000000L;
         }
         return key;
     }

     /**
      * Locates and inserts the bubble into a sorted position. The is inserted
      * based on sort key, groupId is not considered. A call to {@link #packGroup(int)} may be
      * required to keep grouping intact.
      *
      * @param minPosition the first insert point to consider
      * @param newBubble the bubble to insert
      * @return the position where the bubble was inserted
      */
     private int insertBubble(int minPosition, Bubble newBubble) {
         long newBubbleSortKey = sortKey(newBubble);
         String previousGroupId = null;

         for (int pos = minPosition; pos < mBubbles.size(); pos++) {
             Bubble bubbleAtPos = mBubbles.get(pos);
             String groupIdAtPos = bubbleAtPos.getGroupId();
             boolean atStartOfGroup = !groupIdAtPos.equals(previousGroupId);

             if (atStartOfGroup && newBubbleSortKey > sortKey(bubbleAtPos)) {
                 // Insert before the start of first group which has older bubbles.
                 mBubbles.add(pos, newBubble);
                 return pos;
             }
             previousGroupId = groupIdAtPos;
         }
         mBubbles.add(newBubble);
         return mBubbles.size() - 1;
     }

     private boolean hasBubbleWithGroupId(String groupId) {
         return mBubbles.stream().anyMatch(b -> b.getGroupId().equals(groupId));
     }

     private int findFirstIndexForGroup(String appId) {
         for (int i = 0; i < mBubbles.size(); i++) {
             Bubble bubbleAtPos = mBubbles.get(i);
             if (bubbleAtPos.getGroupId().equals(appId)) {
                 return i;
             }
         }
         return 0;
     }

     /**
      * Starting at the given position, moves all bubbles with the same group id to follow. Bubbles
      * at positions lower than {@code position} are unchanged. Relative order within the group
      * unchanged. Relative order of any other bubbles are also unchanged.
      *
      * @param position the position of the first bubble for the group
      * @return true if the position of any bubbles has changed as a result
      */
     private boolean packGroup(int position) {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "packGroup: position=" + position);
         }
         Bubble groupStart = mBubbles.get(position);
         final String groupAppId = groupStart.getGroupId();
         List<Bubble> moving = new ArrayList<>();

         // Walk backward, collect bubbles within the group
         for (int i = mBubbles.size() - 1; i > position; i--) {
             if (mBubbles.get(i).getGroupId().equals(groupAppId)) {
                 moving.add(0, mBubbles.get(i));
             }
         }
         if (moving.isEmpty()) {
             return false;
         }
         mBubbles.removeAll(moving);
         mBubbles.addAll(position + 1, moving);
         return true;
     }

     /**
      * This applies a full sort and group pass to all existing bubbles. The bubbles are grouped
      * by groupId. Each group is then sorted by the max(lastUpdated) time of it's bubbles. Bubbles
      * within each group are then sorted by lastUpdated descending.
      *
      * @return true if the position of any bubbles changed as a result
      */
     private boolean repackAll() {
         if (DEBUG_BUBBLE_DATA) {
             Log.d(TAG, "repackAll()");
         }
         if (mBubbles.isEmpty()) {
             return false;
         }
         Map<String, Long> groupLastActivity = new HashMap<>();
         for (Bubble bubble : mBubbles) {
             long maxSortKeyForGroup = groupLastActivity.getOrDefault(bubble.getGroupId(), 0L);
             long sortKeyForBubble = sortKey(bubble);
             if (sortKeyForBubble > maxSortKeyForGroup) {
                 groupLastActivity.put(bubble.getGroupId(), sortKeyForBubble);
             }
         }

         // Sort groups by their most recently active bubble
         List<String> groupsByMostRecentActivity =
                 groupLastActivity.entrySet().stream()
                         .sorted(GROUPS_BY_MAX_SORT_KEY_DESCENDING)
                         .map(Map.Entry::getKey)
                         .collect(toList());

         List<Bubble> repacked = new ArrayList<>(mBubbles.size());

         // For each group, add bubbles, freshest to oldest
         for (String appId : groupsByMostRecentActivity) {
             mBubbles.stream()
                     .filter((b) -> b.getGroupId().equals(appId))
                     .sorted(BUBBLES_BY_SORT_KEY_DESCENDING)
                     .forEachOrdered(repacked::add);
         }
         if (repacked.equals(mBubbles)) {
             return false;
         }
         mBubbles.clear();
         mBubbles.addAll(repacked);
         return true;
     }

     private void maybeSendDeleteIntent(@DismissReason int reason, NotificationEntry entry) {
         if (reason == BubbleController.DISMISS_USER_GESTURE) {
             Notification.BubbleMetadata bubbleMetadata = entry.getBubbleMetadata();
             PendingIntent deleteIntent = bubbleMetadata != null
                     ? bubbleMetadata.getDeleteIntent()
                     : null;
             if (deleteIntent != null) {
                 try {
                     deleteIntent.send();
                 } catch (PendingIntent.CanceledException e) {
                     Log.w(TAG, "Failed to send delete intent for bubble with key: " + entry.key);
                 }
             }
         }
     }

     private int indexForKey(String key) {
         for (int i = 0; i < mBubbles.size(); i++) {
             Bubble bubble = mBubbles.get(i);
             if (bubble.getKey().equals(key)) {
                 return i;
             }
         }
         return -1;
     }

     /**
      * The set of bubbles.
      */
     @VisibleForTesting(visibility = PRIVATE)
     public List<Bubble> getBubbles() {
         return Collections.unmodifiableList(mBubbles);
     }

     @VisibleForTesting(visibility = PRIVATE)
     Bubble getBubbleWithKey(String key) {
         for (int i = 0; i < mBubbles.size(); i++) {
             Bubble bubble = mBubbles.get(i);
             if (bubble.getKey().equals(key)) {
                 return bubble;
             }
         }
         return null;
     }

     @VisibleForTesting(visibility = PRIVATE)
     void setTimeSource(TimeSource timeSource) {
         mTimeSource = timeSource;
     }

     public void setListener(Listener listener) {
         mListener = listener;
     }

     /**
      * Description of current bubble data state.
      */
     public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
         pw.print("selected: "); pw.println(mSelectedBubble != null
                 ? mSelectedBubble.getKey()
                 : "null");
         pw.print("expanded: "); pw.println(mExpanded);
         pw.print("count:    "); pw.println(mBubbles.size());
         for (Bubble bubble : mBubbles) {
             bubble.dump(fd, pw, args);
         }
         pw.print("summaryKeys: "); pw.println(mSuppressedGroupKeys.size());
         for (String key : mSuppressedGroupKeys.keySet()) {
             pw.println("   suppressing: " + key);
         }
     }
 }
	/*
	* Copyright (C) 2019 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.bubbles;

	import static com.android.internal.annotations.VisibleForTesting.Visibility.PRIVATE;
	import static com.android.systemui.bubbles.BubbleDebugConfig.DEBUG_BUBBLE_DATA;
	import static com.android.systemui.bubbles.BubbleDebugConfig.TAG_BUBBLES;
	import static com.android.systemui.bubbles.BubbleDebugConfig.TAG_WITH_CLASS_NAME;

	import static java.util.stream.Collectors.toList;

	import android.app.Notification;
	import android.app.PendingIntent;
	import android.content.Context;
	import android.service.notification.NotificationListenerService;
	import android.service.notification.NotificationListenerService.RankingMap;
	import android.util.Log;
	import android.util.Pair;

	import androidx.annotation.Nullable;

	import com.android.internal.annotations.VisibleForTesting;
	import com.android.systemui.bubbles.BubbleController.DismissReason;
	import com.android.systemui.statusbar.notification.collection.NotificationEntry;

	import java.io.FileDescriptor;
	import java.io.PrintWriter;
	import java.util.ArrayList;
	import java.util.Collections;
	import java.util.Comparator;
	import java.util.HashMap;
	import java.util.List;
	import java.util.Map;
	import java.util.Objects;

	import javax.inject.Inject;
	import javax.inject.Singleton;

	/**
	* Keeps track of active bubbles.
	*/
	@Singleton
	public class BubbleData {

	private static final String TAG = TAG_WITH_CLASS_NAME ? "BubbleData" : TAG_BUBBLES;

	private static final int MAX_BUBBLES = 5;

	private static final Comparator<Bubble> BUBBLES_BY_SORT_KEY_DESCENDING =
	Comparator.comparing(BubbleData::sortKey).reversed();

	private static final Comparator<Map.Entry<String, Long>> GROUPS_BY_MAX_SORT_KEY_DESCENDING =
	Comparator.<Map.Entry<String, Long>, Long>comparing(Map.Entry::getValue).reversed();

	/** Contains information about changes that have been made to the state of bubbles. */
	static final class Update {
	boolean expandedChanged;
	boolean selectionChanged;
	boolean orderChanged;
	boolean expanded;
	@Nullable Bubble selectedBubble;
	@Nullable Bubble addedBubble;
	@Nullable Bubble updatedBubble;
	// Pair with Bubble and @DismissReason Integer
	final List<Pair<Bubble, Integer>> removedBubbles = new ArrayList<>();

	// A read-only view of the bubbles list, changes there will be reflected here.
	final List<Bubble> bubbles;

	private Update(List<Bubble> bubbleOrder) {
	bubbles = Collections.unmodifiableList(bubbleOrder);
	}

	boolean anythingChanged() {
	return expandedChanged
	\|\| selectionChanged
	\|\| addedBubble != null
	\|\| updatedBubble != null
	\|\| !removedBubbles.isEmpty()
	\|\| orderChanged;
	}

	void bubbleRemoved(Bubble bubbleToRemove, @DismissReason int reason) {
	removedBubbles.add(new Pair<>(bubbleToRemove, reason));
	}
	}

	/**
	* This interface reports changes to the state and appearance of bubbles which should be applied
	* as necessary to the UI.
	*/
	interface Listener {
	/** Reports changes have have occurred as a result of the most recent operation. */
	void applyUpdate(Update update);
	}

	interface TimeSource {
	long currentTimeMillis();
	}

	private final Context mContext;
	private final List<Bubble> mBubbles;
	private Bubble mSelectedBubble;
	private boolean mExpanded;

	// State tracked during an operation -- keeps track of what listener events to dispatch.
	private Update mStateChange;

	private NotificationListenerService.Ranking mTmpRanking;

	private TimeSource mTimeSource = System::currentTimeMillis;

	@Nullable
	private Listener mListener;

	/**
	* We track groups with summaries that aren't visibly displayed but still kept around because
	* the bubble(s) associated with the summary still exist.
	*
	* The summary must be kept around so that developers can cancel it (and hence the bubbles
	* associated with it). This list is used to check if the summary should be hidden from the
	* shade.
	*
	* Key: group key of the NotificationEntry
	* Value: key of the NotificationEntry
	*/
	private HashMap<String, String> mSuppressedGroupKeys = new HashMap<>();

	@Inject
	public BubbleData(Context context) {
	mContext = context;
	mBubbles = new ArrayList<>();
	mStateChange = new Update(mBubbles);
	}

	public boolean hasBubbles() {
	return !mBubbles.isEmpty();
	}

	public boolean isExpanded() {
	return mExpanded;
	}

	public boolean hasBubbleWithKey(String key) {
	return getBubbleWithKey(key) != null;
	}

	@Nullable
	public Bubble getSelectedBubble() {
	return mSelectedBubble;
	}

	public void setExpanded(boolean expanded) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "setExpanded: " + expanded);
	}
	setExpandedInternal(expanded);
	dispatchPendingChanges();
	}

	public void setSelectedBubble(Bubble bubble) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "setSelectedBubble: " + bubble);
	}
	setSelectedBubbleInternal(bubble);
	dispatchPendingChanges();
	}

	void notificationEntryUpdated(NotificationEntry entry, boolean suppressFlyout) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "notificationEntryUpdated: " + entry);
	}
	Bubble bubble = getBubbleWithKey(entry.key);
	if (bubble == null) {
	// Create a new bubble
	bubble = new Bubble(mContext, entry);
	bubble.setSuppressFlyout(suppressFlyout);
	doAdd(bubble);
	trim();
	} else {
	// Updates an existing bubble
	bubble.updateEntry(entry);
	doUpdate(bubble);
	}
	if (bubble.shouldAutoExpand()) {
	setSelectedBubbleInternal(bubble);
	if (!mExpanded) {
	setExpandedInternal(true);
	}
	} else if (mSelectedBubble == null) {
	setSelectedBubbleInternal(bubble);
	}
	boolean isBubbleExpandedAndSelected = mExpanded && mSelectedBubble == bubble;
	bubble.setShowInShadeWhenBubble(!isBubbleExpandedAndSelected);
	bubble.setShowBubbleDot(!isBubbleExpandedAndSelected);
	dispatchPendingChanges();
	}

	public void notificationEntryRemoved(NotificationEntry entry, @DismissReason int reason) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "notificationEntryRemoved: entry=" + entry + " reason=" + reason);
	}
	doRemove(entry.key, reason);
	dispatchPendingChanges();
	}

	/**
	* Called when NotificationListener has received adjusted notification rank and reapplied
	* filtering and sorting. This is used to dismiss any bubbles which should no longer be shown
	* due to changes in permissions on the notification channel or the global setting.
	*
	* @param rankingMap the updated ranking map from NotificationListenerService
	*/
	public void notificationRankingUpdated(RankingMap rankingMap) {
	if (mTmpRanking == null) {
	mTmpRanking = new NotificationListenerService.Ranking();
	}

	String[] orderedKeys = rankingMap.getOrderedKeys();
	for (int i = 0; i < orderedKeys.length; i++) {
	String key = orderedKeys[i];
	if (hasBubbleWithKey(key)) {
	rankingMap.getRanking(key, mTmpRanking);
	if (!mTmpRanking.canBubble()) {
	doRemove(key, BubbleController.DISMISS_BLOCKED);
	}
	}
	}
	dispatchPendingChanges();
	}

	/**
	* Adds a group key indicating that the summary for this group should be suppressed.
	*
	* @param groupKey the group key of the group whose summary should be suppressed.
	* @param notifKey the notification entry key of that summary.
	*/
	void addSummaryToSuppress(String groupKey, String notifKey) {
	mSuppressedGroupKeys.put(groupKey, notifKey);
	}

	/**
	* Retrieves the notif entry key of the summary associated with the provided group key.
	*
	* @param groupKey the group to look up
	* @return the key for the {@link NotificationEntry} that is the summary of this group.
	*/
	String getSummaryKey(String groupKey) {
	return mSuppressedGroupKeys.get(groupKey);
	}

	/**
	* Removes a group key indicating that summary for this group should no longer be suppressed.
	*/
	void removeSuppressedSummary(String groupKey) {
	mSuppressedGroupKeys.remove(groupKey);
	}

	/**
	* Whether the summary for the provided group key is suppressed.
	*/
	boolean isSummarySuppressed(String groupKey) {
	return mSuppressedGroupKeys.containsKey(groupKey);
	}

	/**
	* Retrieves any bubbles that are part of the notification group represented by the provided
	* group key.
	*/
	ArrayList<Bubble> getBubblesInGroup(@Nullable String groupKey) {
	ArrayList<Bubble> bubbleChildren = new ArrayList<>();
	if (groupKey == null) {
	return bubbleChildren;
	}
	for (Bubble b : mBubbles) {
	if (groupKey.equals(b.getEntry().notification.getGroupKey())) {
	bubbleChildren.add(b);
	}
	}
	return bubbleChildren;
	}

	private void doAdd(Bubble bubble) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "doAdd: " + bubble);
	}
	int minInsertPoint = 0;
	boolean newGroup = !hasBubbleWithGroupId(bubble.getGroupId());
	if (isExpanded()) {
	// first bubble of a group goes to the beginning, otherwise within the existing group
	minInsertPoint = newGroup ? 0 : findFirstIndexForGroup(bubble.getGroupId());
	}
	if (insertBubble(minInsertPoint, bubble) < mBubbles.size() - 1) {
	mStateChange.orderChanged = true;
	}
	mStateChange.addedBubble = bubble;
	if (!isExpanded()) {
	mStateChange.orderChanged \|= packGroup(findFirstIndexForGroup(bubble.getGroupId()));
	// Top bubble becomes selected.
	setSelectedBubbleInternal(mBubbles.get(0));
	}
	}

	private void trim() {
	if (mBubbles.size() > MAX_BUBBLES) {
	mBubbles.stream()
	// sort oldest first (ascending lastActivity)
	.sorted(Comparator.comparingLong(Bubble::getLastActivity))
	// skip the selected bubble
	.filter((b) -> !b.equals(mSelectedBubble))
	.findFirst()
	.ifPresent((b) -> doRemove(b.getKey(), BubbleController.DISMISS_AGED));
	}
	}

	private void doUpdate(Bubble bubble) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "doUpdate: " + bubble);
	}
	mStateChange.updatedBubble = bubble;
	if (!isExpanded()) {
	// while collapsed, update causes re-pack
	int prevPos = mBubbles.indexOf(bubble);
	mBubbles.remove(bubble);
	int newPos = insertBubble(0, bubble);
	if (prevPos != newPos) {
	packGroup(newPos);
	mStateChange.orderChanged = true;
	}
	setSelectedBubbleInternal(mBubbles.get(0));
	}
	}

	private void doRemove(String key, @DismissReason int reason) {
	int indexToRemove = indexForKey(key);
	if (indexToRemove == -1) {
	return;
	}
	Bubble bubbleToRemove = mBubbles.get(indexToRemove);
	if (mBubbles.size() == 1) {
	// Going to become empty, handle specially.
	setExpandedInternal(false);
	setSelectedBubbleInternal(null);
	}
	if (indexToRemove < mBubbles.size() - 1) {
	// Removing anything but the last bubble means positions will change.
	mStateChange.orderChanged = true;
	}
	mBubbles.remove(indexToRemove);
	mStateChange.bubbleRemoved(bubbleToRemove, reason);
	if (!isExpanded()) {
	mStateChange.orderChanged \|= repackAll();
	}

	// Note: If mBubbles.isEmpty(), then mSelectedBubble is now null.
	if (Objects.equals(mSelectedBubble, bubbleToRemove)) {
	// Move selection to the new bubble at the same position.
	int newIndex = Math.min(indexToRemove, mBubbles.size() - 1);
	Bubble newSelected = mBubbles.get(newIndex);
	setSelectedBubbleInternal(newSelected);
	}
	maybeSendDeleteIntent(reason, bubbleToRemove.getEntry());
	}

	public void dismissAll(@DismissReason int reason) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "dismissAll: reason=" + reason);
	}
	if (mBubbles.isEmpty()) {
	return;
	}
	setExpandedInternal(false);
	setSelectedBubbleInternal(null);
	while (!mBubbles.isEmpty()) {
	Bubble bubble = mBubbles.remove(0);
	maybeSendDeleteIntent(reason, bubble.getEntry());
	mStateChange.bubbleRemoved(bubble, reason);
	}
	dispatchPendingChanges();
	}

	/**
	* Indicates that the provided display is no longer in use and should be cleaned up.
	*
	* @param displayId the id of the display to clean up.
	*/
	void notifyDisplayEmpty(int displayId) {
	for (Bubble b : mBubbles) {
	if (b.getDisplayId() == displayId) {
	if (b.getExpandedView() != null) {
	b.getExpandedView().notifyDisplayEmpty();
	}
	return;
	}
	}
	}

	private void dispatchPendingChanges() {
	if (mListener != null && mStateChange.anythingChanged()) {
	mListener.applyUpdate(mStateChange);
	}
	mStateChange = new Update(mBubbles);
	}

	/**
	* Requests a change to the selected bubble.
	*
	* @param bubble the new selected bubble
	*/
	private void setSelectedBubbleInternal(@Nullable Bubble bubble) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "setSelectedBubbleInternal: " + bubble);
	}
	if (Objects.equals(bubble, mSelectedBubble)) {
	return;
	}
	if (bubble != null && !mBubbles.contains(bubble)) {
	Log.e(TAG, "Cannot select bubble which doesn't exist!"
	+ " (" + bubble + ") bubbles=" + mBubbles);
	return;
	}
	if (mExpanded && bubble != null) {
	bubble.markAsAccessedAt(mTimeSource.currentTimeMillis());
	}
	mSelectedBubble = bubble;
	mStateChange.selectedBubble = bubble;
	mStateChange.selectionChanged = true;
	}

	/**
	* Requests a change to the expanded state.
	*
	* @param shouldExpand the new requested state
	*/
	private void setExpandedInternal(boolean shouldExpand) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "setExpandedInternal: shouldExpand=" + shouldExpand);
	}
	if (mExpanded == shouldExpand) {
	return;
	}
	if (shouldExpand) {
	if (mBubbles.isEmpty()) {
	Log.e(TAG, "Attempt to expand stack when empty!");
	return;
	}
	if (mSelectedBubble == null) {
	Log.e(TAG, "Attempt to expand stack without selected bubble!");
	return;
	}
	mSelectedBubble.markAsAccessedAt(mTimeSource.currentTimeMillis());
	mStateChange.orderChanged \|= repackAll();
	} else if (!mBubbles.isEmpty()) {
	// Apply ordering and grouping rules from expanded -> collapsed, then save
	// the result.
	mStateChange.orderChanged \|= repackAll();
	// Save the state which should be returned to when expanded (with no other changes)

	if (mBubbles.indexOf(mSelectedBubble) > 0) {
	// Move the selected bubble to the top while collapsed.
	if (!mSelectedBubble.isOngoing() && mBubbles.get(0).isOngoing()) {
	// The selected bubble cannot be raised to the first position because
	// there is an ongoing bubble there. Instead, force the top ongoing bubble
	// to become selected.
	setSelectedBubbleInternal(mBubbles.get(0));
	} else {
	// Raise the selected bubble (and it's group) up to the front so the selected
	// bubble remains on top.
	mBubbles.remove(mSelectedBubble);
	mBubbles.add(0, mSelectedBubble);
	mStateChange.orderChanged \|= packGroup(0);
	}
	}
	}
	mExpanded = shouldExpand;
	mStateChange.expanded = shouldExpand;
	mStateChange.expandedChanged = true;
	}

	private static long sortKey(Bubble bubble) {
	long key = bubble.getLastUpdateTime();
	if (bubble.isOngoing()) {
	// Set 2nd highest bit (signed long int), to partition between ongoing and regular
	key \|= 0x4000000000000000L;
	}
	return key;
	}

	/**
	* Locates and inserts the bubble into a sorted position. The is inserted
	* based on sort key, groupId is not considered. A call to {@link #packGroup(int)} may be
	* required to keep grouping intact.
	*
	* @param minPosition the first insert point to consider
	* @param newBubble the bubble to insert
	* @return the position where the bubble was inserted
	*/
	private int insertBubble(int minPosition, Bubble newBubble) {
	long newBubbleSortKey = sortKey(newBubble);
	String previousGroupId = null;

	for (int pos = minPosition; pos < mBubbles.size(); pos++) {
	Bubble bubbleAtPos = mBubbles.get(pos);
	String groupIdAtPos = bubbleAtPos.getGroupId();
	boolean atStartOfGroup = !groupIdAtPos.equals(previousGroupId);

	if (atStartOfGroup && newBubbleSortKey > sortKey(bubbleAtPos)) {
	// Insert before the start of first group which has older bubbles.
	mBubbles.add(pos, newBubble);
	return pos;
	}
	previousGroupId = groupIdAtPos;
	}
	mBubbles.add(newBubble);
	return mBubbles.size() - 1;
	}

	private boolean hasBubbleWithGroupId(String groupId) {
	return mBubbles.stream().anyMatch(b -> b.getGroupId().equals(groupId));
	}

	private int findFirstIndexForGroup(String appId) {
	for (int i = 0; i < mBubbles.size(); i++) {
	Bubble bubbleAtPos = mBubbles.get(i);
	if (bubbleAtPos.getGroupId().equals(appId)) {
	return i;
	}
	}
	return 0;
	}

	/**
	* Starting at the given position, moves all bubbles with the same group id to follow. Bubbles
	* at positions lower than {@code position} are unchanged. Relative order within the group
	* unchanged. Relative order of any other bubbles are also unchanged.
	*
	* @param position the position of the first bubble for the group
	* @return true if the position of any bubbles has changed as a result
	*/
	private boolean packGroup(int position) {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "packGroup: position=" + position);
	}
	Bubble groupStart = mBubbles.get(position);
	final String groupAppId = groupStart.getGroupId();
	List<Bubble> moving = new ArrayList<>();

	// Walk backward, collect bubbles within the group
	for (int i = mBubbles.size() - 1; i > position; i--) {
	if (mBubbles.get(i).getGroupId().equals(groupAppId)) {
	moving.add(0, mBubbles.get(i));
	}
	}
	if (moving.isEmpty()) {
	return false;
	}
	mBubbles.removeAll(moving);
	mBubbles.addAll(position + 1, moving);
	return true;
	}

	/**
	* This applies a full sort and group pass to all existing bubbles. The bubbles are grouped
	* by groupId. Each group is then sorted by the max(lastUpdated) time of it's bubbles. Bubbles
	* within each group are then sorted by lastUpdated descending.
	*
	* @return true if the position of any bubbles changed as a result
	*/
	private boolean repackAll() {
	if (DEBUG_BUBBLE_DATA) {
	Log.d(TAG, "repackAll()");
	}
	if (mBubbles.isEmpty()) {
	return false;
	}
	Map<String, Long> groupLastActivity = new HashMap<>();
	for (Bubble bubble : mBubbles) {
	long maxSortKeyForGroup = groupLastActivity.getOrDefault(bubble.getGroupId(), 0L);
	long sortKeyForBubble = sortKey(bubble);
	if (sortKeyForBubble > maxSortKeyForGroup) {
	groupLastActivity.put(bubble.getGroupId(), sortKeyForBubble);
	}
	}

	// Sort groups by their most recently active bubble
	List<String> groupsByMostRecentActivity =
	groupLastActivity.entrySet().stream()
	.sorted(GROUPS_BY_MAX_SORT_KEY_DESCENDING)
	.map(Map.Entry::getKey)
	.collect(toList());

	List<Bubble> repacked = new ArrayList<>(mBubbles.size());

	// For each group, add bubbles, freshest to oldest
	for (String appId : groupsByMostRecentActivity) {
	mBubbles.stream()
	.filter((b) -> b.getGroupId().equals(appId))
	.sorted(BUBBLES_BY_SORT_KEY_DESCENDING)
	.forEachOrdered(repacked::add);
	}
	if (repacked.equals(mBubbles)) {
	return false;
	}
	mBubbles.clear();
	mBubbles.addAll(repacked);
	return true;
	}

	private void maybeSendDeleteIntent(@DismissReason int reason, NotificationEntry entry) {
	if (reason == BubbleController.DISMISS_USER_GESTURE) {
	Notification.BubbleMetadata bubbleMetadata = entry.getBubbleMetadata();
	PendingIntent deleteIntent = bubbleMetadata != null
	? bubbleMetadata.getDeleteIntent()
	: null;
	if (deleteIntent != null) {
	try {
	deleteIntent.send();
	} catch (PendingIntent.CanceledException e) {
	Log.w(TAG, "Failed to send delete intent for bubble with key: " + entry.key);
	}
	}
	}
	}

	private int indexForKey(String key) {
	for (int i = 0; i < mBubbles.size(); i++) {
	Bubble bubble = mBubbles.get(i);
	if (bubble.getKey().equals(key)) {
	return i;
	}
	}
	return -1;
	}

	/**
	* The set of bubbles.
	*/
	@VisibleForTesting(visibility = PRIVATE)
	public List<Bubble> getBubbles() {
	return Collections.unmodifiableList(mBubbles);
	}

	@VisibleForTesting(visibility = PRIVATE)
	Bubble getBubbleWithKey(String key) {
	for (int i = 0; i < mBubbles.size(); i++) {
	Bubble bubble = mBubbles.get(i);
	if (bubble.getKey().equals(key)) {
	return bubble;
	}
	}
	return null;
	}

	@VisibleForTesting(visibility = PRIVATE)
	void setTimeSource(TimeSource timeSource) {
	mTimeSource = timeSource;
	}

	public void setListener(Listener listener) {
	mListener = listener;
	}

	/**
	* Description of current bubble data state.
	*/
	public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
	pw.print("selected: "); pw.println(mSelectedBubble != null
	? mSelectedBubble.getKey()
	: "null");
	pw.print("expanded: "); pw.println(mExpanded);
	pw.print("count: "); pw.println(mBubbles.size());
	for (Bubble bubble : mBubbles) {
	bubble.dump(fd, pw, args);
	}
	pw.print("summaryKeys: "); pw.println(mSuppressedGroupKeys.size());
	for (String key : mSuppressedGroupKeys.keySet()) {
	pw.println(" suppressing: " + key);
	}
	}
	}