add top-level playlist API to ExoPlayer

Public design doc: https://docs.google.com/document/d/11h0S91KI5TB3NNZUtsCzg0S7r6nyTnF_tDZZAtmY93g Issue: #6161 PiperOrigin-RevId: 269584512
2019-09-17 17:20:11 +01:00 · 2019-09-17 17:20:11 +01:00 · 3b22db33ba
commit 3b22db33ba
parent 75b9b11e20
32 changed files with 3602 additions and 839 deletions
--- a/demos/main/src/main/java/com/google/android/exoplayer2/demo/PlayerActivity.java
+++ b/demos/main/src/main/java/com/google/android/exoplayer2/demo/PlayerActivity.java
@ -49,7 +49,6 @@ import com.google.android.exoplayer2.mediacodec.MediaCodecUtil.DecoderQueryExcep
 import com.google.android.exoplayer2.offline.DownloadHelper;
 import com.google.android.exoplayer2.offline.DownloadRequest;
 import com.google.android.exoplayer2.source.BehindLiveWindowException;
 import com.google.android.exoplayer2.source.ConcatenatingMediaSource;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSourceFactory;
 import com.google.android.exoplayer2.source.ProgressiveMediaSource;
@ -79,6 +78,7 @@ import java.net.CookieHandler;
 import java.net.CookieManager;
 import java.net.CookiePolicy;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.UUID;
 /** An activity that plays media using {@link SimpleExoPlayer}. */
@ -141,7 +141,7 @@ public class PlayerActivity extends AppCompatActivity
  private DataSource.Factory dataSourceFactory;
  private SimpleExoPlayer player;
-  private MediaSource mediaSource;
+  private List<MediaSource> mediaSources;
  private DefaultTrackSelector trackSelector;
  private DefaultTrackSelector.Parameters trackSelectorParameters;
  private DebugTextViewHelper debugViewHelper;
@ -343,8 +343,8 @@ public class PlayerActivity extends AppCompatActivity
      Intent intent = getIntent();
      releaseMediaDrms();
-      mediaSource = createTopLevelMediaSource(intent);
+      mediaSources = createTopLevelMediaSources(intent);
-      if (mediaSource == null) {
+      if (mediaSources.isEmpty()) {
        return;
      }
@ -388,12 +388,12 @@ public class PlayerActivity extends AppCompatActivity
    if (haveStartPosition) {
      player.seekTo(startWindow, startPosition);
    }
-    player.prepare(mediaSource, !haveStartPosition, false);
+    player.setMediaItems(mediaSources, /* resetPosition= */ !haveStartPosition);
    player.prepare();
    updateButtonVisibility();
  }
-  @Nullable
+  private List<MediaSource> createTopLevelMediaSources(Intent intent) {
  private MediaSource createTopLevelMediaSource(Intent intent) {
    String action = intent.getAction();
    boolean actionIsListView = ACTION_VIEW_LIST.equals(action);
    if (!actionIsListView && !ACTION_VIEW.equals(action)) {
@ -421,34 +421,30 @@ public class PlayerActivity extends AppCompatActivity
      }
    }
-    MediaSource[] mediaSources = new MediaSource[samples.length];
+    List<MediaSource> mediaSources = new ArrayList<>();
-    for (int i = 0; i < samples.length; i++) {
+    for (UriSample sample : samples) {
-      mediaSources[i] = createLeafMediaSource(samples[i]);
+      mediaSources.add(createLeafMediaSource(sample));
    }
-    MediaSource mediaSource =
+    if (seenAdsTagUri && mediaSources.size() == 1) {
        mediaSources.length == 1 ? mediaSources[0] : new ConcatenatingMediaSource(mediaSources);
    if (seenAdsTagUri) {
      Uri adTagUri = samples[0].adTagUri;
-      if (actionIsListView) {
+      if (!adTagUri.equals(loadedAdTagUri)) {
-        showToast(R.string.unsupported_ads_in_concatenation);
+        releaseAdsLoader();
-      } else {
+        loadedAdTagUri = adTagUri;
        if (!adTagUri.equals(loadedAdTagUri)) {
          releaseAdsLoader();
          loadedAdTagUri = adTagUri;
        }
        MediaSource adsMediaSource = createAdsMediaSource(mediaSource, adTagUri);
        if (adsMediaSource != null) {
          mediaSource = adsMediaSource;
        } else {
          showToast(R.string.ima_not_loaded);
        }
      }
      MediaSource adsMediaSource = createAdsMediaSource(mediaSources.get(0), adTagUri);
      if (adsMediaSource != null) {
        mediaSources.set(0, adsMediaSource);
      } else {
        showToast(R.string.ima_not_loaded);
      }
    } else if (seenAdsTagUri && mediaSources.size() > 1) {
      showToast(R.string.unsupported_ads_in_concatenation);
      releaseAdsLoader();
    } else {
      releaseAdsLoader();
    }
-    return mediaSource;
+    return mediaSources;
  }
  private MediaSource createLeafMediaSource(UriSample parameters) {
@ -548,7 +544,7 @@ public class PlayerActivity extends AppCompatActivity
      debugViewHelper = null;
      player.release();
      player = null;
-      mediaSource = null;
+      mediaSources = null;
      trackSelector = null;
    }
    if (adsLoader != null) {
--- a/extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/CastPlayer.java
+++ b/extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/CastPlayer.java
@ -106,7 +106,6 @@ public final class CastPlayer extends BasePlayer {
  private int pendingSeekCount;
  private int pendingSeekWindowIndex;
  private long pendingSeekPositionMs;
  private boolean waitingForInitialTimeline;
  /**
   * @param castContext The context from which the cast session is obtained.
@ -168,7 +167,6 @@ public final class CastPlayer extends BasePlayer {
      MediaQueueItem[] items, int startIndex, long positionMs, @RepeatMode int repeatMode) {
    if (remoteMediaClient != null) {
      positionMs = positionMs != C.TIME_UNSET ? positionMs : 0;
      waitingForInitialTimeline = true;
      return remoteMediaClient.queueLoad(items, startIndex, getCastRepeatMode(repeatMode),
          positionMs, null);
    }
@ -594,12 +592,13 @@ public final class CastPlayer extends BasePlayer {
  private void maybeUpdateTimelineAndNotify() {
    if (updateTimeline()) {
-      @Player.TimelineChangeReason int reason = waitingForInitialTimeline
+      // TODO: Differentiate TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED and
-          ? Player.TIMELINE_CHANGE_REASON_PREPARED : Player.TIMELINE_CHANGE_REASON_DYNAMIC;
+      //     TIMELINE_CHANGE_REASON_SOURCE_UPDATE [see internal: b/65152553].
      waitingForInitialTimeline = false;
      notificationsBatch.add(
          new ListenerNotificationTask(
-              listener -> listener.onTimelineChanged(currentTimeline, reason)));
+              listener ->
                  listener.onTimelineChanged(
                      currentTimeline, Player.TIMELINE_CHANGE_REASON_SOURCE_UPDATE)));
    }
  }
--- a/extensions/ima/src/test/java/com/google/android/exoplayer2/ext/ima/FakePlayer.java
+++ b/extensions/ima/src/test/java/com/google/android/exoplayer2/ext/ima/FakePlayer.java
@ -30,7 +30,6 @@ import java.util.ArrayList;
  private final Timeline.Period period;
  private final Timeline timeline;
  private boolean prepared;
  @Player.State private int state;
  private boolean playWhenReady;
  private long position;
@ -47,13 +46,17 @@ import java.util.ArrayList;
    timeline = Timeline.EMPTY;
  }
-  /** Sets the timeline on this fake player, which notifies listeners with the changed timeline. */
+  /**
-  public void updateTimeline(Timeline timeline) {
+   * Sets the timeline on this fake player, which notifies listeners with the changed timeline and
   * the given timeline change reason.
   *
   * @param timeline The new timeline.
   * @param timelineChangeReason The reason for the timeline change.
   */
  public void updateTimeline(Timeline timeline, @TimelineChangeReason int timelineChangeReason) {
    for (Player.EventListener listener : listeners) {
-      listener.onTimelineChanged(
+      listener.onTimelineChanged(timeline, timelineChangeReason);
          timeline, prepared ? TIMELINE_CHANGE_REASON_DYNAMIC : TIMELINE_CHANGE_REASON_PREPARED);
    }
    prepared = true;
  }
  /**
--- a/extensions/ima/src/test/java/com/google/android/exoplayer2/ext/ima/ImaAdsLoaderTest.java
+++ b/extensions/ima/src/test/java/com/google/android/exoplayer2/ext/ima/ImaAdsLoaderTest.java
@ -285,7 +285,9 @@ public class ImaAdsLoaderTest {
    public void onAdPlaybackState(AdPlaybackState adPlaybackState) {
      adPlaybackState = adPlaybackState.withAdDurationsUs(adDurationsUs);
      this.adPlaybackState = adPlaybackState;
-      fakeExoPlayer.updateTimeline(new SinglePeriodAdTimeline(contentTimeline, adPlaybackState));
+      fakeExoPlayer.updateTimeline(
          new SinglePeriodAdTimeline(contentTimeline, adPlaybackState),
          Player.TIMELINE_CHANGE_REASON_SOURCE_UPDATE);
    }
    @Override
--- a/library/core/src/main/java/com/google/android/exoplayer2/source/AbstractConcatenatedTimeline.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/source/AbstractConcatenatedTimeline.java
@ -13,18 +13,14 @@
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
-package com.google.android.exoplayer2.source;
+package com.google.android.exoplayer2;
 import android.util.Pair;
-import com.google.android.exoplayer2.C;
+import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.Player;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.util.Assertions;
-/**
+/** Abstract base class for the concatenation of one or more {@link Timeline}s. */
- * Abstract base class for the concatenation of one or more {@link Timeline}s.
+public abstract class AbstractConcatenatedTimeline extends Timeline {
 */
 /* package */ abstract class AbstractConcatenatedTimeline extends Timeline {
  private final int childCount;
  private final ShuffleOrder shuffleOrder;
--- a/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayer.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayer.java
@ -28,6 +28,7 @@ import com.google.android.exoplayer2.source.LoopingMediaSource;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MergingMediaSource;
 import com.google.android.exoplayer2.source.ProgressiveMediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.SingleSampleMediaSource;
 import com.google.android.exoplayer2.text.TextRenderer;
 import com.google.android.exoplayer2.trackselection.DefaultTrackSelector;
@ -39,6 +40,7 @@ import com.google.android.exoplayer2.util.Assertions;
 import com.google.android.exoplayer2.util.Clock;
 import com.google.android.exoplayer2.util.Util;
 import com.google.android.exoplayer2.video.MediaCodecVideoRenderer;
 import java.util.List;
 /**
 * An extensible media player that plays {@link MediaSource}s. Instances can be obtained from {@link
@ -139,7 +141,7 @@ public interface ExoPlayer extends Player {
    private LoadControl loadControl;
    private BandwidthMeter bandwidthMeter;
    private Looper looper;
-    private AnalyticsCollector analyticsCollector;
+    @Nullable private AnalyticsCollector analyticsCollector;
    private boolean useLazyPreparation;
    private boolean buildCalled;
@ -170,7 +172,7 @@ public interface ExoPlayer extends Player {
          new DefaultLoadControl(),
          DefaultBandwidthMeter.getSingletonInstance(context),
          Util.getLooper(),
-          new AnalyticsCollector(Clock.DEFAULT),
+          /* analyticsCollector= */ null,
          /* useLazyPreparation= */ true,
          Clock.DEFAULT);
    }
@ -197,7 +199,7 @@ public interface ExoPlayer extends Player {
        LoadControl loadControl,
        BandwidthMeter bandwidthMeter,
        Looper looper,
-        AnalyticsCollector analyticsCollector,
+        @Nullable AnalyticsCollector analyticsCollector,
        boolean useLazyPreparation,
        Clock clock) {
      Assertions.checkArgument(renderers.length > 0);
@ -318,38 +320,156 @@ public interface ExoPlayer extends Player {
      Assertions.checkState(!buildCalled);
      buildCalled = true;
      return new ExoPlayerImpl(
-          renderers, trackSelector, loadControl, bandwidthMeter, clock, looper);
+          renderers,
          trackSelector,
          loadControl,
          bandwidthMeter,
          analyticsCollector,
          useLazyPreparation,
          clock,
          looper);
    }
  }
  /** Returns the {@link Looper} associated with the playback thread. */
  Looper getPlaybackLooper();
-  /**
+  /** @deprecated Use {@link #prepare()} instead. */
-   * Retries a failed or stopped playback. Does nothing if the player has been reset, or if playback
+  @Deprecated
   * has not failed or been stopped.
   */
  void retry();
-  /**
+  /** @deprecated Use {@link #setMediaItem(MediaSource)} and {@link #prepare()} instead. */
-   * Prepares the player to play the provided {@link MediaSource}. Equivalent to
+  @Deprecated
   * {@code prepare(mediaSource, true, true)}.
   */
  void prepare(MediaSource mediaSource);
  /** @deprecated Use {@link #setMediaItems(List, int, long)} and {@link #prepare()} instead. */
  @Deprecated
  void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState);
  /** Prepares the player. */
  void prepare();
  /**
-   * Prepares the player to play the provided {@link MediaSource}, optionally resetting the playback
+   * Clears the playlist and adds the specified {@link MediaSource MediaSources}.
   * position the default position in the first {@link Timeline.Window}.
   *
-   * @param mediaSource The {@link MediaSource} to play.
+   * @param mediaItems The new {@link MediaSource MediaSources}.
   */
  void setMediaItems(List<MediaSource> mediaItems);
  /**
   * Clears the playlist and adds the specified {@link MediaSource MediaSources}.
   *
   * @param mediaItems The new {@link MediaSource MediaSources}.
   * @param resetPosition Whether the playback position should be reset to the default position in
   *     the first {@link Timeline.Window}. If false, playback will start from the position defined
   *     by {@link #getCurrentWindowIndex()} and {@link #getCurrentPosition()}.
   * @param resetState Whether the timeline, manifest, tracks and track selections should be reset.
   *     Should be true unless the player is being prepared to play the same media as it was playing
   *     previously (e.g. if playback failed and is being retried).
   */
-  void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState);
+  void setMediaItems(List<MediaSource> mediaItems, boolean resetPosition);
  /**
   * Clears the playlist and adds the specified {@link MediaSource MediaSources}.
   *
   * @param mediaItems The new {@link MediaSource MediaSources}.
   * @param startWindowIndex The window index to start playback from. If {@link C#INDEX_UNSET} is
   *     passed, the current position is not reset.
   * @param startPositionMs The position in milliseconds to start playback from. If {@link
   *     C#TIME_UNSET} is passed, the default position of the given window is used. In any case, if
   *     {@code startWindowIndex} is set to {@link C#INDEX_UNSET}, this parameter is ignored and the
   *     position is not reset at all.
   */
  void setMediaItems(List<MediaSource> mediaItems, int startWindowIndex, long startPositionMs);
  /**
   * Clears the playlist and adds the specified {@link MediaSource}.
   *
   * @param mediaItem The new {@link MediaSource}.
   */
  void setMediaItem(MediaSource mediaItem);
  /**
   * Clears the playlist and adds the specified {@link MediaSource}.
   *
   * @param mediaItem The new {@link MediaSource}.
   * @param startPositionMs The position in milliseconds to start playback from.
   */
  void setMediaItem(MediaSource mediaItem, long startPositionMs);
  /**
   * Adds a media item to the end of the playlist.
   *
   * @param mediaSource The {@link MediaSource} to add.
   */
  void addMediaItem(MediaSource mediaSource);
  /**
   * Adds a media item at the given index of the playlist.
   *
   * @param index The index at which to add the item.
   * @param mediaSource The {@link MediaSource} to add.
   */
  void addMediaItem(int index, MediaSource mediaSource);
  /**
   * Adds a list of media items to the end of the playlist.
   *
   * @param mediaSources The {@link MediaSource MediaSources} to add.
   */
  void addMediaItems(List<MediaSource> mediaSources);
  /**
   * Adds a list of media items at the given index of the playlist.
   *
   * @param index The index at which to add the media items.
   * @param mediaSources The {@link MediaSource MediaSources} to add.
   */
  void addMediaItems(int index, List<MediaSource> mediaSources);
  /**
   * Moves the media item at the current index to the new index.
   *
   * @param currentIndex The current index of the media item to move.
   * @param newIndex The new index of the media item. If the new index is larger than the size of
   *     the playlist the item is moved to the end of the playlist.
   */
  void moveMediaItem(int currentIndex, int newIndex);
  /**
   * Moves the media item range to the new index.
   *
   * @param fromIndex The start of the range to move.
   * @param toIndex The first item not to be included in the range (exclusive).
   * @param newIndex The new index of the first media item of the range. If the new index is larger
   *     than the size of the remaining playlist after removing the range, the range is moved to the
   *     end of the playlist.
   */
  void moveMediaItems(int fromIndex, int toIndex, int newIndex);
  /**
   * Removes the media item at the given index of the playlist.
   *
   * @param index The index at which to remove the media item.
   * @return The removed {@link MediaSource} or null if no item exists at the given index.
   */
  @Nullable
  MediaSource removeMediaItem(int index);
  /**
   * Removes a range of media items from the playlist.
   *
   * @param fromIndex The index at which to start removing media items.
   * @param toIndex The index of the first item to be kept (exclusive).
   */
  void removeMediaItems(int fromIndex, int toIndex);
  /** Clears the playlist. */
  void clearMediaItems();
  /**
   * Sets the shuffle order.
   *
   * @param shuffleOrder The shuffle order.
   */
  void setShuffleOrder(ShuffleOrder shuffleOrder);
  /**
   * Creates a message that can be sent to a {@link PlayerMessage.Target}. By default, the message
--- a/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerFactory.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerFactory.java
@ -296,6 +296,7 @@ public final class ExoPlayerFactory {
        drmSessionManager,
        bandwidthMeter,
        analyticsCollector,
        /* useLazyPreparation= */ true,
        Clock.DEFAULT,
        looper);
  }
@ -344,6 +345,13 @@ public final class ExoPlayerFactory {
      BandwidthMeter bandwidthMeter,
      Looper looper) {
    return new ExoPlayerImpl(
-        renderers, trackSelector, loadControl, bandwidthMeter, Clock.DEFAULT, looper);
+        renderers,
        trackSelector,
        loadControl,
        bandwidthMeter,
        /* analyticsCollector= */ null,
        /* useLazyPreparation= */ true,
        Clock.DEFAULT,
        looper);
  }
 }
--- a/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerImpl.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerImpl.java
@ -22,8 +22,10 @@ import android.os.Message;
 import android.util.Pair;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.PlayerMessage.Target;
 import com.google.android.exoplayer2.analytics.AnalyticsCollector;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSource.MediaPeriodId;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.TrackGroupArray;
 import com.google.android.exoplayer2.trackselection.TrackSelection;
 import com.google.android.exoplayer2.trackselection.TrackSelectionArray;
@ -35,6 +37,9 @@ import com.google.android.exoplayer2.util.Clock;
 import com.google.android.exoplayer2.util.Log;
 import com.google.android.exoplayer2.util.Util;
 import java.util.ArrayDeque;
 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.List;
 import java.util.concurrent.CopyOnWriteArrayList;
 /**
@ -61,19 +66,20 @@ import java.util.concurrent.CopyOnWriteArrayList;
  private final CopyOnWriteArrayList<ListenerHolder> listeners;
  private final Timeline.Period period;
  private final ArrayDeque<Runnable> pendingListenerNotifications;
  private final List<Playlist.MediaSourceHolder> mediaSourceHolders;
  private final boolean useLazyPreparation;
  private MediaSource mediaSource;
  private boolean playWhenReady;
  @PlaybackSuppressionReason private int playbackSuppressionReason;
  @RepeatMode private int repeatMode;
  private boolean shuffleModeEnabled;
  private int pendingOperationAcks;
  private boolean hasPendingPrepare;
  private boolean hasPendingSeek;
  private boolean foregroundMode;
  private int pendingSetPlaybackParametersAcks;
  private PlaybackParameters playbackParameters;
  private SeekParameters seekParameters;
  private ShuffleOrder shuffleOrder;
  // Playback information when there is no pending seek/set source operation.
  private PlaybackInfo playbackInfo;
@ -90,6 +96,10 @@ import java.util.concurrent.CopyOnWriteArrayList;
   * @param trackSelector The {@link TrackSelector} that will be used by the instance.
   * @param loadControl The {@link LoadControl} that will be used by the instance.
   * @param bandwidthMeter The {@link BandwidthMeter} that will be used by the instance.
   * @param analyticsCollector The {@link AnalyticsCollector} that will be used by the instance.
   * @param useLazyPreparation Whether playlist items are prepared lazily. If false, all manifest
   *     loads and other initial preparation steps happen immediately. If true, these initial
   *     preparations are triggered only when the player starts buffering the media.
   * @param clock The {@link Clock} that will be used by the instance.
   * @param looper The {@link Looper} which must be used for all calls to the player and which is
   *     used to call listeners on.
@ -100,6 +110,8 @@ import java.util.concurrent.CopyOnWriteArrayList;
      TrackSelector trackSelector,
      LoadControl loadControl,
      BandwidthMeter bandwidthMeter,
      @Nullable AnalyticsCollector analyticsCollector,
      boolean useLazyPreparation,
      Clock clock,
      Looper looper) {
    Log.i(TAG, "Init " + Integer.toHexString(System.identityHashCode(this)) + " ["
@ -107,10 +119,13 @@ import java.util.concurrent.CopyOnWriteArrayList;
    Assertions.checkState(renderers.length > 0);
    this.renderers = Assertions.checkNotNull(renderers);
    this.trackSelector = Assertions.checkNotNull(trackSelector);
-    this.playWhenReady = false;
+    this.useLazyPreparation = useLazyPreparation;
-    this.repeatMode = Player.REPEAT_MODE_OFF;
+    playWhenReady = false;
-    this.shuffleModeEnabled = false;
+    repeatMode = Player.REPEAT_MODE_OFF;
-    this.listeners = new CopyOnWriteArrayList<>();
+    shuffleModeEnabled = false;
    listeners = new CopyOnWriteArrayList<>();
    mediaSourceHolders = new ArrayList<>();
    shuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length= */ 0);
    emptyTrackSelectorResult =
        new TrackSelectorResult(
            new RendererConfiguration[renderers.length],
@ -129,6 +144,9 @@ import java.util.concurrent.CopyOnWriteArrayList;
        };
    playbackInfo = PlaybackInfo.createDummy(/* startPositionUs= */ 0, emptyTrackSelectorResult);
    pendingListenerNotifications = new ArrayDeque<>();
    if (analyticsCollector != null) {
      analyticsCollector.setPlayer(this);
    }
    internalPlayer =
        new ExoPlayerImplInternal(
            renderers,
@ -139,6 +157,7 @@ import java.util.concurrent.CopyOnWriteArrayList;
            playWhenReady,
            repeatMode,
            shuffleModeEnabled,
            analyticsCollector,
            eventHandler,
            clock);
    internalPlayerHandler = new Handler(internalPlayer.getPlaybackLooper());
@ -212,41 +231,177 @@ import java.util.concurrent.CopyOnWriteArrayList;
  }
  @Override
  @Deprecated
  public void retry() {
-    if (mediaSource != null && playbackInfo.playbackState == Player.STATE_IDLE) {
+    prepare();
-      prepare(mediaSource, /* resetPosition= */ false, /* resetState= */ false);
+  }
  @Override
  public void prepare() {
    if (playbackInfo.playbackState != Player.STATE_IDLE) {
      return;
    }
  }
  @Override
  public void prepare(MediaSource mediaSource) {
    prepare(mediaSource, /* resetPosition= */ true, /* resetState= */ true);
  }
  @Override
  public void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState) {
    this.mediaSource = mediaSource;
    PlaybackInfo playbackInfo =
        getResetPlaybackInfo(
-            resetPosition,
+            /* clearPlaylist= */ false,
            resetState,
            /* resetError= */ true,
            /* playbackState= */ Player.STATE_BUFFERING);
    // Trigger internal prepare first before updating the playback info and notifying external
    // listeners to ensure that new operations issued in the listener notifications reach the
    // player after this prepare. The internal player can't change the playback info immediately
    // because it uses a callback.
    hasPendingPrepare = true;
    pendingOperationAcks++;
-    internalPlayer.prepare(mediaSource, resetPosition, resetState);
+    internalPlayer.prepare();
    updatePlaybackInfo(
        playbackInfo,
        /* positionDiscontinuity= */ false,
        /* ignored */ DISCONTINUITY_REASON_INTERNAL,
-        TIMELINE_CHANGE_REASON_RESET,
+        /* ignored */ TIMELINE_CHANGE_REASON_SOURCE_UPDATE,
        /* seekProcessed= */ false);
  }
  @Override
  @Deprecated
  public void prepare(MediaSource mediaSource) {
    setMediaItem(mediaSource);
    prepare();
  }
  @Override
  @Deprecated
  public void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState) {
    setMediaItem(
        mediaSource, /* startPositionMs= */ resetPosition ? C.TIME_UNSET : getCurrentPosition());
    prepare();
  }
  @Override
  public void setMediaItem(MediaSource mediaItem) {
    setMediaItems(Collections.singletonList(mediaItem));
  }
  @Override
  public void setMediaItem(MediaSource mediaItem, long startPositionMs) {
    setMediaItems(Collections.singletonList(mediaItem), /* startWindowIndex= */ 0, startPositionMs);
  }
  @Override
  public void setMediaItems(List<MediaSource> mediaItems) {
    setMediaItems(
        mediaItems, /* startWindowIndex= */ C.INDEX_UNSET, /* startPositionMs */ C.TIME_UNSET);
  }
  @Override
  public void setMediaItems(List<MediaSource> mediaItems, boolean resetPosition) {
    setMediaItems(
        mediaItems,
        /* startWindowIndex= */ resetPosition ? C.INDEX_UNSET : getCurrentWindowIndex(),
        /* startPositionMs= */ resetPosition ? C.TIME_UNSET : getCurrentPosition());
  }
  @Override
  public void setMediaItems(
      List<MediaSource> mediaItems, int startWindowIndex, long startPositionMs) {
    pendingOperationAcks++;
    if (!mediaSourceHolders.isEmpty()) {
      removeMediaSourceHolders(
          /* fromIndex= */ 0, /* toIndexExclusive= */ mediaSourceHolders.size());
    }
    List<Playlist.MediaSourceHolder> holders = addMediaSourceHolders(/* index= */ 0, mediaItems);
    maskTimeline();
    internalPlayer.setMediaItems(
        holders, startWindowIndex, C.msToUs(startPositionMs), shuffleOrder);
    notifyListeners(
        listener ->
            listener.onTimelineChanged(
                playbackInfo.timeline, TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED));
  }
  @Override
  public void addMediaItem(MediaSource mediaSource) {
    addMediaItems(Collections.singletonList(mediaSource));
  }
  @Override
  public void addMediaItem(int index, MediaSource mediaSource) {
    addMediaItems(index, Collections.singletonList(mediaSource));
  }
  @Override
  public void addMediaItems(List<MediaSource> mediaSources) {
    addMediaItems(/* index= */ mediaSourceHolders.size(), mediaSources);
  }
  @Override
  public void addMediaItems(int index, List<MediaSource> mediaSources) {
    Assertions.checkArgument(index >= 0);
    pendingOperationAcks++;
    List<Playlist.MediaSourceHolder> holders = addMediaSourceHolders(index, mediaSources);
    maskTimeline();
    internalPlayer.addMediaItems(index, holders, shuffleOrder);
    notifyListeners(
        listener ->
            listener.onTimelineChanged(
                playbackInfo.timeline, TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED));
  }
  @Override
  public MediaSource removeMediaItem(int index) {
    List<Playlist.MediaSourceHolder> mediaSourceHolders =
        removeMediaItemsInternal(/* fromIndex= */ index, /* toIndex= */ index + 1);
    return mediaSourceHolders.isEmpty() ? null : mediaSourceHolders.get(0).mediaSource;
  }
  @Override
  public void removeMediaItems(int fromIndex, int toIndex) {
    Assertions.checkArgument(toIndex > fromIndex);
    removeMediaItemsInternal(fromIndex, toIndex);
  }
  @Override
  public void moveMediaItem(int currentIndex, int newIndex) {
    Assertions.checkArgument(currentIndex != newIndex);
    moveMediaItems(/* fromIndex= */ currentIndex, /* toIndex= */ currentIndex + 1, newIndex);
  }
  @Override
  public void moveMediaItems(int fromIndex, int toIndex, int newFromIndex) {
    Assertions.checkArgument(
        fromIndex >= 0
            && fromIndex <= toIndex
            && toIndex <= mediaSourceHolders.size()
            && newFromIndex >= 0);
    pendingOperationAcks++;
    newFromIndex = Math.min(newFromIndex, mediaSourceHolders.size() - (toIndex - fromIndex));
    Playlist.moveMediaSourceHolders(mediaSourceHolders, fromIndex, toIndex, newFromIndex);
    maskTimeline();
    internalPlayer.moveMediaItems(fromIndex, toIndex, newFromIndex, shuffleOrder);
    notifyListeners(
        listener ->
            listener.onTimelineChanged(
                playbackInfo.timeline, TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED));
  }
  @Override
  public void clearMediaItems() {
    if (mediaSourceHolders.isEmpty()) {
      return;
    }
    removeMediaItemsInternal(/* fromIndex= */ 0, /* toIndex= */ mediaSourceHolders.size());
  }
  @Override
  public void setShuffleOrder(ShuffleOrder shuffleOrder) {
    pendingOperationAcks++;
    this.shuffleOrder = shuffleOrder;
    maskTimeline();
    internalPlayer.setShuffleOrder(shuffleOrder);
    notifyListeners(
        listener ->
            listener.onTimelineChanged(
                playbackInfo.timeline, TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED));
  }
  @Override
  public void setPlayWhenReady(boolean playWhenReady) {
    setPlayWhenReady(playWhenReady, PLAYBACK_SUPPRESSION_REASON_NONE);
@ -403,13 +558,9 @@ import java.util.concurrent.CopyOnWriteArrayList;
  @Override
  public void stop(boolean reset) {
    if (reset) {
      mediaSource = null;
    }
    PlaybackInfo playbackInfo =
        getResetPlaybackInfo(
-            /* resetPosition= */ reset,
+            /* clearPlaylist= */ reset,
            /* resetState= */ reset,
            /* resetError= */ reset,
            /* playbackState= */ Player.STATE_IDLE);
    // Trigger internal stop first before updating the playback info and notifying external
@ -422,7 +573,7 @@ import java.util.concurrent.CopyOnWriteArrayList;
        playbackInfo,
        /* positionDiscontinuity= */ false,
        /* ignored */ DISCONTINUITY_REASON_INTERNAL,
-        TIMELINE_CHANGE_REASON_RESET,
+        TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED,
        /* seekProcessed= */ false);
  }
@ -431,13 +582,11 @@ import java.util.concurrent.CopyOnWriteArrayList;
    Log.i(TAG, "Release " + Integer.toHexString(System.identityHashCode(this)) + " ["
        + ExoPlayerLibraryInfo.VERSION_SLASHY + "] [" + Util.DEVICE_DEBUG_INFO + "] ["
        + ExoPlayerLibraryInfo.registeredModules() + "]");
    mediaSource = null;
    internalPlayer.release();
    eventHandler.removeCallbacksAndMessages(null);
    playbackInfo =
        getResetPlaybackInfo(
-            /* resetPosition= */ false,
+            /* clearPlaylist= */ false,
            /* resetState= */ false,
            /* resetError= */ false,
            /* playbackState= */ Player.STATE_IDLE);
  }
@ -585,10 +734,11 @@ import java.util.concurrent.CopyOnWriteArrayList;
  // Not private so it can be called from an inner class without going through a thunk method.
  /* package */ void handleEvent(Message msg) {
    switch (msg.what) {
      case ExoPlayerImplInternal.MSG_PLAYBACK_INFO_CHANGED:
        handlePlaybackInfo(
-            (PlaybackInfo) msg.obj,
+            /* playbackInfo= */ (PlaybackInfo) msg.obj,
            /* operationAcks= */ msg.arg1,
            /* positionDiscontinuity= */ msg.arg2 != C.INDEX_UNSET,
            /* positionDiscontinuityReason= */ msg.arg2);
@ -636,29 +786,23 @@ import java.util.concurrent.CopyOnWriteArrayList;
        maskingWindowIndex = 0;
        maskingWindowPositionMs = 0;
      }
      @Player.TimelineChangeReason
      int timelineChangeReason =
          hasPendingPrepare
              ? Player.TIMELINE_CHANGE_REASON_PREPARED
              : Player.TIMELINE_CHANGE_REASON_DYNAMIC;
      boolean seekProcessed = hasPendingSeek;
      hasPendingPrepare = false;
      hasPendingSeek = false;
      updatePlaybackInfo(
          playbackInfo,
          positionDiscontinuity,
          positionDiscontinuityReason,
-          timelineChangeReason,
+          TIMELINE_CHANGE_REASON_SOURCE_UPDATE,
          seekProcessed);
    }
  }
  private PlaybackInfo getResetPlaybackInfo(
-      boolean resetPosition,
+      boolean clearPlaylist, boolean resetError, @Player.State int playbackState) {
-      boolean resetState,
+    if (clearPlaylist) {
-      boolean resetError,
+      // Reset list of media source holders which are used for creating the masking timeline.
-      @Player.State int playbackState) {
+      removeMediaSourceHolders(
-    if (resetPosition) {
+          /* fromIndex= */ 0, /* toIndexExclusive= */ mediaSourceHolders.size());
      maskingWindowIndex = 0;
      maskingPeriodIndex = 0;
      maskingWindowPositionMs = 0;
@ -667,24 +811,22 @@ import java.util.concurrent.CopyOnWriteArrayList;
      maskingPeriodIndex = getCurrentPeriodIndex();
      maskingWindowPositionMs = getCurrentPosition();
    }
    // Also reset period-based PlaybackInfo positions if resetting the state.
    resetPosition = resetPosition || resetState;
    MediaPeriodId mediaPeriodId =
-        resetPosition
+        clearPlaylist
            ? playbackInfo.getDummyFirstMediaPeriodId(shuffleModeEnabled, window, period)
            : playbackInfo.periodId;
-    long startPositionUs = resetPosition ? 0 : playbackInfo.positionUs;
+    long startPositionUs = clearPlaylist ? 0 : playbackInfo.positionUs;
-    long contentPositionUs = resetPosition ? C.TIME_UNSET : playbackInfo.contentPositionUs;
+    long contentPositionUs = clearPlaylist ? C.TIME_UNSET : playbackInfo.contentPositionUs;
    return new PlaybackInfo(
-        resetState ? Timeline.EMPTY : playbackInfo.timeline,
+        clearPlaylist ? Timeline.EMPTY : playbackInfo.timeline,
        mediaPeriodId,
        startPositionUs,
        contentPositionUs,
        playbackState,
        resetError ? null : playbackInfo.playbackError,
        /* isLoading= */ false,
-        resetState ? TrackGroupArray.EMPTY : playbackInfo.trackGroups,
+        clearPlaylist ? TrackGroupArray.EMPTY : playbackInfo.trackGroups,
-        resetState ? emptyTrackSelectorResult : playbackInfo.trackSelectorResult,
+        clearPlaylist ? emptyTrackSelectorResult : playbackInfo.trackSelectorResult,
        mediaPeriodId,
        startPositionUs,
        /* totalBufferedDurationUs= */ 0,
@ -694,8 +836,8 @@ import java.util.concurrent.CopyOnWriteArrayList;
  private void updatePlaybackInfo(
      PlaybackInfo playbackInfo,
      boolean positionDiscontinuity,
-      @Player.DiscontinuityReason int positionDiscontinuityReason,
+      @DiscontinuityReason int positionDiscontinuityReason,
-      @Player.TimelineChangeReason int timelineChangeReason,
+      @TimelineChangeReason int timelineChangeReason,
      boolean seekProcessed) {
    boolean previousIsPlaying = isPlaying();
    // Assign playback info immediately such that all getters return the right values.
@ -716,6 +858,54 @@ import java.util.concurrent.CopyOnWriteArrayList;
            /* isPlayingChanged= */ previousIsPlaying != isPlaying));
  }
  private List<Playlist.MediaSourceHolder> addMediaSourceHolders(
      int index, List<MediaSource> mediaSources) {
    List<Playlist.MediaSourceHolder> holders = new ArrayList<>();
    for (int i = 0; i < mediaSources.size(); i++) {
      Playlist.MediaSourceHolder holder =
          new Playlist.MediaSourceHolder(mediaSources.get(i), useLazyPreparation);
      holders.add(holder);
      mediaSourceHolders.add(i + index, holder);
    }
    shuffleOrder =
        shuffleOrder.cloneAndInsert(
            /* insertionIndex= */ index, /* insertionCount= */ holders.size());
    return holders;
  }
  private List<Playlist.MediaSourceHolder> removeMediaItemsInternal(int fromIndex, int toIndex) {
    Assertions.checkArgument(
        fromIndex >= 0 && toIndex >= fromIndex && toIndex <= mediaSourceHolders.size());
    pendingOperationAcks++;
    List<Playlist.MediaSourceHolder> mediaSourceHolders =
        removeMediaSourceHolders(fromIndex, /* toIndexExclusive= */ toIndex);
    maskTimeline();
    internalPlayer.removeMediaItems(fromIndex, toIndex, shuffleOrder);
    notifyListeners(
        listener ->
            listener.onTimelineChanged(
                playbackInfo.timeline, TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED));
    return mediaSourceHolders;
  }
  private List<Playlist.MediaSourceHolder> removeMediaSourceHolders(
      int fromIndex, int toIndexExclusive) {
    List<Playlist.MediaSourceHolder> removed = new ArrayList<>();
    for (int i = toIndexExclusive - 1; i >= fromIndex; i--) {
      removed.add(mediaSourceHolders.remove(i));
    }
    shuffleOrder = shuffleOrder.cloneAndRemove(fromIndex, toIndexExclusive);
    return removed;
  }
  private void maskTimeline() {
    playbackInfo =
        playbackInfo.copyWithTimeline(
            mediaSourceHolders.isEmpty()
                ? Timeline.EMPTY
                : new Playlist.PlaylistTimeline(mediaSourceHolders, shuffleOrder));
  }
  private void notifyListeners(ListenerInvocation listenerInvocation) {
    CopyOnWriteArrayList<ListenerHolder> listenerSnapshot = new CopyOnWriteArrayList<>(listeners);
    notifyListeners(() -> invokeAll(listenerSnapshot, listenerInvocation));
@ -751,7 +941,7 @@ import java.util.concurrent.CopyOnWriteArrayList;
    private final TrackSelector trackSelector;
    private final boolean positionDiscontinuity;
    private final @Player.DiscontinuityReason int positionDiscontinuityReason;
-    private final @Player.TimelineChangeReason int timelineChangeReason;
+    private final int timelineChangeReason;
    private final boolean seekProcessed;
    private final boolean playbackStateChanged;
    private final boolean playbackErrorChanged;
@ -785,15 +975,16 @@ import java.util.concurrent.CopyOnWriteArrayList;
      playbackErrorChanged =
          previousPlaybackInfo.playbackError != playbackInfo.playbackError
              && playbackInfo.playbackError != null;
      timelineChanged = previousPlaybackInfo.timeline != playbackInfo.timeline;
      isLoadingChanged = previousPlaybackInfo.isLoading != playbackInfo.isLoading;
      timelineChanged =
          !Util.areTimelinesSame(previousPlaybackInfo.timeline, playbackInfo.timeline);
      trackSelectorResultChanged =
          previousPlaybackInfo.trackSelectorResult != playbackInfo.trackSelectorResult;
    }
    @Override
    public void run() {
-      if (timelineChanged || timelineChangeReason == TIMELINE_CHANGE_REASON_PREPARED) {
+      if (timelineChanged) {
        invokeAll(
            listenerSnapshot,
            listener -> listener.onTimelineChanged(playbackInfo.timeline, timelineChangeReason));
--- a/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerImplInternal.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/ExoPlayerImplInternal.java
@ -26,11 +26,11 @@ import androidx.annotation.NonNull;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.DefaultMediaClock.PlaybackParameterListener;
 import com.google.android.exoplayer2.Player.DiscontinuityReason;
 import com.google.android.exoplayer2.analytics.AnalyticsCollector;
 import com.google.android.exoplayer2.source.MediaPeriod;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSource.MediaPeriodId;
 import com.google.android.exoplayer2.source.MediaSource.MediaSourceCaller;
 import com.google.android.exoplayer2.source.SampleStream;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.TrackGroupArray;
 import com.google.android.exoplayer2.trackselection.TrackSelection;
 import com.google.android.exoplayer2.trackselection.TrackSelector;
@ -45,6 +45,7 @@ import com.google.android.exoplayer2.util.Util;
 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.List;
 import java.util.concurrent.atomic.AtomicBoolean;
 /** Implements the internal behavior of {@link ExoPlayerImpl}. */
@ -52,7 +53,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    implements Handler.Callback,
        MediaPeriod.Callback,
        TrackSelector.InvalidationListener,
-        MediaSourceCaller,
+        Playlist.PlaylistInfoRefreshListener,
        PlaybackParameterListener,
        PlayerMessage.Sender {
@ -71,16 +72,21 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private static final int MSG_SET_SEEK_PARAMETERS = 5;
  private static final int MSG_STOP = 6;
  private static final int MSG_RELEASE = 7;
-  private static final int MSG_REFRESH_SOURCE_INFO = 8;
+  private static final int MSG_PERIOD_PREPARED = 8;
-  private static final int MSG_PERIOD_PREPARED = 9;
+  private static final int MSG_SOURCE_CONTINUE_LOADING_REQUESTED = 9;
-  private static final int MSG_SOURCE_CONTINUE_LOADING_REQUESTED = 10;
+  private static final int MSG_TRACK_SELECTION_INVALIDATED = 10;
-  private static final int MSG_TRACK_SELECTION_INVALIDATED = 11;
+  private static final int MSG_SET_REPEAT_MODE = 11;
-  private static final int MSG_SET_REPEAT_MODE = 12;
+  private static final int MSG_SET_SHUFFLE_ENABLED = 12;
-  private static final int MSG_SET_SHUFFLE_ENABLED = 13;
+  private static final int MSG_SET_FOREGROUND_MODE = 13;
-  private static final int MSG_SET_FOREGROUND_MODE = 14;
+  private static final int MSG_SEND_MESSAGE = 14;
-  private static final int MSG_SEND_MESSAGE = 15;
+  private static final int MSG_SEND_MESSAGE_TO_TARGET_THREAD = 15;
-  private static final int MSG_SEND_MESSAGE_TO_TARGET_THREAD = 16;
+  private static final int MSG_PLAYBACK_PARAMETERS_CHANGED_INTERNAL = 16;
-  private static final int MSG_PLAYBACK_PARAMETERS_CHANGED_INTERNAL = 17;
+  private static final int MSG_SET_MEDIA_ITEMS = 17;
  private static final int MSG_ADD_MEDIA_ITEMS = 18;
  private static final int MSG_MOVE_MEDIA_ITEMS = 19;
  private static final int MSG_REMOVE_MEDIA_ITEMS = 20;
  private static final int MSG_SET_SHUFFLE_ORDER = 21;
  private static final int MSG_PLAYLIST_UPDATE_REQUESTED = 22;
  private static final int ACTIVE_INTERVAL_MS = 10;
  private static final int IDLE_INTERVAL_MS = 1000;
@ -103,12 +109,12 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private final ArrayList<PendingMessageInfo> pendingMessages;
  private final Clock clock;
  private final MediaPeriodQueue queue;
  private final Playlist playlist;
  @SuppressWarnings("unused")
  private SeekParameters seekParameters;
  private PlaybackInfo playbackInfo;
  private MediaSource mediaSource;
  private Renderer[] enabledRenderers;
  private boolean released;
  private boolean playWhenReady;
@ -117,8 +123,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private boolean shuffleModeEnabled;
  private boolean foregroundMode;
-  private int pendingPrepareCount;
+  @Nullable private SeekPosition pendingInitialSeekPosition;
  private SeekPosition pendingInitialSeekPosition;
  private long rendererPositionUs;
  private int nextPendingMessageIndex;
@ -131,6 +136,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
      boolean playWhenReady,
      @Player.RepeatMode int repeatMode,
      boolean shuffleModeEnabled,
      @Nullable AnalyticsCollector analyticsCollector,
      Handler eventHandler,
      Clock clock) {
    this.renderers = renderers;
@ -166,16 +172,18 @@ import java.util.concurrent.atomic.AtomicBoolean;
    // Note: The documentation for Process.THREAD_PRIORITY_AUDIO that states "Applications can
    // not normally change to this priority" is incorrect.
-    internalPlaybackThread = new HandlerThread("ExoPlayerImplInternal:Handler",
+    internalPlaybackThread =
-        Process.THREAD_PRIORITY_AUDIO);
+        new HandlerThread("ExoPlayerImplInternal:Handler", Process.THREAD_PRIORITY_AUDIO);
    internalPlaybackThread.start();
    handler = clock.createHandler(internalPlaybackThread.getLooper(), this);
    playlist = new Playlist(this);
    if (analyticsCollector != null) {
      playlist.setAnalyticsCollector(eventHandler, analyticsCollector);
    }
  }
-  public void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState) {
+  public void prepare() {
-    handler
+    handler.obtainMessage(MSG_PREPARE).sendToTarget();
        .obtainMessage(MSG_PREPARE, resetPosition ? 1 : 0, resetState ? 1 : 0, mediaSource)
        .sendToTarget();
  }
  public void setPlayWhenReady(boolean playWhenReady) {
@ -191,7 +199,8 @@ import java.util.concurrent.atomic.AtomicBoolean;
  }
  public void seekTo(Timeline timeline, int windowIndex, long positionUs) {
-    handler.obtainMessage(MSG_SEEK_TO, new SeekPosition(timeline, windowIndex, positionUs))
+    handler
        .obtainMessage(MSG_SEEK_TO, new SeekPosition(timeline, windowIndex, positionUs))
        .sendToTarget();
  }
@ -207,6 +216,62 @@ import java.util.concurrent.atomic.AtomicBoolean;
    handler.obtainMessage(MSG_STOP, reset ? 1 : 0, 0).sendToTarget();
  }
  public void setMediaItems(
      List<Playlist.MediaSourceHolder> mediaSources, ShuffleOrder shuffleOrder) {
    setMediaItems(
        mediaSources,
        /* windowIndex= */ C.INDEX_UNSET,
        /* positionUs= */ C.TIME_UNSET,
        shuffleOrder);
  }
  public void setMediaItems(
      List<Playlist.MediaSourceHolder> mediaSources,
      int windowIndex,
      long positionUs,
      ShuffleOrder shuffleOrder) {
    handler
        .obtainMessage(
            MSG_SET_MEDIA_ITEMS,
            new PlaylistUpdateMessage(mediaSources, shuffleOrder, windowIndex, positionUs))
        .sendToTarget();
  }
  public void addMediaItems(
      List<Playlist.MediaSourceHolder> mediaSources, ShuffleOrder shuffleOrder) {
    addMediaItems(C.INDEX_UNSET, mediaSources, shuffleOrder);
  }
  public void addMediaItems(
      int index, List<Playlist.MediaSourceHolder> mediaSources, ShuffleOrder shuffleOrder) {
    handler
        .obtainMessage(
            MSG_ADD_MEDIA_ITEMS,
            index,
            /* ignored */ 0,
            new PlaylistUpdateMessage(
                mediaSources,
                shuffleOrder,
                /* windowIndex= */ C.INDEX_UNSET,
                /* positionUs= */ C.TIME_UNSET))
        .sendToTarget();
  }
  public void removeMediaItems(int fromIndex, int toIndex, ShuffleOrder shuffleOrder) {
    handler.obtainMessage(MSG_REMOVE_MEDIA_ITEMS, fromIndex, toIndex, shuffleOrder).sendToTarget();
  }
  public void moveMediaItems(
      int fromIndex, int toIndex, int newFromIndex, ShuffleOrder shuffleOrder) {
    MoveMediaItemsMessage moveMediaItemsMessage =
        new MoveMediaItemsMessage(fromIndex, toIndex, newFromIndex, shuffleOrder);
    handler.obtainMessage(MSG_MOVE_MEDIA_ITEMS, moveMediaItemsMessage).sendToTarget();
  }
  public void setShuffleOrder(ShuffleOrder shuffleOrder) {
    handler.obtainMessage(MSG_SET_SHUFFLE_ORDER, shuffleOrder).sendToTarget();
  }
  @Override
  public synchronized void sendMessage(PlayerMessage message) {
    if (released) {
@ -263,13 +328,11 @@ import java.util.concurrent.atomic.AtomicBoolean;
    return internalPlaybackThread.getLooper();
  }
-  // MediaSource.MediaSourceCaller implementation.
+  // Playlist.PlaylistInfoRefreshListener implementation.
  @Override
-  public void onSourceInfoRefreshed(MediaSource source, Timeline timeline) {
+  public void onPlaylistUpdateRequested() {
-    handler
+    handler.sendEmptyMessage(MSG_PLAYLIST_UPDATE_REQUESTED);
        .obtainMessage(MSG_REFRESH_SOURCE_INFO, new MediaSourceRefreshInfo(source, timeline))
        .sendToTarget();
  }
  // MediaPeriod.Callback implementation.
@ -301,14 +364,12 @@ import java.util.concurrent.atomic.AtomicBoolean;
  // Handler.Callback implementation.
  @Override
  @SuppressWarnings("unchecked")
  public boolean handleMessage(Message msg) {
    try {
      switch (msg.what) {
        case MSG_PREPARE:
-          prepareInternal(
+          prepareInternal();
              (MediaSource) msg.obj,
              /* resetPosition= */ msg.arg1 != 0,
              /* resetState= */ msg.arg2 != 0);
          break;
        case MSG_SET_PLAY_WHEN_READY:
          setPlayWhenReadyInternal(msg.arg1 != 0);
@ -344,9 +405,6 @@ import java.util.concurrent.atomic.AtomicBoolean;
        case MSG_PERIOD_PREPARED:
          handlePeriodPrepared((MediaPeriod) msg.obj);
          break;
        case MSG_REFRESH_SOURCE_INFO:
          handleSourceInfoRefreshed((MediaSourceRefreshInfo) msg.obj);
          break;
        case MSG_SOURCE_CONTINUE_LOADING_REQUESTED:
          handleContinueLoadingRequested((MediaPeriod) msg.obj);
          break;
@ -363,6 +421,24 @@ import java.util.concurrent.atomic.AtomicBoolean;
        case MSG_SEND_MESSAGE_TO_TARGET_THREAD:
          sendMessageToTargetThread((PlayerMessage) msg.obj);
          break;
        case MSG_SET_MEDIA_ITEMS:
          setMediaItemsInternal((PlaylistUpdateMessage) msg.obj);
          break;
        case MSG_ADD_MEDIA_ITEMS:
          addMediaItemsInternal((PlaylistUpdateMessage) msg.obj, msg.arg1);
          break;
        case MSG_MOVE_MEDIA_ITEMS:
          moveMediaItemsInternal((MoveMediaItemsMessage) msg.obj);
          break;
        case MSG_REMOVE_MEDIA_ITEMS:
          removeMediaItemsInternal(msg.arg1, msg.arg2, (ShuffleOrder) msg.obj);
          break;
        case MSG_SET_SHUFFLE_ORDER:
          setShuffleOrderInternal((ShuffleOrder) msg.obj);
          break;
        case MSG_PLAYLIST_UPDATE_REQUESTED:
          playlistUpdateRequestedInternal();
          break;
        case MSG_RELEASE:
          releaseInternal();
          // Return immediately to not send playback info updates after release.
@ -432,21 +508,77 @@ import java.util.concurrent.atomic.AtomicBoolean;
    }
  }
-  private void prepareInternal(MediaSource mediaSource, boolean resetPosition, boolean resetState) {
+  private void prepareInternal() {
-    pendingPrepareCount++;
+    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    resetInternal(
        /* resetRenderers= */ false,
-        /* releaseMediaSource= */ true,
+        /* resetPosition= */ false,
-        resetPosition,
+        /* releasePlaylist= */ false,
-        resetState,
+        /* clearPlaylist= */ false,
        /* resetError= */ true);
    loadControl.onPrepared();
-    this.mediaSource = mediaSource;
+    setState(playbackInfo.timeline.isEmpty() ? Player.STATE_ENDED : Player.STATE_BUFFERING);
-    setState(Player.STATE_BUFFERING);
+    playlist.prepare(bandwidthMeter.getTransferListener());
    mediaSource.prepareSource(/* caller= */ this, bandwidthMeter.getTransferListener());
    handler.sendEmptyMessage(MSG_DO_SOME_WORK);
  }
  private void setMediaItemsInternal(PlaylistUpdateMessage playlistUpdateMessage)
      throws ExoPlaybackException {
    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    if (playlistUpdateMessage.windowIndex != C.INDEX_UNSET) {
      pendingInitialSeekPosition =
          new SeekPosition(
              new Playlist.PlaylistTimeline(
                  playlistUpdateMessage.mediaSourceHolders, playlistUpdateMessage.shuffleOrder),
              playlistUpdateMessage.windowIndex,
              playlistUpdateMessage.positionUs);
    }
    Timeline timeline =
        playlist.setMediaSources(
            playlistUpdateMessage.mediaSourceHolders, playlistUpdateMessage.shuffleOrder);
    handlePlaylistInfoRefreshed(timeline);
  }
  private void addMediaItemsInternal(PlaylistUpdateMessage addMessage, int insertionIndex)
      throws ExoPlaybackException {
    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    Timeline timeline =
        playlist.addMediaSources(
            insertionIndex == C.INDEX_UNSET ? playlist.getSize() : insertionIndex,
            addMessage.mediaSourceHolders,
            addMessage.shuffleOrder);
    handlePlaylistInfoRefreshed(timeline);
  }
  private void moveMediaItemsInternal(MoveMediaItemsMessage moveMediaItemsMessage)
      throws ExoPlaybackException {
    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    Timeline timeline =
        playlist.moveMediaSourceRange(
            moveMediaItemsMessage.fromIndex,
            moveMediaItemsMessage.toIndex,
            moveMediaItemsMessage.newFromIndex,
            moveMediaItemsMessage.shuffleOrder);
    handlePlaylistInfoRefreshed(timeline);
  }
  private void removeMediaItemsInternal(int fromIndex, int toIndex, ShuffleOrder shuffleOrder)
      throws ExoPlaybackException {
    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    Timeline timeline = playlist.removeMediaSourceRange(fromIndex, toIndex, shuffleOrder);
    handlePlaylistInfoRefreshed(timeline);
  }
  private void playlistUpdateRequestedInternal() throws ExoPlaybackException {
    handlePlaylistInfoRefreshed(playlist.createTimeline());
  }
  private void setShuffleOrderInternal(ShuffleOrder shuffleOrder) throws ExoPlaybackException {
    playbackInfoUpdate.incrementPendingOperationAcks(/* operationAcks= */ 1);
    Timeline timeline = playlist.setShuffleOrder(shuffleOrder);
    handlePlaylistInfoRefreshed(timeline);
  }
  private void setPlayWhenReadyInternal(boolean playWhenReady) throws ExoPlaybackException {
    rebuffering = false;
    this.playWhenReady = playWhenReady;
@ -657,6 +789,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    long periodPositionUs;
    long contentPositionUs;
    boolean seekPositionAdjusted;
    @Nullable
    Pair<Object, Long> resolvedSeekPosition =
        resolveSeekPosition(seekPosition, /* trySubsequentPeriods= */ true);
    if (resolvedSeekPosition == null) {
@ -681,7 +814,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    }
    try {
-      if (mediaSource == null || pendingPrepareCount > 0) {
+      if (playbackInfo.timeline.isEmpty() || !playlist.isPrepared()) {
        // Save seek position for later, as we are still waiting for a prepared source.
        pendingInitialSeekPosition = seekPosition;
      } else if (periodPositionUs == C.TIME_UNSET) {
@ -689,9 +822,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
        setState(Player.STATE_ENDED);
        resetInternal(
            /* resetRenderers= */ false,
            /* releaseMediaSource= */ false,
            /* resetPosition= */ true,
-            /* resetState= */ false,
+            /* releasePlaylist= */ false,
            /* clearPlaylist= */ false,
            /* resetError= */ true);
      } else {
        // Execute the seek in the current media periods.
@ -836,13 +969,11 @@ import java.util.concurrent.atomic.AtomicBoolean;
      boolean forceResetRenderers, boolean resetPositionAndState, boolean acknowledgeStop) {
    resetInternal(
        /* resetRenderers= */ forceResetRenderers || !foregroundMode,
        /* releaseMediaSource= */ true,
        /* resetPosition= */ resetPositionAndState,
-        /* resetState= */ resetPositionAndState,
+        /* releasePlaylist= */ true,
        /* clearPlaylist= */ resetPositionAndState,
        /* resetError= */ resetPositionAndState);
-    playbackInfoUpdate.incrementPendingOperationAcks(
+    playbackInfoUpdate.incrementPendingOperationAcks(acknowledgeStop ? 1 : 0);
        pendingPrepareCount + (acknowledgeStop ? 1 : 0));
    pendingPrepareCount = 0;
    loadControl.onStopped();
    setState(Player.STATE_IDLE);
  }
@ -850,9 +981,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private void releaseInternal() {
    resetInternal(
        /* resetRenderers= */ true,
        /* releaseMediaSource= */ true,
        /* resetPosition= */ true,
-        /* resetState= */ true,
+        /* releasePlaylist= */ true,
        /* clearPlaylist= */ true,
        /* resetError= */ false);
    loadControl.onReleased();
    setState(Player.STATE_IDLE);
@ -865,9 +996,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private void resetInternal(
      boolean resetRenderers,
      boolean releaseMediaSource,
      boolean resetPosition,
-      boolean resetState,
+      boolean releasePlaylist,
      boolean clearPlaylist,
      boolean resetError) {
    handler.removeMessages(MSG_DO_SOME_WORK);
    rebuffering = false;
@ -895,8 +1026,8 @@ import java.util.concurrent.atomic.AtomicBoolean;
    if (resetPosition) {
      pendingInitialSeekPosition = null;
-    } else if (resetState) {
+    } else if (clearPlaylist) {
-      // When resetting the state, also reset the period-based PlaybackInfo position and convert
+      // When clearing the playlist, also reset the period-based PlaybackInfo position and convert
      // existing position to initial seek instead.
      resetPosition = true;
      if (pendingInitialSeekPosition == null && !playbackInfo.timeline.isEmpty()) {
@ -907,10 +1038,10 @@ import java.util.concurrent.atomic.AtomicBoolean;
      }
    }
-    queue.clear(/* keepFrontPeriodUid= */ !resetState);
+    queue.clear(/* keepFrontPeriodUid= */ !clearPlaylist);
    setIsLoading(false);
-    if (resetState) {
+    if (clearPlaylist) {
-      queue.setTimeline(Timeline.EMPTY);
+      queue.setTimeline(playlist.clear(/* shuffleOrder= */ null));
      for (PendingMessageInfo pendingMessageInfo : pendingMessages) {
        pendingMessageInfo.message.markAsProcessed(/* isDelivered= */ false);
      }
@ -926,24 +1057,21 @@ import java.util.concurrent.atomic.AtomicBoolean;
    long contentPositionUs = resetPosition ? C.TIME_UNSET : playbackInfo.contentPositionUs;
    playbackInfo =
        new PlaybackInfo(
-            resetState ? Timeline.EMPTY : playbackInfo.timeline,
+            clearPlaylist ? Timeline.EMPTY : playbackInfo.timeline,
            mediaPeriodId,
            startPositionUs,
            contentPositionUs,
            playbackInfo.playbackState,
            resetError ? null : playbackInfo.playbackError,
            /* isLoading= */ false,
-            resetState ? TrackGroupArray.EMPTY : playbackInfo.trackGroups,
+            clearPlaylist ? TrackGroupArray.EMPTY : playbackInfo.trackGroups,
-            resetState ? emptyTrackSelectorResult : playbackInfo.trackSelectorResult,
+            clearPlaylist ? emptyTrackSelectorResult : playbackInfo.trackSelectorResult,
            mediaPeriodId,
            startPositionUs,
            /* totalBufferedDurationUs= */ 0,
            startPositionUs);
-    if (releaseMediaSource) {
+    if (releasePlaylist) {
-      if (mediaSource != null) {
+      playlist.release();
        mediaSource.releaseSource(/* caller= */ this);
        mediaSource = null;
      }
    }
  }
@ -951,7 +1079,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    if (message.getPositionMs() == C.TIME_UNSET) {
      // If no delivery time is specified, trigger immediate message delivery.
      sendMessageToTarget(message);
-    } else if (mediaSource == null || pendingPrepareCount > 0) {
+    } else if (playbackInfo.timeline.isEmpty()) {
      // Still waiting for initial timeline to resolve position.
      pendingMessages.add(new PendingMessageInfo(message));
    } else {
@ -1266,20 +1394,11 @@ import java.util.concurrent.atomic.AtomicBoolean;
        }
      }
    }
-    mediaSource.maybeThrowSourceInfoRefreshError();
+    playlist.maybeThrowSourceInfoRefreshError();
  }
-  private void handleSourceInfoRefreshed(MediaSourceRefreshInfo sourceRefreshInfo)
+  private void handlePlaylistInfoRefreshed(Timeline timeline) throws ExoPlaybackException {
      throws ExoPlaybackException {
    if (sourceRefreshInfo.source != mediaSource) {
      // Stale event.
      return;
    }
    playbackInfoUpdate.incrementPendingOperationAcks(pendingPrepareCount);
    pendingPrepareCount = 0;
    Timeline oldTimeline = playbackInfo.timeline;
    Timeline timeline = sourceRefreshInfo.timeline;
    queue.setTimeline(timeline);
    playbackInfo = playbackInfo.copyWithTimeline(timeline);
    resolvePendingMessagePositions();
@ -1290,6 +1409,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    long newContentPositionUs = oldContentPositionUs;
    if (pendingInitialSeekPosition != null) {
      // Resolve initial seek position.
      @Nullable
      Pair<Object, Long> periodPosition =
          resolveSeekPosition(pendingInitialSeekPosition, /* trySubsequentPeriods= */ true);
      pendingInitialSeekPosition = null;
@ -1392,12 +1512,12 @@ import java.util.concurrent.atomic.AtomicBoolean;
  private void handleSourceInfoRefreshEndedPlayback() {
    setState(Player.STATE_ENDED);
-    // Reset, but retain the source so that it can still be used should a seek occur.
+    // Reset, but retain the playlist so that it can still be used should a seek occur.
    resetInternal(
        /* resetRenderers= */ false,
        /* releaseMediaSource= */ false,
        /* resetPosition= */ true,
-        /* resetState= */ false,
+        /* releasePlaylist= */ false,
        /* clearPlaylist= */ false,
        /* resetError= */ true);
  }
@ -1417,8 +1537,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
    int newPeriodIndex = C.INDEX_UNSET;
    int maxIterations = oldTimeline.getPeriodCount();
    for (int i = 0; i < maxIterations && newPeriodIndex == C.INDEX_UNSET; i++) {
-      oldPeriodIndex = oldTimeline.getNextPeriodIndex(oldPeriodIndex, period, window, repeatMode,
+      oldPeriodIndex =
-          shuffleModeEnabled);
+          oldTimeline.getNextPeriodIndex(
              oldPeriodIndex, period, window, repeatMode, shuffleModeEnabled);
      if (oldPeriodIndex == C.INDEX_UNSET) {
        // We've reached the end of the old timeline.
        break;
@ -1439,6 +1560,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
   * @throws IllegalSeekPositionException If the window index of the seek position is outside the
   *     bounds of the timeline.
   */
  @Nullable
  private Pair<Object, Long> resolveSeekPosition(
      SeekPosition seekPosition, boolean trySubsequentPeriods) {
    Timeline timeline = playbackInfo.timeline;
@ -1455,8 +1577,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
    // Map the SeekPosition to a position in the corresponding timeline.
    Pair<Object, Long> periodPosition;
    try {
-      periodPosition = seekTimeline.getPeriodPosition(window, period, seekPosition.windowIndex,
+      periodPosition =
-          seekPosition.windowPositionUs);
+          seekTimeline.getPeriodPosition(
              window, period, seekPosition.windowIndex, seekPosition.windowPositionUs);
    } catch (IndexOutOfBoundsException e) {
      // The window index of the seek position was outside the bounds of the timeline.
      return null;
@ -1494,13 +1617,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
  }
  private void updatePeriods() throws ExoPlaybackException, IOException {
-    if (mediaSource == null) {
+    if (playbackInfo.timeline.isEmpty() || !playlist.isPrepared()) {
      // The player has no media source yet.
      return;
    }
    if (pendingPrepareCount > 0) {
      // We're waiting to get information about periods.
-      mediaSource.maybeThrowSourceInfoRefreshError();
+      playlist.maybeThrowSourceInfoRefreshError();
      return;
    }
    maybeUpdateLoadingPeriod();
@ -1520,7 +1639,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
                rendererCapabilities,
                trackSelector,
                loadControl.getAllocator(),
-                mediaSource,
+                playlist,
                info,
                emptyTrackSelectorResult);
        mediaPeriodHolder.mediaPeriod.prepare(this, info.startPositionUs);
@ -1531,7 +1650,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
        handleLoadingMediaPeriodChanged(/* loadingTrackSelectionChanged= */ false);
      }
    }
-    MediaPeriodHolder loadingPeriodHolder = queue.getLoadingPeriod();
+    @Nullable MediaPeriodHolder loadingPeriodHolder = queue.getLoadingPeriod();
    if (loadingPeriodHolder == null || loadingPeriodHolder.isFullyBuffered()) {
      setIsLoading(false);
    } else if (!playbackInfo.isLoading) {
@ -1540,7 +1659,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
  }
  private void maybeUpdateReadingPeriod() throws ExoPlaybackException {
-    MediaPeriodHolder readingPeriodHolder = queue.getReadingPeriod();
+    @Nullable MediaPeriodHolder readingPeriodHolder = queue.getReadingPeriod();
    if (readingPeriodHolder == null) {
      return;
    }
@ -1601,7 +1720,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
          // and it will change the provided rendererOffsetUs while the renderer is still
          // rendering from the playing media period.
          Format[] formats = getFormats(newSelection);
-          renderer.replaceStream(formats, readingPeriodHolder.sampleStreams[i],
+          renderer.replaceStream(
              formats,
              readingPeriodHolder.sampleStreams[i],
              readingPeriodHolder.getRendererOffset());
        } else {
          // The renderer will be disabled when transitioning to playing the next period, because
@ -1819,9 +1940,13 @@ import java.util.concurrent.atomic.AtomicBoolean;
      // Consider as joining only if the renderer was previously disabled.
      boolean joining = !wasRendererEnabled && playing;
      // Enable the renderer.
-      renderer.enable(rendererConfiguration, formats,
+      renderer.enable(
-          playingPeriodHolder.sampleStreams[rendererIndex], rendererPositionUs,
+          rendererConfiguration,
-          joining, playingPeriodHolder.getRendererOffset());
+          formats,
          playingPeriodHolder.sampleStreams[rendererIndex],
          rendererPositionUs,
          joining,
          playingPeriodHolder.getRendererOffset());
      mediaClock.onRendererEnabled(renderer);
      // Start the renderer if playing.
      if (playing) {
@ -1943,14 +2068,38 @@ import java.util.concurrent.atomic.AtomicBoolean;
    }
  }
-  private static final class MediaSourceRefreshInfo {
+  private static final class PlaylistUpdateMessage {
-    public final MediaSource source;
+    private final List<Playlist.MediaSourceHolder> mediaSourceHolders;
-    public final Timeline timeline;
+    private final ShuffleOrder shuffleOrder;
    private final int windowIndex;
    private final long positionUs;
-    public MediaSourceRefreshInfo(MediaSource source, Timeline timeline) {
+    private PlaylistUpdateMessage(
-      this.source = source;
+        List<Playlist.MediaSourceHolder> mediaSourceHolders,
-      this.timeline = timeline;
+        ShuffleOrder shuffleOrder,
        int windowIndex,
        long positionUs) {
      this.mediaSourceHolders = mediaSourceHolders;
      this.shuffleOrder = shuffleOrder;
      this.windowIndex = windowIndex;
      this.positionUs = positionUs;
    }
  }
  private static class MoveMediaItemsMessage {
    public final int fromIndex;
    public final int toIndex;
    public final int newFromIndex;
    public final ShuffleOrder shuffleOrder;
    public MoveMediaItemsMessage(
        int fromIndex, int toIndex, int newFromIndex, ShuffleOrder shuffleOrder) {
      this.fromIndex = fromIndex;
      this.toIndex = toIndex;
      this.newFromIndex = newFromIndex;
      this.shuffleOrder = shuffleOrder;
    }
  }
@ -1959,7 +2108,7 @@ import java.util.concurrent.atomic.AtomicBoolean;
    private PlaybackInfo lastPlaybackInfo;
    private int operationAcks;
    private boolean positionDiscontinuity;
-    private @DiscontinuityReason int discontinuityReason;
+    @DiscontinuityReason private int discontinuityReason;
    public boolean hasPendingUpdate(PlaybackInfo playbackInfo) {
      return playbackInfo != lastPlaybackInfo || operationAcks > 0 || positionDiscontinuity;
@ -1987,5 +2136,4 @@ import java.util.concurrent.atomic.AtomicBoolean;
      this.discontinuityReason = discontinuityReason;
    }
  }
 }
--- a/library/core/src/main/java/com/google/android/exoplayer2/MediaPeriodHolder.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/MediaPeriodHolder.java
@ -19,7 +19,6 @@ import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.source.ClippingMediaPeriod;
 import com.google.android.exoplayer2.source.EmptySampleStream;
 import com.google.android.exoplayer2.source.MediaPeriod;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSource.MediaPeriodId;
 import com.google.android.exoplayer2.source.SampleStream;
 import com.google.android.exoplayer2.source.TrackGroupArray;
@ -56,7 +55,7 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
  private final boolean[] mayRetainStreamFlags;
  private final RendererCapabilities[] rendererCapabilities;
  private final TrackSelector trackSelector;
-  private final MediaSource mediaSource;
+  private final Playlist playlist;
  @Nullable private MediaPeriodHolder next;
  private TrackGroupArray trackGroups;
@ -70,7 +69,7 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
   * @param rendererPositionOffsetUs The renderer time of the start of the period, in microseconds.
   * @param trackSelector The track selector.
   * @param allocator The allocator.
-   * @param mediaSource The media source that produced the media period.
+   * @param playlist The playlist.
   * @param info Information used to identify this media period in its timeline period.
   * @param emptyTrackSelectorResult A {@link TrackSelectorResult} with empty selections for each
   *     renderer.
@ -80,13 +79,13 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
      long rendererPositionOffsetUs,
      TrackSelector trackSelector,
      Allocator allocator,
-      MediaSource mediaSource,
+      Playlist playlist,
      MediaPeriodInfo info,
      TrackSelectorResult emptyTrackSelectorResult) {
    this.rendererCapabilities = rendererCapabilities;
    this.rendererPositionOffsetUs = rendererPositionOffsetUs;
    this.trackSelector = trackSelector;
-    this.mediaSource = mediaSource;
+    this.playlist = playlist;
    this.uid = info.id.periodUid;
    this.info = info;
    this.trackGroups = TrackGroupArray.EMPTY;
@ -94,8 +93,7 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
    sampleStreams = new SampleStream[rendererCapabilities.length];
    mayRetainStreamFlags = new boolean[rendererCapabilities.length];
    mediaPeriod =
-        createMediaPeriod(
+        createMediaPeriod(info.id, playlist, allocator, info.startPositionUs, info.endPositionUs);
            info.id, mediaSource, allocator, info.startPositionUs, info.endPositionUs);
  }
  /**
@ -305,7 +303,7 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
  /** Releases the media period. No other method should be called after the release. */
  public void release() {
    disableTrackSelectionsInResult();
-    releaseMediaPeriod(info.endPositionUs, mediaSource, mediaPeriod);
+    releaseMediaPeriod(info.endPositionUs, playlist, mediaPeriod);
  }
  /**
@ -402,11 +400,11 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
  /** Returns a media period corresponding to the given {@code id}. */
  private static MediaPeriod createMediaPeriod(
      MediaPeriodId id,
-      MediaSource mediaSource,
+      Playlist playlist,
      Allocator allocator,
      long startPositionUs,
      long endPositionUs) {
-    MediaPeriod mediaPeriod = mediaSource.createPeriod(id, allocator, startPositionUs);
+    MediaPeriod mediaPeriod = playlist.createPeriod(id, allocator, startPositionUs);
    if (endPositionUs != C.TIME_UNSET && endPositionUs != C.TIME_END_OF_SOURCE) {
      mediaPeriod =
          new ClippingMediaPeriod(
@ -417,12 +415,12 @@ import org.checkerframework.checker.nullness.compatqual.NullableType;
  /** Releases the given {@code mediaPeriod}, logging and suppressing any errors. */
  private static void releaseMediaPeriod(
-      long endPositionUs, MediaSource mediaSource, MediaPeriod mediaPeriod) {
+      long endPositionUs, Playlist playlist, MediaPeriod mediaPeriod) {
    try {
      if (endPositionUs != C.TIME_UNSET && endPositionUs != C.TIME_END_OF_SOURCE) {
-        mediaSource.releasePeriod(((ClippingMediaPeriod) mediaPeriod).mediaPeriod);
+        playlist.releasePeriod(((ClippingMediaPeriod) mediaPeriod).mediaPeriod);
      } else {
-        mediaSource.releasePeriod(mediaPeriod);
+        playlist.releasePeriod(mediaPeriod);
      }
    } catch (RuntimeException e) {
      // There's nothing we can do.
--- a/library/core/src/main/java/com/google/android/exoplayer2/MediaPeriodQueue.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/MediaPeriodQueue.java
@ -19,7 +19,6 @@ import android.util.Pair;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.Player.RepeatMode;
 import com.google.android.exoplayer2.source.MediaPeriod;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSource.MediaPeriodId;
 import com.google.android.exoplayer2.trackselection.TrackSelector;
 import com.google.android.exoplayer2.trackselection.TrackSelectorResult;
@ -134,7 +133,7 @@ import com.google.android.exoplayer2.util.Assertions;
   * @param rendererCapabilities The renderer capabilities.
   * @param trackSelector The track selector.
   * @param allocator The allocator.
-   * @param mediaSource The media source that produced the media period.
+   * @param playlist The playlist.
   * @param info Information used to identify this media period in its timeline period.
   * @param emptyTrackSelectorResult A {@link TrackSelectorResult} with empty selections for each
   *     renderer.
@ -143,7 +142,7 @@ import com.google.android.exoplayer2.util.Assertions;
      RendererCapabilities[] rendererCapabilities,
      TrackSelector trackSelector,
      Allocator allocator,
-      MediaSource mediaSource,
+      Playlist playlist,
      MediaPeriodInfo info,
      TrackSelectorResult emptyTrackSelectorResult) {
    long rendererPositionOffsetUs =
@ -158,7 +157,7 @@ import com.google.android.exoplayer2.util.Assertions;
            rendererPositionOffsetUs,
            trackSelector,
            allocator,
-            mediaSource,
+            playlist,
            info,
            emptyTrackSelectorResult);
    if (loading != null) {
--- a/library/core/src/main/java/com/google/android/exoplayer2/Player.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/Player.java
@ -356,7 +356,8 @@ public interface Player {
     * {@link #onPositionDiscontinuity(int)}.
     *
     * @param timeline The latest timeline. Never null, but may be empty.
-     * @param manifest The latest manifest. May be null.
+     * @param manifest The latest manifest in case the timeline has a single window only. Always
     *     null if the timeline has more than a single window.
     * @param reason The {@link TimelineChangeReason} responsible for this timeline change.
     * @deprecated Use {@link #onTimelineChanged(Timeline, int)} instead. The manifest can be
     *     accessed by using {@link #getCurrentManifest()} or {@code timeline.getWindow(windowIndex,
@ -584,29 +585,17 @@ public interface Player {
  int DISCONTINUITY_REASON_INTERNAL = 4;
  /**
-   * Reasons for timeline changes. One of {@link #TIMELINE_CHANGE_REASON_PREPARED}, {@link
+   * Reasons for timeline changes. One of {@link #TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED} or {@link
-   * #TIMELINE_CHANGE_REASON_RESET} or {@link #TIMELINE_CHANGE_REASON_DYNAMIC}.
+   * #TIMELINE_CHANGE_REASON_SOURCE_UPDATE}.
   */
  @Documented
  @Retention(RetentionPolicy.SOURCE)
-  @IntDef({
+  @IntDef({TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED, TIMELINE_CHANGE_REASON_SOURCE_UPDATE})
    TIMELINE_CHANGE_REASON_PREPARED,
    TIMELINE_CHANGE_REASON_RESET,
    TIMELINE_CHANGE_REASON_DYNAMIC
  })
  @interface TimelineChangeReason {}
-  /**
+  /** Timeline changed as a result of a change of the playlist items or the order of the items. */
-   * Timeline and manifest changed as a result of a player initialization with new media.
+  int TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED = 0;
-   */
+  /** Timeline changed as a result of a dynamic update introduced by the played media. */
-  int TIMELINE_CHANGE_REASON_PREPARED = 0;
+  int TIMELINE_CHANGE_REASON_SOURCE_UPDATE = 1;
  /**
   * Timeline and manifest changed as a result of a player reset.
   */
  int TIMELINE_CHANGE_REASON_RESET = 1;
  /**
   * Timeline or manifest changed as a result of an dynamic update introduced by the played media.
   */
  int TIMELINE_CHANGE_REASON_DYNAMIC = 2;
  /** Returns the component of this player for audio output, or null if audio is not supported. */
  @Nullable
--- a/library/core/src/main/java/com/google/android/exoplayer2/Playlist.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/Playlist.java
@ -0,0 +1,698 @@
 /*
 * 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.google.android.exoplayer2;
 import android.os.Handler;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.analytics.AnalyticsCollector;
 import com.google.android.exoplayer2.source.MaskingMediaPeriod;
 import com.google.android.exoplayer2.source.MaskingMediaSource;
 import com.google.android.exoplayer2.source.MediaPeriod;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSourceEventListener;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.ShuffleOrder.DefaultShuffleOrder;
 import com.google.android.exoplayer2.upstream.Allocator;
 import com.google.android.exoplayer2.upstream.TransferListener;
 import com.google.android.exoplayer2.util.Assertions;
 import com.google.android.exoplayer2.util.Util;
 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.Collection;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.IdentityHashMap;
 import java.util.Iterator;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;
 /**
 * Concatenates multiple {@link MediaSource}s. The list of {@link MediaSource}s can be modified
 * during playback. It is valid for the same {@link MediaSource} instance to be present more than
 * once in the playlist.
 *
 * <p>With the exception of the constructor, all methods are called on the playback thread.
 */
 /* package */ class Playlist {
  /** Listener for source events. */
  public interface PlaylistInfoRefreshListener {
    /**
     * Called when the timeline of a media item has changed and a new timeline that reflects the
     * current playlist state needs to be created by calling {@link #createTimeline()}.
     *
     * <p>Called on the playback thread.
     */
    void onPlaylistUpdateRequested();
  }
  private final List<MediaSourceHolder> mediaSourceHolders;
  private final Map<MediaPeriod, MediaSourceHolder> mediaSourceByMediaPeriod;
  private final Map<Object, MediaSourceHolder> mediaSourceByUid;
  private final PlaylistInfoRefreshListener playlistInfoListener;
  private final MediaSourceEventListener.EventDispatcher eventDispatcher;
  private final HashMap<Playlist.MediaSourceHolder, MediaSourceAndListener> childSources;
  private final Set<MediaSourceHolder> enabledMediaSourceHolders;
  private ShuffleOrder shuffleOrder;
  private boolean isPrepared;
  @Nullable private TransferListener mediaTransferListener;
  @SuppressWarnings("initialization")
  public Playlist(PlaylistInfoRefreshListener listener) {
    playlistInfoListener = listener;
    shuffleOrder = new DefaultShuffleOrder(0);
    mediaSourceByMediaPeriod = new IdentityHashMap<>();
    mediaSourceByUid = new HashMap<>();
    mediaSourceHolders = new ArrayList<>();
    eventDispatcher = new MediaSourceEventListener.EventDispatcher();
    childSources = new HashMap<>();
    enabledMediaSourceHolders = new HashSet<>();
  }
  /**
   * Sets the media sources replacing any sources previously contained in the playlist.
   *
   * @param holders The list of {@link MediaSourceHolder}s to set.
   * @param shuffleOrder The new shuffle order.
   * @return The new {@link Timeline}.
   */
  public final Timeline setMediaSources(
      List<MediaSourceHolder> holders, ShuffleOrder shuffleOrder) {
    removeMediaSourcesInternal(/* fromIndex= */ 0, /* toIndex= */ mediaSourceHolders.size());
    return addMediaSources(/* index= */ this.mediaSourceHolders.size(), holders, shuffleOrder);
  }
  /**
   * Adds multiple {@link MediaSourceHolder}s to the playlist.
   *
   * @param index The index at which the new {@link MediaSourceHolder}s will be inserted. This index
   *     must be in the range of 0 &lt;= index &lt;= {@link #getSize()}.
   * @param holders A list of {@link MediaSourceHolder}s to be added.
   * @param shuffleOrder The new shuffle order.
   * @return The new {@link Timeline}.
   */
  public final Timeline addMediaSources(
      int index, List<MediaSourceHolder> holders, ShuffleOrder shuffleOrder) {
    if (!holders.isEmpty()) {
      this.shuffleOrder = shuffleOrder;
      for (int insertionIndex = index; insertionIndex < index + holders.size(); insertionIndex++) {
        MediaSourceHolder holder = holders.get(insertionIndex - index);
        if (insertionIndex > 0) {
          MediaSourceHolder previousHolder = mediaSourceHolders.get(insertionIndex - 1);
          Timeline previousTimeline = previousHolder.mediaSource.getTimeline();
          holder.reset(
              /* firstWindowInChildIndex= */ previousHolder.firstWindowIndexInChild
                  + previousTimeline.getWindowCount());
        } else {
          holder.reset(/* firstWindowIndexInChild= */ 0);
        }
        Timeline newTimeline = holder.mediaSource.getTimeline();
        correctOffsets(
            /* startIndex= */ insertionIndex,
            /* windowOffsetUpdate= */ newTimeline.getWindowCount());
        mediaSourceHolders.add(insertionIndex, holder);
        mediaSourceByUid.put(holder.uid, holder);
        if (isPrepared) {
          prepareChildSource(holder);
        }
      }
    }
    return createTimeline();
  }
  /**
   * Removes a range of {@link MediaSourceHolder}s from the playlist, by specifying an initial index
   * (included) and a final index (excluded).
   *
   * <p>Note: when specified range is empty, no actual media source is removed and no exception is
   * thrown.
   *
   * @param fromIndex The initial range index, pointing to the first media source that will be
   *     removed. This index must be in the range of 0 &lt;= index &lt;= {@link #getSize()}.
   * @param toIndex The final range index, pointing to the first media source that will be left
   *     untouched. This index must be in the range of 0 &lt;= index &lt;= {@link #getSize()}.
   * @param shuffleOrder The new shuffle order.
   * @return The new {@link Timeline}.
   * @throws IllegalArgumentException When the range is malformed, i.e. {@code fromIndex} &lt; 0,
   *     {@code toIndex} &gt; {@link #getSize()}, {@code fromIndex} &gt; {@code toIndex}
   */
  public final Timeline removeMediaSourceRange(
      int fromIndex, int toIndex, ShuffleOrder shuffleOrder) {
    Assertions.checkArgument(fromIndex >= 0 && fromIndex <= toIndex && toIndex <= getSize());
    this.shuffleOrder = shuffleOrder;
    removeMediaSourcesInternal(fromIndex, toIndex);
    return createTimeline();
  }
  /**
   * Moves an existing media source within the playlist.
   *
   * @param currentIndex The current index of the media source in the playlist. This index must be
   *     in the range of 0 &lt;= index &lt; {@link #getSize()}.
   * @param newIndex The target index of the media source in the playlist. This index must be in the
   *     range of 0 &lt;= index &lt; {@link #getSize()}.
   * @param shuffleOrder The new shuffle order.
   * @return The new {@link Timeline}.
   * @throws IllegalArgumentException When an index is invalid, i.e. {@code currentIndex} &lt; 0,
   *     {@code currentIndex} &gt;= {@link #getSize()}, {@code newIndex} &lt; 0
   */
  public final Timeline moveMediaSource(int currentIndex, int newIndex, ShuffleOrder shuffleOrder) {
    return moveMediaSourceRange(currentIndex, currentIndex + 1, newIndex, shuffleOrder);
  }
  /**
   * Moves a range of media sources within the playlist.
   *
   * <p>Note: when specified range is empty or the from index equals the new from index, no actual
   * media source is moved and no exception is thrown.
   *
   * @param fromIndex The initial range index, pointing to the first media source of the range that
   *     will be moved. This index must be in the range of 0 &lt;= index &lt;= {@link #getSize()}.
   * @param toIndex The final range index, pointing to the first media source that will be left
   *     untouched. This index must be larger or equals than {@code fromIndex}.
   * @param newFromIndex The target index of the first media source of the range that will be moved.
   * @param shuffleOrder The new shuffle order.
   * @return The new {@link Timeline}.
   * @throws IllegalArgumentException When the range is malformed, i.e. {@code fromIndex} &lt; 0,
   *     {@code toIndex} &lt; {@code fromIndex}, {@code fromIndex} &gt; {@code toIndex}, {@code
   *     newFromIndex} &lt; 0
   */
  public Timeline moveMediaSourceRange(
      int fromIndex, int toIndex, int newFromIndex, ShuffleOrder shuffleOrder) {
    Assertions.checkArgument(
        fromIndex >= 0 && fromIndex <= toIndex && toIndex <= getSize() && newFromIndex >= 0);
    this.shuffleOrder = shuffleOrder;
    if (fromIndex == toIndex || fromIndex == newFromIndex) {
      return createTimeline();
    }
    int startIndex = Math.min(fromIndex, newFromIndex);
    int newEndIndex = newFromIndex + (toIndex - fromIndex) - 1;
    int endIndex = Math.max(newEndIndex, toIndex - 1);
    int windowOffset = mediaSourceHolders.get(startIndex).firstWindowIndexInChild;
    moveMediaSourceHolders(mediaSourceHolders, fromIndex, toIndex, newFromIndex);
    for (int i = startIndex; i <= endIndex; i++) {
      MediaSourceHolder holder = mediaSourceHolders.get(i);
      holder.firstWindowIndexInChild = windowOffset;
      windowOffset += holder.mediaSource.getTimeline().getWindowCount();
    }
    return createTimeline();
  }
  /** Clears the playlist. */
  public final Timeline clear(@Nullable ShuffleOrder shuffleOrder) {
    this.shuffleOrder = shuffleOrder != null ? shuffleOrder : this.shuffleOrder.cloneAndClear();
    removeMediaSourcesInternal(/* fromIndex= */ 0, /* toIndex= */ getSize());
    return createTimeline();
  }
  /** Whether the playlist is prepared. */
  public final boolean isPrepared() {
    return isPrepared;
  }
  /** Returns the number of media sources in the playlist. */
  public final int getSize() {
    return mediaSourceHolders.size();
  }
  /**
   * Sets the {@link AnalyticsCollector}.
   *
   * @param handler The handler on which to call the collector.
   * @param analyticsCollector The analytics collector.
   */
  public final void setAnalyticsCollector(Handler handler, AnalyticsCollector analyticsCollector) {
    eventDispatcher.addEventListener(handler, analyticsCollector);
  }
  /**
   * Sets a new shuffle order to use when shuffling the child media sources.
   *
   * @param shuffleOrder A {@link ShuffleOrder}.
   */
  public final Timeline setShuffleOrder(ShuffleOrder shuffleOrder) {
    int size = getSize();
    if (shuffleOrder.getLength() != size) {
      shuffleOrder =
          shuffleOrder
              .cloneAndClear()
              .cloneAndInsert(/* insertionIndex= */ 0, /* insertionCount= */ size);
    }
    this.shuffleOrder = shuffleOrder;
    return createTimeline();
  }
  /** Prepares the playlist. */
  public final void prepare(@Nullable TransferListener mediaTransferListener) {
    Assertions.checkState(!isPrepared);
    this.mediaTransferListener = mediaTransferListener;
    for (int i = 0; i < mediaSourceHolders.size(); i++) {
      MediaSourceHolder mediaSourceHolder = mediaSourceHolders.get(i);
      prepareChildSource(mediaSourceHolder);
    }
    isPrepared = true;
  }
  /**
   * Returns a new {@link MediaPeriod} identified by {@code periodId}.
   *
   * @param id The identifier of the period.
   * @param allocator An {@link Allocator} from which to obtain media buffer allocations.
   * @param startPositionUs The expected start position, in microseconds.
   * @return A new {@link MediaPeriod}.
   */
  public MediaPeriod createPeriod(
      MediaSource.MediaPeriodId id, Allocator allocator, long startPositionUs) {
    Object mediaSourceHolderUid = getMediaSourceHolderUid(id.periodUid);
    MediaSource.MediaPeriodId childMediaPeriodId =
        id.copyWithPeriodUid(getChildPeriodUid(id.periodUid));
    MediaSourceHolder holder = Assertions.checkNotNull(mediaSourceByUid.get(mediaSourceHolderUid));
    enableMediaSource(holder);
    holder.activeMediaPeriodIds.add(childMediaPeriodId);
    MediaPeriod mediaPeriod =
        holder.mediaSource.createPeriod(childMediaPeriodId, allocator, startPositionUs);
    mediaSourceByMediaPeriod.put(mediaPeriod, holder);
    disableUnusedMediaSources();
    return mediaPeriod;
  }
  /**
   * Releases the period.
   *
   * @param mediaPeriod The period to release.
   */
  public final void releasePeriod(MediaPeriod mediaPeriod) {
    MediaSourceHolder holder =
        Assertions.checkNotNull(mediaSourceByMediaPeriod.remove(mediaPeriod));
    holder.mediaSource.releasePeriod(mediaPeriod);
    holder.activeMediaPeriodIds.remove(((MaskingMediaPeriod) mediaPeriod).id);
    if (!mediaSourceByMediaPeriod.isEmpty()) {
      disableUnusedMediaSources();
    }
    maybeReleaseChildSource(holder);
  }
  /** Releases the playlist. */
  public final void release() {
    for (MediaSourceAndListener childSource : childSources.values()) {
      childSource.mediaSource.releaseSource(childSource.caller);
      childSource.mediaSource.removeEventListener(childSource.eventListener);
    }
    childSources.clear();
    enabledMediaSourceHolders.clear();
    isPrepared = false;
  }
  /** Throws any pending error encountered while loading or refreshing. */
  public final void maybeThrowSourceInfoRefreshError() throws IOException {
    for (MediaSourceAndListener childSource : childSources.values()) {
      childSource.mediaSource.maybeThrowSourceInfoRefreshError();
    }
  }
  /** Creates a timeline reflecting the current state of the playlist. */
  public final Timeline createTimeline() {
    if (mediaSourceHolders.isEmpty()) {
      return Timeline.EMPTY;
    }
    int windowOffset = 0;
    for (int i = 0; i < mediaSourceHolders.size(); i++) {
      MediaSourceHolder mediaSourceHolder = mediaSourceHolders.get(i);
      mediaSourceHolder.firstWindowIndexInChild = windowOffset;
      windowOffset += mediaSourceHolder.mediaSource.getTimeline().getWindowCount();
    }
    return new PlaylistTimeline(mediaSourceHolders, shuffleOrder);
  }
  // Internal methods.
  private void enableMediaSource(MediaSourceHolder mediaSourceHolder) {
    enabledMediaSourceHolders.add(mediaSourceHolder);
    @Nullable MediaSourceAndListener enabledChild = childSources.get(mediaSourceHolder);
    if (enabledChild != null) {
      enabledChild.mediaSource.enable(enabledChild.caller);
    }
  }
  private void disableUnusedMediaSources() {
    Iterator<MediaSourceHolder> iterator = enabledMediaSourceHolders.iterator();
    while (iterator.hasNext()) {
      MediaSourceHolder holder = iterator.next();
      if (holder.activeMediaPeriodIds.isEmpty()) {
        @Nullable MediaSourceAndListener disabledChild = childSources.get(holder);
        if (disabledChild != null) {
          disabledChild.mediaSource.disable(disabledChild.caller);
        }
        iterator.remove();
      }
    }
  }
  private void removeMediaSourcesInternal(int fromIndex, int toIndex) {
    for (int index = toIndex - 1; index >= fromIndex; index--) {
      MediaSourceHolder holder = mediaSourceHolders.remove(index);
      mediaSourceByUid.remove(holder.uid);
      Timeline oldTimeline = holder.mediaSource.getTimeline();
      correctOffsets(
          /* startIndex= */ index, /* windowOffsetUpdate= */ -oldTimeline.getWindowCount());
      holder.isRemoved = true;
      if (isPrepared) {
        maybeReleaseChildSource(holder);
      }
    }
  }
  private void correctOffsets(int startIndex, int windowOffsetUpdate) {
    for (int i = startIndex; i < mediaSourceHolders.size(); i++) {
      MediaSourceHolder mediaSourceHolder = mediaSourceHolders.get(i);
      mediaSourceHolder.firstWindowIndexInChild += windowOffsetUpdate;
    }
  }
  // Internal methods to manage child sources.
  @Nullable
  private static MediaSource.MediaPeriodId getMediaPeriodIdForChildMediaPeriodId(
      MediaSourceHolder mediaSourceHolder, MediaSource.MediaPeriodId mediaPeriodId) {
    for (int i = 0; i < mediaSourceHolder.activeMediaPeriodIds.size(); i++) {
      // Ensure the reported media period id has the same window sequence number as the one created
      // by this media source. Otherwise it does not belong to this child source.
      if (mediaSourceHolder.activeMediaPeriodIds.get(i).windowSequenceNumber
          == mediaPeriodId.windowSequenceNumber) {
        Object periodUid = getPeriodUid(mediaSourceHolder, mediaPeriodId.periodUid);
        return mediaPeriodId.copyWithPeriodUid(periodUid);
      }
    }
    return null;
  }
  private static int getWindowIndexForChildWindowIndex(
      MediaSourceHolder mediaSourceHolder, int windowIndex) {
    return windowIndex + mediaSourceHolder.firstWindowIndexInChild;
  }
  private void prepareChildSource(MediaSourceHolder holder) {
    MediaSource mediaSource = holder.mediaSource;
    MediaSource.MediaSourceCaller caller =
        (source, timeline) -> playlistInfoListener.onPlaylistUpdateRequested();
    MediaSourceEventListener eventListener = new ForwardingEventListener(holder);
    childSources.put(holder, new MediaSourceAndListener(mediaSource, caller, eventListener));
    mediaSource.addEventListener(new Handler(), eventListener);
    mediaSource.prepareSource(caller, mediaTransferListener);
  }
  private void maybeReleaseChildSource(MediaSourceHolder mediaSourceHolder) {
    // Release if the source has been removed from the playlist and no periods are still active.
    if (mediaSourceHolder.isRemoved && mediaSourceHolder.activeMediaPeriodIds.isEmpty()) {
      MediaSourceAndListener removedChild =
          Assertions.checkNotNull(childSources.remove(mediaSourceHolder));
      removedChild.mediaSource.releaseSource(removedChild.caller);
      removedChild.mediaSource.removeEventListener(removedChild.eventListener);
      enabledMediaSourceHolders.remove(mediaSourceHolder);
    }
  }
  /** Return uid of media source holder from period uid of concatenated source. */
  private static Object getMediaSourceHolderUid(Object periodUid) {
    return PlaylistTimeline.getChildTimelineUidFromConcatenatedUid(periodUid);
  }
  /** Return uid of child period from period uid of concatenated source. */
  private static Object getChildPeriodUid(Object periodUid) {
    return PlaylistTimeline.getChildPeriodUidFromConcatenatedUid(periodUid);
  }
  private static Object getPeriodUid(MediaSourceHolder holder, Object childPeriodUid) {
    return PlaylistTimeline.getConcatenatedUid(holder.uid, childPeriodUid);
  }
  /* package */ static void moveMediaSourceHolders(
      List<MediaSourceHolder> mediaSourceHolders, int fromIndex, int toIndex, int newFromIndex) {
    MediaSourceHolder[] removedItems = new MediaSourceHolder[toIndex - fromIndex];
    for (int i = removedItems.length - 1; i >= 0; i--) {
      removedItems[i] = mediaSourceHolders.remove(fromIndex + i);
    }
    mediaSourceHolders.addAll(
        Math.min(newFromIndex, mediaSourceHolders.size()), Arrays.asList(removedItems));
  }
  /** Data class to hold playlist media sources together with meta data needed to process them. */
  /* package */ static final class MediaSourceHolder {
    public final MaskingMediaSource mediaSource;
    public final Object uid;
    public final List<MediaSource.MediaPeriodId> activeMediaPeriodIds;
    public int firstWindowIndexInChild;
    public boolean isRemoved;
    public MediaSourceHolder(MediaSource mediaSource, boolean useLazyPreparation) {
      this.mediaSource = new MaskingMediaSource(mediaSource, useLazyPreparation);
      this.activeMediaPeriodIds = new ArrayList<>();
      this.uid = new Object();
    }
    public void reset(int firstWindowIndexInChild) {
      this.firstWindowIndexInChild = firstWindowIndexInChild;
      this.isRemoved = false;
      this.activeMediaPeriodIds.clear();
    }
  }
  /** Timeline exposing concatenated timelines of playlist media sources. */
  /* package */ static final class PlaylistTimeline extends AbstractConcatenatedTimeline {
    private final int windowCount;
    private final int periodCount;
    private final int[] firstPeriodInChildIndices;
    private final int[] firstWindowInChildIndices;
    private final Timeline[] timelines;
    private final Object[] uids;
    private final HashMap<Object, Integer> childIndexByUid;
    public PlaylistTimeline(
        Collection<MediaSourceHolder> mediaSourceHolders, ShuffleOrder shuffleOrder) {
      super(/* isAtomic= */ false, shuffleOrder);
      int childCount = mediaSourceHolders.size();
      firstPeriodInChildIndices = new int[childCount];
      firstWindowInChildIndices = new int[childCount];
      timelines = new Timeline[childCount];
      uids = new Object[childCount];
      childIndexByUid = new HashMap<>();
      int index = 0;
      int windowCount = 0;
      int periodCount = 0;
      for (MediaSourceHolder mediaSourceHolder : mediaSourceHolders) {
        timelines[index] = mediaSourceHolder.mediaSource.getTimeline();
        firstWindowInChildIndices[index] = windowCount;
        firstPeriodInChildIndices[index] = periodCount;
        windowCount += timelines[index].getWindowCount();
        periodCount += timelines[index].getPeriodCount();
        uids[index] = mediaSourceHolder.uid;
        childIndexByUid.put(uids[index], index++);
      }
      this.windowCount = windowCount;
      this.periodCount = periodCount;
    }
    @Override
    protected int getChildIndexByPeriodIndex(int periodIndex) {
      return Util.binarySearchFloor(firstPeriodInChildIndices, periodIndex + 1, false, false);
    }
    @Override
    protected int getChildIndexByWindowIndex(int windowIndex) {
      return Util.binarySearchFloor(firstWindowInChildIndices, windowIndex + 1, false, false);
    }
    @Override
    protected int getChildIndexByChildUid(Object childUid) {
      Integer index = childIndexByUid.get(childUid);
      return index == null ? C.INDEX_UNSET : index;
    }
    @Override
    protected Timeline getTimelineByChildIndex(int childIndex) {
      return timelines[childIndex];
    }
    @Override
    protected int getFirstPeriodIndexByChildIndex(int childIndex) {
      return firstPeriodInChildIndices[childIndex];
    }
    @Override
    protected int getFirstWindowIndexByChildIndex(int childIndex) {
      return firstWindowInChildIndices[childIndex];
    }
    @Override
    protected Object getChildUidByChildIndex(int childIndex) {
      return uids[childIndex];
    }
    @Override
    public int getWindowCount() {
      return windowCount;
    }
    @Override
    public int getPeriodCount() {
      return periodCount;
    }
  }
  private static final class MediaSourceAndListener {
    public final MediaSource mediaSource;
    public final MediaSource.MediaSourceCaller caller;
    public final MediaSourceEventListener eventListener;
    public MediaSourceAndListener(
        MediaSource mediaSource,
        MediaSource.MediaSourceCaller caller,
        MediaSourceEventListener eventListener) {
      this.mediaSource = mediaSource;
      this.caller = caller;
      this.eventListener = eventListener;
    }
  }
  private final class ForwardingEventListener implements MediaSourceEventListener {
    private final Playlist.MediaSourceHolder id;
    private EventDispatcher eventDispatcher;
    public ForwardingEventListener(Playlist.MediaSourceHolder id) {
      eventDispatcher = Playlist.this.eventDispatcher;
      this.id = id;
    }
    @Override
    public void onMediaPeriodCreated(int windowIndex, MediaSource.MediaPeriodId mediaPeriodId) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.mediaPeriodCreated();
      }
    }
    @Override
    public void onMediaPeriodReleased(int windowIndex, MediaSource.MediaPeriodId mediaPeriodId) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.mediaPeriodReleased();
      }
    }
    @Override
    public void onLoadStarted(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        LoadEventInfo loadEventData,
        MediaLoadData mediaLoadData) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.loadStarted(loadEventData, mediaLoadData);
      }
    }
    @Override
    public void onLoadCompleted(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        LoadEventInfo loadEventData,
        MediaLoadData mediaLoadData) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.loadCompleted(loadEventData, mediaLoadData);
      }
    }
    @Override
    public void onLoadCanceled(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        LoadEventInfo loadEventData,
        MediaLoadData mediaLoadData) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.loadCanceled(loadEventData, mediaLoadData);
      }
    }
    @Override
    public void onLoadError(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        LoadEventInfo loadEventData,
        MediaLoadData mediaLoadData,
        IOException error,
        boolean wasCanceled) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.loadError(loadEventData, mediaLoadData, error, wasCanceled);
      }
    }
    @Override
    public void onReadingStarted(int windowIndex, MediaSource.MediaPeriodId mediaPeriodId) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.readingStarted();
      }
    }
    @Override
    public void onUpstreamDiscarded(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        MediaLoadData mediaLoadData) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.upstreamDiscarded(mediaLoadData);
      }
    }
    @Override
    public void onDownstreamFormatChanged(
        int windowIndex,
        @Nullable MediaSource.MediaPeriodId mediaPeriodId,
        MediaLoadData mediaLoadData) {
      if (maybeUpdateEventDispatcher(windowIndex, mediaPeriodId)) {
        eventDispatcher.downstreamFormatChanged(mediaLoadData);
      }
    }
    /** Updates the event dispatcher and returns whether the event should be dispatched. */
    private boolean maybeUpdateEventDispatcher(
        int childWindowIndex, @Nullable MediaSource.MediaPeriodId childMediaPeriodId) {
      @Nullable MediaSource.MediaPeriodId mediaPeriodId = null;
      if (childMediaPeriodId != null) {
        mediaPeriodId = getMediaPeriodIdForChildMediaPeriodId(id, childMediaPeriodId);
        if (mediaPeriodId == null) {
          // Media period not found. Ignore event.
          return false;
        }
      }
      int windowIndex = getWindowIndexForChildWindowIndex(id, childWindowIndex);
      if (eventDispatcher.windowIndex != windowIndex
          || !Util.areEqual(eventDispatcher.mediaPeriodId, mediaPeriodId)) {
        eventDispatcher =
            Playlist.this.eventDispatcher.withParameters(
                windowIndex, mediaPeriodId, /* mediaTimeOffsetMs= */ 0L);
      }
      return true;
    }
  }
 }
--- a/library/core/src/main/java/com/google/android/exoplayer2/SimpleExoPlayer.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/SimpleExoPlayer.java
@ -43,6 +43,7 @@ import com.google.android.exoplayer2.drm.FrameworkMediaCrypto;
 import com.google.android.exoplayer2.metadata.Metadata;
 import com.google.android.exoplayer2.metadata.MetadataOutput;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.TrackGroupArray;
 import com.google.android.exoplayer2.text.Cue;
 import com.google.android.exoplayer2.text.TextOutput;
@ -163,7 +164,9 @@ public class SimpleExoPlayer extends BasePlayer
     * @param bandwidthMeter A {@link BandwidthMeter}.
     * @param looper A {@link Looper} that must be used for all calls to the player.
     * @param analyticsCollector An {@link AnalyticsCollector}.
-     * @param useLazyPreparation Whether media sources should be initialized lazily.
+     * @param useLazyPreparation Whether playlist items should be prepared lazily. If false, all
     *     initial preparation steps (e.g., manifest loads) happen immediately. If true, these
     *     initial preparations are triggered only when the player starts buffering the media.
     * @param clock A {@link Clock}. Should always be {@link Clock#DEFAULT}.
     */
    public Builder(
@ -300,6 +303,7 @@ public class SimpleExoPlayer extends BasePlayer
          loadControl,
          bandwidthMeter,
          analyticsCollector,
          useLazyPreparation,
          clock,
          looper);
    }
@ -339,7 +343,6 @@ public class SimpleExoPlayer extends BasePlayer
  private int audioSessionId;
  private AudioAttributes audioAttributes;
  private float audioVolume;
  @Nullable private MediaSource mediaSource;
  private List<Cue> currentCues;
  @Nullable private VideoFrameMetadataListener videoFrameMetadataListener;
  @Nullable private CameraMotionListener cameraMotionListener;
@ -355,6 +358,9 @@ public class SimpleExoPlayer extends BasePlayer
   * @param bandwidthMeter The {@link BandwidthMeter} that will be used by the instance.
   * @param analyticsCollector A factory for creating the {@link AnalyticsCollector} that will
   *     collect and forward all player events.
   * @param useLazyPreparation Whether playlist items are prepared lazily. If false, all manifest
   *     loads and other initial preparation steps happen immediately. If true, these initial
   *     preparations are triggered only when the player starts buffering the media.
   * @param clock The {@link Clock} that will be used by the instance. Should always be {@link
   *     Clock#DEFAULT}, unless the player is being used from a test.
   * @param looper The {@link Looper} which must be used for all calls to the player and which is
@ -368,6 +374,7 @@ public class SimpleExoPlayer extends BasePlayer
      LoadControl loadControl,
      BandwidthMeter bandwidthMeter,
      AnalyticsCollector analyticsCollector,
      boolean useLazyPreparation,
      Clock clock,
      Looper looper) {
    this(
@ -378,26 +385,14 @@ public class SimpleExoPlayer extends BasePlayer
        DrmSessionManager.getDummyDrmSessionManager(),
        bandwidthMeter,
        analyticsCollector,
        useLazyPreparation,
        clock,
        looper);
  }
  /**
   * @param context A {@link Context}.
   * @param renderersFactory A factory for creating {@link Renderer}s to be used by the instance.
   * @param trackSelector The {@link TrackSelector} that will be used by the instance.
   * @param loadControl The {@link LoadControl} that will be used by the instance.
   * @param drmSessionManager An optional {@link DrmSessionManager}. May be null if the instance
   *     will not be used for DRM protected playbacks.
   * @param bandwidthMeter The {@link BandwidthMeter} that will be used by the instance.
   * @param analyticsCollector The {@link AnalyticsCollector} that will collect and forward all
   *     player events.
   * @param clock The {@link Clock} that will be used by the instance. Should always be {@link
   *     Clock#DEFAULT}, unless the player is being used from a test.
   * @param looper The {@link Looper} which must be used for all calls to the player and which is
   *     used to call listeners on.
   * @deprecated Use {@link #SimpleExoPlayer(Context, RenderersFactory, TrackSelector, LoadControl,
-   *     BandwidthMeter, AnalyticsCollector, Clock, Looper)} instead, and pass the {@link
+   *     BandwidthMeter, AnalyticsCollector, boolean, Clock, Looper)} instead, and pass the {@link
   *     DrmSessionManager} to the {@link MediaSource} factories.
   */
  @Deprecated
@ -409,6 +404,7 @@ public class SimpleExoPlayer extends BasePlayer
      @Nullable DrmSessionManager<FrameworkMediaCrypto> drmSessionManager,
      BandwidthMeter bandwidthMeter,
      AnalyticsCollector analyticsCollector,
      boolean useLazyPreparation,
      Clock clock,
      Looper looper) {
    this.bandwidthMeter = bandwidthMeter;
@ -439,7 +435,15 @@ public class SimpleExoPlayer extends BasePlayer
    // Build the player and associated objects.
    player =
-        new ExoPlayerImpl(renderers, trackSelector, loadControl, bandwidthMeter, clock, looper);
+        new ExoPlayerImpl(
            renderers,
            trackSelector,
            loadControl,
            bandwidthMeter,
            analyticsCollector,
            useLazyPreparation,
            clock,
            looper);
    analyticsCollector.setPlayer(player);
    addListener(analyticsCollector);
    addListener(componentListener);
@ -1099,32 +1103,133 @@ public class SimpleExoPlayer extends BasePlayer
  }
  @Override
  @Deprecated
  public void retry() {
    verifyApplicationThread();
-    if (mediaSource != null
+    prepare();
        && (getPlaybackError() != null || getPlaybackState() == Player.STATE_IDLE)) {
      prepare(mediaSource, /* resetPosition= */ false, /* resetState= */ false);
    }
  }
  @Override
  public void prepare() {
    verifyApplicationThread();
    @AudioFocusManager.PlayerCommand
    int playerCommand = audioFocusManager.handlePrepare(getPlayWhenReady());
    updatePlayWhenReady(getPlayWhenReady(), playerCommand);
    player.prepare();
  }
  @Override
  @Deprecated
  @SuppressWarnings("deprecation")
  public void prepare(MediaSource mediaSource) {
    prepare(mediaSource, /* resetPosition= */ true, /* resetState= */ true);
  }
  @Override
  @Deprecated
  public void prepare(MediaSource mediaSource, boolean resetPosition, boolean resetState) {
    verifyApplicationThread();
-    if (this.mediaSource != null) {
+    setMediaItems(
-      this.mediaSource.removeEventListener(analyticsCollector);
+        Collections.singletonList(mediaSource),
-      analyticsCollector.resetForNewMediaSource();
+        /* startWindowIndex= */ resetPosition ? 0 : C.INDEX_UNSET,
-    }
+        /* startPositionMs= */ C.TIME_UNSET);
-    this.mediaSource = mediaSource;
+    prepare();
-    mediaSource.addEventListener(eventHandler, analyticsCollector);
+  }
-    @AudioFocusManager.PlayerCommand
+
-    int playerCommand = audioFocusManager.handlePrepare(getPlayWhenReady());
+  @Override
-    updatePlayWhenReady(getPlayWhenReady(), playerCommand);
+  public void setMediaItems(List<MediaSource> mediaItems) {
-    player.prepare(mediaSource, resetPosition, resetState);
+    verifyApplicationThread();
    analyticsCollector.resetForNewPlaylist();
    player.setMediaItems(mediaItems);
  }
  @Override
  public void setMediaItems(List<MediaSource> mediaItems, boolean resetPosition) {
    verifyApplicationThread();
    analyticsCollector.resetForNewPlaylist();
    player.setMediaItems(mediaItems, resetPosition);
  }
  @Override
  public void setMediaItems(
      List<MediaSource> mediaItems, int startWindowIndex, long startPositionMs) {
    verifyApplicationThread();
    analyticsCollector.resetForNewPlaylist();
    player.setMediaItems(mediaItems, startWindowIndex, startPositionMs);
  }
  @Override
  public void setMediaItem(MediaSource mediaItem) {
    verifyApplicationThread();
    analyticsCollector.resetForNewPlaylist();
    player.setMediaItem(mediaItem);
  }
  @Override
  public void setMediaItem(MediaSource mediaItem, long startPositionMs) {
    verifyApplicationThread();
    analyticsCollector.resetForNewPlaylist();
    player.setMediaItem(mediaItem, startPositionMs);
  }
  @Override
  public void addMediaItem(MediaSource mediaSource) {
    verifyApplicationThread();
    player.addMediaItem(mediaSource);
  }
  @Override
  public void addMediaItem(int index, MediaSource mediaSource) {
    verifyApplicationThread();
    player.addMediaItem(index, mediaSource);
  }
  @Override
  public void addMediaItems(List<MediaSource> mediaSources) {
    verifyApplicationThread();
    player.addMediaItems(mediaSources);
  }
  @Override
  public void addMediaItems(int index, List<MediaSource> mediaSources) {
    verifyApplicationThread();
    player.addMediaItems(index, mediaSources);
  }
  @Override
  public void moveMediaItem(int currentIndex, int newIndex) {
    verifyApplicationThread();
    player.moveMediaItem(currentIndex, newIndex);
  }
  @Override
  public void moveMediaItems(int fromIndex, int toIndex, int newIndex) {
    verifyApplicationThread();
    player.moveMediaItems(fromIndex, toIndex, newIndex);
  }
  @Override
  public MediaSource removeMediaItem(int index) {
    verifyApplicationThread();
    return player.removeMediaItem(index);
  }
  @Override
  public void removeMediaItems(int fromIndex, int toIndex) {
    verifyApplicationThread();
    player.removeMediaItems(fromIndex, toIndex);
  }
  @Override
  public void clearMediaItems() {
    verifyApplicationThread();
    player.clearMediaItems();
  }
  @Override
  public void setShuffleOrder(ShuffleOrder shuffleOrder) {
    verifyApplicationThread();
    player.setShuffleOrder(shuffleOrder);
  }
  @Override
@ -1204,6 +1309,7 @@ public class SimpleExoPlayer extends BasePlayer
  @Override
  public void setForegroundMode(boolean foregroundMode) {
    verifyApplicationThread();
    player.setForegroundMode(foregroundMode);
  }
@ -1211,13 +1317,6 @@ public class SimpleExoPlayer extends BasePlayer
  public void stop(boolean reset) {
    verifyApplicationThread();
    player.stop(reset);
    if (mediaSource != null) {
      mediaSource.removeEventListener(analyticsCollector);
      analyticsCollector.resetForNewMediaSource();
      if (reset) {
        mediaSource = null;
      }
    }
    audioFocusManager.handleStop();
    currentCues = Collections.emptyList();
  }
@ -1234,10 +1333,6 @@ public class SimpleExoPlayer extends BasePlayer
      }
      surface = null;
    }
    if (mediaSource != null) {
      mediaSource.removeEventListener(analyticsCollector);
      mediaSource = null;
    }
    if (isPriorityTaskManagerRegistered) {
      Assertions.checkNotNull(priorityTaskManager).remove(C.PRIORITY_PLAYBACK);
      isPriorityTaskManagerRegistered = false;
--- a/library/core/src/main/java/com/google/android/exoplayer2/Timeline.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/Timeline.java
@ -19,6 +19,7 @@ import android.util.Pair;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.source.ads.AdPlaybackState;
 import com.google.android.exoplayer2.util.Assertions;
 import com.google.android.exoplayer2.util.Util;
 /**
 * A flexible representation of the structure of media. A timeline is able to represent the
@ -270,6 +271,46 @@ public abstract class Timeline {
      return positionInFirstPeriodUs;
    }
    @Override
    public boolean equals(@Nullable Object obj) {
      if (this == obj) {
        return true;
      }
      if (obj == null || !getClass().equals(obj.getClass())) {
        return false;
      }
      Window that = (Window) obj;
      return Util.areEqual(uid, that.uid)
          && Util.areEqual(tag, that.tag)
          && Util.areEqual(manifest, that.manifest)
          && presentationStartTimeMs == that.presentationStartTimeMs
          && windowStartTimeMs == that.windowStartTimeMs
          && isSeekable == that.isSeekable
          && isDynamic == that.isDynamic
          && defaultPositionUs == that.defaultPositionUs
          && durationUs == that.durationUs
          && firstPeriodIndex == that.firstPeriodIndex
          && lastPeriodIndex == that.lastPeriodIndex
          && positionInFirstPeriodUs == that.positionInFirstPeriodUs;
    }
    @Override
    public int hashCode() {
      int result = 7;
      result = 31 * result + uid.hashCode();
      result = 31 * result + (tag == null ? 0 : tag.hashCode());
      result = 31 * result + (manifest == null ? 0 : manifest.hashCode());
      result = 31 * result + (int) (presentationStartTimeMs ^ (presentationStartTimeMs >>> 32));
      result = 31 * result + (int) (windowStartTimeMs ^ (windowStartTimeMs >>> 32));
      result = 31 * result + (isSeekable ? 1 : 0);
      result = 31 * result + (isDynamic ? 1 : 0);
      result = 31 * result + (int) (defaultPositionUs ^ (defaultPositionUs >>> 32));
      result = 31 * result + (int) (durationUs ^ (durationUs >>> 32));
      result = 31 * result + firstPeriodIndex;
      result = 31 * result + lastPeriodIndex;
      result = 31 * result + (int) (positionInFirstPeriodUs ^ (positionInFirstPeriodUs >>> 32));
      return result;
    }
  }
  /**
@ -526,6 +567,34 @@ public abstract class Timeline {
      return adPlaybackState.adResumePositionUs;
    }
    @Override
    public boolean equals(@Nullable Object obj) {
      if (this == obj) {
        return true;
      }
      if (obj == null || !getClass().equals(obj.getClass())) {
        return false;
      }
      Period that = (Period) obj;
      return Util.areEqual(id, that.id)
          && Util.areEqual(uid, that.uid)
          && windowIndex == that.windowIndex
          && durationUs == that.durationUs
          && positionInWindowUs == that.positionInWindowUs
          && Util.areEqual(adPlaybackState, that.adPlaybackState);
    }
    @Override
    public int hashCode() {
      int result = 7;
      result = 31 * result + (id == null ? 0 : id.hashCode());
      result = 31 * result + (uid == null ? 0 : uid.hashCode());
      result = 31 * result + windowIndex;
      result = 31 * result + (int) (durationUs ^ (durationUs >>> 32));
      result = 31 * result + (int) (positionInWindowUs ^ (positionInWindowUs >>> 32));
      result = 31 * result + (adPlaybackState == null ? 0 : adPlaybackState.hashCode());
      return result;
    }
  }
  /** An empty timeline. */
--- a/library/core/src/main/java/com/google/android/exoplayer2/analytics/AnalyticsCollector.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/analytics/AnalyticsCollector.java
@ -132,11 +132,8 @@ public class AnalyticsCollector
    }
  }
-  /**
+  /** Resets the analytics collector for a new playlist. */
-   * Resets the analytics collector for a new media source. Should be called before the player is
+  public final void resetForNewPlaylist() {
   * prepared with a new media source.
   */
  public final void resetForNewMediaSource() {
    // Copying the list is needed because onMediaPeriodReleased will modify the list.
    List<MediaPeriodInfo> mediaPeriodInfos =
        new ArrayList<>(mediaPeriodQueueTracker.mediaPeriodInfoQueue);
@ -786,9 +783,13 @@ public class AnalyticsCollector
    /** Updates the queue with a newly created media period. */
    public void onMediaPeriodCreated(int windowIndex, MediaPeriodId mediaPeriodId) {
-      boolean isInTimeline = timeline.getIndexOfPeriod(mediaPeriodId.periodUid) != C.INDEX_UNSET;
+      int periodIndex = timeline.getIndexOfPeriod(mediaPeriodId.periodUid);
      boolean isInTimeline = periodIndex != C.INDEX_UNSET;
      MediaPeriodInfo mediaPeriodInfo =
-          new MediaPeriodInfo(mediaPeriodId, isInTimeline ? timeline : Timeline.EMPTY, windowIndex);
+          new MediaPeriodInfo(
              mediaPeriodId,
              isInTimeline ? timeline : Timeline.EMPTY,
              isInTimeline ? timeline.getPeriod(periodIndex, period).windowIndex : windowIndex);
      mediaPeriodInfoQueue.add(mediaPeriodInfo);
      mediaPeriodIdToInfo.put(mediaPeriodId, mediaPeriodInfo);
      lastPlayingMediaPeriod = mediaPeriodInfoQueue.get(0);
@ -804,7 +805,7 @@ public class AnalyticsCollector
    public boolean onMediaPeriodReleased(MediaPeriodId mediaPeriodId) {
      MediaPeriodInfo mediaPeriodInfo = mediaPeriodIdToInfo.remove(mediaPeriodId);
      if (mediaPeriodInfo == null) {
-        // The media period has already been removed from the queue in resetForNewMediaSource().
+        // The media period has already been removed from the queue in resetForNewPlaylist().
        return false;
      }
      mediaPeriodInfoQueue.remove(mediaPeriodInfo);
--- a/library/core/src/main/java/com/google/android/exoplayer2/source/ConcatenatingMediaSource.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/source/ConcatenatingMediaSource.java
@ -19,6 +19,7 @@ import android.os.Handler;
 import android.os.Message;
 import androidx.annotation.GuardedBy;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.AbstractConcatenatedTimeline;
 import com.google.android.exoplayer2.C;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.source.ConcatenatingMediaSource.MediaSourceHolder;
--- a/library/core/src/main/java/com/google/android/exoplayer2/source/LoopingMediaSource.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/source/LoopingMediaSource.java
@ -16,6 +16,7 @@
 package com.google.android.exoplayer2.source;
 import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.AbstractConcatenatedTimeline;
 import com.google.android.exoplayer2.C;
 import com.google.android.exoplayer2.ExoPlayer;
 import com.google.android.exoplayer2.Player;
--- a/library/core/src/main/java/com/google/android/exoplayer2/source/MaskingMediaSource.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/source/MaskingMediaSource.java
@ -17,6 +17,7 @@ package com.google.android.exoplayer2.source;
 import android.util.Pair;
 import androidx.annotation.Nullable;
 import androidx.annotation.VisibleForTesting;
 import com.google.android.exoplayer2.C;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.Timeline.Window;
@ -61,7 +62,7 @@ public final class MaskingMediaSource extends CompositeMediaSource<Void> {
  }
  /** Returns the {@link Timeline}. */
-  public Timeline getTimeline() {
+  public synchronized Timeline getTimeline() {
    return timeline;
  }
@ -129,7 +130,7 @@ public final class MaskingMediaSource extends CompositeMediaSource<Void> {
  }
  @Override
-  protected void onChildSourceInfoRefreshed(
+  protected synchronized void onChildSourceInfoRefreshed(
      Void id, MediaSource mediaSource, Timeline newTimeline) {
    if (isPrepared) {
      timeline = timeline.cloneWithUpdatedTimeline(newTimeline);
@ -293,7 +294,8 @@ public final class MaskingMediaSource extends CompositeMediaSource<Void> {
  }
  /** Dummy placeholder timeline with one dynamic window with a period of indeterminate duration. */
-  private static final class DummyTimeline extends Timeline {
+  @VisibleForTesting
  public static final class DummyTimeline extends Timeline {
    @Nullable private final Object tag;
@ -332,8 +334,8 @@ public final class MaskingMediaSource extends CompositeMediaSource<Void> {
    @Override
    public Period getPeriod(int periodIndex, Period period, boolean setIds) {
      return period.set(
-          /* id= */ 0,
+          /* id= */ setIds ? 0 : null,
-          /* uid= */ MaskingTimeline.DUMMY_EXTERNAL_PERIOD_UID,
+          /* uid= */ setIds ? MaskingTimeline.DUMMY_EXTERNAL_PERIOD_UID : null,
          /* windowIndex= */ 0,
          /* durationUs = */ C.TIME_UNSET,
          /* positionInWindowUs= */ 0);
--- a/library/core/src/main/java/com/google/android/exoplayer2/util/EventLogger.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/util/EventLogger.java
@ -594,12 +594,10 @@ public class EventLogger implements AnalyticsListener {
  private static String getTimelineChangeReasonString(@Player.TimelineChangeReason int reason) {
    switch (reason) {
-      case Player.TIMELINE_CHANGE_REASON_PREPARED:
+      case Player.TIMELINE_CHANGE_REASON_SOURCE_UPDATE:
-        return "PREPARED";
+        return "SOURCE_UPDATE";
-      case Player.TIMELINE_CHANGE_REASON_RESET:
+      case Player.TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED:
-        return "RESET";
+        return "PLAYLIST_CHANGED";
      case Player.TIMELINE_CHANGE_REASON_DYNAMIC:
        return "DYNAMIC";
      default:
        return "?";
    }
--- a/library/core/src/main/java/com/google/android/exoplayer2/util/Util.java
+++ b/library/core/src/main/java/com/google/android/exoplayer2/util/Util.java
@ -53,6 +53,7 @@ import com.google.android.exoplayer2.Renderer;
 import com.google.android.exoplayer2.RendererCapabilities;
 import com.google.android.exoplayer2.RenderersFactory;
 import com.google.android.exoplayer2.SeekParameters;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.audio.AudioRendererEventListener;
 import com.google.android.exoplayer2.drm.DrmSessionManager;
 import com.google.android.exoplayer2.drm.FrameworkMediaCrypto;
@ -2010,6 +2011,42 @@ public final class Util {
    }
  }
  /**
   * Checks whether the timelines are the same.
   *
   * @param firstTimeline The first {@link Timeline}.
   * @param secondTimeline The second {@link Timeline} to compare with.
   * @return {@code true} if the both timelines are the same.
   */
  public static boolean areTimelinesSame(Timeline firstTimeline, Timeline secondTimeline) {
    if (firstTimeline == secondTimeline) {
      return true;
    }
    if (secondTimeline.getWindowCount() != firstTimeline.getWindowCount()
        || secondTimeline.getPeriodCount() != firstTimeline.getPeriodCount()) {
      return false;
    }
    Timeline.Window firstWindow = new Timeline.Window();
    Timeline.Period firstPeriod = new Timeline.Period();
    Timeline.Window secondWindow = new Timeline.Window();
    Timeline.Period secondPeriod = new Timeline.Period();
    for (int i = 0; i < firstTimeline.getWindowCount(); i++) {
      if (!firstTimeline
          .getWindow(i, firstWindow)
          .equals(secondTimeline.getWindow(i, secondWindow))) {
        return false;
      }
    }
    for (int i = 0; i < firstTimeline.getPeriodCount(); i++) {
      if (!firstTimeline
          .getPeriod(i, firstPeriod, /* setIds= */ true)
          .equals(secondTimeline.getPeriod(i, secondPeriod, /* setIds= */ true))) {
        return false;
      }
    }
    return true;
  }
  private static HashMap<String, String> createIso3ToIso2Map() {
    String[] iso2Languages = Locale.getISOLanguages();
    HashMap<String, String> iso3ToIso2 =
--- a/library/core/src/test/java/com/google/android/exoplayer2/ExoPlayerTest.java
+++ b/library/core/src/test/java/com/google/android/exoplayer2/ExoPlayerTest.java
--- a/library/core/src/test/java/com/google/android/exoplayer2/MediaPeriodQueueTest.java
+++ b/library/core/src/test/java/com/google/android/exoplayer2/MediaPeriodQueueTest.java
@ -21,15 +21,17 @@ import static org.mockito.Mockito.mock;
 import android.net.Uri;
 import androidx.test.ext.junit.runners.AndroidJUnit4;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.MediaSource.MediaPeriodId;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.SinglePeriodTimeline;
 import com.google.android.exoplayer2.source.ads.AdPlaybackState;
 import com.google.android.exoplayer2.source.ads.SinglePeriodAdTimeline;
 import com.google.android.exoplayer2.testutil.FakeMediaSource;
 import com.google.android.exoplayer2.trackselection.TrackSelection;
 import com.google.android.exoplayer2.trackselection.TrackSelector;
 import com.google.android.exoplayer2.trackselection.TrackSelectorResult;
 import com.google.android.exoplayer2.upstream.Allocator;
 import java.util.Collections;
 import org.junit.Before;
 import org.junit.Test;
 import org.junit.runner.RunWith;
@ -49,19 +51,20 @@ public final class MediaPeriodQueueTest {
  private MediaPeriodQueue mediaPeriodQueue;
  private AdPlaybackState adPlaybackState;
  private Timeline timeline;
  private Object periodUid;
  private PlaybackInfo playbackInfo;
  private RendererCapabilities[] rendererCapabilities;
  private TrackSelector trackSelector;
  private Allocator allocator;
-  private MediaSource mediaSource;
+  private Playlist playlist;
  private FakeMediaSource fakeMediaSource;
  private Playlist.MediaSourceHolder mediaSourceHolder;
  @Before
  public void setUp() {
    mediaPeriodQueue = new MediaPeriodQueue();
-    mediaSource = mock(MediaSource.class);
+    playlist = mock(Playlist.class);
    rendererCapabilities = new RendererCapabilities[0];
    trackSelector = mock(TrackSelector.class);
    allocator = mock(Allocator.class);
@ -69,7 +72,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void getNextMediaPeriodInfo_withoutAds_returnsLastMediaPeriodInfo() {
-    setupTimeline(/* initialPositionUs= */ 0);
+    setupTimeline();
    assertGetNextMediaPeriodInfoReturnsContentMediaPeriod(
        /* startPositionUs= */ 0,
        /* endPositionUs= */ C.TIME_UNSET,
@ -80,7 +83,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void getNextMediaPeriodInfo_withPrerollAd_returnsCorrectMediaPeriodInfos() {
-    setupTimeline(/* initialPositionUs= */ 0, /* adGroupTimesUs= */ 0);
+    setupTimeline(/* adGroupTimesUs= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    assertNextMediaPeriodInfoIsAd(/* adGroupIndex= */ 0, /* contentPositionUs= */ 0);
    advance();
@ -94,10 +97,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void getNextMediaPeriodInfo_withMidrollAds_returnsCorrectMediaPeriodInfos() {
-    setupTimeline(
+    setupTimeline(/* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US);
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    assertGetNextMediaPeriodInfoReturnsContentMediaPeriod(
        /* startPositionUs= */ 0,
        /* endPositionUs= */ FIRST_AD_START_TIME_US,
@ -132,10 +132,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void getNextMediaPeriodInfo_withMidrollAndPostroll_returnsCorrectMediaPeriodInfos() {
-    setupTimeline(
+    setupTimeline(/* adGroupTimesUs= */ FIRST_AD_START_TIME_US, C.TIME_END_OF_SOURCE);
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        C.TIME_END_OF_SOURCE);
    assertGetNextMediaPeriodInfoReturnsContentMediaPeriod(
        /* startPositionUs= */ 0,
        /* endPositionUs= */ FIRST_AD_START_TIME_US,
@ -168,7 +165,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void getNextMediaPeriodInfo_withPostrollLoadError_returnsEmptyFinalMediaPeriodInfo() {
-    setupTimeline(/* initialPositionUs= */ 0, /* adGroupTimesUs= */ C.TIME_END_OF_SOURCE);
+    setupTimeline(/* adGroupTimesUs= */ C.TIME_END_OF_SOURCE);
    assertGetNextMediaPeriodInfoReturnsContentMediaPeriod(
        /* startPositionUs= */ 0,
        /* endPositionUs= */ C.TIME_END_OF_SOURCE,
@ -188,10 +185,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void
      updateQueuedPeriods_withDurationChangeAfterReadingPeriod_handlesChangeAndRemovesPeriodsAfterChangedPeriod() {
-    setupTimeline(
+    setupTimeline(/* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US);
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    enqueueNext(); // Content before first ad.
@ -201,10 +195,8 @@ public final class MediaPeriodQueueTest {
    enqueueNext(); // Second ad.
    // Change position of second ad (= change duration of content between ads).
-    setupTimeline(
+    updateAdPlaybackStateAndTimeline(
-        /* initialPositionUs= */ 0,
+        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US + 1);
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US + 1);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    boolean changeHandled =
@ -218,10 +210,7 @@ public final class MediaPeriodQueueTest {
  @Test
  public void
      updateQueuedPeriods_withDurationChangeBeforeReadingPeriod_doesntHandleChangeAndRemovesPeriodsAfterChangedPeriod() {
-    setupTimeline(
+    setupTimeline(/* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US);
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    enqueueNext(); // Content before first ad.
@ -232,10 +221,8 @@ public final class MediaPeriodQueueTest {
    advanceReading(); // Reading first ad.
    // Change position of first ad (= change duration of content before first ad).
-    setupTimeline(
+    updateAdPlaybackStateAndTimeline(
-        /* initialPositionUs= */ 0,
+        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US + 1, SECOND_AD_START_TIME_US);
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US + 1,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    boolean changeHandled =
@ -250,7 +237,6 @@ public final class MediaPeriodQueueTest {
  public void
      updateQueuedPeriods_withDurationChangeInReadingPeriodAfterReadingPosition_handlesChangeAndRemovesPeriodsAfterChangedPeriod() {
    setupTimeline(
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
@ -264,10 +250,8 @@ public final class MediaPeriodQueueTest {
    advanceReading(); // Reading content between ads.
    // Change position of second ad (= change duration of content between ads).
-    setupTimeline(
+    updateAdPlaybackStateAndTimeline(
-        /* initialPositionUs= */ 0,
+        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US - 1000);
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US - 1000);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    long readingPositionAtStartOfContentBetweenAds = FIRST_AD_START_TIME_US + AD_DURATION_US;
@ -284,7 +268,6 @@ public final class MediaPeriodQueueTest {
  public void
      updateQueuedPeriods_withDurationChangeInReadingPeriodBeforeReadingPosition_doesntHandleChangeAndRemovesPeriodsAfterChangedPeriod() {
    setupTimeline(
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
@ -298,10 +281,8 @@ public final class MediaPeriodQueueTest {
    advanceReading(); // Reading content between ads.
    // Change position of second ad (= change duration of content between ads).
-    setupTimeline(
+    updateAdPlaybackStateAndTimeline(
-        /* initialPositionUs= */ 0,
+        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US - 1000);
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US - 1000);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    long readingPositionAtEndOfContentBetweenAds = SECOND_AD_START_TIME_US + AD_DURATION_US;
@ -318,7 +299,6 @@ public final class MediaPeriodQueueTest {
  public void
      updateQueuedPeriods_withDurationChangeInReadingPeriodReadToEnd_doesntHandleChangeAndRemovesPeriodsAfterChangedPeriod() {
    setupTimeline(
        /* initialPositionUs= */ 0,
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
@ -332,10 +312,8 @@ public final class MediaPeriodQueueTest {
    advanceReading(); // Reading content between ads.
    // Change position of second ad (= change duration of content between ads).
-    setupTimeline(
+    updateAdPlaybackStateAndTimeline(
-        /* initialPositionUs= */ 0,
+        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US, SECOND_AD_START_TIME_US - 1000);
        /* adGroupTimesUs= */ FIRST_AD_START_TIME_US,
        SECOND_AD_START_TIME_US - 1000);
    setAdGroupLoaded(/* adGroupIndex= */ 0);
    setAdGroupLoaded(/* adGroupIndex= */ 1);
    boolean changeHandled =
@ -346,16 +324,25 @@ public final class MediaPeriodQueueTest {
    assertThat(getQueueLength()).isEqualTo(3);
  }
-  private void setupTimeline(long initialPositionUs, long... adGroupTimesUs) {
+  private void setupTimeline(long... adGroupTimesUs) {
    adPlaybackState =
        new AdPlaybackState(adGroupTimesUs).withContentDurationUs(CONTENT_DURATION_US);
-    timeline = new SinglePeriodAdTimeline(CONTENT_TIMELINE, adPlaybackState);
+
    // Create a media source holder.
    SinglePeriodAdTimeline adTimeline =
        new SinglePeriodAdTimeline(CONTENT_TIMELINE, adPlaybackState);
    fakeMediaSource = new FakeMediaSource(adTimeline);
    mediaSourceHolder = new Playlist.MediaSourceHolder(fakeMediaSource, false);
    mediaSourceHolder.mediaSource.prepareSourceInternal(/* mediaTransferListener */ null);
    Timeline timeline = createPlaylistTimeline();
    periodUid = timeline.getUidOfPeriod(/* periodIndex= */ 0);
    mediaPeriodQueue.setTimeline(timeline);
    playbackInfo =
        new PlaybackInfo(
            timeline,
-            mediaPeriodQueue.resolveMediaPeriodIdForAds(periodUid, initialPositionUs),
+            mediaPeriodQueue.resolveMediaPeriodIdForAds(periodUid, /* positionUs= */ 0),
            /* startPositionUs= */ 0,
            /* contentPositionUs= */ 0,
            Player.STATE_READY,
@ -369,6 +356,25 @@ public final class MediaPeriodQueueTest {
            /* positionUs= */ 0);
  }
  private void updateAdPlaybackStateAndTimeline(long... adGroupTimesUs) {
    adPlaybackState =
        new AdPlaybackState(adGroupTimesUs).withContentDurationUs(CONTENT_DURATION_US);
    updateTimeline();
  }
  private void updateTimeline() {
    SinglePeriodAdTimeline adTimeline =
        new SinglePeriodAdTimeline(CONTENT_TIMELINE, adPlaybackState);
    fakeMediaSource.setNewSourceInfo(adTimeline, /* manifest */ null);
    mediaPeriodQueue.setTimeline(createPlaylistTimeline());
  }
  private Playlist.PlaylistTimeline createPlaylistTimeline() {
    return new Playlist.PlaylistTimeline(
        Collections.singleton(mediaSourceHolder),
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 1));
  }
  private void advance() {
    enqueueNext();
    if (mediaPeriodQueue.getLoadingPeriod() != mediaPeriodQueue.getPlayingPeriod()) {
@ -389,7 +395,7 @@ public final class MediaPeriodQueueTest {
        rendererCapabilities,
        trackSelector,
        allocator,
-        mediaSource,
+        playlist,
        getNextMediaPeriodInfo(),
        new TrackSelectorResult(
            new RendererConfiguration[0], new TrackSelection[0], /* info= */ null));
@ -421,11 +427,6 @@ public final class MediaPeriodQueueTest {
    updateTimeline();
  }
  private void updateTimeline() {
    timeline = new SinglePeriodAdTimeline(CONTENT_TIMELINE, adPlaybackState);
    mediaPeriodQueue.setTimeline(timeline);
  }
  private void assertGetNextMediaPeriodInfoReturnsContentMediaPeriod(
      long startPositionUs,
      long endPositionUs,
--- a/library/core/src/test/java/com/google/android/exoplayer2/PlaylistTest.java
+++ b/library/core/src/test/java/com/google/android/exoplayer2/PlaylistTest.java
@ -0,0 +1,510 @@
 /*
 * 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.google.android.exoplayer2;
 import static com.google.common.truth.Truth.assertThat;
 import static org.junit.Assert.assertNotSame;
 import static org.junit.Assert.assertSame;
 import static org.mockito.ArgumentMatchers.any;
 import static org.mockito.ArgumentMatchers.isNull;
 import static org.mockito.Mockito.mock;
 import static org.mockito.Mockito.times;
 import static org.mockito.Mockito.verify;
 import androidx.test.ext.junit.runners.AndroidJUnit4;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.testutil.FakeMediaSource;
 import com.google.android.exoplayer2.testutil.FakeShuffleOrder;
 import com.google.android.exoplayer2.testutil.FakeTimeline;
 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.List;
 import org.junit.Before;
 import org.junit.Test;
 import org.junit.runner.RunWith;
 /** Unit test for {@link Playlist}. */
@RunWith(AndroidJUnit4.class)
 public class PlaylistTest {
  private static final int PLAYLIST_SIZE = 4;
  private Playlist playlist;
  @Before
  public void setUp() {
    playlist = new Playlist(mock(Playlist.PlaylistInfoRefreshListener.class));
  }
  @Test
  public void testEmptyPlaylist_expectConstantTimelineInstanceEMPTY() {
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 0);
    List<Playlist.MediaSourceHolder> fakeHolders = createFakeHolders();
    Timeline timeline = playlist.setMediaSources(fakeHolders, shuffleOrder);
    assertNotSame(timeline, Timeline.EMPTY);
    // Remove all media sources.
    timeline =
        playlist.removeMediaSourceRange(
            /* fromIndex= */ 0, /* toIndex= */ timeline.getWindowCount(), shuffleOrder);
    assertSame(timeline, Timeline.EMPTY);
    timeline = playlist.setMediaSources(fakeHolders, shuffleOrder);
    assertNotSame(timeline, Timeline.EMPTY);
    // Clear.
    timeline = playlist.clear(shuffleOrder);
    assertSame(timeline, Timeline.EMPTY);
  }
  @Test
  public void testPrepareAndReprepareAfterRelease_expectSourcePreparationAfterPlaylistPrepare() {
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    playlist.setMediaSources(
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2),
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 2));
    // Verify prepare is called once on prepare.
    verify(mockMediaSource1, times(0))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(0))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    playlist.prepare(/* mediaTransferListener= */ null);
    assertThat(playlist.isPrepared()).isTrue();
    // Verify prepare is called once on prepare.
    verify(mockMediaSource1, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    playlist.release();
    playlist.prepare(/* mediaTransferListener= */ null);
    // Verify prepare is called a second time on re-prepare.
    verify(mockMediaSource1, times(2))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(2))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
  }
  @Test
  public void testSetMediaSources_playlistUnprepared_notUsingLazyPreparation() {
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 2);
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    List<Playlist.MediaSourceHolder> mediaSources =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2);
    Timeline timeline = playlist.setMediaSources(mediaSources, shuffleOrder);
    assertThat(timeline.getWindowCount()).isEqualTo(2);
    assertThat(playlist.getSize()).isEqualTo(2);
    // Assert holder offsets have been set properly
    for (int i = 0; i < mediaSources.size(); i++) {
      Playlist.MediaSourceHolder mediaSourceHolder = mediaSources.get(i);
      assertThat(mediaSourceHolder.isRemoved).isFalse();
      assertThat(mediaSourceHolder.firstWindowIndexInChild).isEqualTo(i);
    }
    // Set media items again. The second holder is re-used.
    List<Playlist.MediaSourceHolder> moreMediaSources =
        createFakeHoldersWithSources(/* useLazyPreparation= */ false, mock(MediaSource.class));
    moreMediaSources.add(mediaSources.get(1));
    timeline = playlist.setMediaSources(moreMediaSources, shuffleOrder);
    assertThat(playlist.getSize()).isEqualTo(2);
    assertThat(timeline.getWindowCount()).isEqualTo(2);
    for (int i = 0; i < moreMediaSources.size(); i++) {
      Playlist.MediaSourceHolder mediaSourceHolder = moreMediaSources.get(i);
      assertThat(mediaSourceHolder.isRemoved).isFalse();
      assertThat(mediaSourceHolder.firstWindowIndexInChild).isEqualTo(i);
    }
    // Expect removed holders and sources to be removed without releasing.
    verify(mockMediaSource1, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSources.get(0).isRemoved).isTrue();
    // Expect re-used holder and source not to be removed.
    verify(mockMediaSource2, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSources.get(1).isRemoved).isFalse();
  }
  @Test
  public void testSetMediaSources_playlistPrepared_notUsingLazyPreparation() {
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 2);
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    List<Playlist.MediaSourceHolder> mediaSources =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2);
    playlist.prepare(/* mediaTransferListener= */ null);
    playlist.setMediaSources(mediaSources, shuffleOrder);
    // Verify sources are prepared.
    verify(mockMediaSource1, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    // Set media items again. The second holder is re-used.
    List<Playlist.MediaSourceHolder> moreMediaSources =
        createFakeHoldersWithSources(/* useLazyPreparation= */ false, mock(MediaSource.class));
    moreMediaSources.add(mediaSources.get(1));
    playlist.setMediaSources(moreMediaSources, shuffleOrder);
    // Expect removed holders and sources to be removed and released.
    verify(mockMediaSource1, times(1)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSources.get(0).isRemoved).isTrue();
    // Expect re-used holder and source not to be removed but released.
    verify(mockMediaSource2, times(1)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSources.get(1).isRemoved).isFalse();
    verify(mockMediaSource2, times(2))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
  }
  @Test
  public void testAddMediaSources_playlistUnprepared_notUsingLazyPreparation_expectUnprepared() {
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    List<Playlist.MediaSourceHolder> mediaSources =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2);
    playlist.addMediaSources(/* index= */ 0, mediaSources, new ShuffleOrder.DefaultShuffleOrder(2));
    assertThat(playlist.getSize()).isEqualTo(2);
    // Verify lazy initialization does not call prepare on sources.
    verify(mockMediaSource1, times(0))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(0))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    for (int i = 0; i < mediaSources.size(); i++) {
      assertThat(mediaSources.get(i).firstWindowIndexInChild).isEqualTo(i);
      assertThat(mediaSources.get(i).isRemoved).isFalse();
    }
    // Add for more sources in between.
    List<Playlist.MediaSourceHolder> moreMediaSources = createFakeHolders();
    playlist.addMediaSources(
        /* index= */ 1, moreMediaSources, new ShuffleOrder.DefaultShuffleOrder(/* length= */ 3));
    assertThat(mediaSources.get(0).firstWindowIndexInChild).isEqualTo(0);
    assertThat(moreMediaSources.get(0).firstWindowIndexInChild).isEqualTo(1);
    assertThat(moreMediaSources.get(3).firstWindowIndexInChild).isEqualTo(4);
    assertThat(mediaSources.get(1).firstWindowIndexInChild).isEqualTo(5);
  }
  @Test
  public void testAddMediaSources_playlistPrepared_notUsingLazyPreparation_expectPrepared() {
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    playlist.prepare(/* mediaTransferListener= */ null);
    playlist.addMediaSources(
        /* index= */ 0,
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2),
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 2));
    // Verify prepare is called on sources when added.
    verify(mockMediaSource1, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    verify(mockMediaSource2, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
  }
  @Test
  public void testMoveMediaSources() {
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 4);
    List<Playlist.MediaSourceHolder> holders = createFakeHolders();
    playlist.addMediaSources(/* index= */ 0, holders, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    playlist.moveMediaSource(/* currentIndex= */ 0, /* newIndex= */ 3, shuffleOrder);
    assertFirstWindowInChildIndices(holders, 3, 0, 1, 2);
    playlist.moveMediaSource(/* currentIndex= */ 3, /* newIndex= */ 0, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 0, /* toIndex= */ 2, /* newFromIndex= */ 2, shuffleOrder);
    assertFirstWindowInChildIndices(holders, 2, 3, 0, 1);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 2, /* toIndex= */ 4, /* newFromIndex= */ 0, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 0, /* toIndex= */ 2, /* newFromIndex= */ 2, shuffleOrder);
    assertFirstWindowInChildIndices(holders, 2, 3, 0, 1);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 2, /* toIndex= */ 3, /* newFromIndex= */ 0, shuffleOrder);
    assertFirstWindowInChildIndices(holders, 0, 3, 1, 2);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 3, /* toIndex= */ 4, /* newFromIndex= */ 1, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    // No-ops.
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 0, /* toIndex= */ 4, /* newFromIndex= */ 0, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    playlist.moveMediaSourceRange(
        /* fromIndex= */ 0, /* toIndex= */ 0, /* newFromIndex= */ 3, shuffleOrder);
    assertDefaultFirstWindowInChildIndexOrder(holders);
  }
  @Test
  public void testRemoveMediaSources_whenUnprepared_expectNoRelease() {
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    MediaSource mockMediaSource3 = mock(MediaSource.class);
    MediaSource mockMediaSource4 = mock(MediaSource.class);
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 4);
    List<Playlist.MediaSourceHolder> holders =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false,
            mockMediaSource1,
            mockMediaSource2,
            mockMediaSource3,
            mockMediaSource4);
    playlist.addMediaSources(/* index= */ 0, holders, shuffleOrder);
    playlist.removeMediaSourceRange(/* fromIndex= */ 1, /* toIndex= */ 3, shuffleOrder);
    assertThat(playlist.getSize()).isEqualTo(2);
    Playlist.MediaSourceHolder removedHolder1 = holders.remove(1);
    Playlist.MediaSourceHolder removedHolder2 = holders.remove(1);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    assertThat(removedHolder1.isRemoved).isTrue();
    assertThat(removedHolder2.isRemoved).isTrue();
    verify(mockMediaSource1, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource2, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource3, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource4, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
  }
  @Test
  public void testRemoveMediaSources_whenPrepared_expectRelease() {
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    MediaSource mockMediaSource3 = mock(MediaSource.class);
    MediaSource mockMediaSource4 = mock(MediaSource.class);
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 4);
    List<Playlist.MediaSourceHolder> holders =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false,
            mockMediaSource1,
            mockMediaSource2,
            mockMediaSource3,
            mockMediaSource4);
    playlist.prepare(/* mediaTransferListener */ null);
    playlist.addMediaSources(/* index= */ 0, holders, shuffleOrder);
    playlist.removeMediaSourceRange(/* fromIndex= */ 1, /* toIndex= */ 3, shuffleOrder);
    assertThat(playlist.getSize()).isEqualTo(2);
    holders.remove(2);
    holders.remove(1);
    assertDefaultFirstWindowInChildIndexOrder(holders);
    verify(mockMediaSource1, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource2, times(1)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource3, times(1)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    verify(mockMediaSource4, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
  }
  @Test
  public void testRelease_playlistUnprepared_expectSourcesNotReleased() {
    MediaSource mockMediaSource = mock(MediaSource.class);
    Playlist.MediaSourceHolder mediaSourceHolder =
        new Playlist.MediaSourceHolder(mockMediaSource, /* useLazyPreparation= */ false);
    playlist.setMediaSources(
        Collections.singletonList(mediaSourceHolder),
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 1));
    verify(mockMediaSource, times(0))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    playlist.release();
    verify(mockMediaSource, times(0)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSourceHolder.isRemoved).isFalse();
  }
  @Test
  public void testRelease_playlistPrepared_expectSourcesReleasedNotRemoved() {
    MediaSource mockMediaSource = mock(MediaSource.class);
    Playlist.MediaSourceHolder mediaSourceHolder =
        new Playlist.MediaSourceHolder(mockMediaSource, /* useLazyPreparation= */ false);
    playlist.prepare(/* mediaTransferListener= */ null);
    playlist.setMediaSources(
        Collections.singletonList(mediaSourceHolder),
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 1));
    verify(mockMediaSource, times(1))
        .prepareSource(
            any(MediaSource.MediaSourceCaller.class), /* mediaTransferListener= */ isNull());
    playlist.release();
    verify(mockMediaSource, times(1)).releaseSource(any(MediaSource.MediaSourceCaller.class));
    assertThat(mediaSourceHolder.isRemoved).isFalse();
  }
  @Test
  public void testClearPlaylist_expectSourcesReleasedAndRemoved() {
    ShuffleOrder.DefaultShuffleOrder shuffleOrder =
        new ShuffleOrder.DefaultShuffleOrder(/* length= */ 4);
    MediaSource mockMediaSource1 = mock(MediaSource.class);
    MediaSource mockMediaSource2 = mock(MediaSource.class);
    List<Playlist.MediaSourceHolder> holders =
        createFakeHoldersWithSources(
            /* useLazyPreparation= */ false, mockMediaSource1, mockMediaSource2);
    playlist.setMediaSources(holders, shuffleOrder);
    playlist.prepare(/* mediaTransferListener= */ null);
    Timeline timeline = playlist.clear(shuffleOrder);
    assertThat(timeline.isEmpty()).isTrue();
    assertThat(holders.get(0).isRemoved).isTrue();
    assertThat(holders.get(1).isRemoved).isTrue();
    verify(mockMediaSource1, times(1)).releaseSource(any());
    verify(mockMediaSource2, times(1)).releaseSource(any());
  }
  @Test
  public void testSetMediaSources_expectTimelineUsesCustomShuffleOrder() {
    Timeline timeline =
        playlist.setMediaSources(createFakeHolders(), new FakeShuffleOrder(/* length=*/ 4));
    assertTimelineUsesFakeShuffleOrder(timeline);
  }
  @Test
  public void testAddMediaSources_expectTimelineUsesCustomShuffleOrder() {
    Timeline timeline =
        playlist.addMediaSources(
            /* index= */ 0, createFakeHolders(), new FakeShuffleOrder(PLAYLIST_SIZE));
    assertTimelineUsesFakeShuffleOrder(timeline);
  }
  @Test
  public void testMoveMediaSources_expectTimelineUsesCustomShuffleOrder() {
    ShuffleOrder shuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length= */ PLAYLIST_SIZE);
    playlist.addMediaSources(/* index= */ 0, createFakeHolders(), shuffleOrder);
    Timeline timeline =
        playlist.moveMediaSource(
            /* currentIndex= */ 0, /* newIndex= */ 1, new FakeShuffleOrder(PLAYLIST_SIZE));
    assertTimelineUsesFakeShuffleOrder(timeline);
  }
  @Test
  public void testMoveMediaSourceRange_expectTimelineUsesCustomShuffleOrder() {
    ShuffleOrder shuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length= */ PLAYLIST_SIZE);
    playlist.addMediaSources(/* index= */ 0, createFakeHolders(), shuffleOrder);
    Timeline timeline =
        playlist.moveMediaSourceRange(
            /* fromIndex= */ 0,
            /* toIndex= */ 2,
            /* newFromIndex= */ 2,
            new FakeShuffleOrder(PLAYLIST_SIZE));
    assertTimelineUsesFakeShuffleOrder(timeline);
  }
  @Test
  public void testRemoveMediaSourceRange_expectTimelineUsesCustomShuffleOrder() {
    ShuffleOrder shuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length= */ PLAYLIST_SIZE);
    playlist.addMediaSources(/* index= */ 0, createFakeHolders(), shuffleOrder);
    Timeline timeline =
        playlist.removeMediaSourceRange(
            /* fromIndex= */ 0, /* toIndex= */ 2, new FakeShuffleOrder(/* length= */ 2));
    assertTimelineUsesFakeShuffleOrder(timeline);
  }
  @Test
  public void testSetShuffleOrder_expectTimelineUsesCustomShuffleOrder() {
    playlist.setMediaSources(
        createFakeHolders(), new ShuffleOrder.DefaultShuffleOrder(/* length= */ PLAYLIST_SIZE));
    assertTimelineUsesFakeShuffleOrder(
        playlist.setShuffleOrder(new FakeShuffleOrder(PLAYLIST_SIZE)));
  }
  // Internal methods.
  private static void assertTimelineUsesFakeShuffleOrder(Timeline timeline) {
    assertThat(
            timeline.getNextWindowIndex(
                /* windowIndex= */ 0, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ true))
        .isEqualTo(-1);
    assertThat(
            timeline.getPreviousWindowIndex(
                /* windowIndex= */ timeline.getWindowCount() - 1,
                Player.REPEAT_MODE_OFF,
                /* shuffleModeEnabled= */ true))
        .isEqualTo(-1);
  }
  private static void assertDefaultFirstWindowInChildIndexOrder(
      List<Playlist.MediaSourceHolder> holders) {
    int[] indices = new int[holders.size()];
    for (int i = 0; i < indices.length; i++) {
      indices[i] = i;
    }
    assertFirstWindowInChildIndices(holders, indices);
  }
  private static void assertFirstWindowInChildIndices(
      List<Playlist.MediaSourceHolder> holders, int... firstWindowInChildIndices) {
    assertThat(holders).hasSize(firstWindowInChildIndices.length);
    for (int i = 0; i < holders.size(); i++) {
      assertThat(holders.get(i).firstWindowIndexInChild).isEqualTo(firstWindowInChildIndices[i]);
    }
  }
  private static List<Playlist.MediaSourceHolder> createFakeHolders() {
    MediaSource fakeMediaSource = new FakeMediaSource(new FakeTimeline(1));
    List<Playlist.MediaSourceHolder> holders = new ArrayList<>();
    for (int i = 0; i < PLAYLIST_SIZE; i++) {
      holders.add(new Playlist.MediaSourceHolder(fakeMediaSource, /* useLazyPreparation= */ true));
    }
    return holders;
  }
  private static List<Playlist.MediaSourceHolder> createFakeHoldersWithSources(
      boolean useLazyPreparation, MediaSource... sources) {
    List<Playlist.MediaSourceHolder> holders = new ArrayList<>();
    for (MediaSource mediaSource : sources) {
      holders.add(
          new Playlist.MediaSourceHolder(
              mediaSource, /* useLazyPreparation= */ useLazyPreparation));
    }
    return holders;
  }
 }
--- a/library/core/src/test/java/com/google/android/exoplayer2/TimelineTest.java
+++ b/library/core/src/test/java/com/google/android/exoplayer2/TimelineTest.java
@ -15,6 +15,8 @@
 */
 package com.google.android.exoplayer2;
 import static com.google.common.truth.Truth.assertThat;
 import androidx.test.ext.junit.runners.AndroidJUnit4;
 import com.google.android.exoplayer2.testutil.FakeTimeline;
 import com.google.android.exoplayer2.testutil.FakeTimeline.TimelineWindowDefinition;
@ -58,4 +60,142 @@ public class TimelineTest {
    TimelineAsserts.assertNextWindowIndices(timeline, Player.REPEAT_MODE_ONE, false, 0);
    TimelineAsserts.assertNextWindowIndices(timeline, Player.REPEAT_MODE_ALL, false, 0);
  }
  @Test
  public void testWindowEquals() {
    Timeline.Window window = new Timeline.Window();
    assertThat(window).isEqualTo(new Timeline.Window());
    Timeline.Window otherWindow = new Timeline.Window();
    otherWindow.tag = new Object();
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.manifest = new Object();
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.presentationStartTimeMs = C.TIME_UNSET;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.windowStartTimeMs = C.TIME_UNSET;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.isSeekable = true;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.isDynamic = true;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.defaultPositionUs = C.TIME_UNSET;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.durationUs = C.TIME_UNSET;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.firstPeriodIndex = 1;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.lastPeriodIndex = 1;
    assertThat(window).isNotEqualTo(otherWindow);
    otherWindow = new Timeline.Window();
    otherWindow.positionInFirstPeriodUs = C.TIME_UNSET;
    assertThat(window).isNotEqualTo(otherWindow);
    window.uid = new Object();
    window.tag = new Object();
    window.manifest = new Object();
    window.presentationStartTimeMs = C.TIME_UNSET;
    window.windowStartTimeMs = C.TIME_UNSET;
    window.isSeekable = true;
    window.isDynamic = true;
    window.defaultPositionUs = C.TIME_UNSET;
    window.durationUs = C.TIME_UNSET;
    window.firstPeriodIndex = 1;
    window.lastPeriodIndex = 1;
    window.positionInFirstPeriodUs = C.TIME_UNSET;
    otherWindow =
        otherWindow.set(
            window.uid,
            window.tag,
            window.manifest,
            window.presentationStartTimeMs,
            window.windowStartTimeMs,
            window.isSeekable,
            window.isDynamic,
            window.defaultPositionUs,
            window.durationUs,
            window.firstPeriodIndex,
            window.lastPeriodIndex,
            window.positionInFirstPeriodUs);
    assertThat(window).isEqualTo(otherWindow);
  }
  @Test
  public void testWindowHashCode() {
    Timeline.Window window = new Timeline.Window();
    Timeline.Window otherWindow = new Timeline.Window();
    assertThat(window.hashCode()).isEqualTo(otherWindow.hashCode());
    window.tag = new Object();
    assertThat(window.hashCode()).isNotEqualTo(otherWindow.hashCode());
    otherWindow.tag = window.tag;
    assertThat(window.hashCode()).isEqualTo(otherWindow.hashCode());
  }
  @Test
  public void testPeriodEquals() {
    Timeline.Period period = new Timeline.Period();
    assertThat(period).isEqualTo(new Timeline.Period());
    Timeline.Period otherPeriod = new Timeline.Period();
    otherPeriod.id = new Object();
    assertThat(period).isNotEqualTo(otherPeriod);
    otherPeriod = new Timeline.Period();
    otherPeriod.uid = new Object();
    assertThat(period).isNotEqualTo(otherPeriod);
    otherPeriod = new Timeline.Period();
    otherPeriod.windowIndex = 12;
    assertThat(period).isNotEqualTo(otherPeriod);
    otherPeriod = new Timeline.Period();
    otherPeriod.durationUs = 11L;
    assertThat(period).isNotEqualTo(otherPeriod);
    otherPeriod = new Timeline.Period();
    period.id = new Object();
    period.uid = new Object();
    period.windowIndex = 1;
    period.durationUs = 123L;
    otherPeriod =
        otherPeriod.set(
            period.id,
            period.uid,
            period.windowIndex,
            period.durationUs,
            /* positionInWindowUs= */ 0);
    assertThat(period).isEqualTo(otherPeriod);
  }
  @Test
  public void testPeriodHashCode() {
    Timeline.Period period = new Timeline.Period();
    Timeline.Period otherPeriod = new Timeline.Period();
    assertThat(period.hashCode()).isEqualTo(otherPeriod.hashCode());
    period.windowIndex = 12;
    assertThat(period.hashCode()).isNotEqualTo(otherPeriod.hashCode());
    otherPeriod.windowIndex = period.windowIndex;
    assertThat(period.hashCode()).isEqualTo(otherPeriod.hashCode());
  }
 }
--- a/library/core/src/test/java/com/google/android/exoplayer2/analytics/AnalyticsCollectorTest.java
+++ b/library/core/src/test/java/com/google/android/exoplayer2/analytics/AnalyticsCollectorTest.java
@ -44,7 +44,6 @@ import com.google.android.exoplayer2.source.TrackGroupArray;
 import com.google.android.exoplayer2.testutil.ActionSchedule;
 import com.google.android.exoplayer2.testutil.ActionSchedule.PlayerRunnable;
 import com.google.android.exoplayer2.testutil.ExoPlayerTestRunner;
 import com.google.android.exoplayer2.testutil.ExoPlayerTestRunner.Builder;
 import com.google.android.exoplayer2.testutil.FakeMediaSource;
 import com.google.android.exoplayer2.testutil.FakeRenderer;
 import com.google.android.exoplayer2.testutil.FakeTimeline;
@ -133,7 +132,8 @@ public final class AnalyticsCollectorTest {
    assertThat(listener.getEvents(EVENT_PLAYER_STATE_CHANGED))
        .containsExactly(
            WINDOW_0 /* setPlayWhenReady */, WINDOW_0 /* BUFFERING */, WINDOW_0 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, WINDOW_0 /* DYNAMIC */);
    listener.assertNoMoreEvents();
  }
@ -142,18 +142,19 @@ public final class AnalyticsCollectorTest {
    FakeMediaSource mediaSource =
        new FakeMediaSource(
            SINGLE_PERIOD_TIMELINE,
-            Builder.VIDEO_FORMAT,
+            ExoPlayerTestRunner.Builder.VIDEO_FORMAT,
-            Builder.AUDIO_FORMAT);
+            ExoPlayerTestRunner.Builder.AUDIO_FORMAT);
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource);
-    populateEventIds(SINGLE_PERIOD_TIMELINE);
+    populateEventIds(listener.lastReportedTimeline);
    assertThat(listener.getEvents(EVENT_PLAYER_STATE_CHANGED))
        .containsExactly(
            WINDOW_0 /* setPlayWhenReady */,
            WINDOW_0 /* BUFFERING */,
            period0 /* READY */,
            period0 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, WINDOW_0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_LOADING_CHANGED))
        .containsExactly(period0 /* started */, period0 /* stopped */);
    assertThat(listener.getEvents(EVENT_TRACKS_CHANGED)).containsExactly(period0);
@ -184,12 +185,12 @@ public final class AnalyticsCollectorTest {
        new ConcatenatingMediaSource(
            new FakeMediaSource(
                SINGLE_PERIOD_TIMELINE,
-                Builder.VIDEO_FORMAT,
+                ExoPlayerTestRunner.Builder.VIDEO_FORMAT,
-                Builder.AUDIO_FORMAT),
+                ExoPlayerTestRunner.Builder.AUDIO_FORMAT),
            new FakeMediaSource(
                SINGLE_PERIOD_TIMELINE,
-                Builder.VIDEO_FORMAT,
+                ExoPlayerTestRunner.Builder.VIDEO_FORMAT,
-                Builder.AUDIO_FORMAT));
+                ExoPlayerTestRunner.Builder.AUDIO_FORMAT));
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource);
    populateEventIds(listener.lastReportedTimeline);
@ -199,7 +200,8 @@ public final class AnalyticsCollectorTest {
            WINDOW_0 /* BUFFERING */,
            period0 /* READY */,
            period1 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, period0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_POSITION_DISCONTINUITY)).containsExactly(period1);
    assertThat(listener.getEvents(EVENT_LOADING_CHANGED))
        .containsExactly(period0, period0, period0, period0);
@ -241,8 +243,8 @@ public final class AnalyticsCollectorTest {
  public void testPeriodTransitionWithRendererChange() throws Exception {
    MediaSource mediaSource =
        new ConcatenatingMediaSource(
-            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT),
+            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT),
-            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.AUDIO_FORMAT));
+            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.AUDIO_FORMAT));
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource);
    populateEventIds(listener.lastReportedTimeline);
@ -254,7 +256,8 @@ public final class AnalyticsCollectorTest {
            period1 /* BUFFERING */,
            period1 /* READY */,
            period1 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, period0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_POSITION_DISCONTINUITY)).containsExactly(period1);
    assertThat(listener.getEvents(EVENT_LOADING_CHANGED))
        .containsExactly(period0, period0, period0, period0);
@ -294,8 +297,8 @@ public final class AnalyticsCollectorTest {
  public void testSeekToOtherPeriod() throws Exception {
    MediaSource mediaSource =
        new ConcatenatingMediaSource(
-            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT),
+            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT),
-            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.AUDIO_FORMAT));
+            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.AUDIO_FORMAT));
    ActionSchedule actionSchedule =
        new ActionSchedule.Builder("AnalyticsCollectorTest")
            .pause()
@ -316,7 +319,8 @@ public final class AnalyticsCollectorTest {
            period1 /* READY */,
            period1 /* setPlayWhenReady=true */,
            period1 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, period0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_POSITION_DISCONTINUITY)).containsExactly(period1);
    assertThat(listener.getEvents(EVENT_SEEK_STARTED)).containsExactly(period0);
    assertThat(listener.getEvents(EVENT_SEEK_PROCESSED)).containsExactly(period1);
@ -358,9 +362,11 @@ public final class AnalyticsCollectorTest {
  public void testSeekBackAfterReadingAhead() throws Exception {
    MediaSource mediaSource =
        new ConcatenatingMediaSource(
-            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT),
+            new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT),
            new FakeMediaSource(
-                SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT, Builder.AUDIO_FORMAT));
+                SINGLE_PERIOD_TIMELINE,
                ExoPlayerTestRunner.Builder.VIDEO_FORMAT,
                ExoPlayerTestRunner.Builder.AUDIO_FORMAT));
    long periodDurationMs =
        SINGLE_PERIOD_TIMELINE.getWindow(/* windowIndex= */ 0, new Window()).getDurationMs();
    ActionSchedule actionSchedule =
@ -388,7 +394,8 @@ public final class AnalyticsCollectorTest {
            period1Seq2 /* BUFFERING */,
            period1Seq2 /* READY */,
            period1Seq2 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(WINDOW_0 /* PLAYLIST_CHANGED */, period0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_POSITION_DISCONTINUITY))
        .containsExactly(period0, period1Seq2);
    assertThat(listener.getEvents(EVENT_SEEK_STARTED)).containsExactly(period0);
@ -436,18 +443,28 @@ public final class AnalyticsCollectorTest {
  @Test
  public void testPrepareNewSource() throws Exception {
-    MediaSource mediaSource1 = new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT);
+    MediaSource mediaSource1 =
-    MediaSource mediaSource2 = new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT);
+        new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT);
    MediaSource mediaSource2 =
        new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT);
    ActionSchedule actionSchedule =
        new ActionSchedule.Builder("AnalyticsCollectorTest")
            .pause()
            .waitForPlaybackState(Player.STATE_READY)
-            .prepareSource(mediaSource2)
+            .setMediaItems(/* resetPosition= */ false, mediaSource2)
            .play()
            .build();
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource1, actionSchedule);
-    populateEventIds(SINGLE_PERIOD_TIMELINE);
+    // Populate all event ids with last timeline (after second prepare).
    populateEventIds(listener.lastReportedTimeline);
    // Populate event id of period 0, sequence 0 with timeline of initial preparation.
    period0Seq0 =
        new EventWindowAndPeriodId(
            /* windowIndex= */ 0,
            new MediaPeriodId(
                listener.reportedTimelines.get(1).getUidOfPeriod(/* periodIndex= */ 0),
                /* windowSequenceNumber= */ 0));
    assertThat(listener.getEvents(EVENT_PLAYER_STATE_CHANGED))
        .containsExactly(
            WINDOW_0 /* setPlayWhenReady=true */,
@ -459,12 +476,16 @@ public final class AnalyticsCollectorTest {
            period0Seq1 /* READY */,
            period0Seq1 /* ENDED */);
    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
-        .containsExactly(WINDOW_0 /* prepared */, WINDOW_0 /* reset */, WINDOW_0 /* prepared */);
+        .containsExactly(
            WINDOW_0 /* PLAYLIST_CHANGE */,
            WINDOW_0 /* DYNAMIC */,
            WINDOW_0 /* PLAYLIST_CHANGE */,
            WINDOW_0 /* DYNAMIC */);
    assertThat(listener.getEvents(EVENT_LOADING_CHANGED))
        .containsExactly(period0Seq0, period0Seq0, period0Seq1, period0Seq1);
    assertThat(listener.getEvents(EVENT_TRACKS_CHANGED))
        .containsExactly(
-            period0Seq0 /* prepared */, WINDOW_0 /* reset */, period0Seq1 /* prepared */);
+            period0Seq0 /* prepared */, WINDOW_0 /* setMediaItems */, period0Seq1 /* prepared */);
    assertThat(listener.getEvents(EVENT_LOAD_STARTED))
        .containsExactly(
            WINDOW_0 /* manifest */,
@ -498,19 +519,20 @@ public final class AnalyticsCollectorTest {
  @Test
  public void testReprepareAfterError() throws Exception {
-    MediaSource mediaSource = new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT);
+    MediaSource mediaSource =
        new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT);
    ActionSchedule actionSchedule =
        new ActionSchedule.Builder("AnalyticsCollectorTest")
            .waitForPlaybackState(Player.STATE_READY)
            .throwPlaybackException(ExoPlaybackException.createForSource(new IOException()))
            .waitForPlaybackState(Player.STATE_IDLE)
            .seek(/* positionMs= */ 0)
-            .prepareSource(mediaSource, /* resetPosition= */ false, /* resetState= */ false)
+            .prepare()
            .waitForPlaybackState(Player.STATE_ENDED)
            .build();
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource, actionSchedule);
-    populateEventIds(SINGLE_PERIOD_TIMELINE);
+    populateEventIds(listener.lastReportedTimeline);
    assertThat(listener.getEvents(EVENT_PLAYER_STATE_CHANGED))
        .containsExactly(
            WINDOW_0 /* setPlayWhenReady=true */,
@ -564,7 +586,7 @@ public final class AnalyticsCollectorTest {
  @Test
  public void testDynamicTimelineChange() throws Exception {
    MediaSource childMediaSource =
-        new FakeMediaSource(SINGLE_PERIOD_TIMELINE, Builder.VIDEO_FORMAT);
+        new FakeMediaSource(SINGLE_PERIOD_TIMELINE, ExoPlayerTestRunner.Builder.VIDEO_FORMAT);
    final ConcatenatingMediaSource concatenatedMediaSource =
        new ConcatenatingMediaSource(childMediaSource, childMediaSource);
    long periodDurationMs =
@ -596,7 +618,11 @@ public final class AnalyticsCollectorTest {
            period1Seq0 /* setPlayWhenReady=true */,
            period1Seq0 /* BUFFERING */,
            period1Seq0 /* ENDED */);
-    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED)).containsExactly(WINDOW_0, period1Seq0);
+    assertThat(listener.getEvents(EVENT_TIMELINE_CHANGED))
        .containsExactly(
            WINDOW_0 /* PLAYLIST_CHANGED */,
            window0Period1Seq0 /* DYNAMIC (concatenated timeline replaces dummy) */,
            period1Seq0 /* DYNAMIC (child sources in concatenating source moved) */);
    assertThat(listener.getEvents(EVENT_LOADING_CHANGED))
        .containsExactly(
            window0Period1Seq0, window0Period1Seq0, window0Period1Seq0, window0Period1Seq0);
@ -650,7 +676,7 @@ public final class AnalyticsCollectorTest {
            .build();
    TestAnalyticsListener listener = runAnalyticsTest(mediaSource, actionSchedule);
-    populateEventIds(SINGLE_PERIOD_TIMELINE);
+    populateEventIds(listener.lastReportedTimeline);
    assertThat(listener.getEvents(EVENT_SEEK_STARTED)).containsExactly(period0);
    assertThat(listener.getEvents(EVENT_SEEK_PROCESSED)).containsExactly(period0);
  }
@ -717,7 +743,7 @@ public final class AnalyticsCollectorTest {
    TestAnalyticsListener listener = new TestAnalyticsListener();
    try {
      new ExoPlayerTestRunner.Builder()
-          .setMediaSource(mediaSource)
+          .setMediaSources(mediaSource)
          .setRenderersFactory(renderersFactory)
          .setAnalyticsListener(listener)
          .setActionSchedule(actionSchedule)
@ -739,7 +765,7 @@ public final class AnalyticsCollectorTest {
    private boolean renderedFirstFrame;
    public FakeVideoRenderer(Handler handler, VideoRendererEventListener eventListener) {
-      super(Builder.VIDEO_FORMAT);
+      super(ExoPlayerTestRunner.Builder.VIDEO_FORMAT);
      eventDispatcher = new VideoRendererEventListener.EventDispatcher(handler, eventListener);
      decoderCounters = new DecoderCounters();
    }
@ -797,7 +823,7 @@ public final class AnalyticsCollectorTest {
    private boolean notifiedAudioSessionId;
    public FakeAudioRenderer(Handler handler, AudioRendererEventListener eventListener) {
-      super(Builder.AUDIO_FORMAT);
+      super(ExoPlayerTestRunner.Builder.AUDIO_FORMAT);
      eventDispatcher = new AudioRendererEventListener.EventDispatcher(handler, eventListener);
      decoderCounters = new DecoderCounters();
    }
@ -881,10 +907,12 @@ public final class AnalyticsCollectorTest {
    public Timeline lastReportedTimeline;
    private final List<Timeline> reportedTimelines;
    private final ArrayList<ReportedEvent> reportedEvents;
    public TestAnalyticsListener() {
      reportedEvents = new ArrayList<>();
      reportedTimelines = new ArrayList<>();
      lastReportedTimeline = Timeline.EMPTY;
    }
@ -914,6 +942,7 @@ public final class AnalyticsCollectorTest {
    @Override
    public void onTimelineChanged(EventTime eventTime, int reason) {
      lastReportedTimeline = eventTime.timeline;
      reportedTimelines.add(eventTime.timeline);
      reportedEvents.add(new ReportedEvent(EVENT_TIMELINE_CHANGED, eventTime));
    }
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/Action.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/Action.java
@ -21,6 +21,7 @@ import androidx.annotation.Nullable;
 import com.google.android.exoplayer2.C;
 import com.google.android.exoplayer2.ExoPlaybackException;
 import com.google.android.exoplayer2.ExoPlayer;
 import com.google.android.exoplayer2.IllegalSeekPositionException;
 import com.google.android.exoplayer2.PlaybackParameters;
 import com.google.android.exoplayer2.Player;
 import com.google.android.exoplayer2.PlayerMessage;
@ -28,6 +29,7 @@ import com.google.android.exoplayer2.PlayerMessage.Target;
 import com.google.android.exoplayer2.SimpleExoPlayer;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.testutil.ActionSchedule.ActionNode;
 import com.google.android.exoplayer2.testutil.ActionSchedule.PlayerRunnable;
 import com.google.android.exoplayer2.testutil.ActionSchedule.PlayerTarget;
@ -36,10 +38,10 @@ import com.google.android.exoplayer2.trackselection.DefaultTrackSelector.Paramet
 import com.google.android.exoplayer2.util.ConditionVariable;
 import com.google.android.exoplayer2.util.HandlerWrapper;
 import com.google.android.exoplayer2.util.Log;
 import java.util.Arrays;
 import java.util.List;
-/**
+/** Base class for actions to perform during playback tests. */
 * Base class for actions to perform during playback tests.
 */
 public abstract class Action {
  private final String tag;
@ -109,13 +111,12 @@ public abstract class Action {
  protected abstract void doActionImpl(
      SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface);
-  /**
+  /** Calls {@link Player#seekTo(long)} or {@link Player#seekTo(int, long)}. */
   * Calls {@link Player#seekTo(long)} or {@link Player#seekTo(int, long)}.
   */
  public static final class Seek extends Action {
    private final Integer windowIndex;
    private final long positionMs;
    private final boolean catchIllegalSeekException;
    /**
     * Action calls {@link Player#seekTo(long)}.
@ -127,6 +128,7 @@ public abstract class Action {
      super(tag, "Seek:" + positionMs);
      this.windowIndex = null;
      this.positionMs = positionMs;
      catchIllegalSeekException = false;
    }
    /**
@ -135,28 +137,171 @@ public abstract class Action {
     * @param tag A tag to use for logging.
     * @param windowIndex The window to seek to.
     * @param positionMs The seek position.
     * @param catchIllegalSeekException Whether {@link IllegalSeekPositionException} should be
     *     silently caught or not.
     */
-    public Seek(String tag, int windowIndex, long positionMs) {
+    public Seek(String tag, int windowIndex, long positionMs, boolean catchIllegalSeekException) {
      super(tag, "Seek:" + positionMs);
      this.windowIndex = windowIndex;
      this.positionMs = positionMs;
      this.catchIllegalSeekException = catchIllegalSeekException;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
-      if (windowIndex == null) {
+      try {
-        player.seekTo(positionMs);
+        if (windowIndex == null) {
-      } else {
+          player.seekTo(positionMs);
-        player.seekTo(windowIndex, positionMs);
+        } else {
          player.seekTo(windowIndex, positionMs);
        }
      } catch (IllegalSeekPositionException e) {
        if (!catchIllegalSeekException) {
          throw e;
        }
      }
    }
  }
-  /**
+  /** Calls {@link SimpleExoPlayer#setMediaItems(List, int, long)}. */
-   * Calls {@link Player#stop()} or {@link Player#stop(boolean)}.
+  public static final class SetMediaItems extends Action {
-   */
+
    private final int windowIndex;
    private final long positionMs;
    private final MediaSource[] mediaSources;
    /**
     * @param tag A tag to use for logging.
     * @param windowIndex The window index to start playback from.
     * @param positionMs The position in milliseconds to start playback from.
     * @param mediaSources The media sources to populate the playlist with.
     */
    public SetMediaItems(
        String tag, int windowIndex, long positionMs, MediaSource... mediaSources) {
      super(tag, "SetMediaItems");
      this.windowIndex = windowIndex;
      this.positionMs = positionMs;
      this.mediaSources = mediaSources;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setMediaItems(Arrays.asList(mediaSources), windowIndex, positionMs);
    }
  }
  /** Calls {@link SimpleExoPlayer#setMediaItems(List, boolean)}. */
  public static final class SetMediaItemsResetPosition extends Action {
    private final boolean resetPosition;
    private final MediaSource[] mediaSources;
    /**
     * @param tag A tag to use for logging.
     * @param resetPosition Whether the position should be reset.
     * @param mediaSources The media sources to populate the playlist with.
     */
    public SetMediaItemsResetPosition(
        String tag, boolean resetPosition, MediaSource... mediaSources) {
      super(tag, "SetMediaItems");
      this.resetPosition = resetPosition;
      this.mediaSources = mediaSources;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setMediaItems(Arrays.asList(mediaSources), resetPosition);
    }
  }
  /** Calls {@link SimpleExoPlayer#moveMediaItem(int, int)}. */
  public static class MoveMediaItem extends Action {
    private final int currentIndex;
    private final int newIndex;
    /**
     * @param tag A tag to use for logging.
     * @param currentIndex The current index of the media item.
     * @param newIndex The new index of the media item.
     */
    public MoveMediaItem(String tag, int currentIndex, int newIndex) {
      super(tag, "MoveMediaItem");
      this.currentIndex = currentIndex;
      this.newIndex = newIndex;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.moveMediaItem(currentIndex, newIndex);
    }
  }
  /** Calls {@link SimpleExoPlayer#removeMediaItem(int)}. */
  public static class RemoveMediaItem extends Action {
    private final int index;
    /**
     * @param tag A tag to use for logging.
     * @param index The index of the item to remove.
     */
    public RemoveMediaItem(String tag, int index) {
      super(tag, "RemoveMediaItem");
      this.index = index;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.removeMediaItem(index);
    }
  }
  /** Calls {@link SimpleExoPlayer#removeMediaItems(int, int)}. */
  public static class RemoveMediaItems extends Action {
    private final int fromIndex;
    private final int toIndex;
    /**
     * @param tag A tag to use for logging.
     * @param fromIndex The start if the range of media items to remove.
     * @param toIndex The end of the range of media items to remove (exclusive).
     */
    public RemoveMediaItems(String tag, int fromIndex, int toIndex) {
      super(tag, "RemoveMediaItem");
      this.fromIndex = fromIndex;
      this.toIndex = toIndex;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.removeMediaItems(fromIndex, toIndex);
    }
  }
  /** Calls {@link SimpleExoPlayer#clearMediaItems()}}. */
  public static class ClearMediaItems extends Action {
    /** @param tag A tag to use for logging. */
    public ClearMediaItems(String tag) {
      super(tag, "ClearMediaItems");
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.clearMediaItems();
    }
  }
  /** Calls {@link Player#stop()} or {@link Player#stop(boolean)}. */
  public static final class Stop extends Action {
    private static final String STOP_ACTION_TAG = "Stop";
@ -192,14 +337,10 @@ public abstract class Action {
      } else {
        player.stop(reset);
      }
    }
  }
-  /**
+  /** Calls {@link Player#setPlayWhenReady(boolean)}. */
   * Calls {@link Player#setPlayWhenReady(boolean)}.
   */
  public static final class SetPlayWhenReady extends Action {
    private final boolean playWhenReady;
@ -218,7 +359,6 @@ public abstract class Action {
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setPlayWhenReady(playWhenReady);
    }
  }
  /**
@ -247,17 +387,12 @@ public abstract class Action {
      trackSelector.setParameters(
          trackSelector.buildUponParameters().setRendererDisabled(rendererIndex, disabled));
    }
  }
-  /**
+  /** Calls {@link SimpleExoPlayer#clearVideoSurface()}. */
   * Calls {@link SimpleExoPlayer#clearVideoSurface()}.
   */
  public static final class ClearVideoSurface extends Action {
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public ClearVideoSurface(String tag) {
      super(tag, "ClearVideoSurface");
    }
@ -267,17 +402,12 @@ public abstract class Action {
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.clearVideoSurface();
    }
  }
-  /**
+  /** Calls {@link SimpleExoPlayer#setVideoSurface(Surface)}. */
   * Calls {@link SimpleExoPlayer#setVideoSurface(Surface)}.
   */
  public static final class SetVideoSurface extends Action {
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public SetVideoSurface(String tag) {
      super(tag, "SetVideoSurface");
    }
@ -287,56 +417,30 @@ public abstract class Action {
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setVideoSurface(surface);
    }
  }
-  /**
+  /** Calls {@link ExoPlayer#prepare()}. */
-   * Calls {@link ExoPlayer#prepare(MediaSource)}.
+  public static final class Prepare extends Action {
-   */
+    /** @param tag A tag to use for logging. */
-  public static final class PrepareSource extends Action {
+    public Prepare(String tag) {
-
+      super(tag, "Prepare");
    private final MediaSource mediaSource;
    private final boolean resetPosition;
    private final boolean resetState;
    /**
     * @param tag A tag to use for logging.
     */
    public PrepareSource(String tag, MediaSource mediaSource) {
      this(tag, mediaSource, true, true);
    }
    /**
     * @param tag A tag to use for logging.
     */
    public PrepareSource(String tag, MediaSource mediaSource, boolean resetPosition,
        boolean resetState) {
      super(tag, "PrepareSource");
      this.mediaSource = mediaSource;
      this.resetPosition = resetPosition;
      this.resetState = resetState;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
-      player.prepare(mediaSource, resetPosition, resetState);
+      player.prepare();
    }
  }
-  /**
+  /** Calls {@link Player#setRepeatMode(int)}. */
   * Calls {@link Player#setRepeatMode(int)}.
   */
  public static final class SetRepeatMode extends Action {
-    private final @Player.RepeatMode int repeatMode;
+    @Player.RepeatMode private final int repeatMode;
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public SetRepeatMode(String tag, @Player.RepeatMode int repeatMode) {
-      super(tag, "SetRepeatMode:" + repeatMode);
+      super(tag, "SetRepeatMode: " + repeatMode);
      this.repeatMode = repeatMode;
    }
@ -345,21 +449,37 @@ public abstract class Action {
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setRepeatMode(repeatMode);
    }
  }
-  /**
+  /** Calls {@link ExoPlayer#setShuffleOrder(ShuffleOrder)} . */
-   * Calls {@link Player#setShuffleModeEnabled(boolean)}.
+  public static final class SetShuffleOrder extends Action {
-   */
+
    private final ShuffleOrder shuffleOrder;
    /**
     * @param tag A tag to use for logging.
     * @param shuffleOrder The shuffle order.
     */
    public SetShuffleOrder(String tag, ShuffleOrder shuffleOrder) {
      super(tag, "SetShufflerOrder");
      this.shuffleOrder = shuffleOrder;
    }
    @Override
    protected void doActionImpl(
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setShuffleOrder(shuffleOrder);
    }
  }
  /** Calls {@link Player#setShuffleModeEnabled(boolean)}. */
  public static final class SetShuffleModeEnabled extends Action {
    private final boolean shuffleModeEnabled;
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public SetShuffleModeEnabled(String tag, boolean shuffleModeEnabled) {
-      super(tag, "SetShuffleModeEnabled:" + shuffleModeEnabled);
+      super(tag, "SetShuffleModeEnabled: " + shuffleModeEnabled);
      this.shuffleModeEnabled = shuffleModeEnabled;
    }
@ -427,9 +547,7 @@ public abstract class Action {
    }
  }
-  /**
+  /** Calls {@link Player#setPlaybackParameters(PlaybackParameters)}. */
   * Calls {@link Player#setPlaybackParameters(PlaybackParameters)}.
   */
  public static final class SetPlaybackParameters extends Action {
    private final PlaybackParameters playbackParameters;
@ -448,7 +566,6 @@ public abstract class Action {
        SimpleExoPlayer player, DefaultTrackSelector trackSelector, Surface surface) {
      player.setPlaybackParameters(playbackParameters);
    }
  }
  /** Throws a playback exception on the playback thread. */
@ -545,18 +662,35 @@ public abstract class Action {
  /** Waits for {@link Player.EventListener#onTimelineChanged(Timeline, int)}. */
  public static final class WaitForTimelineChanged extends Action {
-    @Nullable private final Timeline expectedTimeline;
+    private final Timeline expectedTimeline;
    private final boolean ignoreExpectedReason;
    @Player.TimelineChangeReason private final int expectedReason;
    /**
-     * Creates action waiting for a timeline change.
+     * Creates action waiting for a timeline change for a given reason.
     *
     * @param tag A tag to use for logging.
-     * @param expectedTimeline The expected timeline to wait for. If null, wait for any timeline
+     * @param expectedTimeline The expected timeline or null if any timeline change is relevant.
-     *     change.
+     * @param expectedReason The expected timeline change reason.
     */
-    public WaitForTimelineChanged(String tag, @Nullable Timeline expectedTimeline) {
+    public WaitForTimelineChanged(
        String tag, Timeline expectedTimeline, @Player.TimelineChangeReason int expectedReason) {
      super(tag, "WaitForTimelineChanged");
      this.expectedTimeline = expectedTimeline;
      this.ignoreExpectedReason = false;
      this.expectedReason = expectedReason;
    }
    /**
     * Creates action waiting for any timeline change for any reason.
     *
     * @param tag A tag to use for logging.
     */
    public WaitForTimelineChanged(String tag) {
      super(tag, "WaitForTimelineChanged");
      this.expectedTimeline = null;
      this.ignoreExpectedReason = true;
      this.expectedReason = Player.TIMELINE_CHANGE_REASON_PLAYLIST_CHANGED;
    }
    @Override
@ -574,7 +708,9 @@ public abstract class Action {
            @Override
            public void onTimelineChanged(
                Timeline timeline, @Player.TimelineChangeReason int reason) {
-              if (expectedTimeline == null || timeline.equals(expectedTimeline)) {
+              if ((expectedTimeline == null
                      || TestUtil.areTimelinesSame(expectedTimeline, timeline))
                  && (ignoreExpectedReason || expectedReason == reason)) {
                player.removeListener(this);
                nextAction.schedule(player, trackSelector, surface, handler);
              }
@ -594,14 +730,10 @@ public abstract class Action {
    }
  }
-  /**
+  /** Waits for {@link Player.EventListener#onPositionDiscontinuity(int)}. */
   * Waits for {@link Player.EventListener#onPositionDiscontinuity(int)}.
   */
  public static final class WaitForPositionDiscontinuity extends Action {
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public WaitForPositionDiscontinuity(String tag) {
      super(tag, "WaitForPositionDiscontinuity");
    }
@ -634,16 +766,14 @@ public abstract class Action {
  }
  /**
-   * Waits for a specified playback state, returning either immediately or after a call to
+   * Waits for a specified playback state, returning either immediately or after a call to {@link
-   * {@link Player.EventListener#onPlayerStateChanged(boolean, int)}.
+   * Player.EventListener#onPlayerStateChanged(boolean, int)}.
   */
  public static final class WaitForPlaybackState extends Action {
    private final int targetPlaybackState;
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public WaitForPlaybackState(String tag, int targetPlaybackState) {
      super(tag, "WaitForPlaybackState");
      this.targetPlaybackState = targetPlaybackState;
@ -733,14 +863,10 @@ public abstract class Action {
    }
  }
-  /**
+  /** Waits for {@link Player.EventListener#onSeekProcessed()}. */
   * Waits for {@link Player.EventListener#onSeekProcessed()}.
   */
  public static final class WaitForSeekProcessed extends Action {
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public WaitForSeekProcessed(String tag) {
      super(tag, "WaitForSeekProcessed");
    }
@ -772,16 +898,12 @@ public abstract class Action {
    }
  }
-  /**
+  /** Calls {@code Runnable.run()}. */
   * Calls {@link Runnable#run()}.
   */
  public static final class ExecuteRunnable extends Action {
    private final Runnable runnable;
-    /**
+    /** @param tag A tag to use for logging. */
     * @param tag A tag to use for logging.
     */
    public ExecuteRunnable(String tag, Runnable runnable) {
      super(tag, "ExecuteRunnable");
      this.runnable = runnable;
@ -795,7 +917,5 @@ public abstract class Action {
      }
      runnable.run();
    }
  }
 }
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/ActionSchedule.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/ActionSchedule.java
@ -27,10 +27,10 @@ import com.google.android.exoplayer2.PlayerMessage.Target;
 import com.google.android.exoplayer2.SimpleExoPlayer;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.testutil.Action.ClearVideoSurface;
 import com.google.android.exoplayer2.testutil.Action.ExecuteRunnable;
 import com.google.android.exoplayer2.testutil.Action.PlayUntilPosition;
 import com.google.android.exoplayer2.testutil.Action.PrepareSource;
 import com.google.android.exoplayer2.testutil.Action.Seek;
 import com.google.android.exoplayer2.testutil.Action.SendMessages;
 import com.google.android.exoplayer2.testutil.Action.SetPlayWhenReady;
@ -38,6 +38,7 @@ import com.google.android.exoplayer2.testutil.Action.SetPlaybackParameters;
 import com.google.android.exoplayer2.testutil.Action.SetRendererDisabled;
 import com.google.android.exoplayer2.testutil.Action.SetRepeatMode;
 import com.google.android.exoplayer2.testutil.Action.SetShuffleModeEnabled;
 import com.google.android.exoplayer2.testutil.Action.SetShuffleOrder;
 import com.google.android.exoplayer2.testutil.Action.SetVideoSurface;
 import com.google.android.exoplayer2.testutil.Action.Stop;
 import com.google.android.exoplayer2.testutil.Action.ThrowPlaybackException;
@ -169,7 +170,19 @@ public final class ActionSchedule {
     * @return The builder, for convenience.
     */
    public Builder seek(int windowIndex, long positionMs) {
-      return apply(new Seek(tag, windowIndex, positionMs));
+      return apply(new Seek(tag, windowIndex, positionMs, /* catchIllegalSeekException= */ false));
    }
    /**
     * Schedules a seek action to be executed.
     *
     * @param windowIndex The window to seek to.
     * @param positionMs The seek position.
     * @param catchIllegalSeekException Whether an illegal seek position should be caught or not.
     * @return The builder, for convenience.
     */
    public Builder seek(int windowIndex, long positionMs, boolean catchIllegalSeekException) {
      return apply(new Seek(tag, windowIndex, positionMs, catchIllegalSeekException));
    }
    /**
@ -301,23 +314,90 @@ public final class ActionSchedule {
    }
    /**
-     * Schedules a new source preparation action to be executed.
+     * Schedules a set media items action to be executed.
     *
     * @param windowIndex The window index to start playback from or {@link C#INDEX_UNSET} if the
     *     playback position should not be reset.
     * @param positionMs The position in milliseconds from where playback should start. If {@link
     *     C#TIME_UNSET} is passed the default position is used. In any case, if {@code windowIndex}
     *     is set to {@link C#INDEX_UNSET} the position is not reset at all and this parameter is
     *     ignored.
     * @return The builder, for convenience.
     */
-    public Builder prepareSource(MediaSource mediaSource) {
+    public Builder setMediaItems(int windowIndex, long positionMs, MediaSource... sources) {
-      return apply(new PrepareSource(tag, mediaSource));
+      return apply(new Action.SetMediaItems(tag, windowIndex, positionMs, sources));
    }
    /**
-     * Schedules a new source preparation action to be executed.
+     * Schedules a set media items action to be executed.
     *
     * @param resetPosition Whether the playback position should be reset.
     * @return The builder, for convenience.
     */
    public Builder setMediaItems(boolean resetPosition, MediaSource... sources) {
      return apply(new Action.SetMediaItemsResetPosition(tag, resetPosition, sources));
    }
    /**
     * Schedules a set media items action to be executed.
     *
     * @return The builder, for convenience.
     */
    public Builder setMediaItems(MediaSource... sources) {
      return apply(
          new Action.SetMediaItems(
              tag, /* windowIndex */ C.INDEX_UNSET, /* positionUs */ C.TIME_UNSET, sources));
    }
    /**
     * Schedules a move media item action to be executed.
     *
     * @param currentIndex The current index of the item to move.
     * @param newIndex The index after the item has been moved.
     * @return The builder, for convenience.
     */
    public Builder moveMediaItem(int currentIndex, int newIndex) {
      return apply(new Action.MoveMediaItem(tag, currentIndex, newIndex));
    }
    /**
     * Schedules a remove media item action to be executed.
     *
     * @param index The index of the media item to be removed.
     * @see com.google.android.exoplayer2.ExoPlayer#prepare(MediaSource, boolean, boolean)
     * @return The builder, for convenience.
     */
-    public Builder prepareSource(
+    public Builder removeMediaItem(int index) {
-        MediaSource mediaSource, boolean resetPosition, boolean resetState) {
+      return apply(new Action.RemoveMediaItem(tag, index));
-      return apply(new PrepareSource(tag, mediaSource, resetPosition, resetState));
+    }
    /**
     * Schedules a remove media items action to be executed.
     *
     * @param fromIndex The start of the range of media items to be removed.
     * @param toIndex The end of the range of media items to be removed (exclusive).
     * @return The builder, for convenience.
     */
    public Builder removeMediaItems(int fromIndex, int toIndex) {
      return apply(new Action.RemoveMediaItems(tag, fromIndex, toIndex));
    }
    /**
     * Schedules a prepare action to be executed.
     *
     * @return The builder, for convenience.
     */
    public Builder prepare() {
      return apply(new Action.Prepare(tag));
    }
    /**
     * Schedules a clear media items action to be created.
     *
     * @return The builder. for convenience,
     */
    public Builder clearMediaItems() {
      return apply(new Action.ClearMediaItems(tag));
    }
    /**
@ -329,6 +409,16 @@ public final class ActionSchedule {
      return apply(new SetRepeatMode(tag, repeatMode));
    }
    /**
     * Schedules a set shuffle order action to be executed.
     *
     * @param shuffleOrder The shuffle order.
     * @return The builder, for convenience.
     */
    public Builder setShuffleOrder(ShuffleOrder shuffleOrder) {
      return apply(new SetShuffleOrder(tag, shuffleOrder));
    }
    /**
     * Schedules a shuffle setting action to be executed.
     *
@ -382,18 +472,19 @@ public final class ActionSchedule {
     * @return The builder, for convenience.
     */
    public Builder waitForTimelineChanged() {
-      return apply(new WaitForTimelineChanged(tag, /* expectedTimeline= */ null));
+      return apply(new WaitForTimelineChanged(tag));
    }
    /**
     * Schedules a delay until the timeline changed to a specified expected timeline.
     *
-     * @param expectedTimeline The expected timeline to wait for. If null, wait for any timeline
+     * @param expectedTimeline The expected timeline.
-     *     change.
+     * @param expectedReason The expected reason of the timeline change.
     * @return The builder, for convenience.
     */
-    public Builder waitForTimelineChanged(Timeline expectedTimeline) {
+    public Builder waitForTimelineChanged(
-      return apply(new WaitForTimelineChanged(tag, expectedTimeline));
+        Timeline expectedTimeline, @Player.TimelineChangeReason int expectedReason) {
      return apply(new WaitForTimelineChanged(tag, expectedTimeline, expectedReason));
    }
    /**
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/ExoHostedTest.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/ExoHostedTest.java
@ -141,7 +141,8 @@ public abstract class ExoHostedTest implements AnalyticsListener, HostedTest {
      pendingSchedule = null;
    }
    DrmSessionManager<FrameworkMediaCrypto> drmSessionManager = buildDrmSessionManager(userAgent);
-    player.prepare(buildSource(host, Util.getUserAgent(host, userAgent), drmSessionManager));
+    player.setMediaItem(buildSource(host, Util.getUserAgent(host, userAgent), drmSessionManager));
    player.prepare();
  }
  @Override
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/ExoPlayerTestRunner.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/ExoPlayerTestRunner.java
@ -16,6 +16,7 @@
 package com.google.android.exoplayer2.testutil;
 import static com.google.common.truth.Truth.assertThat;
 import static junit.framework.TestCase.assertTrue;
 import android.content.Context;
 import android.os.HandlerThread;
@ -44,6 +45,7 @@ import com.google.android.exoplayer2.util.HandlerWrapper;
 import com.google.android.exoplayer2.util.MimeTypes;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.List;
 import java.util.concurrent.CountDownLatch;
 import java.util.concurrent.TimeUnit;
 import java.util.concurrent.TimeoutException;
@ -72,8 +74,8 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
    private Clock clock;
    private Timeline timeline;
    private List<MediaSource> mediaSources;
    private Object manifest;
    private MediaSource mediaSource;
    private DefaultTrackSelector trackSelector;
    private LoadControl loadControl;
    private BandwidthMeter bandwidthMeter;
@ -85,50 +87,53 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
    private AnalyticsListener analyticsListener;
    private Integer expectedPlayerEndedCount;
    public Builder() {
      mediaSources = new ArrayList<>();
    }
    /**
     * Sets a {@link Timeline} to be used by a {@link FakeMediaSource} in the test runner. The
-     * default value is a seekable, non-dynamic {@link FakeTimeline} with a duration of
+     * default value is a seekable, non-dynamic {@link FakeTimeline} with a duration of {@link
-     * {@link FakeTimeline.TimelineWindowDefinition#DEFAULT_WINDOW_DURATION_US}. Setting the
+     * FakeTimeline.TimelineWindowDefinition#DEFAULT_WINDOW_DURATION_US}. Setting the timeline is
-     * timeline is not allowed after a call to {@link #setMediaSource(MediaSource)}.
+     * not allowed after a call to {@link #setMediaSources(MediaSource...)}.
     *
     * @param timeline A {@link Timeline} to be used by a {@link FakeMediaSource} in the test
     *     runner.
     * @return This builder.
     */
    public Builder setTimeline(Timeline timeline) {
-      assertThat(mediaSource).isNull();
+      assertThat(mediaSources).isEmpty();
      this.timeline = timeline;
      return this;
    }
    /**
     * Sets a manifest to be used by a {@link FakeMediaSource} in the test runner. The default value
-     * is null. Setting the manifest is not allowed after a call to
+     * is null. Setting the manifest is not allowed after a call to {@link
-     * {@link #setMediaSource(MediaSource)}.
+     * #setMediaSources(MediaSource...)}.
     *
     * @param manifest A manifest to be used by a {@link FakeMediaSource} in the test runner.
     * @return This builder.
     */
    public Builder setManifest(Object manifest) {
-      assertThat(mediaSource).isNull();
+      assertThat(mediaSources).isEmpty();
      this.manifest = manifest;
      return this;
    }
    /**
-     * Sets a {@link MediaSource} to be used by the test runner. The default value is a
+     * Sets the {@link MediaSource}s to be used by the test runner. The default value is a {@link
-     * {@link FakeMediaSource} with the timeline and manifest provided by
+     * FakeMediaSource} with the timeline and manifest provided by {@link #setTimeline(Timeline)}
-     * {@link #setTimeline(Timeline)} and {@link #setManifest(Object)}. Setting the media source is
+     * and {@link #setManifest(Object)}. Setting media sources is not allowed after calls to {@link
-     * not allowed after calls to {@link #setTimeline(Timeline)} and/or
+     * #setTimeline(Timeline)} and/or {@link #setManifest(Object)}.
     * {@link #setManifest(Object)}.
     *
-     * @param mediaSource A {@link MediaSource} to be used by the test runner.
+     * @param mediaSources The {@link MediaSource}s to be used by the test runner.
     * @return This builder.
     */
-    public Builder setMediaSource(MediaSource mediaSource) {
+    public Builder setMediaSources(MediaSource... mediaSources) {
      assertThat(timeline).isNull();
      assertThat(manifest).isNull();
-      this.mediaSource = mediaSource;
+      this.mediaSources = Arrays.asList(mediaSources);
      return this;
    }
@ -170,10 +175,10 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
    /**
     * Sets a list of {@link Format}s to be used by a {@link FakeMediaSource} to create media
-     * periods and for setting up a {@link FakeRenderer}. The default value is a single
+     * periods and for setting up a {@link FakeRenderer}. The default value is a single {@link
-     * {@link #VIDEO_FORMAT}. Note that this parameter doesn't have any influence if both a media
+     * #VIDEO_FORMAT}. Note that this parameter doesn't have any influence if both a media source
-     * source with {@link #setMediaSource(MediaSource)} and renderers with
+     * with {@link #setMediaSources(MediaSource...)} and renderers with {@link
-     * {@link #setRenderers(Renderer...)} or {@link #setRenderersFactory(RenderersFactory)} are set.
+     * #setRenderers(Renderer...)} or {@link #setRenderersFactory(RenderersFactory)} are set.
     *
     * @param supportedFormats A list of supported {@link Format}s.
     * @return This builder.
@ -226,7 +231,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
    /**
     * Sets an {@link ActionSchedule} to be run by the test runner. The first action will be
-     * executed immediately before {@link SimpleExoPlayer#prepare(MediaSource)}.
+     * executed immediately before {@link SimpleExoPlayer#prepare()}.
     *
     * @param actionSchedule An {@link ActionSchedule} to be used by the test runner.
     * @return This builder.
@ -307,11 +312,11 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
      if (clock == null) {
        clock = new AutoAdvancingFakeClock();
      }
-      if (mediaSource == null) {
+      if (mediaSources.isEmpty()) {
        if (timeline == null) {
          timeline = new FakeTimeline(/* windowCount= */ 1, manifest);
        }
-        mediaSource = new FakeMediaSource(timeline, supportedFormats);
+        mediaSources.add(new FakeMediaSource(timeline, supportedFormats));
      }
      if (expectedPlayerEndedCount == null) {
        expectedPlayerEndedCount = 1;
@ -319,7 +324,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
      return new ExoPlayerTestRunner(
          context,
          clock,
-          mediaSource,
+          mediaSources,
          renderersFactory,
          trackSelector,
          loadControl,
@ -333,7 +338,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  private final Context context;
  private final Clock clock;
-  private final MediaSource mediaSource;
+  private final List<MediaSource> mediaSources;
  private final RenderersFactory renderersFactory;
  private final DefaultTrackSelector trackSelector;
  private final LoadControl loadControl;
@ -350,6 +355,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  private final ArrayList<Integer> timelineChangeReasons;
  private final ArrayList<Integer> periodIndices;
  private final ArrayList<Integer> discontinuityReasons;
  private final ArrayList<Integer> playbackStates;
  private SimpleExoPlayer player;
  private Exception exception;
@ -359,7 +365,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  private ExoPlayerTestRunner(
      Context context,
      Clock clock,
-      MediaSource mediaSource,
+      List<MediaSource> mediaSources,
      RenderersFactory renderersFactory,
      DefaultTrackSelector trackSelector,
      LoadControl loadControl,
@ -370,7 +376,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
      int expectedPlayerEndedCount) {
    this.context = context;
    this.clock = clock;
-    this.mediaSource = mediaSource;
+    this.mediaSources = mediaSources;
    this.renderersFactory = renderersFactory;
    this.trackSelector = trackSelector;
    this.loadControl = loadControl;
@ -382,6 +388,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
    this.timelineChangeReasons = new ArrayList<>();
    this.periodIndices = new ArrayList<>();
    this.discontinuityReasons = new ArrayList<>();
    this.playbackStates = new ArrayList<>();
    this.endedCountDownLatch = new CountDownLatch(expectedPlayerEndedCount);
    this.actionScheduleFinishedCountDownLatch = new CountDownLatch(actionSchedule != null ? 1 : 0);
    this.playerThread = new HandlerThread("ExoPlayerTest thread");
@ -416,7 +423,8 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
            if (actionSchedule != null) {
              actionSchedule.start(player, trackSelector, null, handler, ExoPlayerTestRunner.this);
            }
-            player.prepare(mediaSource, /* resetPosition= */ false, /* resetState= */ false);
+            player.setMediaItems(mediaSources, /* resetPosition= */ false);
            player.prepare();
          } catch (Exception e) {
            handleException(e);
          }
@ -468,12 +476,16 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  /**
   * Asserts that the timelines reported by {@link Player.EventListener#onTimelineChanged(Timeline,
-   * int)} are equal to the provided timelines.
+   * int)} are the same to the provided timelines. This assert differs from testing equality by not
   * comparing period ids which may be different due to id mapping of child source period ids.
   *
   * @param timelines A list of expected {@link Timeline}s.
   */
-  public void assertTimelinesEqual(Timeline... timelines) {
+  public void assertTimelinesSame(Timeline... timelines) {
-    assertThat(this.timelines).containsExactlyElementsIn(Arrays.asList(timelines)).inOrder();
+    assertThat(this.timelines).hasSize(timelines.length);
    for (int i = 0; i < timelines.length; i++) {
      assertTrue(TestUtil.areTimelinesSame(timelines[i], this.timelines.get(i)));
    }
  }
  /**
@ -486,9 +498,18 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  }
  /**
-   * Asserts that the last track group array reported by
+   * Asserts that the playback states reported by {@link
-   * {@link Player.EventListener#onTracksChanged(TrackGroupArray, TrackSelectionArray)} is equal to
+   * Player.EventListener#onPlayerStateChanged(boolean, int)} are equal to the provided playback
-   * the provided track group array.
+   * states.
   */
  public void assertPlaybackStatesEqual(Integer... states) {
    assertThat(playbackStates).containsExactlyElementsIn(Arrays.asList(states)).inOrder();
  }
  /**
   * Asserts that the last track group array reported by {@link
   * Player.EventListener#onTracksChanged(TrackGroupArray, TrackSelectionArray)} is equal to the
   * provided track group array.
   *
   * @param trackGroupArray The expected {@link TrackGroupArray}.
   */
@ -560,10 +581,12 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  @Override
  public void onTimelineChanged(Timeline timeline, @Player.TimelineChangeReason int reason) {
    timelines.add(timeline);
    timelineChangeReasons.add(reason);
-    if (reason == Player.TIMELINE_CHANGE_REASON_PREPARED) {
+    timelines.add(timeline);
-      periodIndices.add(player.getCurrentPeriodIndex());
+    int currentIndex = player.getCurrentPeriodIndex();
    if (periodIndices.isEmpty() || periodIndices.get(periodIndices.size() - 1) != currentIndex) {
      // Ignore timeline changes that do not change the period index.
      periodIndices.add(currentIndex);
    }
  }
@ -574,6 +597,7 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
  @Override
  public void onPlayerStateChanged(boolean playWhenReady, @Player.State int playbackState) {
    playbackStates.add(playbackState);
    playerWasPrepared |= playbackState != Player.STATE_IDLE;
    if (playbackState == Player.STATE_ENDED
        || (playbackState == Player.STATE_IDLE && playerWasPrepared)) {
@ -620,9 +644,9 @@ public final class ExoPlayerTestRunner implements Player.EventListener, ActionSc
          renderersFactory,
          trackSelector,
          loadControl,
          /* drmSessionManager= */ null,
          bandwidthMeter,
          new AnalyticsCollector(clock),
          /* useLazyPreparation= */ false,
          clock,
          Looper.myLooper());
    }
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/StubExoPlayer.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/StubExoPlayer.java
@ -25,8 +25,10 @@ import com.google.android.exoplayer2.PlayerMessage;
 import com.google.android.exoplayer2.SeekParameters;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.source.MediaSource;
 import com.google.android.exoplayer2.source.ShuffleOrder;
 import com.google.android.exoplayer2.source.TrackGroupArray;
 import com.google.android.exoplayer2.trackselection.TrackSelectionArray;
 import java.util.List;
 /**
 * An abstract {@link ExoPlayer} implementation that throws {@link UnsupportedOperationException}
@ -96,6 +98,11 @@ public abstract class StubExoPlayer extends BasePlayer implements ExoPlayer {
    throw new UnsupportedOperationException();
  }
  @Override
  public void prepare() {
    throw new UnsupportedOperationException();
  }
  @Override
  public void prepare(MediaSource mediaSource) {
    throw new UnsupportedOperationException();
@ -106,6 +113,77 @@ public abstract class StubExoPlayer extends BasePlayer implements ExoPlayer {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setMediaItems(List<MediaSource> mediaItems, boolean resetPosition) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setMediaItems(List<MediaSource> mediaItems) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setMediaItems(
      List<MediaSource> mediaItems, int startWindowIndex, long startPositionMs) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setMediaItem(MediaSource mediaItem, long startPositionMs) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setMediaItem(MediaSource mediaItem) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void addMediaItem(MediaSource mediaSource) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void addMediaItem(int index, MediaSource mediaSource) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void addMediaItems(List<MediaSource> mediaSources) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void addMediaItems(int index, List<MediaSource> mediaSources) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void moveMediaItem(int currentIndex, int newIndex) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void moveMediaItems(int fromIndex, int toIndex, int newIndex) {
    throw new UnsupportedOperationException();
  }
  @Override
  public MediaSource removeMediaItem(int index) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void removeMediaItems(int fromIndex, int toIndex) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void clearMediaItems() {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setPlayWhenReady(boolean playWhenReady) {
    throw new UnsupportedOperationException();
@ -126,6 +204,11 @@ public abstract class StubExoPlayer extends BasePlayer implements ExoPlayer {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setShuffleOrder(ShuffleOrder shuffleOrder) {
    throw new UnsupportedOperationException();
  }
  @Override
  public void setShuffleModeEnabled(boolean shuffleModeEnabled) {
    throw new UnsupportedOperationException();
--- a/testutils/src/main/java/com/google/android/exoplayer2/testutil/TestUtil.java
+++ b/testutils/src/main/java/com/google/android/exoplayer2/testutil/TestUtil.java
@ -26,6 +26,7 @@ import android.graphics.BitmapFactory;
 import android.graphics.Color;
 import android.net.Uri;
 import com.google.android.exoplayer2.C;
 import com.google.android.exoplayer2.Timeline;
 import com.google.android.exoplayer2.database.DatabaseProvider;
 import com.google.android.exoplayer2.database.DefaultDatabaseProvider;
 import com.google.android.exoplayer2.extractor.DefaultExtractorInput;
@ -398,4 +399,61 @@ public class TestUtil {
    }
    return new DefaultExtractorInput(dataSource, position, length);
  }
  /**
   * Checks whether the timelines are the same (does not compare {@link Timeline.Window#uid} and
   * {@link Timeline.Period#uid}).
   *
   * @param firstTimeline The first {@link Timeline}.
   * @param secondTimeline The second {@link Timeline} to compare with.
   * @return {@code true} if both timelines are the same.
   */
  public static boolean areTimelinesSame(Timeline firstTimeline, Timeline secondTimeline) {
    if (firstTimeline == secondTimeline) {
      return true;
    }
    if (secondTimeline.getWindowCount() != firstTimeline.getWindowCount()
        || secondTimeline.getPeriodCount() != firstTimeline.getPeriodCount()) {
      return false;
    }
    Timeline.Window firstWindow = new Timeline.Window();
    Timeline.Period firstPeriod = new Timeline.Period();
    Timeline.Window secondWindow = new Timeline.Window();
    Timeline.Period secondPeriod = new Timeline.Period();
    for (int i = 0; i < firstTimeline.getWindowCount(); i++) {
      if (!areWindowsSame(
          firstTimeline.getWindow(i, firstWindow), secondTimeline.getWindow(i, secondWindow))) {
        return false;
      }
    }
    for (int i = 0; i < firstTimeline.getPeriodCount(); i++) {
      if (!firstTimeline
          .getPeriod(i, firstPeriod, /* setIds= */ false)
          .equals(secondTimeline.getPeriod(i, secondPeriod, /* setIds= */ false))) {
        return false;
      }
    }
    return true;
  }
  /**
   * Checks whether the windows are the same. This comparison does not compare the uid.
   *
   * @param first The first {@link Timeline.Window}.
   * @param second The second {@link Timeline.Window}.
   * @return true if both windows are the same.
   */
  private static boolean areWindowsSame(Timeline.Window first, Timeline.Window second) {
    return Util.areEqual(first.tag, second.tag)
        && Util.areEqual(first.manifest, second.manifest)
        && first.presentationStartTimeMs == second.presentationStartTimeMs
        && first.windowStartTimeMs == second.windowStartTimeMs
        && first.isSeekable == second.isSeekable
        && first.isDynamic == second.isDynamic
        && first.defaultPositionUs == second.defaultPositionUs
        && first.durationUs == second.durationUs
        && first.firstPeriodIndex == second.firstPeriodIndex
        && first.lastPeriodIndex == second.lastPeriodIndex
        && first.positionInFirstPeriodUs == second.positionInFirstPeriodUs;
  }
 }