/*
* Copyright (C) 2020 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 androidx.media3.exoplayer.ima;
import static androidx.media3.common.AdPlaybackState.AD_STATE_AVAILABLE;
import static androidx.media3.common.AdPlaybackState.AD_STATE_PLAYED;
import static androidx.media3.common.AdPlaybackState.AD_STATE_UNAVAILABLE;
import static androidx.media3.common.util.Assertions.checkArgument;
import static androidx.media3.common.util.Assertions.checkNotNull;
import static androidx.media3.common.util.Assertions.checkState;
import static androidx.media3.common.util.Util.msToUs;
import static androidx.media3.common.util.Util.sum;
import static androidx.media3.exoplayer.source.ads.ServerSideAdInsertionUtil.addAdGroupToAdPlaybackState;
import static androidx.media3.exoplayer.source.ads.ServerSideAdInsertionUtil.getMediaPeriodPositionUsForContent;
import static java.lang.Math.max;
import static java.lang.Math.min;
import android.content.Context;
import android.os.Looper;
import android.util.Pair;
import android.view.View;
import android.view.ViewGroup;
import androidx.annotation.CheckResult;
import androidx.annotation.Nullable;
import androidx.media3.common.AdOverlayInfo;
import androidx.media3.common.AdPlaybackState;
import androidx.media3.common.AdPlaybackState.AdGroup;
import androidx.media3.common.AdViewProvider;
import androidx.media3.common.C;
import androidx.media3.common.Player;
import androidx.media3.common.Timeline;
import androidx.media3.common.util.Util;
import androidx.media3.datasource.DataSchemeDataSource;
import androidx.media3.datasource.DataSourceUtil;
import androidx.media3.datasource.DataSpec;
import com.google.ads.interactivemedia.v3.api.Ad;
import com.google.ads.interactivemedia.v3.api.AdDisplayContainer;
import com.google.ads.interactivemedia.v3.api.AdError;
import com.google.ads.interactivemedia.v3.api.AdErrorEvent;
import com.google.ads.interactivemedia.v3.api.AdEvent;
import com.google.ads.interactivemedia.v3.api.AdPodInfo;
import com.google.ads.interactivemedia.v3.api.AdsLoader;
import com.google.ads.interactivemedia.v3.api.AdsManager;
import com.google.ads.interactivemedia.v3.api.AdsRenderingSettings;
import com.google.ads.interactivemedia.v3.api.AdsRequest;
import com.google.ads.interactivemedia.v3.api.CompanionAdSlot;
import com.google.ads.interactivemedia.v3.api.FriendlyObstruction;
import com.google.ads.interactivemedia.v3.api.FriendlyObstructionPurpose;
import com.google.ads.interactivemedia.v3.api.ImaSdkSettings;
import com.google.ads.interactivemedia.v3.api.UiElement;
import com.google.ads.interactivemedia.v3.api.player.VideoAdPlayer;
import com.google.ads.interactivemedia.v3.api.player.VideoProgressUpdate;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.math.DoubleMath;
import java.io.IOException;
import java.math.BigDecimal;
import java.math.RoundingMode;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
/** Utilities for working with IMA SDK and IMA extension data types. */
/* package */ final class ImaUtil {
/** Factory for objects provided by the IMA SDK. */
public interface ImaFactory {
/** Creates {@link ImaSdkSettings} for configuring the IMA SDK. */
ImaSdkSettings createImaSdkSettings();
/**
* Creates {@link AdsRenderingSettings} for giving the {@link AdsManager} parameters that
* control rendering of ads.
*/
AdsRenderingSettings createAdsRenderingSettings();
/**
* Creates an {@link AdDisplayContainer} to hold the player for video ads, a container for
* non-linear ads, and slots for companion ads.
*/
AdDisplayContainer createAdDisplayContainer(ViewGroup container, VideoAdPlayer player);
/** Creates an {@link AdDisplayContainer} to hold the player for audio ads. */
AdDisplayContainer createAudioAdDisplayContainer(Context context, VideoAdPlayer player);
/**
* Creates a {@link FriendlyObstruction} to describe an obstruction considered "friendly" for
* viewability measurement purposes.
*/
FriendlyObstruction createFriendlyObstruction(
View view,
FriendlyObstructionPurpose friendlyObstructionPurpose,
@Nullable String reasonDetail);
/** Creates an {@link AdsRequest} to contain the data used to request ads. */
AdsRequest createAdsRequest();
/** Creates an {@link AdsLoader} for requesting ads using the specified settings. */
AdsLoader createAdsLoader(
Context context, ImaSdkSettings imaSdkSettings, AdDisplayContainer adDisplayContainer);
}
/** Stores configuration for ad loading and playback. */
public static final class Configuration {
public final long adPreloadTimeoutMs;
public final int vastLoadTimeoutMs;
public final int mediaLoadTimeoutMs;
public final boolean focusSkipButtonWhenAvailable;
public final boolean playAdBeforeStartPosition;
public final int mediaBitrate;
@Nullable public final Boolean enableContinuousPlayback;
@Nullable public final List<String> adMediaMimeTypes;
@Nullable public final Set<UiElement> adUiElements;
@Nullable public final Collection<CompanionAdSlot> companionAdSlots;
@Nullable public final AdErrorEvent.AdErrorListener applicationAdErrorListener;
@Nullable public final AdEvent.AdEventListener applicationAdEventListener;
@Nullable public final VideoAdPlayer.VideoAdPlayerCallback applicationVideoAdPlayerCallback;
@Nullable public final ImaSdkSettings imaSdkSettings;
public final boolean debugModeEnabled;
public Configuration(
long adPreloadTimeoutMs,
int vastLoadTimeoutMs,
int mediaLoadTimeoutMs,
boolean focusSkipButtonWhenAvailable,
boolean playAdBeforeStartPosition,
int mediaBitrate,
@Nullable Boolean enableContinuousPlayback,
@Nullable List<String> adMediaMimeTypes,
@Nullable Set<UiElement> adUiElements,
@Nullable Collection<CompanionAdSlot> companionAdSlots,
@Nullable AdErrorEvent.AdErrorListener applicationAdErrorListener,
@Nullable AdEvent.AdEventListener applicationAdEventListener,
@Nullable VideoAdPlayer.VideoAdPlayerCallback applicationVideoAdPlayerCallback,
@Nullable ImaSdkSettings imaSdkSettings,
boolean debugModeEnabled) {
this.adPreloadTimeoutMs = adPreloadTimeoutMs;
this.vastLoadTimeoutMs = vastLoadTimeoutMs;
this.mediaLoadTimeoutMs = mediaLoadTimeoutMs;
this.focusSkipButtonWhenAvailable = focusSkipButtonWhenAvailable;
this.playAdBeforeStartPosition = playAdBeforeStartPosition;
this.mediaBitrate = mediaBitrate;
this.enableContinuousPlayback = enableContinuousPlayback;
this.adMediaMimeTypes = adMediaMimeTypes;
this.adUiElements = adUiElements;
this.companionAdSlots = companionAdSlots;
this.applicationAdErrorListener = applicationAdErrorListener;
this.applicationAdEventListener = applicationAdEventListener;
this.applicationVideoAdPlayerCallback = applicationVideoAdPlayerCallback;
this.imaSdkSettings = imaSdkSettings;
this.debugModeEnabled = debugModeEnabled;
}
}
/** Stores configuration for playing server side ad insertion content. */
public static final class ServerSideAdInsertionConfiguration {
public final AdViewProvider adViewProvider;
public final ImaSdkSettings imaSdkSettings;
@Nullable public final AdEvent.AdEventListener applicationAdEventListener;
@Nullable public final AdErrorEvent.AdErrorListener applicationAdErrorListener;
public final ImmutableList<CompanionAdSlot> companionAdSlots;
public final boolean focusSkipButtonWhenAvailable;
public final boolean debugModeEnabled;
public ServerSideAdInsertionConfiguration(
AdViewProvider adViewProvider,
ImaSdkSettings imaSdkSettings,
@Nullable AdEvent.AdEventListener applicationAdEventListener,
@Nullable AdErrorEvent.AdErrorListener applicationAdErrorListener,
List<CompanionAdSlot> companionAdSlots,
boolean focusSkipButtonWhenAvailable,
boolean debugModeEnabled) {
this.imaSdkSettings = imaSdkSettings;
this.adViewProvider = adViewProvider;
this.applicationAdEventListener = applicationAdEventListener;
this.applicationAdErrorListener = applicationAdErrorListener;
this.companionAdSlots = ImmutableList.copyOf(companionAdSlots);
this.focusSkipButtonWhenAvailable = focusSkipButtonWhenAvailable;
this.debugModeEnabled = debugModeEnabled;
}
}
public static final int TIMEOUT_UNSET = -1;
public static final int BITRATE_UNSET = -1;
/**
* Returns the IMA {@link FriendlyObstructionPurpose} corresponding to the given {@link
* AdOverlayInfo#purpose}.
*/
public static FriendlyObstructionPurpose getFriendlyObstructionPurpose(
@AdOverlayInfo.Purpose int purpose) {
switch (purpose) {
case AdOverlayInfo.PURPOSE_CONTROLS:
return FriendlyObstructionPurpose.VIDEO_CONTROLS;
case AdOverlayInfo.PURPOSE_CLOSE_AD:
return FriendlyObstructionPurpose.CLOSE_AD;
case AdOverlayInfo.PURPOSE_NOT_VISIBLE:
return FriendlyObstructionPurpose.NOT_VISIBLE;
case AdOverlayInfo.PURPOSE_OTHER:
default:
return FriendlyObstructionPurpose.OTHER;
}
}
/**
* Returns the microsecond ad group timestamps corresponding to the specified cue points.
*
* @param cuePoints The cue points of the ads in seconds, provided by the IMA SDK.
* @return The corresponding microsecond ad group timestamps.
*/
public static long[] getAdGroupTimesUsForCuePoints(List<Float> cuePoints) {
if (cuePoints.isEmpty()) {
return new long[] {0L};
}
int count = cuePoints.size();
long[] adGroupTimesUs = new long[count];
int adGroupIndex = 0;
for (int i = 0; i < count; i++) {
double cuePoint = cuePoints.get(i);
if (cuePoint == -1.0) {
adGroupTimesUs[count - 1] = C.TIME_END_OF_SOURCE;
} else {
adGroupTimesUs[adGroupIndex++] = Math.round(C.MICROS_PER_SECOND * cuePoint);
}
}
// Cue points may be out of order, so sort them.
Arrays.sort(adGroupTimesUs, 0, adGroupIndex);
return adGroupTimesUs;
}
/** Returns an {@link AdsRequest} based on the specified ad tag {@link DataSpec}. */
public static AdsRequest getAdsRequestForAdTagDataSpec(
ImaFactory imaFactory, DataSpec adTagDataSpec) throws IOException {
AdsRequest request = imaFactory.createAdsRequest();
if (DataSchemeDataSource.SCHEME_DATA.equals(adTagDataSpec.uri.getScheme())) {
DataSchemeDataSource dataSchemeDataSource = new DataSchemeDataSource();
try {
dataSchemeDataSource.open(adTagDataSpec);
request.setAdsResponse(Util.fromUtf8Bytes(DataSourceUtil.readToEnd(dataSchemeDataSource)));
} finally {
dataSchemeDataSource.close();
}
} else {
request.setAdTagUrl(adTagDataSpec.uri.toString());
}
return request;
}
/** Returns whether the ad error indicates that an entire ad group failed to load. */
public static boolean isAdGroupLoadError(AdError adError) {
// TODO: Find out what other errors need to be handled (if any), and whether each one relates to
// a single ad, ad group or the whole timeline.
return adError.getErrorCode() == AdError.AdErrorCode.VAST_LINEAR_ASSET_MISMATCH
|| adError.getErrorCode() == AdError.AdErrorCode.UNKNOWN_ERROR;
}
/** Returns the looper on which all IMA SDK interaction must occur. */
public static Looper getImaLooper() {
// IMA SDK callbacks occur on the main thread. This method can be used to check that the player
// is using the same looper, to ensure all interaction with this class is on the main thread.
return Looper.getMainLooper();
}
/** Returns a human-readable representation of a video progress update. */
@SuppressWarnings("RestrictedApi") // VideoProgressUpdate.equals() is annotated as hidden.
public static String getStringForVideoProgressUpdate(VideoProgressUpdate videoProgressUpdate) {
if (VideoProgressUpdate.VIDEO_TIME_NOT_READY.equals(videoProgressUpdate)) {
return "not ready";
} else {
return Util.formatInvariant(
"%d ms of %d ms",
videoProgressUpdate.getCurrentTimeMs(), videoProgressUpdate.getDurationMs());
}
}
/**
* Expands a placeholder ad group with a single ad to the requested number of ads and sets the
* duration of the inserted ad.
*
* <p>The remaining ad group duration is propagated to the ad following the inserted ad. If the
* inserted ad is the last ad, the remaining ad group duration is wrapped around to the first ad
* in the group.
*
* @param adGroupIndex The ad group index of the ad group to expand.
* @param adIndexInAdGroup The ad index to set the duration.
* @param adDurationUs The duration of the ad.
* @param adGroupDurationUs The duration of the whole ad group.
* @param adsInAdGroupCount The number of ads of the ad group.
* @param adPlaybackState The ad playback state to modify.
* @return The updated ad playback state.
*/
@CheckResult
public static AdPlaybackState expandAdGroupPlaceholder(
int adGroupIndex,
long adGroupDurationUs,
int adIndexInAdGroup,
long adDurationUs,
int adsInAdGroupCount,
AdPlaybackState adPlaybackState) {
checkArgument(adIndexInAdGroup < adsInAdGroupCount);
long[] adDurationsUs =
updateAdDurationAndPropagate(
new long[adsInAdGroupCount], adIndexInAdGroup, adDurationUs, adGroupDurationUs);
return adPlaybackState
.withAdCount(adGroupIndex, adDurationsUs.length)
.withAdDurationsUs(adGroupIndex, adDurationsUs);
}
/**
* Updates the duration of an ad in and ad group.
*
* <p>The difference of the previous duration and the updated duration is propagated to the ad
* following the updated ad. If the updated ad is the last ad, the remaining duration is wrapped
* around to the first ad in the group.
*
* <p>The remaining ad duration is only propagated if the destination ad has a duration of 0.
*
* @param adGroupIndex The ad group index of the ad group to expand.
* @param adIndexInAdGroup The ad index to set the duration.
* @param adDurationUs The duration of the ad.
* @param adPlaybackState The ad playback state to modify.
* @return The updated ad playback state.
*/
@CheckResult
public static AdPlaybackState updateAdDurationInAdGroup(
int adGroupIndex, int adIndexInAdGroup, long adDurationUs, AdPlaybackState adPlaybackState) {
AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
checkArgument(adIndexInAdGroup < adGroup.durationsUs.length);
long[] adDurationsUs =
updateAdDurationAndPropagate(
Arrays.copyOf(adGroup.durationsUs, adGroup.durationsUs.length),
adIndexInAdGroup,
adDurationUs,
adGroup.durationsUs[adIndexInAdGroup]);
return adPlaybackState.withAdDurationsUs(adGroupIndex, adDurationsUs);
}
/**
* Updates the duration of the given ad in the array.
*
* <p>The remaining difference when subtracting {@code adDurationUs} from {@code
* remainingDurationUs} is used as the duration of the next ad after {@code adIndex}. If the
* updated ad is the last ad, the remaining duration is wrapped around to the first ad of the
* group.
*
* <p>The remaining ad duration is only propagated if the destination ad has a duration of 0.
*
* @param adDurationsUs The array to edit.
* @param adIndex The index of the ad in the durations array.
* @param adDurationUs The new ad duration.
* @param remainingDurationUs The remaining ad duration before updating the new ad duration.
* @return The updated input array, for convenience.
*/
private static long[] updateAdDurationAndPropagate(
long[] adDurationsUs, int adIndex, long adDurationUs, long remainingDurationUs) {
adDurationsUs[adIndex] = adDurationUs;
int nextAdIndex = (adIndex + 1) % adDurationsUs.length;
if (adDurationsUs[nextAdIndex] == 0) {
// Propagate the remaining duration to the next ad.
adDurationsUs[nextAdIndex] = max(0, remainingDurationUs - adDurationUs);
}
return adDurationsUs;
}
/**
* Gets the window start in microseconds since the Unix epoch for a window of a {@linkplain
* Timeline timeline} of the {@code DashMediaSource}.
*
* @param windowStartTimeMs The window start time, in milliseconds.
* @param positionInFirstPeriodUs The position of the window in the first period.
* @return The window start time, in microseconds.
*/
public static long getWindowStartTimeUs(long windowStartTimeMs, long positionInFirstPeriodUs) {
// Revert us/ms truncation introduced in `DashMediaSource.DashTimeline`.
return msToUs(windowStartTimeMs) + (positionInFirstPeriodUs % 1000);
}
/**
* Splits an {@link AdPlaybackState} into a separate {@link AdPlaybackState} for each period of a
* content timeline.
*
* <p>If a period is enclosed by an ad group, the period is considered an ad period. Splitting
* results in a separate {@link AdPlaybackState ad playback state} for each period that has either
* no ads or a single ad. In the latter case, the duration of the single ad is set to the duration
* of the period consuming the entire duration of the period. Accordingly an ad period does not
* contribute to the duration of the containing window.
*
* @param adPlaybackState The ad playback state to be split.
* @param contentTimeline The content timeline for each period of which to create an {@link
* AdPlaybackState}.
* @return A map of ad playback states for each period UID in the content timeline.
*/
public static ImmutableMap<Object, AdPlaybackState> splitAdPlaybackStateForPeriods(
AdPlaybackState adPlaybackState, Timeline contentTimeline) {
checkArgument(!contentTimeline.isEmpty());
Timeline.Period period = new Timeline.Period();
Timeline.Window window = contentTimeline.getWindow(0, new Timeline.Window());
int periodIndex = 0;
long totalElapsedContentDurationUs = 0;
Object adsId = checkNotNull(adPlaybackState.adsId);
AdPlaybackState contentOnlyAdPlaybackState = new AdPlaybackState(adsId);
if (window.isLive()) {
long windowStartTimeUs =
getWindowStartTimeUs(window.windowStartTimeMs, window.positionInFirstPeriodUs);
totalElapsedContentDurationUs = windowStartTimeUs - window.positionInFirstPeriodUs;
contentOnlyAdPlaybackState = contentOnlyAdPlaybackState.withLivePostrollPlaceholderAppended();
}
Map<Object, AdPlaybackState> adPlaybackStates = new HashMap<>();
for (int i = adPlaybackState.removedAdGroupCount; i < adPlaybackState.adGroupCount; i++) {
AdGroup adGroup = adPlaybackState.getAdGroup(/* adGroupIndex= */ i);
if (adGroup.timeUs == C.TIME_END_OF_SOURCE) {
checkState(i == adPlaybackState.adGroupCount - 1);
// The last ad group is a placeholder for a potential post roll. We can just stop here.
break;
}
// The ad group start timeUs is in content position. We need to add the ad
// duration before the ad group to translate the start time to the position in the period.
long adGroupDurationUs = sum(adGroup.durationsUs);
long elapsedAdGroupAdDurationUs = 0;
for (int j = periodIndex; j < contentTimeline.getPeriodCount(); j++) {
contentTimeline.getPeriod(j, period, /* setIds= */ true);
if (totalElapsedContentDurationUs < adGroup.timeUs) {
// Period starts before the ad group, so it is a content period.
adPlaybackStates.put(checkNotNull(period.uid), contentOnlyAdPlaybackState);
totalElapsedContentDurationUs += period.durationUs;
// Current period added as a content period. Advance and look at the next period.
periodIndex++;
} else {
long periodStartUs = totalElapsedContentDurationUs + elapsedAdGroupAdDurationUs;
long periodDurationUs = period.durationUs;
if ((periodDurationUs != C.TIME_UNSET
&& periodStartUs + periodDurationUs <= adGroup.timeUs + adGroupDurationUs)
|| (periodDurationUs == C.TIME_UNSET
&& elapsedAdGroupAdDurationUs < adGroupDurationUs
&& periodStartUs < adGroup.timeUs + adGroupDurationUs)) {
// Ad period found. The period either ends before the end of the ad group, or it is the
// last period of a live stream and it starts in the ad group.
adPlaybackStates.put(
checkNotNull(period.uid),
splitAdGroupForPeriod(
adsId, adGroup, periodStartUs, periodDurationUs, window.isLive()));
// Current period added as an ad period. Advance and look at the next period.
periodIndex++;
elapsedAdGroupAdDurationUs += periodDurationUs;
if (periodStartUs + periodDurationUs == adGroup.timeUs + adGroupDurationUs) {
// Periods have consumed the ad group. We're at the end of the ad group.
if (window.isLive()) {
// Add elapsed ad duration to elapsed content duration for live streams to account
// for the content resume offset (relevant because we above compare against
// `adGroup.timeUs`). Instead of `adGroup.contentResumeOffsetUs` we use
// `elapsedAdGroupAdDurationUs` that is the sum of the actual period durations.
totalElapsedContentDurationUs += elapsedAdGroupAdDurationUs;
}
// Continue with next ad group.
break;
}
} else {
// Period is after the current ad group. Continue with next ad group.
break;
}
}
}
}
// The remaining periods end after the last ad group, so these are content periods.
for (int i = periodIndex; i < contentTimeline.getPeriodCount(); i++) {
contentTimeline.getPeriod(i, period, /* setIds= */ true);
adPlaybackStates.put(checkNotNull(period.uid), contentOnlyAdPlaybackState);
}
return ImmutableMap.copyOf(adPlaybackStates);
}
private static AdPlaybackState splitAdGroupForPeriod(
Object adsId,
AdGroup adGroup,
long periodStartUs,
long periodDurationUs,
boolean isLiveStream) {
AdPlaybackState adPlaybackState =
new AdPlaybackState(checkNotNull(adsId), /* adGroupTimesUs...= */ 0)
.withIsServerSideInserted(/* adGroupIndex= */ 0, true)
.withAdCount(/* adGroupIndex= */ 0, /* adCount= */ 1);
if (isLiveStream) {
adPlaybackState = adPlaybackState.withLivePostrollPlaceholderAppended();
}
long adGroupDurationUs = 0;
for (int i = 0; i < adGroup.count; i++) {
long sanitizedDurationUs =
periodDurationUs != C.TIME_UNSET ? periodDurationUs : adGroup.durationsUs[i];
long periodEndUs = periodStartUs + sanitizedDurationUs;
adGroupDurationUs += adGroup.durationsUs[i];
// TODO(bachinger): Remove margin constant by making sure the VOD ad group times are adjusted
// to the actual DASH timeline periods.
if (periodEndUs <= adGroup.timeUs + adGroupDurationUs + 10_000) {
adPlaybackState =
adPlaybackState
.withAdDurationsUs(/* adGroupIndex= */ 0, sanitizedDurationUs)
.withContentResumeOffsetUs(
/* adGroupIndex= */ 0, isLiveStream ? sanitizedDurationUs : 0);
// Map the state of the global ad state to the period specific ad state.
switch (adGroup.states[i]) {
case AD_STATE_AVAILABLE:
adPlaybackState =
adPlaybackState.withAvailableAd(/* adGroupIndex= */ 0, /* adIndexInAdGroup= */ 0);
break;
case AdPlaybackState.AD_STATE_PLAYED:
adPlaybackState =
adPlaybackState.withPlayedAd(/* adGroupIndex= */ 0, /* adIndexInAdGroup= */ 0);
break;
case AdPlaybackState.AD_STATE_SKIPPED:
adPlaybackState =
adPlaybackState.withSkippedAd(/* adGroupIndex= */ 0, /* adIndexInAdGroup= */ 0);
break;
case AdPlaybackState.AD_STATE_ERROR:
adPlaybackState =
adPlaybackState.withAdLoadError(/* adGroupIndex= */ 0, /* adIndexInAdGroup= */ 0);
break;
default:
// Do nothing.
break;
}
break;
}
}
return adPlaybackState;
}
/**
* Updates previously inserted ad durations with actual period durations from the timeline and
* returns the updated {@linkplain AdPlaybackState ad playback state}.
*
* <p>This method must only be called for multi period live streams and is useful in the case that
* {@linkplain #addLiveAdBreak(long, long, int, long, int, AdPlaybackState) a live ad has been
* inserted} while the duration of the corresponding period was still unknown. In this case the
* {@linkplain Ad#getDuration() estimated ad duration} was used which must be corrected as soon as
* the live window of the {@code contentTimeline} advances and the previously unknown period
* duration is available.
*
* <p>Roughly, the logic checks whether an ad group of the ad playback state fits in or overlaps
* one or several periods in the content timeline. Starting at the first ad inside the window, the
* ad duration is set to the duration of the corresponding period until a period with an unknown
* duration or the end of the ad group is reached.
*
* <p>If the previously playing ad period isn't available in the content timeline anymore, no
* correction is applied. The resulting position discontinuity of {@link
* Player#DISCONTINUITY_REASON_REMOVE} needs to be handled accordingly elsewhere.
*
* @param contentTimeline The live content timeline.
* @param adPlaybackState The ad playback state.
* @return The (potentially) updated ad playback state.
*/
public static AdPlaybackState maybeCorrectPreviouslyUnknownAdDurations(
Timeline contentTimeline, AdPlaybackState adPlaybackState) {
Timeline.Window window = contentTimeline.getWindow(/* windowIndex= */ 0, new Timeline.Window());
if (window.firstPeriodIndex == window.lastPeriodIndex || adPlaybackState.adGroupCount < 2) {
// Single period with unknown duration, or only a postroll placeholder.
return adPlaybackState;
}
Timeline.Period period = new Timeline.Period();
int lastPeriodIndex = window.lastPeriodIndex;
if (contentTimeline.getPeriod(lastPeriodIndex, period).durationUs == C.TIME_UNSET) {
lastPeriodIndex--;
contentTimeline.getPeriod(lastPeriodIndex, period);
}
// Search for an unplayed ad group at or before the period start.
long windowStartTimeUs =
getWindowStartTimeUs(window.windowStartTimeMs, window.positionInFirstPeriodUs);
long lastCompletePeriodStartTimeUs = windowStartTimeUs + period.positionInWindowUs;
int adGroupIndex =
adPlaybackState.getAdGroupIndexForPositionUs(
lastCompletePeriodStartTimeUs, /* periodDurationUs= */ C.TIME_UNSET);
if (adGroupIndex == C.INDEX_UNSET) {
// No unplayed ads before the last period with a duration. Nothing to do.
return adPlaybackState;
}
AdPlaybackState.AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
long periodStartTimeUs = windowStartTimeUs - window.positionInFirstPeriodUs;
if (adGroup.timeUs + adGroup.contentResumeOffsetUs <= periodStartTimeUs) {
// Ad group ends before first period in window. Discontinuity of reason REMOVE.
return adPlaybackState;
}
// The ads at the start of the ad group may be out of the window already. Skip them.
int firstAdIndexInWindow = 0;
long adStartTimeUs = adGroup.timeUs;
while (adStartTimeUs < periodStartTimeUs) {
if (adGroup.states[firstAdIndexInWindow] == AD_STATE_AVAILABLE) {
// The previously available ad is not in the timeline anymore. Discontinuity of reason
// `DISCONTINUITY_REASON_REMOVE`.
return adPlaybackState;
}
// Skip ad before first period of window.
adStartTimeUs += adGroup.durationsUs[firstAdIndexInWindow++];
}
int firstPeriodIndexInAdGroup = C.INDEX_UNSET;
for (int i = window.firstPeriodIndex; i <= lastPeriodIndex; i++) {
if (adGroup.timeUs <= periodStartTimeUs) {
firstPeriodIndexInAdGroup = i;
break;
}
periodStartTimeUs += contentTimeline.getPeriod(/* periodIndex= */ i, period).durationUs;
}
checkState(firstPeriodIndexInAdGroup != C.INDEX_UNSET);
// Update all ad durations that we know and are not yet correct.
for (int i = firstAdIndexInWindow; i < adGroup.durationsUs.length; i++) {
int adPeriodIndex = firstPeriodIndexInAdGroup + (i - firstAdIndexInWindow);
if (adPeriodIndex > lastPeriodIndex) {
break;
}
contentTimeline.getPeriod(adPeriodIndex, period);
if (period.durationUs != adGroup.durationsUs[i]) {
// Set the ad duration to the period duration.
adPlaybackState =
updateAdDurationInAdGroup(
adGroupIndex, /* adIndexInAdGroup= */ i, period.durationUs, adPlaybackState);
}
}
// Get the ad group again and set the new content resume offset after update.
long adGroupDurationUs = sum(adPlaybackState.getAdGroup(adGroupIndex).durationsUs);
return adPlaybackState.withContentResumeOffsetUs(adGroupIndex, adGroupDurationUs);
}
/**
* Returns the sum of the durations of all the ads in an ad pod, in microseconds.
*
* <p>If all periods are contained in the current window and have a known duration, the sum of the
* period durations is returned. If this is not possible, {@link AdPodInfo#getMaxDuration() the
* SDK provided group duration} is used instead.
*
* <p>Do not use this method with public timelines of VOD multi-period streams that have the ad
* duration subtracted from period durations.
*
* @param timeline The timeline.
* @param adPodInfo The {@link AdPodInfo} from the SDK event.
* @param adPeriodIndex The period index of the period corresponding to the {@linkplain
* AdPodInfo#getAdPosition() ad position in the ad pod info}.
* @param window The window to be populated as the window containing the ad period.
* @param period The period to be populated as the ad period.
* @return The duration of the ad group, in microseconds.
*/
public static long getAdGroupDurationUsForLiveAdPeriodIndex(
Timeline timeline,
AdPodInfo adPodInfo,
int adPeriodIndex,
Timeline.Window window,
Timeline.Period period) {
timeline.getPeriod(adPeriodIndex, period);
timeline.getWindow(period.windowIndex, window);
checkArgument(window.isLive());
int adIndexInAdGroup = adPodInfo.getAdPosition() - 1;
int firstAdPeriodIndex = adPeriodIndex - adIndexInAdGroup;
int lastAdPeriodIndex = adPeriodIndex + (adPodInfo.getTotalAds() - adIndexInAdGroup - 1);
long adGroupDurationUs = C.TIME_UNSET;
if (window.firstPeriodIndex <= firstAdPeriodIndex
&& lastAdPeriodIndex < window.lastPeriodIndex) {
adGroupDurationUs = 0L;
Timeline.Period currentPeriod = new Timeline.Period();
for (int periodIndex = firstAdPeriodIndex; periodIndex <= lastAdPeriodIndex; periodIndex++) {
long durationUs = timeline.getPeriod(periodIndex, currentPeriod).durationUs;
if (durationUs == C.TIME_UNSET) {
adGroupDurationUs = C.TIME_UNSET;
break;
}
adGroupDurationUs += durationUs;
}
}
return adGroupDurationUs != C.TIME_UNSET
? adGroupDurationUs
: secToUsRounded(adPodInfo.getMaxDuration());
}
/**
* Handles the case when an ad period has been removed from the timeline while being played.
*
* <p>This makes sure no unplayed ads are left in the ad playback state after buffering or after
* the player has been paused in a live stream. In such a case periods may be removed from the
* timeline before playback transitions to the next period automatically.
*
* @param currentPeriodIndex The index of the {@linkplain Player#getCurrentPeriodIndex() current
* period}.
* @param timeline The timeline containing the current period.
* @param adPlaybackState The ad playback state to query.
* @return The updated ad playback state.
*/
@CheckResult
public static AdPlaybackState handleAdPeriodRemovedFromTimeline(
int currentPeriodIndex, Timeline timeline, AdPlaybackState adPlaybackState) {
Timeline.Period currentPeriod = timeline.getPeriod(currentPeriodIndex, new Timeline.Period());
Timeline.Window window = timeline.getWindow(currentPeriod.windowIndex, new Timeline.Window());
long currentPeriodStartTimeUs =
getWindowStartTimeUs(window.windowStartTimeMs, window.positionInFirstPeriodUs)
+ currentPeriod.positionInWindowUs;
int adGroupIndex =
adPlaybackState.getAdGroupIndexForPositionUs(currentPeriodStartTimeUs, C.TIME_UNSET);
if (adGroupIndex != C.INDEX_UNSET) {
AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
if (adGroup.timeUs + adGroup.contentResumeOffsetUs <= currentPeriodStartTimeUs) {
// current period starts after ad group.
return markAdGroupAsPlayed(adGroupIndex, /* preserveDurations= */ true, adPlaybackState);
}
int lastAvailableAdIndex = C.INDEX_UNSET;
long adGroupDurationUs = 0;
for (int i = 0; i < adGroup.states.length; i++) {
int state = adGroup.states[i];
if (state == AD_STATE_AVAILABLE) {
lastAvailableAdIndex = i;
}
if (currentPeriodStartTimeUs <= adGroup.timeUs + adGroupDurationUs) {
if (currentPeriodStartTimeUs == adGroup.timeUs + adGroupDurationUs) {
// Found the ad matching the current period.
if (state == AD_STATE_AVAILABLE || state == AD_STATE_PLAYED) {
return adPlaybackState;
}
if (state == AD_STATE_UNAVAILABLE && lastAvailableAdIndex == i - 1) {
// First unavailable ad in the group.
if (currentPeriod.durationUs == C.TIME_UNSET) {
// All ad data available except the last period. Will be corrected as normal.
return adPlaybackState;
}
// Else we can set the duration in the ad group as if we received the ad event.
adPlaybackState =
updateAdDurationInAdGroup(
adGroupIndex,
/* adIndexInAdGroup= */ i,
/* adDurationUs= */ currentPeriod.durationUs,
adPlaybackState);
adGroup = adPlaybackState.getAdGroup(adGroupIndex);
return adPlaybackState.withContentResumeOffsetUs(
adGroupIndex, sum(adGroup.durationsUs));
}
}
// We can't calculate the index position of the current period within the ad group after
// an ad period has been removed from the timeline. Give up.
adPlaybackState =
markAdGroupAsPlayed(adGroupIndex, /* preserveDurations= */ false, adPlaybackState);
// Future SDK events belonging to the skipped ad group are handled in #addLiveAdBreak()
// like when joining the live stream while an ad is playing and will insert a new separate
// partial ad group.
if (currentPeriod.durationUs != C.TIME_UNSET) {
// Insert the current ad as a single ad group instead of the skipped ad group.
return addLiveAdBreak(
currentPeriodStartTimeUs,
/* adDurationUs= */ currentPeriod.durationUs,
/* adPositionInAdPod= */ 1,
/* totalAdDurationUs= */ currentPeriod.durationUs,
/* totalAdsInAdPod= */ 1,
adPlaybackState);
}
return adPlaybackState;
}
if (state == AD_STATE_AVAILABLE || state == AD_STATE_UNAVAILABLE) {
adPlaybackState = adPlaybackState.withSkippedAd(adGroupIndex, /* adIndexInAdGroup= */ i);
}
adGroupDurationUs += adGroup.durationsUs[i];
}
}
return adPlaybackState;
}
private static AdPlaybackState markAdGroupAsPlayed(
int adGroupIndex, boolean preserveDurations, AdPlaybackState adPlaybackState) {
AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
long[] newDurationsUs = new long[adGroup.durationsUs.length];
for (int adIndex = 0; adIndex < newDurationsUs.length; adIndex++) {
newDurationsUs[adIndex] = preserveDurations ? adGroup.durationsUs[adIndex] : 0;
if (adGroup.states[adIndex] == AD_STATE_AVAILABLE
|| adGroup.states[adIndex] == AD_STATE_UNAVAILABLE) {
adPlaybackState =
adPlaybackState.withSkippedAd(adGroupIndex, /* adIndexInAdGroup= */ adIndex);
}
}
return adPlaybackState
.withAdDurationsUs(adGroupIndex, newDurationsUs)
.withContentResumeOffsetUs(adGroupIndex, sum(newDurationsUs));
}
/**
* Returns the {@code adGroupIndex} in the ad playback state corresponding to the given period
* index in the timeline and the {@code adIndexInAdGroup} of the first unplayed ad in that ad
* group.
*
* @param currentMediaItemIndex The {@linkplain Player#getCurrentMediaItemIndex() current media
* item index}.
* @param adPeriodIndex The index of the ad period in the timeline.
* @param timeline The timeline that contains the period for the ad period index.
* @param adPlaybackState The ad playback state that holds the ad group and ad information.
* @return A pair with the ad group index (first) and the ad index in that ad group (second).
* @exception IllegalStateException If no unplayed ad is found before or at the start time of the
* ad period.
*/
public static Pair<Integer, Integer> getAdGroupAndIndexInLiveMultiPeriodTimeline(
int currentMediaItemIndex,
int adPeriodIndex,
Timeline timeline,
AdPlaybackState adPlaybackState) {
Timeline.Window window =
timeline.getWindow(/* windowIndex= */ currentMediaItemIndex, new Timeline.Window());
checkArgument(window.isLive());
Timeline.Period period = new Timeline.Period();
timeline.getPeriod(adPeriodIndex, period, /* setIds= */ true);
long adPeriodStartTimeUs =
getWindowStartTimeUs(window.windowStartTimeMs, window.positionInFirstPeriodUs)
+ period.positionInWindowUs;
int adGroupIndex =
adPlaybackState.getAdGroupIndexForPositionUs(adPeriodStartTimeUs, C.TIME_UNSET);
if (adGroupIndex != C.INDEX_UNSET) {
AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
for (int k = 0; k < adGroup.states.length; k++) {
if (adGroup.states[k] == AD_STATE_AVAILABLE || adGroup.states[k] == AD_STATE_UNAVAILABLE) {
return new Pair<>(/* adGroupIndex= */ adGroupIndex, /* adIndexInAdGroup= */ k);
}
}
}
throw new IllegalStateException(
String.format(
"No unplayed ad group found before or at the start time us %d of the period with index"
+ " %d",
adPeriodStartTimeUs, adPeriodIndex));
}
/**
* Returns the {@code adGroupIndex} and the {@code adIndexInAdGroup} for the given period index of
* an ad period in a VOD multi-period timeline.
*
* @param adPeriodIndex The period index of the ad period.
* @param adPlaybackState The ad playback state that holds the ad group and ad information.
* @param contentTimeline The timeline that contains the ad period.
* @return A pair with the ad group index (first) and the ad index in that ad group (second).
*/
public static Pair<Integer, Integer> getAdGroupAndIndexInVodMultiPeriodTimeline(
int adPeriodIndex, AdPlaybackState adPlaybackState, Timeline contentTimeline) {
Timeline.Window window = contentTimeline.getWindow(/* windowIndex= */ 0, new Timeline.Window());
checkArgument(contentTimeline.getWindowCount() == 1);
int periodIndex = 0;
long totalElapsedContentDurationUs = 0;
if (window.isLive()) {
long windowStartTimeUs =
getWindowStartTimeUs(window.windowStartTimeMs, window.positionInFirstPeriodUs);
totalElapsedContentDurationUs = windowStartTimeUs - window.positionInFirstPeriodUs;
}
Timeline.Period period = new Timeline.Period();
for (int i = adPlaybackState.removedAdGroupCount; i < adPlaybackState.adGroupCount; i++) {
int adIndexInAdGroup = 0;
AdGroup adGroup = adPlaybackState.getAdGroup(/* adGroupIndex= */ i);
long adGroupDurationUs = sum(adGroup.durationsUs);
long elapsedAdGroupAdDurationUs = 0;
for (int j = periodIndex; j < min(contentTimeline.getPeriodCount(), adPeriodIndex + 1); j++) {
contentTimeline.getPeriod(j, period, /* setIds= */ true);
if (totalElapsedContentDurationUs < adGroup.timeUs) {
// Period starts before the ad group, so it is a content period.
totalElapsedContentDurationUs += period.durationUs;
} else {
long periodStartUs = totalElapsedContentDurationUs + elapsedAdGroupAdDurationUs;
if (periodStartUs + period.durationUs <= adGroup.timeUs + adGroupDurationUs) {
// The period ends before the end of the ad group, so it is an ad period.
if (j == adPeriodIndex) {
return new Pair<>(/* adGroupIndex= */ i, adIndexInAdGroup);
}
elapsedAdGroupAdDurationUs += period.durationUs;
adIndexInAdGroup++;
} else {
// Period is after the current ad group. Continue with next ad group.
totalElapsedContentDurationUs +=
min(elapsedAdGroupAdDurationUs, adGroup.contentResumeOffsetUs);
break;
}
}
// Increment the period index to the next unclassified period.
periodIndex++;
}
}
throw new IllegalStateException();
}
/**
* Called when the SDK emits a {@code LOADED} event of an IMA SSAI live stream.
*
* <p>For each ad, the SDK emits a {@code LOADED} event at the start of the ad. The {@code LOADED}
* event provides the information of a certain ad (index and duration) and its ad pod (number of
* ads and total ad duration) that is mapped to an ad in an {@linkplain AdGroup ad group} of an
* {@linkplain AdPlaybackState ad playback state} to reflect ads in the ExoPlayer media structure.
*
* <p>In the normal case (when all ad information is available completely and in time), the
* life-cycle of a live ad group and its ads has these phases:
*
* <ol>
* <li>When playing content and a {@code LOADED} event arrives, an ad group is inserted at the
* current position with the number of ads reported by the ad pod. The duration of the first
* ad is set and its state is set to {@link AdPlaybackState#AD_STATE_AVAILABLE}. The
* duration of the 2nd ad is set to the remaining duration of the total ad group duration.
* This pads out the duration of the ad group, so it doesn't end before the next ad event
* arrives. When inserting the ad group at the current position, the player immediately
* advances to play the inserted ad period.
* <li>When playing an ad group and a further {@code LOADED} event arrives, the ad state is
* inspected to find the {@linkplain AdPlaybackState#getAdGroupIndexForPositionUs(long,
* long) ad group currently being played}. We query for the first {@linkplain
* AdPlaybackState#AD_STATE_UNAVAILABLE unavailable ad} of that ad group, override its
* placeholder duration, mark it {@linkplain AdPlaybackState#AD_STATE_AVAILABLE available}
* and propagate the remainder of the placeholder duration to the next ad. Repeating this
* step until all ads are configured and marked as available.
* <li>When playing an ad and a {@code LOADED} event arrives but no more ads are in {@link
* AdPlaybackState#AD_STATE_UNAVAILABLE}, the group is expanded by inserting a new ad at the
* end of the ad group.
* <li>After playing an ad: When playback exits from an ad period to the next ad or back to
* content, {@link ImaServerSideAdInsertionMediaSource} detects {@linkplain
* Player.Listener#onPositionDiscontinuity(Player.PositionInfo, Player.PositionInfo, int) a
* position discontinuity}, identifies {@linkplain Player.PositionInfo#adIndexInAdGroup the
* ad being exited} and {@linkplain AdPlaybackState#AD_STATE_PLAYED marks the ad as played}.
* </ol>
*
* <p>Some edge-cases need consideration. When a user joins a live stream during an ad being
* played, ad information previous to the first received {@code LOADED} event is missing. Only ads
* starting from the first ad with full information are inserted into the group (back to happy
* path step 2).
*
* <p>There is further a chance, that a (pre-fetch) event arrives after the ad group has already
* ended. In such a case, the pre-fetch ad starts a new ad group with the remaining ads in the
* same way as the during-ad-joiner case that can afterwards be expanded again (back to end of
* happy path step 2).
*
* @param currentContentPeriodPositionUs The current public content position, in microseconds.
* @param adDurationUs The duration of the ad to be inserted, in microseconds.
* @param adPositionInAdPod The ad position in the ad pod (Note: starts with index 1).
* @param totalAdDurationUs The total duration of all ads as declared by the ad pod.
* @param totalAdsInAdPod The total number of ads declared by the ad pod.
* @param adPlaybackState The ad playback state with the current ad information.
* @return The updated {@link AdPlaybackState}.
*/
@CheckResult
public static AdPlaybackState addLiveAdBreak(
long currentContentPeriodPositionUs,
long adDurationUs,
int adPositionInAdPod,
long totalAdDurationUs,
int totalAdsInAdPod,
AdPlaybackState adPlaybackState) {
checkArgument(adPositionInAdPod > 0);
long mediaPeriodPositionUs =
getMediaPeriodPositionUsForContent(
currentContentPeriodPositionUs, /* nextAdGroupIndex= */ C.INDEX_UNSET, adPlaybackState);
// TODO(b/217187518) Support seeking backwards.
int adGroupIndex =
adPlaybackState.getAdGroupIndexForPositionUs(
mediaPeriodPositionUs, /* periodDurationUs= */ C.TIME_UNSET);
if (adGroupIndex == C.INDEX_UNSET) {
int adIndexInAdGroup = adPositionInAdPod - 1;
long[] adDurationsUs =
updateAdDurationAndPropagate(
new long[totalAdsInAdPod - adIndexInAdGroup],
/* adIndex= */ 0,
adDurationUs,
totalAdDurationUs);
adPlaybackState =
addAdGroupToAdPlaybackState(
adPlaybackState,
/* fromPositionUs= */ currentContentPeriodPositionUs,
/* contentResumeOffsetUs= */ sum(adDurationsUs),
/* adDurationsUs...= */ adDurationsUs);
adGroupIndex =
adPlaybackState.getAdGroupIndexForPositionUs(
mediaPeriodPositionUs, /* periodDurationUs= */ C.TIME_UNSET);
if (adGroupIndex != C.INDEX_UNSET) {
adPlaybackState =
adPlaybackState
.withAvailableAd(adGroupIndex, /* adIndexInAdGroup= */ 0)
.withOriginalAdCount(adGroupIndex, /* originalAdCount= */ totalAdsInAdPod);
}
} else {
AdGroup adGroup = adPlaybackState.getAdGroup(adGroupIndex);
long[] newDurationsUs = Arrays.copyOf(adGroup.durationsUs, adGroup.count);
int nextUnavailableAdIndex = getNextUnavailableAdIndex(adGroup);
if (adGroup.originalCount < totalAdsInAdPod || nextUnavailableAdIndex == adGroup.count) {
int adInAdGroupCount = max(totalAdsInAdPod, nextUnavailableAdIndex + 1);
adPlaybackState =
adPlaybackState
.withAdCount(adGroupIndex, adInAdGroupCount)
.withOriginalAdCount(adGroupIndex, /* originalAdCount= */ adInAdGroupCount);
newDurationsUs = Arrays.copyOf(newDurationsUs, adInAdGroupCount);
newDurationsUs[nextUnavailableAdIndex] = totalAdDurationUs;
Arrays.fill(
newDurationsUs,
/* fromIndex= */ nextUnavailableAdIndex + 1,
/* toIndex= */ adInAdGroupCount,
/* val= */ 0L);
}
long remainingDurationUs = max(adDurationUs, newDurationsUs[nextUnavailableAdIndex]);
updateAdDurationAndPropagate(
newDurationsUs, nextUnavailableAdIndex, adDurationUs, remainingDurationUs);
adPlaybackState =
adPlaybackState
.withAdDurationsUs(adGroupIndex, newDurationsUs)
.withAvailableAd(adGroupIndex, nextUnavailableAdIndex)
.withContentResumeOffsetUs(adGroupIndex, sum(newDurationsUs));
}
return adPlaybackState;
}
/**
* Splits the ad group at an available ad at a given split index.
*
* <p>When splitting, the ads from and after the split index are removed from the existing ad
* group. Then the ad events of all removed available ads are replicated to get the exact same
* result as if the new ad group was created by SDK ad events.
*
* @param adGroup The ad group to split.
* @param adGroupIndex The index of the ad group in the ad playback state.
* @param splitIndexExclusive The first index that should be part of the newly created ad group.
* @param adPlaybackState The ad playback state to modify.
* @return The ad playback state with the split ad group.
*/
@CheckResult
public static AdPlaybackState splitAdGroup(
AdGroup adGroup, int adGroupIndex, int splitIndexExclusive, AdPlaybackState adPlaybackState) {
checkArgument(splitIndexExclusive > 0 && splitIndexExclusive < adGroup.count);
// Remove the ads from the ad group.
for (int i = 0; i < adGroup.count - splitIndexExclusive; i++) {
adPlaybackState = adPlaybackState.withLastAdRemoved(adGroupIndex);
}
AdGroup previousAdGroup = adPlaybackState.getAdGroup(adGroupIndex);
long newAdGroupTimeUs = previousAdGroup.timeUs + previousAdGroup.contentResumeOffsetUs;
// Replicate ad events for each available ad that has been removed.
@AdPlaybackState.AdState
int[] removedStates = Arrays.copyOfRange(adGroup.states, splitIndexExclusive, adGroup.count);
long[] removedDurationsUs =
Arrays.copyOfRange(adGroup.durationsUs, splitIndexExclusive, adGroup.count);
long remainingAdDurationUs = sum(removedDurationsUs);
for (int i = 0; i < removedStates.length && removedStates[i] == AD_STATE_AVAILABLE; i++) {
adPlaybackState =
addLiveAdBreak(
newAdGroupTimeUs,
/* adDurationUs= */ removedDurationsUs[i],
/* adPositionInAdPod= */ i + 1,
/* totalAdDurationUs= */ remainingAdDurationUs,
/* totalAdsInAdPod= */ removedDurationsUs.length,
adPlaybackState);
remainingAdDurationUs -= removedDurationsUs[i];
}
return adPlaybackState;
}
private static int getNextUnavailableAdIndex(AdGroup adGroup) {
for (int i = 0; i < adGroup.states.length; i++) {
if (adGroup.states[i] == AD_STATE_UNAVAILABLE) {
return i;
}
}
return adGroup.states.length;
}
/**
* Converts a time in seconds to the corresponding time in microseconds.
*
* <p>Fractional values are rounded to the nearest microsecond using {@link RoundingMode#HALF_UP}.
*
* @param timeSec The time in seconds.
* @return The corresponding time in microseconds.
*/
public static long secToUsRounded(double timeSec) {
return DoubleMath.roundToLong(
BigDecimal.valueOf(timeSec).scaleByPowerOfTen(6).doubleValue(), RoundingMode.HALF_UP);
}
/**
* Converts a time in seconds to the corresponding time in milliseconds.
*
* <p>Fractional values are rounded to the nearest millisecond using {@link RoundingMode#HALF_UP}.
*
* @param timeSec The time in seconds.
* @return The corresponding time in milliseconds.
*/
public static long secToMsRounded(double timeSec) {
return DoubleMath.roundToLong(
BigDecimal.valueOf(timeSec).scaleByPowerOfTen(3).doubleValue(), RoundingMode.HALF_UP);
}
private ImaUtil() {}
}