/*
* Copyright (C) 2011 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 android.speech.tts;
import android.app.Service;
import android.content.Intent;
import android.net.Uri;
import android.os.Bundle;
import android.os.Handler;
import android.os.HandlerThread;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.os.MessageQueue;
import android.os.RemoteCallbackList;
import android.os.RemoteException;
import android.provider.Settings;
import android.speech.tts.TextToSpeech.Engine;
import android.text.TextUtils;
import android.util.Log;
import java.io.File;
import java.io.IOException;
import java.util.HashMap;
import java.util.Locale;
import java.util.Set;
/**
* Abstract base class for TTS engine implementations. The following methods
* need to be implemented.
*
*
* - {@link #onIsLanguageAvailable}
* - {@link #onLoadLanguage}
* - {@link #onGetLanguage}
* - {@link #onSynthesizeText}
* - {@link #onStop}
*
*
* The first three deal primarily with language management, and are used to
* query the engine for it's support for a given language and indicate to it
* that requests in a given language are imminent.
*
* {@link #onSynthesizeText} is central to the engine implementation. The
* implementation should synthesize text as per the request parameters and
* return synthesized data via the supplied callback. This class and its helpers
* will then consume that data, which might mean queueing it for playback or writing
* it to a file or similar. All calls to this method will be on a single
* thread, which will be different from the main thread of the service. Synthesis
* must be synchronous which means the engine must NOT hold on the callback or call
* any methods on it after the method returns
*
* {@link #onStop} tells the engine that it should stop all ongoing synthesis, if
* any. Any pending data from the current synthesis will be discarded.
*
*/
public abstract class TextToSpeechService extends Service {
private static final boolean DBG = false;
private static final String TAG = "TextToSpeechService";
private static final int MAX_SPEECH_ITEM_CHAR_LENGTH = 4000;
private static final String SYNTH_THREAD_NAME = "SynthThread";
private SynthHandler mSynthHandler;
// A thread and it's associated handler for playing back any audio
// associated with this TTS engine. Will handle all requests except synthesis
// to file requests, which occur on the synthesis thread.
private AudioPlaybackHandler mAudioPlaybackHandler;
private TtsEngines mEngineHelper;
private CallbackMap mCallbacks;
private String mPackageName;
@Override
public void onCreate() {
if (DBG) Log.d(TAG, "onCreate()");
super.onCreate();
SynthThread synthThread = new SynthThread();
synthThread.start();
mSynthHandler = new SynthHandler(synthThread.getLooper());
mAudioPlaybackHandler = new AudioPlaybackHandler();
mAudioPlaybackHandler.start();
mEngineHelper = new TtsEngines(this);
mCallbacks = new CallbackMap();
mPackageName = getApplicationInfo().packageName;
String[] defaultLocale = getSettingsLocale();
// Load default language
onLoadLanguage(defaultLocale[0], defaultLocale[1], defaultLocale[2]);
}
@Override
public void onDestroy() {
if (DBG) Log.d(TAG, "onDestroy()");
// Tell the synthesizer to stop
mSynthHandler.quit();
// Tell the audio playback thread to stop.
mAudioPlaybackHandler.quit();
// Unregister all callbacks.
mCallbacks.kill();
super.onDestroy();
}
/**
* Checks whether the engine supports a given language.
*
* Can be called on multiple threads.
*
* @param lang ISO-3 language code.
* @param country ISO-3 country code. May be empty or null.
* @param variant Language variant. May be empty or null.
* @return Code indicating the support status for the locale.
* One of {@link TextToSpeech#LANG_AVAILABLE},
* {@link TextToSpeech#LANG_COUNTRY_AVAILABLE},
* {@link TextToSpeech#LANG_COUNTRY_VAR_AVAILABLE},
* {@link TextToSpeech#LANG_MISSING_DATA}
* {@link TextToSpeech#LANG_NOT_SUPPORTED}.
*/
protected abstract int onIsLanguageAvailable(String lang, String country, String variant);
/**
* Returns the language, country and variant currently being used by the TTS engine.
*
* Can be called on multiple threads.
*
* @return A 3-element array, containing language (ISO 3-letter code),
* country (ISO 3-letter code) and variant used by the engine.
* The country and variant may be {@code ""}. If country is empty, then variant must
* be empty too.
* @see Locale#getISO3Language()
* @see Locale#getISO3Country()
* @see Locale#getVariant()
*/
protected abstract String[] onGetLanguage();
/**
* Notifies the engine that it should load a speech synthesis language. There is no guarantee
* that this method is always called before the language is used for synthesis. It is merely
* a hint to the engine that it will probably get some synthesis requests for this language
* at some point in the future.
*
* Can be called on multiple threads.
*
* @param lang ISO-3 language code.
* @param country ISO-3 country code. May be empty or null.
* @param variant Language variant. May be empty or null.
* @return Code indicating the support status for the locale.
* One of {@link TextToSpeech#LANG_AVAILABLE},
* {@link TextToSpeech#LANG_COUNTRY_AVAILABLE},
* {@link TextToSpeech#LANG_COUNTRY_VAR_AVAILABLE},
* {@link TextToSpeech#LANG_MISSING_DATA}
* {@link TextToSpeech#LANG_NOT_SUPPORTED}.
*/
protected abstract int onLoadLanguage(String lang, String country, String variant);
/**
* Notifies the service that it should stop any in-progress speech synthesis.
* This method can be called even if no speech synthesis is currently in progress.
*
* Can be called on multiple threads, but not on the synthesis thread.
*/
protected abstract void onStop();
/**
* Tells the service to synthesize speech from the given text. This method should
* block until the synthesis is finished.
*
* Called on the synthesis thread.
*
* @param request The synthesis request.
* @param callback The callback the the engine must use to make data available for
* playback or for writing to a file.
*/
protected abstract void onSynthesizeText(SynthesisRequest request,
SynthesisCallback callback);
/**
* Queries the service for a set of features supported for a given language.
*
* @param lang ISO-3 language code.
* @param country ISO-3 country code. May be empty or null.
* @param variant Language variant. May be empty or null.
* @return A list of features supported for the given language.
*/
protected Set onGetFeaturesForLanguage(String lang, String country, String variant) {
return null;
}
private int getDefaultSpeechRate() {
return getSecureSettingInt(Settings.Secure.TTS_DEFAULT_RATE, Engine.DEFAULT_RATE);
}
private String[] getSettingsLocale() {
final String locale = mEngineHelper.getLocalePrefForEngine(mPackageName);
return TtsEngines.parseLocalePref(locale);
}
private int getSecureSettingInt(String name, int defaultValue) {
return Settings.Secure.getInt(getContentResolver(), name, defaultValue);
}
/**
* Synthesizer thread. This thread is used to run {@link SynthHandler}.
*/
private class SynthThread extends HandlerThread implements MessageQueue.IdleHandler {
private boolean mFirstIdle = true;
public SynthThread() {
super(SYNTH_THREAD_NAME, android.os.Process.THREAD_PRIORITY_DEFAULT);
}
@Override
protected void onLooperPrepared() {
getLooper().getQueue().addIdleHandler(this);
}
@Override
public boolean queueIdle() {
if (mFirstIdle) {
mFirstIdle = false;
} else {
broadcastTtsQueueProcessingCompleted();
}
return true;
}
private void broadcastTtsQueueProcessingCompleted() {
Intent i = new Intent(TextToSpeech.ACTION_TTS_QUEUE_PROCESSING_COMPLETED);
if (DBG) Log.d(TAG, "Broadcasting: " + i);
sendBroadcast(i);
}
}
private class SynthHandler extends Handler {
private SpeechItem mCurrentSpeechItem = null;
public SynthHandler(Looper looper) {
super(looper);
}
private synchronized SpeechItem getCurrentSpeechItem() {
return mCurrentSpeechItem;
}
private synchronized SpeechItem setCurrentSpeechItem(SpeechItem speechItem) {
SpeechItem old = mCurrentSpeechItem;
mCurrentSpeechItem = speechItem;
return old;
}
private synchronized SpeechItem maybeRemoveCurrentSpeechItem(String callingApp) {
if (mCurrentSpeechItem != null &&
TextUtils.equals(mCurrentSpeechItem.getCallingApp(), callingApp)) {
SpeechItem current = mCurrentSpeechItem;
mCurrentSpeechItem = null;
return current;
}
return null;
}
public boolean isSpeaking() {
return getCurrentSpeechItem() != null;
}
public void quit() {
// Don't process any more speech items
getLooper().quit();
// Stop the current speech item
SpeechItem current = setCurrentSpeechItem(null);
if (current != null) {
current.stop();
}
// The AudioPlaybackHandler will be destroyed by the caller.
}
/**
* Adds a speech item to the queue.
*
* Called on a service binder thread.
*/
public int enqueueSpeechItem(int queueMode, final SpeechItem speechItem) {
if (!speechItem.isValid()) {
speechItem.dispatchOnError();
return TextToSpeech.ERROR;
}
if (queueMode == TextToSpeech.QUEUE_FLUSH) {
stopForApp(speechItem.getCallingApp());
} else if (queueMode == TextToSpeech.QUEUE_DESTROY) {
stopAll();
}
Runnable runnable = new Runnable() {
@Override
public void run() {
setCurrentSpeechItem(speechItem);
speechItem.play();
setCurrentSpeechItem(null);
}
};
Message msg = Message.obtain(this, runnable);
// The obj is used to remove all callbacks from the given app in
// stopForApp(String).
//
// Note that this string is interned, so the == comparison works.
msg.obj = speechItem.getCallingApp();
if (sendMessage(msg)) {
return TextToSpeech.SUCCESS;
} else {
Log.w(TAG, "SynthThread has quit");
speechItem.dispatchOnError();
return TextToSpeech.ERROR;
}
}
/**
* Stops all speech output and removes any utterances still in the queue for
* the calling app.
*
* Called on a service binder thread.
*/
public int stopForApp(String callingApp) {
if (TextUtils.isEmpty(callingApp)) {
return TextToSpeech.ERROR;
}
removeCallbacksAndMessages(callingApp);
// This stops writing data to the file / or publishing
// items to the audio playback handler.
//
// Note that the current speech item must be removed only if it
// belongs to the callingApp, else the item will be "orphaned" and
// not stopped correctly if a stop request comes along for the item
// from the app it belongs to.
SpeechItem current = maybeRemoveCurrentSpeechItem(callingApp);
if (current != null) {
current.stop();
}
// Remove any enqueued audio too.
mAudioPlaybackHandler.removePlaybackItems(callingApp);
return TextToSpeech.SUCCESS;
}
public int stopAll() {
// Stop the current speech item unconditionally.
SpeechItem current = setCurrentSpeechItem(null);
if (current != null) {
current.stop();
}
// Remove all other items from the queue.
removeCallbacksAndMessages(null);
// Remove all pending playback as well.
mAudioPlaybackHandler.removeAllItems();
return TextToSpeech.SUCCESS;
}
}
interface UtteranceProgressDispatcher {
public void dispatchOnDone();
public void dispatchOnStart();
public void dispatchOnError();
}
/**
* An item in the synth thread queue.
*/
private abstract class SpeechItem implements UtteranceProgressDispatcher {
private final String mCallingApp;
protected final Bundle mParams;
private boolean mStarted = false;
private boolean mStopped = false;
public SpeechItem(String callingApp, Bundle params) {
mCallingApp = callingApp;
mParams = params;
}
public String getCallingApp() {
return mCallingApp;
}
/**
* Checker whether the item is valid. If this method returns false, the item should not
* be played.
*/
public abstract boolean isValid();
/**
* Plays the speech item. Blocks until playback is finished.
* Must not be called more than once.
*
* Only called on the synthesis thread.
*
* @return {@link TextToSpeech#SUCCESS} or {@link TextToSpeech#ERROR}.
*/
public int play() {
synchronized (this) {
if (mStarted) {
throw new IllegalStateException("play() called twice");
}
mStarted = true;
}
return playImpl();
}
/**
* Stops the speech item.
* Must not be called more than once.
*
* Can be called on multiple threads, but not on the synthesis thread.
*/
public void stop() {
synchronized (this) {
if (mStopped) {
throw new IllegalStateException("stop() called twice");
}
mStopped = true;
}
stopImpl();
}
@Override
public void dispatchOnDone() {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnDone(getCallingApp(), utteranceId);
}
}
@Override
public void dispatchOnStart() {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnStart(getCallingApp(), utteranceId);
}
}
@Override
public void dispatchOnError() {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnError(getCallingApp(), utteranceId);
}
}
protected synchronized boolean isStopped() {
return mStopped;
}
protected abstract int playImpl();
protected abstract void stopImpl();
public int getStreamType() {
return getIntParam(Engine.KEY_PARAM_STREAM, Engine.DEFAULT_STREAM);
}
public float getVolume() {
return getFloatParam(Engine.KEY_PARAM_VOLUME, Engine.DEFAULT_VOLUME);
}
public float getPan() {
return getFloatParam(Engine.KEY_PARAM_PAN, Engine.DEFAULT_PAN);
}
public String getUtteranceId() {
return getStringParam(Engine.KEY_PARAM_UTTERANCE_ID, null);
}
protected String getStringParam(String key, String defaultValue) {
return mParams == null ? defaultValue : mParams.getString(key, defaultValue);
}
protected int getIntParam(String key, int defaultValue) {
return mParams == null ? defaultValue : mParams.getInt(key, defaultValue);
}
protected float getFloatParam(String key, float defaultValue) {
return mParams == null ? defaultValue : mParams.getFloat(key, defaultValue);
}
}
class SynthesisSpeechItem extends SpeechItem {
// Never null.
private final String mText;
private final SynthesisRequest mSynthesisRequest;
private final String[] mDefaultLocale;
// Non null after synthesis has started, and all accesses
// guarded by 'this'.
private AbstractSynthesisCallback mSynthesisCallback;
private final EventLogger mEventLogger;
public SynthesisSpeechItem(String callingApp, Bundle params, String text) {
super(callingApp, params);
mText = text;
mSynthesisRequest = new SynthesisRequest(mText, mParams);
mDefaultLocale = getSettingsLocale();
setRequestParams(mSynthesisRequest);
mEventLogger = new EventLogger(mSynthesisRequest, getCallingApp(), mPackageName);
}
public String getText() {
return mText;
}
@Override
public boolean isValid() {
if (mText == null) {
Log.wtf(TAG, "Got null text");
return false;
}
if (mText.length() >= MAX_SPEECH_ITEM_CHAR_LENGTH) {
Log.w(TAG, "Text too long: " + mText.length() + " chars");
return false;
}
return true;
}
@Override
protected int playImpl() {
AbstractSynthesisCallback synthesisCallback;
mEventLogger.onRequestProcessingStart();
synchronized (this) {
// stop() might have been called before we enter this
// synchronized block.
if (isStopped()) {
return TextToSpeech.ERROR;
}
mSynthesisCallback = createSynthesisCallback();
synthesisCallback = mSynthesisCallback;
}
TextToSpeechService.this.onSynthesizeText(mSynthesisRequest, synthesisCallback);
return synthesisCallback.isDone() ? TextToSpeech.SUCCESS : TextToSpeech.ERROR;
}
protected AbstractSynthesisCallback createSynthesisCallback() {
return new PlaybackSynthesisCallback(getStreamType(), getVolume(), getPan(),
mAudioPlaybackHandler, this, getCallingApp(), mEventLogger);
}
private void setRequestParams(SynthesisRequest request) {
request.setLanguage(getLanguage(), getCountry(), getVariant());
request.setSpeechRate(getSpeechRate());
request.setPitch(getPitch());
}
@Override
protected void stopImpl() {
AbstractSynthesisCallback synthesisCallback;
synchronized (this) {
synthesisCallback = mSynthesisCallback;
}
if (synthesisCallback != null) {
// If the synthesis callback is null, it implies that we haven't
// entered the synchronized(this) block in playImpl which in
// turn implies that synthesis would not have started.
synthesisCallback.stop();
TextToSpeechService.this.onStop();
}
}
public String getLanguage() {
return getStringParam(Engine.KEY_PARAM_LANGUAGE, mDefaultLocale[0]);
}
private boolean hasLanguage() {
return !TextUtils.isEmpty(getStringParam(Engine.KEY_PARAM_LANGUAGE, null));
}
private String getCountry() {
if (!hasLanguage()) return mDefaultLocale[1];
return getStringParam(Engine.KEY_PARAM_COUNTRY, "");
}
private String getVariant() {
if (!hasLanguage()) return mDefaultLocale[2];
return getStringParam(Engine.KEY_PARAM_VARIANT, "");
}
private int getSpeechRate() {
return getIntParam(Engine.KEY_PARAM_RATE, getDefaultSpeechRate());
}
private int getPitch() {
return getIntParam(Engine.KEY_PARAM_PITCH, Engine.DEFAULT_PITCH);
}
}
private class SynthesisToFileSpeechItem extends SynthesisSpeechItem {
private final File mFile;
public SynthesisToFileSpeechItem(String callingApp, Bundle params, String text,
File file) {
super(callingApp, params, text);
mFile = file;
}
@Override
public boolean isValid() {
if (!super.isValid()) {
return false;
}
return checkFile(mFile);
}
@Override
protected AbstractSynthesisCallback createSynthesisCallback() {
return new FileSynthesisCallback(mFile);
}
@Override
protected int playImpl() {
dispatchOnStart();
int status = super.playImpl();
if (status == TextToSpeech.SUCCESS) {
dispatchOnDone();
} else {
dispatchOnError();
}
return status;
}
/**
* Checks that the given file can be used for synthesis output.
*/
private boolean checkFile(File file) {
try {
if (file.exists()) {
Log.v(TAG, "File " + file + " exists, deleting.");
if (!file.delete()) {
Log.e(TAG, "Failed to delete " + file);
return false;
}
}
if (!file.createNewFile()) {
Log.e(TAG, "Can't create file " + file);
return false;
}
if (!file.delete()) {
Log.e(TAG, "Failed to delete " + file);
return false;
}
return true;
} catch (IOException e) {
Log.e(TAG, "Can't use " + file + " due to exception " + e);
return false;
}
}
}
private class AudioSpeechItem extends SpeechItem {
private final BlockingMediaPlayer mPlayer;
private AudioMessageParams mToken;
public AudioSpeechItem(String callingApp, Bundle params, Uri uri) {
super(callingApp, params);
mPlayer = new BlockingMediaPlayer(TextToSpeechService.this, uri, getStreamType());
}
@Override
public boolean isValid() {
return true;
}
@Override
protected int playImpl() {
mToken = new AudioMessageParams(this, getCallingApp(), mPlayer);
mAudioPlaybackHandler.enqueueAudio(mToken);
return TextToSpeech.SUCCESS;
}
@Override
protected void stopImpl() {
// Do nothing.
}
}
private class SilenceSpeechItem extends SpeechItem {
private final long mDuration;
private SilenceMessageParams mToken;
public SilenceSpeechItem(String callingApp, Bundle params, long duration) {
super(callingApp, params);
mDuration = duration;
}
@Override
public boolean isValid() {
return true;
}
@Override
protected int playImpl() {
mToken = new SilenceMessageParams(this, getCallingApp(), mDuration);
mAudioPlaybackHandler.enqueueSilence(mToken);
return TextToSpeech.SUCCESS;
}
@Override
protected void stopImpl() {
// Do nothing.
}
}
@Override
public IBinder onBind(Intent intent) {
if (TextToSpeech.Engine.INTENT_ACTION_TTS_SERVICE.equals(intent.getAction())) {
return mBinder;
}
return null;
}
/**
* Binder returned from {@code #onBind(Intent)}. The methods in this class can be
* called called from several different threads.
*/
// NOTE: All calls that are passed in a calling app are interned so that
// they can be used as message objects (which are tested for equality using ==).
private final ITextToSpeechService.Stub mBinder = new ITextToSpeechService.Stub() {
public int speak(String callingApp, String text, int queueMode, Bundle params) {
if (!checkNonNull(callingApp, text, params)) {
return TextToSpeech.ERROR;
}
SpeechItem item = new SynthesisSpeechItem(intern(callingApp), params, text);
return mSynthHandler.enqueueSpeechItem(queueMode, item);
}
public int synthesizeToFile(String callingApp, String text, String filename,
Bundle params) {
if (!checkNonNull(callingApp, text, filename, params)) {
return TextToSpeech.ERROR;
}
File file = new File(filename);
SpeechItem item = new SynthesisToFileSpeechItem(intern(callingApp),
params, text, file);
return mSynthHandler.enqueueSpeechItem(TextToSpeech.QUEUE_ADD, item);
}
public int playAudio(String callingApp, Uri audioUri, int queueMode, Bundle params) {
if (!checkNonNull(callingApp, audioUri, params)) {
return TextToSpeech.ERROR;
}
SpeechItem item = new AudioSpeechItem(intern(callingApp), params, audioUri);
return mSynthHandler.enqueueSpeechItem(queueMode, item);
}
public int playSilence(String callingApp, long duration, int queueMode, Bundle params) {
if (!checkNonNull(callingApp, params)) {
return TextToSpeech.ERROR;
}
SpeechItem item = new SilenceSpeechItem(intern(callingApp), params, duration);
return mSynthHandler.enqueueSpeechItem(queueMode, item);
}
public boolean isSpeaking() {
return mSynthHandler.isSpeaking() || mAudioPlaybackHandler.isSpeaking();
}
public int stop(String callingApp) {
if (!checkNonNull(callingApp)) {
return TextToSpeech.ERROR;
}
return mSynthHandler.stopForApp(intern(callingApp));
}
public String[] getLanguage() {
return onGetLanguage();
}
/*
* If defaults are enforced, then no language is "available" except
* perhaps the default language selected by the user.
*/
public int isLanguageAvailable(String lang, String country, String variant) {
if (!checkNonNull(lang)) {
return TextToSpeech.ERROR;
}
return onIsLanguageAvailable(lang, country, variant);
}
public String[] getFeaturesForLanguage(String lang, String country, String variant) {
Set features = onGetFeaturesForLanguage(lang, country, variant);
String[] featuresArray = null;
if (features != null) {
featuresArray = new String[features.size()];
features.toArray(featuresArray);
} else {
featuresArray = new String[0];
}
return featuresArray;
}
/*
* There is no point loading a non default language if defaults
* are enforced.
*/
public int loadLanguage(String lang, String country, String variant) {
if (!checkNonNull(lang)) {
return TextToSpeech.ERROR;
}
return onLoadLanguage(lang, country, variant);
}
public void setCallback(String packageName, ITextToSpeechCallback cb) {
// Note that passing in a null callback is a valid use case.
if (!checkNonNull(packageName)) {
return;
}
mCallbacks.setCallback(packageName, cb);
}
private String intern(String in) {
// The input parameter will be non null.
return in.intern();
}
private boolean checkNonNull(Object... args) {
for (Object o : args) {
if (o == null) return false;
}
return true;
}
};
private class CallbackMap extends RemoteCallbackList {
private final HashMap mAppToCallback
= new HashMap();
public void setCallback(String packageName, ITextToSpeechCallback cb) {
synchronized (mAppToCallback) {
ITextToSpeechCallback old;
if (cb != null) {
register(cb, packageName);
old = mAppToCallback.put(packageName, cb);
} else {
old = mAppToCallback.remove(packageName);
}
if (old != null && old != cb) {
unregister(old);
}
}
}
public void dispatchOnDone(String packageName, String utteranceId) {
ITextToSpeechCallback cb = getCallbackFor(packageName);
if (cb == null) return;
try {
cb.onDone(utteranceId);
} catch (RemoteException e) {
Log.e(TAG, "Callback onDone failed: " + e);
}
}
public void dispatchOnStart(String packageName, String utteranceId) {
ITextToSpeechCallback cb = getCallbackFor(packageName);
if (cb == null) return;
try {
cb.onStart(utteranceId);
} catch (RemoteException e) {
Log.e(TAG, "Callback onStart failed: " + e);
}
}
public void dispatchOnError(String packageName, String utteranceId) {
ITextToSpeechCallback cb = getCallbackFor(packageName);
if (cb == null) return;
try {
cb.onError(utteranceId);
} catch (RemoteException e) {
Log.e(TAG, "Callback onError failed: " + e);
}
}
@Override
public void onCallbackDied(ITextToSpeechCallback callback, Object cookie) {
String packageName = (String) cookie;
synchronized (mAppToCallback) {
mAppToCallback.remove(packageName);
}
mSynthHandler.stopForApp(packageName);
}
@Override
public void kill() {
synchronized (mAppToCallback) {
mAppToCallback.clear();
super.kill();
}
}
private ITextToSpeechCallback getCallbackFor(String packageName) {
ITextToSpeechCallback cb;
synchronized (mAppToCallback) {
cb = mAppToCallback.get(packageName);
}
return cb;
}
}
}