直面原理:5 张图彻底了解 Android TextToSpeech 机制
❝❞
ChatGPT如此火爆,但它的强悍在于NLU(自然语言理解)、DM(对话管理)和NLG(自然语言生成)这三块,而Recognition识别和TTS播报这两块是缺失的。假使你的 App 接入了 ChatGPT,但如果需要播报出来的话,TextToSpeech机制就可以派上用场了。
1 前言
关于语音方面的交互,Android SDK 提供了用于语音交互的 VoiceInteraction 机制、语音识别的 Recognition 接口、语音播报的 TTS 接口。
前者已经介绍过,本次主要聊聊第 3 块即 TTS,后续会分析下第 2 块即 Android 标准的 Recognition 机制。
通过 TextToSpeech 机制,任意 App 都可以方便地采用系统内置或第三方提供的 TTS Engine 进行播放铃声提示、语音提示的请求,Engine 可以由系统选择默认的 provider 来执行操作,也可由 App 具体指定偏好的目标 Engine 来完成。
默认 TTS Engine 可以在设备设置的路径中找到,亦可由用户手动更改:Settings -> Accessibility -> Text-to-speech ouput -> preferred engine
TextToSpeech 机制的优点有很多:
对于需要使用 TTS 的请求 App 而言:无需关心 TTS 的具体实现,通过 TextToSpeechAPI 即用即有对于需要对外提供 TTS 能力的实现 Engine 而言,无需维护复杂的 TTS 时序和逻辑,按照 TextToSpeechService框架的定义对接即可,无需关心系统如何将实现和请求进行衔接
本文将会阐述 TextToSpeech 机制的调用、Engine 的实现以及系统调度这三块,彻底梳理清楚整个流程。
2 TextToSpeech 调用
TextToSpeech API 是为 TTS 调用准备,总体比较简单。
最主要的是提供初始化 TTS 接口的 TextToSpeech() 构造函数和初始化后的回调 OnInitListener,后续的播放 TTS 的 speak() 和播放铃声的 playEarcon()。
比较重要的是处理播放请求的 4 种回调结果,需要依据不同结果进行 TTS 播报开始的状态记录、播报完毕后的下一步动作、抑或是在播报出错时对音频焦点的管理等等。
之前的 OnUtteranceCompletedListener 在 API level 18 时被废弃,可以使用回调更为精细的 UtteranceProgressListener。
// TTSTest.kt
class TTSTest(context: Context) {
private val tts: TextToSpeech = TextToSpeech(context) { initResult -> ... }
init {
tts.setOnUtteranceProgressListener(object : UtteranceProgressListener() {
override fun onStart(utteranceId: String?) { ... }
override fun onDone(utteranceId: String?) { ... }
override fun onStop(utteranceId: String?, interrupted: Boolean) { ... }
override fun onError(utteranceId: String?) { ... }
})
}
fun testTextToSpeech(context: Context) {
tts.speak(
"你好,汽车",
TextToSpeech.QUEUE_ADD,
Bundle(),
"xxdtgfsf"
)
tts.playEarcon(
EARCON_DONE,
TextToSpeech.QUEUE_ADD,
Bundle(),
"yydtgfsf"
)
}
companion object {
const val EARCON_DONE = "earCon_done"
}
}
3 TextToSpeech 系统调度
3.1 init 绑定
首先从 TextToSpeech() 的实现入手,以了解在 TTS 播报之前,系统和 TTS Engine 之间做了什么准备工作。
其触发的
initTTS()将按照如下顺序查找需要连接到哪个 Engine:
如果构造 TTS 接口的实例时指定了目标 Engine 的 package,那么首选连接到该 Engine 反之,获取设备设置的 default Engine 并连接,设置来自于 TtsEngines从系统设置数据SettingsProvider中 读取TTS_DEFAULT_SYNTH而来如果 default 不存在或者没有安装的话,从 TtsEngines 获取第一位的系统 Engine 并连接。第一位指的是从所有 TTS Service 实现 Engine 列表里获得第一个属于 system image 的 Engine
连接的话均是调用 connectToEngine(),其将依据调用来源来采用不同的 Connection内部实现去 connect():
具体是直接获取名为
texttospeech、管理 TTS Service 的系统服务TextToSpeechManagerService的接口代理并直接调用它的createSession()创建一个 session,同时暂存其指向的ITextToSpeechSession代理接口。❝
该 session 实际上还是
❞AIDL机制,TTS 系统服务的内部会创建专用的TextToSpeechSessionConnection去 bind 和 cache Engine,这里不再赘述
其 connect() 实现较为简单,封装 Action 为 INTENT_ACTION_TTS_SERVICE的 Intent 进行bindService(),后续由AMS执行和 Engine 的绑定,这里不再展开
如果调用不是来自 system,采用
DirectConnection反之,采用
SystemConnection,原因在于系统的 TTS 请求可能很多,不能像其他 App 一样总是创建一个新的连接,而是需要 cache 并复用这种连接无论是哪种方式,在 connected 之后都需要将具体的 TTS Eninge 的
ITextToSpeechService接口实例暂存,同时将 Connection 实例暂存到 mServiceConnection,给外部类接收到 speak() 的时候使用。而且要留意,此刻还会启动一个异步任务SetupConnectionAsyncTask将自己作为 Binder 接口ITextToSpeechCallback返回给 Engine 以处理完之后回调结果给 Request
connect 执行完毕并结果 OK 的话,还要暂存到 mConnectingServiceConnection,以在结束 TTS 需求的时候释放连接使用。并通过 dispatchOnInit() 传递 SUCCESS 给 Request App
实现很简单,将结果 Enum 回调给初始化传入的 OnInitListener接口
如果连接失败的话,则调用 dispatchOnInit() 传递 ERROR
// TextToSpeech.java
public class TextToSpeech {
public TextToSpeech(Context context, OnInitListener listener) {
this(context, listener, null);
}
private TextToSpeech( ... ) {
...
initTts();
}
private int initTts() {
// Step 1: Try connecting to the engine that was requested.
if (mRequestedEngine != null) {
if (mEnginesHelper.isEngineInstalled(mRequestedEngine)) {
if (connectToEngine(mRequestedEngine)) {
mCurrentEngine = mRequestedEngine;
return SUCCESS;
}
...
} else if (!mUseFallback) {
...
dispatchOnInit(ERROR);
return ERROR;
}
}
// Step 2: Try connecting to the user's default engine.
final String defaultEngine = getDefaultEngine();
...
// Step 3: Try connecting to the highest ranked engine in the system.
final String highestRanked = mEnginesHelper.getHighestRankedEngineName();
...
dispatchOnInit(ERROR);
return ERROR;
}
private boolean connectToEngine(String engine) {
Connection connection;
if (mIsSystem) {
connection = new SystemConnection();
} else {
connection = new DirectConnection();
}
boolean bound = connection.connect(engine);
if (!bound) {
return false;
} else {
mConnectingServiceConnection = connection;
return true;
}
}
}
Connection 内部类和其两个子类的实现:
// TextToSpeech.java
public class TextToSpeech {
...
private abstract class Connection implements ServiceConnection {
private ITextToSpeechService mService;
...
private final ITextToSpeechCallback.Stub mCallback =
new ITextToSpeechCallback.Stub() {
public void onStop(String utteranceId, boolean isStarted)
throws RemoteException {
UtteranceProgressListener listener = mUtteranceProgressListener;
if (listener != null) {
listener.onStop(utteranceId, isStarted);
}
};
@Override
public void onSuccess(String utteranceId) { ... }
@Override
public void onError(String utteranceId, int errorCode) { ... }
@Override
public void onStart(String utteranceId) { ... }
...
};
@Override
public void onServiceConnected(ComponentName componentName, IBinder service) {
synchronized(mStartLock) {
mConnectingServiceConnection = null;
mService = ITextToSpeechService.Stub.asInterface(service);
mServiceConnection = Connection.this;
mEstablished = false;
mOnSetupConnectionAsyncTask = new SetupConnectionAsyncTask();
mOnSetupConnectionAsyncTask.execute();
}
}
...
}
private class DirectConnection extends Connection {
@Override
boolean connect(String engine) {
Intent intent = new Intent(Engine.INTENT_ACTION_TTS_SERVICE);
intent.setPackage(engine);
return mContext.bindService(intent, this, Context.BIND_AUTO_CREATE);
}
...
}
private class SystemConnection extends Connection {
...
boolean connect(String engine) {
IBinder binder = ServiceManager.getService(Context.TEXT_TO_SPEECH_MANAGER_SERVICE);
...
try {
manager.createSession(engine, new ITextToSpeechSessionCallback.Stub() {
...
});
return true;
} ...
}
...
}
}
3.2 speak 播报
后面看看重要的 speak(),系统做了什么具体实现。
首先将 speak() 对应的调用远程接口的操作封装为 Action 接口实例,并交给 init() 时暂存的已连接的 Connection 实例去调度。
// TextToSpeech.java
public class TextToSpeech {
...
private Connection mServiceConnection;
public int speak(final CharSequence text, ... ) {
return runAction((ITextToSpeechService service) -> {
...
}, ERROR, "speak");
}
private <R> R runAction(Action<R> action, R errorResult, String method) {
return runAction(action, errorResult, method, true, true);
}
private <R> R runAction( ... ) {
synchronized (mStartLock) {
...
return mServiceConnection.runAction(action, errorResult, method, reconnect,
onlyEstablishedConnection);
}
}
private abstract class Connection implements ServiceConnection {
public <R> R runAction( ... ) {
synchronized (mStartLock) {
try {
...
return action.run(mService);
}
...
}
}
}
}Action的实际内容是先从mUtterancesMap 里查找目标文本是否有设置过本地的 audio 资源:// TextToSpeech.java
public class TextToSpeech {
...
public int speak(final CharSequence text, ... ) {
return runAction((ITextToSpeechService service) -> {
Uri utteranceUri = mUtterances.get(text);
if (utteranceUri != null) {
return service.playAudio(getCallerIdentity(), utteranceUri, queueMode,
getParams(params), utteranceId);
} else {
return service.speak(getCallerIdentity(), text, queueMode, getParams(params),
utteranceId);
}
}, ERROR, "speak");
}
...
}后面即是 TextToSpeechService 的实现环节。
如有设置的话,调用用 TTS Engine 的 playAudio()直接播放反之调用 text 转 audio 的接口 speak()
4 TextToSpeechService 实现
TextToSpeechService 内接收的实现是向内部的
SynthHandler发送封装的 speak 或 playAudio 请求的SpeechItem。SynthHandler 绑定到 TextToSpeechService 初始化的时候启动的、名为 "SynthThread" 的 HandlerThread。
// TextToSpeechService.java
public abstract class TextToSpeechService extends Service {
private final ITextToSpeechService.Stub mBinder =
new ITextToSpeechService.Stub() {
@Override
public int speak(
IBinder caller,
CharSequence text,
int queueMode,
Bundle params,
String utteranceId) {
SpeechItem item =
new SynthesisSpeechItem(
caller,
Binder.getCallingUid(),
Binder.getCallingPid(),
params,
utteranceId,
text);
return mSynthHandler.enqueueSpeechItem(queueMode, item);
}
@Override
public int playAudio( ... ) {
SpeechItem item =
new AudioSpeechItem( ... );
...
}
...
};
...
}
speak 请求封装给 Handler 的是 SynthesisSpeechItemplayAudio 请求封装的是 AudioSpeechItem
SynthHandler 拿到 SpeechItem 后根据 queueMode 的值决定是 stop() 还是继续播放。播放的话,是封装进一步 play 的操作 Message 给 Handler。
// TextToSpeechService.java
private class SynthHandler extends Handler {
...
public int enqueueSpeechItem(int queueMode, final SpeechItem speechItem) {
UtteranceProgressDispatcher utterenceProgress = null;
if (speechItem instanceof UtteranceProgressDispatcher) {
utterenceProgress = (UtteranceProgressDispatcher) speechItem;
}
if (!speechItem.isValid()) {
if (utterenceProgress != null) {
utterenceProgress.dispatchOnError(
TextToSpeech.ERROR_INVALID_REQUEST);
}
return TextToSpeech.ERROR;
}
if (queueMode == TextToSpeech.QUEUE_FLUSH) {
stopForApp(speechItem.getCallerIdentity());
} else if (queueMode == TextToSpeech.QUEUE_DESTROY) {
stopAll();
}
Runnable runnable = new Runnable() {
@Override
public void run() {
if (setCurrentSpeechItem(speechItem)) {
speechItem.play();
removeCurrentSpeechItem();
} else {
speechItem.stop();
}
}
};
Message msg = Message.obtain(this, runnable);
msg.obj = speechItem.getCallerIdentity();
if (sendMessage(msg)) {
return TextToSpeech.SUCCESS;
} else {
if (utterenceProgress != null) {
utterenceProgress.dispatchOnError(TextToSpeech.ERROR_SERVICE);
}
return TextToSpeech.ERROR;
}
}
...
}
play() 具体是调用 playImpl() 继续。对于 SynthesisSpeechItem 来说,将初始化时创建的 SynthesisRequest 实例和 SynthesisCallback 实例(此处的实现是 PlaybackSynthesisCallback)收集和调用 onSynthesizeText() 进一步处理,用于请求和回调结果。
// TextToSpeechService.java
private abstract class SpeechItem {
...
public void play() {
synchronized (this) {
if (mStarted) {
throw new IllegalStateException("play() called twice");
}
mStarted = true;
}
playImpl();
}
}
class SynthesisSpeechItem extends UtteranceSpeechItemWithParams {
public SynthesisSpeechItem(
...
String utteranceId,
CharSequence text) {
mSynthesisRequest = new SynthesisRequest(mText, mParams);
...
}
...
@Override
protected void playImpl() {
AbstractSynthesisCallback synthesisCallback;
mEventLogger.onRequestProcessingStart();
synchronized (this) {
...
mSynthesisCallback = createSynthesisCallback();
synthesisCallback = mSynthesisCallback;
}
TextToSpeechService.this.onSynthesizeText(mSynthesisRequest, synthesisCallback);
if (synthesisCallback.hasStarted() && !synthesisCallback.hasFinished()) {
synthesisCallback.done();
}
}
...
}
onSynthesizeText() 是 abstract 方法,需要 Engine 复写以将 text 合成 audio 数据,也是 TTS 功能里最核心的实现。
// PlaybackSynthesisCallback.java
class PlaybackSynthesisCallback extends AbstractSynthesisCallback {
...
@Override
public int start(int sampleRateInHz, int audioFormat, int channelCount) {
mDispatcher.dispatchOnBeginSynthesis(sampleRateInHz, audioFormat, channelCount);
int channelConfig = BlockingAudioTrack.getChannelConfig(channelCount);
synchronized (mStateLock) {
...
SynthesisPlaybackQueueItem item = new SynthesisPlaybackQueueItem(
mAudioParams, sampleRateInHz, audioFormat, channelCount,
mDispatcher, mCallerIdentity, mLogger);
mAudioTrackHandler.enqueue(item);
mItem = item;
}
return TextToSpeech.SUCCESS;
}
@Override
public int audioAvailable(byte[] buffer, int offset, int length) {
SynthesisPlaybackQueueItem item = null;
synchronized (mStateLock) {
...
item = mItem;
}
final byte[] bufferCopy = new byte[length];
System.arraycopy(buffer, offset, bufferCopy, 0, length);
mDispatcher.dispatchOnAudioAvailable(bufferCopy);
try {
item.put(bufferCopy);
}
...
return TextToSpeech.SUCCESS;
}
@Override
public int done() {
int statusCode = 0;
SynthesisPlaybackQueueItem item = null;
synchronized (mStateLock) {
...
mDone = true;
if (mItem == null) {
if (mStatusCode == TextToSpeech.SUCCESS) {
mDispatcher.dispatchOnSuccess();
} else {
mDispatcher.dispatchOnError(mStatusCode);
}
return TextToSpeech.ERROR;
}
item = mItem;
statusCode = mStatusCode;
}
if (statusCode == TextToSpeech.SUCCESS) {
item.done();
} else {
item.stop(statusCode);
}
return TextToSpeech.SUCCESS;
}
...
}
上述的 QueueItem 的放置 audio 数据和消费的逻辑如下,主要是 put 操作触发 Lock 接口的 take Condition 恢复执行,最后调用 AudioTrack 去播放。
// SynthesisPlaybackQueueItem.java
final class SynthesisPlaybackQueueItem ... {
void put(byte[] buffer) throws InterruptedException {
try {
mListLock.lock();
long unconsumedAudioMs = 0;
...
mDataBufferList.add(new ListEntry(buffer));
mUnconsumedBytes += buffer.length;
mReadReady.signal();
} finally {
mListLock.unlock();
}
}
private byte[] take() throws InterruptedException {
try {
mListLock.lock();
while (mDataBufferList.size() == 0 && !mStopped && !mDone) {
mReadReady.await();
}
...
ListEntry entry = mDataBufferList.poll();
mUnconsumedBytes -= entry.mBytes.length;
mNotFull.signal();
return entry.mBytes;
} finally {
mListLock.unlock();
}
}
public void run() {
...
final UtteranceProgressDispatcher dispatcher = getDispatcher();
dispatcher.dispatchOnStart();
if (!mAudioTrack.init()) {
dispatcher.dispatchOnError(TextToSpeech.ERROR_OUTPUT);
return;
}
try {
byte[] buffer = null;
while ((buffer = take()) != null) {
mAudioTrack.write(buffer);
}
} ...
mAudioTrack.waitAndRelease();
dispatchEndStatus();
}
void done() {
try {
mListLock.lock();
mDone = true;
mReadReady.signal();
mNotFull.signal();
} finally {
mListLock.unlock();
}
}
}
Engine 需要从 SynthesisRequest中提取 speak 的目标文本、参数等信息,针对不同信息进行区别处理。并通过SynthesisCallback的各接口将数据和时机带回:在数据合成前,通过 start()告诉系统生成音频的采样频率,多少位pcm格式音频,几通道等等。PlaybackSynthesisCallback的实现将会创建播放的SynthesisPlaybackQueueItem交由AudioPlaybackHandler去排队调度之后,通过 audioAvailable()接口将合成的数据以 byte[] 形式传递回来,会取出 start() 时创建的 QueueItem put 该 audio 数据开始播放最后,通过 done()告知合成完毕
上述 PlaybackSynthesisCallback 在通知 QueueItem 的同时,会通过 UtteranceProgressDispatcher 接口将数据、结果一并发送给 Request App。
// TextToSpeechService.java
interface UtteranceProgressDispatcher {
void dispatchOnStop();
void dispatchOnSuccess();
void dispatchOnStart();
void dispatchOnError(int errorCode);
void dispatchOnBeginSynthesis(int sampleRateInHz, int audioFormat, int channelCount);
void dispatchOnAudioAvailable(byte[] audio);
public void dispatchOnRangeStart(int start, int end, int frame);
}
事实上该接口的实现就是 TextToSpeechService 处理 speak 请求的 UtteranceSpeechItem 实例,其通过缓存着各 ITextToSpeechCallback 接口实例的 CallbackMap 发送回调给 TTS 请求的 App。(这些 Callback 来自于 TextToSpeech 初始化时候通过 ITextToSpeechService 将 Binder 接口传递来和缓存起来的。)
private abstract class UtteranceSpeechItem extends SpeechItem
implements UtteranceProgressDispatcher {
...
@Override
public void dispatchOnStart() {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnStart(getCallerIdentity(), utteranceId);
}
}
@Override
public void dispatchOnAudioAvailable(byte[] audio) {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnAudioAvailable(getCallerIdentity(), utteranceId, audio);
}
}
@Override
public void dispatchOnSuccess() {
final String utteranceId = getUtteranceId();
if (utteranceId != null) {
mCallbacks.dispatchOnSuccess(getCallerIdentity(), utteranceId);
}
}
@Override
public void dispatchOnStop() { ... }
@Override
public void dispatchOnError(int errorCode) { ... }
@Override
public void dispatchOnBeginSynthesis(int sampleRateInHz, int audioFormat, int channelCount) { ... }
@Override
public void dispatchOnRangeStart(int start, int end, int frame) { ... }
}
private class CallbackMap extends RemoteCallbackList<ITextToSpeechCallback> {
...
public void dispatchOnStart(Object callerIdentity, String utteranceId) {
ITextToSpeechCallback cb = getCallbackFor(callerIdentity);
if (cb == null) return;
try {
cb.onStart(utteranceId);
} ...
}
public void dispatchOnAudioAvailable(Object callerIdentity, String utteranceId, byte[] buffer) {
ITextToSpeechCallback cb = getCallbackFor(callerIdentity);
if (cb == null) return;
try {
cb.onAudioAvailable(utteranceId, buffer);
} ...
}
public void dispatchOnSuccess(Object callerIdentity, String utteranceId) {
ITextToSpeechCallback cb = getCallbackFor(callerIdentity);
if (cb == null) return;
try {
cb.onSuccess(utteranceId);
} ...
}
...
}
ITextToSpeechCallback 的执行将通过 TextToSpeech 的中转抵达请求 App 的 Callback,以执行“TextToSpeech 调用”章节提到的进一步操作
// TextToSpeech.java
public class TextToSpeech {
...
private abstract class Connection implements ServiceConnection {
...
private final ITextToSpeechCallback.Stub mCallback =
new ITextToSpeechCallback.Stub() {
@Override
public void onStart(String utteranceId) {
UtteranceProgressListener listener = mUtteranceProgressListener;
if (listener != null) {
listener.onStart(utteranceId);
}
}
...
};
}
}
// TTSTest.kt
class TTSTest(context: Context) {
init {
tts.setOnUtteranceProgressListener(object : UtteranceProgressListener() {
override fun onStart(utteranceId: String?) { ... }
override fun onDone(utteranceId: String?) { ... }
override fun onStop(utteranceId: String?, interrupted: Boolean) { ... }
override fun onError(utteranceId: String?) { ... }
})
}
....
}
5 使用和实现上的注意
对于 TTS 请求方有几点使用上的建议:
TTS 播报前记得申请对应 type 的音频焦点 TTS Request App 的 Activity 或 Service 生命周期销毁的时候,比如 onDestroy() 等时候,需要调用 TextToSpeech 的 shutdown()释放连接、资源可以通过 addSpeech() 指定固定文本的对应 audio 资源(比如说语音里常用的几套唤醒后的欢迎词 audio),在后续的文本请求时直接播放该 audio,免去文本转语音的过程、提高效率
对于 TTS Engine 提供方也有几点实现上的建议:
TTS Engine 的各实现要和 TTS 的
SynthesisCallback做好对接,要留意只能在该 callback 已经执行了 start() 并未结束的条件下调用 done()。否则 TTS 会发生如下两种错误:
Duplicate call to done() done() was called before start() call
TTS Engine 核心作用是将 text 文本合成 speech 音频数据,合成到数据之后 Engine 当然可以选择直接播报,甚至不回传音频数据。但建议将音频数据回传,交由系统 AudioTrack 播报。一来交由系统统一播报;二来 Request App 亦可以拿到音频数据进行 cache 和分析
6 结语
可以看到 Request App 不关心实现、只需通过 TextToSpeech 几个 API 便可完成 TTS 的播报操作。而且 TTS 的实现也只需要按照 TextToSpeechService 约定的框架、回调实现即可,和 App 的对接工作由系统完成。
我们再花点时间梳理下整个过程:
流程:
TTS Request App 调用 TextToSpeech构造函数,由系统准备播报工作前的准备,比如通过Connection绑定和初始化目标的 TTS EngineRequest App 提供目标 text 并调用 speak()请求TextToSpeech 会检查目标 text 是否设置过本地的 audio 资源,没有的话回通过 Connection 调用 ITextToSpeechServiceAIDL 的 speak() 继续TextToSpeechService收到后封装请求SynthesisRequest和用于回调结果的SynthesisCallback实例之后将两者作为参数调用核心实现 onSynthesizeText(),其将解析 Request 并进行 Speech 音频数据合成此后通过 SynthesisCallback 将合成前后的关键回调告知系统,尤其是 AudioTrack播放同时需要将 speak 请求的结果告知 Request App,即通过 UtteranceProgressDispatcher中转,实际上是调用ITextToSpeechCallbackAIDL最后通过 UtteranceProgressListener告知 TextToSpeech 初始化时设置的各回调
7 语音文章推荐
8 参考 / 源码
TextToSpeech.java: http://www.aospxref.com/android-13.0.0_r3/xref/frameworks/base/core/java/android/speech/tts/TextToSpeech.java TextToSpeechManagerService.java: http://www.aospxref.com/android-13.0.0_r3/xref/frameworks/base/services/texttospeech/java/com/android/server/texttospeech/TextToSpeechManagerService.java
TextToSpeechService.java: http://www.aospxref.com/android-13.0.0_r3/xref/frameworks/base/core/java/android/speech/tts/TextToSpeechService.java