/* * Copyright (C) 2009 Google Inc. * * 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. */ #define LOG_NDEBUG 0 #include <stdio.h> #include <unistd.h> #define LOG_TAG "SynthProxy" #include <utils/Log.h> #include <nativehelper/jni.h> #include <nativehelper/JNIHelp.h> #include <android_runtime/AndroidRuntime.h> #include <tts/TtsEngine.h> #include <media/AudioTrack.h> #include <math.h> #include <dlfcn.h> #define DEFAULT_TTS_RATE 16000 #define DEFAULT_TTS_FORMAT AudioSystem::PCM_16_BIT #define DEFAULT_TTS_NB_CHANNELS 1 #define DEFAULT_TTS_BUFFERSIZE 2048 // TODO use the TTS stream type when available #define DEFAULT_TTS_STREAM_TYPE AudioSystem::MUSIC // EQ + BOOST parameters #define FILTER_LOWSHELF_ATTENUATION -18.0f // in dB #define FILTER_TRANSITION_FREQ 1100.0f // in Hz #define FILTER_SHELF_SLOPE 1.0f // Q #define FILTER_GAIN 6.0f // linear gain // such a huge gain is justified by how much energy in the low frequencies is "wasted" at the output // of the synthesis. The low shelving filter removes it, leaving room for amplification. #define USAGEMODE_PLAY_IMMEDIATELY 0 #define USAGEMODE_WRITE_TO_FILE 1 using namespace android; // ---------------------------------------------------------------------------- struct fields_t { jfieldID synthProxyFieldJniData; jclass synthProxyClass; jmethodID synthProxyMethodPost; }; // structure to hold the data that is used each time the TTS engine has synthesized more data struct afterSynthData_t { jint jniStorage; int usageMode; FILE* outputFile; AudioSystem::stream_type streamType; }; // ---------------------------------------------------------------------------- // EQ data double amp; double w; double sinw; double cosw; double beta; double a0, a1, a2, b0, b1, b2; double m_fa, m_fb, m_fc, m_fd, m_fe; double x0; // x[n] double x1; // x[n-1] double x2; // x[n-2] double out0;// y[n] double out1;// y[n-1] double out2;// y[n-2] void initializeEQ() { amp = float(pow(10.0, FILTER_LOWSHELF_ATTENUATION / 40.0)); w = 2.0 * M_PI * (FILTER_TRANSITION_FREQ / DEFAULT_TTS_RATE); sinw = float(sin(w)); cosw = float(cos(w)); beta = float(sqrt(amp)/FILTER_SHELF_SLOPE); // initialize low-shelf parameters b0 = amp * ((amp+1.0F) - ((amp-1.0F)*cosw) + (beta*sinw)); b1 = 2.0F * amp * ((amp-1.0F) - ((amp+1.0F)*cosw)); b2 = amp * ((amp+1.0F) - ((amp-1.0F)*cosw) - (beta*sinw)); a0 = (amp+1.0F) + ((amp-1.0F)*cosw) + (beta*sinw); a1 = 2.0F * ((amp-1.0F) + ((amp+1.0F)*cosw)); a2 = -((amp+1.0F) + ((amp-1.0F)*cosw) - (beta*sinw)); m_fa = FILTER_GAIN * b0/a0; m_fb = FILTER_GAIN * b1/a0; m_fc = FILTER_GAIN * b2/a0; m_fd = a1/a0; m_fe = a2/a0; } void initializeFilter() { x0 = 0.0f; x1 = 0.0f; x2 = 0.0f; out0 = 0.0f; out1 = 0.0f; out2 = 0.0f; } void applyFilter(int16_t* buffer, size_t sampleCount) { for (size_t i=0 ; i<sampleCount ; i++) { x0 = (double) buffer[i]; out0 = (m_fa*x0) + (m_fb*x1) + (m_fc*x2) + (m_fd*out1) + (m_fe*out2); x2 = x1; x1 = x0; out2 = out1; out1 = out0; if (out0 > 32767.0f) { buffer[i] = 32767; } else if (out0 < -32768.0f) { buffer[i] = -32768; } else { buffer[i] = (int16_t) out0; } } } // ---------------------------------------------------------------------------- static fields_t javaTTSFields; // TODO move to synth member once we have multiple simultaneous engines running static Mutex engineMutex; // ---------------------------------------------------------------------------- class SynthProxyJniStorage { public : jobject tts_ref; TtsEngine* mNativeSynthInterface; void* mEngineLibHandle; AudioTrack* mAudioOut; AudioSystem::stream_type mStreamType; uint32_t mSampleRate; AudioSystem::audio_format mAudFormat; int mNbChannels; int8_t * mBuffer; size_t mBufferSize; SynthProxyJniStorage() { tts_ref = NULL; mNativeSynthInterface = NULL; mEngineLibHandle = NULL; mAudioOut = NULL; mStreamType = DEFAULT_TTS_STREAM_TYPE; mSampleRate = DEFAULT_TTS_RATE; mAudFormat = DEFAULT_TTS_FORMAT; mNbChannels = DEFAULT_TTS_NB_CHANNELS; mBufferSize = DEFAULT_TTS_BUFFERSIZE; mBuffer = new int8_t[mBufferSize]; memset(mBuffer, 0, mBufferSize); } ~SynthProxyJniStorage() { //LOGV("entering ~SynthProxyJniStorage()"); killAudio(); if (mNativeSynthInterface) { mNativeSynthInterface->shutdown(); mNativeSynthInterface = NULL; } if (mEngineLibHandle) { //LOGE("~SynthProxyJniStorage(): before close library"); int res = dlclose(mEngineLibHandle); LOGE_IF( res != 0, "~SynthProxyJniStorage(): dlclose returned %d", res); } delete mBuffer; } void killAudio() { if (mAudioOut) { mAudioOut->stop(); delete mAudioOut; mAudioOut = NULL; } } void createAudioOut(AudioSystem::stream_type streamType, uint32_t rate, AudioSystem::audio_format format, int channel) { mSampleRate = rate; mAudFormat = format; mNbChannels = channel; mStreamType = streamType; // retrieve system properties to ensure successful creation of the // AudioTrack object for playback int afSampleRate; if (AudioSystem::getOutputSamplingRate(&afSampleRate, mStreamType) != NO_ERROR) { afSampleRate = 44100; } int afFrameCount; if (AudioSystem::getOutputFrameCount(&afFrameCount, mStreamType) != NO_ERROR) { afFrameCount = 2048; } uint32_t afLatency; if (AudioSystem::getOutputLatency(&afLatency, mStreamType) != NO_ERROR) { afLatency = 500; } uint32_t minBufCount = afLatency / ((1000 * afFrameCount)/afSampleRate); if (minBufCount < 2) minBufCount = 2; int minFrameCount = (afFrameCount * rate * minBufCount)/afSampleRate; mAudioOut = new AudioTrack(mStreamType, rate, format, channel, minFrameCount > 4096 ? minFrameCount : 4096, 0, 0, 0, 0); // not using an AudioTrack callback if (mAudioOut->initCheck() != NO_ERROR) { LOGE("createAudioOut(): AudioTrack error"); delete mAudioOut; mAudioOut = NULL; } else { //LOGI("AudioTrack OK"); mAudioOut->setVolume(2.0f, 2.0f); mAudioOut->start(); LOGV("AudioTrack started"); } } }; // ---------------------------------------------------------------------------- void prepAudioTrack(SynthProxyJniStorage* pJniData, AudioSystem::stream_type streamType, uint32_t rate, AudioSystem::audio_format format, int channel) { // Don't bother creating a new audiotrack object if the current // object is already initialized with the same audio parameters. if ( pJniData->mAudioOut && (rate == pJniData->mSampleRate) && (format == pJniData->mAudFormat) && (channel == pJniData->mNbChannels) && (streamType == pJniData->mStreamType) ){ return; } if (pJniData->mAudioOut){ pJniData->killAudio(); } pJniData->createAudioOut(streamType, rate, format, channel); } // ---------------------------------------------------------------------------- /* * Callback from TTS engine. * Directly speaks using AudioTrack or write to file */ static tts_callback_status ttsSynthDoneCB(void *& userdata, uint32_t rate, AudioSystem::audio_format format, int channel, int8_t *&wav, size_t &bufferSize, tts_synth_status status) { //LOGV("ttsSynthDoneCallback: %d bytes", bufferSize); if (userdata == NULL){ LOGE("userdata == NULL"); return TTS_CALLBACK_HALT; } afterSynthData_t* pForAfter = (afterSynthData_t*)userdata; SynthProxyJniStorage* pJniData = (SynthProxyJniStorage*)(pForAfter->jniStorage); if (pForAfter->usageMode == USAGEMODE_PLAY_IMMEDIATELY){ //LOGV("Direct speech"); if (wav == NULL) { delete pForAfter; LOGV("Null: speech has completed"); } if (bufferSize > 0) { prepAudioTrack(pJniData, pForAfter->streamType, rate, format, channel); if (pJniData->mAudioOut) { applyFilter((int16_t*)wav, bufferSize/2); pJniData->mAudioOut->write(wav, bufferSize); memset(wav, 0, bufferSize); //LOGV("AudioTrack wrote: %d bytes", bufferSize); } else { LOGE("Can't play, null audiotrack"); } } } else if (pForAfter->usageMode == USAGEMODE_WRITE_TO_FILE) { //LOGV("Save to file"); if (wav == NULL) { delete pForAfter; LOGV("Null: speech has completed"); return TTS_CALLBACK_HALT; } if (bufferSize > 0){ applyFilter((int16_t*)wav, bufferSize/2); fwrite(wav, 1, bufferSize, pForAfter->outputFile); memset(wav, 0, bufferSize); } } // Future update: // For sync points in the speech, call back into the SynthProxy class through the // javaTTSFields.synthProxyMethodPost methode to notify // playback has completed if the synthesis is done or if a marker has been reached. if (status == TTS_SYNTH_DONE) { // this struct was allocated in the original android_tts_SynthProxy_speak call, // all processing matching this call is now done. LOGV("Speech synthesis done."); if (pForAfter->usageMode == USAGEMODE_PLAY_IMMEDIATELY) { // only delete for direct playback. When writing to a file, we still have work to do // in android_tts_SynthProxy_synthesizeToFile. The struct will be deleted there. delete pForAfter; pForAfter = NULL; } return TTS_CALLBACK_HALT; } // we don't update the wav (output) parameter as we'll let the next callback // write at the same location, we've consumed the data already, but we need // to update bufferSize to let the TTS engine know how much it can write the // next time it calls this function. bufferSize = pJniData->mBufferSize; return TTS_CALLBACK_CONTINUE; } // ---------------------------------------------------------------------------- static void android_tts_SynthProxy_native_setup(JNIEnv *env, jobject thiz, jobject weak_this, jstring nativeSoLib) { SynthProxyJniStorage* pJniStorage = new SynthProxyJniStorage(); prepAudioTrack(pJniStorage, DEFAULT_TTS_STREAM_TYPE, DEFAULT_TTS_RATE, DEFAULT_TTS_FORMAT, DEFAULT_TTS_NB_CHANNELS); const char *nativeSoLibNativeString = env->GetStringUTFChars(nativeSoLib, 0); void *engine_lib_handle = dlopen(nativeSoLibNativeString, RTLD_NOW | RTLD_LOCAL); if (engine_lib_handle == NULL) { LOGE("android_tts_SynthProxy_native_setup(): engine_lib_handle == NULL"); // TODO report error so the TTS can't be used } else { TtsEngine *(*get_TtsEngine)() = reinterpret_cast<TtsEngine* (*)()>(dlsym(engine_lib_handle, "getTtsEngine")); pJniStorage->mNativeSynthInterface = (*get_TtsEngine)(); pJniStorage->mEngineLibHandle = engine_lib_handle; if (pJniStorage->mNativeSynthInterface) { Mutex::Autolock l(engineMutex); pJniStorage->mNativeSynthInterface->init(ttsSynthDoneCB); } } // we use a weak reference so the SynthProxy object can be garbage collected. pJniStorage->tts_ref = env->NewGlobalRef(weak_this); // save the JNI resources so we can use them (and free them) later env->SetIntField(thiz, javaTTSFields.synthProxyFieldJniData, (int)pJniStorage); initializeEQ(); env->ReleaseStringUTFChars(nativeSoLib, nativeSoLibNativeString); } static void android_tts_SynthProxy_native_finalize(JNIEnv *env, jobject thiz, jint jniData) { //LOGV("entering android_tts_SynthProxy_finalize()"); if (jniData == 0) { //LOGE("android_tts_SynthProxy_native_finalize(): invalid JNI data"); return; } Mutex::Autolock l(engineMutex); SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; env->DeleteGlobalRef(pSynthData->tts_ref); delete pSynthData; env->SetIntField(thiz, javaTTSFields.synthProxyFieldJniData, 0); } static void android_tts_SynthProxy_shutdown(JNIEnv *env, jobject thiz, jint jniData) { //LOGV("entering android_tts_SynthProxy_shutdown()"); // do everything a call to finalize would android_tts_SynthProxy_native_finalize(env, thiz, jniData); } static int android_tts_SynthProxy_isLanguageAvailable(JNIEnv *env, jobject thiz, jint jniData, jstring language, jstring country, jstring variant) { int result = TTS_LANG_NOT_SUPPORTED; if (jniData == 0) { LOGE("android_tts_SynthProxy_isLanguageAvailable(): invalid JNI data"); return result; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; const char *langNativeString = env->GetStringUTFChars(language, 0); const char *countryNativeString = env->GetStringUTFChars(country, 0); const char *variantNativeString = env->GetStringUTFChars(variant, 0); if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->isLanguageAvailable(langNativeString, countryNativeString, variantNativeString); } env->ReleaseStringUTFChars(language, langNativeString); env->ReleaseStringUTFChars(country, countryNativeString); env->ReleaseStringUTFChars(variant, variantNativeString); return result; } static int android_tts_SynthProxy_setLanguage(JNIEnv *env, jobject thiz, jint jniData, jstring language, jstring country, jstring variant) { int result = TTS_LANG_NOT_SUPPORTED; if (jniData == 0) { LOGE("android_tts_SynthProxy_setLanguage(): invalid JNI data"); return result; } Mutex::Autolock l(engineMutex); SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; const char *langNativeString = env->GetStringUTFChars(language, 0); const char *countryNativeString = env->GetStringUTFChars(country, 0); const char *variantNativeString = env->GetStringUTFChars(variant, 0); if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->setLanguage(langNativeString, countryNativeString, variantNativeString); } env->ReleaseStringUTFChars(language, langNativeString); env->ReleaseStringUTFChars(country, countryNativeString); env->ReleaseStringUTFChars(variant, variantNativeString); return result; } static int android_tts_SynthProxy_loadLanguage(JNIEnv *env, jobject thiz, jint jniData, jstring language, jstring country, jstring variant) { int result = TTS_LANG_NOT_SUPPORTED; if (jniData == 0) { LOGE("android_tts_SynthProxy_loadLanguage(): invalid JNI data"); return result; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; const char *langNativeString = env->GetStringUTFChars(language, 0); const char *countryNativeString = env->GetStringUTFChars(country, 0); const char *variantNativeString = env->GetStringUTFChars(variant, 0); if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->loadLanguage(langNativeString, countryNativeString, variantNativeString); } env->ReleaseStringUTFChars(language, langNativeString); env->ReleaseStringUTFChars(country, countryNativeString); env->ReleaseStringUTFChars(variant, variantNativeString); return result; } static int android_tts_SynthProxy_setSpeechRate(JNIEnv *env, jobject thiz, jint jniData, jint speechRate) { int result = TTS_FAILURE; if (jniData == 0) { LOGE("android_tts_SynthProxy_setSpeechRate(): invalid JNI data"); return result; } int bufSize = 10; char buffer [bufSize]; sprintf(buffer, "%d", speechRate); Mutex::Autolock l(engineMutex); SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; LOGI("setting speech rate to %d", speechRate); if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->setProperty("rate", buffer, bufSize); } return result; } static int android_tts_SynthProxy_setPitch(JNIEnv *env, jobject thiz, jint jniData, jint pitch) { int result = TTS_FAILURE; if (jniData == 0) { LOGE("android_tts_SynthProxy_setPitch(): invalid JNI data"); return result; } Mutex::Autolock l(engineMutex); int bufSize = 10; char buffer [bufSize]; sprintf(buffer, "%d", pitch); SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; LOGI("setting pitch to %d", pitch); if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->setProperty("pitch", buffer, bufSize); } return result; } static int android_tts_SynthProxy_synthesizeToFile(JNIEnv *env, jobject thiz, jint jniData, jstring textJavaString, jstring filenameJavaString) { int result = TTS_FAILURE; if (jniData == 0) { LOGE("android_tts_SynthProxy_synthesizeToFile(): invalid JNI data"); return result; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; if (!pSynthData->mNativeSynthInterface) { LOGE("android_tts_SynthProxy_synthesizeToFile(): invalid engine handle"); return result; } initializeFilter(); Mutex::Autolock l(engineMutex); // Retrieve audio parameters before writing the file header AudioSystem::audio_format encoding = DEFAULT_TTS_FORMAT; uint32_t rate = DEFAULT_TTS_RATE; int channels = DEFAULT_TTS_NB_CHANNELS; pSynthData->mNativeSynthInterface->setAudioFormat(encoding, rate, channels); if ((encoding != AudioSystem::PCM_16_BIT) && (encoding != AudioSystem::PCM_8_BIT)) { LOGE("android_tts_SynthProxy_synthesizeToFile(): engine uses invalid format"); return result; } const char *filenameNativeString = env->GetStringUTFChars(filenameJavaString, 0); const char *textNativeString = env->GetStringUTFChars(textJavaString, 0); afterSynthData_t* pForAfter = new (afterSynthData_t); pForAfter->jniStorage = jniData; pForAfter->usageMode = USAGEMODE_WRITE_TO_FILE; pForAfter->outputFile = fopen(filenameNativeString, "wb"); if (pForAfter->outputFile == NULL) { LOGE("android_tts_SynthProxy_synthesizeToFile(): error creating output file"); delete pForAfter; return result; } // Write 44 blank bytes for WAV header, then come back and fill them in // after we've written the audio data char header[44]; fwrite(header, 1, 44, pForAfter->outputFile); unsigned int unique_identifier; memset(pSynthData->mBuffer, 0, pSynthData->mBufferSize); result = pSynthData->mNativeSynthInterface->synthesizeText(textNativeString, pSynthData->mBuffer, pSynthData->mBufferSize, (void *)pForAfter); long filelen = ftell(pForAfter->outputFile); int samples = (((int)filelen) - 44) / 2; header[0] = 'R'; header[1] = 'I'; header[2] = 'F'; header[3] = 'F'; ((uint32_t *)(&header[4]))[0] = filelen - 8; header[8] = 'W'; header[9] = 'A'; header[10] = 'V'; header[11] = 'E'; header[12] = 'f'; header[13] = 'm'; header[14] = 't'; header[15] = ' '; ((uint32_t *)(&header[16]))[0] = 16; // size of fmt int sampleSizeInByte = (encoding == AudioSystem::PCM_16_BIT ? 2 : 1); ((unsigned short *)(&header[20]))[0] = 1; // format ((unsigned short *)(&header[22]))[0] = channels; // channels ((uint32_t *)(&header[24]))[0] = rate; // samplerate ((uint32_t *)(&header[28]))[0] = rate * sampleSizeInByte * channels;// byterate ((unsigned short *)(&header[32]))[0] = sampleSizeInByte * channels; // block align ((unsigned short *)(&header[34]))[0] = sampleSizeInByte * 8; // bits per sample header[36] = 'd'; header[37] = 'a'; header[38] = 't'; header[39] = 'a'; ((uint32_t *)(&header[40]))[0] = samples * 2; // size of data // Skip back to the beginning and rewrite the header fseek(pForAfter->outputFile, 0, SEEK_SET); fwrite(header, 1, 44, pForAfter->outputFile); fflush(pForAfter->outputFile); fclose(pForAfter->outputFile); delete pForAfter; pForAfter = NULL; env->ReleaseStringUTFChars(textJavaString, textNativeString); env->ReleaseStringUTFChars(filenameJavaString, filenameNativeString); return result; } static int android_tts_SynthProxy_speak(JNIEnv *env, jobject thiz, jint jniData, jstring textJavaString, jint javaStreamType) { int result = TTS_FAILURE; if (jniData == 0) { LOGE("android_tts_SynthProxy_speak(): invalid JNI data"); return result; } initializeFilter(); Mutex::Autolock l(engineMutex); SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; if (pSynthData->mAudioOut) { pSynthData->mAudioOut->start(); } afterSynthData_t* pForAfter = new (afterSynthData_t); pForAfter->jniStorage = jniData; pForAfter->usageMode = USAGEMODE_PLAY_IMMEDIATELY; pForAfter->streamType = (AudioSystem::stream_type) javaStreamType; if (pSynthData->mNativeSynthInterface) { const char *textNativeString = env->GetStringUTFChars(textJavaString, 0); memset(pSynthData->mBuffer, 0, pSynthData->mBufferSize); result = pSynthData->mNativeSynthInterface->synthesizeText(textNativeString, pSynthData->mBuffer, pSynthData->mBufferSize, (void *)pForAfter); env->ReleaseStringUTFChars(textJavaString, textNativeString); } return result; } static int android_tts_SynthProxy_stop(JNIEnv *env, jobject thiz, jint jniData) { int result = TTS_FAILURE; if (jniData == 0) { LOGE("android_tts_SynthProxy_stop(): invalid JNI data"); return result; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; if (pSynthData->mAudioOut) { pSynthData->mAudioOut->stop(); } if (pSynthData->mNativeSynthInterface) { result = pSynthData->mNativeSynthInterface->stop(); } return result; } static jobjectArray android_tts_SynthProxy_getLanguage(JNIEnv *env, jobject thiz, jint jniData) { if (jniData == 0) { LOGE("android_tts_SynthProxy_getLanguage(): invalid JNI data"); return NULL; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; if (pSynthData->mNativeSynthInterface) { size_t bufSize = 100; char lang[bufSize]; char country[bufSize]; char variant[bufSize]; memset(lang, 0, bufSize); memset(country, 0, bufSize); memset(variant, 0, bufSize); jobjectArray retLocale = (jobjectArray)env->NewObjectArray(3, env->FindClass("java/lang/String"), env->NewStringUTF("")); pSynthData->mNativeSynthInterface->getLanguage(lang, country, variant); env->SetObjectArrayElement(retLocale, 0, env->NewStringUTF(lang)); env->SetObjectArrayElement(retLocale, 1, env->NewStringUTF(country)); env->SetObjectArrayElement(retLocale, 2, env->NewStringUTF(variant)); return retLocale; } else { return NULL; } } JNIEXPORT int JNICALL android_tts_SynthProxy_getRate(JNIEnv *env, jobject thiz, jint jniData) { if (jniData == 0) { LOGE("android_tts_SynthProxy_getRate(): invalid JNI data"); return 0; } SynthProxyJniStorage* pSynthData = (SynthProxyJniStorage*)jniData; size_t bufSize = 100; char buf[bufSize]; memset(buf, 0, bufSize); // TODO check return codes if (pSynthData->mNativeSynthInterface) { pSynthData->mNativeSynthInterface->getProperty("rate", buf, &bufSize); } return atoi(buf); } // Dalvik VM type signatures static JNINativeMethod gMethods[] = { { "native_stop", "(I)I", (void*)android_tts_SynthProxy_stop }, { "native_speak", "(ILjava/lang/String;I)I", (void*)android_tts_SynthProxy_speak }, { "native_synthesizeToFile", "(ILjava/lang/String;Ljava/lang/String;)I", (void*)android_tts_SynthProxy_synthesizeToFile }, { "native_isLanguageAvailable", "(ILjava/lang/String;Ljava/lang/String;Ljava/lang/String;)I", (void*)android_tts_SynthProxy_isLanguageAvailable }, { "native_setLanguage", "(ILjava/lang/String;Ljava/lang/String;Ljava/lang/String;)I", (void*)android_tts_SynthProxy_setLanguage }, { "native_loadLanguage", "(ILjava/lang/String;Ljava/lang/String;Ljava/lang/String;)I", (void*)android_tts_SynthProxy_loadLanguage }, { "native_setSpeechRate", "(II)I", (void*)android_tts_SynthProxy_setSpeechRate }, { "native_setPitch", "(II)I", (void*)android_tts_SynthProxy_setPitch }, { "native_getLanguage", "(I)[Ljava/lang/String;", (void*)android_tts_SynthProxy_getLanguage }, { "native_getRate", "(I)I", (void*)android_tts_SynthProxy_getRate }, { "native_shutdown", "(I)V", (void*)android_tts_SynthProxy_shutdown }, { "native_setup", "(Ljava/lang/Object;Ljava/lang/String;)V", (void*)android_tts_SynthProxy_native_setup }, { "native_finalize", "(I)V", (void*)android_tts_SynthProxy_native_finalize } }; #define SP_JNIDATA_FIELD_NAME "mJniData" #define SP_POSTSPEECHSYNTHESIZED_METHOD_NAME "postNativeSpeechSynthesizedInJava" static const char* const kClassPathName = "android/tts/SynthProxy"; jint JNI_OnLoad(JavaVM* vm, void* reserved) { JNIEnv* env = NULL; jint result = -1; jclass clazz; if (vm->GetEnv((void**) &env, JNI_VERSION_1_4) != JNI_OK) { LOGE("ERROR: GetEnv failed\n"); goto bail; } assert(env != NULL); clazz = env->FindClass(kClassPathName); if (clazz == NULL) { LOGE("Can't find %s", kClassPathName); goto bail; } javaTTSFields.synthProxyClass = clazz; javaTTSFields.synthProxyFieldJniData = NULL; javaTTSFields.synthProxyMethodPost = NULL; javaTTSFields.synthProxyFieldJniData = env->GetFieldID(clazz, SP_JNIDATA_FIELD_NAME, "I"); if (javaTTSFields.synthProxyFieldJniData == NULL) { LOGE("Can't find %s.%s field", kClassPathName, SP_JNIDATA_FIELD_NAME); goto bail; } javaTTSFields.synthProxyMethodPost = env->GetStaticMethodID(clazz, SP_POSTSPEECHSYNTHESIZED_METHOD_NAME, "(Ljava/lang/Object;II)V"); if (javaTTSFields.synthProxyMethodPost == NULL) { LOGE("Can't find %s.%s method", kClassPathName, SP_POSTSPEECHSYNTHESIZED_METHOD_NAME); goto bail; } if (jniRegisterNativeMethods( env, kClassPathName, gMethods, NELEM(gMethods)) < 0) goto bail; /* success -- return valid version number */ result = JNI_VERSION_1_4; bail: return result; }