/* * BRLTTY - A background process providing access to the console screen (when in * text mode) for a blind person using a refreshable braille display. * * Copyright (C) 1995-2019 by The BRLTTY Developers. * * BRLTTY comes with ABSOLUTELY NO WARRANTY. * * This is free software, placed under the terms of the * GNU Lesser General Public License, as published by the Free Software * Foundation; either version 2.1 of the License, or (at your option) any * later version. Please see the file LICENSE-LGPL for details. * * Web Page: http://brltty.app/ * * This software is maintained by Dave Mielke . */ #include "prologue.h" #include #include #include #include #include #ifdef HAVE_ICONV_H #include #define ICONV_NULL ((iconv_t)-1) #else /* HAVE_ICONV_H */ #warning iconv is not available #endif /* HAVE_ICONV_H */ #include "log.h" #include "parse.h" typedef enum { PARM_Quality, PARM_Mode, PARM_Synthesize, PARM_Abbreviations, PARM_Years, PARM_Language, PARM_Voice, PARM_Gender, PARM_HeadSize, PARM_PitchBaseline, PARM_Expressiveness, PARM_Roughness, PARM_Breathiness, PARM_Volume, PARM_Speed } DriverParameter; #define SPKPARMS "Quality", "Mode", "Synthesize", "Abbreviations", "Years", "Language", "Voice", "Gender", "HeadSize", "PitchBaseline", "Expressiveness", "Roughness", "Breathiness", "Volume", "Speed" #include "spk_driver.h" #define MAXIMUM_SAMPLES 0X800 typedef void SaveSettingFunction (volatile SpeechSynthesizer *spk, int setting); typedef struct { const char *name; // must be first int rate; } QualityChoice; static const QualityChoice qualityChoices[] = { { .name = "poor", .rate = 8000 }, { .name = "fair", .rate = 11025 }, { .name = "good", .rate = 22050 }, { .name = NULL } }; static const char *abbreviationsChoices[] = {"on", "off", NULL}; static const char *yearsChoices[] = {"off", "on", NULL}; static const char *synthesizeChoices[] = {"sentences", "all", NULL}; static const char *modeChoices[] = {"words", "letters", "punctuation", "phonetic", NULL}; static const char *genderChoices[] = {"male", "female", NULL}; typedef struct { const char *name; // must be first const char *language; const char *territory; const char *encoding; int identifier; } LanguageChoice; static const LanguageChoice languageChoices[] = { #include "languages.h" { .name = NULL } }; typedef enum { VOICE_TYPE_CURRENT, VOICE_TYPE_MAN1, VOICE_TYPE_WOMAN1, VOICE_TYPE_CHILD1, VOICE_TYPE_MAN2, VOICE_TYPE_MAN3, VOICE_TYPE_WOMAN2, VOICE_TYPE_MATRIARCH1, VOICE_TYPE_PATRIARCH1, VOICE_TYPE_USER1, VOICE_TYPE_USER2, VOICE_TYPE_USER3, VOICE_TYPE_USER4, VOICE_TYPE_USER5, VOICE_TYPE_USER6, VOICE_TYPE_USER7 } VoiceType; typedef struct { const char *name; // must be first int language; VoiceType type; } VoiceChoice; #define GENERIC_VOICE_LANGUAGE NODEFINEDCODESET #define GENERIC_VOICE(t,n) { .name=#n, .language=GENERIC_VOICE_LANGUAGE, .type=VOICE_TYPE_##t } static const VoiceChoice voiceChoices[] = { GENERIC_VOICE(MAN1, man), GENERIC_VOICE(WOMAN1, woman), GENERIC_VOICE(CHILD1, child), GENERIC_VOICE(PATRIARCH1, patriarch), GENERIC_VOICE(MATRIARCH1, matriarch), #include "voices.h" { .name = NULL } }; static int isGenericVoice (const VoiceChoice *voice) { return voice->language == GENERIC_VOICE_LANGUAGE; } struct SpeechDataStruct { struct { uint32_t binary; char text[20]; } version; struct { ECIHand handle; unsigned useSSML:1; } eci; struct { const LanguageChoice *language; const VoiceChoice *voice; } setting; struct { short *buffer; FILE *stream; char *command; } pcm; struct { char *buffer; size_t size; } say; struct { int unitType; int inputType; } current; #ifdef ICONV_NULL struct { iconv_t handle; } iconv; #endif /* ICONV_NULL */ }; static void saveLanguageSetting (volatile SpeechSynthesizer *spk, int setting) { spk->driver.data->setting.language = &languageChoices[setting]; } static void saveVoiceSetting (volatile SpeechSynthesizer *spk, int setting) { spk->driver.data->setting.voice = &voiceChoices[setting]; } static void reportError (volatile SpeechSynthesizer *spk, const char *routine) { int status = eciProgStatus(spk->driver.data->eci.handle); char message[100]; eciErrorMessage(spk->driver.data->eci.handle, message); logMessage(LOG_ERR, "%s error %4.4X: %s", routine, status, message); } static void reportSetting (const char *type, const char *description, const char *setting, const char *unit) { if (!unit) unit = ""; logMessage(LOG_DEBUG, "%s setting: %s = %s%s", type, description, setting, unit); } static void reportParameter (const char *type, const char *description, int setting, const void *choices, size_t size, const char *unit) { char buffer[0X10]; const char *value = buffer; if (setting == -1) { value = "unknown"; } else if (choices) { const void *choice = choices; while (1) { typedef struct { const char *name; } Entry; const Entry *entry = choice; const char *name = entry->name; if (!name) break; int index = (choice - choices) / size; if (setting == index) { value = name; break; } choice += size; } } if (value == buffer) snprintf(buffer, sizeof(buffer), "%d", setting); reportSetting(type, description, value, unit); } static int getEnvironmentParameter (volatile SpeechSynthesizer *spk, enum ECIParam parameter) { return eciGetParam(spk->driver.data->eci.handle, parameter); } static const char * getEnvironmentParameterUnit (enum ECIParam parameter) { switch (parameter) { default: return ""; } } static void reportEnvironmentParameter (volatile SpeechSynthesizer *spk, const char *description, enum ECIParam parameter, const void *choices, size_t size) { int setting = getEnvironmentParameter(spk, parameter); reportParameter("environment", description, setting, choices, size, getEnvironmentParameterUnit(parameter)); } static int setEnvironmentParameter (volatile SpeechSynthesizer *spk, const char *description, enum ECIParam parameter, int setting) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "set environment parameter: %s: %d=%d", description, parameter, setting); return eciSetParam(spk->driver.data->eci.handle, parameter, setting) >= 0; } static int choiceEnvironmentParameter (volatile SpeechSynthesizer *spk, const char *description, const char *value, enum ECIParam parameter, const void *choices, size_t size, SaveSettingFunction *save) { int ok = !*value; if (!ok) { unsigned int setting; if (validateChoiceEx(&setting, value, choices, size)) { if (save) { save(spk, setting); ok = 1; } else if (setEnvironmentParameter(spk, description, parameter, setting)) { ok = 1; } else { logMessage(LOG_WARNING, "%s not supported: %s", description, value); } } else { logMessage(LOG_WARNING, "invalid %s setting: %s", description, value); } } if (!save) reportEnvironmentParameter(spk, description, parameter, choices, size); return ok; } static int setUnitType (volatile SpeechSynthesizer *spk, int newUnits) { if (newUnits != spk->driver.data->current.unitType) { if (!setEnvironmentParameter(spk, "real world units", eciRealWorldUnits, newUnits)) return 0; spk->driver.data->current.unitType = newUnits; } return 1; } static int useInternalUnits (volatile SpeechSynthesizer *spk) { return setUnitType(spk, 0); } static int useExternalUnits (volatile SpeechSynthesizer *spk) { return setUnitType(spk, 1); } static int useParameterUnit (volatile SpeechSynthesizer *spk, enum ECIVoiceParam parameter) { switch (parameter) { case eciVolume: if (!useInternalUnits(spk)) return 0; break; case eciPitchBaseline: case eciSpeed: if (!useExternalUnits(spk)) return 0; break; default: break; } return 1; } static int getVoiceParameter (volatile SpeechSynthesizer *spk, enum ECIVoiceParam parameter) { if (!useParameterUnit(spk, parameter)) return 0; return eciGetVoiceParam(spk->driver.data->eci.handle, VOICE_TYPE_CURRENT, parameter); } static const char * getVoiceParameterUnit (enum ECIVoiceParam parameter) { switch (parameter) { case eciVolume: return "%"; case eciPitchBaseline: return "Hz"; case eciSpeed: return "wpm"; default: return ""; } } static void reportVoiceParameter (volatile SpeechSynthesizer *spk, const char *description, enum ECIVoiceParam parameter, const char *const *choices) { reportParameter("voice", description, getVoiceParameter(spk, parameter), choices, sizeof(*choices), getVoiceParameterUnit(parameter)); } static int setVoiceParameter (volatile SpeechSynthesizer *spk, const char *description, enum ECIVoiceParam parameter, int setting) { if (!useParameterUnit(spk, parameter)) return 0; logMessage(LOG_CATEGORY(SPEECH_DRIVER), "set voice parameter: %s: %d=%d%s", description, parameter, setting, getVoiceParameterUnit(parameter)); return eciSetVoiceParam(spk->driver.data->eci.handle, VOICE_TYPE_CURRENT, parameter, setting) >= 0; } static int choiceVoiceParameter (volatile SpeechSynthesizer *spk, const char *description, const char *value, enum ECIVoiceParam parameter, const char *const *choices) { int ok = !*value; if (!ok) { unsigned int setting; if (validateChoice(&setting, value, choices)) { if (setVoiceParameter(spk, description, parameter, setting)) { ok = 1; } else { logMessage(LOG_WARNING, "%s not supported: %s", description, value); } } else { logMessage(LOG_WARNING, "invalid %s setting: %s", description, value); } } reportVoiceParameter(spk, description, parameter, choices); return ok; } static int rangeVoiceParameter (volatile SpeechSynthesizer *spk, const char *description, const char *value, enum ECIVoiceParam parameter, int minimum, int maximum) { int ok = 0; if (*value) { int setting; if (validateInteger(&setting, value, &minimum, &maximum)) { if (setVoiceParameter(spk, description, parameter, setting)) { ok = 1; } } else { logMessage(LOG_WARNING, "invalid %s setting: %s", description, value); } } reportVoiceParameter(spk, description, parameter, NULL); return ok; } static void spk_setVolume (volatile SpeechSynthesizer *spk, unsigned char setting) { setVoiceParameter(spk, "volume", eciVolume, getIntegerSpeechVolume(setting, 100)); } static void spk_setRate (volatile SpeechSynthesizer *spk, unsigned char setting) { setVoiceParameter(spk, "rate", eciSpeed, (int)(getFloatSpeechRate(setting) * 210.0)); } static const LanguageChoice * findLanguage (int identifier) { const LanguageChoice *choice = languageChoices; while (choice->name) { if (choice->identifier == identifier) return choice; choice += 1; } logMessage(LOG_WARNING, "language identifier not defined: 0X%08X", identifier); return NULL; } static const LanguageChoice * getLanguage (volatile SpeechSynthesizer *spk) { int identifier = getEnvironmentParameter(spk, eciLanguageDialect); return findLanguage(identifier); } static void stopSpeech (volatile SpeechSynthesizer *spk) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "stop"); if (eciStop(spk->driver.data->eci.handle)) { } else { reportError(spk, "eciStop"); } } static void spk_mute (volatile SpeechSynthesizer *spk) { stopSpeech(spk); } static int pcmMakeCommand (volatile SpeechSynthesizer *spk) { int rate = getEnvironmentParameter(spk, eciSampleRate); char buffer[0X100]; snprintf( buffer, sizeof(buffer), "sox -q -t raw -c 1 -b %" PRIsize " -e signed-integer -r %d - -d", (sizeof(*spk->driver.data->pcm.buffer) * 8), qualityChoices[rate].rate ); logMessage(LOG_CATEGORY(SPEECH_DRIVER), "PCM command: %s", buffer); spk->driver.data->pcm.command = strdup(buffer); if (spk->driver.data->pcm.command) return 1; logMallocError(); return 0; } static int pcmOpenStream (volatile SpeechSynthesizer *spk) { if (!spk->driver.data->pcm.stream) { if (!spk->driver.data->pcm.command) { if (!pcmMakeCommand(spk)) { return 0; } } if (!(spk->driver.data->pcm.stream = popen(spk->driver.data->pcm.command, "w"))) { logMessage(LOG_WARNING, "can't start command: %s", strerror(errno)); return 0; } setvbuf(spk->driver.data->pcm.stream, NULL, _IONBF, 0); } return 1; } static void pcmCloseStream (volatile SpeechSynthesizer *spk) { if (spk->driver.data->pcm.stream) { pclose(spk->driver.data->pcm.stream); spk->driver.data->pcm.stream = NULL; } } static enum ECICallbackReturn clientCallback (ECIHand eci, enum ECIMessage message, long parameter, void *data) { volatile SpeechSynthesizer *spk = data; switch (message) { case eciWaveformBuffer: logMessage(LOG_CATEGORY(SPEECH_DRIVER), "write samples: %ld", parameter); fwrite(spk->driver.data->pcm.buffer, sizeof(*spk->driver.data->pcm.buffer), parameter, spk->driver.data->pcm.stream); if (ferror(spk->driver.data->pcm.stream)) return eciDataAbort; break; case eciIndexReply: logMessage(LOG_CATEGORY(SPEECH_DRIVER), "index reply: %ld", parameter); tellSpeechLocation(spk, parameter); break; default: break; } return eciDataProcessed; } static int addText (volatile SpeechSynthesizer *spk, const char *text) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "add text: \"%s\"", text); if (eciAddText(spk->driver.data->eci.handle, text)) return 1; reportError(spk, "eciAddText"); return 0; } static int insertIndex (volatile SpeechSynthesizer *spk, int index) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "insert index: %d", index); if (eciInsertIndex(spk->driver.data->eci.handle, index)) return 1; reportError(spk, "eciInsertIndex"); return 0; } static int setInputType (volatile SpeechSynthesizer *spk, int newInputType) { if (newInputType != spk->driver.data->current.inputType) { if (!setEnvironmentParameter(spk, "input type", eciInputType, newInputType)) return 0; spk->driver.data->current.inputType = newInputType; } return 1; } static int disableAnnotations (volatile SpeechSynthesizer *spk) { return setInputType(spk, 0); } static int enableAnnotations (volatile SpeechSynthesizer *spk) { return setInputType(spk, 1); } static int writeAnnotation (volatile SpeechSynthesizer *spk, const char *annotation) { if (!enableAnnotations(spk)) return 0; char text[0X100]; snprintf(text, sizeof(text), " `%s ", annotation); return addText(spk, text); } #ifdef ICONV_NULL static int prepareTextConversion (volatile SpeechSynthesizer *spk) { spk->driver.data->iconv.handle = ICONV_NULL; const LanguageChoice *choice = getLanguage(spk); if (!choice) return 0; iconv_t *handle = iconv_open(choice->encoding, "UTF-8"); if (handle == ICONV_NULL) { logMessage(LOG_WARNING, "character encoding not supported: %s: %s", choice->encoding, strerror(errno)); return 0; } spk->driver.data->iconv.handle = handle; logMessage(LOG_CATEGORY(SPEECH_DRIVER), "using character encoding: %s", choice->encoding); return 1; } #endif /* ICONV_NULL */ static int ensureSayBufferSize (volatile SpeechSynthesizer *spk, size_t size) { if (size > spk->driver.data->say.size) { size |= 0XFF; size += 1; char *newBuffer = malloc(size); if (!newBuffer) { logSystemError("speech buffer allocation"); return 0; } if (spk->driver.data->say.buffer) free(spk->driver.data->say.buffer); spk->driver.data->say.buffer = newBuffer; spk->driver.data->say.size = size; } return 1; } static int addCharacters (volatile SpeechSynthesizer *spk, const unsigned char *buffer, int from, int to) { int length = to - from; if (!length) return 1; if (!ensureSayBufferSize(spk, length+1)) return 0; memcpy(spk->driver.data->say.buffer, &buffer[from], length); spk->driver.data->say.buffer[length] = 0; return addText(spk, spk->driver.data->say.buffer); } static int addSegment (volatile SpeechSynthesizer *spk, const unsigned char *buffer, int from, int to, const int *indexMap) { if (spk->driver.data->eci.useSSML) { for (int index=from; index': entity = "gt"; break; case '&': entity = "amp"; break; case '"': entity = "quot"; break; case '\'': entity = "apos"; break; default: continue; } if (!addCharacters(spk, buffer, from, index)) return 0; from = index + 1; size_t length = strlen(entity); char text[1 + length + 2]; snprintf(text, sizeof(text), "&%s;", entity); if (!addText(spk, text)) return 0; } if (!addCharacters(spk, buffer, from, to)) return 0; } else { #ifdef ICONV_NULL char *inputStart = (char *)&buffer[from]; size_t inputLeft = to - from; size_t outputLeft = inputLeft * 10; char outputBuffer[outputLeft]; char *outputStart = outputBuffer; int result = iconv(spk->driver.data->iconv.handle, &inputStart, &inputLeft, &outputStart, &outputLeft); if (result == -1) { logSystemError("iconv"); return 0; } if (!addCharacters(spk, (unsigned char *)outputBuffer, 0, (outputStart - outputBuffer))) return 0; #else /* ICONV_NULL */ if (!addCharacters(spk, buffer, from, to)) return 0; #endif /* ICONV_NULL */ } return insertIndex(spk, indexMap[to]); } static int addSegments (volatile SpeechSynthesizer *spk, const unsigned char *buffer, size_t length, const int *indexMap) { if (spk->driver.data->eci.useSSML && !addText(spk, "")) return 0; int wasSpace = 1; int from = 0; int to; for (to=0; to from) { if (!addSegment(spk, buffer, from, to, indexMap)) return 0; from = to; } } } if (!addSegment(spk, buffer, from, to, indexMap)) return 0; if (spk->driver.data->eci.useSSML && !addText(spk, "")) return 0; return 1; } static void spk_say (volatile SpeechSynthesizer *spk, const unsigned char *buffer, size_t length, size_t count, const unsigned char *attributes) { int ok = 0; if (pcmOpenStream(spk)) { int indexMap[length + 1]; { int from = 0; int to = 0; while (from < length) { char character = buffer[from]; indexMap[from++] = ((character & 0X80) && !(character & 0X40))? -1: to++; } indexMap[from] = to; } if (addSegments(spk, buffer, length, indexMap)) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "synthesize"); if (eciSynthesize(spk->driver.data->eci.handle)) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "synchronize"); if (eciSynchronize(spk->driver.data->eci.handle)) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "finished"); tellSpeechFinished(spk); ok = 1; } else { reportError(spk, "eciSynchronize"); } } else { reportError(spk, "eciSynthesize"); } } if (!ok) stopSpeech(spk); pcmCloseStream(spk); } } static void setLanguageAndVoice (volatile SpeechSynthesizer *spk) { const LanguageChoice *language = spk->driver.data->setting.language; const VoiceChoice *voice = spk->driver.data->setting.voice; if (voice && !isGenericVoice(voice)) { if (!language) { language = findLanguage(voice->language); } else if (language->identifier != voice->language) { logMessage(LOG_WARNING, "voice %s is incompatible with language %s", voice->name, language->name); } } if (language) { if (!setEnvironmentParameter(spk, "language", eciLanguageDialect, language->identifier)) { logMessage(LOG_WARNING, "language not supported: %s", language->name); } } language = getLanguage(spk); reportSetting("environment", "language", language->name, NULL); if (voice) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "copy voice: %d (%s)", voice->type, voice->name); if (eciCopyVoice(spk->driver.data->eci.handle, voice->type, VOICE_TYPE_CURRENT)) { const char *description = isGenericVoice(voice)? "type": "name"; reportSetting("voice", description, voice->name, NULL); } else { reportError(spk, "eciCopyVoice"); } } } static void setParameters (volatile SpeechSynthesizer *spk, char **parameters) { choiceEnvironmentParameter(spk, "quality (sample rate)", parameters[PARM_Quality], eciSampleRate, qualityChoices, sizeof(*qualityChoices), NULL); choiceEnvironmentParameter(spk, "mode (text mode)", parameters[PARM_Mode], eciTextMode, modeChoices, sizeof(*modeChoices), NULL); choiceEnvironmentParameter(spk, "synthesize (synth mode)", parameters[PARM_Synthesize], eciSynthMode, synthesizeChoices, sizeof(*synthesizeChoices), NULL); choiceEnvironmentParameter(spk, "abbreviations (dictionary)", parameters[PARM_Abbreviations], eciDictionary, abbreviationsChoices, sizeof(*abbreviationsChoices), NULL); choiceEnvironmentParameter(spk, "years (number mode)", parameters[PARM_Years], eciNumberMode, yearsChoices, sizeof(*yearsChoices), NULL); choiceEnvironmentParameter(spk, "language", parameters[PARM_Language], eciLanguageDialect, languageChoices, sizeof(*languageChoices), saveLanguageSetting); choiceEnvironmentParameter(spk, "voice name", parameters[PARM_Voice], eciNumParams, voiceChoices, sizeof(*voiceChoices), saveVoiceSetting); setLanguageAndVoice(spk); choiceVoiceParameter(spk, "gender", parameters[PARM_Gender], eciGender, genderChoices); rangeVoiceParameter(spk, "head size", parameters[PARM_HeadSize], eciHeadSize, 0, 100); rangeVoiceParameter(spk, "pitch baseline", parameters[PARM_PitchBaseline], eciPitchBaseline, 40, 422); rangeVoiceParameter(spk, "expressiveness (pitch fluctuation)", parameters[PARM_Expressiveness], eciPitchFluctuation, 0, 100); rangeVoiceParameter(spk, "roughness", parameters[PARM_Roughness], eciRoughness, 0, 100); rangeVoiceParameter(spk, "breathiness", parameters[PARM_Breathiness], eciBreathiness, 0, 100); rangeVoiceParameter(spk, "volume", parameters[PARM_Volume], eciVolume, 0, 100); rangeVoiceParameter(spk, "speed", parameters[PARM_Speed], eciSpeed, 70, 1297); #ifdef ICONV_NULL spk->driver.data->eci.useSSML = !prepareTextConversion(spk); #else /* ICONV_NULL */ spk->driver.data->eci.useSSML = 1; #endif /* ICONV_NULL */ if (spk->driver.data->eci.useSSML) { logMessage(LOG_CATEGORY(SPEECH_DRIVER), "using SSML"); } } static void writeAnnotations (volatile SpeechSynthesizer *spk) { if (spk->driver.data->eci.useSSML) { writeAnnotation(spk, "gfa1"); // enable SSML writeAnnotation(spk, "gfa2"); } disableAnnotations(spk); } static uint32_t parseVersion (const char *text) { uint32_t result = 0; const unsigned int width = 8; unsigned int shift = sizeof(result) * 8 / width * width; while (*text && shift) { char *end; long digit = strtol(text, &end, 10); shift -= width; result |= digit << shift; text = end; if (*text) text += 1; } return result; } static int spk_construct (volatile SpeechSynthesizer *spk, char **parameters) { spk->setVolume = spk_setVolume; spk->setRate = spk_setRate; if ((spk->driver.data = malloc(sizeof(*spk->driver.data)))) { memset(spk->driver.data, 0, sizeof(*spk->driver.data)); eciVersion(spk->driver.data->version.text); logMessage(LOG_INFO, "ViaVoice engine version: %s", spk->driver.data->version.text); spk->driver.data->version.binary = parseVersion(spk->driver.data->version.text); spk->driver.data->eci.handle = NULL_ECI_HAND; spk->driver.data->eci.useSSML = 0; spk->driver.data->setting.language = NULL; spk->driver.data->setting.voice = NULL; spk->driver.data->pcm.buffer = NULL; spk->driver.data->pcm.stream = NULL; spk->driver.data->pcm.command = NULL; spk->driver.data->say.buffer = NULL; spk->driver.data->say.size = 0; if ((spk->driver.data->eci.handle = eciNew()) != NULL_ECI_HAND) { eciRegisterCallback(spk->driver.data->eci.handle, clientCallback, (void *)spk); spk->driver.data->current.unitType = getEnvironmentParameter(spk, eciRealWorldUnits); spk->driver.data->current.inputType = getEnvironmentParameter(spk, eciInputType); if ((spk->driver.data->pcm.buffer = calloc(MAXIMUM_SAMPLES, sizeof(*spk->driver.data->pcm.buffer)))) { if (eciSetOutputBuffer(spk->driver.data->eci.handle, MAXIMUM_SAMPLES, spk->driver.data->pcm.buffer)) { setParameters(spk, parameters); writeAnnotations(spk); return 1; } else { reportError(spk, "eciSetOutputBuffer"); } free(spk->driver.data->pcm.buffer); } else { logMallocError(); } eciDelete(spk->driver.data->eci.handle); } else { logMessage(LOG_ERR, "ViaVoice engine initialization failure"); } free(spk->driver.data); spk->driver.data = NULL; } else { logMallocError(); } return 0; } static void spk_destruct (volatile SpeechSynthesizer *spk) { if (spk->driver.data) { if (spk->driver.data->eci.handle) eciDelete(spk->driver.data->eci.handle); if (spk->driver.data->say.buffer) free(spk->driver.data->say.buffer); if (spk->driver.data->pcm.buffer) free(spk->driver.data->pcm.buffer); if (spk->driver.data->pcm.command) free(spk->driver.data->pcm.command); pcmCloseStream(spk); #ifdef ICONV_NULL if (spk->driver.data->iconv.handle != ICONV_NULL) iconv_close(spk->driver.data->iconv.handle); #endif /* ICONV_NULL */ free(spk->driver.data); spk->driver.data = NULL; } }