Ejemplo n.º 1
0
void TranslDlg::SpeakFile(void)
{//============================
	wxString file;
	wxFileName fname;
	FILE *f_text;
	char buf[200];

	fname = wxFileName(path_speaktext);

	file = wxFileSelector(_T("Text file to speak"),fname.GetPath(),fname.GetName(),_T(""),_T("*"),wxOPEN);
	if(file == wxEmptyString) return;

	strcpy(buf,file.mb_str(wxConvLocal));
	f_text = fopen(buf,"r");
	if(f_text == NULL)
	{
		wxLogError(_T("Failed to read: ")+file);
		return;
	}

	path_speaktext = file;

	InitText(0);
	SpeakNextClause(f_text,NULL,0);
	return;
}  //  end of SpeakFile
Ejemplo n.º 2
0
static void StopSpeak(int unused)
{//==============================
	signal(SIGINT,SIG_IGN);
	// DEBUG
//	printf("\n*** Interrupting speech output (use Ctrl-D to actually quit).\n");
	fflush(stdout);
	SpeakNextClause(NULL,NULL,5);
	signal(SIGINT,StopSpeak);
}  //  end of StopSpeak()
Ejemplo n.º 3
0
void MyFrame::OnSpeak(wxCommandEvent& event)
{//=========================================
	switch(event.GetId())
	{
	case MENU_SPEAK_TRANSLATE:
	case MENU_SPEAK_RULES:
	case MENU_SPEAK_IPA:
	case MENU_SPEAK_TEXT:
		transldlg->OnCommand(event);
		break;

	case MENU_SPEAK_FILE:
		out_ptr = NULL;
		transldlg->SpeakFile();
		break;

	case MENU_SPEAK_STOP:
		SpeakNextClause(NULL,NULL,2);
		break;

	case MENU_SPEAK_PAUSE:
		out_ptr = NULL;
		SpeakNextClause(NULL,NULL,3);
		if(SynthStatus() & 2)
			speak_menu->SetLabel(MENU_SPEAK_PAUSE,_T("&Resume"));
		else
		{
			speak_menu->SetLabel(MENU_SPEAK_PAUSE,_T("&Pause"));
		}
		break;

	case MENU_SPEAK_VOICE:
		transldlg->ReadVoice(0);
		SetVoiceTitle(voice_name2);
		break;

	case MENU_SPEAK_VOICE_VARIANT:
		transldlg->ReadVoice(1);
		SetVoiceTitle(voice_name2);
		break;
	}
}
Ejemplo n.º 4
0
static espeak_ng_STATUS Synthesize(unsigned int unique_identifier, const void *text, int flags)
{
	// Fill the buffer with output sound
	int length;
	int finished = 0;
	int count_buffers = 0;

	if ((outbuf == NULL) || (event_list == NULL))
		return ENS_NOT_INITIALIZED;

	option_ssml = flags & espeakSSML;
	option_phoneme_input = flags & espeakPHONEMES;
	option_endpause = flags & espeakENDPAUSE;

	count_samples = 0;

	espeak_ng_STATUS status;
	if (translator == NULL) {
		status = espeak_ng_SetVoiceByName("en");
		if (status != ENS_OK)
			return status;
	}

	if (p_decoder == NULL)
		p_decoder = create_text_decoder();

	status = text_decoder_decode_string_multibyte(p_decoder, text, translator->encoding, flags);
	if (status != ENS_OK)
		return status;

	SpeakNextClause(0);

	for (;;) {
		out_ptr = outbuf;
		out_end = &outbuf[outbuf_size];
		event_list_ix = 0;
		WavegenFill();

		length = (out_ptr - outbuf)/2;
		count_samples += length;
		event_list[event_list_ix].type = espeakEVENT_LIST_TERMINATED; // indicates end of event list
		event_list[event_list_ix].unique_identifier = unique_identifier;
		event_list[event_list_ix].user_data = my_user_data;

		count_buffers++;
		if ((my_mode & ENOUTPUT_MODE_SPEAK_AUDIO) == ENOUTPUT_MODE_SPEAK_AUDIO) {
			finished = create_events((short *)outbuf, length, event_list);
			if (finished < 0)
				return ENS_AUDIO_ERROR;
		} else if (synth_callback)
			finished = synth_callback((short *)outbuf, length, event_list);
		if (finished) {
			SpeakNextClause(2); // stop
			return ENS_SPEECH_STOPPED;
		}

		if (Generate(phoneme_list, &n_phoneme_list, 1) == 0) {
			if (WcmdqUsed() == 0) {
				// don't process the next clause until the previous clause has finished generating speech.
				// This ensures that <audio> tag (which causes end-of-clause) is at a sound buffer boundary

				event_list[0].type = espeakEVENT_LIST_TERMINATED;
				event_list[0].unique_identifier = my_unique_identifier;
				event_list[0].user_data = my_user_data;

				if (SpeakNextClause(1) == 0) {
					finished = 0;
					if ((my_mode & ENOUTPUT_MODE_SPEAK_AUDIO) == ENOUTPUT_MODE_SPEAK_AUDIO) {
						if (dispatch_audio(NULL, 0, NULL) < 0)
							return ENS_AUDIO_ERROR;
					} else if (synth_callback)
						finished = synth_callback(NULL, 0, event_list); // NULL buffer ptr indicates end of data
					if (finished) {
						SpeakNextClause(2); // stop
						return ENS_SPEECH_STOPPED;
					}
					return ENS_OK;
				}
			}
		}
	}
}
Ejemplo n.º 5
0
static espeak_ERROR Synthesize(unsigned int unique_identifier, const void *text, int flags)
{//========================================================================================
	// Fill the buffer with output sound
	int length;
	int finished = 0;
	int count_buffers = 0;
#ifdef USE_ASYNC
	uint32_t a_write_pos=0;
#endif

#ifdef DEBUG_ENABLED
	ENTER("Synthesize");
	if (text)
	{
	SHOW("Synthesize > uid=%d, flags=%d, >>>text=%s<<<\n", unique_identifier, flags, text);
	}
#endif

	if((outbuf==NULL) || (event_list==NULL))
		return(EE_INTERNAL_ERROR);  // espeak_Initialize()  has not been called

	option_multibyte = flags & 7;
	option_ssml = flags & espeakSSML;
	option_phoneme_input = flags & espeakPHONEMES;
	option_endpause = flags & espeakENDPAUSE;

	count_samples = 0;

#ifdef USE_ASYNC
	if(my_mode == AUDIO_OUTPUT_PLAYBACK)
	{
		a_write_pos = wave_get_write_position(my_audio);
	}
#endif

	if(translator == NULL)
	{
		SetVoiceByName("default");
	}

	SpeakNextClause(NULL,text,0);

	if(my_mode == AUDIO_OUTPUT_SYNCH_PLAYBACK)
	{
		for(;;)
		{
#ifdef PLATFORM_WINDOWS
			Sleep(300);   // 0.3s
#else
#ifdef USE_NANOSLEEP
			struct timespec period;
			struct timespec remaining;
			period.tv_sec = 0;
			period.tv_nsec = 300000000;  // 0.3 sec
			nanosleep(&period,&remaining);
#else
			sleep(1);
#endif
#endif
			if(SynthOnTimer() != 0)
				break;
		}
		return(EE_OK);
	}

	for(;;)
	{
#ifdef DEBUG_ENABLED
		SHOW("Synthesize > %s\n","for (next)");
#endif
		out_ptr = outbuf;
		out_end = &outbuf[outbuf_size];
		event_list_ix = 0;
		WavegenFill(0);

		length = (out_ptr - outbuf)/2;
		count_samples += length;
		event_list[event_list_ix].type = espeakEVENT_LIST_TERMINATED; // indicates end of event list
		event_list[event_list_ix].unique_identifier = my_unique_identifier;
		event_list[event_list_ix].user_data = my_user_data;

		count_buffers++;
		if (my_mode==AUDIO_OUTPUT_PLAYBACK)
		{
#ifdef USE_ASYNC
			finished = create_events((short *)outbuf, length, event_list, a_write_pos);
			if(finished < 0)
				return EE_INTERNAL_ERROR;
			length = 0; // the wave data are played once.
#endif
		}
		else
		{
			finished = synth_callback((short *)outbuf, length, event_list);
		}
		if(finished)
		{
			SpeakNextClause(NULL,0,2);  // stop
			break;
		}

		if(Generate(phoneme_list,&n_phoneme_list,1)==0)
		{
			if(WcmdqUsed() == 0)
			{
				// don't process the next clause until the previous clause has finished generating speech.
				// This ensures that <audio> tag (which causes end-of-clause) is at a sound buffer boundary

				event_list[0].type = espeakEVENT_LIST_TERMINATED;
				event_list[0].unique_identifier = my_unique_identifier;
				event_list[0].user_data = my_user_data;

				if(SpeakNextClause(NULL,NULL,1)==0)
				{
#ifdef USE_ASYNC
					if (my_mode==AUDIO_OUTPUT_PLAYBACK)
					{
						if(dispatch_audio(NULL, 0, NULL) < 0) // TBD: test case
							return err = EE_INTERNAL_ERROR;
					}
					else
					{
						synth_callback(NULL, 0, event_list);  // NULL buffer ptr indicates end of data
					}
#else
					synth_callback(NULL, 0, event_list);  // NULL buffer ptr indicates end of data
#endif
					break;
				}
			}
		}
	}
	return(EE_OK);
}  //  end of Synthesize
Ejemplo n.º 6
0
void TranslDlg::OnCommand(wxCommandEvent& event)
{//=============================================
	#define N_PH_LIST  N_PHONEME_LIST

	void *vp;
	int translate_text = 0;
	char buf[1000];
	char phon_out[N_PH_LIST*2];
	int clause_tone;
	int clause_count;
	int use_ipa = 0;
	FILE *f;
	int  fd_temp;
	char fname_temp[100];
	static int n_ph_list;
	static PHONEME_LIST ph_list[N_PH_LIST+1];

	if(translator==NULL)
	{
		wxLogError(_T("Voice not set"));
		return;
	}

	option_phonemes = 0;

	switch(event.GetId())
	{
	case T_RULES:
	case MENU_SPEAK_RULES:
#ifdef PLATFORM_POSIX
		strcpy(fname_temp,"/tmp/espeakXXXXXX");
		if((fd_temp = mkstemp(fname_temp)) >= 0)
		{
			close(fd_temp);

			if((f = fopen(fname_temp,"w+")) != NULL)
			{
				f_trans = f;   // write translation rule trace to a temp file
			}
		}
#else
		strcpy(fname_temp,tmpnam(NULL));
		if((f = fopen(fname_temp,"w+")) != NULL)
		{
			f_trans = f;   // write translation rule trace to a temp file
		}
#endif
		t_phonetic->SetDefaultStyle(style_phonetic);
		translate_text = 2;
		break;

	case T_TRANSLATE:
	case MENU_SPEAK_TRANSLATE:
		t_phonetic->SetDefaultStyle(style_phonetic);
		translate_text = 1;
		break;

	case T_TRANSLATE_IPA:
	case MENU_SPEAK_IPA:
		t_phonetic->SetDefaultStyle(style_phonetic_large);

		translate_text = 3;
		use_ipa = 1;
		break;

	case T_PROCESS:
	case MENU_SPEAK_TEXT:
        myframe->OnProsody(event);
		prosodycanvas->LayoutData(ph_list,n_ph_list);
        myframe->Refresh();
		option_phoneme_events = espeakINITIALIZE_PHONEME_EVENTS;
		option_log_frames = 1;
		MakeWave2(ph_list,n_ph_list);
		option_log_frames = 0;
		break;
	}

	if(translate_text)
	{
		option_phonemes = translate_text;

		option_multibyte = espeakCHARS_AUTO;
		SpeakNextClause(NULL,NULL,2);  // stop speaking file

		strncpy0(buf,t_source->GetValue().mb_str(wxConvUTF8),sizeof(buf));
		phon_out[0] = 0;
		n_ph_list = 0;
		clause_count = 0;

		vp = buf;
		InitText(0);
		while((vp != NULL) && (n_ph_list < N_PH_LIST))
		{
			vp = TranslateClause(translator,NULL,vp,&clause_tone,NULL);
			CalcPitches(translator,clause_tone);
			CalcLengths(translator);

			GetTranslatedPhonemeString(translator->phon_out, sizeof(translator->phon_out), use_ipa);
			if(clause_count++ > 0)
				strcat(phon_out," ||");
			strcat(phon_out,translator->phon_out);
			t_phonetic->SetValue(wxString(translator->phon_out,wxConvUTF8));

			if((n_ph_list + n_phoneme_list) >= N_PH_LIST)
			{
				n_phoneme_list = N_PH_LIST - n_ph_list;
			}

			memcpy(&ph_list[n_ph_list],phoneme_list,sizeof(PHONEME_LIST)*n_phoneme_list);
			n_ph_list += n_phoneme_list;
		}

        ph_list[N_PH_LIST].ph = NULL;  // to recognize overrun off list (in Generate() )

		t_phonetic->Clear();
		if(option_phonemes == 2)
		{
			option_phonemes=0;
			rewind(f_trans);
			while(fgets(buf,sizeof(buf),f_trans) != NULL)
			{
				t_phonetic->AppendText(wxString(buf,wxConvUTF8));
			}
			t_phonetic->AppendText(_T("---\n"));
			if(f_trans != NULL)
				fclose(f_trans);
			remove(fname_temp);
		}
		t_phonetic->AppendText(wxString(phon_out,wxConvUTF8));
	}
}  // end of TranslDlg::OnCommand