int main(int argc, char* argv[])
{
	ISpVoice * pVoice = NULL;

	if (FAILED(::CoInitialize(NULL)))
		return FALSE;

	HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);
	if (SUCCEEDED(hr))
	{
		hr = pVoice->Speak(L"Здравствуйте", 0, NULL);

		// Change pitch
		hr = pVoice->Speak(L"Вы меня  <pitch middle = '-10'/> слышите?", SPF_IS_XML, NULL);
		pVoice->Release();
		pVoice = NULL;
	}
	::CoUninitialize();
	return TRUE;
}
Esempio n. 2
0
int main(int argc, char* argv[])
{
	ISpVoice * pVoice = NULL;

	if (FAILED(::CoInitialize(NULL)))
		return FALSE;

	HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);
	if (SUCCEEDED(hr))
	{
		//hr = pVoice->Speak(L"Hello Brad <pitch middle = '-10'/> gwaps", SPF_IS_XML, NULL);
		hr = pVoice->Speak(L"Myca needs vog", 0, NULL);
		//hr = pVoice->Speak(L"cliff golem tashed", 0, NULL);
		//hr = pVoice->Speak(L"Invis failing, invis failing", 0, NULL);

		//hr = pVoice->Speak(L"charm break, <pitch middle = '-10'/> beat down imminent", SPF_IS_XML, NULL);
		hr = pVoice->Speak(L"pet is loose, <pitch middle = '+10'/> pet is loose", 8, NULL);
		pVoice->Release();
		pVoice = NULL;
	}

	::CoUninitialize();
	return TRUE;
}
Esempio n. 3
0
void Speech::speechOutput(const char* str) {

	ISpVoice* pVoice = NULL;
	ISpObjectToken* cpAudioOutToken;
	IEnumSpObjectTokens* cpEnum;
	ULONG ulCount = 0;

    if (FAILED(::CoInitialize(NULL)))
        return;

    HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);   

	if (SUCCEEDED (hr))	{
	   hr = SpEnumTokens( SPCAT_AUDIOOUT, NULL, NULL, &cpEnum);
	}
	if (SUCCEEDED (hr))	{
	   hr = cpEnum->GetCount( &ulCount);
	}

	while (SUCCEEDED(hr) && ulCount--) {
		hr = cpEnum->Next( 1, &cpAudioOutToken, NULL );
		wchar_t* deviceId = nullptr;
		if(SUCCEEDED(hr)) {
			hr = cpAudioOutToken->GetStringValue(L"DeviceId", &deviceId);
			if(wcscmp(outputDevice, deviceId) == 0) break;
		}
	}

	if (SUCCEEDED (hr))	{
		hr = pVoice->SetOutput( cpAudioOutToken, TRUE );
	}

	if(SUCCEEDED(hr)) {		
		const size_t cSize = strlen(str)+1;
		wchar_t* wc = new wchar_t[cSize];
		size_t ret;
		mbstowcs_s (&ret, wc, cSize, str, cSize);

		hr = pVoice->Speak(wc, NULL, NULL);        
	
		pVoice->Release();
        pVoice = NULL;
	}
	
	cpEnum->Release();
	cpAudioOutToken->Release();
    ::CoUninitialize();
}
Esempio n. 4
0
/**********************************************************************
* CTextRun::Speak *
*-----------------*
*	Description:  
*		Speaks the text associated with this CTextRun using TTS.
*
* 	Return:
*		S_OK
*       Return value of ITextRange::GetText()
*       Return value of ISpVoice::Speak()
**********************************************************************/
HRESULT CTextRun::Speak( ISpVoice &rVoice )
{
    _ASSERTE( m_cpTextRange );
    if ( !m_cpTextRange )
    {
        return E_UNEXPECTED;
    }

    // Get the text and speak it.
    BSTR bstrText;
    HRESULT hr = m_cpTextRange->GetText( &bstrText );
    if( SUCCEEDED( hr ) )
    {
        hr = rVoice.Speak( bstrText, SPF_ASYNC, NULL );

        ::SysFreeString( bstrText );
    }
    return hr;
} /* CTextRun::Speak */
bool TextToSpeech::say(string wordToSay)
{
	//convert string to wstring to use with speech function
	wstring wstr(wordToSay.begin(), wordToSay.end());

	ISpVoice * pVoice = NULL;

	if (FAILED(::CoInitialize(NULL)))
		return FALSE;

	HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);
	if (SUCCEEDED(hr))
	{
		long rate = -5;
		pVoice->SetRate(rate);
		hr = pVoice->Speak(wstr.c_str(), 0, NULL);
		pVoice->Release();
		pVoice = NULL;
	}

	::CoUninitialize();
	return TRUE;
}
Esempio n. 6
0
bool speak(wchar_t * text, wchar_t * pszReqAttribs)
{
	ISpVoice * pVoice = NULL;
	HRESULT stInitializing = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);
	if (SUCCEEDED(stInitializing))
	{
		ISpObjectToken* cpToken(NULL);
		HRESULT stTokenFinding = SpFindBestToken(SPCAT_VOICES, pszReqAttribs, L"", &cpToken);
		if (SUCCEEDED(stTokenFinding))
		{
			HRESULT stVoiceSetting = pVoice->SetVoice(cpToken);
			if (SUCCEEDED(stVoiceSetting))
			{
				HRESULT stSpoken = pVoice->Speak(text, 0, NULL);
				if (SUCCEEDED(stSpoken))
				{
					cpToken->Release();
					cpToken = NULL;

					pVoice->Release();
					pVoice = NULL;

					return true;
				}
				else
				{
					cpToken->Release();
					cpToken = NULL;

					pVoice->Release();
					pVoice = NULL;

					wcout << "Error, I couldn't play this text " << text << endl;
					return false;
				}
			}
			else
			{
				cpToken->Release();
				cpToken = NULL;

				pVoice->Release();
				pVoice = NULL;

				wcout << "Error, I can't set this voice " << pszReqAttribs << endl;
				return false;
			}
		}
		else
		{
			pVoice->Release();
			pVoice = NULL;

			wcout << "Error, I can't find this voice " << pszReqAttribs << endl;
			return false;
		}
	}
	else {
		wcout << "Error, I can't create Voice instance" << endl;
		return false;
	}
}
Esempio n. 7
0
int main(int argc, char **argv)
{
    ISpVoice *pVoice = NULL;
    WCHAR line_buffer[LINE_LENGTH];
    bool exitflag = FALSE;
    int counter = 0;

    if (FAILED(::CoInitialize(NULL)))
    {
        printf("ERROR: Couldn't initialise COM.\n");
        return FALSE;
    }

    HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);
    if( SUCCEEDED( hr ) )
    {
        // For some reason, if you don't do this, speech cuts out
        // (only on first announcement)...
        pVoice->Speak(L" ", SPF_IS_NOT_XML, NULL);

        // Main loop...
        while( ! exitflag )
        {
            for(counter = 0; counter < LINE_LENGTH; counter++ )
            {
                // Fill up the buffer...
                line_buffer[counter] = getwchar();

                // Check for exit condition...
                if( line_buffer[counter] == WEOF )
                {
                    line_buffer[counter] = 0;
                    exitflag = TRUE;
                    break;
                }

                // Break at end of line...
                if( line_buffer[counter] == L'\n' )
                {
                    line_buffer[counter] = 0;
                    break;
                }
            }

            counter = 0;

            // Should the synth's UI be displayed?
            if ( line_buffer == L"DisplayUI" )
            {
                int supported = 0;
                hr = pVoice->IsUISupported(SPDUI_EngineProperties, NULL, NULL, &supported);
                if( SUCCEEDED( hr ) && supported )
                {
                    hr = pVoice->DisplayUI(NULL, NULL, SPDUI_EngineProperties, NULL, NULL);
                    if( ! SUCCEEDED( hr ) )
                    {
                        pVoice->Speak(L"There was an error displaying the properties window.\n", SPF_IS_NOT_XML|SPF_ASYNC|SPF_PURGEBEFORESPEAK, NULL);
                    }
                }
                else
                {
                    pVoice->Speak(L"Your current voice doesn't support a properties window.\n", SPF_IS_NOT_XML|SPF_ASYNC|SPF_PURGEBEFORESPEAK, NULL);
                }
            }

            // Was the message high-priority?
            if( line_buffer[0] == L'!' )
            {
                line_buffer[0] = L' ';
                pVoice->Speak(line_buffer, SPF_IS_NOT_XML|SPF_ASYNC|SPF_PURGEBEFORESPEAK, NULL);
            }
            else
            {
                pVoice->Speak(line_buffer, SPF_IS_NOT_XML|SPF_ASYNC, NULL);
            }
        }

        // Allow the user to hear the rest of the speech buffer...
        pVoice->Speak(L" ", SPF_IS_NOT_XML, NULL);

        pVoice->Release();
        pVoice = NULL;
    }
    else
    {
        printf("ERROR: Couldn't initialise SAPI 5.1.\n");
    }

    ::CoUninitialize();
    return TRUE;
}
Esempio n. 8
0
void TextToSpeechPrivate::say(const QString &text) {
	if (pVoice) {
		pVoice->Speak((const wchar_t *) text.utf16(), SPF_ASYNC, NULL);
	}
}
Esempio n. 9
0
	void Sound::test() {

		ISpVoice * pVoice = NULL;
		ISpObjectToken*        pVoiceToken=nullptr;
		IEnumSpObjectTokens*   pEnum;
		ULONG                  ulCount = 0;

		if (FAILED(::CoInitialize(NULL)))
		{
			return;
		}
		HRESULT hr = S_OK;

		// Find the best matching installed en-us recognizer.
		CComPtr<ISpObjectToken> cpRecognizerToken;

		if (SUCCEEDED(hr))
		{
			hr = SpFindBestToken(SPCAT_RECOGNIZERS, L"language=409", NULL, &cpRecognizerToken);
		}

		// Create the in-process recognizer and immediately set its state to inactive.
		CComPtr<ISpRecognizer> cpRecognizer;

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer.CoCreateInstance(CLSID_SpInprocRecognizer);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecognizer(cpRecognizerToken);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecoState(SPRST_INACTIVE);
		}

		// Create a new recognition context from the recognizer.
		CComPtr<ISpRecoContext> cpContext;

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->CreateRecoContext(&cpContext);
		}

		// Subscribe to the speech recognition event and end stream event.
		if (SUCCEEDED(hr))
		{
			ULONGLONG ullEventInterest = SPFEI(SPEI_RECOGNITION);
			hr = cpContext->SetInterest(ullEventInterest, ullEventInterest);
		}

		// Establish a Win32 event to signal when speech events are available.
		HANDLE hSpeechNotifyEvent = INVALID_HANDLE_VALUE;

		if (SUCCEEDED(hr))
		{
			hr = cpContext->SetNotifyWin32Event();
		}

		if (SUCCEEDED(hr))
		{
			hSpeechNotifyEvent = cpContext->GetNotifyEventHandle();

			if (INVALID_HANDLE_VALUE == hSpeechNotifyEvent)
			{
				// Notification handle unsupported.
				hr = E_NOINTERFACE;
			}
		}

		// Initialize an audio object to use the default audio input of the system and set the recognizer to use it.
		CComPtr<ISpAudio> cpAudioIn;

		if (SUCCEEDED(hr))
		{
			hr = cpAudioIn.CoCreateInstance(CLSID_SpMMAudioIn);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetInput(cpAudioIn, TRUE);
		}

		// Populate a WAVEFORMATEX struct with our desired output audio format. information.
		WAVEFORMATEX* pWfexCoMemRetainedAudioFormat = NULL;
		GUID guidRetainedAudioFormat = GUID_NULL;

		if (SUCCEEDED(hr))
		{
			hr = SpConvertStreamFormatEnum(SPSF_16kHz16BitMono, &guidRetainedAudioFormat, &pWfexCoMemRetainedAudioFormat);
		}

		// Instruct the recognizer to retain the audio from its recognition results.
		if (SUCCEEDED(hr))
		{
			hr = cpContext->SetAudioOptions(SPAO_RETAIN_AUDIO, &guidRetainedAudioFormat, pWfexCoMemRetainedAudioFormat);
		}

		if (NULL != pWfexCoMemRetainedAudioFormat)
		{
			CoTaskMemFree(pWfexCoMemRetainedAudioFormat);
		}

		// Create a new grammar and load an SRGS grammar from file.
		CComPtr<ISpRecoGrammar> cpGrammar;

		if (SUCCEEDED(hr))
		{
			hr = cpContext->CreateGrammar(0, &cpGrammar);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpGrammar->LoadCmdFromFile(L"grammar.grxml", SPLO_STATIC);
		}

		// Set all top-level rules in the new grammar to the active state.
		if (SUCCEEDED(hr))
		{
			hr = cpGrammar->SetRuleState(NULL, NULL, SPRS_ACTIVE);
		}

		// Set the recognizer state to active to begin recognition.
		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecoState(SPRST_ACTIVE_ALWAYS);
		}

		// Establish a separate Win32 event to signal the event loop exit.
		HANDLE hExitEvent = CreateEventW(NULL, FALSE, FALSE, NULL);

		// Collect the events listened for to pump the speech event loop.
		HANDLE rghEvents[] = { hSpeechNotifyEvent, hExitEvent };

		// Speech recognition event loop.
		BOOL fContinue = TRUE;

		while (fContinue && SUCCEEDED(hr))
		{
			// Wait for either a speech event or an exit event, with a 15 second timeout.
			DWORD dwMessage = WaitForMultipleObjects(sp_countof(rghEvents), rghEvents, FALSE, 15000);

			switch (dwMessage)
			{
				// With the WaitForMultipleObjects call above, WAIT_OBJECT_0 is a speech event from hSpeechNotifyEvent.
			case WAIT_OBJECT_0:
			{
				// Sequentially grab the available speech events from the speech event queue.
				CSpEvent spevent;

				while (S_OK == spevent.GetFrom(cpContext))
				{
					switch (spevent.eEventId)
					{
					case SPEI_RECOGNITION:
					{
						// Retrieve the recognition result and output the text of that result.
						ISpRecoResult* pResult = spevent.RecoResult();

						LPWSTR pszCoMemResultText = NULL;
						hr = pResult->GetText(SP_GETWHOLEPHRASE, SP_GETWHOLEPHRASE, TRUE, &pszCoMemResultText, NULL);

						if (SUCCEEDED(hr))
						{
							wprintf(L"Recognition event received, text=\"%s\"\r\n", pszCoMemResultText);
						}

						// Also retrieve the retained audio we requested.
						CComPtr<ISpStreamFormat> cpRetainedAudio;

						if (SUCCEEDED(hr))
						{
							hr = pResult->GetAudio(0, 0, &cpRetainedAudio);
						}

						// To demonstrate, we'll speak the retained audio back using ISpVoice.
						CComPtr<ISpVoice> cpVoice;

						if (SUCCEEDED(hr))
						{
							hr = cpVoice.CoCreateInstance(CLSID_SpVoice);
						}

						if (SUCCEEDED(hr))
						{
							hr = cpVoice->SpeakStream(cpRetainedAudio, SPF_DEFAULT, 0);
						}

						if (NULL != pszCoMemResultText)
						{
							CoTaskMemFree(pszCoMemResultText);
						}

						break;
					}
					}
				}

				break;
			}
			case WAIT_OBJECT_0 + 1:
			case WAIT_TIMEOUT:
			{
				// Exit event or timeout; discontinue the speech loop.
				fContinue = FALSE;
				//break;
			}
			}
		}

	CoUninitialize();

		CComPtr <ISpVoice>		cpVoice;
		CComPtr <ISpStream>		cpStream;
		CSpStreamFormat			cAudioFmt;

		//Create a SAPI Voice
		hr = cpVoice.CoCreateInstance(CLSID_SpVoice);

		//Set the audio format
		if (SUCCEEDED(hr))
		{
			hr = cAudioFmt.AssignFormat(SPSF_22kHz16BitMono);
		}

		//Call SPBindToFile, a SAPI helper method,  to bind the audio stream to the file
		if (SUCCEEDED(hr))
		{

			hr = SPBindToFile(L"c:\\ttstemp.wav", SPFM_CREATE_ALWAYS,
				&cpStream, &cAudioFmt.FormatId(), cAudioFmt.WaveFormatExPtr());
		}

		//set the output to cpStream so that the output audio data will be stored in cpStream
		if (SUCCEEDED(hr))
		{
			hr = cpVoice->SetOutput(cpStream, TRUE);
		}

		//Speak the text "hello world" synchronously
		if (SUCCEEDED(hr))
		{
			hr = cpVoice->Speak(L"Hello World", SPF_DEFAULT, NULL);
		}

		//close the stream
		if (SUCCEEDED(hr))
		{
			hr = cpStream->Close();
		}

		//Release the stream and voice object
		cpStream.Release();
		cpVoice.Release();

		CComPtr<ISpGrammarBuilder>    cpGrammarBuilder;
		SPSTATEHANDLE                 hStateTravel;
		// Create (if rule does not already exist)
		// top-level Rule, defaulting to Active.
		hr = cpGrammarBuilder->GetRule(L"Travel", 0, SPRAF_TopLevel | SPRAF_Active, TRUE, &hStateTravel);

		// Approach 1: List all possible phrases.
		// This is the most intuitive approach, and it does not sacrifice efficiency
		// because the grammar builder will merge shared sub-phrases when possible.
		// There is only one root state, hStateTravel, and the terminal NULL state,
		// and there are six unique transitions between root state and NULL state.

		/* XML Approximation:
		<rule id="Travel">
		<item> fly to Seattle </item>
		<item> fly to New York </item>
		<item> fly to Washington DC </item>
		<item> drive to Seattle </item>
		<item> drive to New York </item>
		<item> drive to Washington DC </item>
		</rule>
		*/

		// Create set of peer phrases, each containing complete phrase.
		// Note: the word delimiter is set as " ", so that the text we
		// attach to the transition can be multiple words (for example,
		// "fly to Seattle" is implicitly "fly" + "to" + "Seattle"):
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"fly to Seattle", L" ", SPWT_LEXICAL, 1, NULL);
		}
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"fly to New York", L" ", SPWT_LEXICAL, 1, NULL);
		}
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"fly to Washington DC", L" ", SPWT_LEXICAL, 1, NULL);
		}
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"drive to Seattle", L" ", SPWT_LEXICAL, 1, NULL);
		}
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"drive to New York", L" ", SPWT_LEXICAL, 1, NULL);
		}
		if (SUCCEEDED(hr))
		{
			hr = cpGrammarBuilder->AddWordTransition(hStateTravel, NULL, L"drive to Washington DC", L" ", SPWT_LEXICAL, 1, NULL);
		}
		// Find the best matching installed en-US recognizer.
		//CComPtr<ISpObjectToken> cpRecognizerToken;

		if (SUCCEEDED(hr))
		{
			hr = SpFindBestToken(SPCAT_RECOGNIZERS, L"language=409", NULL, &cpRecognizerToken);
		}

		// Create the in-process recognizer and immediately set its state to inactive.
		//CComPtr<ISpRecognizer> cpRecognizer;

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer.CoCreateInstance(CLSID_SpInprocRecognizer);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecognizer(cpRecognizerToken);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecoState(SPRST_INACTIVE);
		}

		// Create a new recognition context from the recognizer.
		//CComPtr<ISpRecoContext> cpContext;

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->CreateRecoContext(&cpContext);
		}

		// Subscribe to the speech recognition event and end stream event.
		if (SUCCEEDED(hr))
		{
			ULONGLONG ullEventInterest = SPFEI(SPEI_RECOGNITION) | SPFEI(SPEI_END_SR_STREAM);
			hr = cpContext->SetInterest(ullEventInterest, ullEventInterest);
		}

		// Establish a Win32 event to signal when speech events are available.
		//HANDLE hSpeechNotifyEvent = INVALID_HANDLE_VALUE;

		if (SUCCEEDED(hr))
		{
			hr = cpContext->SetNotifyWin32Event();
		}

		if (SUCCEEDED(hr))
		{
			hr = cpContext->SetNotifyWin32Event();
		}

		if (SUCCEEDED(hr))
		{
			hSpeechNotifyEvent = cpContext->GetNotifyEventHandle();

			if (INVALID_HANDLE_VALUE == hSpeechNotifyEvent)
			{
				// Notification handle unsupported
				//hr = SPERR_UNITIALIZED;
			}
		}
		// Set up an audio input stream using a .wav file and set the recognizer's input.
		CComPtr<ISpStream> cpInputStream;

		if (SUCCEEDED(hr))
		{
			hr = SPBindToFile(L"Test.wav", SPFM_OPEN_READONLY, &cpInputStream);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetInput(cpInputStream, TRUE);
		}

		// Create a new grammar and load an SRGS grammar from file.
		//CComPtr<ISpRecoGrammar> cpGrammar;

		if (SUCCEEDED(hr))
		{
			hr = cpContext->CreateGrammar(0, &cpGrammar);
		}

		if (SUCCEEDED(hr))
		{
			hr = cpGrammar->LoadCmdFromFile(L"grammar.grxml", SPLO_STATIC);
		}

		// Set all top-level rules in the new grammar to the active state.
		if (SUCCEEDED(hr))
		{
			hr = cpGrammar->SetRuleState(NULL, NULL, SPRS_ACTIVE);
		}

		// Finally, set the recognizer state to active to begin recognition.
		if (SUCCEEDED(hr))
		{
			hr = cpRecognizer->SetRecoState(SPRST_ACTIVE_ALWAYS);
		}

		 hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void     **)&pVoice);
		if (SUCCEEDED(hr)) {
			hr = SpEnumTokens(SPCAT_VOICES, L"Gender=Female", NULL, &pEnum);
			if (SUCCEEDED(hr))
			{
				// Get the number of voices.
				hr = pEnum->GetCount(&ulCount);
			}

			// Obtain a list of available voice tokens, set
			// the voice to the token, and call Speak.
			while (SUCCEEDED(hr) && ulCount--)			{
				if (pVoiceToken != nullptr) {
					pVoiceToken->Release();
				}

				if (SUCCEEDED(hr))
				{
					hr = pEnum->Next(1, &pVoiceToken, NULL);
				}

				if (SUCCEEDED(hr))
				{
					hr = pVoice->SetVoice(pVoiceToken);
				}

				if (SUCCEEDED(hr))
				{
					wchar_t* start = L"<?xml version=\"1.0\" encoding=\"ISO - 8859 - 1\"?><speak version = \"1.0\" xmlns = \"http://www.w3.org/2001/10/synthesis\"	xml:lang = \"en-US\">";
					wchar_t* end = L"</speak>";
					const wchar_t *xml = L"<voice required = \"Gender=Male\"> hi! <prosody pitch=\"fast\"> This is low pitch. </prosody><prosody volume=\"x - loud\"> This is extra loud volume. </prosody>";
					wstring s = start;
					s += xml;
					s += end;
					
					hr = pVoice->Speak(xml, SPF_IS_XML| SPF_ASYNC, 0);
					//hr = pVoice->Speak(L"How are you?", SPF_DEFAULT, NULL);
				}

			}
			/*
			if (SUCCEEDED(hr)) {
				hr = pEnum->Next(1, &pVoiceToken, NULL);
				if (SUCCEEDED(hr)) {
					hr = pVoice->SetVoice(pVoiceToken);
					// Set the output to the default audio device.
					if (SUCCEEDED(hr)) {
						hr = pVoice->SetOutput(NULL, TRUE);
						if (SUCCEEDED(hr)) {
							hr = pVoice->Speak(L"Hello, world!", SPF_DEFAULT, 0);
						}
					}
				}
			}
			*/
			pVoice->Release();
		}
		::CoUninitialize();
	}
Esempio n. 10
0
File: main.cpp Progetto: df32/TTS
	HRESULT Speak(LPCWSTR pwcs)
	{
		UnPause();
		return VoiceObj->Speak(pwcs, Flags, 0);
	}
Esempio n. 11
0
File: main.cpp Progetto: df32/TTS
	HRESULT Speak()				//开始朗读
	{
		UnPause();
		return VoiceObj->Speak(Text.c_str(), Flags, 0);
	}
Esempio n. 12
0
int main(int argc, char* argv[])
{
	Arguments arguments(argc, argv);

	//Initialize Pocketsphinx
	mic_data_t mic;

	continuous_init(arguments, mic);

	//Initialize Voice
	ISpVoice * pVoice = NULL;

	if (FAILED(::CoInitialize(NULL)))
		return FALSE;

	HRESULT hr = CoCreateInstance(CLSID_SpVoice, NULL, CLSCTX_ALL, IID_ISpVoice, (void **)&pVoice);

	if (SUCCEEDED(hr))
		std::cout << "Speech Initialized" << std::endl;

	//Initialize Rebecca
	AimlFacade aiml;
	GraphBuilder &builder = aiml.getGraphBuilder();
	myCallBacks callback;
	builder.setCallBacks(&callback);

	rebecca_init(arguments, builder);

	//Main code
	try
	{
		/*
		* Send a initial conversation of "connect" to
		* annotated alice and get the response.
		*/
		StringPimpl response = builder.getResponse("connect");

		/*
		* Get the botName which should be Rebecca since that is
		* the name give in the configuration file properties.xml
		* which we parsed above.
		*/
		string botName = builder.getBotPredicate("name").c_str();

		//Send the initial opening line of the bot
		cout << botName << " says: " << response.c_str() << endl;
		hr = pVoice->Speak(s2ws(response.c_str()).c_str(), 0, NULL);
		pVoice->WaitUntilDone(15000);

		/*
		* The main loop to get the input
		* from the user until the user types '/exit'
		*/
		while (true)
		{
			//getUtterance(mic);
			//string input = string(mic.hyp);
			string input;
			getline(cin, input);

			if (input == "/exit" || input == "GOOD NIGHT")
			{
				/*
				* The user wants to exit so break
				* out of the while(true) loop
				*/
				continuous_exit(mic);
				pVoice->Release();
				pVoice = NULL;
				::CoUninitialize();
				break;
			}
			else //The user gave an input to the bot
			{
				//Here we get some internal Rebecca information.
				cout << endl
					<< "Internal information:" << endl
					<< "=====================" << endl
					<< input << " : "
					<< builder.getThat().c_str() << " : "
					<< builder.getTopic().c_str() << endl;

				/*
				* Ahhh finally.  We give the user input to Rebecca Aiml's loaded
				* AIML and get the response back.
				*/
				StringPimpl response = builder.getResponse(input.c_str());

				cout << "=====================" << endl << endl;

				//Print out what Rebecca says.
				cout << botName << " says: " << response.c_str() << endl;
				hr = pVoice->Speak(s2ws(response.c_str()).c_str(), 0, NULL);
				pVoice->WaitUntilDone(15000);
			}
		}
	}
	catch (Exception &e)
	{
		cout << "[An unknown exception occured, Terminating program]" << endl;
		cout << "[" << e.what() << "]";
		return 1;
	}

	//Everything smooth.  Exit normally.
	return 0;
}