Exemplo n.º 1
0
static void portMidi_listDevices(CSOUND *csound, int output)
{
    int i,n = listDevices(csound, NULL, output);
    CS_MIDIDEVICE *devs =
      (CS_MIDIDEVICE *) csound->Malloc(csound, n*sizeof(CS_MIDIDEVICE));
    listDevices(csound, devs, output);
    for(i=0; i < n; i++)
      csound->Message(csound, "%s: %s (%s)\n",
                      devs[i].device_id, devs[i].device_name, devs[i].midi_module);
    csound->Free(csound, devs);
}
Exemplo n.º 2
0
int set_bootloader_to_winusb(int verbose) {
    int opt_silent = verbose;
    struct wdi_device_info *device, list;
    char* inf_name = NULL;
    int r;
    struct wdi_options_prepare_driver driver_opts = {0};

    driver_opts.driver_type = WDI_WINUSB;
    driver_opts.vendor_name = NULL;
    driver_opts.device_guid = NULL;
    driver_opts.disable_cat = FALSE;
    driver_opts.disable_signing = FALSE;
    driver_opts.use_wcid_driver = FALSE;

    list = listDevices(verbose);
    if (&list != NULL) {
        oprintf("set_bootloader_to_winusb - valid list\n");
        for (device = &list; device != NULL; device = device->next) {
            if ((device->vid == BOOTLOADER_VID) && (device->pid == BOOTLOADER_PID)) {
                oprintf("Installing using inf name: %s\n", INF_NAME);
                if ((wdi_prepare_driver(device, DEFAULT_DIR, INF_NAME, &driver_opts) == WDI_SUCCESS) & (device->driver != "WINUSB")) {
                    oprintf("Prepared driver for install\n");
                    r=wdi_install_driver(device, DEFAULT_DIR, INF_NAME, NULL);
                    oprintf("got return code: %d=%s \n", r,wdi_strerror(r));
                }
            }
        }
    }
    return r;
}
//------------------------------------------------------------------------------
ofxPortaudioSoundStream::ofxPortaudioSoundStream(){
	OFSAptr 		= NULL;
	audio 			= NULL;
	nInputChannels	= 0;
	nOutputChannels = 0;
	deviceID		= 0;
	deviceName		= "";
	
	deviceID		= -1;
	soundOutputPtr	= NULL;
	soundInputPtr	= NULL;
	tickCount= 0;

	streamInitialised = false;
	
	if(!streamInitialised){
		PaError err;
		err = Pa_Initialize();
		if( err != paNoError ){
			ofLog(OF_LOG_ERROR,"PortAudio error: %s\n",Pa_GetErrorText( err ));
		}else{
			streamInitialised = true;
			cout << "PortAudio launched in OF" << endl;
		}
	}
	
	
	listDevices();
	printDeviceListInformation();
	printf("sound stream setup finished\n");

	err = Pa_Initialize();
}
Exemplo n.º 4
0
bool ImageReader::initReader() {
    bool ret;
    ret = listDevices(_devices);
    if (_devices.size()) {
        openCamera(_devices.at(0));
    }
    return ret;
}
Exemplo n.º 5
0
bool ttSerialDevice::setup( int device ) {
	map< string, string > devices = listDevices();
	if ( device >= 0 && device < devices.size() ) {
		map< string, string >::iterator it = devices.begin();
		for ( int i = 0; i  < device; i++ ) it++;
		return setup( it->second );
	}
	return false;
}
Exemplo n.º 6
0
void Arduino::setup()
{
	listDevices();
	
    //connected = ofSerial::setup();
    connected = ofSerial::setup("COM8", 38400);
    buffer = "";

	lastMillis = 0;
}
Exemplo n.º 7
0
//---------------------------------------------------------------------------
bool ofxKinectContext::init() {
	
	if(freenect_init(&kinectContext, NULL) < 0) {
		ofLog(OF_LOG_ERROR, "ofxKinect: freenect_init failed");
		bInited = false;
		return false;
	}

	bInited = true;
	ofLog(OF_LOG_VERBOSE, "ofxKinect: Context inited");
	
	buildDeviceList();
	listDevices(true);

	return true;
}
Exemplo n.º 8
0
/**
 * \class MediaMonitorWindows
 *
 * I am assuming, for now, that everything on Windows uses drive letters
 * (e.g. C:, D:). That is probably wrong, though. (other APIs?)
 */
MediaMonitorWindows::MediaMonitorWindows(QObject* par,
                                         unsigned long interval,
                                         bool allowEject)
                   : MediaMonitor(par, interval, allowEject)
{
    char strDrives[128];
    if (!::GetLogicalDriveStrings(sizeof(strDrives), strDrives))
        return;

    for (char *driveName = strDrives; *driveName;
         driveName += strlen(driveName) + 1)
    {
        uint type = ::GetDriveType(driveName);
        if (type != DRIVE_REMOVABLE && type != DRIVE_CDROM)
            continue;

        MythMediaDevice *media = NULL;

        if (type == DRIVE_CDROM)
            media = MythCDROM::get(this, driveName, false, allowEject);
        else
            media = MythHDD::Get(this, driveName, false, allowEject);

        if (!media)
        {
            VERBOSE(VB_IMPORTANT,
                    "Error. Couldn't create MythMediaDevice.");
            return;
        }

        // We store the volume name to improve
        // user activities like ChooseAndEjectMedia().
        char volumeName[MAX_PATH];
        if (GetVolumeInformation(driveName, volumeName, MAX_PATH,
                                 NULL, NULL, NULL, NULL, NULL))
        {
            media->setVolumeID(volumeName);
        }

        AddDevice(media);
    }

    VERBOSE(VB_MEDIA, "Initial device list: " + listDevices());
}
devicemodel::devicemodel(QObject* parent)
    :QAbstractListModel(parent)
{

    QHash<int, QByteArray> roles;
    roles.insert( devicemodel::DeviceName, "deviceName");
    roles.insert( devicemodel::DeviceLabel, "deviceLabel");
    setRoleNames(roles);


    m_deviceInterface = new org::freedesktop::UDisks( QString("org.freedesktop.UDisks"),
                                                      QString("/org/freedesktop/UDisks"),
                                                      QDBusConnection::systemBus(), this);

    connect(m_deviceInterface,SIGNAL(DeviceAdded(QDBusObjectPath)),this,
            SLOT(addDevice(QDBusObjectPath)));


    connect(m_deviceInterface,SIGNAL(DeviceRemoved(QDBusObjectPath)),this,
            SLOT(removeDevice(QDBusObjectPath)));

    listDevices();
}
Exemplo n.º 10
0
//---------------------------------------------------------------------------
bool ofxKinectContext::init() {
	
	if(freenect_init(&kinectContext, NULL) < 0) {
		ofLogError("ofxKinect") << "init(): freenect_init failed";
		bInited = false;
		return false;
	}
    
    #ifdef OFX_KINECT_EXTRA_FW
        freenect_set_fw_address_nui(kinectContext, ofxKinectExtras::getFWData1473(), ofxKinectExtras::getFWSize1473());
        freenect_set_fw_address_k4w(kinectContext, ofxKinectExtras::getFWDatak4w(), ofxKinectExtras::getFWSizek4w());
    #endif
    
	freenect_set_log_level(kinectContext, FREENECT_LOG_WARNING);
	freenect_select_subdevices(kinectContext, (freenect_device_flags)(FREENECT_DEVICE_MOTOR | FREENECT_DEVICE_CAMERA));

	bInited = true;
	ofLogVerbose("ofxKinect") << "context inited";
	
	buildDeviceList();
	listDevices(true);

	return true;
}
Exemplo n.º 11
0
int main(int argc, char **argv)
{
	QCoreApplication app(argc, argv);
    QCoreApplication::setApplicationName("Problemsolver");
    QCoreApplication::setApplicationVersion("0.0.1");

	QCommandLineParser parser;
    parser.setApplicationDescription("Problem Problem solver using OptiX.");
    parser.addHelpOption();
    parser.addVersionOption();
	parser.addPositionalArgument("source", "Problem definition input file.");
	QCommandLineOption deviceOption(QStringList() << "d" << "device", "Device number id. Use -l to list devices.", "device", "0");
	QCommandLineOption listOption(QStringList() << "l" << "list", "List present CUDA devices in the machine.");
	parser.addOption(deviceOption);
	parser.addOption(listOption);

	parser.process(app);
	const QStringList args = parser.positionalArguments();
	if(args.isEmpty())
	{
		std::cerr << "Missing source parameter" << std::endl;
		parser.showHelp(1);
	}

	QString inputPath = args.first();

	if(parser.isSet(listOption))  // -l, then list available devices.
	{
		listDevices();
		exit(0);
	}
	
	// parse -d option
	bool parseOk;
	int deviceNumber = parser.value(deviceOption).toInt(&parseOk);
	if(!parseOk)
	{
		std::cerr << "Expect a number for device option." << std::endl;
		parser.showHelp(1);
	}
	if(deviceNumber < 0)
	{
		std::cerr << "Option --device(-d) can't be negative." << std::endl;
		parser.showHelp(1);
	}
	// find and check selected device
	ComputeDeviceRepository repository;
	const std::vector<ComputeDevice> & repo = repository.getComputeDevices();
	if(repo.empty())
	{
		std::cerr << "No computing device found"
			"You must have a CUDA enabled GPU to run this application. "
			"The CUDA GPUs nVidia developer page(https://developer.nvidia.com/cuda-gpus) has a "
			"list of all supported devices." << std::endl;
		exit(1);
	}
	if(deviceNumber >= repo.size())
	{
		std::cerr << "Invalid device number " << deviceNumber << "." << std::endl
			<<  "Try -l to list available computing devices." << std::endl;
		exit(1);
	}

	ComputeDevice device = repo.at(deviceNumber);

	// Task parented to the application so that it
    // will be deleted by the application.
	Main *main = new Main(&app, inputPath, device);

    // This will cause the application to exit when
    // the task signals finished.    
    QObject::connect(main, SIGNAL(finished()), &app, SLOT(quit()));

    // This will run the task from the application event loop.
    QTimer::singleShot(0, main, SLOT(run()));

    return app.exec();
}
Exemplo n.º 12
0
CaptureWgt::CaptureWgt( QWidget * parent )
: QMainWindow( parent )
{
    pd = new PD();
    pd->ui.setupUi( this );
    pd->crossFname = "./video.ini";
    pd->modifyLaserPos = false;
    pd->devMenu = 0;
    pd->resMenu = 0;
    pd->imgScale = 1.0;
    pd->drawArrow = false;
    pd->flipX = false;
    pd->flipY = false;
    pd->resolutionAcquired = false;
    pd->cap = new Capture( this );
    pd->ui.brightnessDw->setVisible( false );
    pd->brightness = new BrightnessWgt( this );
    pd->ui.brightnessDw->setWidget( pd->brightness );
    pd->cap->setBrightnessRange( pd->brightness->range() );
    connect( pd->brightness, SIGNAL(rangeChanged(const QPointF &)), 
             this,           SLOT(slotBrightnessChanged(const QPointF &)) );
    connect( pd->ui.brightnessRange, SIGNAL(triggered()), 
             this,                   SLOT(slotBrightness()) );

    Ui_CaptureWgt & ui = pd->ui;
    connect( ui.capture,  SIGNAL(triggered()), this, SLOT(slotCapture()) );
    connect( ui.settings, SIGNAL(triggered()), this, SLOT(slotSettings()) );
    connect( ui.cross,    SIGNAL(triggered()), this, SLOT(slotCrossEmphasis()) );

    pd->scene = new QGraphicsScene( pd->ui.view );
    pd->scene->setBackgroundBrush( QBrush( Qt::gray ) );
    pd->ui.view->setScene( pd->scene );

    pd->image = new QGraphicsPixmapItem( 0, pd->scene );
    pd->image->setPos( 0.0, 0.0 );
    pd->lineX1 = new QGraphicsLineItem( pd->image, pd->scene );
    pd->lineY1 = new QGraphicsLineItem( pd->image, pd->scene );
    pd->lineX2 = new QGraphicsLineItem( pd->image, pd->scene );
    pd->lineY2 = new QGraphicsLineItem( pd->image, pd->scene );
    pd->arrow = new QGraphicsPolygonItem( pd->image, pd->scene );
    // This is for laser spot position.
    pd->laserPosImage = new QGraphicsPixmapItem( 0, pd->scene );
    pd->laserPosImage->setPixmap( QPixmap( ":/images/laser.png" ) );
    pd->laserPosImage->setPos( -pd->laserPosImage->pixmap().width()/2, -pd->laserPosImage->pixmap().height()/2 );
    pd->laserPosImage->setVisible( false );

    connect( pd->ui.flipX, SIGNAL(triggered()), this, SLOT(slotFlipX()) );
    connect( pd->ui.flipY, SIGNAL(triggered()), this, SLOT(slotFlipY()) );

    pd->cap = new Capture( this );
    listDevices();
    connect( pd->cap, SIGNAL(frame(const QImage &)), this, SLOT(slotFrame(const QImage &)) );

    ui.view->installEventFilter( this );

    pd->inMenu = new QMenu( this );
    ui.input->setMenu( pd->inMenu );
    QAction * a = new QAction( "Default", this );
    a->setCheckable( true );
    a->setChecked( true );
    pd->inMenu->addAction( a );
    pd->inList << a;

    a = new QAction( "Usb", this );
    a->setCheckable( true );
    pd->inMenu->addAction( a );
    pd->inList << a;

    a = new QAction( "S-Video", this );
    a->setCheckable( true );
    pd->inMenu->addAction( a );
    pd->inList << a;

    a = new QAction( "Composite", this );
    a->setCheckable( true );
    pd->inMenu->addAction( a );
    pd->inList << a;

    for ( int i=0; i<pd->inList.size(); i++ )
    {
        QAction * a = pd->inList[i];
        connect( a, SIGNAL(triggered()), this, SLOT(slotInput()) );
    }

    // ƒействи¤ соответствующие фильтрам.
    pd->filterList << ui.equalizeHist;
    pd->filterList << ui.fullContrast;
    pd->filterList << ui.sobel;
    pd->filterList << ui.median;
    pd->filterList << ui.timeSmooth;
    pd->filterList << ui.highPass;
    pd->filterList << ui.surface;
    pd->filterList << ui.brightnessRange;
    for ( int i=0; i<pd->filterList.size(); i++ )
    {
        QAction * a = pd->filterList[i];
        connect( a, SIGNAL(triggered()), this, SLOT(slotFilter()) );
    }

    connect( ui.pixmap, SIGNAL(triggered()), this, SLOT(slotPixmap()) );


	QToolButton * btn = qobject_cast<QToolButton *>(ui.toolBar->widgetForAction(ui.input));
	if ( btn )
		btn->setPopupMode(QToolButton::InstantPopup);

	btn = qobject_cast<QToolButton *>(ui.toolBar->widgetForAction(ui.device));
	if ( btn )
		btn->setPopupMode(QToolButton::InstantPopup);
	
	btn = qobject_cast<QToolButton *>(ui.toolBar->widgetForAction(ui.resolution));
	if ( btn )
		btn->setPopupMode(QToolButton::InstantPopup);

    //pd->usbLight = new LightIcon( this );
    //ui.toolBar->addWidget( pd->usbLight );

    // Laser spot handling.
    QMenu * m = new QMenu( this );
    a = m->addAction( "Set laser spot position" );
    connect( a, SIGNAL(triggered()), this, SLOT(slotSetLaserSpot()) );
    btn = qobject_cast<QToolButton *>(ui.toolBar->widgetForAction(ui.laser));
    btn->setPopupMode( QToolButton::MenuButtonPopup );
    ui.laser->setMenu( m );

    updateCrossPos();
}
Exemplo n.º 13
0
int main(int argc, const char ** argv) {
    int rc;

    char * uri = NULL;
    oni_Device * device = NULL;

    oni_DeviceConnectedListener listen1;
    oni_DeviceDisconnectedListener listen2;
    oni_DeviceStateChangedListener listen3;

    oni_Version ver = oni_getVersion();
    printf("OpenNI2 build %d, maintenance %d, v%d.%d\n", ver.build,
           ver.maintenance, ver.major, ver.minor);

    listen1.fnPtr = &deviceConnect;
    listen2.fnPtr = &deviceDisconnect;
    listen3.fnPtr = &deviceStateChange;
    //const char * err = oni_getExtendedError();
    //printf("Extended error: %s\n", err);

    rc = oni_initialize();

    if (rc == oni_STATUS_OK) {
        rc = oni_addDeviceConnectedListener(&listen1);
        rc = oni_addDeviceDisconnectedListener(&listen2);
        rc = oni_addDeviceStateChangedListener(&listen3);

        listDevices();

        uri = getFirstUri();
    }

    if (uri != NULL) {
        printf("Using URI: %s\n", uri);
        device = oni_new_Device();
    } else {
        printf("Unable to find device!\n");
    }

    if (device != NULL) {
        rc = oni_open(device, uri);
        printf("oni_open: rc=%s\n", oni_getString_Status(rc));

        printf("Device is %s\n", oni_isValid_Device(device) ? "valid" : "invalid");

        printf("Registration mode: %s\n", oni_getString_ImageRegistrationMode(
                   oni_getImageRegistrationMode(device)));

        {
            int i;
            bool hasSensor;
            oni_SensorType types[] = { oni_SENSOR_IR, oni_SENSOR_COLOR, oni_SENSOR_DEPTH };

            for (i = 0; i < 3; ++i) {

                hasSensor = oni_hasSensor(device, types[i]);

                if (hasSensor) {
                    const oni_SensorInfo * info = oni_getSensorInfo(device, types[i]);
                    if (info == NULL) {
                        printf("Present, but can't get info\n");
                    } else {
                        echoSensorInfo(info);
                    }
                } else {
                    const char * sensorName = oni_getString_SensorType(types[i]);
                    printf("Sensor type %s: Not present", sensorName);
                }
            }
        }
        
        oni_close(device);
    }
}
Exemplo n.º 14
0
int main(int argc, char ** argv)
{
	char * descURL = NULL;
	int option_index = 0;
	int c;
	int devid = -1;
	char arguments[1025]; arguments[0]='\0';
	char action[129]; action[0]='\0';
	char verbose = 0;

	unsigned int operation = OP_NONE;

	if(argc == 1)
	{
		printUsage(argv[0]);
		return -1;
	}

	while(1){
		c = getopt_long(argc,argv,"dlva:p:",long_options,&option_index);

		if(c == -1)
			break;

		switch(c){
		case 'd': operation = OP_DISCOVER; break;
		case 'l': operation = OP_LIST; break;
		case 'a': operation = OP_CALLOP; if(optarg) strncpy(action,optarg,128); break;
		case 'p': if(optarg) strncpy(arguments,optarg,1024); break;
		case 'v': verbose = 1; break;
		default: printUsage(argv[0]); return 0;
		}
	}
	
	if(verbose) printf("Universal Plug and Play IGD Tool v0.1\n  João Paulo Barraca <*****@*****.**>\n\n");
	if(operation == OP_NONE)
		return 0;

	descURL = upnpDiscover(5000);	// timeout = 5secs

	if(descURL)
	{
		struct IGDdatas *data = (struct IGDdatas*) malloc(sizeof(struct IGDdatas));
		struct UPNPUrls urls;

		memset(data, 0, sizeof(struct IGDdatas));
		memset(&urls, 0, sizeof(struct UPNPUrls));

		char * descXML;
		int descXMLsize = 0;
		descXML = miniwget(descURL, &descXMLsize);

		parserootdesc(descXML, descXMLsize, data);

		if(descXML)
		{

			switch(operation)
			{
			case OP_CALLOP:
				callUPNPVariable(data,action,arguments, verbose);
				break;
			case OP_LIST:
				listServices(data,devid,verbose); 
				break;
			case OP_DISCOVER:
				listDevices(data);		
				break;
			default: printf("Error: Action not implemented (yet)!\n"); break;
			}
			free(descXML);
		}
		else
		{
			printf("Error: Cannot get XML description of the device.\n");
		}
		freeIGD(data);
		free(descURL);
	}
	else
	{
		fprintf(stderr, "Error: No IGD UPnP Device found on the network !\n");
	}
	return 0;
}
Exemplo n.º 15
0
int main(int argc, char *argv[])
{
	CoInitialize(nullptr);

	listDevices();

	IAudioClient *pAudioClient;
	IMMDevice *device;

	getDefaultDevice(&device);

    HRESULT hr = device->Activate(__uuidof(IAudioClient),
        CLSCTX_ALL, nullptr, (void**)&pAudioClient);
    if (FAILED(hr)) {
        printf("IMMDevice::Activate(IAudioClient) failed: hr = 0x%08x", hr);
        return hr;
    }

	REFERENCE_TIME hnsDefaultDevicePeriod;
    hr = pAudioClient->GetDevicePeriod(&hnsDefaultDevicePeriod, nullptr);
    if (FAILED(hr)) {
        printf("IAudioClient::GetDevicePeriod failed: hr = 0x%08x\n", hr);
        pAudioClient->Release();
        return hr;
    }

	// get the default device format
    WAVEFORMATEX *pwfx;
    hr = pAudioClient->GetMixFormat(&pwfx);
    if (FAILED(hr)) {
        printf("IAudioClient::GetMixFormat failed: hr = 0x%08x\n", hr);
        CoTaskMemFree(pwfx);
        pAudioClient->Release();
        return hr;
    }

    DVAR(pwfx->wFormatTag);
    DVAR(pwfx->wBitsPerSample);
    DVAR(pwfx->nBlockAlign);
    DVAR(pwfx->nAvgBytesPerSec);

    switch (pwfx->wFormatTag) {
        case WAVE_FORMAT_IEEE_FLOAT:
            pwfx->wFormatTag = WAVE_FORMAT_PCM;
            pwfx->wBitsPerSample = 16;
            pwfx->nBlockAlign = pwfx->nChannels * pwfx->wBitsPerSample / 8;
            pwfx->nAvgBytesPerSec = pwfx->nBlockAlign * pwfx->nSamplesPerSec;
            break;

        case WAVE_FORMAT_EXTENSIBLE:
            {
                // naked scope for case-local variable
                PWAVEFORMATEXTENSIBLE pEx = reinterpret_cast<PWAVEFORMATEXTENSIBLE>(pwfx);
                if (IsEqualGUID(KSDATAFORMAT_SUBTYPE_IEEE_FLOAT, pEx->SubFormat)) {
                    pEx->SubFormat = KSDATAFORMAT_SUBTYPE_PCM;
                    pEx->Samples.wValidBitsPerSample = 16;
                    pwfx->wBitsPerSample = 16;
                    pwfx->nBlockAlign = pwfx->nChannels * pwfx->wBitsPerSample / 8;
                    pwfx->nAvgBytesPerSec = pwfx->nBlockAlign * pwfx->nSamplesPerSec;
                } else {
                    printf("Don't know how to coerce mix format to int-16\n");
                    CoTaskMemFree(pwfx);
                    pAudioClient->Release();
                    return E_UNEXPECTED;
                }
            }
            break;

        default:
            printf("Don't know how to coerce WAVEFORMATEX with wFormatTag = 0x%08x to int-16\n", pwfx->wFormatTag);
            CoTaskMemFree(pwfx);
            pAudioClient->Release();
            return E_UNEXPECTED;
    }

    DVAR(pwfx->wFormatTag);
    DVAR(pwfx->wBitsPerSample);
    DVAR(pwfx->nBlockAlign);
    DVAR(pwfx->nAvgBytesPerSec);

	hr = pAudioClient->Initialize(AUDCLNT_SHAREMODE_SHARED, AUDCLNT_STREAMFLAGS_LOOPBACK, 0, 0, pwfx, 0 );
    if (FAILED(hr)) {
        printf("IAudioClient::Initialize failed: hr = 0x%08x\n", hr);
        pAudioClient->Release();
        return hr;
    }

	IAudioCaptureClient *pAudioCaptureClient;
    hr = pAudioClient->GetService(__uuidof(IAudioCaptureClient), (void**)&pAudioCaptureClient);
    if (FAILED(hr)) {
        printf("IAudioClient::GetService(IAudioCaptureClient) failed: hr 0x%08x\n", hr);
        pAudioClient->Release();
        return hr;
    }


    hr = pAudioClient->Start();
    if (FAILED(hr)) {
        printf("IAudioClient::Start failed: hr = 0x%08x\n", hr);
        pAudioCaptureClient->Release();
        pAudioClient->Release();
        return hr;
    }


for (int i = 0; i < 10; ++i)
{

	UINT32 nNextPacketSize;
    hr = pAudioCaptureClient->GetNextPacketSize(&nNextPacketSize);
    if (FAILED(hr)) {
        printf("IAudioCaptureClient::GetNextPacketSize failed on pass %u after %u frames: hr = 0x%08x\n", 0, 0, hr);
        pAudioClient->Stop();
        pAudioCaptureClient->Release();
        pAudioClient->Release();
        return hr;
    }


    // get the captured data
    BYTE *pData;
    UINT32 nNumFramesToRead;
    DWORD dwFlags;

    hr = pAudioCaptureClient->GetBuffer(&pData, &nNumFramesToRead, &dwFlags, nullptr,
        nullptr);
    if (FAILED(hr)) {
        printf("IAudioCaptureClient::GetBuffer failed on pass %u after %u frames: hr = 0x%08x\n", 0, 0, hr);
        pAudioClient->Stop();
        pAudioCaptureClient->Release();
        pAudioClient->Release();
        return hr;
    }

    DVAR(nNumFramesToRead);


    // if (bFirstPacket && AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY == dwFlags) {
        // printf("Probably spurious glitch reported on first packet\n");
    if (0 != dwFlags && AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY != dwFlags) {
        printf("IAudioCaptureClient::GetBuffer set flags to 0x%08x on pass %u after %u frames\n", dwFlags, 0, 0);
        // pAudioClient->Stop();
        // pAudioCaptureClient->Release();
        // pAudioClient->Release();
        // return E_UNEXPECTED;
    }
    else
    	DVAR((int)*pData);

    if (0 == nNumFramesToRead) {
        printf("IAudioCaptureClient::GetBuffer said to read 0 frames on pass %u after %u frames\n", 0, 0);
        pAudioClient->Stop();
        pAudioCaptureClient->Release();
        pAudioClient->Release();
        return E_UNEXPECTED;
    }


    UINT32 nBlockAlign = pwfx->nBlockAlign;
    LONG lBytesToWrite = nNumFramesToRead * nBlockAlign;
    hr = pAudioCaptureClient->ReleaseBuffer(nNumFramesToRead);
}

	pAudioClient->Stop();
    pAudioCaptureClient->Release();
    pAudioClient->Release();


	CoUninitialize();

	return 0;
}
Exemplo n.º 16
0
int main(int argc, char * const argv[])
{
  
  char *host = (char*)"127.0.0.1";
  int port = 3001;
  int device = -1; // for default device
  int c;
  
  opterr = 0;
  
  /* options descriptor */
  static struct option longopts[] = {
    { "help",      no_argument      ,      NULL,           '?' },
    { "list",      no_argument      ,      NULL,           'l' },
    { "host",      required_argument,      NULL,           'h' },
    { "port",      required_argument,      &port,          'p' },
    { "device",    required_argument,      &device,        'd' },
    { "time-out",  required_argument,      NULL,           't' },
    { "osc-path",  required_argument,      NULL,           'o' },
    { NULL,        0,                      NULL,            0  }
  };
  
  while ((c = getopt_long (argc, argv, ":h:p:t:d:l",longopts,NULL)) != -1)
    switch (c)
  {
    case 'h':
      host = optarg;
      break;
    case 'p':
      port = atoi(optarg);
      break;
    case 'd':
      device = atoi(optarg);
      break;
    case 't':
      timeOut = atoi(optarg)/1000.f;
      break;
    case 'o':
      osc_path = optarg;
      break;
    case 'l':
      listDevices();
      return 0;
    case '?':
      usage();
      return 0;
    case ':':
      switch (optopt) {
        case 'h':
        case 'p':
          fprintf (stderr, "Please specify an ip and port to send to.\n");
          break;
          
        case 't':
          fprintf (stderr, "Please specify a time out value in milliseconds.\n");
          break;
          
        case 'd':
          fprintf (stderr, "-d takes a device index. Use -l to list all available devices.\n");
          break;
          
        default:
          if (isprint (optopt))
            fprintf (stderr, "Unknown option `-%c'.\n", optopt);
          else
            fprintf (stderr,
                   "Unknown option character `\\x%x'.\n",
                   optopt);
          break;
      }
      return 1;
    default:
      usage();
      return 1;
  }
  
  // attach signal handlers
  signal(SIGINT, catch_int);

  
  // Set up OSC
  const int osc_buffer_size = 512;
  char buffer[osc_buffer_size];
  UdpTransmitSocket _sock(IpEndpointName(host,port));
  osc::OutboundPacketStream _stream(buffer,osc_buffer_size);
  OSCSender osc_sender(&_sock,_stream);
  _sock.SetEnableBroadcast(true);
  
  std::clog << "Sending OSC to " << host << " on port " << port << " with path '" << osc_path << "'" << std::endl;
  
  std::clog << "Time for repeated detection is set to " << ((int)(timeOut*1000)) << " milliseconds." << std::endl;
  std::clog << "Samplerate is set to " << SAMPLING_RATE << "Hz" << std::endl;
  
  
  // try to open audio:
  PaError err;
  err = Pa_Initialize();
  if( err != paNoError ) goto error;
  
  DTMFSetup(SAMPLING_RATE, BUFFER_SIZE);
  
  deviceInfo = Pa_GetDeviceInfo((device == -1) ? Pa_GetDefaultInputDevice() : device);
  
  
  /* Open an audio I/O stream. */
  PaStream *stream;
  err = Pa_OpenDefaultStream( &stream, 1, 0,
                             paInt16,
                             SAMPLING_RATE,
                             BUFFER_SIZE,
                             audioCallback,
                             &osc_sender ); // send a pointer to the OSCSender with it
  
  if( err != paNoError ) goto error;
  
  err = Pa_StartStream( stream );
  if( err != paNoError ) goto error;
  
  info = Pa_GetStreamInfo(stream);
  
  std::clog
  << "Audio initialized with:" << std::endl
  << "  Device       " << deviceInfo->name << std::endl
  << "  Latency      " << info->inputLatency << "ms" << std::endl
  << "  Samplerate   " << info->sampleRate << "kHz" << std::endl
  << "  Buffer Size  " << BUFFER_SIZE << "samples" << std::endl;
  
  std::clog << "Read for detection!" << std::endl;
  
  // pause and let the audio thread to the work
  while(running) pause();
  
  // end program
  err = Pa_StopStream( stream );
  if( err != paNoError ) goto error;
  
  err = Pa_CloseStream( stream );
  if( err != paNoError ) goto error;
  
  // Close Audio:
  err = Pa_Terminate();
  
  if( err != paNoError ) {
  error:
    std::cerr <<  "PortAudio error: " <<  Pa_GetErrorText( err ) << std::endl;
    return -1;
  }
  
  return 0;
}
Exemplo n.º 17
0
static void openJackStreams(RtJackGlobals *p)
{
    char    buf[256];
    int     i, j, k;
    CSOUND *csound = p->csound;

    /* connect to JACK server */
    p->client = jack_client_open(&(p->clientName[0]), JackNoStartServer, NULL);
    if (UNLIKELY(p->client == NULL))
      rtJack_Error(csound, -1, Str("could not connect to JACK server"));

    csound->system_sr(csound, jack_get_sample_rate(p->client));
    csound->Message(csound, "system sr: %f\n", csound->system_sr(csound,0));

    /* check consistency of parameters */
    if (UNLIKELY(p->nChannels < 1 || p->nChannels > 255))
      rtJack_Error(csound, -1, Str("invalid number of channels"));
    if (UNLIKELY(p->sampleRate < 1000 || p->sampleRate > 768000))
      rtJack_Error(csound, -1, Str("invalid sample rate"));
    if (UNLIKELY(p->sampleRate != (int) jack_get_sample_rate(p->client))) {
      snprintf(&(buf[0]), 256, Str("sample rate %d does not match "
                             "JACK sample rate %d"),
              p->sampleRate, (int) jack_get_sample_rate(p->client));
      rtJack_Error(p->csound, -1, &(buf[0]));
    }
    if (UNLIKELY(p->bufSize < 8 || p->bufSize > 32768))
      rtJack_Error(csound, -1, Str("invalid period size (-b)"));
    if (p->nBuffers < 2)
      p->nBuffers = 2;
    if (UNLIKELY((unsigned int) (p->nBuffers * p->bufSize) > (unsigned int) 65536))
      rtJack_Error(csound, -1, Str("invalid buffer size (-B)"));
    if (UNLIKELY(((p->nBuffers - 1) * p->bufSize)
                 < (int) jack_get_buffer_size(p->client)))
      rtJack_Error(csound, -1, Str("buffer size (-B) is too small"));

    /* register ports */
    rtJack_RegisterPorts(p);

    /* allocate ring buffers if not done yet */
    if (p->bufs == NULL)
      rtJack_AllocateBuffers(p);

    /* initialise ring buffers */
    p->csndBufCnt = 0;
    p->csndBufPos = 0;
    p->jackBufCnt = 0;
    p->jackBufPos = 0;
    for (i = 0; i < p->nBuffers; i++) {
      rtJack_TryLock(p->csound, &(p->bufs[i]->csndLock));
      rtJack_Unlock(p->csound, &(p->bufs[i]->jackLock));
      for (j = 0; j < p->nChannels; j++) {
        if (p->inputEnabled) {
          for (k = 0; k < p->bufSize; k++)
            p->bufs[i]->inBufs[j][k] = (jack_default_audio_sample_t) 0;
        }
        if (p->outputEnabled) {
          for (k = 0; k < p->bufSize; k++)
            p->bufs[i]->outBufs[j][k] = (jack_default_audio_sample_t) 0;
        }
      }
    }

    /* output port buffer pointer cache is invalid initially */
    if (p->outputEnabled)
      p->outPortBufs[0] = (jack_default_audio_sample_t*) NULL;

    /* register callback functions */
    if (UNLIKELY(jack_set_sample_rate_callback(p->client,
                                               sampleRateCallback, (void*) p)
                 != 0))
      rtJack_Error(csound, -1, Str("error setting sample rate callback"));
    if (UNLIKELY(jack_set_buffer_size_callback(p->client,
                                               bufferSizeCallback, (void*) p)
                 != 0))
      rtJack_Error(csound, -1, Str("error setting buffer size callback"));
#ifdef LINUX
    if (UNLIKELY(jack_set_freewheel_callback(p->client,
                                             freeWheelCallback, (void*) p)
                 != 0))
      rtJack_Error(csound, -1, Str("error setting freewheel callback"));
#endif
    if (UNLIKELY(jack_set_xrun_callback(p->client, xrunCallback, (void*) p) != 0))
      rtJack_Error(csound, -1, Str("error setting xrun callback"));
    jack_on_shutdown(p->client, shutDownCallback, (void*) p);
    if (UNLIKELY(jack_set_process_callback(p->client,
                                           processCallback, (void*) p) != 0))
      rtJack_Error(csound, -1, Str("error setting process callback"));

    /* activate client */
    if (UNLIKELY(jack_activate(p->client) != 0))
      rtJack_Error(csound, -1, Str("error activating JACK client"));

    /* connect ports if requested */
    if (p->inputEnabled) {
      char dev[128], *dev_final, *sp;
      {
        int i,n = listDevices(csound,NULL,0);
        CS_AUDIODEVICE *devs = (CS_AUDIODEVICE *)
                malloc(n*sizeof(CS_AUDIODEVICE));
        listDevices(csound,devs,0);
        for(i=0; i < n; i++)
          csound->Message(csound, " %d: %s (%s)\n",
                          i, devs[i].device_id, devs[i].device_name);
        strncpy(dev, devs[0].device_name, 128);
        free(devs);
      }
      if(p->inDevName != NULL) {
        strncpy(dev, p->inDevName, 128); dev[127]='\0';
      }
      //if (dev) {
      dev_final = dev;
      sp = strchr(dev_final, '\0');
      if (!isalpha(dev_final[0])) dev_final++;
      for (i = 0; i < p->nChannels; i++) {
        snprintf(sp, 128-(dev-sp), "%d", i + 1);
        if (UNLIKELY(jack_connect(p->client, dev_final,
                                  jack_port_name(p->inPorts[i])) != 0)) {
          //rtJack_Error(csound, -1, Str("error connecting input ports"));
          csound->Warning(csound,
                          Str("not autoconnecting input channel %d \n"
                              "(needs manual connection)"), i+1);
        }
      }
      *sp = (char) 0;
      //}

    }
    if (p->outputEnabled) {
      char dev[128], *dev_final, *sp;
      {
          int i,n = listDevices(csound,NULL,1);
          CS_AUDIODEVICE *devs = (CS_AUDIODEVICE *)
                  malloc(n*sizeof(CS_AUDIODEVICE));
          listDevices(csound,devs,1);
          for(i=0; i < n; i++)
            csound->Message(csound, " %d: %s (%s)\n",
                            i, devs[i].device_id, devs[i].device_name);
          strncpy(dev, devs[0].device_name, 128);
          free(devs);
      }
      if (p->outDevName != NULL) {
        strncpy(dev, p->outDevName, 128); dev[127]='\0';
      }
      //if (dev) { this test is rubbish
      dev_final = dev;
      sp = strchr(dev_final, '\0');
      if(!isalpha(dev_final[0])) dev_final++;
      for (i = 0; i < p->nChannels; i++) {
        snprintf(sp, 128-(dev-sp), "%d", i + 1);
        if (jack_connect(p->client, jack_port_name(p->outPorts[i]),
                         dev_final) != 0) {
          //rtJack_Error(csound, -1, Str("error connecting output ports"));
          csound->Warning(csound, Str("not autoconnecting input channel %d \n"
                                      "(needs manual connection)"), i+1);

        }
      }
      *sp = (char) 0;
    }
    /* stream is now active */
    p->jackState = 0;
}
Exemplo n.º 18
0
//----------------------------------------------------------------
void ofSerial::enumerateDevices(){	
	listDevices();
}
Exemplo n.º 19
0
//--------------------------------------------------------------------
bool ofQuickTimeGrabber::initGrabber(int w, int h){

	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_QUICKTIME
	//---------------------------------

		//---------------------------------- 1 - open the sequence grabber
		if( !qtInitSeqGrabber() ){
			ofLogError("ofQuickTimeGrabber") << "initGrabber(): unable to initialize the seq grabber";
			return false;
		}

		//---------------------------------- 2 - set the dimensions
		//width 		= w;
		//height 		= h;

		MacSetRect(&videoRect, 0, 0, w, h);

		//---------------------------------- 3 - buffer allocation
		// Create a buffer big enough to hold the video data,
		// make sure the pointer is 32-byte aligned.
		// also the rgb image that people will grab

		offscreenGWorldPixels 	= (unsigned char*)malloc(4 * w * h + 32);
		pixels.allocate(w, h, OF_IMAGE_COLOR);
		
		#if defined(TARGET_OSX) && defined(__BIG_ENDIAN__)
			QTNewGWorldFromPtr (&(videogworld), k32ARGBPixelFormat, &(videoRect), NULL, NULL, 0, (offscreenGWorldPixels), 4 * w);		
		#else
			QTNewGWorldFromPtr (&(videogworld), k24RGBPixelFormat, &(videoRect), NULL, NULL, 0, (pixels.getPixels()), 3 * w);
		#endif		
		
		LockPixels(GetGWorldPixMap(videogworld));
		SetGWorld (videogworld, NULL);
		SGSetGWorld(gSeqGrabber, videogworld, nil);

		
		//---------------------------------- 4 - device selection
		bool didWeChooseADevice = bChooseDevice;
		bool deviceIsSelected	=  false;

		//if we have a device selected then try first to setup
		//that device
		if(didWeChooseADevice){
			deviceIsSelected = qtSelectDevice(deviceID, true);
			if(!deviceIsSelected && bVerbose)
				ofLogError("ofQuickTimeGrabber") << "initGrabber(): unable to open device[" << deviceID << "], will attempt other devices";
		}

		//if we couldn't select our required device
		//or we aren't specifiying a device to setup
		//then lets try to setup ANY device!
		if(deviceIsSelected == false){
			//lets list available devices
			listDevices();

			setDeviceID(0);
			deviceIsSelected = qtSelectDevice(deviceID, false);
		}

		//if we still haven't been able to setup a device
		//we should error and stop!
		if( deviceIsSelected == false){
			goto bail;
		}

		//---------------------------------- 5 - final initialization steps
		OSStatus err;

	 	err = SGSetChannelUsage(gVideoChannel,seqGrabPreview);
		if ( err != noErr ) goto bail;

	
		//----------------- callback method for notifying new frame
		err = SGSetChannelRefCon(gVideoChannel, (long)&bHavePixelsChanged );
		if(!err) {

			VideoBottles vb; 
			/* get the current bottlenecks */ 
			vb.procCount = 9; 
			err = SGGetVideoBottlenecks(gVideoChannel, &vb); 
			if (!err) { 			
				myGrabCompleteProc = NewSGGrabCompleteBottleUPP(frameIsGrabbedProc);
				vb.grabCompleteProc = myGrabCompleteProc;
			
				/* add our GrabFrameComplete function */ 
				err = SGSetVideoBottlenecks(gVideoChannel, &vb); 	
			}
		
		}
				
		err = SGSetChannelBounds(gVideoChannel, &videoRect);
		if ( err != noErr ) goto bail;

		err = SGPrepare(gSeqGrabber,  true, false); //theo swapped so preview is true and capture is false
		if ( err != noErr ) goto bail;

		err = SGStartPreview(gSeqGrabber);
		if ( err != noErr ) goto bail;

		bGrabberInited = true;
		loadSettings();
		
		if( attemptFramerate >= 0 ){
			err = SGSetFrameRate(gVideoChannel, IntToFixed(attemptFramerate) );
			if ( err != noErr ){
				ofLogError("ofQuickTimeGrabber") << "initGrabber: couldn't setting framerate to " << attemptFramerate << ": OSStatus " << err;
			}		
		}
		
		ofLogNotice("ofQuickTimeGrabber") << "           inited grabbed            ";
		ofLogNotice("ofQuickTimeGrabber") << "-------------------------------------";

		// we are done
		return true;


		//--------------------- (bail) something's wrong -----
		bail:

			ofLogError("ofQuickTimeGrabber") << "***** ofQuickTimeGrabber error *****";
			ofLogError("ofQuickTimeGrabber") << "------------------------------------";

			//if we don't close this - it messes up the next device!
			if(bSgInited) qtCloseSeqGrabber();

			bGrabberInited = false;
			return false;
			
	//---------------------------------
	#else
	//---------------------------------
		return false;
	//---------------------------------
	#endif
	//---------------------------------

}
Exemplo n.º 20
0
//--------------------------------------------------------------------
bool ofVideoGrabber::initGrabber(int w, int h, bool setUseTexture){

	bUseTexture = setUseTexture;

	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_QUICKTIME
	//---------------------------------

		//---------------------------------- 1 - open the sequence grabber
		if( !qtInitSeqGrabber() ){
			ofLog(OF_LOG_ERROR, "error: unable to initialize the seq grabber");
			return false;
		}

		//---------------------------------- 2 - set the dimensions
		width 		= w;
		height 		= h;

		MacSetRect(&videoRect, 0, 0, width, height);

		//---------------------------------- 3 - buffer allocation
		// Create a buffer big enough to hold the video data,
		// make sure the pointer is 32-byte aligned.
		// also the rgb image that people will grab

		offscreenGWorldPixels 	= (unsigned char*)malloc(4 * width * height + 32);
		pixels					= new unsigned char[width*height*3];
		QTNewGWorldFromPtr (&videogworld, k32ARGBPixelFormat, &videoRect, NULL, NULL, 0, offscreenGWorldPixels, 4 * width);
		LockPixels(GetGWorldPixMap(videogworld));
		SetGWorld (videogworld, NULL);
		SGSetGWorld(gSeqGrabber, videogworld, nil);


		//---------------------------------- 4 - device selection
		bool didWeChooseADevice = bChooseDevice;
		bool deviceIsSelected	=  false;

		//if we have a device selected then try first to setup
		//that device
		if(didWeChooseADevice){
			deviceIsSelected = qtSelectDevice(deviceID, true);
			if(!deviceIsSelected && bVerbose) ofLog(OF_LOG_WARNING, "unable to open device[%i] - will attempt other devices", deviceID);
		}

		//if we couldn't select our required device
		//or we aren't specifiying a device to setup
		//then lets try to setup ANY device!
		if(deviceIsSelected == false){
			//lets list available devices
			listDevices();

			setDeviceID(0);
			deviceIsSelected = qtSelectDevice(deviceID, false);
		}

		//if we still haven't been able to setup a device
		//we should error and stop!
		if( deviceIsSelected == false){
			goto bail;
		}

		//---------------------------------- 5 - final initialization steps
		OSStatus err;

	 	err = SGSetChannelUsage(gVideoChannel,seqGrabPreview);
		if ( err != noErr ) goto bail;

		err = SGSetChannelBounds(gVideoChannel, &videoRect);
		if ( err != noErr ) goto bail;

		err = SGPrepare(gSeqGrabber,  true, false); //theo swapped so preview is true and capture is false
		if ( err != noErr ) goto bail;

		err = SGStartPreview(gSeqGrabber);
		if ( err != noErr ) goto bail;

		bGrabberInited = true;
		loadSettings();

		ofLog(OF_LOG_NOTICE,"end setup ofVideoGrabber");
		ofLog(OF_LOG_NOTICE,"-------------------------------------\n");


		//---------------------------------- 6 - setup texture if needed

		if (bUseTexture){
			// create the texture, set the pixels to black and
			// upload them to the texture (so at least we see nothing black the callback)
			tex.allocate(width,height,GL_RGB);
			memset(pixels, 0, width*height*3);
			tex.loadData(pixels, width, height, GL_RGB);
		}

		// we are done
		return true;


		//--------------------- (bail) something's wrong -----
		bail:

			ofLog(OF_LOG_ERROR, "***** ofVideoGrabber error *****");
			ofLog(OF_LOG_ERROR, "-------------------------------------\n");

			//if we don't close this - it messes up the next device!
			if(bSgInited) qtCloseSeqGrabber();

			bGrabberInited = false;
			return false;

	//---------------------------------
	#endif
	//---------------------------------


	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_DIRECTSHOW
	//---------------------------------

		if (bChooseDevice){
			device = deviceID;
			ofLog(OF_LOG_NOTICE, "choosing %i", deviceID);
		} else {
			device = 0;
		}

		width = w;
		height = h;
		bGrabberInited = false;

		bool bOk = VI.setupDevice(device, width, height);

		int ourRequestedWidth = width;
		int ourRequestedHeight = height;

		if (bOk == true){
			bGrabberInited = true;
			width 	= VI.getWidth(device);
			height 	= VI.getHeight(device);

			if (width == ourRequestedWidth && height == ourRequestedHeight){
				bDoWeNeedToResize = false;
			} else {
				bDoWeNeedToResize = true;
				width = ourRequestedWidth;
				height = ourRequestedHeight;
			}


			pixels	= new unsigned char[width * height * 3];

			if (bUseTexture){
				// create the texture, set the pixels to black and
				// upload them to the texture (so at least we see nothing black the callback)
				tex.allocate(width,height,GL_RGB);
				memset(pixels, 0, width*height*3);
				tex.loadData(pixels, width, height, GL_RGB);
			}

			return true;
		} else {
			ofLog(OF_LOG_ERROR, "error allocating a video device");
			ofLog(OF_LOG_ERROR, "please check your camera with AMCAP or other software");
			bGrabberInited = false;
			return false;
		}

	//---------------------------------
	#endif
	//---------------------------------



	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_UNICAP
	//--------------------------------
		if( !bGrabberInited ){
			if ( !bChooseDevice ){
				deviceID = 0;
			}

			width 	= w;
			height 	= h;
			pixels	= new unsigned char[width * height * 3];

			if (bUseTexture){
				// create the texture, set the pixels to black and
				// upload them to the texture (so at least we see nothing black the callback)
				tex.allocate(width,height,GL_RGB);
				memset(pixels, 0, width*height*3);
				tex.loadData(pixels, width, height, GL_RGB);
			}

			bGrabberInited = ucGrabber.open_device (deviceID);
			if( bGrabberInited ){
			ofLog(OF_LOG_NOTICE, "choosing device %i: %s", deviceID,ucGrabber.device_identifier());
				ucGrabber.set_format(w,h);
				ucGrabber.start_capture();
			}

		}
			return bGrabberInited;
	//---------------------------------
	#endif
	//---------------------------------

	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_GSTREAMER
	//--------------------------------
		if(gstUtils.initGrabber(w,h)){
			if ( !bChooseDevice ){
				deviceID = 0;
			}

			width 	= w;
			height 	= h;
			if (bUseTexture){
				// create the texture, set the pixels to black and
				// upload them to the texture (so at least we see nothing black the callback)
				tex.allocate(width,height,GL_RGB);
				tex.loadData(gstUtils.getPixels(), width, height, GL_RGB);
			}
			bGrabberInited = true;
			ofLog(OF_LOG_VERBOSE, "ofVideoGrabber: initied");
		}else{
			bGrabberInited = false;
			ofLog(OF_LOG_ERROR, "ofVideoGrabber: couldn't init");
		}
		return bGrabberInited;


	//---------------------------------
	#endif
	//---------------------------------

	//---------------------------------
	#ifdef OF_VIDEO_CAPTURE_V4L
	//--------------------------------
		if (bChooseDevice){
			device = deviceID;
		} else {
			device = 0;
		}
		sprintf(dev_name, "/dev/video%i", device);
		ofLog(OF_LOG_NOTICE, "choosing device %s",dev_name);

		bool bOk = initV4L(w, h, dev_name);

		if (bOk == true){
			bV4LGrabberInited = true;
			width 	= getV4L_Width();
			height 	= getV4L_Height();
			pixels	= new unsigned char[width * height * 3];

			if (bUseTexture){
				// create the texture, set the pixels to black and
				// upload them to the texture (so at least we see nothing black the callback)
				tex.allocate(width,height,GL_RGB);
				//memset(pixels, 0, width*height*3);
				//tex.loadData(pixels, width, height, GL_RGB);
			}

			ofLog(OF_LOG_NOTICE, "success allocating a video device ");
			return true;
		} else {
			ofLog(OF_LOG_ERROR, "error allocating a video device");
			ofLog(OF_LOG_ERROR, "please check your camera and verify that your driver is correctly installed.");
			return false;
		}	//---------------------------------


	//---------------------------------
	#endif
	//---------------------------------



}
Exemplo n.º 21
0
/**
 * Parses a line of data given to a control channel.
 * @param pClient the client of the channel
 * @param argIx array with start index of each argument
 * @param argCount number of arguments
 * @return 0 on success, a negative value otherwise
 */
static int ctrlParse(ClientElem_t *pClient, int *argIx, int argCount, int cmdlen) {
	int res = -1;
	char *pCmd = pClient->cmdbuf;

	switch (pCmd[0]) {
		 /* Identify this control channel */
		case 'I': {
			SEND("%i", getIndexByElement(pClient))
			res = 0;
			break;
		}
		/* Attach this channel to given control channel and make it a data channel */
		case 'A': {
			int ix = atoi(&pCmd[argIx[1]]);
			ClientElem_t *pOtherClient = getElementByIndex(ix);
			if (pOtherClient == NULL) {
				SEND("ERROR no such channel")
			} else if (pClient == pOtherClient) {
				SEND("ERROR cannot attach to self")
			} else if (pOtherClient->portNumerator == -1) {
				SEND("ERROR channel not connected to device")
			} else {
				pClient->serialHdl = pOtherClient->serialHdl;
				pClient->portNumerator = pOtherClient->portNumerator;
				pClient->type = TYPE_DATA;
				res = 0;
			}
			break;
		}
		/* List devices */
		case 'L': {
			res = listDevices(pClient);
			break;
		}
		/* Open device */
		case 'O': {
			if (openDevice(pClient, argIx, argCount, cmdlen) >= 0) {
				res = 0;
			}
			break;
		}
		/* Configure UART */
		case 'U': {
			res = setUART(pClient, argIx, argCount);
			break;
		}
		/* Kill client, close device */
		case 'C': {
			DBG_PRINT("Killing client");
			pClient->running = 0;
			res = 0;
			break;
		}
		/* Kill server */
		case 'X': {
			DBG_PRINT("Killing server");
			g_serverRunning = 0;
			res = 0;
			break;
		}
		default: {
			SEND("ERROR unkown command: %s", pCmd)
		}
	}
	if (res == 0) {
		SEND("OK")
	}
	return res;
}
Exemplo n.º 22
0
  QSharedPointer<CaptureDevice> TimeLapseCapture::parseArguments() {
    QCommandLineParser parser;
    ErrorMessageHelper die(err.device(), &parser);

    parser.setApplicationDescription("Tool for capture sequence of images from digital camera (V4L or GPhoto2 API).");
    parser.addHelpOption();
    parser.addVersionOption();

    QCommandLineOption outputOption(QStringList() << "o" << "output",
      QCoreApplication::translate("main", "Output directory."),
      QCoreApplication::translate("main", "directory"));
    parser.addOption(outputOption);

    QCommandLineOption verboseOption(QStringList() << "V" << "verbose",
      QCoreApplication::translate("main", "Verbose output."));
    parser.addOption(verboseOption);

    QCommandLineOption deviceOption(QStringList() << "d" << "device",
      QCoreApplication::translate("main", "Capture device."),
      QCoreApplication::translate("main", "device"));
    parser.addOption(deviceOption);

    QCommandLineOption listOption(QStringList() << "l" << "list",
      QCoreApplication::translate("main", "List available capture devices and exits."));
    parser.addOption(listOption);

    QCommandLineOption intervalOption(QStringList() << "i" << "interval",
      QCoreApplication::translate("main", "Capture interval (in milliseconds). Default is 10000."),
      QCoreApplication::translate("main", "interval"));
    parser.addOption(intervalOption);

    QCommandLineOption cntOption(QStringList() << "c" << "count",
      QCoreApplication::translate("main", "How many images should be captured. Default value is infinite."),
      QCoreApplication::translate("main", "count"));
    parser.addOption(cntOption);

    QCommandLineOption rowOption(QStringList() << "r" << "raw",
      QCoreApplication::translate("main", "Store all captured images in raw."));
    parser.addOption(rowOption);

    QCommandLineOption getShutterSpeedOption(QStringList() << "s" << "shutterspeed-options",
      QCoreApplication::translate("main", "Prints available shutterspeed setting choices and exits."));
    parser.addOption(getShutterSpeedOption);

    QCommandLineOption adaptiveShutterSpeedOption(QStringList() << "a" << "adaptive-shutterspeed",
      QCoreApplication::translate("main",
      "Camera shutterspeed will be adaptively changed after exposure metering.\n"
      "This option setup how many images should be used for exposure metering. \n"
      "Default value is 0 - it means that shutterspeed will not be changed by capture tool."
      ),
      QCoreApplication::translate("main", "count"));
    parser.addOption(adaptiveShutterSpeedOption);

    QCommandLineOption shutterSpeedStepOption(QStringList() << "shutterspeed-step",
      QCoreApplication::translate("main",
      "How large should be step when changing shutterspeed. \n"
      "Default value is 1."
      ),
      QCoreApplication::translate("main", "step"));
    parser.addOption(shutterSpeedStepOption);

    QCommandLineOption minShutterSpeedOption(QStringList() << "min-shutterspeed",
      QCoreApplication::translate("main", "Minimum shutterspeed (fastest shutter) used by adaptive shutterspeed"),
      QCoreApplication::translate("main", "shutterspeed"));
    parser.addOption(minShutterSpeedOption);

    QCommandLineOption maxShutterSpeedOption(QStringList() << "max-shutterspeed",
      QCoreApplication::translate("main",
      "Maximum shutterspeed (slowest shutter) used by adaptive shutterspeed.\n"
      "If camera supports BULB shutterspeed, it can be defined as \"BULB:XX\" here (it means bulb with XX s exposure)."
      ),
      QCoreApplication::translate("main", "shutterspeed"));
    parser.addOption(maxShutterSpeedOption);

    // Process the actual command line arguments given by the user
    parser.process(*this);

    // verbose?
    if (!parser.isSet(verboseOption)) {
      blackHole = new BlackHoleDevice();
      verboseOutput.setDevice(blackHole);
    } else {
      // verbose
      verboseOutput << "Turning on verbose output..." << endl;
      verboseOutput << applicationName() << " " << applicationVersion() << endl;
    }

    // raw?
    storeRawImages = parser.isSet(rowOption);

    // interval
    if (parser.isSet(intervalOption)) {
      bool ok = false;
      long i = parser.value(intervalOption).toLong(&ok);
      if (!ok) die << "Cant parse interval.";
      if (i <= 0) die << "Interval have to be possitive";
      interval = i;
    }

    // count
    if (parser.isSet(cntOption)) {
      bool ok = false;
      int i = parser.value(cntOption).toInt(&ok);
      if (!ok) die << "Cant parse count.";
      cnt = i;
    }

    // list devices?
    QList<QSharedPointer < CaptureDevice>> devices = listDevices();
    QSharedPointer<CaptureDevice> dev;
    if (parser.isSet(listOption)) {
      if (devices.isEmpty()) {
        die << QCoreApplication::translate("main", "No compatible capture device found");
      } else {
        out << "Found devices: " << endl;
        for (QSharedPointer<CaptureDevice> d : devices) {
          out << "  " << d->toString() << endl;
        }
      }
      std::exit(0);
    }
    // capture device
    bool assigned = false;
    if (!parser.isSet(deviceOption)) {
      verboseOutput << "Found devices: " << endl;
      for (QSharedPointer<CaptureDevice> d : devices) {
        if (!assigned) {
          dev = d;
          assigned = true;
        }
        verboseOutput << "  " << d->toString() << endl;
      }
      if (!assigned)
        die << "No supported device.";
    } else {
      QString devVal = parser.value(deviceOption);
      for (QSharedPointer<CaptureDevice> d : devices) {
        if (d->toString().contains(devVal, Qt::CaseInsensitive)) {
          assigned = true;
          dev = d;
          break;
        }
      }
      if (!assigned) {
        die << QString("No device matching \"%1\" found.").arg(devVal);
      }
    }
    out << "Using device " << dev->toString() << endl;

    // getShutterSpeedOption ?
    QList<ShutterSpeedChoice> choices = dev->getShutterSpeedChoices();
    if (parser.isSet(getShutterSpeedOption)) {
      if (choices.isEmpty()) {
        err << "Device " << dev->toShortString() << " don't support shutterspeed setting" << endl;
      } else {
        out << "Device " << dev->toShortString() << " shutterspeed choices:" << endl;
        for (ShutterSpeedChoice ch : choices) {
          out << "  " << ch.toString() << endl;
        }
        out << "Current shutter speed: " << dev->currentShutterSpeed().toString() << endl;
      }
      std::exit(0);
    }

    // automatic chutter speed
    // this functionality is experimental!
    if (parser.isSet(adaptiveShutterSpeedOption)) {
      bool ok = false;
      int changeThreshold = parser.value(adaptiveShutterSpeedOption).toInt(&ok);
      if (!ok) die << "Cant parse adaptive shutterspeed option.";

      if (changeThreshold > 0) {

        if (choices.isEmpty()) {
          die << "Camera don't support shutterspeed setting.";
        } else {

          ShutterSpeedChoice currentShutterSpeed;
          ShutterSpeedChoice minShutterSpeed;
          ShutterSpeedChoice maxShutterSpeed;

          currentShutterSpeed = dev->currentShutterSpeed();
          minShutterSpeed = choices.first();
          for (ShutterSpeedChoice ch : choices) {
            if ((!ch.isBulb()) && ch.toMicrosecond() > maxShutterSpeed.toMicrosecond())
              maxShutterSpeed = ch;
          }

          int shutterSpeedStep = 1;
          if (parser.isSet(shutterSpeedStepOption)) {
            bool ok = false;
            shutterSpeedStep = parser.value(shutterSpeedStepOption).toInt(&ok);
            if (!ok) die << "Cant parse shutterspeed step.";
            if (shutterSpeedStep < 1) die << "Shutterspeed step can be less than one.";
          }
          if (parser.isSet(minShutterSpeedOption)) {
            QString optStr = parser.value(minShutterSpeedOption);
            minShutterSpeed = getShutterSpeed(optStr, choices, &die);
          }
          if (parser.isSet(maxShutterSpeedOption)) {
            QString optStr = parser.value(maxShutterSpeedOption);
            maxShutterSpeed = getShutterSpeed(optStr, choices, &die);
          }

          out << "Using automatic shutter speed:" << endl;
          out << "  current shutter speed: " << currentShutterSpeed.toString() << endl;
          out << "  min shutter speed:     " << minShutterSpeed.toString() << endl;
          out << "  max shutter speed:     " << maxShutterSpeed.toString() << endl;
          out << "  change threshold:      " << changeThreshold << endl;
          out << "  change step:           " << shutterSpeedStep << endl;

          if (minShutterSpeed.toMicrosecond() <= 0
            || maxShutterSpeed.toMicrosecond() <= 0
            || maxShutterSpeed.toMicrosecond() < minShutterSpeed.toMicrosecond())
            die << "Invalid shutter speed configurarion";

          if (maxShutterSpeed.toMs() > interval) {
            err << QString("Warning: Maximum shutter speed (%1 ms) is greater than capture interval (%2 ms)!")
              .arg(maxShutterSpeed.toMs())
              .arg(interval) << endl;
          }
          shutterSpdAlg = new MatrixMeteringAlg(choices, currentShutterSpeed, minShutterSpeed, maxShutterSpeed,
            &err, &verboseOutput, changeThreshold, shutterSpeedStep);
        }
      }
    }

    // output
    if (!parser.isSet(outputOption))
      die << "Output directory is not set";
    output = QDir(parser.value(outputOption));
    if (output.exists())
      err << "Output directory exists already." << endl;
    if (!output.mkpath("."))
      die << QString("Can't create output directory %1 !").arg(output.path());

    return dev;
  }
Exemplo n.º 23
0
int __cdecl main(int argc, char** argv)
{
    static int opt_silent = 1, log_level = WDI_LOG_LEVEL_WARNING;
    struct wdi_device_info *list;
    int c,r;
    BOOL list_usbs=FALSE, bootloaderWinusbInstall=FALSE;
    BOOL pause=FALSE;
    char *inf_name = INF_NAME;
    char *ext_dir = DEFAULT_DIR;
    char *cert_name = NULL;

    static struct option long_options[] = {
        {"verbose", no_argument, 0, 'v'},
        {"list", no_argument, 0, 'l'},
        {"help", no_argument, 0, 'h'},
        {"pause", no_argument, 0, 'p'},
        {"bootloader", no_argument, 0, 'b'},
        {0, 0, 0, 0}
    };

    while(1)
    {
        c = getopt_long(argc, argv, "blhvp", long_options, NULL);
        oprintf("got argument: %d \n", c);
        if (c == -1)
            break;
        switch(c) {
        case 'v':
            opt_silent = 0;
            break;
        case 'h':
            usage();
            break;
        case 'l':
            list_usbs=TRUE;
            break;
        case 'p':
            pause=TRUE;
            break;
        case 'b':
            bootloaderWinusbInstall = TRUE;
            break;
        default:
            usage();
            exit(0);
        }
    }

    wdi_set_log_level(log_level);

    if (is_x64()) {
        oprintf("I see you are on a 64 bit system, nice\n");
    }
    else {
        oprintf("What a lovely 32 bit system you have\n");
    }

    if (list_usbs) {
        listDevices(opt_silent);
    }

    if (bootloaderWinusbInstall) {
        r=set_bootloader_to_winusb(opt_silent);
        <<<<<<< HEAD
        listDevices(opt_silent); // Print these before and after :)
        printf("RETURN:%d,%s", r, wdi_strerror(r)); //just print the return code for now
        =======