Beispiel #1
0
/** Adds a parameter to a light curve specification if the appropriate 
 * command line argument was used
 *
 * @param[in] range the @ref models::RangeList "RangeList" to update
 * @param[in] paramName the name of the parameter
 * @param[in] paramValue the command-line argument to translate into a range
 * @param[in] distrib the distribution values follow within the range
 *
 * @post If @p paramValue was specified on the command line, the corresponding 
 *	parameter range is added to @p range. Otherwise, @p range is unchanged.
 *
 * @exception lcmc::utils::except::UnexpectedNan Thrown if either element of 
 *	@p paramValue is NaN
 * @exception lcmc::stats::except::ExtraParam Thrown if a value for the parameter is 
 *	already in the list
 * @exception lcmc::stats::except::NegativeRange Thrown if 
 *	@p paramValue.second > @p paramValue.first
 * @exception std::invalid_argument Thrown if @p distrib is not a valid value.
 *
 * @exception std::bad_alloc Thrown if there is not enough memory to 
 *	add an element to the list.
 * 
 * @exceptsafe The arguments are unchanged in the event of an exception.
 */
void addParam(RangeList& range, const ParamType& paramName, 
		ValueArg< std::pair<double, double> >& paramValue, 
		RangeList::RangeType distrib) {
	if (paramValue.isSet()) {
		range.add(paramName, paramValue.getValue(), distrib);
	}
}
Beispiel #2
0
bool consoleInput (const std::vector<std::string>& _args,
                   evg::SrcVideo& _inputVideo, std::string& _outputVideoPath,
                   DetectorType& _detectorType, const DetectorType defaultDetectorType,
                   TrackerType& _trackerType, const TrackerType defaultTrackerType,
                   double& _redetectionTime,
                   bool& _restart)
{
    try {
        ValuesConstraint<string> allowedDetectorVals( makeAllowedDetectorVals() );
        ValuesConstraint<string> allowedTrackerVals( makeAllowedTrackerVals() );

        // make parsing construction
        //   4th arg 'false' disables help. Help results in exit in TCLAP
        CmdLine cmd("Set/reset all parameters", ' ', "0", false);
        ValueArg<string> cmdDetector ("d", "detector", "number or name of detector.",
                                           false, "default", &allowedDetectorVals, cmd);
        ValueArg<string> cmdTracker  ("t", "tracker", "number or name of tracker",
                                           false, "default", &allowedTrackerVals, cmd);
        ValueArg<double> cmdPeriod   ("p", "period", "redetection period, in range [0; 4]",
                                           false, 2., "double", cmd);
        ValueArg<string> cmdInput    ("i", "input", "input video file path",
                                           false, "", "string", cmd);
        SwitchArg cmdCamera          ("c", "camera", "indicate when using camera", cmd, false);
        ValueArg<string> cmdOutput   ("o", "output", "output video path",
                                           false, "", "string", cmd);
        SwitchArg cmdRestart         ("r", "restart", "restart the video", cmd, false);

        // parse
        //   for some reason TCLAP does not have the const qualifier
        std::vector<std::string> args = _args;
        cmd.parse(args);


        // parse restart
        if (cmdRestart.isSet())
            _restart = true;
        else _restart = false;

        // parse inputVideo
        // if input method is set, we restart
        if (cmdCamera.isSet() || cmdInput.isSet())
            _restart = true;
        // set the new input methd
        if (cmdCamera.isSet())
            _inputVideo = evg::SrcVideo(evg::SrcVideo::CAMERA, "");
        else if (cmdInput.isSet())
            _inputVideo = evg::SrcVideo(evg::SrcVideo::FILE, cmdInput.getValue());
        // no way to set mutually exclusive but non-required arguments => check manually
        if (cmdCamera.isSet() && cmdInput.isSet())
        {
            cerr << "Input from both camera and file cannot be specified." << endl;
            return 0;
        }

        // parse outputVideoPath
        if (cmdOutput.isSet())
            _outputVideoPath = cmdOutput.getValue();

        // parse detectorType
        if (cmdDetector.isSet())
        {
            if (cmdDetector.getValue() == "default")
                _detectorType = defaultDetectorType;
            else if (cmdDetector.getValue() == "1" || cmdDetector.getValue() == "opencv")
                _detectorType = OPENCV_DETECTOR;
            else if (cmdDetector.getValue() == "2" || cmdDetector.getValue() == "kyle")
                _detectorType = KYLE_DETECTOR;
            else assert(0);
        }

        // parse trackerType
        if (cmdTracker.isSet())
        {
            if (cmdTracker.getValue() == "default")
                _trackerType = defaultTrackerType;
            else if (cmdTracker.getValue() == "1" || cmdTracker.getValue() == "optical_flow")
                _trackerType = OPTICAL_FLOW_TRACKER;
            else if (cmdTracker.getValue() == "2" || cmdTracker.getValue() == "camshift")
                _trackerType = CAMSHIFT_TRACKER;
            else if (cmdTracker.getValue() == "3" || cmdTracker.getValue() == "compressive")
                _trackerType = COMPRESSIVE_TRACKER;
            else if (cmdTracker.getValue() == "4" || cmdTracker.getValue() == "kyle")
                _trackerType = KYLE_TRACKER;
            else assert(0);
        }

        // parse redetection time
        if (cmdPeriod.isSet())
            _redetectionTime = cmdPeriod.getValue();

        return 1;
    } catch (...) {
        std::cerr << "consoleInput(): exception caught" << std::endl;
        return 0;
    }
}
Beispiel #3
0
bool consoleFirstInput (int argc, char *argv[],
                        evg::SrcVideo& _inputVideo, std::string& _outputVideoPath,
                        DetectorType& _detectorType, const DetectorType defaultDetectorType,
                        TrackerType& _trackerType, const TrackerType defaultTrackerType,
                        double& _redetectionTime)
{
    try {
        ValuesConstraint<string> allowedDetectorVals( makeAllowedDetectorVals() );
        ValuesConstraint<string> allowedTrackerVals( makeAllowedTrackerVals() );

        // make parsing construction
        CmdLine cmd("Set/reset all parameters", ' ', "0");
        ValueArg<string> cmdDetector ("d", "detector", "number or name of detector.",
                                           false, "default", &allowedDetectorVals, cmd);
        ValueArg<string> cmdTracker  ("t", "tracker", "number or name of tracker",
                                           false, "default", &allowedTrackerVals, cmd);
        ValueArg<double> cmdPeriod   ("p", "period", "redetection period, in range [0; 4]",
                                           false, 2., "double", cmd);
        ValueArg<string> cmdInput    ("i", "input", "input video file path",
                                           false, "", "string");
        SwitchArg cmdCamera ("c", "camera", "indicate when using camera", false);
        cmd.xorAdd( cmdInput, cmdCamera );
        ValueArg<string> cmdOutput  ("o", "output", "output video path",
                                           false, "", "string", cmd);

        // parse
        cmd.parse(argc, argv);


        // parse inputVideo
        if (cmdCamera.isSet())
            _inputVideo = evg::SrcVideo(evg::SrcVideo::CAMERA, "");
        else if (cmdInput.isSet())
            _inputVideo = evg::SrcVideo(evg::SrcVideo::FILE, cmdInput.getValue());
        else
            assert(0);

        // parse outputVideoPath
        _outputVideoPath = cmdOutput.getValue();

        // parse detectorType
        if (cmdDetector.isSet())
        {
            if (cmdDetector.getValue() == "default")
                _detectorType = defaultDetectorType;
            else if (cmdDetector.getValue() == "1" || cmdDetector.getValue() == "opencv")
                _detectorType = OPENCV_DETECTOR;
            else if (cmdDetector.getValue() == "2" || cmdDetector.getValue() == "kyle")
                _detectorType = KYLE_DETECTOR;
            else assert(0);
        }
        else
            _detectorType = defaultDetectorType;

        // parse trackerType
        if (cmdTracker.isSet())
        {
            if (cmdTracker.getValue() == "default")
                _trackerType = defaultTrackerType;
            else if (cmdTracker.getValue() == "1" || cmdTracker.getValue() == "optical_flow")
                _trackerType = OPTICAL_FLOW_TRACKER;
            else if (cmdTracker.getValue() == "2" || cmdTracker.getValue() == "camshift")
                _trackerType = CAMSHIFT_TRACKER;
            else if (cmdTracker.getValue() == "3" || cmdTracker.getValue() == "compressive")
                _trackerType = COMPRESSIVE_TRACKER;
            else if (cmdTracker.getValue() == "4" || cmdTracker.getValue() == "kyle")
                _trackerType = KYLE_TRACKER;
            else assert(0);
        }
        else
            _trackerType = defaultTrackerType;


        // parse redetection time
        if (cmdPeriod.isSet())
            _redetectionTime = cmdPeriod.getValue();
        else
            _redetectionTime = 2.;


        return 1;
    } catch (...) {
        std::cerr << "consoleFirstInput(): exception caught" << std::endl;
        return 0;
    }
}
void parseOptions ( int argc, char** argv )
{
    try
    {

        CmdLine cmd ( "keypoints", ' ', kVersion );

        MyOutput my;
        cmd.setOutput ( &my );

        SwitchArg aArgFullScale ( "","fullscale", "Uses full scale image to detect keypoints    (default:false)\n", false );
        // SURF has a better performance than the other descriptors, use it by default, if it is enabled
        ValueArg<int> aArgSurfScoreThreshold ( "","surfscore", "Detection score threshold    (default : 1000)\n", false, 1000, "int" );
        ValueArg<int> aArgSieve1Width ( "","sievewidth", "Interest point sieve: Number of buckets on width    (default : 10)", false, 10, "int" );
        ValueArg<int> aArgSieve1Height ( "","sieveheight",  "Interest point sieve : Number of buckets on height    (default : 10)", false, 10, "int" );
        ValueArg<int> aArgSieve1Size ( "","sievesize",	"Interest point sieve : Max points per bucket    (default : 10)\n", false, 10, "int" );
        ValueArg<std::string> aArgOutputFormat ( "","format", "Output format (text, autopano-xml, descperf), default text\n", false, "text", "string" );
        ValueArg<std::string> aArgOutputFile ( "o","output", "Output file. If not specified, print to standard out\n", false, "", "string" );
        SwitchArg aArgInterestPoints ( "","interestpoints", "output only the interest points and the scale (default:false)\n", false );
        ValueArg<std::string> aArgFixedInterestPoint ( "","ip", "Compute descriptor at x,y,scale,ori \n", false, "", "string" );

        cmd.add ( aArgSurfScoreThreshold );
        cmd.add ( aArgFullScale );
        cmd.add ( aArgSieve1Width );
        cmd.add ( aArgSieve1Height );
        cmd.add ( aArgSieve1Size );
        cmd.add ( aArgOutputFormat );
        cmd.add ( aArgOutputFile );
        cmd.add ( aArgInterestPoints );
        cmd.add ( aArgFixedInterestPoint );

        /*
        	SwitchArg aArgTest("t","test", "Enables test mode\n", false);
        	cmd.add( aArgTest );
        */

        UnlabeledMultiArg<string> aArgFiles ( "fileName", "Image files", true, "string" );
        cmd.add ( aArgFiles );

        cmd.parse ( argc,argv );

        //
        // Set variables
        //
        vector<string> aFiles = aArgFiles.getValue();
        if ( aFiles.size() != 1 )
        {
            exit ( 1 );
        }

        double surfScoreThreshold=1000;
        if ( aArgSurfScoreThreshold.isSet() )
        {
            surfScoreThreshold = ( aArgSurfScoreThreshold.getValue() );
        }

        bool downscale = true;
        if ( aArgFullScale.isSet() )
        {
            downscale = false;
        }

        int sieveWidth = 10;
        if ( aArgSieve1Width.isSet() )
        {
            sieveWidth = aArgSieve1Width.getValue();
        }
        int sieveHeight = 10;
        if ( aArgSieve1Height.isSet() )
        {
            sieveHeight = aArgSieve1Height.getValue();
        }
        int sieveSize = 10;
        if ( aArgSieve1Size.isSet() )
        {
            sieveSize = aArgSieve1Size.getValue();
        }

        bool onlyInterestPoints = false;
        if ( aArgInterestPoints.isSet() )
        {
            onlyInterestPoints = true;
        }

        std::ostream* outstream;
        if ( aArgOutputFile.isSet() )
        {
            outstream = new std::ofstream(aArgOutputFile.getValue().c_str());
        }
        else
        {
            outstream = & std::cout;
        }

        KeypointWriter* writer = 0;
        std::string outputformat = "text";
        if ( aArgOutputFormat.isSet() )
        {
            outputformat = aArgOutputFormat.getValue();
        }
        if (outputformat == "text")
        {
            writer = new SIFTFormatWriter(*outstream);
        }
        else if (outputformat == "autopano-sift-xml")
        {
            writer = new AutopanoSIFTWriter(*outstream);
        }
        else if (outputformat == "descperf")
        {
            writer = new DescPerfFormatWriter(*outstream);
        }
        else
        {
            std::cerr << "Unknown output format, valid values are text, autopano-sift-xml, descperf" << std::endl;
            exit(1);
        }


        KeyPointPtr preKPPtr;
        if ( aArgFixedInterestPoint.isSet() )
        {
            preKPPtr = KeyPointPtr(new KeyPoint());
            preKPPtr->_x = -10001;
            preKPPtr->_ori = -10001;
            int nf = sscanf(aArgFixedInterestPoint.getValue().c_str(), "%lf:%lf:%lf:%lf",
                            &(preKPPtr->_x), &(preKPPtr->_y), &(preKPPtr->_scale), &(preKPPtr->_ori));
            std::cerr << "passed orientation: " << preKPPtr->_ori << std::endl;
            if (nf < 3)
            {
                std::cerr << "Invalid value for --ip option, expected --ip x:y:scale:ori" << std::endl;
                exit(1);
            }
        }

        DetectKeypoints ( aFiles[0], downscale, surfScoreThreshold, preKPPtr, onlyInterestPoints, sieveWidth, sieveHeight, sieveSize, *writer );

        if ( aArgOutputFile.isSet() )
        {
            delete outstream;
        }

    }
    catch ( ArgException& e )
    {
        cout << "ERROR: " << e.error() << " " << e.argId() << endl;
    }
}