示例#1
0
/**
* @brief Read in files with arrays and join them into a single file
* @param argc
* @param argv[]
* @return
*/
int main (int argc, char *argv[]) {

        AnyOption opt;
        opt.setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt.setOption ("verbose", 'v');
        opt.setOption ("random", 'r');

        opt.addUsage ("OA: unittest: Perform some checks on the code");
        opt.addUsage ("Usage: unittest [OPTIONS]");
        opt.addUsage ("");
        opt.addUsage (" -v  --verbose  			Print documentation");
        opt.addUsage (" -r  --random  			Seed for random number generator");

        opt.processCommandArgs (argc, argv);
        int verbose = opt.getIntValue ('v', 1);
        int random = opt.getIntValue ('r', 0);

        if (opt.getFlag ("help") || opt.getFlag ('h')) {
                opt.printUsage ();
                exit (0);
        }

        if (verbose) {
                print_copyright ();
        }
        if (verbose >= 2) {
                print_options (std::cout);
        }

        oaunittest (verbose, 1, random);

        return 0;
}
示例#2
0
void readoption(int argc, char *argv[], bool *convertDir,
                QString *filename, QString *dir, QString *path)
{
    /* 1. CREATE AN OBJECT */
    AnyOption *opt = new AnyOption();

    /* 2. SET PREFERENCES  */
    //opt->noPOSIX(); /* do not check for POSIX style character options */
    //opt->setVerbose(); /* print warnings about unknown options */
    //opt->autoUsagePrint(true); /* print usage for bad options */

    /* 3. SET THE USAGE/HELP   */
    opt->addUsage( "" );
    opt->addUsage( "Usage: " );
    opt->addUsage( "" );
    opt->addUsage( " -h  --help               Prints this help " );
    opt->addUsage( " -f  --filename FILENAME  Filename to be converted " );
    opt->addUsage( " -d  --dir DIRECTORY      File dir to be converted " );
    opt->addUsage( " -p  --path PATH          Path where converted file saves " );
    opt->addUsage( "" );

    /* 4. SET THE OPTION STRINGS/CHARACTERS */

    /* by default all  options  will be checked on the command line and from option/resource file */
    opt->setFlag(  "help", 'h' );   /* a flag (takes no argument), supporting long and short form */
    opt->setOption(  "filename", 'f' ); /* an option (takes an argument), supporting long and short form */
    opt->setOption(  "dir", 'd' ); /* an option (takes an argument), supporting long and short form */
    opt->setOption(  "path", 'p' ); /* an option (takes an argument), supporting long and short form */

    /* 5. PROCESS THE COMMANDLINE AND RESOURCE FILE */

    /* go through the command line and get the options  */
    opt->processCommandArgs( argc, argv );

    if( ! opt->hasOptions()) { /* print usage if no options */
        opt->printUsage();
        delete opt;
        return;
    }

    /* 6. GET THE VALUES */
    if( opt->getFlag( "help" ) || opt->getFlag( 'h' ) )
        opt->printUsage();
    if( opt->getValue( 'f' ) != NULL  || opt->getValue( "filename" ) != NULL  ) {
        *convertDir = false;
        filename->append(QString(opt->getValue( 'f' )));
    }
    if( opt->getValue( 'd' ) != NULL  || opt->getValue( "dir" ) != NULL  ) {
        *convertDir = true;
        dir->append(QString(opt->getValue( 'd' )));
    }
    if( opt->getValue( 'p' ) != NULL  || opt->getValue( "path" ) != NULL  ) {
        path->append(QString(opt->getValue( 'p' )));
    }

    /* 8. DONE */
    delete opt;
}
void UpdaterOptions::parse(int argc, char** argv)
{
	AnyOption parser;
	parser.setOption("install-dir");
	parser.setOption("package-dir");
	parser.setOption("script");
	parser.setOption("wait");
	parser.setOption("mode");
	parser.setFlag("version");
	parser.setFlag("force-elevated");
	parser.setFlag("auto-close");

	parser.processCommandArgs(argc,argv);

	if (parser.getValue("mode"))
	{
		mode = stringToMode(parser.getValue("mode"));
	}
	if (parser.getValue("install-dir"))
	{
		installDir = parser.getValue("install-dir");
	}
	if (parser.getValue("package-dir"))
	{
		packageDir = parser.getValue("package-dir");
	}
	if (parser.getValue("script"))
	{
		scriptPath = parser.getValue("script");
	}
	if (parser.getValue("wait"))
	{
		waitPid = static_cast<PLATFORM_PID>(atoll(parser.getValue("wait")));
	}

	showVersion = parser.getFlag("version");
	forceElevated = parser.getFlag("force-elevated");
	autoClose = parser.getFlag("auto-close");
		
	if (installDir.empty())
	{
		// if no --install-dir argument is present, try parsing
		// the command-line arguments in the old format (which uses
		// a list of 'Key=Value' args)
		parseOldFormatArgs(argc,argv);
	}
}
示例#4
0
/**
 * @brief Read in files with arrays and join them into a single file
 * @param argc
 * @param argv[]
 * @return
 */
int main (int argc, char *argv[]) {
        AnyOption opt;

        /* parse command line options */
        opt.setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt.setOption ("output", 'o');
        opt.setOption ("format", 'f');
        opt.setOption ("verbose", 'v');

        opt.addUsage ("Orthonal Array Convert: convert array file into a different format");
        opt.addUsage ("Usage: oaconvert [OPTIONS] [INPUTFILE] [OUTPUTFILE]");
        opt.addUsage ("");
        opt.addUsage (" -h --help  			Prints this help ");
        opt.addUsage (" -f [FORMAT]					Output format (default: TEXT, or BINARY) ");
        opt.processCommandArgs (argc, argv);

        int verbose = opt.getIntValue ("verbose", 2);

        if (verbose > 0)
                print_copyright ();

        /* parse options */
        if (opt.getFlag ("help") || opt.getFlag ('h') || opt.getArgc () == 0) {
                opt.printUsage ();
                exit (0);
        }

        const std::string outputprefix = opt.getStringValue ('o', "");
        std::string format = opt.getStringValue ('f', "BINARY");

        arrayfile::arrayfilemode_t mode = arrayfile_t::parseModeString (format);

        if (opt.getArgc () != 2) {
                opt.printUsage ();
                exit (0);
        }

        std::string infile = opt.getArgv (0);
        std::string outfile = opt.getArgv (1);

		convert_array_file(infile, outfile, mode, verbose);

        return 0;
}
示例#5
0
void
simple( int argc, char* argv[] )
{

        AnyOption *opt = new AnyOption();
        opt->noPOSIX(); /* use simpler option type */

        opt->setOption(  "width" );
        opt->setOption(  "height" );
        opt->setFlag( "convert");
        opt->setCommandOption(  "name" );
        opt->setFileOption(  "title" );

        if (  ! opt->processFile( "sample.txt" ) )
                cout << "Failed processing the resource file" << endl ;
        opt->processCommandArgs( argc, argv );

	cout << "THE OPTIONS : " << endl << endl ;
	if( opt->getValue( "width" ) != NULL )
        	cout << "width  : " << opt->getValue( "width" ) << endl ;
	if( opt->getValue( "height" ) != NULL )
        	cout << "height : " << opt->getValue( "height" ) << endl ;
	if( opt->getValue( "name" ) != NULL )
        	cout << "name   : " << opt->getValue( "name" ) << endl ;
	if( opt->getValue( "title" ) != NULL )
        	cout << "title  : " << opt->getValue( "title" ) << endl ;
        if( opt->getFlag( "convert" ) )  
		cout << "convert : set " << endl ;
        cout << endl ;

	cout << "THE ARGUMENTS : " << endl << endl ;
	for( int i = 0 ; i < opt->getArgc() ; i++ ){
		cout << opt->getArgv( i ) << endl  ;
	}
	cout << endl;

        delete opt;

}
示例#6
0
int main(int argc, char* argv[])
{
    AnyOption opt;

    // Usage
    opt.addUsage( "Example: " );
    opt.addUsage( "  cppbitmessage -p 8444" );
    opt.addUsage( " " );
    opt.addUsage( "Usage: " );
    opt.addUsage( "" );
    opt.addUsage( "  -p --port                 Port to listen on");
    opt.addUsage( "  -V --version              Show version number");
    opt.addUsage( "     --help                 Show help");
    opt.addUsage( "" );

    opt.setOption(  "port", 'p' );
    opt.setFlag(  "version", 'V' );
    opt.setFlag(  "help" );

    opt.processCommandArgs(argc, argv);

    if ((!opt.hasOptions()) || (opt.getFlag( "help" )))
    {
		// print usage if no options
        opt.printUsage();
        return 0;
	}

    if ((opt.getFlag("version")) || (opt.getFlag('V')))
    {
        std::cout << "Version " << VERSION << std::endl;
        return 0;
	}

	int port = 8444;
    if ((opt.getValue("port") != NULL) || (opt.getValue('p')))
    {
        std::stringstream ss;
        ss << opt.getValue("port");
        ss >> port;
	}	
示例#7
0
/**
 * @brief Read in a list of array and check for each of the arrays whether they are in LMC form or not
 * @param argc
 * @param argv[]
 * @return
 */
int main (int argc, char *argv[]) {
        char *fname;
        int correct = 0, wrong = 0;

        /* parse command line options */
        AnyOption opt;
        opt.setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt.setOption ("loglevel", 'l');
        opt.setOption ("oaconfig", 'c');
        opt.setOption ("check");
        opt.setOption ("strength", 's');
        opt.setOption ("prune", 'p');
        opt.setOption ("output", 'o');
        opt.setOption ("mode", 'm');

        opt.addUsage ("oacheck: Check arrays for LMC form or reduce to LMC form");
        opt.addUsage ("Usage: oacheck [OPTIONS] [ARRAYFILE]");
        opt.addUsage ("");
        opt.addUsage (" -h  --help  			Prints this help");
        opt.addUsage (" -l [LEVEL]  --loglevel [LEVEL]	Set loglevel to number");
        opt.addUsage (" -s [STRENGTH]  --strength [STRENGTH] Set strength to use in checking");
        std::string ss = " --check [MODE]			Select mode: ";
        ss +=
            printfstring ("%d (default: check ), %d (reduce to LMC form), %d (apply random transformation and reduce)",
                          MODE_CHECK, MODE_REDUCE, MODE_REDUCERANDOM); //
        for (int i = 3; i < ncheckopts; ++i)
                ss += printfstring (", %d (%s)", static_cast< checkmode_t > (i), modeString ((checkmode_t)i).c_str ());
        opt.addUsage (ss.c_str ());
        opt.addUsage (" -o [OUTPUTFILE] Output file for LMC reduction");

        opt.processCommandArgs (argc, argv);

        algorithm_t algmethod = (algorithm_t)opt.getIntValue ("mode", MODE_AUTOSELECT);

        int loglevel = NORMAL;
        if (opt.getValue ("loglevel") != NULL || opt.getValue ('l') != NULL)
                loglevel = atoi (opt.getValue ('l')); // set custom loglevel
        setloglevel (loglevel);

        if (checkloglevel (QUIET)) {
                print_copyright ();
        }

        if (opt.getFlag ("help") || opt.getFlag ('h') || opt.getArgc () == 0) {
                opt.printUsage ();
                return 0;
        }

        checkmode_t mode = MODE_CHECK;
        if (opt.getValue ("check") != NULL)
                mode = (checkmode_t)atoi (opt.getValue ("check")); // set custom loglevel
        if (mode >= ncheckopts)
                mode = MODE_CHECK;

        logstream (QUIET) << "#time start: " << currenttime () << std::endl;

        double t = get_time_ms ();
        t = 1e3 * (t - floor (t));
        srand (t);

        int prune = opt.getIntValue ('p', 0);

        fname = opt.getArgv (0);
        setloglevel (loglevel);

        int strength = opt.getIntValue ('s', 2);
        if (strength < 1 || strength > 10) {
                printf ("Strength specfied (t=%d) is invalid\n", strength);
                exit (1);
        } else {
                log_print (NORMAL, "Using strength %d to increase speed of checking arrays\n", strength);
        }

        arraylist_t outputlist;
        char *outputfile = 0;
        bool writeoutput = false;
        if (opt.getValue ("output") != NULL) {
                writeoutput = true;
                outputfile = opt.getValue ('o');
        }

        arrayfile_t *afile = new arrayfile_t (fname);
        if (!afile->isopen ()) {
                printf ("Problem opening %s\n", fname);
                exit (1);
        }

        logstream (NORMAL) << "Check mode: " << mode << " (" << modeString (mode) << ")" << endl;

        /* start checking */
        double Tstart = get_time_ms (), dt;

        int index;
        array_link al (afile->nrows, afile->ncols, -1);
        for (int i = 0; i < afile->narrays; i++) {

                index = afile->read_array (al);
                array_t *array = al.array;

                arraydata_t arrayclass = arraylink2arraydata (al, 0, strength);
                arrayclass.lmc_overflow_check ();

                OAextend oaextend;

                lmc_t result = LMC_NONSENSE;

                LMCreduction_t *reduction = new LMCreduction_t (&arrayclass);
                LMCreduction_t *randtest = new LMCreduction_t (&arrayclass);
				array_link test_arraylink = al.clone();
				array_t *testarray = test_arraylink.array;
                randtest->transformation->randomize ();
                reduction->setArray ( al); 
                /* variables needed within the switch statement */
                switch (mode) {
                case MODE_CHECK:
				{
					/* LMC test with reduction code */
					reduction->mode = OA_TEST;
					result = LMCcheck(al, arrayclass, oaextend, *reduction);
					break;
				}
                case MODE_CHECKJ4: {
                        /* LMC test with special code */
                        reduction->mode = OA_TEST;
                        reduction->init_state = COPY;
                        oaextend.setAlgorithm (MODE_J4, &arrayclass);
                        result = LMCcheck (al, arrayclass, oaextend, *reduction);
                        break;
                }
                case MODE_REDUCEJ4: {
                        /* LMC test with special code */
                        reduction->mode = OA_REDUCE;
                        reduction->setArray (al);
                        result = LMCcheckj4 (al, arrayclass, *reduction, oaextend);
                        break;
                }
                case MODE_CHECK_SYMMETRY: {
					myprintf("MODE_CHECK_SYMMETRY not supported any more");
					exit(1);
                }
                case MODE_CHECKJ5X: {
                        oaextend.setAlgorithm (MODE_J5ORDERX, &arrayclass);

                        /* LMC test with special code */
                        reduction->mode = OA_TEST;
                        reduction->init_state = COPY;

                        result = LMCcheck (al, arrayclass, oaextend, *reduction);
                        break;
                }
                case MODE_CHECKJ5XFAST: {
                        oaextend.setAlgorithm (MODE_J5ORDERX, &arrayclass);

                        /* LMC test with special code */
                        reduction->mode = OA_TEST;
                        reduction->init_state = COPY;
                        if (1) {
                                array_link al (array, arrayclass.N, arrayclass.ncols, al.INDEX_NONE);
                                reduction->updateSDpointer (al);
                        }
                        result = LMCcheck (al, arrayclass, oaextend, *reduction);
                        break;
                }
                case MODE_REDUCEJ5X: {
                        OAextend oaextend;
                        oaextend.setAlgorithm (MODE_J5ORDERX, &arrayclass);

                        /* LMC test with special code */
                        printf ("oacheck: WARNING: MODE_CHECKJ5X: untested code, not complete\n");
                        reduction->mode = OA_REDUCE;
                        result = LMCcheck (al, arrayclass, oaextend, *reduction);
                        break;
                }

                case MODE_REDUCE:
                        /* LMC reduction */
				{
					reduction->mode = OA_REDUCE;
					copy_array(array, reduction->array, arrayclass.N, arrayclass.ncols);
					dyndata_t dynd = dyndata_t(arrayclass.N);

					result = LMCreduction(array, array, &arrayclass, &dynd, reduction, oaextend);
					break;
				}
				case MODE_REDUCERANDOM: 
					{
						/* random LMC reduction */
						oaextend.setAlgorithm(MODE_ORIGINAL, &arrayclass);
						reduction->mode = OA_REDUCE;
						randtest->transformation->apply(array, testarray);
						copy_array(testarray, reduction->array, arrayclass.N, arrayclass.ncols);
						reduction->init_state = INIT;
						array_link alp = arrayclass.create_root(arrayclass.ncols, 1000);
						reduction->setArray(alp);
						dyndata_t dynd = dyndata_t(arrayclass.N);

						result = LMCreduction(testarray, testarray, &arrayclass, &dynd, reduction, oaextend);

						if (log_print(NORMAL, "")) {
							reduction->transformation->show();
						}
					} break;
				
                case MODE_REDUCETRAIN:
                        /* LMC reduction with train*/
                        reduction->mode = OA_REDUCE;
                        result = LMCreduction_train (al, &arrayclass, reduction, oaextend);
                        break;
                case MODE_REDUCETRAINRANDOM:
                        /* random LMC reduction with train*/
                        reduction->mode = OA_REDUCE;

                        randtest->transformation->apply (array, testarray);
                        result = LMCreduction_train (test_arraylink, &arrayclass, reduction, oaextend);
                        break;
                case MODE_HADAMARD:
						myprintf("MODE_HADAMARD not supported any more\n");
						exit(1);
                default:
                        result = LMC_NONSENSE;
                        std::cout << "function " << __FUNCTION__ << "line " << __LINE__ << "Unknown mode" << std::endl;
                        exit (1);
                        break;
                }

                bool aequal;
                switch (mode) {
                case MODE_CHECK:
                        if (result == LMC_LESS) {
                                ++wrong;
                                log_print (NORMAL, "Found array nr %i/%i NOT in lmc form:\n", i, afile->narrays);
                        } else {
                                ++correct;
                                log_print (NORMAL, "Found array nr %i/%i in lmc form.\n", i, afile->narrays);
                        }

                        break;
                case MODE_CHECKJ4:
                case MODE_CHECKJ5X:
                case MODE_CHECKJ5XFAST:
                case MODE_CHECK_SYMMETRY:
                        if (result == LMC_LESS) {
                                ++wrong;
                                log_print (NORMAL, "Found array nr %i/%i NOT in minimal form:\n", i, afile->narrays);
                        } else {
                                ++correct;
                                log_print (NORMAL, "Found array nr %i/%i in minimal form.\n", i, afile->narrays);
                        }

                        break;
                case MODE_REDUCE:
                case MODE_REDUCEJ4:
                case MODE_REDUCEJ5X:
                case MODE_REDUCETRAIN:
                        aequal = std::equal (array, array + arrayclass.N * arrayclass.ncols, reduction->array);

                        if ((!aequal) || reduction->state == REDUCTION_CHANGED) {
                                ++wrong;
                                log_print (QUIET, "Reduced array %i/%i to lmc form.\n", i, afile->narrays);
                                if (checkloglevel (NORMAL)) {
                                        log_print (QUIET, "Original:\n");
										
                                        print_array (array, afile->nrows, afile->ncols);
                                        print_array ("Reduction:\n", reduction->array, afile->nrows, afile->ncols);
                                        printf ("---------------\n");
                                }
                                if (checkloglevel (DEBUG)) {
                                        cout << "Transformation: " << endl;
                                        reduction->transformation->show (cout);

                                        rowindex_t row;
                                        colindex_t column;
                                        array_diff (array, reduction->array, arrayclass.N, arrayclass.ncols, row, column);
                                        cout << "Difference at: ";
                                        printf (" row %d, col %d\n", row, column);
                                }
                        } else {
                                ++correct;
                                log_print (QUIET, "Array %i/%i was already in lmc form:\n", i, afile->narrays);
                        }
                        break;
                case MODE_REDUCETRAINRANDOM:
                case MODE_REDUCERANDOM:
                case MODE_REDUCEJ4RANDOM:
                        aequal = std::equal (array, array + arrayclass.N * arrayclass.ncols, reduction->array);

                        if (!aequal) {
                                ++wrong;
                                log_print (SYSTEM,
                                           "Array %i/%i: reduced random transformation not equal to original (BUG!)\n",
                                           i, afile->narrays);
                                if (checkloglevel (NORMAL)) {
                                        print_array ("Original:\n", array, afile->nrows, afile->ncols);
                                        print_array ("Randomized:\n", testarray, afile->nrows, afile->ncols);
                                        print_array ("Reduction:\n", reduction->array, afile->nrows, afile->ncols);
                                        printf ("---------------\n");
                                }
                        } else {
                                ++correct;
                                log_print (QUIET, "Array %i/%i: reduced random transformation to original\n", i,
                                           afile->narrays);
                        }

                        break;
                case MODE_HADAMARD:
                        break;
                default:
                        std::cout << "function " << __FUNCTION__ << "line " << __LINE__ << "unknown mode" << std::endl;
                        break;
                }

                array_link al = array_link ((carray_t *)reduction->array, afile->nrows, afile->ncols, -1);
                if (result == LMC_MORE || !prune) {
                        outputlist.push_back (al);
                }
                delete randtest;
                delete reduction;
                destroy_array (testarray);
        }

        afile->closefile ();
        delete afile;

        if (writeoutput) {
                logstream (NORMAL) << "Writing output (" << outputlist.size () << " arrays)" << endl;
                writearrayfile (outputfile, outputlist);
        }

        logstream (QUIET) << "#time end: " << currenttime () << std::endl;

        return 0;
}
示例#8
0
//+----------------------------------------------------------------------------+
//| main()                                                                     |
//-----------------------------------------------------------------------------+
int
main(int argc, char** argv)
{
  common::PathFileString pfs(argv[0]);
  //////////////////////////////////////////////////////////////////////////////
  // User command line parser
  AnyOption *opt = new AnyOption();
  opt->autoUsagePrint(true);

  opt->addUsage( "" );
  opt->addUsage( "Usage: " );
  char buff[256];
  sprintf(buff, "       Example: %s -r example1_noisy.cfg", pfs.getFileName().c_str());
  opt->addUsage( buff );
  opt->addUsage( " -h  --help                 Prints this help" );
  opt->addUsage( " -r  --readfile <filename>  Reads the polyhedra description file" );
  opt->addUsage( " -t  --gltopic <topic name> (opt) ROS Topic to send OpenGL commands " );
  opt->addUsage( "" );

  opt->setFlag(  "help", 'h' );
  opt->setOption(  "readfile", 'r' );

  opt->processCommandArgs( argc, argv );

  if( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ) {opt->printUsage(); delete opt; return(1);}

  std::string gltopic("OpenGLRosComTopic");
  if( opt->getValue( 't' ) != NULL  || opt->getValue( "gltopic" ) != NULL  ) gltopic = opt->getValue( 't' );
	std::cerr << "[OpenGL communication topic is set to : \"" << gltopic << "\"]\n";

  std::string readfile;
	if( opt->getValue( 'r' ) != NULL  || opt->getValue( "readfile" ) != NULL  )
	{
    readfile = opt->getValue( 'r' );
    std::cerr << "[ World description is read from \"" << readfile << "\"]\n";
	}
	else{opt->printUsage(); delete opt; return(-1);}

  delete opt;
  //
  //////////////////////////////////////////////////////////////////////////////

  //////////////////////////////////////////////////////////////////////////////
  // Initialize ROS and OpenGLRosCom node (visualization)
  std::cerr << "["<<pfs.getFileName()<<"]:" << "[Initializing ROS]"<< std::endl;
  ros::init(argc, argv, pfs.getFileName().c_str());
  if(ros::isInitialized())
    std::cerr << "["<<pfs.getFileName()<<"]:" << "[Initializing ROS]:[OK]\n"<< std::endl;
  else{
    std::cerr << "["<<pfs.getFileName()<<"]:" << "[Initializing ROS]:[FAILED]\n"<< std::endl;
    return(1);
  }
  COpenGLRosCom glNode;
  glNode.CreateNode(gltopic);
  //
  //////////////////////////////////////////////////////////////////////////////

  //////////////////////////////////////////////////////////////////////////////
  // Reading the input file
  std::cerr << "Reading the input file..." << std::endl;
  ShapeVector shapes;
  PoseVector  poses;
  IDVector    ID;
  if(ReadPolyhedraConfigFile(readfile, shapes, poses, ID)==false)
  {
    std::cerr << "["<<pfs.getFileName()<<"]:" << "Error reading file \"" << readfile << "\"\n";
    return(-1);
  }
  std::cerr << "Read " << poses.size() << " poses of " << shapes.size() << " shapes with " << ID.size() << " IDs.\n";
  //
  //////////////////////////////////////////////////////////////////////////////

  //////////////////////////////////////////////////////////////////////////////
  // Visualizing the configuration of objects
  std::cerr << "Visualizing the configuration of objects..." << std::endl;
  for(unsigned int i=0; i<shapes.size(); i++)
  {
    for(size_t j=0; j<shapes[i].F.size(); j++)
    {
      glNode.LineWidth(1.0f);
      glNode.AddColor3(0.3f, 0.6f, 0.5f);
      glNode.AddBegin("LINE_LOOP");
      for(size_t k=0; k<shapes[i].F[j].Idx.size(); k++)
      {
        int idx = shapes[i].F[j].Idx[k];
        Eigen::Matrix<Real,3,1> Vt = poses[i]*shapes[i].V[ idx ];
        glNode.AddVertex(Vt.x(), Vt.y(), Vt.z());
      }
      glNode.AddEnd();
    }
  }
  glNode.SendCMDbuffer();
  ros::spinOnce();
  common::PressEnterToContinue();
  //
  //////////////////////////////////////////////////////////////////////////////

  //////////////////////////////////////////////////////////////////////////////
  // Running PROMTS with A* search algorithm
  std::cerr << "Running PROMTS with Depth Limited search algorithm..." << std::endl;
  promts::ProblemDataStruct pds("Depth-Limited Search");
  pds.m_glNodePtr = &glNode;
  PoseVector refined_poses(shapes.size());
  refinePoses_DLSearch(shapes, poses, ID, refined_poses, pds);
  //
  //////////////////////////////////////////////////////////////////////////////

  return(0);
}
示例#9
0
int main (int argc, char *argv[]) {
        AnyOption opt;
        /* parse command line options */
        opt.setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt.setOption ("output", 'o');
        opt.setOption ("input", 'I');
        opt.setOption ("rand", 'r');
        opt.setOption ("verbose", 'v');
        opt.setOption ("ii", 'i');
        opt.setOption ("jj");
        opt.setOption ("xx", 'x');
        opt.setOption ("dverbose", 'd');
        opt.setOption ("rows");
        opt.setOption ("cols");
        opt.setOption ("nrestarts");
        opt.setOption ("niter");
        opt.setOption ("mdebug", 'm');
        opt.setOption ("oaconfig", 'c'); /* file that specifies the design */

        opt.addUsage ("Orthonal Array: oatest: testing platform");
        opt.addUsage ("Usage: oatest [OPTIONS] [FILE]");
        opt.addUsage ("");
        opt.addUsage (" -h --help  			Prints this help ");
        opt.processCommandArgs (argc, argv);

        double t0 = get_time_ms (), dt = 0;
        int randvalseed = opt.getIntValue ('r', 1);
        int ix = opt.getIntValue ('i', 1);
        int r = opt.getIntValue ('r', 1);
        int jj = opt.getIntValue ("jj", 5);

        int xx = opt.getIntValue ('x', 0);
        int niter = opt.getIntValue ("niter", 10);
        int verbose = opt.getIntValue ("verbose", 1);

        const char *input = opt.getValue ('I');
        if (input == 0)
                input = "test.oa";

        srand (randvalseed);
        if (randvalseed == -1) {
                randvalseed = time (NULL);
                printf ("random seed %d\n", randvalseed);
                srand (randvalseed);
        }



		array_link array = exampleArray(0);
		lmc_t lmc_type = LMCcheck(array);


		array = array.randomperm();
		array.showarray();
		array_link reduced_array = reduceLMCform(array);
		reduced_array.showarray();
		exit(0);

		try {
			array_link al = exampleArray(r);
			al.show();
			al.showarray();

			std::vector<int> sizes = array2modelmatrix_sizes(al);
			display_vector(sizes); myprintf("\n");
			MatrixFloat modelmatrix = array2modelmatrix(al, "i", 1);
			array_link modelmatrixx = modelmatrix;
			modelmatrixx.show();
			modelmatrixx.showarray();

			modelmatrix = array2modelmatrix(al, "main", 1);
			modelmatrixx = modelmatrix;
			modelmatrixx.show();
			modelmatrixx.showarray();

			exit(0);

		}
		catch (const std::exception &e) {
			std::cerr << e.what() << std::endl;
			throw;
		}

        {
                array_link al = exampleArray (r);

                array_transformation_t tt = reduceOAnauty (al);
                array_link alx = tt.apply (al);
                exit (0);
        }



        return 0;
}
示例#10
0
/**
 * @brief Filter arrays in a file and write filtered arrays to output file
 * @param argc Number of command line arguments
 * @param argv Command line arguments
 * @return
 */
int main (int argc, char *argv[]) {
        AnyOption opt;

        /* parse command line options */
        opt.setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt.setOption ("output", 'o');
        opt.setOption ("verbose", 'v');
        opt.setOption ("na", 'a');
        opt.setOption ("index", 'i');
        opt.setOption ("format", 'f');

        opt.addUsage ("Orthonal Array Filter: filter arrays");
        opt.addUsage ("Usage: oaanalyse [OPTIONS] [INPUTFILE] [VALUESFILE] [THRESHOLD] [OUTPUTFILE]");
        opt.addUsage ("  The VALUESFILE is a binary file with k*N double values. Here N is the number of arrays");
        opt.addUsage ("  and k the number of analysis values.");

        opt.addUsage ("");
        opt.addUsage (" -h --help  			Prints this help ");
        opt.addUsage (" -v --verbose  			Verbose level (default: 1) ");
        opt.addUsage (" -a 		 			Number of values in analysis file (default: 1) ");
        opt.addUsage (" --index 		 		Index of value to compare (default: 0) ");
        opt.addUsage (" -f [FORMAT]					Output format (default: TEXT, or BINARY; B) ");
        opt.processCommandArgs (argc, argv);

        print_copyright ();

        /* parse options */
        if (opt.getFlag ("help") || opt.getFlag ('h') || opt.getArgc () < 4) {
                opt.printUsage ();
                exit (0);
        }
        int verbose = opt.getIntValue ('v', 1);
        int na = opt.getIntValue ('a', 1);
        int index = opt.getIntValue ("index", 0);

        std::string format = opt.getStringValue ('f', "BINARY");
        arrayfile::arrayfilemode_t mode = arrayfile_t::parseModeString (format);

        /* read in the arrays */
        std::string infile = opt.getArgv (0);
        std::string anafile = opt.getArgv (1);
        double threshold = atof (opt.getArgv (2));
        std::string outfile = opt.getArgv (3);

        if (verbose)
                printf ("oafilter: input %s, threshold %f (analysisfile %d values, index %d)\n", infile.c_str (),
                        threshold, na, index);

        arraylist_t *arraylist = new arraylist_t;
        int n = readarrayfile (opt.getArgv (0), arraylist);

        if (verbose)
                printf ("oafilter: filtering %d arrays\n", n);

        // read analysis file
        FILE *afid = fopen (anafile.c_str (), "rb");
        if (afid == 0) {
                printf ("   could not read analysisfile %s\n", anafile.c_str ());
                exit (0);
        }

        double *a = new double[n * na];
        fread (a, sizeof (double), n * na, afid);
        fclose (afid);

        std::vector< int > gidx;
        ;
        for (int jj = 0; jj < n; jj++) {
                double val = a[jj * na + index];
                if (val >= threshold)
                        gidx.push_back (jj);
                if (verbose >= 2)
                        printf ("jj %d: val %f, threshold %f\n", val >= threshold, val, threshold);
        }

        // filter
        arraylist_t *filtered = new arraylist_t;
        selectArrays (*arraylist, gidx, *filtered);

        /* write arrays to file */
        if (verbose)
                cout << "Writing " << filtered->size () << " arrays (input " << arraylist->size () << ") to file "
                     << outfile << endl;
        writearrayfile (outfile.c_str (), *filtered, mode);

        /* free allocated structures */
        delete[] a;
        delete arraylist;
        delete filtered;

        return 0;
}
示例#11
0
AnyOption *parseInputOptions( int argc, char **argv ) {

  // parse input options
  AnyOption *opt = new AnyOption();

  opt->addUsage( "----------------------------------------------------------------------------" );
  opt->addUsage( "|                             NCPA Infrasound                              |" );  	
  opt->addUsage( "|                         Normal Modes Broadband                           |" );
  opt->addUsage( "|    Based on either: Effective Sound Speed Approximation - see ModESS     |" );
  opt->addUsage( "|                     Wide_Angle High-Mach code - see WMod                 |" );  
  opt->addUsage( "----------------------------------------------------------------------------" );	
  opt->addUsage( "Usage: " );
  opt->addUsage( "" );
  opt->addUsage( "The options below can be specified in a colon-separated file \"ModBB.options\"");
  opt->addUsage( "or at the command line.  Command-line options override file options." );
  opt->addUsage( "Be sure to precede all options with two minuses (--)." );
  opt->addUsage( " --help -h                Print this message and exit" );
  opt->addUsage( "" );
  opt->addUsage( "One of two algorithms can be used to perform pulse propagation." );
  opt->addUsage( "The first is based on the Effective Sound Speed Approximation (as in ModESS);" );
  opt->addUsage( "the second is based on the the Wide_Angle High-Mach solution ");
  opt->addUsage( "of the wave equation (see  implementation in WMod)." );
  opt->addUsage( "ModESS is faster but it is accurate for (launch) angles less than 30 deg and" );
  opt->addUsage( "low wind speeds. WMod extends the validity to higher angles" ); 
  opt->addUsage( "and high Mach numbers but it runs slower." );
  opt->addUsage( "Options --use_modess and --use_wmod allow the user to choose");
  opt->addUsage( "the desired algorithm when computing the dispersion data (see step 1 below)." );
  opt->addUsage( "" );
  opt->addUsage( "To propagate a pulse, 2 steps must be completed:");
  opt->addUsage( " 1. A dispersion file must be available or computed" );
  opt->addUsage( "     using the option --out_disp_src2rcv_file  ." );  
//  opt->addUsage( "     use either option --out_dispersion_files  or --out_disp_src2rcv_file" );
  opt->addUsage( " 2. Perform pulse propagation for one of several scenarios:");
  opt->addUsage( "    a. source-to-receiver at one range (option --pulse_prop_src2rcv)");	
  opt->addUsage( "    b. source-to-receiver at several equally spaced ranges " );
  opt->addUsage( "       (option --pulse_prop_src2rcv_grid)");
//  opt->addUsage( "    c. computing the whole 2D pressure field " );
//  opt->addUsage( "       (most expensive - option --pulse_prop_grid)" );
  opt->addUsage( "    The source type can be one of the following:" );
  opt->addUsage( "        delta function              -> see option --get_impulse_resp" );  
  opt->addUsage( "        built-in pulse choice 1     -> see option --use_builtin_pulse1" );
  opt->addUsage( "        built-in pulse choice 2     -> see option --use_builtin_pulse2" );
  opt->addUsage( "        user-provided spectrum file -> see option --src_spectrum_file" );
  opt->addUsage( "        user-provided waveform file -> see option --src_waveform_file" );
  opt->addUsage( "" );
//  opt->addUsage( "To compute a dispersion file: one of the following 2 options is REQUIRED:" );
  opt->addUsage( "To compute a dispersion file: the following option is REQUIRED:" );
  opt->addUsage( " --out_disp_src2rcv_file  <dispersion filename>");
  opt->addUsage( "                    Output dispersion curves and modal values for" );
  opt->addUsage( "                    source-to-receiver propagation to the specified file." );	
//  opt->addUsage( " --out_dispersion_files   <dispersion filename stub>");
//  opt->addUsage( "                    Output dispersion curves and modal values on a 2D grid" );
//  opt->addUsage( "                    to binary files at each frequency. The resulting filenames" );
//  opt->addUsage( "                    have the stub and frequency appended: " );
//  opt->addUsage( "                    e.g. <stub><freq>_nm.bin." );
//  opt->addUsage( "                    This option is computationally expensive." );
  opt->addUsage( "" );
//  opt->addUsage( " Examples (run in the 'samples' directory):" );
//  opt->addUsage( "" );
//  opt->addUsage( "   a. Compute dispersion file that will be used to compute the pressure pulse at 1 receiver. Assume that we want to end up with a pulse having a spectrum with a maximum frequency of f_max=0.5 Hz. Also assume that we want the pulse represented on a time record of T=512 seconds. The number of positive frequencies necessary for the calculation is T*f_max = 256 i.e.256 frequencies between 0 and 0.5 Hz. Thus we know f_max=0.5 Hz and f_step=f_max/256=0.001953125 Hz. The corresponding run command is:" );
  opt->addUsage( " Example (run in the 'samples' directory):" );
  opt->addUsage( "" );
  opt->addUsage( " Example to obtain a dispersion file that will be used to compute" );
  opt->addUsage( " the propagated pressure pulse at a distant receiver. " );
  opt->addUsage( " Assume that we want to end up with a pulse having a spectrum" );
  opt->addUsage( " with a maximum frequency of f_max=0.5 Hz. " );
  opt->addUsage( " Also assume that we want the pulse represented on a time record " );
  opt->addUsage( " of T=512 seconds. The number of positive frequencies necessary  " );
  opt->addUsage( " for the calculation is T*f_max = 256 i.e.256 frequencies " );
  opt->addUsage( " between f_min=f_step and 0.5 Hz. The step in frequency is  " );
  opt->addUsage( " f_step=f_max/256=0.001953125 Hz." );
  opt->addUsage( " The corresponding run command is:" );
  opt->addUsage( "" );
  opt->addUsage( "    >> ../bin/ModBB --out_disp_src2rcv_file myDispersionFile.dat " );
  opt->addUsage( "       --atmosfile NCPA_canonical_profile_zuvwtdp.dat --atmosfileorder zuvwtdp " );
  opt->addUsage( "       --skiplines 0 --azimuth 90 --f_step 0.001953125 --f_max 0.5 --use_modess" );
  opt->addUsage( "" );
  opt->addUsage( " Each line in this dispersion file has (4 + 4*n_modes) entries" );
  opt->addUsage( " in the following format:" );  
  opt->addUsage( " freq n_modes rho_src rho_rcv Re(k_pert_m) Im(k_pert_m) V_m(z_src) V_m(z_rcv)" );
  opt->addUsage( " where m varies from 1 to n_modes. k_pert_m, and V_m are" );
  opt->addUsage( " the m_th wavenumber and mode amplitude respectively." );  
  opt->addUsage( " z_src and z_rcv stand for source and receiver height respectively." );
  opt->addUsage( "" );
//  opt->addUsage( "   b. Compute dispersion files for propagation to all receivers on a 2D grid: for 256 frequencies from 0 to 0.5 Hz in steps of 0.5/256 Hz:" ); 
//  opt->addUsage( "" ); 
//  opt->addUsage( "    >> ../bin/ModBB --out_dispersion_files disprs --atmosfile NCPA_canonical_profile_zuvwtdp.dat --atmosfileorder zuvwtdp --skiplines 0 --azimuth 90 --f_step 0.001953125 --f_max 0.5 --use_modess" );
  opt->addUsage( "" );  
  opt->addUsage( "In addition the following options are REQUIRED:" );
  opt->addUsage( " --use_modess              Prompts the use of ModESS algorithm." );
  opt->addUsage( " --use_wmod                Prompts the use of WMod algorithm." );
  opt->addUsage( " Note that --use_modess and --use_wmod are mutually exclusive." );
  opt->addUsage( " --atmosfile  <filename>   Uses an ASCII atmosphere file" );
  opt->addUsage( "                           referenced to Mean Sea Level (MSL)." );  
  opt->addUsage( " --atmosfileorder          The order of the (z,t,u,v,w,p,d) fields in " );
  opt->addUsage( "                           the ASCII file (Ex: 'ztuvpd')" );
  opt->addUsage( " --skiplines               Lines at the beginning of the ASCII file to skip" );	
  opt->addUsage( " --azimuth                 Value in range [0,360), clockwise from North" );
  opt->addUsage( " --f_step                  The frequency step" );		
  opt->addUsage( " --f_max                   Maximum frequency to propagate" );
  opt->addUsage( "    Note that in this case the array of frequencies is [f_step:f_step:f_max]." );	  	
  opt->addUsage( "" );  
  opt->addUsage( "OPTIONAL [defaults]:" );
  opt->addUsage( " --f_min                   Minimum frequency [f_step Hz] " ); 
  opt->addUsage( " --maxheight_km            Calculation grid height in km above MSL [150 km]" );
  opt->addUsage( " --zground_km              Height of the ground level above MSL [0 km]" );  
  opt->addUsage( " --Nz_grid                 Number of points on the z-grid from the ground" );
  opt->addUsage( "                           to maxheight [20000]" );
  opt->addUsage( " --sourceheight_km         Source height in km Above Ground Level (AGL) [0]" );
  opt->addUsage( " --receiverheight_km       Receiver height in km AGL [0]" );   
  opt->addUsage( " --maxrange_km             Maximum horizontal distance from origin to propagate" );
  opt->addUsage( "                           [1000 km]" );
  opt->addUsage( " --ground_impedance_model  Name of the ground impedance models to be employed:" );
  opt->addUsage( "                           [rigid], TBD" );
  opt->addUsage( " --Lamb_wave_BC            For a rigid ground: if ==1 it sets" );
  opt->addUsage( "                           admittance= = -1/2*dln(rho)/dz; [ 0 ]" );
  opt->addUsage( " --wind_units              Use it to specify 'kmpersec' if the winds are given" );
  opt->addUsage( "                           in km/s [ mpersec ]" );
  opt->addUsage( " --use_attn_file           Option to specify a file name containing" );
  opt->addUsage( "                           user-provided attenuation coefficients " );
  opt->addUsage( "                           to be loaded instead of the default" );
  opt->addUsage( "                           Sutherland-Bass attenuation. " );
  opt->addUsage( "                           The text file should contain two columns: " );
  opt->addUsage( "                              height (km AGL) and " );
  opt->addUsage( "                              attenuation coefficients in np/m." );

  opt->addUsage( " --c_min                   Specify the minimum phase speed (in m/sec)." );
  opt->addUsage( "                           This is used in conjunction with the --wvnum_filter" );
  opt->addUsage( "                           flag which turns on wavenumber filtering by" );
  opt->addUsage( "                           phase speed. See also the --wvnum_filter flag" );
  opt->addUsage( "                           and the --c_max option." );
  opt->addUsage( " --c_max                   Specify the maximum phase speed (in m/sec)." );
	
  opt->addUsage( "" );
  opt->addUsage( "FLAGS (no value required after the flag itself):" );
  opt->addUsage( " --turnoff_WKB             Turn off the WKB least phase speed estimation," );
  opt->addUsage( "                           an approximation that speeds-up ground-to-ground" );
  opt->addUsage( "                           propagation. If either or both the source and " ); 
  opt->addUsage( "                           receiver are not on the ground [height=0] " );
  opt->addUsage( "                           the approximation is turned off by default" ); 
  opt->addUsage( "                           regardless whether the flag is mentioned" ); 
  opt->addUsage( "                           in the command line or not." ); 
  opt->addUsage( " --use_zero_attn           Set attenuation to zero.");
  opt->addUsage( "                           Reads the dispersion file and sets the");
  opt->addUsage( "                           imaginary part of the wavenumber to zero.");
  opt->addUsage( " --wvnum_filter            Applies wavenumber filtering by phase speed" );
  opt->addUsage( "                           and should be followed by specification of" ); 
  opt->addUsage( "                           the parameters:" );
  opt->addUsage( "                              --c_min   minimum phase speed (in m/sec)." );
  opt->addUsage( "                              --c_max   maximum phase speed (in m/sec)." );
  opt->addUsage( "" );
  opt->addUsage( "" );
  opt->addUsage( "Options for PULSE PROPAGATION:" );
  opt->addUsage( " --pulse_prop_src2rcv <dispersion filename> ");
  opt->addUsage( "                    Propagate pulse from source to 1 receiver");
  opt->addUsage( "                    at a distance specified by option --range_R_km; " );
  opt->addUsage( " --range_R_km       Propagate pulse to this range [km]" );
  opt->addUsage( " --waveform_out_file <waveform filename>   Name of the waveform output file" );
  opt->addUsage( "" );
  opt->addUsage( " --pulse_prop_src2rcv_grid <dispersion filename> ");
  opt->addUsage( "                    Propagate pulse from source to array of ");
  opt->addUsage( "                    horizontally equally-spaced receivers" );  
  opt->addUsage( "" );
  opt->addUsage( " REQUIRED additional options:" );
  opt->addUsage( " --f_center         The center frequency of the built-in pulse choices 1 and 2" );
  opt->addUsage( "                    (f_center<=f_max/5)" );
  opt->addUsage( " --R_start_km       Propagation from this range to R_end_km in DR_km steps." );
  opt->addUsage( " --R_end_km         Pulse is propagated from R_start_km to this range." );
  opt->addUsage( " --DR_km            Range step to propagate from R_start_km to R_end_km." );
  opt->addUsage( " --waveform_out_file <waveform filename> ");
  opt->addUsage( "                    Name of the waveform output file." );
  opt->addUsage( "" );
  opt->addUsage( " OPTIONAL [defaults]:" );
  opt->addUsage( " --max_celerity     Maximum celerity [340 m/s]." );
  opt->addUsage( " --nfft             Number of points used in the FFT computation. ");
  opt->addUsage( "                    Defaults to [4*f_max/f_step]." );		
  
  opt->addUsage( "" );	   
  opt->addUsage( "" );
  opt->addUsage( "SOURCE TYPE input options: Use one of the following 4 options" );
  opt->addUsage( "                           to specify the source type:" );  
  opt->addUsage( " --get_impulse_resp       Flag to use a delta function as source and" );
  opt->addUsage( "                          to output the impulse response." );
  opt->addUsage( " --use_builtin_pulse1     Flag to request the use of the built-in source pulse." );
  opt->addUsage( "                          Note: Use --f_center to request the central frequency" ); 
  opt->addUsage( "                          of the pulse. f_center is restricted to a maximum" );
  opt->addUsage( "                          value of fmax/5 where fmax is the maximum frequency" ); 
  opt->addUsage( "                          defined by the dispersion file." );
  opt->addUsage( "                          The input waveform and spectrum are also saved for the" );
  opt->addUsage( "                          user's reference such that:" ); 
  opt->addUsage( "                          The built-in source spectrum is outputted in the file." );
  opt->addUsage( "                           'source_spectrum_input.dat' with the format." );
  opt->addUsage( "                             | Freq (Hz) | Re(S) | Imag(S) |." );
  opt->addUsage( "                          The input source waveform is outputted in the file." );
  opt->addUsage( "                           'source_waveform_input.dat' with the format." );
  opt->addUsage( "                             | Time [s] | Amplitude |." );

  opt->addUsage( " --use_builtin_pulse2     Flag to request a second shape of built-in source pulse." );
  opt->addUsage( "                          The input waveform and spectrum are also saved for the" );
  opt->addUsage( "                          user's reference such that:" ); 
  opt->addUsage( "                          The built-in source spectrum is outputted in the file." );
  opt->addUsage( "                           'source_spectrum_input.dat' with the format." );
  opt->addUsage( "                             | Freq (Hz) | Re(S) | Imag(S) |." );
  opt->addUsage( "                          The input source waveform is outputted in the file." );
  opt->addUsage( "                           'source_waveform_input.dat' with the format." );
  opt->addUsage( "                             | Time [s] | Amplitude |." ); 
       
  opt->addUsage( " --src_spectrum_file      Specify the file name of the source spectrum");
  opt->addUsage( "                          at positive frequencies. The file must have 3 columns" );
  opt->addUsage( "                             | Freq | Real(Spectrum) | Imag(Spectrum) |" );
  opt->addUsage( "                          Note that the frequencies provided in the file" );
  opt->addUsage( "                          must match the frequencies in the dispersion file." );
  opt->addUsage( " --src_waveform_file      Specify the file name of the user-provided " );
  opt->addUsage( "                          source waveform. The file must have 2 columns" );
  opt->addUsage( "                             |Time | Amplitude |" ); 
  opt->addUsage( "   If none of then source type options are specified the delta function source");
  opt->addUsage( "   is the default i.e. the output is the impulse response." );  
  opt->addUsage( "" );
  opt->addUsage( " Example: Pulse propagation to a point on the ground at range_R_km" ); 
  opt->addUsage( "          and output the impulse response:" );
  opt->addUsage( "" );
  opt->addUsage( "    ../bin/ModBB --pulse_prop_src2rcv myDispersionFile.dat --range_R_km 240 " );
  opt->addUsage( "                 --waveform_out_file mywavf.dat --get_impulse_resp" );
  opt->addUsage( "" );
  opt->addUsage( " Example: Pulse propagation to a point on the ground at range_R_km" );
  opt->addUsage( "          and employ the user-provided source spectrum:" );
  opt->addUsage( "" );
  opt->addUsage( "   ../bin/ModBB --pulse_prop_src2rcv myDispersionFile.dat --range_R_km 240 " );
  opt->addUsage( "                --waveform_out_file mywavf.dat --max_celerity 300 " );
  opt->addUsage( "                --src_spectrum_file source_spectrum_example.dat" );    
  opt->addUsage( "" );
  opt->addUsage( " Example: Pulse propagation to several points on the ground 20 km apart" );
  opt->addUsage( "          and employ the user-provided source waveform:" );
  opt->addUsage( "" );
  opt->addUsage( "   ../bin/ModBB --pulse_prop_src2rcv_grid myDispersionFile.dat " );
  opt->addUsage( "                --R_start_km 240 --DR_km 20 --R_end_km 300 --waveform_out_file mywavf.dat " );
  opt->addUsage( "                --src_waveform_file source_waveform_input_example.dat" );
  opt->addUsage( "" );
  opt->addUsage( "" );
  
/*
// This functionality works but was disabled because of too long computation times.
  opt->addUsage( " To compute a 2D field:" );
  opt->addUsage( " --pulse_prop_grid <dispersion directory name> ");
  opt->addUsage( "                    Compute/view pulse on the 2D spatial x-z grid of 'height_km'");
  opt->addUsage( "                    and 'width_km' starting at 'R_start_km" );
  opt->addUsage( "" );
  opt->addUsage( "   --------------------------------------------------------------" );
  opt->addUsage( " height_km      |                                     |" );
  opt->addUsage( "                |  Pressure field computed within     |" );
  opt->addUsage( "                |  a 2D (width_km x height_km) grid   |" );
  opt->addUsage( "                |          'ntsteps' times            |" );
  opt->addUsage( "                |      every 'tmstep' seconds         |" );
  opt->addUsage( "                |                                     |" );  
  opt->addUsage( "                |                                     |" );	
  opt->addUsage( "   -------------x------------------------------------------------" );	
  opt->addUsage( "              R_start_km" );
  opt->addUsage( "" );
  opt->addUsage(" Additional parameters:" );
  opt->addUsage( " --R_start_km       The grid (viewing window) starts at R_start_km" );
  opt->addUsage( " --width_km         Grid width" );
  opt->addUsage( " --max_celerity     Reference speed [m/s]; in conjunction with R_start_km");
  opt->addUsage( "                    it is determining where inside the grid the field is at");
  opt->addUsage( "                    a time step; a value smaller than the speed of sound");
  opt->addUsage( "                    at the ground is suggested." );
  opt->addUsage( " --tmstep           2D pressure field is calculated at this specified time step." );
  opt->addUsage( " --ntsteps          Number of times the 2D pressure field is calculated");
  opt->addUsage( "                    'tmstep' seconds apart." );
  opt->addUsage( "" );
  opt->addUsage( " OPTIONAL [defaults]:" );
  opt->addUsage( " --height_km        The height of the 2D grid. [maximum height]" );
  opt->addUsage( " --frame_file_stub  Each 2D grid is saved into a file with the name");
  opt->addUsage( "                    frame_file_stub_<time_of_start>; Default:[Pressure2D]." );
  opt->addUsage( "" );
  opt->addUsage( " Example: >> ../bin/ModBB --pulse_prop_grid mydispersionFolder --R_start_km 220 --width_km 50 --height_km 25 --max_celerity 300 --tmstep 30 --ntsteps 5 --frame_file_stub myPressure --use_builtin_pulse" );  
  opt->addUsage( "" );
*/
  

    


  // Set up the actual flags, etc.
  opt->setFlag( "help", 'h' );
  opt->setFlag( "use_modess" );
  opt->setFlag( "use_wmod" );
  opt->setFlag( "get_impulse_resp" );
  opt->setFlag( "use_builtin_pulse1" );
  opt->setFlag( "use_builtin_pulse2" );
  opt->setFlag( "turnoff_WKB");
  opt->setFlag( "plot");
  opt->setFlag( "use_zero_attn");
  opt->setFlag( "wvnum_filter");
  
  opt->setOption( "atmosfile" );
  opt->setOption( "atmosfileorder" );
  opt->setOption( "wind_units" );
  opt->setOption( "skiplines" );		
  opt->setOption( "azimuth" );
  opt->setOption( "maxrange_km" );
  opt->setOption( "sourceheight_km" );
  opt->setOption( "receiverheight_km" );
  opt->setOption( "maxheight_km" );
  opt->setOption( "zground_km" );  
  opt->setOption( "stepsize" );
  opt->setOption( "Nz_grid" );
  opt->setOption( "Nrng_steps" );
  opt->setOption( "out_TL_2D" );
  opt->setOption( "ground_impedance_model" );
  opt->setOption( "Lamb_wave_BC" );
  opt->setOption( "f_min" );
  opt->setOption( "f_step" );	
  opt->setOption( "f_max" );
  opt->setOption( "f_center" );
  opt->setOption( "pulse_prop_grid" );
  opt->setOption( "pulse_prop_src2rcv" );
  opt->setOption( "pulse_prop_src2rcv_grid" );
  opt->setOption( "R_start_km" );
  opt->setOption( "R_end_km" );
  opt->setOption( "DR_km" );
  opt->setOption( "max_celerity" );
  opt->setOption( "range_R_km" );
  opt->setOption( "out_dispersion_files" );
  opt->setOption( "out_disp_src2rcv_file" );
  opt->setOption( "waveform_out_file" );
  opt->setOption( "width_km" );
  opt->setOption( "height_km" );
  opt->setOption( "tmstep" );
  opt->setOption( "ntsteps" );
  opt->setOption( "frame_file_stub" );
  opt->setOption( "disp_dirname" );
  opt->setOption( "src_spectrum_file" );
  opt->setOption( "src_waveform_file" );
  opt->setOption( "nfft" );
  opt->setOption( "use_attn_file" );
  opt->setOption( "c_min" );
  opt->setOption( "c_max" );

  // Process the command-line arguments
  opt->processFile( "./ModBB.options" );
  opt->processCommandArgs( argc, argv );

  if( ! opt->hasOptions()) { // print usage if no options
      opt->printUsage();
      delete opt;
      exit( 1 );
  }

  // Check to see if help text was requested
  if ( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ) {
      opt->printUsage();
      exit( 1 );
  }

  return opt;
}
示例#12
0
//
// Function to parse the input options (both command lines and in the options file ModessRD.options)
//
AnyOption *parseInputOptions( int argc, char **argv ) {

  // parse input options
  AnyOption *opt = new AnyOption();

  opt->addUsage( "----------------------------------------------------------------------------" );
  opt->addUsage( "|                             NCPA Infrasound                              |" );  
  opt->addUsage( "|               Normal Modes for Range-Dependent Environments              |" );
  opt->addUsage( "|                      Two-Way Coupled Mode Solution                       |" );  
  opt->addUsage( "|           Single Frequency: Effective Sound Speed Approximation          |" );
  opt->addUsage( "----------------------------------------------------------------------------" );	
  opt->addUsage( "Usage: " );
  opt->addUsage( "By default the program computes the 1D transmission loss (TL)" );
  opt->addUsage( "at the ground or the specified receiver height and saves the data to 2 files:" );
  opt->addUsage( "   file tloss_rd2wcm_1d.nm - considering attenuation in the atmosphere" );
  opt->addUsage( "   file tloss_rd2wcm_1d.lossless.nm  - no attenuation" );
	opt->addUsage( "Additionally, if the flag --write_2D_TLoss is present on the command line the 2D TL is saved to file tloss_rd_2d.nm" );
  opt->addUsage( "The options below can be specified in a colon-separated file \"Modess.options\" or at the command line.  Command-line options override file options." );
  opt->addUsage( " --help -h                Print this message and exit" );
  opt->addUsage( "" );
  opt->addUsage(  " The atmosphere can be specified from one of 2 different sources:");
  opt->addUsage( "    1. An .env file containing the atmospheric specifications at certain ranges:" );
  opt->addUsage( "       use option --g2senvfile <filename>" );
  opt->addUsage( "    2. Several ASCII files stored in a given directory:" );
  opt->addUsage( "       use option --use_1D_profiles_from_dir <mydirname>" );
  //opt->addUsage( "The program requires an .env file containing the atmospheric specifications at certain ranges" );
  opt->addUsage( "The following options apply:" );	
  opt->addUsage( "" );	
  opt->addUsage( "REQUIRED (no default values):" );
  //opt->addUsage( " --atmosfile  <filename>  Uses an ASCII atmosphere file" );
  opt->addUsage( " --g2senvfile <filename>  Uses an .env binary file containing multiple 1D profiles" );
  opt->addUsage( " --atmosfileorder         The order of the (z,t,u,v,w,p,d) fields in the ASCII file (Ex: 'ztuvpd')" );
  opt->addUsage( " --skiplines              Lines at the beginning of the ASCII file to skip" );
  opt->addUsage( " --azimuth                Degrees in range [0,360), clockwise from North" );
  opt->addUsage( " --freq                   Frequency [Hz]" );	
  opt->addUsage( "" );	
  opt->addUsage( "OPTIONAL [defaults]:" ); 
  opt->addUsage( " --maxheight_km           Calculation grid height in km above MSL [150 km]" );
  opt->addUsage( " --zground_km             Height of the ground level above MSL [0 km]" );  
  opt->addUsage( " --Nz_grid                Number of points on the z-grid from ground to maxheight [20000]" );  
  opt->addUsage( " --sourceheight_km        Source height in km Above Ground Level (AGL) [0]" );
  opt->addUsage( " --receiverheight_km      Receiver height in km AGL [0]" );
  opt->addUsage( " --maxrange_km            Maximum horizontal distance from origin to propagate [1000 km]" );
  opt->addUsage( " --Nrng_steps             Number of range steps to propagate [1000]" );  
  opt->addUsage( " --ground_impedance_model Name of the ground impedance models to be employed:" );
  opt->addUsage( "                          [rigid], others TBD" );
	opt->addUsage( " --Lamb_wave_BC           If ==1 it sets admittance = -1/2*dln(rho)/dz; [ 0 ]" );
	opt->addUsage( " --wind_units             Use it to specify 'kmpersec' if the winds are given in km/s [mpersec]" );
	opt->addUsage( " --use_attn_file          Use it to specify a file name containing user-provided" );
	opt->addUsage( "                          attenuation coefficients to be loaded instead of " );
	opt->addUsage( "                          the default Sutherland-Bass attenuation. " ); 
	opt->addUsage( "                          The text file should contain two columns: " );
	opt->addUsage( "                              height (km AGL) and " );
	opt->addUsage( "                              attenuation coefficients in np/m." );		
  opt->addUsage( "" );
  opt->addUsage( " --use_profile_ranges_km" );
  opt->addUsage( "                          e.g. --use_profile_ranges_km  0_20_50_80.5_300     " );   
  opt->addUsage( "                          The profiles at certain ranges specified by numbers" );
  opt->addUsage( "                          (in km) in a string such as 0_20_50_80.5_300 are");
  opt->addUsage( "                          requested in the propagation. Note that underscores" );
  opt->addUsage( "                          are necessary to separate the numbers." );
  opt->addUsage( "                          Note also that these are requested ranges;" );
  opt->addUsage( "                          however the left-closest profile available" );
  opt->addUsage( "                          in the .env file will actually be used; " );
  opt->addUsage( "                          for instance we request the profile at 300 km " );
  opt->addUsage( "                          but in the .env file the left-closest profile" );
  opt->addUsage( "                          may be available at 290 km and it is the one used." );
  opt->addUsage( "    Example: >>  ../bin/ModessRD2WCM --atmosfile g2sgcp2011012606L.jordan.env ");
  opt->addUsage( "                 --atmosfileorder zuvwtdp --azimuth 90 --freq 0.01 ");
  opt->addUsage( "                 --use_profiles_ranges_km 100_200_250 --maxrange_km 500 ");
  opt->addUsage( "" ); 
  opt->addUsage( " --use_profiles_at_steps_km" );
  opt->addUsage( "                          e.g. --use_profiles_at_steps_km 100" );
  opt->addUsage( "                          The profiles are requested at equidistant intervals " );
  opt->addUsage( "                          specified by this option [1000]" );
  opt->addUsage( "" );
  opt->addUsage( " --use_1D_profiles_from_dir" );
  opt->addUsage( "                          e.g. --use_1D_profiles_from_dir myprofiles" );
  opt->addUsage( "                          This option allows to use the ascii profiles stored in" );
  opt->addUsage( "                          the specified directory. The profiles must have names" );
  opt->addUsage( "                          'profiles0001', 'profiles0002', etc. and will be" );
  opt->addUsage( "                          used in alphabetical order at the provided ranges" );
  opt->addUsage( "                          e.g. in conjunction with either" );
  opt->addUsage( "                          option  '--use_profile_ranges_km' " );
  opt->addUsage( "                          or option '--use_profiles_at_steps_km'" );
  opt->addUsage( "                          If there are more requested ranges than existing" );
  opt->addUsage( "                          profiles then the last profile is used repeatedly" );
  opt->addUsage( "                          as necessary." );  
  opt->addUsage( "    Example: >> ../bin/ModessRD2WCM --atmosfileorder zuvwtdp --skiplines 1" );
  opt->addUsage( "                --azimuth 90 --freq 0.1 --use_1D_profiles_from_dir myprofiles" );
  opt->addUsage( "                --use_profile_ranges_km 0_100_300_500 " );                        
  opt->addUsage( "" );  
  opt->addUsage( "FLAGS (no value required):" );
  opt->addUsage( " --write_2D_TLoss         Outputs the 2D transmission loss to" );
  opt->addUsage( "                          default file: tloss_rd2wcm_2d.nm" );	
  opt->addUsage( "" );
  opt->addUsage( "" );
  opt->addUsage( " The format of the output files are as follows (column order):" );
  opt->addUsage( "  tloss_rd2wcm_1d.nm:           r, 4*PI*Re(P), 4*PI*Im(P), (incoherent TL)" );
  opt->addUsage( "  tloss_rd2wcm_1d.lossless.nm:" );
  opt->addUsage( "  tloss_rd2wcm_2d.nm:           r, z, 4*PI*Re(P), 4*PI*Im(P)" );   
  opt->addUsage( "" );
  opt->addUsage( "  Examples to run (in the 'samples' directory):" );
  opt->addUsage( "" );
  opt->addUsage( "    ../bin/ModessRD2WCM --use_1D_profiles_from_dir profiles --atmosfileorder zuvwtdp --skiplines 1 --azimuth 90 --freq 0.1 --use_profile_ranges_km 0_100_200_300 --maxrange_km 500" );
  opt->addUsage( "" );  
  opt->addUsage( "    ../bin/ModessRD2WCM --g2senvfile g2sgcp2011012606L.jordan.env --atmosfileorder zuvwtdp --skiplines 1 --azimuth 90 --freq 0.1 --use_profile_ranges_km 0_100_200_250 --maxrange_km 500" );
  opt->addUsage( "" );
  opt->addUsage( "    ../bin/ModessRD2WCM --use_1D_profiles_from_dir profiles --atmosfileorder zuvwtdp --skiplines 1 --azimuth 90 --freq 0.1 --maxrange_km 500" );
  opt->addUsage( "" ); 
  opt->addUsage( "    Note: if options --use_profile_ranges_km/--use_profiles_at_steps_km are not used then we fall back on the range-independent case using the first available atm. profile." );
  opt->addUsage( "" );

  // Set up the actual flags, etc.
  opt->setFlag( "help", 'h' );
  opt->setFlag( "write_2D_TLoss" );
  opt->setFlag( "plot" );

  opt->setOption( "atmosfile" );
  opt->setOption( "atmosfileorder" );
  opt->setOption( "g2senvfile" );
  opt->setOption( "wind_units" );  
  opt->setOption( "use_1D_profiles_from_dir" );
  opt->setOption( "slicefile" );  
  opt->setOption( "skiplines" );		
  opt->setOption( "azimuth" );
  opt->setOption( "freq" );
  opt->setOption( "maxrange_km" );
  opt->setOption( "sourceheight_km" );
  opt->setOption( "receiverheight_km" );
  opt->setOption( "maxheight_km" );
  opt->setOption( "zground_km" );  
  opt->setOption( "stepsize" );
  opt->setOption( "Nz_grid" );
  opt->setOption( "Nrng_steps" );
  opt->setOption( "ground_impedance_model" );
  opt->setOption( "Lamb_wave_BC" );
  opt->setOption( "use_profile_ranges_km" ); 
  opt->setOption( "use_profiles_at_steps_km" );
  opt->setOption( "use_attn_file" );

  // Process the command-line arguments
  opt->processFile( "./ModessRD2WCM.options" );
  opt->processCommandArgs( argc, argv );

  if( ! opt->hasOptions()) { // print usage if no options
		  opt->printUsage();
		  delete opt;
		  exit( 1 );
  }

  // Check to see if help text was requested
  if ( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ) {
	  opt->printUsage();
	  exit( 1 );
  }

  return opt;
}
示例#13
0
void
detailed( int argc, char* argv[] )
{

        /* 1. CREATE AN OBJECT */
        AnyOption *opt = new AnyOption();

        /* 2. SET PREFERENCES  */
        //opt->noPOSIX(); /* do not check for POSIX style character options */
        //opt->setVerbose(); /* print warnings about unknown options */
        //opt->noUsage(); /* stop printing Usage */

        /* 3. SET THE USAGE/HELP   */
        opt->addUsage( "Usage: foo [OPTIONS]... [IMAGE FOLDER] " );
        opt->addUsage( "Unknown options/arguments encountered " );
        opt->addUsage( "Use -h or --help for a complete list of options" );

        /* 4. SET THE OPTION STRINGS/CHARACTERS */
        opt->setFlag(  "help", 'h' ); /* for help */
        opt->setOption(  "width", 'w' );
        opt->setOption(  "height" );
        opt->setFlag( "convert");
        opt->setCommandOption(  "name", 'n' );
        opt->setCommandFlag(  "help" );
        opt->setFileOption(  "title" );

        /* 5. PROVIDE THE COMMANDLINE AND RESOURCE FILE */
        if (  ! opt->processFile( "sample.txt" ) )
                cout << "Failed processing the resource file" << endl ;
        opt->processCommandArgs( argc, argv );

        /* 6. GET THE VALUES */
        /* help */
        if( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ){
                opt->printUsage();
		/* print help here */
        }
	cout << "THE OPTIONS : " << endl << endl ;
	if( opt->getValue( 'w' ) != NULL )
        	cout << "w      : " << opt->getValue( 'w' ) << endl ;
	if( opt->getValue( "width" ) != NULL )
        	cout << "width  : " << opt->getValue( "width" ) << endl ;
	if( opt->getValue( "height" ) != NULL )
        	cout << "height : " << opt->getValue( "height" ) << endl ;
	if( opt->getValue( "name" ) != NULL )
       	 	cout << "name   : " << opt->getValue( "name" ) << endl ;
	if( opt->getValue( 'n' ) != NULL )
        	cout << "n      : " << opt->getValue( 'n' ) << endl ;
	if( opt->getValue( "title" ) != NULL )
        	cout << "title  : " << opt->getValue( "title" ) << endl ;
        if( opt->getFlag( "convert" ) )  
		cout << "convert : set " << endl ;
        cout << endl ;

	/* 7. GET THE ACTUAL ARGUMNETS AFTER THE OPTIONS */
	cout << "THE ARGUMENTS : " << endl << endl ;
	for( int i = 0 ; i < opt->getArgc() ; i++ ){
		cout << opt->getArgv( i ) << endl ;
	}
	cout << endl;

        /* 7. DONE */
        delete opt;

}
示例#14
0
文件: main.cpp 项目: papadop/dtk
int main(int argc, char** argv)
{
    QApplication app(argc, argv);

    AnyOption options;
    options.addUsage(QString("Usage: %1 --help | --console | [--output path --prefix prefixName --suffix suffixName --type typeName").arg(argv[0]).toAscii());
    options.addUsage("");
    options.addUsage("--help                Displays this message.");
    options.addUsage("--console             Run the gui version.");
    options.addUsage("--output [path]       Output directory for the plugin skeleton.");
    options.addUsage("--prefix [prefixName] Prefix to use for the plugin.");
    options.addUsage("--suffix [suffixName] Suffix to use for the plugin.");
    options.addUsage("--type [typeName]     Type to use for the plugin.");
    options.addUsage("--quiet               Process quietly (non gui generation only).");

    options.setFlag("help");
    options.setFlag("console");

    options.setOption("output");
    options.setOption("prefix");
    options.setOption("suffix");
    options.setOption("type");
    options.setOption("quiet");

    options.processCommandArgs(argc, argv);

    if(options.getFlag("help")) {
        options.printUsage();
        return 0;
    }

    if(options.getFlag("console")) {

        bool paramsOk = options.getValue("output") && options.getValue("prefix") && options.getValue("type") && options.getValue("suffix");

        if( !paramsOk ) {
            options.printUsage();
            return 1;
        }

        if(!options.getFlag("quiet")) {
            qDebug() << "output = " << options.getValue("output");
            qDebug() << "prefix = " << options.getValue("prefix");
            qDebug() << "suffix = " << options.getValue("suffix");
            qDebug() << "type = " << options.getValue("type");
        }

        dtkPluginGenerator generator;
        generator.setOutputDirectory(options.getValue("output"));
        generator.setPrefix(options.getValue("prefix"));
        generator.setSuffix(options.getValue("suffix"));
        generator.setType(options.getValue("type"));

        bool resultGenerator = generator.run();

        if(!options.getFlag("quiet")) {
            if(resultGenerator)
                qDebug() << "Generation succeeded.";
            else
                qDebug() << "Plugin generation: Generation failed.";
        }

    } else {

        dtkPluginGeneratorMainWindow generator;
        generator.show();
	generator.raise();
        return app.exec();
        
    }
}
示例#15
0
int main(int argc, char** argv)
#endif
/*
#else
int WinMain(
    HINSTANCE hInstance,
    HINSTANCE hPrevInstance,
    LPSTR lpCmdLine,
    int nCmdShow)
#endif
*/
{
	string datapath;

	AnyOption *opt = new AnyOption();
	
    opt->addUsage( "" );
    opt->addUsage( "Usage: " );
    opt->addUsage( "" );
    opt->addUsage( " -h  --help  				Prints this help " );
    opt->addUsage( " -d  --data-path /dir		Data files path " );
    opt->addUsage( "" );

	opt->setFlag(  "help", 'h' );
	opt->setOption(  "data-path", 'd' );

	opt->processCommandArgs( argc, argv );

    if( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ) 
	{
    	GWDBG_OUTPUT("Usage")
        opt->printUsage();
		delete opt;
		return 0;
	}
	if( opt->getValue( 'd' ) != NULL  || opt->getValue( "data-size" ) != NULL  )
		datapath = opt->getValue('d');

	delete opt;

    try
    {
#ifdef GP2X
        GW_PlatformGP2X platform;
#elif defined(GW_PLAT_PANDORA)
        GW_PlatformPandora platform;
#elif defined(GW_PLAT_S60)
        GW_PlatformS60 platform;
#elif defined(GW_PLAT_WIZ)
        GW_PlatformWIZ platform;
#elif defined(GW_PLAT_ANDROID)
        GW_PlatformAndroid platform;
#elif defined(GW_PLAT_IOS)
        GW_PlatformIOS platform;
#else
        GW_PlatformSDL platform(640, 480);
#endif
		if (!datapath.empty())
			platform.datapath_set(datapath);

        platform.initialize();

        GW_GameList gamelist(&platform);

        GW_Menu menu(&platform, &gamelist);
        menu.Run();

        platform.finalize();
    } catch (GW_Exception &e) {
    	GWDBG_OUTPUT(e.what().c_str())
        fprintf(stderr, "%s\n", e.what().c_str());
        return 1;
    }

    return 0;
}
示例#16
0
文件: main.cpp 项目: jksr/xu
int process_option(int argc, char* argv[]){
	AnyOption *opt = new AnyOption();
	opt->setVerbose();
	opt->addUsage( "" );
	opt->addUsage( "Usage: " );
	opt->addUsage( "" );
	opt->addUsage( "--S0" );
	opt->addUsage( "--G0" );
	opt->addUsage( "--RhoGEF0" );
	opt->addUsage( "--RhoA0" );
	opt->addUsage( "--Inhibitor0" );
	opt->addUsage( "--kg1" );
	opt->addUsage( "--kg2" );
	opt->addUsage( "--kf1" );
	opt->addUsage( "--kfd" );
	opt->addUsage( "--kg3" );
	opt->addUsage( "--kgd" );
	opt->addUsage( "--kf2" );
	opt->addUsage( "--ka1" );
	opt->addUsage( "--ka2" );
	opt->addUsage( "--ki1" );
	opt->addUsage( "--kid" );
	opt->addUsage( "" );

	opt->setOption( "S0" );
	opt->setOption( "G0" );
	opt->setOption( "RhoGEF0" );
	opt->setOption( "RhoA0" );
	opt->setOption( "Inhibitor0" );
	opt->setOption( "kg1" );
	opt->setOption( "kg2" );
	opt->setOption( "kf1" );
	opt->setOption( "kfd" );
	opt->setOption( "kg3" );
	opt->setOption( "kgd" );
	opt->setOption( "kf2" );
	opt->setOption( "ka1" );
	opt->setOption( "ka2" );
	opt->setOption( "ki1" );
	opt->setOption( "kid" );
	

	opt->processCommandArgs( argc, argv );
	if( opt->getValue( "S0" ) != NULL  ){
		S0 = atof(opt->getValue( "S0" ));
	}
	if( opt->getValue( "G0" ) != NULL  ){
		G0 = atof(opt->getValue( "G0" ));
	}
	if( opt->getValue( "RhoGEF0" ) != NULL  ){
		RhoGEF0 = atof(opt->getValue( "RhoGEF0" ));
	}
	if( opt->getValue( "RhoA0" ) != NULL  ){
		RhoA0 = atof(opt->getValue( "RhoA0" ));
	}
	if( opt->getValue( "Inhibitor0" ) != NULL  ){
		Inhibitor0 = atof(opt->getValue( "Inhibitor0" ));
	}
	if( opt->getValue( "kg1" ) != NULL  ){
		kg1 = atof(opt->getValue( "kg1" ));
	}
	if( opt->getValue( "kg2" ) != NULL  ){
		kg2 = atof(opt->getValue( "kg2" ));
	}
	if( opt->getValue( "kf1" ) != NULL  ){
		kf1 = atof(opt->getValue( "kf1" ));
	}
	if( opt->getValue( "kfd" ) != NULL  ){
		kfd = atof(opt->getValue( "kfd" ));
	}
	if( opt->getValue( "kg3" ) != NULL  ){
		kg3 = atof(opt->getValue( "kg3" ));
	}
	if( opt->getValue( "kgd" ) != NULL  ){
		kgd = atof(opt->getValue( "kgd" ));
	}
	if( opt->getValue( "kf2" ) != NULL  ){
		kf2 = atof(opt->getValue( "kf2" ));
	}
	if( opt->getValue( "ka1" ) != NULL  ){
		ka1 = atof(opt->getValue( "ka1" ));
	}
	if( opt->getValue( "ka2" ) != NULL  ){
		ka2 = atof(opt->getValue( "ka2" ));
	}
	if( opt->getValue( "ki1" ) != NULL  ){
		ki1 = atof(opt->getValue( "ki1" ));
	}
	if( opt->getValue( "kid" ) != NULL  ){
		kid = atof(opt->getValue( "kid" ));
	}
	return 0;
}
示例#17
0
文件: main.cpp 项目: treecode/Bonsai
int main(int argc, char * argv[], MPI_Comm commWorld)
{
#else
int main(int argc, char * argv[])
{
 MPI_Comm commWorld;
#endif

  std::string fileName;
  int reduceDM    =  10;
  int reduceS=  1;
#ifndef PARTICLESRENDERER
  std::string fullScreenMode    = "";
  bool stereo     = false;
#endif
  int nmaxsample = 200000;
  std::string display;

  bool inSitu = false;
  bool quickSync = true;
  int sleeptime = 1;

  {
    AnyOption opt;

#define ADDUSAGE(line) {{std::stringstream oss; oss << line; opt.addUsage(oss.str());}}

    ADDUSAGE(" ");
    ADDUSAGE("Usage:");
    ADDUSAGE(" ");
    ADDUSAGE(" -h  --help             Prints this help ");
    ADDUSAGE(" -i  --infile #         Input snapshot filename ");
    ADDUSAGE(" -I  --insitu          Enable in-situ rendering ");
    ADDUSAGE("     --sleep  #        start up sleep in sec [1]  ");
    ADDUSAGE("     --noquicksync      disable syncing with simulation [enabled] ");
    ADDUSAGE("     --reduceDM    #    cut down DM dataset by # factor [10]. 0-disable DM");
    ADDUSAGE("     --reduceS     #    cut down stars dataset by # factor [1]. 0-disable S");
#ifndef PARTICLESRENDERER
    ADDUSAGE("     --fullscreen  #    set fullscreen mode string");
    ADDUSAGE("     --stereo           enable stereo rendering");
#endif
    ADDUSAGE(" -s  --nmaxsample   #   set max number of samples for DD [" << nmaxsample << "]");
    ADDUSAGE(" -D  --display      #   set DISPLAY=display, otherwise inherited from environment");


    opt.setFlag  ( "help" ,        'h');
    opt.setOption( "infile",       'i');
    opt.setFlag  ( "insitu",       'I');
    opt.setOption( "reduceDM");
    opt.setOption( "sleep");
    opt.setOption( "reduceS");
    opt.setOption( "fullscreen");
    opt.setFlag("stereo");
    opt.setOption("nmaxsample", 's');
    opt.setOption("display", 'D');
    opt.setFlag  ( "noquicksync");

    opt.processCommandArgs( argc, argv );


    if( ! opt.hasOptions() ||  opt.getFlag( "help" ) || opt.getFlag( 'h' ) )
    {
      /* print usage if no options or requested help */
      opt.printUsage();
      ::exit(0);
    }

    char *optarg = NULL;
    if (opt.getFlag("insitu"))  inSitu = true;
    if ((optarg = opt.getValue("infile")))       fileName           = std::string(optarg);
    if ((optarg = opt.getValue("reduceDM"))) reduceDM       = atoi(optarg);
    if ((optarg = opt.getValue("reduceS"))) reduceS       = atoi(optarg);
#ifndef PARTICLESRENDERER
    if ((optarg = opt.getValue("fullscreen")))	 fullScreenMode     = std::string(optarg);
    if (opt.getFlag("stereo"))  stereo = true;
#endif
    if ((optarg = opt.getValue("nmaxsample"))) nmaxsample = atoi(optarg);
    if ((optarg = opt.getValue("display"))) display = std::string(optarg);
    if ((optarg = opt.getValue("sleep"))) sleeptime = atoi(optarg);
    if (opt.getValue("noquicksync")) quickSync = false;

    if ((fileName.empty() && !inSitu) ||
        reduceDM < 0 || reduceS < 0)
    {
      opt.printUsage();
      ::exit(0);
    }

#undef ADDUSAGE
  }

  MPI_Comm comm = MPI_COMM_WORLD;
  int mpiInitialized = 0;
  MPI_Initialized(&mpiInitialized);
  if (!mpiInitialized)
    MPI_Init(&argc, &argv);
  else
    comm = commWorld;

  int nranks, rank;
  MPI_Comm_size(comm, &nranks);
  MPI_Comm_rank(comm, &rank);

  char processor_name[MPI_MAX_PROCESSOR_NAME];
  int namelen;
  MPI_Get_processor_name(processor_name,&namelen);
  fprintf(stderr, "bonsai_renderer:: Proc id: %d @ %s , total processes: %d (mpiInit) \n", rank, processor_name, nranks);

  if (rank == 0)
  {
    char hostname[256];
    gethostname(hostname,256);
    char * display = getenv("DISPLAY");
    fprintf(stderr, "root: %s  display: %s \n", hostname, display);
  }

  if (!display.empty())
  {
    std::string var="DISPLAY="+display;
    putenv((char*)var.c_str());
  }

  if (rank == 0)
    fprintf(stderr, " Sleeping for %d seconds \n", sleeptime);
  sleep(sleeptime);



  using BonsaiCatalystDataT = BonsaiCatalystData;
  BonsaiCatalystDataT *rDataPtr;
  if (inSitu)
  {
    rDataPtr = new BonsaiCatalystDataT(rank,nranks,comm);
  }
  else
  {
    if ((rDataPtr = readBonsai<BonsaiCatalystDataT>(rank, nranks, comm, fileName, reduceDM, reduceS)))
    {}
    else
    {
      if (rank == 0)
        fprintf(stderr, " I don't recognize the format ... please try again , or recompile to use with old tipsy if that is what you use ..\n");
      MPI_Finalize();
      ::exit(-1);
    }
    rDataPtr->computeMinMax();
    rDataPtr->setNewData();
  }

  assert(rDataPtr != 0);


  auto callbackFunc = [&](const int code) 
  {
    int quitL = (code == -1) || terminateRenderer;  /* exit code */
    int quitG;
    MPI_Allreduce(&quitL, &quitG, 1, MPI_INT, MPI_SUM, comm);
    if (quitG)
    {
      MPI_Finalize();
      ::exit(0);
    }

    if (inSitu )
      if (fetchSharedData(quickSync, *rDataPtr, rank, nranks, comm, reduceDM, reduceS))
      {
        rDataPtr->setNewData();
      }
  };

  bonsaistd::function<void(int)> callback = callbackFunc;
  callback(0);  /* init data set */

  renderer(
      argc, argv, 
      rank, nranks, comm,
      *rDataPtr,
      fullScreenMode.c_str(), 
      stereo,
      callback);

//  while(1) {}
  return 0;
}
示例#18
0
/// parse the command line options for the program
AnyOption *parseOptions (int argc, char *argv[], algorithm_t &algorithm) {
        AnyOption *opt = new AnyOption;

        /* parse command line options */
        opt->setFlag ("help", 'h'); /* a flag (takes no argument), supporting long and short form */
        opt->setOption ("loglevel", 'l');
        opt->setOption ("sort", 's');
        opt->setFlag ("x", 'x'); /* special debugging flag */
        opt->setOption ("restart", 'r');
        opt->setOption ("oaconfig", 'c');    /* file that specifies the design */
        opt->setOption ("output", 'o');      /* prefix for output files */
        opt->setFlag ("generate", 'g');      /* only generate extensions, do not perform LMC check */
        opt->setFlag ("coptions");           /* print compile time options */
        opt->setOption ("format", 'f');      /* format to write to */
        opt->setOption ("mode", 'm');        /* algorithm method */
        opt->setOption ("maxk", 'K');        /* max number of columns to extend to */
        opt->setOption ("rowsymmetry", 'R'); /* max number of columns to extend to */

        opt->setFlag ("streaming"); /* operate in streaming mode */

        opt->setOption ("initcolprev", 'I'); /* algorithm method */

        opt->addUsage ("Orthonal Arrays: extend orthogonal arrays");
#ifdef OAEXTEND_SINGLECORE
        opt->addUsage ("Usage: oaextendmpi [OPTIONS]");
#else
        opt->addUsage ("Usage: oaextendsingle [OPTIONS]");
#endif

        opt->addUsage ("");
        opt->addUsage (" -h  --help  			Prints this help ");
        opt->addUsage (" --coptions			Show compile time options used ");
        opt->addUsage (" -r [FILE]  --restart [FILE]	Restart with results file ");
        opt->addUsage (" -l [LEVEL] --loglevel [LEVEL]	Set loglevel to number ");
        opt->addUsage (" -s [INTEGER] --sort [INTEGER]	Sort input and output arrays (default: 1) ");
        opt->addUsage (" -c [FILE]  --oaconfig [FILE]	Set file with design specification");
        opt->addUsage (" -g  --generate [FILE]		Only generate arrays, do not perform LMC check");
        opt->addUsage ("  --rowsymmetry [VALUE]		Use row symmetry in generation");
        opt->addUsage (" -o [STR]  --output [FILE]	Set prefix for output (default: result) ");
        opt->addUsage (" -f [FORMAT]			Output format (default: TEXT, or BINARY, D, Z). Format D is "
                       "binary difference, format Z is binary with zero-difference ");
        opt->addUsage (" --initcolprev [INTEGER]	Initialization method of new column (default: 1)");
        opt->addUsage (
            " --maxk [INTEGER] Maximum number of columns to exten to (default: extracted from config file) ");
        opt->addUsage (
            " --streaming			Operate in streaming mode. Generated arrays will be written to disk "
            "immediately. ");

        std::string ss = printfstring (" -m [MODE]			Algorithm (") + algorithm_t_list () + ")\n";
        opt->addUsage (ss.c_str ());
        // opt->printUsage();
        opt->addUsage ("");
        opt->addUsage ("Example: ./oaextendsingle -l 2");

        opt->processCommandArgs (argc, argv);

        if (opt->getValue ("mode") != NULL || opt->getValue ('m') != NULL) {
                int vv = atoi (opt->getValue ('m')); // set custom loglevel
                algorithm = (algorithm_t)vv;
        } else {
                algorithm = MODE_AUTOSELECT;
        }

        return opt;
}
示例#19
0
/**
	Utilizing AnyOption class, take the command line and parse it for valid options. Handle usage printout as well.
	@param argc argc from main()
	@param char**argv array of char* directly from main()
	@returns If an error occurs, return false. Currently no errors. Always returns true.
 */
bool parsecmd(int argc, char**argv)
{
    stringstream str;
    // Setup all default values if not already set by simple strings and values above.

    if (getenv("WEBRTC_SERVER"))
        mainserver = xGetDefaultServerName();

    if (getenv("WEBRTC_CONNECT"))
    {
        stunserver = "STUN ";
        stunserver += xGetPeerConnectionString();
    }
    
    peername = xGetPeerName();
    
	AnyOption *opt = new AnyOption();

	opt->addUsage("Usage: ");
	opt->addUsage("");
	opt->addUsage(" -h  --help                    Prints this help ");
    opt->addUsage(" --server <servername|IP>[:<serverport>]      Main sever and optional port.");
	opt->addUsage(
			" --stun <stunserver|IP>[:<port>]      STUN server (and optionally port).\n   Default is " STUNSERVER_DEFAULT);
	opt->addUsage(
			" --peername <Name>     Use this name as my client/peer name online.");
    opt->addUsage(" --avopts <none|audio|video|audiovideo>      Enable audio, video, or audiovideo.");
	opt->addUsage("");
    opt->addUsage("Environment variables can be used as defaults as well.");
    opt->addUsage("  WEBRTC_SERVER - Main server name.");
    opt->addUsage("  WEBRTC_CONNECT - STUN server name with port.");
    opt->addUsage("  USERNAME - Peer user name.");
	opt->addUsage("");

	opt->setFlag("help", 'h');
	opt->setOption("server");
	opt->setOption("stun");
	opt->setOption("peername");
	opt->setOption("avopts");

	opt->processCommandArgs(argc, argv);

	/* 6. GET THE VALUES */
	if (opt->getFlag("help") || opt->getFlag('h'))
	{
		opt->printUsage();
		exit(1);
	}

    if (opt->getValue("server"))
    {
        cout << "New main server is " << opt->getValue("server") << endl;
        
        string serverloc = opt->getValue("server");
        size_t colonpos = serverloc.find(':');
        mainserver = serverloc.substr(0,colonpos);
        
        if(colonpos != string::npos)
        {
            stringstream sstrm;
            sstrm << serverloc.substr(colonpos+1);
            sstrm >> mainserver_port;
        }
示例#20
0
AnyOption *parseInputOptions( int argc, char **argv ) {
	
	
	// parse input options
	AnyOption *opt = new AnyOption();

	opt->addUsage( "Usage: " );
	opt->addUsage( "" );
	opt->addUsage( "The options below can be specified in a colon-separated file \"raytrace.2d.options\" or at the command line.  Command-line options override file options." );
	opt->addUsage( " --help -h                Print this message and exit" );
	//opt->addUsage( " --atmosout               Output the atmosphere and all its derivatives to atmospheric_profile.out");
	opt->addUsage( "" );
	opt->addUsage( "To use an arbitrary 1-D atmospheric profile in ASCII format (space or comma-separated) the following options apply:" );
	opt->addUsage( "REQUIRED (no default values):" );
	opt->addUsage( " --atmosfile  <filename>  Uses an ASCII atmosphere file" );
	opt->addUsage( " --atmosfileorder         The order of the (z,t,u,v,w,p,d) fields in the ASCII file (Ex: 'ztuvpd')" );
	opt->addUsage( " --elev                   Value in range (-90,90)" );
	opt->addUsage( " --azimuth                Value in range [0,360), clockwise from north" );
	opt->addUsage( " --maxraylength           Maximum ray length to calculate (km) [none]" );
	opt->addUsage( "OPTIONAL [defaults]:" );
	opt->addUsage( " --skiplines              Lines at the beginning of the ASCII file to skip [0]" );
	opt->addUsage( " --maxelev                Maximum elevation angle to calculate [--elev value]" );
	opt->addUsage( " --delev                  Elevation angle step [1]" );
	opt->addUsage( " --maxazimuth             Maximum azimuth to calculate [--azimuth value]" );
	opt->addUsage( " --dazimuth               Azimuth angle step [1]" );
	opt->addUsage( " --sourceheight           Height at which to begin raytrace [ground level]" );
	opt->addUsage( " --maxheight              Height at which to cut off calculation [150 km]" );
	opt->addUsage( " --maxrange               Maximum distance from origin to calculate (km) [no maximum]" );
	opt->addUsage( " --stepsize               Ray length step size for computation, km [0.01]" );
	opt->addUsage( " --skips                  Maximum number of skips to allow.  Use 0 for no limits.  [0]" );
	opt->addUsage( " --wind_units             Specify 'kmpersec' if the winds are given in km/s [mpersec]" );
	opt->addUsage( "FLAGS (no value required):" );
	opt->addUsage( " --partial                Report the final, incomplete raypath as well as the complete bounces." );
	opt->addUsage( "" );
/*
	
	opt->addUsage( "To use a set of ASCII files that form a 2-D slice of the atmosphere the following options apply:" );
	opt->addUsage( "REQUIRED (no default values):" );
	opt->addUsage( " --slicefile  <filename>  The name of the summary file describing the path (see documentation)" );
	opt->addUsage( " --elev                   Value in range (-90,90)" );
	opt->addUsage( " --maxraylength           Maximum ray length to calculate (km) [none]" );
	opt->addUsage( "OPTIONAL [defaults]:" );
	opt->addUsage( " --maxelev                Maximum elevation angle to calculate [--elev value]" );
	opt->addUsage( " --delev                  Elevation angle step [1]" );
	opt->addUsage( " --maxazimuth             Maximum azimuth to calculate [--azimuth value]" );
	opt->addUsage( " --dazimuth               Azimuth angle step [1]" );
	opt->addUsage( " --sourceheight           Height at which to begin raytrace [ground level]" );
	opt->addUsage( " --maxheight              Height at which to cut off calculation [150 km]" );
	opt->addUsage( " --maxrange               Maximum distance from origin to calculate (km) [no maximum]" );
	opt->addUsage( " --stepsize               Ray length step size for computation, km [0.01]" );
	opt->addUsage( " --skips                  Maximum number of skips to allow.  Use 0 for no limits.  [0]" );
	opt->addUsage( "FLAGS (no value required):" );
	opt->addUsage( " --partial                Report the final, incomplete raypath as well as the complete bounces." );
	opt->addUsage( "" );
	
	
	
	opt->addUsage( "To use an analytic profile with Gaussian wind jets the following options apply:" );
	opt->addUsage( "REQUIRED (no default values):" );
	opt->addUsage( " --jetfile  <filename>    The parameter file for the profile" );
	opt->addUsage( " --elev                   Value in range (-90,90)" );
	opt->addUsage( " --azimuth                Value in range [0,360), clockwise from north (optional for --envfile)" );
	opt->addUsage( " --maxraylength           Maximum ray length to calculate (km) [none]" );
	opt->addUsage( "OPTIONAL [defaults]:" );
	opt->addUsage( " --maxelev                Maximum elevation angle to calculate [--elev value]" );
	opt->addUsage( " --delev                  Elevation angle step [1]" );
	opt->addUsage( " --maxazimuth             Maximum azimuth to calculate [--azimuth value]" );
	opt->addUsage( " --dazimuth               Azimuth angle step [1]" );
	opt->addUsage( " --sourceheight           Height at which to begin raytrace [ground level]" );
	opt->addUsage( " --maxheight              Height at which to cut off calculation [150 km]" );
	opt->addUsage( " --maxrange               Maximum distance from origin to calculate (km) [no maximum]" );
	opt->addUsage( " --stepsize               Ray length step size for computation, km [0.1]" );
	opt->addUsage( " --skips                  Maximum number of skips to allow.  Use 0 for no limits.  [0]" );
	opt->addUsage( "FLAGS (no value required):" );
	opt->addUsage( " --partial                Report the final, incomplete raypath as well as the complete bounces." );
*/
	opt->addUsage( "" );
	opt->addUsage( "Examples (run from 'samples' directory):" );
	opt->addUsage( "../bin/raytrace.2d --azimuth 90 --elev 1 --delev 1 --maxelev 45 --skips 1 --atmosfile NCPA_canonical_profile_zuvwtdp.dat --atmosfileorder zuvwtdp --maxraylength 800 --maxheight 140" );
	opt->addUsage( "cat raypath_az090* > raypaths.2d.dat" );
	opt->addUsage( "rm raypath_az090*" );

	// Set up the actual flags and stuff
	opt->setFlag( "help", 'h' );
	opt->setFlag( "norange" );
	opt->setFlag( "atmosout" );
	opt->setFlag( "partial" );
	opt->setOption( "slicefile" );
	opt->setOption( "atmosfile" );
	opt->setOption( "jetfile" );
	opt->setOption( "elev" );
	opt->setOption( "azimuth" );
	opt->setOption( "maxraylength" );
	opt->setOption( "lat" );
	opt->setOption( "lon" );
	opt->setOption( "maxrange" );
	opt->setOption( "maxelev" );
	opt->setOption( "delev" );
	opt->setOption( "maxazimuth" );
	opt->setOption( "dazimuth" );
	opt->setOption( "sourceheight" );
	opt->setOption( "maxheight" );
	opt->setOption( "stepsize" );
	opt->setOption( "dZ" );
	opt->setOption( "dR" );
	opt->setOption( "atmosfileorder" );
	opt->setOption( "skiplines" );
	opt->setOption( "skips" );
	opt->setOption( "wind_units" );

	// Process the command-line arguments
	opt->processFile( "./raytrace.2d.options" );
	opt->processCommandArgs( argc, argv );
	
	if( ! opt->hasOptions()) { // print usage if no options
		opt->printUsage();
		delete opt;
		exit( 1 );
        }

	// Check to see if help text was requested
	if ( opt->getFlag( "help" ) || opt->getFlag( 'h' ) ) {
		opt->printUsage();
		exit( 1 );
	}

	return opt;
}
示例#21
0
文件: main.cpp 项目: buresmi7/NNSA
int main(int argc, char **argv){
	// nekonstantni nastaveni generatoru nahodnych cisel
	srand((unsigned int)time(0));
	// server cast
	clock_t t1, t2;
	t1 = clock();	

	int NP = 50;
	double F = 0.7; 
	double CR = 0.6; 
	int Generations = 10; 
	int pocet_neuronu = 5; 
	char *nejlepsi_jedinec = "nejlepsi_jedinec.txt";
	char *data = "data.txt";
	int tichy = 0;

	// parsovani parametru
	AnyOption *opt = new AnyOption();
	opt->setVerbose(); /* print warnings about unknown options */
    opt->autoUsagePrint(true); /* print usage for bad options */

	opt->addUsage( "" );
	opt->addUsage( "NNSA (Neural Network Space Arcade) - Testovani rekuretni neuronove site na jednoduche arkade" );
    opt->addUsage( "" );
	opt->addUsage( "Pouziti: " );
    opt->addUsage( "" );
    opt->addUsage( " -h   --help		Zobrazi tuto napovedu " );    
	opt->addUsage( " -n jedinec.txt	Nejlepsi jedinec " ); 
	opt->addUsage( " -d data.txt		Udaje o jednotlivych generacich " ); 
	opt->addUsage( " " );
	opt->addUsage( "      --NP 60	Velikost populace " );
	opt->addUsage( "      --F 0.7	Mutacni konstanta " );
	opt->addUsage( "      --CR 0.8	Prah krizeni " );
	opt->addUsage( "      --generations 100	Pocet kol slechteni populace " );
	opt->addUsage( "      --neurons 4	Pocet neuronu v neuronove siti " );
	opt->addUsage( "      --quiet 1		Neukecany rezim " );
    opt->addUsage( "" );

	opt->setFlag( "help", 'h');   /* a flag (takes no argument), supporting long and short form */
	opt->setOption('n');
	opt->setOption('d');
	opt->setOption("NP");
	opt->setOption("F");
	opt->setOption("CR");
	opt->setOption("generations");
	opt->setOption("neurons");
	opt->setOption("quiet");
	
	opt->processCommandArgs(argc, argv);

	NP = atoi(opt->getValue("NP"));
	F = atof(opt->getValue("F"));
	CR = atof(opt->getValue("CR")); 
	Generations = atoi(opt->getValue("generations"));
	pocet_neuronu = atoi(opt->getValue("neurons"));
	nejlepsi_jedinec = opt->getValue('n');
	data = opt->getValue('d');
	tichy = atoi(opt->getValue("quiet"));

	cout << "Parametry diferencialni evoluce:" << endl;
	cout << " -> Velikost populace NP = " << NP << endl;
	cout << " -> Mutacni konstanta F = " << F  << endl;
	cout << " -> Prah krizeni CR = " << CR << endl;
	cout << " -> Pocet generaci = " << Generations << endl;
	cout << " -> Pocet neuronu = " << pocet_neuronu << endl;

	DiferencialniEvoluce *d1 = new DiferencialniEvoluce(NP, F, CR, Generations, pocet_neuronu, &ohodnoceni, tichy, data);
	d1->UlozNejlepsiJedinec(nejlepsi_jedinec);
	

	// 32bit - pretece cca po 36 minutach
	t2 = clock();
	cout << "Doba behu programu: " << ((double) (t2 - t1))/CLOCKS_PER_SEC << endl;


	return 0;
}