Beispiel #1
0
int main(int argc, char *argv[])
{		
	// Variables	
	// Default CSS
	char CSSFILE[12]="style.css";

	// Pointers to filenames
	char *infofilename = INFO;
	char *logfilename = LOG;
	
	// Handle arguments
	int opt;
	while ((opt=getopt_long(argc, argv, "dvhm", main_options, NULL)) != EOF)
	{
		switch (opt)
		{
		case 'h':
			help();
			exit(0);
		case 'd':
			debug();
			exit(0);
		case 'v':
			printf("%s (v%s) by MS3FGX\n", APPNAME, VERSION);
			exit(0);
			break;
		case 'm':
			strcpy(CSSFILE, "mobile.css");
			mobile = 1;
			break;
		default:
			printf("Unknown option.\n");
			exit(0);
		}
	}
	
	// Bail out if we are root, except on WRT
	#ifndef OPENWRT
	if(getuid() == 0)
	{
		syslog(LOG_ERR,"CGI module refusing to run as root!");
		printf("Server attempting to run CGI module as root, bailing out!\n");
		printf("Check your web server configuration and try again.\n");
		exit(1);
	}
	#endif

	// Read in environment variable
	// Comment this to fix compiler warning until ready to implement
	//char* env_string;
	//env_string=getenv("QUERY_STRING");

	// Print HTML head
	print_header(CSSFILE);
	//print_html(CSSFILE);
	
	// Start container div
	if (!mobile)
		puts("<div id=\"container\">\n");

	// Open files
	if ((infofile = fopen(infofilename, "r")) == NULL)
	{
		syslog(LOG_ERR,"Error while opening %s!",infofilename);
		puts("<div id=\"content\">");
		printf("Error while opening %s!\n",infofilename);
		puts("</body></html>");
		exit(1);
	}
	
	if ((logfile = fopen(logfilename, "r")) == NULL)
	{
		syslog(LOG_ERR,"Error while opening %s!",logfilename);
		puts("<div id=\"content\">");
		printf("Error while opening %s!\n",logfilename);
		puts("</body></html>");
		exit(1);
	}
	
	// Draw sidebar\topbar
	read_log();
	if (!mobile)
		SideBar();
	else
		TopBar();
	
	// Content window
	puts("<div id=\"content\">");
	
	if (device_index > 0)
	{
		// Print results
		setup_table();
		print_devices();
		puts("</table>\n");
	}
	
	// Close content, body, and HTML
	puts("</div></body></html>");
	
	// Close files and exit
	shut_down();
	return 0;
}
 TabulationHashing() {
   setup_table();
   set_seed(0);
 }
 TabulationHashing( uint64_t s ) {
   setup_table();
   set_seed(s);
 }
void WindingWizardWidget::on_pb_search_clicked(){

    setup_table();

    int Qmin = ui->sp_Q_from->value()/3*3;
    int Qmax = ui->sp_Q_to->value()/3*3;

    int pmin = ui->sp_2p_from->value()/2*2;// poles!!!
    int pmax = ui->sp_2p_to->value()/2*2;

    double kwmin = ui->sp_kw_from->value();
    double kwmax = ui->sp_kw_to->value();

    mPhaseWinding W;
    StarOfSlot SS;
    id_column id;

    int i=0; //!< index for the various windings
    for (int q=Qmin; q<=Qmax; q+=3){
        for (int p=pmin; p<=pmax; p+=2){
            // Check if the winding is feasible
            SS = StarOfSlot(3, q, p/2);
            SS.CreateStar();
            SS.CreateSectors();
            int t     = SS.get_t();
            double yq = SS.get_yq();
            if (t>0){// The winding is feasible
                int    _Ncpg = q/3/abs(q-p);
                double  Ncpg = (double)q/3.0/(q-p);
                // Compute the winding
                W.ComputeWinding(3, q, p/2, false);
                W.setData();
                if (W.windings[0].get_kw() < kwmin ) continue;
                if (W.windings[0].get_kw() > kwmax ) continue;
                if (ui->cb_coil_group_ON->isChecked()&& fabs(Ncpg - _Ncpg)>1e-5 ) continue;
                if (ui->cb_coil_group->isChecked()&& ui->sp_coil_group->value()!=_Ncpg) continue;
                if (ui->cb_yq->isChecked()&& ui->sp_yq->value()!=yq) continue;
                if (ui->cb_Q_mult->isChecked()&& q%ui->sp_Q_mult->value()!=0) continue;

                // Data for permanent magnet
                double k     = 1;
                double a     = 4.2;
                double b     = 0.00017;
                double g     = 1e-3;
                double mu    = 1.05;
                double sigma = 1e6;
                int    N     = 100;
                int    f     = 50;
                double RLindex = W.get_RL_index(k,a,b,g,mu,sigma,N,f);


                // insert a row in the table
                ui->tw_winding->insertRow(i);
                // insert the number of slots
                QTableWidgetItem *item = new QTableWidgetItem(QString("%1").arg(q));
                ui->tw_winding->setItem(i,id.id_Q, item);
                // insert the number of poles
                                  item = new QTableWidgetItem(QString("%1").arg(p));
                ui->tw_winding->setItem(i,id.id_2p, item);
                // insert the winding factor
                                  item = new QTableWidgetItem(QString("%1").arg(W.windings[0].get_kw()));
                ui->tw_winding->setItem(i,id.id_kw, item);
                // insert the machine periodicity t
                                  item = new QTableWidgetItem(QString("%1").arg(t));
                ui->tw_winding->setItem(i,id.id_t, item);
                // insert the number of groups
                                  item = new QTableWidgetItem(QString("%1").arg(Ncpg));
                ui->tw_winding->setItem(i,id.id_Group, item);
                // insert the coil throw
                                  item = new QTableWidgetItem(QString("%1").arg(yq));
                ui->tw_winding->setItem(i,id.id_yq, item);
                // insert the RL index
                                  item = new QTableWidgetItem(QString("%1").arg(RLindex));
                ui->tw_winding->setItem(i,id.id_RL, item);
                ++i;}
            }
    }

    ui->tw_winding->resizeColumnsToContents();
    ui->tw_winding->resizeRowsToContents();
    ui->lb_found_item->setText(QString("%1 items").arg(ui->tw_winding->rowCount()));
    ui->tw_winding->selectAll();
    export_table_to_clipboard();

}