Examples of java.security.KeyStore$Entry$Attribute

• ucar.nc2.Attribute
  An attribute associated with a keystore entry. It comprises a name and one or more values. @since 1.8

    }

    setDimensions( dims);
    setDataType( DODSNetcdfFile.convertToNCType(array.bt));
    if (DODSNetcdfFile.isUnsigned( array.bt)) {
      addAttribute(new Attribute("_Unsigned", "true"));
    }

    DODSAttribute att = new DODSAttribute(_Coordinate.Axes, sbuff.toString());
    this.addAttribute( att);
  }

        ds.addVariable(null, v);

        String xname = findCoordinateName(ds, AxisType.GeoX);
        String yname = findCoordinateName(ds, AxisType.GeoY);
        if (xname != null && yname != null)
          v.addAttribute(new Attribute(_Coordinate.Axes, xname + " " + yname));
      }
      ds.finish();
    }

        Variable lat = ncDataset.findVariable("radar_latitude");
        Variable lon = ncDataset.findVariable("radar_longitude");
        float    latv = (float)lat.readScalarDouble();
        float    lonv = (float)lon.readScalarDouble();
        Variable pv = ncDataset.findVariable("Projection");
        pv.addAttribute(new Attribute("longitude_of_projection_origin", lonv) );
        pv.addAttribute(new Attribute("latitude_of_projection_origin", latv) );

        Variable sdate = ncDataset.findVariable("start_date");
        Variable stime = ncDataset.findVariable("start_time");
        Variable tvar = ncDataset.findVariable("time");
        String dateStr = sdate.readScalarString();

  public Nimbus() {
    this.conventionName = "NCAR-RAF/nimbus";
  }

  public void augmentDataset(NetcdfDataset ds, CancelTask cancelTask) throws IOException {
    ds.addAttribute(null, new Attribute("cdm_data_type", ucar.nc2.constants.FeatureType.TRAJECTORY.name()));

    if (!setAxisType(ds, "LATC", AxisType.Lat))
      if (!setAxisType(ds, "LAT", AxisType.Lat))
        setAxisType(ds, "GGLAT", AxisType.Lat);

    if (!setAxisType(ds, "LONC", AxisType.Lon))
      if (!setAxisType(ds, "LON", AxisType.Lon))
        setAxisType(ds, "GGLON", AxisType.Lon);

    if (!setAxisType(ds, "PALT", AxisType.Height))
      setAxisType(ds, "GGALT", AxisType.Height);

    boolean hasTime = setAxisType(ds, "Time", AxisType.Time);
    if (!hasTime)
      hasTime = setAxisType(ds, "time", AxisType.Time);

    // do we need to version this ?
    // String version =  ds.findAttValueIgnoreCase(null, "version", null);

    if (!hasTime) {
      Variable time = ds.findVariable("time_offset");
      if (time != null) {
        Variable base = ds.findVariable("base_time");
        int base_time = base.readScalarInt();
        try {
          DateUnit dunit = new DateUnit("seconds since 1970-01-01 00:00");
          String time_units = "seconds since " + dunit.makeStandardDateString(base_time);
          time.addAttribute(new Attribute("units", time_units));
          time.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Time.name()));
        } catch (Exception e) {
          e.printStackTrace();
        }
      }
    }

    // look for coordinates
    String coordinates = ds.findAttValueIgnoreCase(null, "coordinates", null);
    if (coordinates != null) {
      String[] vars = coordinates.split(" ");
      for (String vname : vars) {
        Variable v = ds.findVariable(vname);
        if (v != null) {
          AxisType atype = getAxisType(ds, (VariableEnhanced) v);
          if (atype != null)
            v.addAttribute(new Attribute(_Coordinate.AxisType, atype.name()));
        }
      }
    }

  }

  private boolean setAxisType(NetcdfDataset ds, String varName, AxisType atype) {
    Variable v = ds.findVariable(varName);
    if (v == null) return false;

    v.addAttribute(new Attribute(_Coordinate.AxisType, atype.toString()));
    return true;
  }

   * @param attname name of variable
   * @param defValue default value if attribute is not found
   * @return attribute value as a double, else NaN if not found
   */
  protected double readAttributeDouble(Variable v, String attname, double defValue) {
    Attribute att = v.findAttributeIgnoreCase(attname);
    if (att == null) return defValue;
    if (att.isString())
      return Double.parseDouble(att.getStringValue());
    else
      return att.getNumericValue().doubleValue();
  }

  public CoordinateTransform makeCoordinateTransform(NetcdfDataset ds, Variable ctv) {
    int zone = (int) readAttributeDouble( ctv, "utm_zone_number", Double.NaN);
    boolean isNorth = zone > 0;
    zone = Math.abs(zone);

    Attribute a;
    double axis = 0.0, f = 0.0;
    if (null != (a = ctv.findAttribute( "semimajor_axis")))
      axis = a.getNumericValue().doubleValue();
    if (null != (a = ctv.findAttribute( "inverse_flattening")))
      f = a.getNumericValue().doubleValue();

    // double a, double f, int zone, boolean isNorth
    UtmProjection proj = (axis != 0.0) ? new UtmProjection(axis, f, zone, isNorth) : new UtmProjection(zone, isNorth);
    return new ProjectionCT(ctv.getShortName(), "FGDC", proj);
  }

    addAxisType( v, a);
    return true;
  }

  private void addAxisType(Variable v, AxisType a) {
    v.addAttribute( new Attribute(_Coordinate.AxisType, a.toString()));
  }

  static public VariableDS makeDummyTransformVariable(NetcdfDataset ds, CoordinateTransform ct) {
    VariableDS v = new VariableDS( ds, null, null, ct.getName(), DataType.CHAR, "", null, null);
    List<Parameter> params = ct.getParameters();
    for (Parameter p : params) {
      if (p.isString())
        v.addAttribute(new Attribute(p.getName(), p.getStringValue()));
      else {
        double[] data = p.getNumericValues();
        Array dataA = Array.factory(double.class, new int[]{data.length}, data);
        v.addAttribute(new Attribute(p.getName(), dataA));
      }
    }
    v.addAttribute( new Attribute(_Coordinate.TransformType, ct.getTransformType().toString()));

    // fake data
    Array data = Array.factory(DataType.CHAR.getPrimitiveClassType(), new int[] {}, new char[] {' '});
    v.setCachedData(data, true);

            makeVariable( ncfile, ray0.getDatatypeName(key),ray0.getDatatypeName(key) , key, group);
        }



        ncfile.addAttribute(null, new Attribute("Conventions", _Coordinate.Convention));
        ncfile.addAttribute(null, new Attribute("format", headerParser.getDataFormat()));
        ncfile.addAttribute(null, new Attribute("cdm_data_type", FeatureType.RADIAL.toString()));
        //Date d = Cinrad2Record.getDate(volScan.getTitleJulianDays(), volScan.getTitleMsecs());
        //ncfile.addAttribute(null, new Attribute("base_date", formatter.toDateOnlyString(d)));
        ncfile.addAttribute(null, new Attribute("StationLatitude", new Double(headerParser.getStationLatitude())));
        ncfile.addAttribute(null, new Attribute("StationLongitude", new Double(headerParser.getStationLongitude())));
        ncfile.addAttribute(null, new Attribute("StationElevationInMeters", new Double(headerParser.getStationElevation())));
        ncfile.addAttribute(null, new Attribute("time_coverage_start", formatter.toDateTimeStringISO(headerParser.getStartDate())));; //.toDateTimeStringISO(d)));
        ncfile.addAttribute(null, new Attribute("time_coverage_end", formatter.toDateTimeStringISO(headerParser.getEndDate())));
        double latRadiusDegrees = Math.toDegrees( radarRadius / ucar.unidata.geoloc.Earth.getRadius());
        ncfile.addAttribute(null, new Attribute("geospatial_lat_min", new Double(headerParser.getStationLatitude() - latRadiusDegrees)));
        ncfile.addAttribute(null, new Attribute("geospatial_lat_max", new Double(headerParser.getStationLatitude() + latRadiusDegrees)));
        double cosLat = Math.cos( Math.toRadians(headerParser.getStationLatitude()));
        double lonRadiusDegrees = Math.toDegrees( radarRadius / cosLat / ucar.unidata.geoloc.Earth.getRadius());
        ncfile.addAttribute(null, new Attribute("geospatial_lon_min", new Double(headerParser.getStationLongitude() - lonRadiusDegrees)));
        ncfile.addAttribute(null, new Attribute("geospatial_lon_max", new Double(headerParser.getStationLongitude() + lonRadiusDegrees)));
        ncfile.addAttribute(null, new Attribute("history", "Direct read of Nexrad Level 2 file into NetCDF-Java 2.2 API"));
        ncfile.addAttribute(null, new Attribute("DataType", "Radial"));

        ncfile.addAttribute(null, new Attribute("Title", "Nexrad Level 2 Station "+headerParser.getStationId()+" from "+
            formatter.toDateTimeStringISO(headerParser.getStartDate()) + " to " +
            formatter.toDateTimeStringISO(headerParser.getEndDate())));

        ncfile.addAttribute(null, new Attribute("Summary", "Weather Surveillance Radar-1988 Doppler (WSR-88D) "+
            "Level II data are the three meteorological base data quantities: reflectivity, mean radial velocity, and "+
            "spectrum width."));

        ncfile.addAttribute(null, new Attribute("keywords", "WSR-88D; NEXRAD; Radar Level II; reflectivity; mean radial velocity; spectrum width"));
        ncfile.addAttribute(null, new Attribute("SweepMode", new Short(headerParser.getSweepMode())));

       // ncfile.addAttribute(null, new Attribute("VolumeCoveragePattern", new Integer(headerParser.getVCP())));
       // ncfile.addAttribute(null, new Attribute("HorizonatalBeamWidthInDegrees", new Double(headerParser.getHorizontalBeamWidth(abbrev))));

        ncfile.finish();