public boolean isValidFileOld(RandomAccessFile raf) { try { String loc = raf.getLocation(); int posFirst = loc.lastIndexOf('/') + 1; if (posFirst < 0) posFirst = 0; String stationId = loc.substring(posFirst, posFirst + 4); NexradStationDB.init(); NexradStationDB.Station station = NexradStationDB.get("K" + stationId); if (station != null) return true; else return false; } catch (IOException ioe) { return false; } }
public void open(RandomAccessFile raf, NetcdfFile ncfile, CancelTask cancelTask) throws IOException { NexradStationDB.init(); volScan = new Cinrad2VolumeScan(raf, cancelTask); if (volScan.hasDifferentDopplarResolutions()) throw new IllegalStateException("volScan.hasDifferentDopplarResolutions"); radialDim = new Dimension("radial", volScan.getMaxRadials()); ncfile.addDimension(null, radialDim); makeVariable( ncfile, Cinrad2Record.REFLECTIVITY, "Reflectivity", "Reflectivity", "R", volScan.getReflectivityGroups()); int velocity_type = (volScan.getDopplarResolution() == Cinrad2Record.DOPPLER_RESOLUTION_HIGH_CODE) ? Cinrad2Record.VELOCITY_HI : Cinrad2Record.VELOCITY_LOW; Variable v = makeVariable( ncfile, velocity_type, "RadialVelocity", "Radial Velocity", "V", volScan.getVelocityGroups()); makeVariableNoCoords( ncfile, Cinrad2Record.SPECTRUM_WIDTH, "SpectrumWidth", "Spectrum Width", v); if (volScan.getStationId() != null) { ncfile.addAttribute(null, new Attribute("Station", volScan.getStationId())); ncfile.addAttribute(null, new Attribute("StationName", volScan.getStationName())); ncfile.addAttribute( null, new Attribute("StationLatitude", new Double(volScan.getStationLatitude()))); ncfile.addAttribute( null, new Attribute("StationLongitude", new Double(volScan.getStationLongitude()))); ncfile.addAttribute( null, new Attribute("StationElevationInMeters", new Double(volScan.getStationElevation()))); double latRadiusDegrees = Math.toDegrees(radarRadius / ucar.unidata.geoloc.Earth.getRadius()); ncfile.addAttribute( null, new Attribute( "geospatial_lat_min", new Double(volScan.getStationLatitude() - latRadiusDegrees))); ncfile.addAttribute( null, new Attribute( "geospatial_lat_max", new Double(volScan.getStationLatitude() + latRadiusDegrees))); double cosLat = Math.cos(Math.toRadians(volScan.getStationLatitude())); double lonRadiusDegrees = Math.toDegrees(radarRadius / cosLat / ucar.unidata.geoloc.Earth.getRadius()); ncfile.addAttribute( null, new Attribute( "geospatial_lon_min", new Double(volScan.getStationLongitude() - lonRadiusDegrees))); ncfile.addAttribute( null, new Attribute( "geospatial_lon_max", new Double(volScan.getStationLongitude() + lonRadiusDegrees))); // add a radial coordinate transform (experimental) Variable ct = new Variable(ncfile, null, null, "radialCoordinateTransform"); ct.setDataType(DataType.CHAR); ct.setDimensions(""); // scalar ct.addAttribute(new Attribute("transform_name", "Radial")); ct.addAttribute(new Attribute("center_latitude", new Double(volScan.getStationLatitude()))); ct.addAttribute(new Attribute("center_longitude", new Double(volScan.getStationLongitude()))); ct.addAttribute(new Attribute("center_elevation", new Double(volScan.getStationElevation()))); ct.addAttribute(new Attribute(_Coordinate.TransformType, "Radial")); ct.addAttribute( new Attribute(_Coordinate.AxisTypes, "RadialElevation RadialAzimuth RadialDistance")); Array data = Array.factory(DataType.CHAR.getPrimitiveClassType(), new int[0], new char[] {' '}); ct.setCachedData(data, true); ncfile.addVariable(null, ct); } DateFormatter formatter = new DateFormatter(); ncfile.addAttribute(null, new Attribute(CDM.CONVENTIONS, _Coordinate.Convention)); ncfile.addAttribute(null, new Attribute("format", volScan.getDataFormat())); ncfile.addAttribute(null, new Attribute(CF.FEATURE_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( "time_coverage_start", formatter.toDateTimeStringISO(volScan.getStartDate()))); ; // .toDateTimeStringISO(d))); ncfile.addAttribute( null, new Attribute("time_coverage_end", formatter.toDateTimeStringISO(volScan.getEndDate()))); ncfile.addAttribute( null, new Attribute(CDM.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 " + volScan.getStationId() + " from " + formatter.toDateTimeStringISO(volScan.getStartDate()) + " to " + formatter.toDateTimeStringISO(volScan.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( "VolumeCoveragePatternName", Cinrad2Record.getVolumeCoveragePatternName(volScan.getVCP()))); ncfile.addAttribute( null, new Attribute("VolumeCoveragePattern", new Integer(volScan.getVCP()))); ncfile.addAttribute( null, new Attribute( "HorizonatalBeamWidthInDegrees", new Double(Cinrad2Record.HORIZONTAL_BEAM_WIDTH))); ncfile.finish(); }