private void writeStationData(List<ucar.unidata.geoloc.Station> stnList) throws IOException { this.stnList = stnList; int nstns = stnList.size(); stationMap = new HashMap<String, StationTracker>(2 * nstns); if (debug) System.out.println("stationMap created"); // now write the station data ArrayDouble.D1 latArray = new ArrayDouble.D1(nstns); ArrayDouble.D1 lonArray = new ArrayDouble.D1(nstns); ArrayDouble.D1 altArray = new ArrayDouble.D1(nstns); ArrayObject.D1 idArray = new ArrayObject.D1(String.class, nstns); ArrayObject.D1 descArray = new ArrayObject.D1(String.class, nstns); ArrayObject.D1 wmoArray = new ArrayObject.D1(String.class, nstns); for (int i = 0; i < stnList.size(); i++) { ucar.unidata.geoloc.Station stn = stnList.get(i); stationMap.put(stn.getName(), new StationTracker(i)); latArray.set(i, stn.getLatitude()); lonArray.set(i, stn.getLongitude()); if (useAlt) altArray.set(i, stn.getAltitude()); idArray.set(i, stn.getName()); descArray.set(i, stn.getDescription()); if (useWmoId) wmoArray.set(i, stn.getWmoId()); } try { ncfile.write(latName, latArray); ncfile.write(lonName, lonArray); if (useAlt) ncfile.write(altName, altArray); ncfile.writeStringData(idName, idArray); ncfile.writeStringData(descName, descArray); if (useWmoId) ncfile.writeStringData(wmoName, wmoArray); } catch (InvalidRangeException e) { e.printStackTrace(); throw new IllegalStateException(e); } }
private void writeDataFinish() throws IOException { // finish global variables ArrayInt.D0 totalArray = new ArrayInt.D0(); totalArray.set(profileIndex); try { ncfile.write(numProfilesTotalName, totalArray); } catch (InvalidRangeException e) { e.printStackTrace(); throw new IllegalStateException(e); } // finish the station data int nstns = stnList.size(); ArrayInt.D1 firstProfileArray = new ArrayInt.D1(nstns); ArrayInt.D1 numProfileArray = new ArrayInt.D1(nstns); ArrayInt.D1 nextProfileArray = new ArrayInt.D1(nprofiles); for (int i = 0; i < stnList.size(); i++) { ucar.unidata.geoloc.Station stn = stnList.get(i); StationTracker tracker = stationMap.get(stn.getName()); numProfileArray.set(i, tracker.numChildren); int first = (tracker.link.size() > 0) ? tracker.link.get(0) : -1; firstProfileArray.set(i, first); if (tracker.link.size() > 0) { // construct forward link List<Integer> nextList = tracker.link; for (int j = 0; j < nextList.size() - 1; j++) { Integer curr = nextList.get(j); Integer next = nextList.get(j + 1); nextProfileArray.set(curr, next); } Integer curr = nextList.get(nextList.size() - 1); nextProfileArray.set(curr, -1); } } try { ncfile.write(firstProfileName, firstProfileArray); ncfile.write(numProfilesName, numProfileArray); ncfile.write(nextProfileName, nextProfileArray); } catch (InvalidRangeException e) { e.printStackTrace(); throw new IllegalStateException(e); } // finish the profile data ArrayInt.D1 nextObsArray = new ArrayInt.D1(recno); ArrayInt.D1 firstObsArray = new ArrayInt.D1(nprofiles); ArrayInt.D1 numObsArray = new ArrayInt.D1(nprofiles); for (int i = 0; i < stnList.size(); i++) { ucar.unidata.geoloc.Station stn = stnList.get(i); StationTracker stnTracker = stationMap.get(stn.getName()); Set<Date> dates = stnTracker.profileMap.keySet(); for (Date date : dates) { ProfileTracker proTracker = stnTracker.profileMap.get(date); int trackerIndex = proTracker.parent_index; numObsArray.set(trackerIndex, proTracker.numChildren); int first = (proTracker.link.size() > 0) ? proTracker.link.get(0) : -1; firstObsArray.set(trackerIndex, first); if (proTracker.link.size() > 0) { // construct forward link List<Integer> nextList = proTracker.link; for (int j = 0; j < nextList.size() - 1; j++) { Integer curr = nextList.get(j); Integer next = nextList.get(j + 1); nextObsArray.set(curr, next); } Integer curr = nextList.get(nextList.size() - 1); nextObsArray.set(curr, -1); } } } try { ncfile.write(firstObsName, firstObsArray); ncfile.write(numObsName, numObsArray); ncfile.write(nextObsName, nextObsArray); } catch (InvalidRangeException e) { e.printStackTrace(); throw new IllegalStateException(e); } // finish the obs data ncfile.updateAttribute( null, new Attribute("time_coverage_start", dateFormatter.toDateTimeStringISO(minDate))); ncfile.updateAttribute( null, new Attribute("time_coverage_end", dateFormatter.toDateTimeStringISO(maxDate))); }
private void createStations(List<ucar.unidata.geoloc.Station> stnList) throws IOException { int nstns = stnList.size(); // see if there's altitude, wmoId for any stations for (int i = 0; i < nstns; i++) { ucar.unidata.geoloc.Station stn = stnList.get(i); // if (!Double.isNaN(stn.getAltitude())) // useAlt = true; if ((stn.getWmoId() != null) && (stn.getWmoId().trim().length() > 0)) useWmoId = true; } /* if (useAlt) ncfile.addGlobalAttribute("altitude_coordinate", altName); */ // find string lengths for (int i = 0; i < nstns; i++) { ucar.unidata.geoloc.Station station = stnList.get(i); name_strlen = Math.max(name_strlen, station.getName().length()); desc_strlen = Math.max(desc_strlen, station.getDescription().length()); if (useWmoId) wmo_strlen = Math.max(wmo_strlen, station.getName().length()); } LatLonRect llbb = getBoundingBox(stnList); ncfile.addGlobalAttribute( "geospatial_lat_min", Double.toString(llbb.getLowerLeftPoint().getLatitude())); ncfile.addGlobalAttribute( "geospatial_lat_max", Double.toString(llbb.getUpperRightPoint().getLatitude())); ncfile.addGlobalAttribute( "geospatial_lon_min", Double.toString(llbb.getLowerLeftPoint().getLongitude())); ncfile.addGlobalAttribute( "geospatial_lon_max", Double.toString(llbb.getUpperRightPoint().getLongitude())); // add the dimensions Dimension recordDim = ncfile.addUnlimitedDimension(recordDimName); recordDims.add(recordDim); Dimension stationDim = ncfile.addDimension(stationDimName, nstns); stationDims.add(stationDim); // add the station Variables using the station dimension Variable v = ncfile.addVariable(latName, DataType.DOUBLE, stationDimName); ncfile.addVariableAttribute(v, new Attribute("units", "degrees_north")); ncfile.addVariableAttribute(v, new Attribute("long_name", "station latitude")); v = ncfile.addVariable(lonName, DataType.DOUBLE, stationDimName); ncfile.addVariableAttribute(v, new Attribute("units", "degrees_east")); ncfile.addVariableAttribute(v, new Attribute("long_name", "station longitude")); if (useAlt) { v = ncfile.addVariable(altName, DataType.DOUBLE, stationDimName); ncfile.addVariableAttribute(v, new Attribute("units", "meters")); ncfile.addVariableAttribute(v, new Attribute("long_name", "station altitude")); } v = ncfile.addStringVariable(idName, stationDims, name_strlen); ncfile.addVariableAttribute(v, new Attribute("long_name", "station identifier")); v = ncfile.addStringVariable(descName, stationDims, desc_strlen); ncfile.addVariableAttribute(v, new Attribute("long_name", "station description")); if (useWmoId) { v = ncfile.addStringVariable(wmoName, stationDims, wmo_strlen); ncfile.addVariableAttribute(v, new Attribute("long_name", "station WMO id")); } v = ncfile.addVariable(numProfilesName, DataType.INT, stationDimName); ncfile.addVariableAttribute( v, new Attribute("long_name", "number of profiles in linked list for this station")); v = ncfile.addVariable(firstProfileName, DataType.INT, stationDimName); ncfile.addVariableAttribute( v, new Attribute("long_name", "index of first profile in linked list for this station")); }