/** * Gets the SoundingOb associated with this DataChoice. The VisAD {@link visad.MathType} of the * return value is the {@link visad.Tuple} ({@link visad.DateTime}, {@link * visad.georef.EarthLocationTuple}, {@link ucar.visad.functiontypes.InSituAirTemperatureProfile}, * {@link ucar.visad.functiontypes.DewPointProfile}). * * @param dc DataChoice for data * @param dataSelection subselection criteria * @return The sounding observation. * @throws RemoteException Java RMI problem * @throws VisADException VisAD problem */ private Data makeSoundingOb(DataChoice dc, DataSelection dataSelection) throws VisADException, RemoteException { SoundingOb so = getRDS().initSoundingOb((SoundingOb) dc.getId()); if (so == null) { return null; } RAOB raob = so.getRAOB(); SoundingStation ss = (SoundingStation) so.getStation(); // sanity check FlatField t = raob.getTemperatureProfile(); if (t.getDomainSet().getLength() == 1) { return null; } return new Tuple( new Data[] { so.getTimestamp(), ((SoundingStation) so.getStation()).getNamedLocation(), raob.getTemperatureProfile(), raob.getDewPointProfile(), raob.getWindProfile() }); }
/** * Get the data for the given DataChoice and selection criteria. * * @param dataChoice DataChoice for selection * @param category DataCategory for the DataChoice (not used) * @param subset subsetting criteria * @param requestProperties extra request properties * @return the Data object for the request * @throws RemoteException couldn't create a remote data object * @throws VisADException couldn't create the data */ protected Data getDataInner( final DataChoice dataChoice, DataCategory category, final DataSelection subset, final Hashtable requestProperties) throws VisADException, RemoteException { try { List times = null; if (subset != null) { times = getTimesFromDataSelection(subset, dataChoice); } if (times == null) { times = dataChoice.getSelectedDateTimes(); } List dtimes = subset.getTimeDriverTimes(); if (dtimes != null && useDriverTime == false) { useDriverTime = true; } List<RadarAdapter> adapters = getAdapters(); DateTime[] realDateTimes = new DateTime[adapters.size()]; for (int i = 0; i < adapters.size(); i++) { realDateTimes[i] = ((RadarAdapter) adapters.get(i)).getBaseTime(); } Arrays.sort(realDateTimes); // Flip it to get youngest date first boolean isRealTime = isRealTime(); if (isRealTime) { realDateTimes = (DateTime[]) Misc.reverseArray(realDateTimes, new DateTime[realDateTimes.length]); } // if use time driver if (useDriverTime) { List tests = resetTimesList(realDateTimes, times); if (!compareTimeLists(times, tests)) { reloadData(); adapters = getAdapters(); realDateTimes = new DateTime[adapters.size()]; for (int i = 0; i < adapters.size(); i++) { realDateTimes[i] = ((RadarAdapter) adapters.get(i)).getBaseTime(); } Arrays.sort(realDateTimes); // Flip it to get youngest date first isRealTime = isRealTime(); if (isRealTime) { realDateTimes = (DateTime[]) Misc.reverseArray(realDateTimes, new DateTime[realDateTimes.length]); } tests = resetTimesList(realDateTimes, times); } times = tests; } // if times are null, then that means all times DateTime[] dateTimes = null; if ((times == null) || (times.size() == 0)) { dateTimes = realDateTimes; } else { dateTimes = new DateTime[times.size()]; for (int i = 0; i < times.size(); i++) { Object time = times.get(i); if (time instanceof TwoFacedObject) { int index = ((Integer) ((TwoFacedObject) time).getId()).intValue(); dateTimes[i] = realDateTimes[index]; } else if (time instanceof DateTime) { dateTimes[i] = (DateTime) time; } } } Arrays.sort(dateTimes); final Data[] datas = new Data[dateTimes.length]; int timeIndex = 0; final MathType[] mt = {null}; // create a new field of (Time -> (radar data)). // fill in the times array and data array with dates/data // only from those adapters which match the selected times. // if a data object is null, stick it in the list. // if all are null, then the MathType (mt) will never get set, // so return null. // System.err.println ("Reading " + adapters.size() + " radar files"); int cnt = 0; ThreadManager threadManager = new visad.util.ThreadManager("radar data reading"); for (Iterator iter = adapters.iterator(); iter.hasNext(); ) { final RadarAdapter adapter = (RadarAdapter) iter.next(); timeIndex = Arrays.binarySearch(dateTimes, adapter.getBaseTime()); // System.err.println ("timeIndex:" + timeIndex); if (timeIndex < 0) { continue; } cnt++; LogUtil.message("Time: " + (cnt) + "/" + dateTimes.length + " From:" + toString()); final int theTimeIndex = timeIndex; threadManager.addRunnable( new visad.util.ThreadManager.MyRunnable() { public void run() throws Exception { Trace.call1("RDS.getData"); Data d = adapter.getData(dataChoice, subset, requestProperties); Trace.call2("RDS.getData"); datas[theTimeIndex] = d; if (d != null) { mt[0] = d.getType(); } else { } } }); } try { // threadManager.debug = true; threadManager.runInParallel(getDataContext().getIdv().getMaxDataThreadCount()); } catch (VisADException ve) { LogUtil.printMessage(ve.toString()); } if (mt[0] == null) { return null; } FunctionType ft = new FunctionType(RealType.Time, mt[0]); SampledSet domainSet = (dateTimes.length == 1) ? (SampledSet) new SingletonSet(new RealTuple(dateTimes)) : (SampledSet) DateTime.makeTimeSet(dateTimes); FieldImpl fi = new FieldImpl(ft, domainSet); fi.setSamples(datas, false); return fi; } catch (Exception exc) { logException("Creating obs", exc); } return null; }