Пример #1
0
  @Test
  /**
   * Find min/max/average precipitation for a randomly-positioned but fixed-size region from a nc
   * file output: filename,origin,size key: value:min, max, average
   *
   * @throws Exception
   */
  public void testProcessingNASANexDataInNetCDF() throws Exception {
    final int SIZE = 100;
    File file = new File(this.getClass().getResource("/ncar.nc").getPath());
    byte[] netcdfinbyte = FileUtils.readFileToByteArray(file);
    // use any dummy filename for file in memory
    NetcdfFile netCDFfile = NetcdfFile.openInMemory("inmemory.nc", netcdfinbyte);

    Variable time = netCDFfile.findVariable("time");
    ArrayDouble.D1 days = (ArrayDouble.D1) time.read();
    Variable lat = netCDFfile.findVariable("lat");
    if (lat == null) {
      logger.error("Cannot find Variable latitude(lat)");
      return;
    }
    ArrayFloat.D1 absolutelat = (ArrayFloat.D1) lat.read();
    Variable lon = netCDFfile.findVariable("lon");
    if (lon == null) {
      logger.error("Cannot find Variable longitude(lon)");
      return;
    }
    ArrayFloat.D1 absolutelon = (ArrayFloat.D1) lon.read();
    Variable pres = netCDFfile.findVariable("pr");
    if (pres == null) {
      logger.error("Cannot find Variable precipitation(pr)");
      return;
    }

    Random rand = new Random();
    int orig_lat = rand.nextInt((int) lat.getSize());
    orig_lat = Math.min(orig_lat, (int) (lat.getSize() - SIZE));
    int orig_lon = rand.nextInt((int) lon.getSize());
    orig_lon = Math.min(orig_lon, (int) (lon.getSize() - SIZE));

    int[] origin = new int[] {0, orig_lat, orig_lon};
    int[] size = new int[] {1, SIZE, SIZE};
    ArrayFloat.D3 data3D = (ArrayFloat.D3) pres.read(origin, size);
    double max = Double.NEGATIVE_INFINITY;
    double min = Double.POSITIVE_INFINITY;
    double sum = 0;
    for (int j = 0; j < SIZE; j++) {
      for (int k = 0; k < SIZE; k++) {
        double current = data3D.get(0, j, k);
        max = (current > max ? current : max);
        min = (current < min ? current : min);
        sum += current;
      }
    }
    logger.info(
        days
            + ","
            + absolutelat.get(orig_lat)
            + ","
            + absolutelon.get(orig_lon)
            + ","
            + SIZE
            + ":"
            + min
            + ","
            + max
            + ","
            + sum / (SIZE * SIZE));
  }
Пример #2
0
 /**
  * Make the station variables from a representative station
  *
  * @param stations list of stations
  * @param dim station dimension
  * @return the list of variables
  */
 protected List<Variable> makeStationVars(List<GempakStation> stations, Dimension dim) {
   int numStations = stations.size();
   boolean useSTID = true;
   for (GempakStation station : stations) {
     if (station.getSTID().equals("")) {
       useSTID = false;
       break;
     }
   }
   List<Variable> vars = new ArrayList<Variable>();
   List<String> stnKeyNames = gemreader.getStationKeyNames();
   for (String varName : stnKeyNames) {
     Variable v = makeStationVariable(varName, dim);
     // use STNM or STID as the name or description
     Attribute stIDAttr = new Attribute("standard_name", "station_id");
     if (varName.equals(GempakStation.STID) && useSTID) {
       v.addAttribute(stIDAttr);
     }
     if (varName.equals(GempakStation.STNM) && !useSTID) {
       v.addAttribute(stIDAttr);
     }
     vars.add(v);
   }
   // see if we fill these in completely now
   if ((dim != null) && (numStations > 0)) {
     for (Variable v : vars) {
       Array varArray;
       if (v.getDataType().equals(DataType.CHAR)) {
         int[] shape = v.getShape();
         varArray = new ArrayChar.D2(shape[0], shape[1]);
       } else {
         varArray = get1DArray(v.getDataType(), numStations);
       }
       int index = 0;
       String varname = v.getFullName();
       for (GempakStation stn : stations) {
         String test = "";
         if (varname.equals(GempakStation.STID)) {
           test = stn.getName();
         } else if (varname.equals(GempakStation.STNM)) {
           ((ArrayInt.D1) varArray)
               .set(
                   index,
                   // (int) (stn.getSTNM() / 10));
                   (int) (stn.getSTNM()));
         } else if (varname.equals(GempakStation.SLAT)) {
           ((ArrayFloat.D1) varArray).set(index, (float) stn.getLatitude());
         } else if (varname.equals(GempakStation.SLON)) {
           ((ArrayFloat.D1) varArray).set(index, (float) stn.getLongitude());
         } else if (varname.equals(GempakStation.SELV)) {
           ((ArrayFloat.D1) varArray).set(index, (float) stn.getAltitude());
         } else if (varname.equals(GempakStation.STAT)) {
           test = stn.getSTAT();
         } else if (varname.equals(GempakStation.COUN)) {
           test = stn.getCOUN();
         } else if (varname.equals(GempakStation.STD2)) {
           test = stn.getSTD2();
         } else if (varname.equals(GempakStation.SPRI)) {
           ((ArrayInt.D1) varArray).set(index, stn.getSPRI());
         } else if (varname.equals(GempakStation.SWFO)) {
           test = stn.getSWFO();
         } else if (varname.equals(GempakStation.WFO2)) {
           test = stn.getWFO2();
         }
         if (!test.equals("")) {
           ((ArrayChar.D2) varArray).setString(index, test);
         }
         index++;
       }
       v.setCachedData(varArray, false);
     }
   }
   return vars;
 }
Пример #3
0
  public static void main2(String args[]) throws Exception {

    final int NLVL = 2;
    final int NLAT = 6;
    final int NLON = 12;
    final int NumberOfRecords = 2;

    final float SAMPLE_PRESSURE = 900.0f;
    final float SAMPLE_TEMP = 9.0f;
    final float START_LAT = 25.0f;
    final float START_LON = -125.0f;

    // Create the file.
    String filename = "pres_temp_4D.nc";
    NetcdfFileWriteable dataFile = null;

    try {
      // Create new netcdf-3 file with the given filename
      dataFile = NetcdfFileWriteable.createNew(filename, false);

      // add dimensions where time dimension is unlimit
      Dimension lvlDim = dataFile.addDimension("level", NLVL);
      Dimension latDim = dataFile.addDimension("latitude", NLAT);
      Dimension lonDim = dataFile.addDimension("longitude", NLON);
      Dimension timeDim = dataFile.addDimension("time", 1000); // should
      // not be
      // need
      // second
      // argument

      ArrayList dims = null;

      // Define the coordinate variables.
      dataFile.addVariable("latitude", DataType.FLOAT, new Dimension[] {latDim});
      dataFile.addVariable("longitude", DataType.FLOAT, new Dimension[] {lonDim});

      // Define units attributes for data variables.
      dataFile.addVariableAttribute("latitude", "units", "degrees_north");
      dataFile.addVariableAttribute("longitude", "units", "degrees_east");

      // Define the netCDF variables for the pressure and temperature
      // data.
      dims = new ArrayList();
      dims.add(timeDim);
      dims.add(lvlDim);
      dims.add(latDim);
      dims.add(lonDim);
      dataFile.addVariable("pressure", DataType.FLOAT, dims);
      dataFile.addVariable("temperature", DataType.FLOAT, dims);

      // Define units attributes for data variables.
      dataFile.addVariableAttribute("pressure", "units", "hPa");
      dataFile.addVariableAttribute("temperature", "units", "celsius");

      // Create some pretend data. If this wasn't an example program, we
      // would have some real data to write for example, model output.
      ArrayFloat.D1 lats = new ArrayFloat.D1(latDim.getLength());
      ArrayFloat.D1 lons = new ArrayFloat.D1(lonDim.getLength());
      int i, j;

      for (i = 0; i < latDim.getLength(); i++) {
        lats.set(i, START_LAT + 5.f * i);
      }

      for (j = 0; j < lonDim.getLength(); j++) {
        lons.set(j, START_LON + 5.f * j);
      }

      // Create the pretend data. This will write our surface pressure and
      // surface temperature data.
      ArrayFloat.D4 dataTemp =
          new ArrayFloat.D4(
              NumberOfRecords, lvlDim.getLength(), latDim.getLength(), lonDim.getLength());
      ArrayFloat.D4 dataPres =
          new ArrayFloat.D4(
              NumberOfRecords, lvlDim.getLength(), latDim.getLength(), lonDim.getLength());

      for (int record = 0; record < NumberOfRecords; record++) {
        i = 0;
        for (int lvl = 0; lvl < NLVL; lvl++)
          for (int lat = 0; lat < NLAT; lat++)
            for (int lon = 0; lon < NLON; lon++) {
              dataPres.set(record, lvl, lat, lon, SAMPLE_PRESSURE + i);
              dataTemp.set(record, lvl, lat, lon, SAMPLE_TEMP + i++);
            }
      }

      // Create the file. At this point the (empty) file will be written
      // to disk
      dataFile.create();

      // A newly created Java integer array to be initialized to zeros.
      int[] origin = new int[4];

      dataFile.write("latitude", lats);
      dataFile.write("longitude", lons);
      dataFile.write("pressure", origin, dataPres);
      dataFile.write("temperature", origin, dataTemp);
      dataFile.close();

    } catch (IOException e) {
      e.printStackTrace(System.err);
    } catch (InvalidRangeException e) {
      e.printStackTrace(System.err);
    } finally {
      // if (dataFile != null) {
      // try {
      // dataFile.close();
      // } catch (IOException ioe) {
      // ioe.printStackTrace();
      // }
      // }
    }
    System.out.println("*** SUCCESS writing example file " + filename);
  }