public Array readData(Variable v2, Section section) throws IOException, InvalidRangeException {
    Vgroup vgroup = (Vgroup) v2.getSPobject();

    Range scanRange = section.getRange(0);
    Range radialRange = section.getRange(1);
    Range gateRange = section.getRange(2);

    Array data = Array.factory(v2.getDataType().getPrimitiveClassType(), section.getShape());
    IndexIterator ii = data.getIndexIterator();

    for (int i = scanRange.first(); i <= scanRange.last(); i += scanRange.stride()) {
      Cinrad2Record[] mapScan = vgroup.map[i];
      readOneScan(mapScan, radialRange, gateRange, vgroup.datatype, ii);
    }

    return data;
  }
Example #2
0
  private FeatureType amendSwath(NetcdfFile ncfile, Element swathElem, Group parent) {
    FeatureType featureType = FeatureType.SWATH;
    List<Dimension> unknownDims = new ArrayList<>();

    // Dimensions
    Element d = swathElem.getChild("Dimension");
    List<Element> dims = d.getChildren();
    for (Element elem : dims) {
      String name = elem.getChild("DimensionName").getText().trim();
      name = NetcdfFile.makeValidCdmObjectName(name);

      if (name.equalsIgnoreCase("scalar")) continue;
      String sizeS = elem.getChild("Size").getText().trim();
      int length = Integer.parseInt(sizeS);
      if (length > 0) {
        Dimension dim = parent.findDimensionLocal(name);
        if (dim != null) { // already added - may be dimension scale ?
          if (dim.getLength() != length) { // ok as long as it matches
            log.error("Conflicting Dimensions = {} {}", dim, ncfile.getLocation());
            throw new IllegalStateException("Conflicting Dimensions = " + name);
          }
        } else {
          dim = new Dimension(name, length);
          if (parent.addDimensionIfNotExists(dim) && showWork)
            System.out.printf(" Add dimension %s %n", dim);
        }
      } else {
        log.warn("Dimension " + name + " has size " + sizeS, ncfile.getLocation());
        Dimension udim = new Dimension(name, 1);
        udim.setGroup(parent);
        unknownDims.add(udim);
        if (showWork) System.out.printf(" Add dimension %s %n", udim);
      }
    }

    // Dimension Maps
    Element dmap = swathElem.getChild("DimensionMap");
    List<Element> dimMaps = dmap.getChildren();
    for (Element elem : dimMaps) {
      String geoDimName = elem.getChild("GeoDimension").getText().trim();
      geoDimName = NetcdfFile.makeValidCdmObjectName(geoDimName);
      String dataDimName = elem.getChild("DataDimension").getText().trim();
      dataDimName = NetcdfFile.makeValidCdmObjectName(dataDimName);

      String offsetS = elem.getChild("Offset").getText().trim();
      String incrS = elem.getChild("Increment").getText().trim();
      int offset = Integer.parseInt(offsetS);
      int incr = Integer.parseInt(incrS);

      // make new variable for this dimension map
      Variable v = new Variable(ncfile, parent, null, dataDimName);
      v.setDimensions(geoDimName);
      v.setDataType(DataType.INT);
      int npts = (int) v.getSize();
      Array data = Array.makeArray(v.getDataType(), npts, offset, incr);
      v.setCachedData(data, true);
      v.addAttribute(new Attribute("_DimensionMap", ""));
      parent.addVariable(v);
      if (showWork) System.out.printf(" Add dimensionMap %s %n", v);
    }

    // Geolocation Variables
    Group geoFieldsG = parent.findGroup(GEOLOC_FIELDS);
    if (geoFieldsG == null) geoFieldsG = parent.findGroup(GEOLOC_FIELDS2);
    if (geoFieldsG != null) {
      Variable latAxis = null, lonAxis = null;
      Element floc = swathElem.getChild("GeoField");
      List<Element> varsLoc = floc.getChildren();
      for (Element elem : varsLoc) {
        String varname = elem.getChild("GeoFieldName").getText().trim();
        Variable v = geoFieldsG.findVariable(varname);
        // if (v == null)
        //  v = geoFieldsG.findVariable( H4header.createValidObjectName(varname));
        assert v != null : varname;
        AxisType axis = addAxisType(ncfile, v);
        if (axis == AxisType.Lat) latAxis = v;
        if (axis == AxisType.Lon) lonAxis = v;

        Element dimList = elem.getChild("DimList");
        List<Element> values = dimList.getChildren("value");
        setSharedDimensions(v, values, unknownDims, ncfile.getLocation());
        if (showWork) System.out.printf(" set coordinate %s %n", v);
      }
      if ((latAxis != null) && (lonAxis != null)) {
        List<Dimension> xyDomain = CoordinateSystem.makeDomain(new Variable[] {latAxis, lonAxis});
        if (xyDomain.size() < 2) featureType = FeatureType.PROFILE; // ??
      }
    }

    // Data Variables
    Group dataG = parent.findGroup(DATA_FIELDS);
    if (dataG == null) dataG = parent.findGroup(DATA_FIELDS2);
    if (dataG != null) {
      Element f = swathElem.getChild("DataField");
      List<Element> vars = f.getChildren();
      for (Element elem : vars) {
        Element dataFieldNameElem = elem.getChild("DataFieldName");
        if (dataFieldNameElem == null) continue;
        String varname = NetcdfFile.makeValidCdmObjectName(dataFieldNameElem.getText().trim());
        Variable v = dataG.findVariable(varname);
        // if (v == null)
        //  v = dataG.findVariable( H4header.createValidObjectName(varname));
        if (v == null) {
          log.error("Cant find variable {} {}", varname, ncfile.getLocation());
          continue;
        }

        Element dimList = elem.getChild("DimList");
        List<Element> values = dimList.getChildren("value");
        setSharedDimensions(v, values, unknownDims, ncfile.getLocation());
      }
    }

    return featureType;
  }
  private void makeCoordinateDataWithMissing(
      int datatype,
      Variable time,
      Variable elev,
      Variable azi,
      Variable nradialsVar,
      Variable ngatesVar,
      List groups) {

    Array timeData = Array.factory(time.getDataType().getPrimitiveClassType(), time.getShape());
    Index timeIndex = timeData.getIndex();

    Array elevData = Array.factory(elev.getDataType().getPrimitiveClassType(), elev.getShape());
    Index elevIndex = elevData.getIndex();

    Array aziData = Array.factory(azi.getDataType().getPrimitiveClassType(), azi.getShape());
    Index aziIndex = aziData.getIndex();

    Array nradialsData =
        Array.factory(nradialsVar.getDataType().getPrimitiveClassType(), nradialsVar.getShape());
    IndexIterator nradialsIter = nradialsData.getIndexIterator();

    Array ngatesData =
        Array.factory(ngatesVar.getDataType().getPrimitiveClassType(), ngatesVar.getShape());
    IndexIterator ngatesIter = ngatesData.getIndexIterator();

    // first fill with missing data
    IndexIterator ii = timeData.getIndexIterator();
    while (ii.hasNext()) ii.setIntNext(MISSING_INT);

    ii = elevData.getIndexIterator();
    while (ii.hasNext()) ii.setFloatNext(MISSING_FLOAT);

    ii = aziData.getIndexIterator();
    while (ii.hasNext()) ii.setFloatNext(MISSING_FLOAT);

    // now set the  coordinate variables from the Cinrad2Record radial
    int last_msecs = Integer.MIN_VALUE;
    int nscans = groups.size();
    try {
      for (int scan = 0; scan < nscans; scan++) {
        List scanGroup = (List) groups.get(scan);
        int nradials = scanGroup.size();

        Cinrad2Record first = null;
        for (int j = 0; j < nradials; j++) {
          Cinrad2Record r = (Cinrad2Record) scanGroup.get(j);
          if (first == null) first = r;

          int radial = r.radial_num - 1;
          timeData.setInt(timeIndex.set(scan, radial), r.data_msecs);
          elevData.setFloat(elevIndex.set(scan, radial), r.getElevation());
          aziData.setFloat(aziIndex.set(scan, radial), r.getAzimuth());

          if (r.data_msecs < last_msecs)
            logger.warn("makeCoordinateData time out of order " + r.data_msecs);
          last_msecs = r.data_msecs;
        }

        nradialsIter.setIntNext(nradials);
        ngatesIter.setIntNext(first.getGateCount(datatype));
      }
    } catch (java.lang.ArrayIndexOutOfBoundsException ae) {
      logger.debug("Cinrad2IOSP.uncompress ", ae);
    }
    time.setCachedData(timeData, false);
    elev.setCachedData(elevData, false);
    azi.setCachedData(aziData, false);
    nradialsVar.setCachedData(nradialsData, false);
    ngatesVar.setCachedData(ngatesData, false);
  }
  private void makeCoordinateData(
      int datatype,
      Variable time,
      Variable elev,
      Variable azi,
      Variable nradialsVar,
      Variable ngatesVar,
      List groups) {

    Array timeData = Array.factory(time.getDataType().getPrimitiveClassType(), time.getShape());
    IndexIterator timeDataIter = timeData.getIndexIterator();

    Array elevData = Array.factory(elev.getDataType().getPrimitiveClassType(), elev.getShape());
    IndexIterator elevDataIter = elevData.getIndexIterator();

    Array aziData = Array.factory(azi.getDataType().getPrimitiveClassType(), azi.getShape());
    IndexIterator aziDataIter = aziData.getIndexIterator();

    Array nradialsData =
        Array.factory(nradialsVar.getDataType().getPrimitiveClassType(), nradialsVar.getShape());
    IndexIterator nradialsIter = nradialsData.getIndexIterator();

    Array ngatesData =
        Array.factory(ngatesVar.getDataType().getPrimitiveClassType(), ngatesVar.getShape());
    IndexIterator ngatesIter = ngatesData.getIndexIterator();

    int last_msecs = Integer.MIN_VALUE;
    int nscans = groups.size();
    int maxRadials = volScan.getMaxRadials();
    for (int i = 0; i < nscans; i++) {
      List scanGroup = (List) groups.get(i);
      int nradials = scanGroup.size();

      Cinrad2Record first = null;
      for (int j = 0; j < nradials; j++) {
        Cinrad2Record r = (Cinrad2Record) scanGroup.get(j);
        if (first == null) first = r;

        timeDataIter.setIntNext(r.data_msecs);
        elevDataIter.setFloatNext(r.getElevation());
        aziDataIter.setFloatNext(r.getAzimuth());

        if (r.data_msecs < last_msecs)
          logger.warn("makeCoordinateData time out of order " + r.data_msecs);
        last_msecs = r.data_msecs;
      }

      for (int j = nradials; j < maxRadials; j++) {
        timeDataIter.setIntNext(MISSING_INT);
        elevDataIter.setFloatNext(MISSING_FLOAT);
        aziDataIter.setFloatNext(MISSING_FLOAT);
      }

      nradialsIter.setIntNext(nradials);
      ngatesIter.setIntNext(first.getGateCount(datatype));
    }

    time.setCachedData(timeData, false);
    elev.setCachedData(elevData, false);
    azi.setCachedData(aziData, false);
    nradialsVar.setCachedData(nradialsData, false);
    ngatesVar.setCachedData(ngatesData, false);
  }