示例#1
1
    // create from a dataset
    public VariableBean(Variable vs) {
      this.vs = vs;
      // vs = (v instanceof VariableEnhanced) ? (VariableEnhanced) v : new VariableStandardized( v);

      setName(vs.getShortName());
      setDescription(vs.getDescription());
      setUnits(vs.getUnitsString());
      setDataType(vs.getDataType().toString());

      // Attribute csAtt = vs.findAttribute("_coordSystems");
      // if (csAtt != null)
      //  setCoordSys( csAtt.getStringValue());

      // collect dimensions
      StringBuilder lens = new StringBuilder();
      StringBuilder names = new StringBuilder();
      java.util.List dims = vs.getDimensions();
      for (int j = 0; j < dims.size(); j++) {
        ucar.nc2.Dimension dim = (ucar.nc2.Dimension) dims.get(j);
        if (j > 0) {
          lens.append(",");
          names.append(",");
        }
        String name = dim.isShared() ? dim.getName() : "anon";
        names.append(name);
        lens.append(dim.getLength());
      }
      setDimensions(names.toString());
      setShape(lens.toString());
    }
  /* Structure {
      int LAT[0];
      ...
      int LAT[149];
  } IMAGE_LAT_ARRAY(3600);
     type = Layout(8);  type= 2 (chunked) storageSize = (1,600) dataSize=0 dataAddress=2548046
  */
  @Test
  public void testReadOneAtATime() throws java.io.IOException, InvalidRangeException {
    try (NetcdfFile ncfile = TestH5.openH5("IASI/IASI.h5")) {

      Variable dset = ncfile.findVariable("U-MARF/EPS/IASI_xxx_1C/DATA/IMAGE_LAT_ARRAY");
      assert (null != dset);
      assert (dset.getDataType() == DataType.STRUCTURE);
      assert (dset.getRank() == 1);
      assert (dset.getSize() == 3600);

      Dimension d = dset.getDimension(0);
      assert (d.getLength() == 3600);

      Structure s = (Structure) dset;

      // read last one - chunked
      StructureData sd = s.readStructure(3599);
      assert sd.getScalarInt("LAT[0]") == 70862722;
      assert sd.getScalarInt("LAT[149]") == 85302263;

      // read one at a time
      for (int i = 3590; i < d.getLength(); i++) {
        s.readStructure(i);
        System.out.println(" read structure " + i);
      }
    }
    System.out.println("*** testReadIASI ok");
  }
示例#3
0
  // convert to shared dimensions
  private void setSharedDimensions(
      Variable v, List<Element> values, List<Dimension> unknownDims, String location) {
    if (values.size() == 0) return;

    // remove the "scalar" dumbension
    Iterator<Element> iter = values.iterator();
    while (iter.hasNext()) {
      Element value = iter.next();
      String dimName = value.getText().trim();
      if (dimName.equalsIgnoreCase("scalar")) iter.remove();
    }

    // gotta have same number of dimensions
    List<Dimension> oldDims = v.getDimensions();
    if (oldDims.size() != values.size()) {
      log.error("Different number of dimensions for {} {}", v, location);
      return;
    }

    List<Dimension> newDims = new ArrayList<>();
    Group group = v.getParentGroup();

    for (int i = 0; i < values.size(); i++) {
      Element value = values.get(i);
      String dimName = value.getText().trim();
      dimName = NetcdfFile.makeValidCdmObjectName(dimName);

      Dimension dim = group.findDimension(dimName);
      Dimension oldDim = oldDims.get(i);
      if (dim == null) dim = checkUnknownDims(dimName, unknownDims, oldDim, location);

      if (dim == null) {
        log.error(
            "Unknown Dimension= {} for variable = {} {} ", dimName, v.getFullName(), location);
        return;
      }
      if (dim.getLength() != oldDim.getLength()) {
        log.error(
            "Shared dimension ("
                + dim.getShortName()
                + ") has different length than data dimension ("
                + oldDim.getShortName()
                + ") shared="
                + dim.getLength()
                + " org="
                + oldDim.getLength()
                + " for "
                + v
                + " "
                + location);
        return;
      }
      newDims.add(dim);
    }
    v.setDimensions(newDims);
    if (showWork) System.out.printf(" set shared dimensions for %s %n", v.getNameAndDimensions());
  }
示例#4
0
 private boolean compare(List<Dimension> dims1, List<Dimension> dims2) {
   if (dims1.size() != dims2.size()) return false;
   for (int i = 0; i < dims1.size(); i++) {
     Dimension dim1 = dims1.get(i);
     Dimension dim2 = dims2.get(i);
     // if (!dim1.getName().equals(dim2.getName())) return false;
     if (dim1.getLength() != dim2.getLength()) return false;
   }
   return true;
 }
  /*
   Structure {
    int a_name;
    byte b_name(3);
    byte c_name(3);
    short d_name(3);
    int e_name(3);
    long f_name(3);
    int g_name(3);
    short h_name(3);
    int i_name(3);
    long j_name(3);
    float k_name(3);
    double l_name(3);
  } CompoundNative(15);
      type = Layout(8);  type= 1 (contiguous) storageSize = (15,144) dataSize=0 dataAddress=2048
  */
  @Test
  public void testReadH5StructureArrayMembers() throws java.io.IOException {
    try (NetcdfFile ncfile = TestH5.openH5("complex/compound_native.h5")) {

      Variable dset = ncfile.findVariable("CompoundNative");
      assert (null != dset);
      assert (dset.getDataType() == DataType.STRUCTURE);
      assert (dset.getRank() == 1);
      assert (dset.getSize() == 15);

      Dimension d = dset.getDimension(0);
      assert (d.getLength() == 15);

      Structure s = (Structure) dset;

      // read all with the iterator
      StructureDataIterator iter = s.getStructureIterator();
      while (iter.hasNext()) {
        StructureData sd = iter.next();

        for (StructureMembers.Member m : sd.getMembers()) {
          Array data = sd.getArray(m);
          NCdumpW.printArray(data, m.getName(), out, null);
        }
      }
    }
    System.out.println("*** testReadH5StructureArrayMembers ok");
  }
示例#6
0
 // look if the wanted dimension is in the  unknownDims list.
 private Dimension checkUnknownDims(
     String wantDim, List<Dimension> unknownDims, Dimension oldDim, String location) {
   for (Dimension dim : unknownDims) {
     if (dim.getShortName().equals(wantDim)) {
       int len = oldDim.getLength();
       if (len == 0) dim.setUnlimited(true); // allow zero length dimension !!
       dim.setLength(len); // use existing (anon) dimension
       Group parent = dim.getGroup();
       parent.addDimensionIfNotExists(dim); // add to the parent
       unknownDims.remove(dim); // remove from list LOOK is this ok?
       log.warn("unknownDim {} length set to {}{}", wantDim, oldDim.getLength(), location);
       return dim;
     }
   }
   return null;
 }
示例#7
0
 /** get the shape */
 public int[] getShape() {
   int[] shape = new int[mydims.size()];
   for (int i = 0; i < mydims.size(); i++) {
     Dimension d = mydims.get(i);
     shape[i] = d.getLength();
   }
   return shape;
 }
示例#8
0
  /** Create a DAS for this netcdf file */
  NcDAS(NetcdfFile ncfile) {

    // Variable attributes
    Iterator iter = ncfile.getVariables().iterator();
    while (iter.hasNext()) {
      Variable v = (Variable) iter.next();
      doVariable(v, null);
    }

    // Global attributes
    opendap.dap.AttributeTable gtable = new opendap.dap.AttributeTable("NC_GLOBAL");
    int count = addAttributes(gtable, null, ncfile.getGlobalAttributes().iterator());
    if (count > 0)
      try {
        addAttributeTable("NC_GLOBAL", gtable);
      } catch (AttributeExistsException e) {
        log.error("Cant add NC_GLOBAL", e);
      }

    // unlimited  dimension
    iter = ncfile.getDimensions().iterator();
    while (iter.hasNext()) {
      Dimension d = (Dimension) iter.next();
      if (d.isUnlimited()) {
        opendap.dap.AttributeTable table = new opendap.dap.AttributeTable("DODS_EXTRA");
        try {
          table.appendAttribute("Unlimited_Dimension", opendap.dap.Attribute.STRING, d.getName());
          addAttributeTable("DODS_EXTRA", table);
        } catch (Exception e) {
          log.error("Error adding Unlimited_Dimension =" + e);
        }
        break;
      }
    }

    // unused dimensions
    opendap.dap.AttributeTable dimTable = null;
    iter = ncfile.getDimensions().iterator();
    while (iter.hasNext()) {
      Dimension d = (Dimension) iter.next();
      if (null == usedDims.get(d.getName())) {
        if (dimTable == null) dimTable = new opendap.dap.AttributeTable("EXTRA_DIMENSION");
        try {
          dimTable.appendAttribute(
              d.getName(), opendap.dap.Attribute.INT32, Integer.toString(d.getLength()));
        } catch (Exception e) {
          log.error("Error adding Unlimited_Dimension =" + e);
        }
      }
    }
    if (dimTable != null)
      try {
        addAttributeTable("EXTRA_DIMENSION", dimTable);
      } catch (AttributeExistsException e) {
        log.error("Cant add EXTRA_DIMENSION", e);
      }
  }
示例#9
0
  public void testDimensions(NetcdfFile ncfile) {
    System.out.println("ncfile = \n" + ncfile);

    Dimension latDim = ncfile.findDimension("lat");
    assert null != latDim;
    assert latDim.getShortName().equals("lat");
    assert latDim.getLength() == 3;
    assert !latDim.isUnlimited();

    Dimension lonDim = ncfile.findDimension("lon");
    assert null != lonDim;
    assert lonDim.getShortName().equals("lon");
    assert lonDim.getLength() == 4;
    assert !lonDim.isUnlimited();

    Dimension timeDim = ncfile.findDimension("time");
    assert null != timeDim;
    assert timeDim.getShortName().equals("time");
    assert timeDim.getLength() == 3 : timeDim.getLength();
  }
示例#10
0
 /** Instances which have same contents are equal. Careful!! this is not object identity !! */
 @Override
 public boolean equals(Object oo) {
   if (this == oo) return true;
   if (!(oo instanceof Dimension)) return false;
   Dimension other = (Dimension) oo;
   if ((g != null) && !g.equals(other.getGroup())) return false;
   if ((getName() == null) && (other.getName() != null)) return false;
   if ((getName() != null) && !getName().equals(other.getName())) return false;
   return (getLength() == other.getLength())
       && (isUnlimited() == other.isUnlimited())
       && (isVariableLength() == other.isVariableLength())
       && (isShared() == other.isShared());
 }
示例#11
0
  /**
   * Create a new GeoGrid that is a logical subset of this GeoGrid.
   *
   * @param t_range subset the time dimension, or null if you want all of it
   * @param z_range subset the vertical dimension, or null if you want all of it
   * @param bbox a lat/lon bounding box, or null if you want all x,y
   * @param z_stride use only if z_range is null, then take all z with this stride (1 means all)
   * @param y_stride use this stride on the y coordinate (1 means all)
   * @param x_stride use this stride on the x coordinate (1 means all)
   * @return subsetted GeoGrid
   * @throws InvalidRangeException if bbox does not intersect GeoGrid
   */
  public GeoGrid subset(
      Range t_range, Range z_range, LatLonRect bbox, int z_stride, int y_stride, int x_stride)
      throws InvalidRangeException {

    if ((z_range == null) && (z_stride > 1)) {
      Dimension zdim = getZDimension();
      if (zdim != null) z_range = new Range(0, zdim.getLength() - 1, z_stride);
    }

    Range y_range = null, x_range = null;
    if (bbox != null) {
      List yx_ranges = gcs.getRangesFromLatLonRect(bbox);
      y_range = (Range) yx_ranges.get(0);
      x_range = (Range) yx_ranges.get(1);
    }

    if (y_stride > 1) {
      if (y_range == null) {
        Dimension ydim = getYDimension();
        y_range = new Range(0, ydim.getLength() - 1, y_stride);
      } else {
        y_range = new Range(y_range.first(), y_range.last(), y_stride);
      }
    }

    if (x_stride > 1) {
      if (x_range == null) {
        Dimension xdim = getXDimension();
        x_range = new Range(0, xdim.getLength() - 1, x_stride);
      } else {
        x_range = new Range(x_range.first(), x_range.last(), x_stride);
      }
    }

    return subset(t_range, z_range, y_range, x_range);
  }
  @Test
  public void testH5StructureDS() throws java.io.IOException {
    int a_name = 0;
    String[] b_name =
        new String[] {
          "A fight is a contract that takes two people to honor.",
          "A combative stance means that you've accepted the contract.",
          "In which case, you deserve what you get.",
          "  --  Professor Cheng Man-ch'ing"
        };
    String c_name = "Hello!";

    // H5header.setDebugFlags(new ucar.nc2.util.DebugFlagsImpl("H5header/header"));
    try (NetcdfDataset ncfile =
        NetcdfDataset.openDataset(TestH5.testDir + "complex/compound_complex.h5")) {

      Variable dset = ncfile.findVariable("CompoundComplex");
      assert (null != dset);
      assert (dset.getDataType() == DataType.STRUCTURE);
      assert (dset.getRank() == 1);
      assert (dset.getSize() == 6);

      Dimension d = dset.getDimension(0);
      assert (d.getLength() == 6);

      Structure s = (Structure) dset;

      // read all with the iterator
      StructureDataIterator iter = s.getStructureIterator();
      while (iter.hasNext()) {
        StructureData sd = iter.next();
        assert sd.getScalarInt("a_name") == a_name;
        a_name++;
        assert sd.getScalarString("c_name").equals(c_name);
        String[] results = sd.getJavaArrayString(sd.findMember("b_name"));
        assert results.length == b_name.length;
        int count = 0;
        for (String r : results) assert r.equals(b_name[count++]);

        for (StructureMembers.Member m : sd.getMembers()) {
          Array data = sd.getArray(m);
          NCdumpW.printArray(data, m.getName(), out, null);
        }
      }
    }
    System.out.println("*** testH5StructureDS ok");
  }
  private void createDataVariables(List<VariableSimpleIF> dataVars) throws IOException {

    /* height variable
    Variable heightVar = ncfile.addStringVariable(altName, recordDims, 20);
    ncfile.addVariableAttribute(heightVar, new Attribute("long_name", "height of observation"));
    ncfile.addVariableAttribute(heightVar, new Attribute("units", altUnits));  */

    Variable v = ncfile.addVariable(parentProfileIndex, DataType.INT, recordDimName);
    ncfile.addVariableAttribute(v, new Attribute("long_name", "index of parent profile"));

    v = ncfile.addVariable(nextObsName, DataType.INT, recordDimName);
    ncfile.addVariableAttribute(
        v, new Attribute("long_name", "record number of next obs in linked list for this profile"));

    // find all dimensions needed by the data variables
    for (VariableSimpleIF var : dataVars) {
      List<Dimension> dims = var.getDimensions();
      dimSet.addAll(dims);
    }

    // add them
    for (Dimension d : dimSet) {
      if (!d.isUnlimited())
        ncfile.addDimension(d.getName(), d.getLength(), d.isShared(), false, d.isVariableLength());
    }

    // add the data variables all using the record dimension
    for (VariableSimpleIF oldVar : dataVars) {
      List<Dimension> dims = oldVar.getDimensions();
      StringBuffer dimNames = new StringBuffer(recordDimName);
      for (Dimension d : dims) {
        if (!d.isUnlimited()) dimNames.append(" ").append(d.getName());
      }
      Variable newVar =
          ncfile.addVariable(oldVar.getName(), oldVar.getDataType(), dimNames.toString());

      List<Attribute> atts = oldVar.getAttributes();
      for (Attribute att : atts) {
        ncfile.addVariableAttribute(newVar, att);
      }
    }
  }
示例#14
0
    public VariableBean(VariableEnhanced v) {
      this.ve = v;

      setName(v.getFullName());
      setDescription(v.getDescription());
      setUnits(v.getUnitsString());

      // collect dimensions
      StringBuilder lens = new StringBuilder();
      StringBuilder names = new StringBuilder();
      java.util.List dims = v.getDimensions();
      for (int j = 0; j < dims.size(); j++) {
        ucar.nc2.Dimension dim = (ucar.nc2.Dimension) dims.get(j);
        if (j > 0) {
          lens.append(",");
          names.append(",");
        }
        String name = dim.isShared() ? dim.getShortName() : "anon";
        names.append(name);
        lens.append(dim.getLength());
      }
      setDims(names.toString());
      setShape(lens.toString());

      StringBuilder buff = new StringBuilder();
      List<CoordinateSystem> csList = v.getCoordinateSystems();
      for (CoordinateSystem cs : csList) {
        if (firstCoordSys == null) firstCoordSys = cs;
        else buff.append("; ");

        buff.append(cs.getName());

        Formatter gridBuff = new Formatter();
        if (GridCoordSys.isGridCoordSys(gridBuff, cs, v)) {
          addDataType("grid");
        } /* else if (PointDatasetDefaultHandler.isPointFeatureDataset(ds)) {
            addDataType("point");
          } */
      }
      setCoordSys(buff.toString());
    }
示例#15
0
    public AxisBean(CoordinateAxis v) {
      this.axis = v;

      setName(v.getFullName());
      setCoordVar(v.isCoordinateVariable());
      setDescription(v.getDescription());
      setUnits(v.getUnitsString());

      // collect dimensions
      StringBuilder lens = new StringBuilder();
      StringBuilder names = new StringBuilder();
      java.util.List dims = v.getDimensions();
      for (int j = 0; j < dims.size(); j++) {
        ucar.nc2.Dimension dim = (ucar.nc2.Dimension) dims.get(j);
        if (j > 0) {
          lens.append(",");
          names.append(",");
        }
        String name = dim.isShared() ? dim.getShortName() : "anon";
        names.append(name);
        lens.append(dim.getLength());
      }
      setDims(names.toString());
      setShape(lens.toString());

      AxisType at = v.getAxisType();
      if (at != null) setAxisType(at.toString());
      String p = v.getPositive();
      if (p != null) setPositive(p);

      if (v instanceof CoordinateAxis1D) {
        CoordinateAxis1D v1 = (CoordinateAxis1D) v;
        if (v1.isRegular()) setRegular(Double.toString(v1.getIncrement()));
      }
      isLayer = (null != axis.findAttribute(_Coordinate.ZisLayer));
      isInterval = axis.isInterval();
    }
  /*  Structure {
    char EntryName(64);
    char Definition(1024);
    char Unit(1024);
    char Scale Factor(1024);
  } TIME_DESCR(60);
     type = Layout(8);  type= 2 (chunked) storageSize = (1,3136) dataSize=0 dataAddress=684294
  */
  @Test
  public void testReadManyAtATime() throws java.io.IOException, InvalidRangeException {
    try (NetcdfFile ncfile = TestH5.openH5("IASI/IASI.h5")) {

      Variable dset = ncfile.findVariable("U-MARF/EPS/IASI_xxx_1C/DATA/TIME_DESCR");
      assert (null != dset);
      assert (dset.getDataType() == DataType.STRUCTURE);
      assert (dset.getRank() == 1);
      assert (dset.getSize() == 60);

      Dimension d = dset.getDimension(0);
      assert (d.getLength() == 60);

      ArrayStructure data = (ArrayStructure) dset.read();
      StructureMembers.Member m = data.getStructureMembers().findMember("EntryName");
      assert m != null;
      for (int i = 0; i < dset.getSize(); i++) {
        String r = data.getScalarString(i, m);
        if (i % 2 == 0) assert r.equals("TIME[" + i / 2 + "]-days") : r + " at " + i;
        else assert r.equals("TIME[" + i / 2 + "]-milliseconds") : r + " at " + i;
      }
    }
    System.out.println("*** testReadManyAtATime ok");
  }
 public int getRecordCount() {
   Dimension unlimitedDim = ncfile.getUnlimitedDimension();
   return unlimitedDim.getLength();
 }
示例#18
0
  @Test
  public void testDoradeAir() throws IOException {
    System.out.println("**** Open " + airDoradeFile);
    try (NetcdfFile ncfile = NetcdfFile.open(airDoradeFile)) {

      for (Variable v : ncfile.getVariables()) {
        System.out.println(v.getFullName());
      }

      Dimension gateDim = ncfile.getRootGroup().findDimension("gate_1");
      assert (gateDim.getLength() == 320);
      Dimension radialDim = ncfile.getRootGroup().findDimension("radial");
      assert (radialDim.getLength() == 274);

      Variable var;
      var = ncfile.findVariable("elevation");
      testReadData(var);
      var = ncfile.findVariable("azimuth");
      testReadData(var);
      var = ncfile.findVariable("distance_1");
      testReadData(var);
      var = ncfile.findVariable("latitudes_1");
      testReadData(var);
      var = ncfile.findVariable("longitudes_1");
      testReadData(var);
      var = ncfile.findVariable("altitudes_1");
      testReadData(var);
      var = ncfile.findVariable("rays_time");
      testReadData(var);

      var = ncfile.findVariable("Range_to_First_Cell");
      float t = testReadScalar(var);
      assert (t == (float) -2.0);
      var = ncfile.findVariable("Cell_Spacing");
      t = testReadScalar(var);
      assert (t == (float) 150.0);
      var = ncfile.findVariable("Fixed_Angle");
      t = testReadScalar(var);
      assert (t == (float) -16.53);
      var = ncfile.findVariable("Nyquist_Velocity");
      t = testReadScalar(var);
      assert (t == (float) 78.03032);
      var = ncfile.findVariable("Unambiguous_Range");
      t = testReadScalar(var);
      assert (t == (float) 60.0);
      var = ncfile.findVariable("Radar_Constant");
      t = testReadScalar(var);
      assert (t == (float) -81.17389);
      var = ncfile.findVariable("rcvr_gain");
      t = testReadScalar(var);
      assert (t == (float) 32.64);
      var = ncfile.findVariable("ant_gain");
      t = testReadScalar(var);
      assert (t == (float) 39.35);
      var = ncfile.findVariable("sys_gain");
      t = testReadScalar(var);
      assert (t == (float) 52.34);
      var = ncfile.findVariable("bm_width");
      t = testReadScalar(var);
      assert (t == (float) 1.79);

      var = ncfile.findVariable("VS");
      testReadData(var);
      var = ncfile.findVariable("VL");
      testReadData(var);
      var = ncfile.findVariable("SW");
      testReadData(var);
      var = ncfile.findVariable("VR");
      testReadData(var);
      var = ncfile.findVariable("NCP");
      testReadData(var);
      var = ncfile.findVariable("DBZ");
      testReadData(var);
      var = ncfile.findVariable("VG");
      testReadData(var);
      var = ncfile.findVariable("VT");
      testReadData(var);
      assert (null != var.getDimension(0));
      assert (null != var.getDimension(1));
    }
  }
示例#19
0
  private FeatureType amendGrid(
      Element gridElem, NetcdfFile ncfile, Group parent, String location) {
    List<Dimension> unknownDims = new ArrayList<>();

    // always has x and y dimension
    String xdimSizeS = gridElem.getChild("XDim").getText().trim();
    String ydimSizeS = gridElem.getChild("YDim").getText().trim();
    int xdimSize = Integer.parseInt(xdimSizeS);
    int ydimSize = Integer.parseInt(ydimSizeS);
    parent.addDimensionIfNotExists(new Dimension("XDim", xdimSize));
    parent.addDimensionIfNotExists(new Dimension("YDim", ydimSize));

    /* see HdfEosModisConvention
    UpperLeftPointMtrs=(-20015109.354000,1111950.519667)
    		LowerRightMtrs=(-18903158.834333,-0.000000)
    		Projection=GCTP_SNSOID
    		ProjParams=(6371007.181000,0,0,0,0,0,0,0,0,0,0,0,0)
    		SphereCode=-1
     */
    Element proj = gridElem.getChild("Projection");
    if (proj != null) {
      Variable crs = new Variable(ncfile, parent, null, HDFEOS_CRS);
      crs.setDataType(DataType.SHORT);
      crs.setDimensions(""); // scalar
      crs.setCachedData(Array.makeArray(DataType.SHORT, 1, 0, 0)); // fake data
      parent.addVariable(crs);

      addAttributeIfExists(gridElem, HDFEOS_CRS_Projection, crs, false);
      addAttributeIfExists(gridElem, HDFEOS_CRS_UpperLeft, crs, true);
      addAttributeIfExists(gridElem, HDFEOS_CRS_LowerRight, crs, true);
      addAttributeIfExists(gridElem, HDFEOS_CRS_ProjParams, crs, true);
      addAttributeIfExists(gridElem, HDFEOS_CRS_SphereCode, crs, false);
    }

    // global Dimensions
    Element d = gridElem.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);
      Dimension old = parent.findDimension(name);
      if ((old == null) || (old.getLength() != length)) {
        if (length > 0) {
          Dimension dim = new Dimension(name, length);
          if (parent.addDimensionIfNotExists(dim) && showWork)
            System.out.printf(" Add dimension %s %n", dim);
        } else {
          log.warn("Dimension {} has size {} {} ", sizeS, name, location);
          Dimension udim = new Dimension(name, 1);
          udim.setGroup(parent);
          unknownDims.add(udim);
          if (showWork) System.out.printf(" Add dimension %s %n", udim);
        }
      }
    }

    // Geolocation Variables
    Group geoFieldsG = parent.findGroup(GEOLOC_FIELDS);
    if (geoFieldsG == null) geoFieldsG = parent.findGroup(GEOLOC_FIELDS2);

    if (geoFieldsG != null) {
      Element floc = gridElem.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;

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

    // Data Variables
    Group dataG = parent.findGroup(DATA_FIELDS);
    if (dataG == null)
      dataG =
          parent.findGroup(
              DATA_FIELDS2); // eg C:\data\formats\hdf4\eos\mopitt\MOP03M-200501-L3V81.0.1.hdf

    if (dataG != null) {
      Element f = gridElem.getChild("DataField");
      List<Element> vars = f.getChildren();
      for (Element elem : vars) {
        String varname = elem.getChild("DataFieldName").getText().trim();
        varname = NetcdfFile.makeValidCdmObjectName(varname);
        Variable v = dataG.findVariable(varname);
        // if (v == null)
        //  v = dataG.findVariable( H4header.createValidObjectName(varname));
        assert v != null : varname;

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

      // get projection
      String projS = null;
      Element projElem = gridElem.getChild("Projection");
      if (projElem != null) projS = projElem.getText().trim();
      boolean isLatLon = "GCTP_GEO".equals(projS);

      // look for XDim, YDim coordinate variables
      if (isLatLon) {
        for (Variable v : dataG.getVariables()) {
          if (v.isCoordinateVariable()) {
            if (v.getShortName().equals("YDim")) {
              v.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Lat.toString()));
              v.addAttribute(new Attribute(CDM.UNITS, CDM.LAT_UNITS));
            }
            if (v.getShortName().equals("XDim"))
              v.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Lon.toString()));
          }
        }
      }
    }
    return FeatureType.GRID;
  }
示例#20
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;
  }
示例#21
0
  public void testWritePermute() throws Exception {
    NetcdfFileWriteable ncfile = new NetcdfFileWriteable();
    ncfile.setName(TestLocal.cdmTestDataDir + "permuteTest.nc");

    // define dimensions
    Dimension xDim = ncfile.addDimension("x", 3);
    Dimension yDim = ncfile.addDimension("y", 5);
    Dimension zDim = ncfile.addDimension("z", 4);
    Dimension tDim = ncfile.addDimension("time", 2);

    // define Variables
    ncfile.addVariable("time", double.class, new Dimension[] {tDim});
    ncfile.addVariableAttribute("time", "units", "secs since 1-1-1 00:00");

    ncfile.addVariable("z", double.class, new Dimension[] {zDim});
    ncfile.addVariableAttribute("z", "units", "meters");
    ncfile.addVariableAttribute("z", "positive", "up");

    ncfile.addVariable("y", double.class, new Dimension[] {yDim});
    ncfile.addVariableAttribute("y", "units", "degrees_north");

    ncfile.addVariable("x", double.class, new Dimension[] {xDim});
    ncfile.addVariableAttribute("x", "units", "degrees_east");

    ncfile.addVariable("tzyx", double.class, new Dimension[] {tDim, zDim, yDim, xDim});
    ncfile.addVariableAttribute("tzyx", "units", "K");

    ncfile.addVariable("tzxy", double.class, new Dimension[] {tDim, zDim, xDim, yDim});
    ncfile.addVariableAttribute("tzxy", "units", "K");

    ncfile.addVariable("tyxz", double.class, new Dimension[] {tDim, yDim, xDim, zDim});
    ncfile.addVariableAttribute("tyxz", "units", "K");

    ncfile.addVariable("txyz", double.class, new Dimension[] {tDim, xDim, yDim, zDim});
    ncfile.addVariableAttribute("txyz", "units", "K");

    ncfile.addVariable("zyxt", double.class, new Dimension[] {zDim, yDim, xDim, tDim});
    ncfile.addVariableAttribute("zyxt", "units", "K");

    ncfile.addVariable("zxyt", double.class, new Dimension[] {zDim, xDim, yDim, tDim});
    ncfile.addVariableAttribute("zxyt", "units", "K");

    ncfile.addVariable("yxzt", double.class, new Dimension[] {yDim, xDim, zDim, tDim});
    ncfile.addVariableAttribute("yxzt", "units", "K");

    ncfile.addVariable("xyzt", double.class, new Dimension[] {xDim, yDim, zDim, tDim});
    ncfile.addVariableAttribute("xyzt", "units", "K");

    // missing one dimension
    ncfile.addVariable("zyx", double.class, new Dimension[] {zDim, yDim, xDim});
    ncfile.addVariable("txy", double.class, new Dimension[] {tDim, xDim, yDim});
    ncfile.addVariable("yxz", double.class, new Dimension[] {yDim, xDim, zDim});
    ncfile.addVariable("xzy", double.class, new Dimension[] {xDim, zDim, yDim});
    ncfile.addVariable("yxt", double.class, new Dimension[] {yDim, xDim, tDim});
    ncfile.addVariable("xyt", double.class, new Dimension[] {xDim, yDim, tDim});
    ncfile.addVariable("xyz", double.class, new Dimension[] {xDim, yDim, zDim});

    // missing two dimension
    ncfile.addVariable("yx", double.class, new Dimension[] {yDim, xDim});
    ncfile.addVariable("xy", double.class, new Dimension[] {xDim, yDim});
    ncfile.addVariable("yz", double.class, new Dimension[] {yDim, zDim});
    ncfile.addVariable("xz", double.class, new Dimension[] {xDim, zDim});
    ncfile.addVariable("yt", double.class, new Dimension[] {yDim, tDim});
    ncfile.addVariable("xt", double.class, new Dimension[] {xDim, tDim});
    ncfile.addVariable("ty", double.class, new Dimension[] {tDim, yDim});
    ncfile.addVariable("tx", double.class, new Dimension[] {tDim, xDim});

    // add global attributes
    ncfile.addGlobalAttribute("Convention", "COARDS");

    // create the file
    try {
      ncfile.create();
    } catch (IOException e) {
      System.err.println("ERROR creating file");
      assert (false);
    }

    // write time data
    int len = tDim.getLength();
    ArrayDouble A = new ArrayDouble.D1(len);
    Index ima = A.getIndex();
    for (int i = 0; i < len; i++) A.setDouble(ima.set(i), (double) (i * 3600));
    int[] origin = new int[1];
    try {
      ncfile.write("time", origin, A);
    } catch (IOException e) {
      System.err.println("ERROR writing time");
      assert (false);
    }

    // write z data
    len = zDim.getLength();
    A = new ArrayDouble.D1(len);
    ima = A.getIndex();
    for (int i = 0; i < len; i++) A.setDouble(ima.set(i), (double) (i * 10));
    try {
      ncfile.write("z", origin, A);
    } catch (IOException e) {
      System.err.println("ERROR writing z");
      assert (false);
    }

    // write y data
    len = yDim.getLength();
    A = new ArrayDouble.D1(len);
    ima = A.getIndex();
    for (int i = 0; i < len; i++) A.setDouble(ima.set(i), (double) (i * 3));
    try {
      ncfile.write("y", origin, A);
    } catch (IOException e) {
      System.err.println("ERROR writing y");
      assert (false);
    }

    // write x data
    len = xDim.getLength();
    A = new ArrayDouble.D1(len);
    ima = A.getIndex();
    for (int i = 0; i < len; i++) A.setDouble(ima.set(i), (double) (i * 5));
    try {
      ncfile.write("x", origin, A);
    } catch (IOException e) {
      System.err.println("ERROR writing x");
      assert (false);
    }

    // write tzyx data
    doWrite4(ncfile, "tzyx");
    doWrite4(ncfile, "tzxy");
    doWrite4(ncfile, "txyz");
    doWrite4(ncfile, "tyxz");
    doWrite4(ncfile, "zyxt");
    doWrite4(ncfile, "zxyt");
    doWrite4(ncfile, "xyzt");
    doWrite4(ncfile, "yxzt");

    doWrite3(ncfile, "zyx");
    doWrite3(ncfile, "txy");
    doWrite3(ncfile, "yxz");
    doWrite3(ncfile, "xzy");
    doWrite3(ncfile, "yxt");
    doWrite3(ncfile, "xyt");
    doWrite3(ncfile, "yxt");
    doWrite3(ncfile, "xyz");

    doWrite2(ncfile, "yx");
    doWrite2(ncfile, "xy");
    doWrite2(ncfile, "yz");
    doWrite2(ncfile, "xz");
    doWrite2(ncfile, "yt");
    doWrite2(ncfile, "xt");
    doWrite2(ncfile, "ty");
    doWrite2(ncfile, "tx");

    if (show) System.out.println("ncfile = " + ncfile);

    // all done
    try {
      ncfile.close();
    } catch (IOException e) {
      System.err.println("ERROR writing file");
      assert (false);
    }

    System.out.println("*****************Test Write done");
  }
示例#22
0
  public void testWriteStandardVar() throws Exception {
    NetcdfFileWriteable ncfile = new NetcdfFileWriteable(filename, false);

    // define dimensions
    Dimension latDim = ncfile.addDimension("lat", 2);
    Dimension lonDim = ncfile.addDimension("lon", 3);

    ArrayList dims = new ArrayList();
    dims.add(latDim);
    dims.add(lonDim);

    // case 1
    ncfile.addVariable("t1", DataType.DOUBLE, dims);
    ncfile.addVariableAttribute("t1", CDM.SCALE_FACTOR, new Double(2.0));
    ncfile.addVariableAttribute("t1", "add_offset", new Double(77.0));

    // case 2
    ncfile.addVariable("t2", DataType.BYTE, dims);
    ncfile.addVariableAttribute("t2", CDM.SCALE_FACTOR, new Short((short) 2));
    ncfile.addVariableAttribute("t2", "add_offset", new Short((short) 77));

    // case 3
    ncfile.addVariable("t3", DataType.BYTE, dims);
    ncfile.addVariableAttribute("t3", "_FillValue", new Byte((byte) 255));

    // case 4
    ncfile.addVariable("t4", DataType.SHORT, dims);
    ncfile.addVariableAttribute("t4", CDM.MISSING_VALUE, new Short((short) -9999));

    // case 5
    ncfile.addVariable("t5", DataType.SHORT, dims);
    ncfile.addVariableAttribute("t5", CDM.MISSING_VALUE, new Short((short) -9999));
    ncfile.addVariableAttribute("t5", CDM.SCALE_FACTOR, new Short((short) 2));
    ncfile.addVariableAttribute("t5", "add_offset", new Short((short) 77));

    // case 1
    ncfile.addVariable("m1", DataType.DOUBLE, dims);
    ncfile.addVariableAttribute("m1", CDM.MISSING_VALUE, -999.99);

    // create the file
    ncfile.create();

    // write t1
    ArrayDouble A = new ArrayDouble.D2(latDim.getLength(), lonDim.getLength());
    int i, j;
    Index ima = A.getIndex();
    // write
    for (i = 0; i < latDim.getLength(); i++)
      for (j = 0; j < lonDim.getLength(); j++) A.setDouble(ima.set(i, j), (double) (i * 10.0 + j));
    int[] origin = new int[2];
    ncfile.write("t1", origin, A);

    // write t2
    ArrayByte Ab = new ArrayByte.D2(latDim.getLength(), lonDim.getLength());
    ima = Ab.getIndex();
    for (i = 0; i < latDim.getLength(); i++)
      for (j = 0; j < lonDim.getLength(); j++) Ab.setByte(ima.set(i, j), (byte) (i * 10 + j));
    ncfile.write("t2", origin, Ab);

    // write t3
    ncfile.write("t3", origin, Ab);

    // write t4
    Array As = new ArrayShort.D2(latDim.getLength(), lonDim.getLength());
    ima = As.getIndex();
    for (i = 0; i < latDim.getLength(); i++)
      for (j = 0; j < lonDim.getLength(); j++) As.setShort(ima.set(i, j), (short) (i * 10 + j));
    ncfile.write("t4", origin, As);

    As.setShort(ima.set(0, 0), (short) -9999);
    ncfile.write("t5", origin, As);

    // write m1
    ArrayDouble.D2 Ad = new ArrayDouble.D2(latDim.getLength(), lonDim.getLength());
    for (i = 0; i < latDim.getLength(); i++)
      for (j = 0; j < lonDim.getLength(); j++) Ad.setDouble(ima.set(i, j), (double) (i * 10.0 + j));
    Ad.set(1, 1, -999.99);
    ncfile.write("m1", new int[2], Ad);

    // all done
    ncfile.close();

    System.out.println("**************TestStandardVar Write done");
  }
  @Override
  public Product createProduct() throws ProductIOException {

    int[] dims;
    int sceneHeight = 0;
    int sceneWidth = 0;
    Group geodata = ncFile.findGroup("geophysical_data");
    if (productReader.getProductType() == SeadasProductReader.ProductType.OISST) {
      dims = ncFile.getVariables().get(4).getShape();
      sceneHeight = dims[2];
      sceneWidth = dims[3];
      mustFlipY = true;
    } else if (productReader.getProductType() == SeadasProductReader.ProductType.ANCCLIM) {
      List<Variable> vars = ncFile.getVariables();
      for (Variable v : vars) {
        if (v.getRank() == 2) {
          dims = v.getShape();
          sceneHeight = dims[0];
          sceneWidth = dims[1];
        }
      }
    } else {
      if (geodata != null) {
        dims = geodata.getVariables().get(0).getShape();
        sceneHeight = dims[0];
        sceneWidth = dims[1];
      } else {
        ucar.nc2.Dimension latdim = ncFile.findDimension("lat");
        ucar.nc2.Dimension londim = ncFile.findDimension("lon");
        if (latdim != null) {
          sceneHeight = latdim.getLength();
          sceneWidth = londim.getLength();
        } else {
          dims = ncFile.getVariables().get(0).getShape();
          sceneHeight = dims[0];
          sceneWidth = dims[1];
        }
      }
    }

    String productName = productReader.getInputFile().getName();
    try {
      productName = getStringAttribute("Product_Name");
    } catch (Exception ignored) {

    }

    SeadasProductReader.ProductType productType = productReader.getProductType();

    Product product = new Product(productName, productType.toString(), sceneWidth, sceneHeight);
    product.setDescription(productName);

    product.setFileLocation(productReader.getInputFile());
    product.setProductReader(productReader);

    addGlobalMetadata(product);
    addSmiMetadata(product);
    //        variableMap = addBands(product, ncFile.getVariables());
    variableMap = addSmiBands(product, ncFile.getVariables());
    try {
      addGeocoding(product);
    } catch (Exception ignored) {
    }
    addFlagsAndMasks(product);
    if (productReader.getProductType() == SeadasProductReader.ProductType.Bathy) {
      mustFlipY = true;
      Dimension tileSize = new Dimension(640, 320);
      product.setPreferredTileSize(tileSize);
    }
    return product;
  }
示例#24
0
  @Test
  public void testDoradeGround() throws IOException {

    System.out.println("**** Open " + groundDoradeFile);
    try (NetcdfFile ncfile = NetcdfFile.open(groundDoradeFile)) {

      for (Variable v : ncfile.getVariables()) {
        System.out.println(v.getFullName());
      }

      /* test both gate and radial dimension */
      Dimension gateDim = ncfile.getRootGroup().findDimension("gate_1");

      assert (gateDim.getLength() == 1008);

      Dimension radialDim = ncfile.getRootGroup().findDimension("radial");

      assert (radialDim.getLength() == 439);

      /* test some att  */
      Attribute testAtt = ncfile.getRootGroup().findAttribute("Conventions");
      assert (testAtt.getStringValue().equals(_Coordinate.Convention));

      testAtt = ncfile.getRootGroup().findAttribute("format");
      assert (testAtt.getStringValue().equals("Unidata/netCDF/Dorade"));

      testAtt = ncfile.getRootGroup().findAttribute("Project_name");
      assert (testAtt.getStringValue().equalsIgnoreCase("IHOP_2002"));

      testAtt = ncfile.getRootGroup().findAttribute("Radar_Name");
      assert (testAtt.getStringValue().equalsIgnoreCase("SPOL"));

      testAtt = ncfile.getRootGroup().findAttribute("VolumeCoveragePatternName");
      assert (testAtt.getStringValue().equalsIgnoreCase("SUR"));

      testAtt = ncfile.getRootGroup().findAttribute("Volume_Number");
      assert (testAtt.getStringValue().equalsIgnoreCase("1"));

      testAtt = ncfile.getRootGroup().findAttribute("Sweep_Number");
      assert (testAtt.getStringValue().equalsIgnoreCase("2"));

      testAtt = ncfile.getRootGroup().findAttribute("Sweep_Date");
      assert (testAtt.getStringValue().equalsIgnoreCase("2002-05-11 01:58:15Z"));

      Variable var;
      var = ncfile.findVariable("elevation");
      testReadData(var);
      var = ncfile.findVariable("azimuth");
      testReadData(var);
      var = ncfile.findVariable("distance_1");
      testReadData(var);
      var = ncfile.findVariable("latitudes_1");
      testReadData(var);
      var = ncfile.findVariable("longitudes_1");
      testReadData(var);
      var = ncfile.findVariable("altitudes_1");
      testReadData(var);
      var = ncfile.findVariable("rays_time");
      testReadData(var);
      var = ncfile.findVariable("Range_to_First_Cell");
      float t = testReadScalar(var);
      assert (t == (float) 150.0);

      var = ncfile.findVariable("Cell_Spacing");
      t = testReadScalar(var);
      assert (t == (float) 149.89624);
      var = ncfile.findVariable("Fixed_Angle");
      t = testReadScalar(var);
      assert (t == (float) 1.1975098);
      var = ncfile.findVariable("Nyquist_Velocity");
      t = testReadScalar(var);
      assert (t == (float) 25.618269);
      var = ncfile.findVariable("Unambiguous_Range");
      t = testReadScalar(var);
      assert (t == (float) 156.11694);
      var = ncfile.findVariable("Radar_Constant");
      t = testReadScalar(var);
      assert (t == (float) 70.325195);
      var = ncfile.findVariable("rcvr_gain");
      t = testReadScalar(var);
      assert (t == (float) 46.95);
      var = ncfile.findVariable("ant_gain");
      t = testReadScalar(var);
      assert (t == (float) 45.58);
      var = ncfile.findVariable("sys_gain");
      t = testReadScalar(var);
      assert (t == (float) 46.95);
      var = ncfile.findVariable("bm_width");
      t = testReadScalar(var);
      assert (t == (float) 0.92);

      var = ncfile.findVariable("VE");
      testReadData(var);
      var = ncfile.findVariable("DM");
      testReadData(var);
      var = ncfile.findVariable("NCP");
      testReadData(var);
      var = ncfile.findVariable("SW");
      testReadData(var);
      var = ncfile.findVariable("DZ");
      testReadData(var);
      var = ncfile.findVariable("DCZ");
      testReadData(var);
      var = ncfile.findVariable("LVDR");
      testReadData(var);
      var = ncfile.findVariable("NIQ");
      testReadData(var);
      var = ncfile.findVariable("AIQ");
      testReadData(var);
      var = ncfile.findVariable("CH");
      testReadData(var);
      var = ncfile.findVariable("AH");
      testReadData(var);
      var = ncfile.findVariable("CV");
      testReadData(var);
      var = ncfile.findVariable("AV");
      testReadData(var);
      var = ncfile.findVariable("RHOHV");
      testReadData(var);
      var = ncfile.findVariable("LDR");
      testReadData(var);
      var = ncfile.findVariable("DL");
      testReadData(var);
      var = ncfile.findVariable("DX");
      testReadData(var);
      var = ncfile.findVariable("ZDR");
      testReadData(var);
      var = ncfile.findVariable("PHI");
      testReadData(var);
      var = ncfile.findVariable("KDP");
      testReadData(var);

      assert (0 == var.findDimensionIndex("radial"));
      assert (1 == var.findDimensionIndex("gate_1"));
    }
  }
示例#25
0
  /**
   * Parses a variable recursively into appropriate ViewVariable implementations
   *
   * @throws IOException
   * @throws
   */
  private static AbstractViewVariable parseVariableRecursive(Variable var) throws IOException {
    List<Dimension> dimensions = var.getDimensions();

    // A single dimension means we can parse a SimpleAxis
    if (dimensions.size() == 1) {
      SimpleAxis axis =
          new SimpleAxis(var.getName(), var.getDataType().name(), var.getUnitsString(), null, null);
      Dimension d = dimensions.get(0);

      axis.setDimensionBounds(new SimpleBounds(0, d.getLength()));

      // Read our first and last values
      Array first = null, last = null;
      try {
        first = var.read(new int[] {0}, new int[] {1});
        last = var.read(new int[] {d.getLength() - 1}, new int[] {1});
      } catch (InvalidRangeException ex) {
        throw new IllegalArgumentException(
            String.format("Unable to read variable ranges '%1$s'", var), ex);
      }

      axis.setValueBounds(new SimpleBounds(first.getDouble(0), last.getDouble(0)));

      return axis;
      // Otherwise we have a multi dimensional variable that we can parse as a grid
    } else if (dimensions.size() > 0) {
      SimpleGrid grid =
          new SimpleGrid(var.getName(), var.getDataType().name(), var.getUnitsString(), null);
      List<AbstractViewVariable> childAxes = new ArrayList<>();

      // Recursively parse each dimension (which should map to a variable in the parent group)
      for (Dimension d : dimensions) {
        Variable mappedVariable = d.getGroup().findVariable(d.getName());
        if (mappedVariable == null) {
          // If the dimension doesn't map to a variable, we can't pull much information out of it
          // So instead we'll have to introduce an axis that only includes dimension bounds
          log.warn(
              String.format(
                  "Dimension '%1$s' has no matching variable in parent group '%2$s'",
                  d, d.getGroup()));

          SimpleAxis axis = new SimpleAxis(d.getName(), DataType.FLOAT.name(), "????", null, null);
          axis.setDimensionBounds(new SimpleBounds(0, d.getLength() - 1));
          childAxes.add(axis);
        } else {
          AbstractViewVariable parsedVar = parseVariableRecursive(mappedVariable);

          if (parsedVar != null) childAxes.add(parsedVar);
        }
      }

      if (childAxes.size() > 0) {
        grid.setAxes(childAxes.toArray(new AbstractViewVariable[childAxes.size()]));
        return grid;
      } else {
        return null;
      }
    } else {
      // Currently unsupported...
      log.warn(
          String.format("Variables with 0 dimensions are currently unsupported. var='%1$s'", var));
      return null;
    }
  }
示例#26
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);
  }
  public static void main(String args[]) throws Exception {
    long start = System.currentTimeMillis();
    Map<String, ucar.unidata.geoloc.Station> staHash =
        new HashMap<String, ucar.unidata.geoloc.Station>();

    String location = "R:/testdata/sounding/netcdf/Upperair_20070401_0000.nc";
    NetcdfDataset ncfile = NetcdfDataset.openDataset(location);
    ncfile.sendIospMessage(NetcdfFile.IOSP_MESSAGE_ADD_RECORD_STRUCTURE);

    // look through record varibles, for those that have "manLevel" dimension
    // make a StructureData object for those
    StructureMembers sm = new StructureMembers("manLevel");
    Dimension manDim = ncfile.findDimension("manLevel");
    Structure record = (Structure) ncfile.findVariable("record");
    List<Variable> allList = record.getVariables();
    List<VariableSimpleIF> varList = new ArrayList<VariableSimpleIF>();
    for (Variable v : allList) {
      if ((v.getRank() == 1) && v.getDimension(0).equals(manDim)) {
        // public VariableDS(NetcdfDataset ds, Group group, Structure parentStructure, String
        // shortName, DataType dataType,
        // String dims, String units, String desc) {
        varList.add(
            new VariableDS(
                ncfile,
                null,
                null,
                v.getShortName(),
                v.getDataType(),
                "",
                v.getUnitsString(),
                v.getDescription()));
        // (String name, String desc, String units, DataType dtype, int []shape)
        sm.addMember(
            v.getShortName(),
            v.getDescription(),
            v.getUnitsString(),
            v.getDataType(),
            new int[0]); // scalar
      }
    }

    ArrayStructureMA manAS = new ArrayStructureMA(sm, new int[] {manDim.getLength()});

    // need the date units
    Variable time = ncfile.findVariable("synTime");
    String timeUnits = ncfile.findAttValueIgnoreCase(time, "units", null);
    timeUnits = StringUtil.remove(timeUnits, '('); // crappy fsl'ism
    timeUnits = StringUtil.remove(timeUnits, ')');
    DateUnit timeUnit = new DateUnit(timeUnits);

    // extract stations
    int nrecs = 0;
    StructureDataIterator iter = record.getStructureIterator();
    while (iter.hasNext()) {
      StructureData sdata = iter.next();
      String name = sdata.getScalarString("staName");
      ucar.unidata.geoloc.Station s = staHash.get(name);
      if (s == null) {
        float lat = sdata.convertScalarFloat("staLat");
        float lon = sdata.convertScalarFloat("staLon");
        float elev = sdata.convertScalarFloat("staElev");
        s = new StationImpl(name, "", lat, lon, elev);
        staHash.put(name, s);
      }
      nrecs++;
    }
    List<ucar.unidata.geoloc.Station> stnList =
        Arrays.asList(staHash.values().toArray(new ucar.unidata.geoloc.Station[staHash.size()]));
    Collections.sort(stnList);

    // create the writer
    WriterProfileObsDataset writer =
        new WriterProfileObsDataset(location + ".out", "rewrite " + location);
    writer.writeHeader(stnList, varList, nrecs, "prMan");

    // extract records
    iter = record.getStructureIterator();
    while (iter.hasNext()) {
      StructureData sdata = iter.next();
      String name = sdata.getScalarString("staName");
      double timeValue = sdata.convertScalarDouble("synTime");
      Date date = timeUnit.makeDate(timeValue);

      // transfer to the ArrayStructure
      List<String> names = sm.getMemberNames();
      for (String mname : names) {
        manAS.setMemberArray(mname, sdata.getArray(mname));
      }

      // each level is weritten as a seperate structure
      int numMand = sdata.getScalarInt("numMand");
      if (numMand >= manDim.getLength()) continue;

      for (int i = 0; i < numMand; i++) {
        StructureData useData = manAS.getStructureData(i);
        writer.writeRecord(name, date, useData);
      }
    }

    writer.finish();

    long took = System.currentTimeMillis() - start;
    System.out.println("That took = " + took);
  }
示例#28
0
  /**
   * This reads an arbitrary data slice, returning the data in canonical order (rt-e-t-z-y-x). If
   * any dimension does not exist, ignore it.
   *
   * @param rt if < 0, get all of runtime dim; if valid index, fix slice to that value.
   * @param e if < 0, get all of ensemble dim; if valid index, fix slice to that value.
   * @param t if < 0, get all of time dim; if valid index, fix slice to that value.
   * @param z if < 0, get all of z dim; if valid index, fix slice to that value.
   * @param y if < 0, get all of y dim; if valid index, fix slice to that value.
   * @param x if < 0, get all of x dim; if valid index, fix slice to that value.
   * @return data[rt,e,t,z,y,x], eliminating missing or fixed dimension.
   */
  public Array readDataSlice(int rt, int e, int t, int z, int y, int x) throws java.io.IOException {

    int rank = vs.getRank();
    int[] start = new int[rank];
    int[] shape = new int[rank];
    for (int i = 0; i < rank; i++) {
      start[i] = 0;
      shape[i] = 1;
    }
    Dimension xdim = getXDimension();
    Dimension ydim = getYDimension();
    Dimension zdim = getZDimension();
    Dimension tdim = getTimeDimension();
    Dimension edim = getEnsembleDimension();
    Dimension rtdim = getRunTimeDimension();

    // construct the shape of the data volume to be read
    if (rtdim != null) {
      if ((rt >= 0) && (rt < rtdim.getLength())) start[rtDimOrgIndex] = rt; // fix rt
      else {
        shape[rtDimOrgIndex] = rtdim.getLength(); // all of rt
      }
    }

    if (edim != null) {
      if ((e >= 0) && (e < edim.getLength())) start[eDimOrgIndex] = e; // fix e
      else {
        shape[eDimOrgIndex] = edim.getLength(); // all of e
      }
    }

    if (tdim != null) {
      if ((t >= 0) && (t < tdim.getLength())) start[tDimOrgIndex] = t; // fix t
      else {
        shape[tDimOrgIndex] = tdim.getLength(); // all of t
      }
    }

    if (zdim != null) {
      if ((z >= 0) && (z < zdim.getLength())) start[zDimOrgIndex] = z; // fix z
      else {
        shape[zDimOrgIndex] = zdim.getLength(); // all of z
      }
    }

    if (ydim != null) {
      if ((y >= 0) && (y < ydim.getLength())) start[yDimOrgIndex] = y; // fix y
      else {
        shape[yDimOrgIndex] = ydim.getLength(); // all of y
      }
    }

    if (xdim != null) {
      if ((x >= 0) && (x < xdim.getLength())) // all of x
      start[xDimOrgIndex] = x; // fix x
      else {
        shape[xDimOrgIndex] = xdim.getLength(); // all of x
      }
    }

    if (debugArrayShape) {
      System.out.println("read shape from org variable = ");
      for (int i = 0; i < rank; i++)
        System.out.println(
            "   start = "
                + start[i]
                + " shape = "
                + shape[i]
                + " name = "
                + vs.getDimension(i).getName());
    }

    // read it
    Array dataVolume;
    try {
      dataVolume = vs.read(start, shape);
    } catch (Exception ex) {
      log.error(
          "GeoGrid.getdataSlice() on dataset " + getFullName() + " " + dataset.getLocation(), ex);
      throw new java.io.IOException(ex.getMessage());
    }

    // LOOK: the real problem is the lack of named dimensions in the Array object
    // figure out correct permutation for canonical ordering for permute
    List<Dimension> oldDims = new ArrayList<Dimension>(vs.getDimensions());
    int[] permuteIndex = new int[dataVolume.getRank()];
    int count = 0;
    if (oldDims.contains(rtdim)) permuteIndex[count++] = oldDims.indexOf(rtdim);
    if (oldDims.contains(edim)) permuteIndex[count++] = oldDims.indexOf(edim);
    if (oldDims.contains(tdim)) permuteIndex[count++] = oldDims.indexOf(tdim);
    if (oldDims.contains(zdim)) permuteIndex[count++] = oldDims.indexOf(zdim);
    if (oldDims.contains(ydim)) permuteIndex[count++] = oldDims.indexOf(ydim);
    if (oldDims.contains(xdim)) permuteIndex[count] = oldDims.indexOf(xdim);

    if (debugArrayShape) {
      System.out.println("oldDims = ");
      for (Dimension oldDim : oldDims) System.out.println("   oldDim = " + oldDim.getName());
      System.out.println("permute dims = ");
      for (int aPermuteIndex : permuteIndex)
        System.out.println("   oldDim index = " + aPermuteIndex);
    }

    // check to see if we need to permute
    boolean needPermute = false;
    for (int i = 0; i < permuteIndex.length; i++) {
      if (i != permuteIndex[i]) needPermute = true;
    }

    // permute to the order rt,e,t,z,y,x
    if (needPermute) dataVolume = dataVolume.permute(permuteIndex);

    // eliminate fixed dimensions, but not all dimensions of length 1.
    count = 0;
    if (rtdim != null) {
      if (rt >= 0) dataVolume = dataVolume.reduce(count);
      else count++;
    }
    if (edim != null) {
      if (e >= 0) dataVolume = dataVolume.reduce(count);
      else count++;
    }
    if (tdim != null) {
      if (t >= 0) dataVolume = dataVolume.reduce(count);
      else count++;
    }
    if (zdim != null) {
      if (z >= 0) dataVolume = dataVolume.reduce(count);
      else count++;
    }
    if (ydim != null) {
      if (y >= 0) dataVolume = dataVolume.reduce(count);
      else count++;
    }
    if (xdim != null) {
      if (x >= 0) dataVolume = dataVolume.reduce(count);
    }

    return dataVolume;
  }
  /**
   * Build the configuration from the dataset
   *
   * @param ncd NetcdfDataset
   * @return the trajectory configuration
   */
  private static Config buildConfig(NetcdfDataset ncd) {

    // already did this in isValid, but we'll keep here for later refactor
    Attribute attrib = ncd.findGlobalAttributeIgnoreCase("center");
    if (attrib == null) {
      return null;
    }
    if (!attrib.isString()) {
      return null;
    }
    if (!attrib.getStringValue().equals("UCAR/CDAAC")) {
      return null;
    }

    // Check for start_time, stop_time
    attrib = ncd.findGlobalAttributeIgnoreCase("start_time");
    if (attrib == null) {
      return null;
    }
    if (attrib.isString()) {
      return null;
    }
    double startTime = attrib.getNumericValue().doubleValue();
    attrib = ncd.findGlobalAttributeIgnoreCase("stop_time");
    if (attrib == null) {
      return null;
    }
    if (attrib.isString()) {
      return null;
    }
    double endTime = attrib.getNumericValue().doubleValue();

    // Check that only one dimension and that it is the alt dimension.
    List list = ncd.getRootGroup().getDimensions();
    if (list.size() != 1) {
      return null;
    }
    Dimension d = (Dimension) list.get(0);
    if (!d.getName().equals(timeDimName)) {
      return null;
    }

    Config trajConfig = new Config();
    trajConfig.setTimeDim(d);

    // Check for latitude variable with time dimension and units convertable to "degrees_north".
    Variable var = ncd.getRootGroup().findVariable(latVarName);
    if (var == null) {
      return null;
    }
    list = var.getDimensions();
    if (list.size() != 1) {
      return null;
    }
    d = (Dimension) list.get(0);
    if (!d.getName().equals(timeDimName)) {
      return null;
    }
    String units = var.findAttribute("units").getStringValue();
    if (!SimpleUnit.isCompatible(units, "degrees_north")) {
      return null;
    }

    trajConfig.setLatVar(var);

    // Make the time Variable
    int numTimes = d.getLength();
    double[] times = new double[numTimes];
    // Variable timeVar = new Variable(var);
    // timeVar.setName(timeVarName);
    VariableDS timeVar =
        new VariableDS(
            ncd,
            ncd.getRootGroup(),
            null,
            timeVarName,
            DataType.DOUBLE,
            timeDimName,
            "seconds since 1980-01-06 00:00:00",
            "Time coordinate");
    // Variable timeVar = new Variable(ncd, ncd.getRootGroup(), null,
    //                              timeVarName);
    // timeVar.setDataType(DataType.DOUBLE);
    // timeVar.setDimensions(list);
    // Attribute newUnits =
    //    new Attribute("units", "seconds since 1980-01-06 00:00:00");
    // timeVar.addAttribute(newUnits);
    timeVar.setCachedData(
        Array.makeArray(DataType.DOUBLE, numTimes, endTime, ((startTime - endTime) / numTimes)),
        true);
    ncd.addVariable(ncd.getRootGroup(), timeVar);
    trajConfig.setTimeVar(timeVar);

    // Check for longitude variable with time dimension and units convertable to "degrees_east".
    var = ncd.getRootGroup().findVariable(lonVarName);
    if (var == null) {
      return null;
    }
    list = var.getDimensions();
    if (list.size() != 1) {
      return null;
    }
    d = (Dimension) list.get(0);
    if (!d.getName().equals(timeDimName)) {
      return null;
    }
    units = var.findAttribute("units").getStringValue();
    if (!SimpleUnit.isCompatible(units, "degrees_east")) {
      return null;
    }

    trajConfig.setLonVar(var);

    // Check for altitude variable with time dimension and units convertable to "m".
    var = ncd.getRootGroup().findVariable(elevVarName);
    if (var == null) {
      return null;
    }
    list = var.getDimensions();
    if (list.size() != 1) {
      return null;
    }
    d = (Dimension) list.get(0);
    if (!d.getName().equals(timeDimName)) {
      return null;
    }
    units = var.findAttribute("units").getStringValue();
    if (!SimpleUnit.isCompatible(units, "meters")) {
      return null;
    }

    trajConfig.setElevVar(var);

    trajConfig.setTrajectoryId(trajId);

    return trajConfig;
  }
示例#30
0
  Write2ncRect(NetcdfFile bufr, String fileOutName, boolean fill)
      throws IOException, InvalidRangeException {

    NetcdfFileWriteable ncfile = NetcdfFileWriteable.createNew(fileOutName, fill);
    if (debug) {
      System.out.println("FileWriter write " + bufr.getLocation() + " to " + fileOutName);
    }

    // global attributes
    List<Attribute> glist = bufr.getGlobalAttributes();
    for (Attribute att : glist) {
      String useName = N3iosp.makeValidNetcdfObjectName(att.getName());
      Attribute useAtt;
      if (att.isArray()) useAtt = ncfile.addGlobalAttribute(useName, att.getValues());
      else if (att.isString()) useAtt = ncfile.addGlobalAttribute(useName, att.getStringValue());
      else useAtt = ncfile.addGlobalAttribute(useName, att.getNumericValue());
      if (debug) System.out.println("add gatt= " + useAtt);
    }

    // global dimensions
    Dimension recordDim = null;
    Map<String, Dimension> dimHash = new HashMap<String, Dimension>();
    for (Dimension oldD : bufr.getDimensions()) {
      String useName = N3iosp.makeValidNetcdfObjectName(oldD.getName());
      boolean isRecord = useName.equals("record");
      Dimension newD = ncfile.addDimension(useName, oldD.getLength(), true, false, false);
      dimHash.put(newD.getName(), newD);
      if (isRecord) recordDim = newD;
      if (debug) System.out.println("add dim= " + newD);
    }

    // Variables
    Structure recordStruct = (Structure) bufr.findVariable(BufrIosp.obsRecord);
    for (Variable oldVar : recordStruct.getVariables()) {
      if (oldVar.getDataType() == DataType.STRUCTURE) continue;

      String varName = N3iosp.makeValidNetcdfObjectName(oldVar.getShortName());
      DataType newType = oldVar.getDataType();

      List<Dimension> newDims = new ArrayList<Dimension>();
      newDims.add(recordDim);
      for (Dimension dim : oldVar.getDimensions()) {
        newDims.add(ncfile.addDimension(oldVar.getShortName() + "_strlen", dim.getLength()));
      }

      Variable newVar = ncfile.addVariable(varName, newType, newDims);
      if (debug) System.out.println("add var= " + newVar);

      // attributes
      List<Attribute> attList = oldVar.getAttributes();
      for (Attribute att : attList) {
        String useName = N3iosp.makeValidNetcdfObjectName(att.getName());
        if (att.isArray()) ncfile.addVariableAttribute(varName, useName, att.getValues());
        else if (att.isString())
          ncfile.addVariableAttribute(varName, useName, att.getStringValue());
        else ncfile.addVariableAttribute(varName, useName, att.getNumericValue());
      }
    }

    // int max_seq = countSeq(recordStruct);
    // Dimension seqD = ncfile.addDimension("level", max_seq);

    for (Variable v : recordStruct.getVariables()) {
      if (v.getDataType() != DataType.STRUCTURE) continue;
      String structName = N3iosp.makeValidNetcdfObjectName(v.getShortName());
      int shape[] = v.getShape();

      Dimension structDim = ncfile.addDimension(structName, shape[0]);

      Structure struct = (Structure) v;
      for (Variable seqVar : struct.getVariables()) {
        String varName = N3iosp.makeValidNetcdfObjectName(seqVar.getShortName() + "-" + structName);
        DataType newType = seqVar.getDataType();

        List<Dimension> newDims = new ArrayList<Dimension>();
        newDims.add(recordDim);
        newDims.add(structDim);
        for (Dimension dim : seqVar.getDimensions()) {
          newDims.add(ncfile.addDimension(seqVar.getShortName() + "_strlen", dim.getLength()));
        }

        Variable newVar = ncfile.addVariable(varName, newType, newDims);
        if (debug) System.out.println("add var= " + newVar);

        // attributes
        List<Attribute> attList = seqVar.getAttributes();
        for (Attribute att : attList) {
          String useName = N3iosp.makeValidNetcdfObjectName(att.getName());
          if (att.isArray()) ncfile.addVariableAttribute(varName, useName, att.getValues());
          else if (att.isString())
            ncfile.addVariableAttribute(varName, useName, att.getStringValue());
          else ncfile.addVariableAttribute(varName, useName, att.getNumericValue());
        }
      }
    }

    // create the file
    ncfile.create();
    if (debug) System.out.println("File Out= " + ncfile.toString());

    // boolean ok = (Boolean) ncfile.sendIospMessage(NetcdfFile.IOSP_MESSAGE_ADD_RECORD_STRUCTURE);

    double total = copyVarData(ncfile, recordStruct);
    ncfile.flush();
    System.out.println("FileWriter done total bytes = " + total);
    ncfile.close();
  }