Exemple #1
0
  private int addAttributes(opendap.dap.AttributeTable table, Variable v, Iterator iter) {
    int count = 0;

    // add attribute table for this variable
    while (iter.hasNext()) {
      Attribute att = (Attribute) iter.next();
      int dods_type = DODSNetcdfFile.convertToDODSType(att.getDataType(), false);

      try {
        String attName = NcDDS.escapeName(att.getName());
        if (att.isString()) {
          /* FIX String value = escapeAttributeStringValues(att.getStringValue());
          table.appendAttribute(attName, dods_type, "\""+value+"\"");
          */
          table.appendAttribute(attName, dods_type, att.getStringValue());
        } else {
          // cant send signed bytes
          if (att.getDataType() == DataType.BYTE) {
            boolean signed = false;
            for (int i = 0; i < att.getLength(); i++) {
              if (att.getNumericValue(i).byteValue() < 0) signed = true;
            }
            if (signed) // promote to signed short
            dods_type = opendap.dap.Attribute.INT16;
          }

          for (int i = 0; i < att.getLength(); i++)
            table.appendAttribute(attName, dods_type, att.getNumericValue(i).toString());
        }
        count++;

      } catch (Exception e) {
        log.error(
            "Error appending attribute " + att.getName() + " = " + att.getStringValue() + "\n" + e);
      }
    } // loop over variable attributes

    // kludgy thing to map char arrays to DODS Strings
    if ((v != null) && (v.getDataType().getPrimitiveClassType() == char.class)) {
      int rank = v.getRank();
      int strlen = (rank == 0) ? 0 : v.getShape(rank - 1);
      Dimension dim = (rank == 0) ? null : v.getDimension(rank - 1);
      try {
        opendap.dap.AttributeTable dodsTable = table.appendContainer("DODS");
        dodsTable.appendAttribute("strlen", opendap.dap.Attribute.INT32, Integer.toString(strlen));
        if ((dim != null) && dim.isShared())
          dodsTable.appendAttribute("dimName", opendap.dap.Attribute.STRING, dim.getName());
        count++;
      } catch (Exception e) {
        log.error("Error appending attribute strlen\n" + e);
      }
    }

    return count;
  }
Exemple #2
0
  public void readShortMissing() throws Exception {
    Variable v = null;
    assert (null != (v = ncfileRead.findVariable("t4")));
    assert (v.getDataType() == DataType.SHORT);

    // default use of missing_value
    assert (null != (v = dsRead.findVariable("t4")));
    assert v instanceof VariableEnhanced;
    assert v instanceof VariableDS;
    VariableDS vs = (VariableDS) v;
    assert (vs.getDataType() == DataType.SHORT);

    Attribute att = vs.findAttribute(CDM.MISSING_VALUE);
    assert (null != att);
    assert (!att.isArray());
    assert (1 == att.getLength());
    System.out.println("missing_value = " + att.getNumericValue().shortValue());
    assert (((short) -9999) == att.getNumericValue().shortValue());
    assert (DataType.SHORT == att.getDataType());

    assert (vs.hasMissing());
    assert (vs.hasMissingValue());
    assert (vs.isMissing((double) ((short) -9999)));
    assert (vs.isMissingValue((double) ((short) -9999)));

    Array A = vs.read();
    Index ima = A.getIndex();
    int[] shape = A.getShape();
    int i, j;
    for (i = 0; i < shape[0]; i++) {
      for (j = 0; j < shape[1]; j++) {
        assert (A.getFloat(ima.set(i, j)) == (i * 10 + j));
      }
    }

    // turn off missing data
    vs.setMissingDataIsMissing(false);
    assert (vs.getDataType() == DataType.SHORT);

    assert (!vs.hasMissing());
    assert (vs.hasMissingValue());
    assert (!vs.isMissing((double) ((short) -9999)));
    assert (vs.isMissingValue((double) ((short) -9999)));

    vs.setMissingDataIsMissing(true);
    assert (vs.hasMissing());
    assert (vs.isMissing((double) ((short) -9999)));

    System.out.println("**************TestStandardVar Read readShortMissing");
  }
Exemple #3
0
  public void readByte2Short() throws Exception {
    Variable t2 = null;
    assert (null != (t2 = ncfileRead.findVariable("t2")));
    assert (t2.getDataType() == DataType.BYTE);

    Attribute att = t2.findAttribute(CDM.SCALE_FACTOR);
    assert (null != att);
    assert (!att.isArray());
    assert (1 == att.getLength());
    assert (2 == att.getNumericValue().doubleValue());
    assert (DataType.SHORT == att.getDataType());

    assert (null != (t2 = dsRead.findVariable("t2")));
    assert t2 instanceof VariableEnhanced;
    VariableDS vs = (VariableDS) t2;
    assert (vs.getDataType() == DataType.SHORT) : vs.getDataType();
    assert (!vs.hasMissing());

    Array A = vs.read();
    assert (A.getElementType() == short.class) : A.getElementType();
    Index ima = A.getIndex();
    int[] shape = A.getShape();
    int i, j;
    for (i = 0; i < shape[0]; i++) {
      for (j = 0; j < shape[1]; j++) {
        assert (A.getShort(ima.set(i, j)) == (2 * (i * 10 + j) + 77));
      }
    }
    System.out.println("**************TestStandardVar readByte2Short");
  }
  private double[] getValueAsDouble(Attribute att) {
    int n = att.getLength();
    double[] value = new double[n];

    if (debugMissing) System.out.printf("missing_data: ");
    for (int i = 0; i < n; i++) {
      if (isUnsigned && att.getDataType() == DataType.BYTE)
        value[i] = convertScaleOffsetMissing(att.getNumericValue(i).byteValue());
      else if (isUnsigned && att.getDataType() == DataType.SHORT)
        value[i] = convertScaleOffsetMissing(att.getNumericValue(i).shortValue());
      else if (isUnsigned && att.getDataType() == DataType.INT)
        value[i] = convertScaleOffsetMissing(att.getNumericValue(i).intValue());
      else value[i] = scale * att.getNumericValue(i).doubleValue() + offset;
      if (debugMissing) System.out.print(" " + value[i]);
    }
    if (debugMissing) System.out.println();
    return value;
  }
Exemple #5
0
 public float getFloatAttribute(String key, List<Attribute> globalAttributes)
     throws ProductIOException {
   Attribute attribute = findAttribute(key, globalAttributes);
   if (attribute == null) {
     throw new ProductIOException("Global attribute '" + key + "' is missing.");
   } else {
     return attribute.getNumericValue(0).floatValue();
   }
 }
Exemple #6
0
  protected Band addNewBand(Product product, Variable variable) {
    final int sceneRasterWidth = product.getSceneRasterWidth();
    final int sceneRasterHeight = product.getSceneRasterHeight();
    Band band = null;

    int variableRank = variable.getRank();
    if (variableRank == 2) {
      final int[] dimensions = variable.getShape();
      final int height = dimensions[0] - leadLineSkip - tailLineSkip;
      final int width = dimensions[1];
      if (height == sceneRasterHeight && width == sceneRasterWidth) {
        final String name = variable.getShortName();
        final int dataType = getProductDataType(variable);
        band = new Band(name, dataType, width, height);
        final String validExpression = bandInfoMap.get(name);
        if (validExpression != null && !validExpression.equals("")) {
          band.setValidPixelExpression(validExpression);
        }
        product.addBand(band);

        try {
          band.setNoDataValue(
              (double) variable.findAttribute("bad_value_scaled").getNumericValue().floatValue());
          band.setNoDataValueUsed(true);
        } catch (Exception ignored) {
        }

        final List<Attribute> list = variable.getAttributes();
        for (Attribute hdfAttribute : list) {
          final String attribName = hdfAttribute.getShortName();
          if ("units".equals(attribName)) {
            band.setUnit(hdfAttribute.getStringValue());
          } else if ("long_name".equals(attribName)) {
            band.setDescription(hdfAttribute.getStringValue());
          } else if ("slope".equals(attribName)) {
            band.setScalingFactor(hdfAttribute.getNumericValue(0).doubleValue());
          } else if ("intercept".equals(attribName)) {
            band.setScalingOffset(hdfAttribute.getNumericValue(0).doubleValue());
          }
        }
      }
    }
    return band;
  }
Exemple #7
0
  public void readByte() throws Exception {
    Variable v = null;
    assert (null != (v = ncfileRead.findVariable("t3")));
    assert (v.getDataType() == DataType.BYTE);

    assert (null != (v = dsRead.findVariable("t3")));
    assert v instanceof VariableEnhanced;
    assert v instanceof VariableDS;
    VariableDS vs = (VariableDS) v;
    assert (vs.getDataType() == DataType.BYTE);

    Attribute att = vs.findAttribute("_FillValue");
    assert (null != att);
    assert (!att.isArray());
    assert (1 == att.getLength());
    System.out.println("_FillValue = " + att.getNumericValue().byteValue());
    assert (((byte) 255) == att.getNumericValue().byteValue());
    assert (DataType.BYTE == att.getDataType());

    assert (vs.hasMissing());
    assert (vs.hasFillValue());
    assert (vs.isMissing((double) ((byte) 255)));
    assert (vs.isFillValue((double) ((byte) 255)));

    Array A = vs.read();
    assert (A.getElementType() == byte.class) : A.getElementType();
    Index ima = A.getIndex();
    int[] shape = A.getShape();
    int i, j;
    for (i = 0; i < shape[0]; i++) {
      for (j = 0; j < shape[1]; j++) {
        assert (A.getFloat(ima.set(i, j)) == (i * 10 + j));
      }
    }
    System.out.println("**************TestStandardVar ReadByte");
  }
  public void testCoordVar(NetcdfFile ncfile) {

    Variable lat = ncfile.findVariable("lat");
    assert null != lat;
    assert lat.getShortName().equals("lat");
    assert lat.getRank() == 1;
    assert lat.getSize() == 3;
    assert lat.getShape()[0] == 3;
    assert lat.getDataType() == DataType.FLOAT;

    assert !lat.isUnlimited();
    assert lat.getDimension(0).equals(ncfile.findDimension("lat"));

    Attribute att = lat.findAttribute("units");
    assert null != att;
    assert !att.isArray();
    assert att.isString();
    assert att.getDataType() == DataType.STRING;
    assert att.getStringValue().equals("degrees_north");
    assert att.getNumericValue() == null;
    assert att.getNumericValue(3) == null;

    try {
      Array data = lat.read();
      assert data.getRank() == 1;
      assert data.getSize() == 3;
      assert data.getShape()[0] == 3;
      assert data.getElementType() == float.class;

      IndexIterator dataI = data.getIndexIterator();
      assert TestUtils.close(dataI.getDoubleNext(), 41.0);
      assert TestUtils.close(dataI.getDoubleNext(), 40.0);
      assert TestUtils.close(dataI.getDoubleNext(), 39.0);
    } catch (IOException io) {
    }
  }
Exemple #9
0
  public void readDouble() throws Exception {

    Variable t1 = null;
    assert (null != (t1 = ncfileRead.findVariable("t1")));
    assert (t1.getDataType() == DataType.DOUBLE);

    Attribute att = t1.findAttribute(CDM.SCALE_FACTOR);
    assert (null != att);
    assert (!att.isArray());
    assert (1 == att.getLength());
    assert (2.0 == att.getNumericValue().doubleValue());
    assert (DataType.DOUBLE == att.getDataType());

    // read
    Array A = t1.read();
    int i, j;
    Index ima = A.getIndex();
    int[] shape = A.getShape();

    for (i = 0; i < shape[0]; i++) {
      for (j = 0; j < shape[1]; j++) {
        assert (A.getDouble(ima.set(i, j)) == (double) (i * 10.0 + j));
      }
    }

    assert (null != (t1 = dsRead.findVariable("t1")));
    assert t1 instanceof VariableEnhanced;
    VariableEnhanced dsVar = (VariableEnhanced) t1;
    assert (dsVar.getDataType() == DataType.DOUBLE);

    A = dsVar.read();
    ima = A.getIndex();
    shape = A.getShape();

    for (i = 0; i < shape[0]; i++) {
      for (j = 0; j < shape[1]; j++) {
        assert (A.getDouble(ima.set(i, j)) == (2.0 * (i * 10.0 + j) + 77.0));
      }
    }

    assert (null == t1.findAttribute(CDM.SCALE_FACTOR));
    assert (null == t1.findAttribute("add_offset"));

    System.out.println("**************TestStandardVar ReadDouble");
  }
Exemple #10
0
  /** Instances which have same content are equal. */
  @Override
  public boolean equals(Object o) {
    if (this == o) return true;
    if ((o == null) || !(o instanceof Attribute)) return false;

    final Attribute att = (Attribute) o;

    if (!name.equals(att.name)) return false;
    if (nelems != att.nelems) return false;
    if (!dataType.equals(att.dataType)) return false;

    if (svalue != null) return svalue.equals(att.getStringValue());

    if (values != null) {
      for (int i = 0; i < getLength(); i++) {
        int r1 = isString() ? getStringValue(i).hashCode() : getNumericValue(i).hashCode();
        int r2 =
            att.isString() ? att.getStringValue(i).hashCode() : att.getNumericValue(i).hashCode();
        if (r1 != r2) return false;
      }
    }

    return true;
  }
  /**
   * 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;
  }
  protected Map<Band, Variable> addSmiBands(Product product, List<Variable> variables) {
    final int sceneRasterWidth = product.getSceneRasterWidth();
    final int sceneRasterHeight = product.getSceneRasterHeight();
    Map<Band, Variable> bandToVariableMap = new HashMap<Band, Variable>();
    for (Variable variable : variables) {
      int variableRank = variable.getRank();
      if (variableRank == 2) {
        final int[] dimensions = variable.getShape();
        final int height = dimensions[0];
        final int width = dimensions[1];
        if (height == sceneRasterHeight && width == sceneRasterWidth) {
          String name = variable.getShortName();
          if (name.equals("l3m_data")) {
            try {
              name = getStringAttribute("Parameter") + " " + getStringAttribute("Measure");
            } catch (Exception e) {
              e.printStackTrace();
            }
          }

          final int dataType = getProductDataType(variable);
          final Band band = new Band(name, dataType, width, height);
          //                    band = new Band(name, dataType, width, height);

          product.addBand(band);

          try {
            Attribute fillvalue = variable.findAttribute("_FillValue");
            if (fillvalue == null) {
              fillvalue = variable.findAttribute("Fill");
            }
            if (fillvalue != null) {
              band.setNoDataValue((double) fillvalue.getNumericValue().floatValue());
              band.setNoDataValueUsed(true);
            }
          } catch (Exception ignored) {

          }
          bandToVariableMap.put(band, variable);
          // Set units, if defined
          try {
            band.setUnit(getStringAttribute("Units"));
          } catch (Exception ignored) {

          }

          final List<Attribute> list = variable.getAttributes();
          double[] validMinMax = {0.0, 0.0};
          for (Attribute hdfAttribute : list) {
            final String attribName = hdfAttribute.getShortName();
            if ("units".equals(attribName)) {
              band.setUnit(hdfAttribute.getStringValue());
            } else if ("long_name".equalsIgnoreCase(attribName)) {
              band.setDescription(hdfAttribute.getStringValue());
            } else if ("slope".equalsIgnoreCase(attribName)) {
              band.setScalingFactor(hdfAttribute.getNumericValue(0).doubleValue());
            } else if ("intercept".equalsIgnoreCase(attribName)) {
              band.setScalingOffset(hdfAttribute.getNumericValue(0).doubleValue());
            } else if ("scale_factor".equals(attribName)) {
              band.setScalingFactor(hdfAttribute.getNumericValue(0).doubleValue());
            } else if ("add_offset".equals(attribName)) {
              band.setScalingOffset(hdfAttribute.getNumericValue(0).doubleValue());
            } else if (attribName.startsWith("valid_")) {
              if ("valid_min".equals(attribName)) {
                validMinMax[0] = hdfAttribute.getNumericValue(0).doubleValue();
              } else if ("valid_max".equals(attribName)) {
                validMinMax[1] = hdfAttribute.getNumericValue(0).doubleValue();
              } else if ("valid_range".equals(attribName)) {
                validMinMax[0] = hdfAttribute.getNumericValue(0).doubleValue();
                validMinMax[1] = hdfAttribute.getNumericValue(1).doubleValue();
              }
            }
          }
          if (validMinMax[0] != validMinMax[1]) {
            double[] minmax = {0.0, 0.0};
            minmax[0] = validMinMax[0];
            minmax[1] = validMinMax[1];

            if (band.getScalingFactor() != 1.0) {
              minmax[0] *= band.getScalingFactor();
              minmax[1] *= band.getScalingFactor();
            }
            if (band.getScalingOffset() != 0.0) {
              minmax[0] += band.getScalingOffset();
              minmax[1] += band.getScalingOffset();
            }

            String validExp = format("%s >= %.2f && %s <= %.2f", name, minmax[0], name, minmax[1]);
            band.setValidPixelExpression(
                validExp); // .format(name, validMinMax[0], name, validMinMax[1]));
          }
        }
      } else if (variableRank == 4) {
        final int[] dimensions = variable.getShape();
        final int height = dimensions[2];
        final int width = dimensions[3];
        if (height == sceneRasterHeight && width == sceneRasterWidth) {
          String name = variable.getShortName();

          final int dataType = getProductDataType(variable);
          final Band band = new Band(name, dataType, width, height);
          //                    band = new Band(name, dataType, width, height);

          Variable sliced = null;
          try {
            sliced = variable.slice(0, 0).slice(0, 0);
          } catch (InvalidRangeException e) {
            e.printStackTrace(); // Todo change body of catch statement.
          }

          bandToVariableMap.put(band, sliced);
          product.addBand(band);

          try {
            Attribute fillvalue = variable.findAttribute("_FillValue");
            if (fillvalue != null) {
              band.setNoDataValue((double) fillvalue.getNumericValue().floatValue());
              band.setNoDataValueUsed(true);
            }
          } catch (Exception ignored) {

          }
          // Set units, if defined
          try {
            band.setUnit(getStringAttribute("units"));
          } catch (Exception ignored) {

          }

          final List<Attribute> list = variable.getAttributes();
          for (Attribute hdfAttribute : list) {
            final String attribName = hdfAttribute.getShortName();
            if ("scale_factor".equals(attribName)) {
              band.setScalingFactor(hdfAttribute.getNumericValue(0).doubleValue());
            } else if ("add_offset".equals(attribName)) {
              band.setScalingOffset(hdfAttribute.getNumericValue(0).doubleValue());
            }
          }
        }
      }
    }
    return bandToVariableMap;
  }
  /**
   * Constructor. If scale/offset attributes are found, remove them from the decorated variable.
   *
   * @param forVar the Variable to decorate.
   * @param useNaNs pre-fill isMissing() data with NaNs
   * @param fillValueIsMissing use _FillValue for isMissing()
   * @param invalidDataIsMissing use valid_range for isMissing()
   * @param missingDataIsMissing use missing_value for isMissing()
   */
  EnhanceScaleMissingImpl(
      VariableDS forVar,
      boolean useNaNs,
      boolean fillValueIsMissing,
      boolean invalidDataIsMissing,
      boolean missingDataIsMissing) {

    this.fillValueIsMissing = fillValueIsMissing;
    this.invalidDataIsMissing = invalidDataIsMissing;
    this.missingDataIsMissing = missingDataIsMissing;

    // see if underlying variable has scale/offset already applied
    Variable orgVar = forVar.getOriginalVariable();
    if (orgVar instanceof VariableDS) {
      VariableDS orgVarDS = (VariableDS) orgVar;
      EnumSet<NetcdfDataset.Enhance> orgEnhanceMode = orgVarDS.getEnhanceMode();
      if ((orgEnhanceMode != null) && orgEnhanceMode.contains(NetcdfDataset.Enhance.ScaleMissing))
        return;
    }

    // the other possibility is that you want to apply scale and offset to a signed value, then
    // declare the result unsigned
    // this.isUnsigned = (orgVar != null) ? orgVar.isUnsigned() : forVar.isUnsigned();
    this.isUnsigned = forVar.isUnsigned();
    this.convertedDataType = forVar.getDataType();

    DataType scaleType = null, missType = null, validType = null, fillType = null;
    if (debug) System.out.println("EnhancementsImpl for Variable = " + forVar.getFullName());
    Attribute att;

    // scale and offset
    if (null != (att = forVar.findAttribute(CDM.SCALE_FACTOR))) {
      if (!att.isString()) {
        scale = att.getNumericValue().doubleValue();
        hasScaleOffset = true;
        scaleType = att.getDataType();
        forVar.remove(att);
        if (debug) System.out.println("scale = " + scale + " type " + scaleType);
      }
    }
    if (null != (att = forVar.findAttribute(CDM.ADD_OFFSET))) {
      if (!att.isString()) {
        offset = att.getNumericValue().doubleValue();
        hasScaleOffset = true;
        DataType offType = att.getDataType();
        if (rank(offType) > rank(scaleType)) scaleType = offType;
        forVar.remove(att);
        if (debug) System.out.println("offset = " + offset);
      }
    }

    ////// missing data : valid_range. assume here its in units of unpacked data. correct this below
    Attribute validRangeAtt;
    if (null != (validRangeAtt = forVar.findAttribute(CDM.VALID_RANGE))) {
      if (!validRangeAtt.isString() && validRangeAtt.getLength() > 1) {
        valid_min = validRangeAtt.getNumericValue(0).doubleValue();
        valid_max = validRangeAtt.getNumericValue(1).doubleValue();
        hasValidRange = true;
        validType = validRangeAtt.getDataType();
        if (hasScaleOffset) forVar.remove(validRangeAtt);
        if (debug) System.out.println("valid_range = " + valid_min + " " + valid_max);
      }
    }

    Attribute validMinAtt = null, validMaxAtt = null;
    if (!hasValidRange) {
      if (null != (validMinAtt = forVar.findAttribute("valid_min"))) {
        if (!validMinAtt.isString()) {
          valid_min = validMinAtt.getNumericValue().doubleValue();
          hasValidMin = true;
          validType = validMinAtt.getDataType();
          if (hasScaleOffset) forVar.remove(validMinAtt);
          if (debug) System.out.println("valid_min = " + valid_min);
        }
      }

      if (null != (validMaxAtt = forVar.findAttribute("valid_max"))) {
        if (!validMaxAtt.isString()) {
          valid_max = validMaxAtt.getNumericValue().doubleValue();
          hasValidMax = true;
          DataType t = validMaxAtt.getDataType();
          if (rank(t) > rank(validType)) validType = t;
          if (hasScaleOffset) forVar.remove(validMaxAtt);
          if (debug) System.out.println("valid_min = " + valid_max);
        }
      }
    }
    boolean hasValidData = hasValidMin || hasValidMax || hasValidRange;
    if (hasValidMin && hasValidMax) hasValidRange = true;

    /// _FillValue
    if ((null != (att = forVar.findAttribute(CDM.FILL_VALUE))) && !att.isString()) {
      double[] values = getValueAsDouble(att); // LOOK double WTF ??
      if (values.length > 0) {
        fillValue = values[0];
        hasFillValue = true;
        fillType = att.getDataType();
        if (hasScaleOffset) forVar.remove(att);
        if (debug) System.out.println("missing_datum from _FillValue = " + fillValue);
      }
    }

    /// missing_value
    if (null != (att = forVar.findAttribute(CDM.MISSING_VALUE))) {
      if (att.isString()) {
        String svalue = att.getStringValue();
        if (forVar.getDataType() == DataType.CHAR) {
          missingValue = new double[1];
          if (svalue.length() == 0) missingValue[0] = 0;
          else missingValue[0] = svalue.charAt(0);

          missType = DataType.CHAR;
          hasMissingValue = true;

        } else { // not a CHAR - try to fix problem where they use a numeric value as a String
                 // attribute

          try {
            missingValue = new double[1];
            missingValue[0] = Double.parseDouble(svalue);
            missType = att.getDataType();
            hasMissingValue = true;
          } catch (NumberFormatException ex) {
            if (debug)
              System.out.println(
                  "String missing_value not parsable as double= " + att.getStringValue());
          }
        }

      } else { // not a string
        missingValue = getValueAsDouble(att);
        missType = att.getDataType();
        for (double mv : missingValue)
          if (!Double.isNaN(mv))
            hasMissingValue = true; // dont need to do anything if its already a NaN
      }
      if (hasScaleOffset) forVar.remove(att);
    }

    // missing
    boolean hasMissing =
        (invalidDataIsMissing && hasValidData)
            || (fillValueIsMissing && hasFillValue)
            || (missingDataIsMissing && hasMissingValue);

    /// assign convertedDataType if needed
    if (hasScaleOffset) {

      convertedDataType = forVar.getDataType();
      if (hasMissing) {
        // has missing data : must be float or double
        if (rank(scaleType) > rank(convertedDataType)) convertedDataType = scaleType;
        if (missingDataIsMissing && rank(missType) > rank(convertedDataType))
          convertedDataType = missType;
        if (fillValueIsMissing && rank(fillType) > rank(convertedDataType))
          convertedDataType = fillType;
        if (invalidDataIsMissing && rank(validType) > rank(convertedDataType))
          convertedDataType = validType;
        if (rank(convertedDataType) < rank(DataType.DOUBLE)) convertedDataType = DataType.FLOAT;

      } else {
        // no missing data; can use wider of data and scale
        if (rank(scaleType) > rank(convertedDataType)) convertedDataType = scaleType;
      }
      if (debug) System.out.println("assign dataType = " + convertedDataType);

      // validData may be external or internal
      if (hasValidData) {
        DataType orgType = forVar.getDataType();

        // If valid_range is the same type as scale_factor (actually the wider of
        // scale_factor and add_offset) and this is wider than the external data, then it
        // will be interpreted as being in the units of the internal (unpacked) data.
        // Otherwise it is in the units of the external (unpacked) data.
        // we assumed unpacked data above, redo if its really packed data
        if (!((rank(validType) == rank(scaleType)) && (rank(scaleType) >= rank(orgType)))) {
          if (validRangeAtt != null) {
            double[] values = getValueAsDouble(validRangeAtt);
            valid_min = values[0];
            valid_max = values[1];
          } else {
            if (validMinAtt != null) {
              double[] values = getValueAsDouble(validMinAtt);
              valid_min = values[0];
            }
            if (validMaxAtt != null) {
              double[] values = getValueAsDouble(validMaxAtt);
              valid_max = values[0];
            }
          }
        }
      }
    }

    if (hasMissing
        && ((convertedDataType == DataType.DOUBLE) || (convertedDataType == DataType.FLOAT)))
      this.useNaNs = useNaNs;
    if (debug) System.out.println("this.useNaNs = " + this.useNaNs);
  }
Exemple #14
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();
  }