// 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());
}
/** 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);
}
}
/** 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());
}
private void doVariable(Variable v, opendap.dap.AttributeTable parentTable) {
List dims = v.getDimensions();
for (int i = 0; i < dims.size(); i++) {
Dimension dim = (Dimension) dims.get(i);
if (dim.isShared()) usedDims.put(dim.getName(), dim);
}
// if (v.getAttributes().size() == 0) return; // LOOK DAP 2 say must have empty
String name = NcDDS.escapeName(v.getShortName());
opendap.dap.AttributeTable table;
if (parentTable == null) {
table = new opendap.dap.AttributeTable(name);
try {
addAttributeTable(name, table);
} catch (AttributeExistsException e) {
log.error("Cant add " + name, e);
}
} else {
table = parentTable.appendContainer(name);
}
addAttributes(table, v, v.getAttributes().iterator());
if (v instanceof Structure) {
Structure s = (Structure) v;
List nested = s.getVariables();
for (int i = 0; i < nested.size(); i++) {
Variable nv = (Variable) nested.get(i);
doVariable(nv, table);
}
}
}
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;
}
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);
}
}
}
private int[] getWeights(Variable v) {
int rank = v.getRank();
int[] w = new int[rank];
for (int n = 0; n < rank; n++) {
Dimension dim = v.getDimension(n);
String dimName = dim.getName();
if (dimName.equals("time")) w[n] = 1000;
if (dimName.equals("z")) w[n] = 100;
if (dimName.equals("y")) w[n] = 10;
if (dimName.equals("x")) w[n] = 1;
}
return w;
}
/**
* 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;
}
public static String makeDimensionList(List<Dimension> dimList) {
StringBuilder out = new StringBuilder();
for (Dimension dim : dimList) out.append(dim.getName()).append(" ");
return out.toString();
}
/**
* Dimensions with the same name are equal.
*
* @param o compare to this Dimension
* @return 0, 1, or -1
*/
public int compareTo(Object o) {
Dimension odim = (Dimension) o;
return name.compareTo(odim.getName());
}
/**
* 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;
}
}
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();
}
/**
* 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;
}
public Variable makeVariable(
NetcdfFile ncfile,
int datatype,
String shortName,
String longName,
String abbrev,
List groups)
throws IOException {
int nscans = groups.size();
if (nscans == 0) {
throw new IllegalStateException("No data for " + shortName);
}
// get representative record
List firstGroup = (List) groups.get(0);
Cinrad2Record firstRecord = (Cinrad2Record) firstGroup.get(0);
int ngates = firstRecord.getGateCount(datatype);
String scanDimName = "scan" + abbrev;
String gateDimName = "gate" + abbrev;
Dimension scanDim = new Dimension(scanDimName, nscans);
Dimension gateDim = new Dimension(gateDimName, ngates);
ncfile.addDimension(null, scanDim);
ncfile.addDimension(null, gateDim);
ArrayList dims = new ArrayList();
dims.add(scanDim);
dims.add(radialDim);
dims.add(gateDim);
Variable v = new Variable(ncfile, null, null, shortName);
v.setDataType(DataType.BYTE);
v.setDimensions(dims);
ncfile.addVariable(null, v);
v.addAttribute(new Attribute(CDM.UNITS, Cinrad2Record.getDatatypeUnits(datatype)));
v.addAttribute(new Attribute(CDM.LONG_NAME, longName));
byte[] b = new byte[2];
b[0] = Cinrad2Record.MISSING_DATA;
b[1] = Cinrad2Record.BELOW_THRESHOLD;
Array missingArray = Array.factory(DataType.BYTE.getPrimitiveClassType(), new int[] {2}, b);
v.addAttribute(new Attribute(CDM.MISSING_VALUE, missingArray));
v.addAttribute(
new Attribute("signal_below_threshold", new Byte(Cinrad2Record.BELOW_THRESHOLD)));
v.addAttribute(
new Attribute(CDM.SCALE_FACTOR, new Float(Cinrad2Record.getDatatypeScaleFactor(datatype))));
v.addAttribute(
new Attribute(CDM.ADD_OFFSET, new Float(Cinrad2Record.getDatatypeAddOffset(datatype))));
v.addAttribute(new Attribute(CDM.UNSIGNED, "true"));
ArrayList dim2 = new ArrayList();
dim2.add(scanDim);
dim2.add(radialDim);
// add time coordinate variable
String timeCoordName = "time" + abbrev;
Variable timeVar = new Variable(ncfile, null, null, timeCoordName);
timeVar.setDataType(DataType.INT);
timeVar.setDimensions(dim2);
ncfile.addVariable(null, timeVar);
// int julianDays = volScan.getTitleJulianDays();
// Date d = Cinrad2Record.getDate( julianDays, 0);
// Date d = Cinrad2Record.getDate(volScan.getTitleJulianDays(), volScan.getTitleMsecs());
Date d = volScan.getStartDate();
String units = "msecs since " + formatter.toDateTimeStringISO(d);
timeVar.addAttribute(new Attribute(CDM.LONG_NAME, "time since base date"));
timeVar.addAttribute(new Attribute(CDM.UNITS, units));
timeVar.addAttribute(new Attribute(CDM.MISSING_VALUE, new Integer(MISSING_INT)));
timeVar.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Time.toString()));
// add elevation coordinate variable
String elevCoordName = "elevation" + abbrev;
Variable elevVar = new Variable(ncfile, null, null, elevCoordName);
elevVar.setDataType(DataType.FLOAT);
elevVar.setDimensions(dim2);
ncfile.addVariable(null, elevVar);
elevVar.addAttribute(new Attribute(CDM.UNITS, "degrees"));
elevVar.addAttribute(
new Attribute(
CDM.LONG_NAME,
"elevation angle in degres: 0 = parallel to pedestal base, 90 = perpendicular"));
elevVar.addAttribute(new Attribute(CDM.MISSING_VALUE, new Float(MISSING_FLOAT)));
elevVar.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.RadialElevation.toString()));
// add azimuth coordinate variable
String aziCoordName = "azimuth" + abbrev;
Variable aziVar = new Variable(ncfile, null, null, aziCoordName);
aziVar.setDataType(DataType.FLOAT);
aziVar.setDimensions(dim2);
ncfile.addVariable(null, aziVar);
aziVar.addAttribute(new Attribute(CDM.UNITS, "degrees"));
aziVar.addAttribute(
new Attribute(CDM.LONG_NAME, "azimuth angle in degrees: 0 = true north, 90 = east"));
aziVar.addAttribute(new Attribute(CDM.MISSING_VALUE, new Float(MISSING_FLOAT)));
aziVar.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.RadialAzimuth.toString()));
// add gate coordinate variable
String gateCoordName = "distance" + abbrev;
Variable gateVar = new Variable(ncfile, null, null, gateCoordName);
gateVar.setDataType(DataType.FLOAT);
gateVar.setDimensions(gateDimName);
Array data =
Array.makeArray(
DataType.FLOAT,
ngates,
(double) firstRecord.getGateStart(datatype),
(double) firstRecord.getGateSize(datatype));
gateVar.setCachedData(data, false);
ncfile.addVariable(null, gateVar);
radarRadius = firstRecord.getGateStart(datatype) + ngates * firstRecord.getGateSize(datatype);
gateVar.addAttribute(new Attribute(CDM.UNITS, "m"));
gateVar.addAttribute(new Attribute(CDM.LONG_NAME, "radial distance to start of gate"));
gateVar.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.RadialDistance.toString()));
// add number of radials variable
String nradialsName = "numRadials" + abbrev;
Variable nradialsVar = new Variable(ncfile, null, null, nradialsName);
nradialsVar.setDataType(DataType.INT);
nradialsVar.setDimensions(scanDim.getName());
nradialsVar.addAttribute(new Attribute(CDM.LONG_NAME, "number of valid radials in this scan"));
ncfile.addVariable(null, nradialsVar);
// add number of gates variable
String ngateName = "numGates" + abbrev;
Variable ngateVar = new Variable(ncfile, null, null, ngateName);
ngateVar.setDataType(DataType.INT);
ngateVar.setDimensions(scanDim.getName());
ngateVar.addAttribute(new Attribute(CDM.LONG_NAME, "number of valid gates in this scan"));
ncfile.addVariable(null, ngateVar);
makeCoordinateDataWithMissing(
datatype, timeVar, elevVar, aziVar, nradialsVar, ngateVar, groups);
// back to the data variable
String coordinates =
timeCoordName + " " + elevCoordName + " " + aziCoordName + " " + gateCoordName;
v.addAttribute(new Attribute(_Coordinate.Axes, coordinates));
// make the record map
int nradials = radialDim.getLength();
Cinrad2Record[][] map = new Cinrad2Record[nscans][nradials];
for (int i = 0; i < groups.size(); i++) {
Cinrad2Record[] mapScan = map[i];
List group = (List) groups.get(i);
for (int j = 0; j < group.size(); j++) {
Cinrad2Record r = (Cinrad2Record) group.get(j);
int radial = r.radial_num - 1;
mapScan[radial] = r;
}
}
Vgroup vg = new Vgroup(datatype, map);
v.setSPobject(vg);
return v;
}
