/* 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"); }
private int countSeq(Structure recordStruct) throws IOException { int total = 0; int count = 0; int max = 0; StructureDataIterator iter = recordStruct.getStructureIterator(); try { while (iter.hasNext()) { StructureData sdata = iter.next(); ArraySequence seq1 = sdata.getArraySequence("seq1"); int n = seq1.getStructureDataCount(); total += n; count++; max = Math.max(max, n); } } finally { iter.finish(); } double avg = total / count; int wasted = count * max - total; double wp = (double) wasted / (count * max); System.out.println(" Max = " + max + " avg = " + avg + " wasted = " + wasted + " %= " + wp); return max; }
@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"); }
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); }
private double copyVarData(NetcdfFileWriteable ncfile, Structure recordStruct) throws IOException, InvalidRangeException { int nrecs = (int) recordStruct.getSize(); int sdataSize = recordStruct.getElementSize(); double total = 0; double totalRecordBytes = 0; for (int count = 0; count < nrecs; count++) { StructureData recordData = recordStruct.readStructure(count); for (StructureMembers.Member m : recordData.getMembers()) { if (m.getDataType() == DataType.STRUCTURE) { int countLevel = 0; ArrayStructure seq1 = recordData.getArrayStructure(m); StructureDataIterator iter = seq1.getStructureDataIterator(); try { while (iter.hasNext()) { StructureData seqData = iter.next(); for (StructureMembers.Member seqm : seqData.getMembers()) { Array data = seqData.getArray(seqm); int[] shape = data.getShape(); int[] newShape = new int[data.getRank() + 2]; newShape[0] = 1; newShape[1] = 1; for (int i = 0; i < data.getRank(); i++) newShape[i + 1] = shape[i]; int[] origin = new int[data.getRank() + 2]; origin[0] = count; origin[1] = countLevel; String mname = seqm.getName() + "-" + m.getName(); if (debug && (count == 0) && (countLevel == 0)) System.out.println("write to = " + mname); ncfile.write(mname, origin, data.reshape(newShape)); } countLevel++; } } finally { iter.finish(); } } else { Array data = recordData.getArray(m); int[] shape = data.getShape(); int[] newShape = new int[data.getRank() + 1]; newShape[0] = 1; for (int i = 0; i < data.getRank(); i++) newShape[i + 1] = shape[i]; int[] origin = new int[data.getRank() + 1]; origin[0] = count; if (debug && (count == 0)) System.out.println("write to = " + m.getName()); ncfile.write(m.getName(), origin, data.reshape(newShape)); } } totalRecordBytes += sdataSize; } total += totalRecordBytes; totalRecordBytes /= 1000 * 1000; if (debug) System.out.println( "write record var; total = " + totalRecordBytes + " Mbytes # recs=" + nrecs); return total; }