public static boolean isMine(NetcdfFile ncfile) { if (!ncfile.getFileTypeId().equals("HDF5")) return false; Group loc = ncfile.findGroup("VHRR/Geo-Location"); if (null == loc) return false; if (null == loc.findVariable("Latitude")) return false; if (null == loc.findVariable("Longitude")) return false; if (null == ncfile.findGroup("VHRR/Image Data")) return false; return true; }
private static String getStructMetadata(Group eosGroup) throws IOException { StringBuilder sbuff = null; String structMetadata = null; int n = 0; while (true) { Variable structMetadataVar = eosGroup.findVariable("StructMetadata." + n); if (structMetadataVar == null) break; if ((structMetadata != null) && (sbuff == null)) { // more than 1 StructMetadata sbuff = new StringBuilder(64000); sbuff.append(structMetadata); } // read and parse the ODL Array A = structMetadataVar.read(); if (A instanceof ArrayChar.D1) { ArrayChar ca = (ArrayChar) A; structMetadata = ca.getString(); // common case only StructMetadata.0, avoid extra copy } else if (A instanceof ArrayObject.D0) { ArrayObject ao = (ArrayObject) A; structMetadata = (String) ao.getObject(0); } else { log.error("Unsupported array type {} for StructMetadata", A.getElementType()); } if (sbuff != null) sbuff.append(structMetadata); n++; } return (sbuff != null) ? sbuff.toString() : structMetadata; }
private boolean compareGroups(Group org, Group copy) { if (showCompare) f.format("compare Group %s to %s %n", org.getName(), copy.getName()); boolean ok = true; if (!org.getName().equals(copy.getName())) { f.format(" ** names are different %s != %s %n", org.getName(), copy.getName()); ok = false; } // dimensions ok &= checkAll(org.getDimensions(), copy.getDimensions(), null); // attributes ok &= checkAll(org.getAttributes(), copy.getAttributes(), null); // variables // cant use object equality, just match on short name for (Variable orgV : org.getVariables()) { Variable copyVar = copy.findVariable(orgV.getShortName()); if (copyVar == null) { f.format(" ** cant find variable %s in 2nd file%n", orgV.getFullName()); ok = false; } else { ok &= compareVariables(orgV, copyVar, compareData, true); } } for (Variable copyV : copy.getVariables()) { Variable orgV = org.findVariable(copyV.getShortName()); if (orgV == null) { f.format(" ** cant find variable %s in 1st file%n", copyV.getFullName()); ok = false; } } // nested groups List groups = new ArrayList(); ok &= checkAll(org.getGroups(), copy.getGroups(), groups); for (int i = 0; i < groups.size(); i += 2) { Group orgGroup = (Group) groups.get(i); Group ncmlGroup = (Group) groups.get(i + 1); ok &= compareGroups(orgGroup, ncmlGroup); } return ok; }
@Test public void testForStructMetadata() throws IOException { System.out.printf("TestH4eosReadAll %s%n", filename); try (NetcdfFile ncfile = NetcdfFile.open(filename)) { Group root = ncfile.getRootGroup(); Group g = root.findGroup("HDFEOS INFORMATION"); if (g == null) g = ncfile.getRootGroup(); Variable dset = g.findVariable("StructMetadata.0"); assert (dset != null); } }
/* (non-Javadoc) * @see loci.formats.NetCDFService#getVariableAttributes(java.lang.String) */ public Hashtable<String, Object> getVariableAttributes(String name) { String groupName = getDirectory(name); String variableName = getName(name); Group group = getGroup(groupName); Variable variable = group.findVariable(variableName); List<Attribute> attributes = variable.getAttributes(); Hashtable<String, Object> toReturn = new Hashtable<String, Object>(); for (Attribute attribute : attributes) { toReturn.put(attribute.getName(), arrayToString(attribute.getValues())); } return toReturn; }
/* (non-Javadoc) * @see loci.formats.NetCDFService#getArray(java.lang.String, int[], int[]) */ public Object getArray(String path, int[] origin, int[] shape) throws ServiceException { String groupName = getDirectory(path); String variableName = getName(path); Group group = getGroup(groupName); Variable variable = group.findVariable(variableName); try { if (origin != null && shape != null) { return variable.read(origin, shape).reduce().copyToNDJavaArray(); } return variable.read().copyToNDJavaArray(); } catch (InvalidRangeException e) { throw new ServiceException(e); } catch (IOException e) { throw new ServiceException(e); } }
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; }
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; }
/** * Add this coord as a variable in the netCDF file * * @param ncfile netCDF file to add to * @param g group in file */ void addToNetcdfFile(NetcdfFile ncfile, Group g) { if (dontUseVertical) { typicalRecord = null; return; } if (g == null) { g = ncfile.getRootGroup(); } // coordinate axis Variable v = new Variable(ncfile, g, null, getVariableName()); v.setDataType(DataType.DOUBLE); String desc = lookup.getLevelDescription(typicalRecord); if (lookup instanceof Grib2GridTableLookup && usesBounds) { desc = "Layer between " + desc; } v.addAttribute(new Attribute("long_name", desc)); v.addAttribute(new Attribute("units", lookup.getLevelUnit(typicalRecord))); // positive attribute needed for CF-1 Height and Pressure if (positive != null) { v.addAttribute(new Attribute("positive", positive)); } if (units != null) { AxisType axisType; if (SimpleUnit.isCompatible("millibar", units)) { axisType = AxisType.Pressure; } else if (SimpleUnit.isCompatible("m", units)) { axisType = AxisType.Height; } else { axisType = AxisType.GeoZ; } if (lookup instanceof Grib2GridTableLookup || lookup instanceof Grib1GridTableLookup) { v.addAttribute( new Attribute("GRIB_level_type", Integer.toString(typicalRecord.getLevelType1()))); } else { v.addAttribute( new Attribute("level_type", Integer.toString(typicalRecord.getLevelType1()))); } v.addAttribute(new Attribute(_Coordinate.AxisType, axisType.toString())); } if (coordValues == null) { coordValues = new double[levels.size()]; for (int i = 0; i < levels.size(); i++) { LevelCoord lc = (LevelCoord) levels.get(i); coordValues[i] = lc.mid; } } Array dataArray = Array.factory(DataType.DOUBLE, new int[] {coordValues.length}, coordValues); v.setDimensions(getVariableName()); v.setCachedData(dataArray, true); ncfile.addVariable(g, v); if (usesBounds) { String boundsDimName = "bounds_dim"; if (g.findDimension(boundsDimName) == null) { ncfile.addDimension(g, new Dimension(boundsDimName, 2, true)); } String bname = getVariableName() + "_bounds"; v.addAttribute(new Attribute("bounds", bname)); v.addAttribute(new Attribute(_Coordinate.ZisLayer, "true")); Variable b = new Variable(ncfile, g, null, bname); b.setDataType(DataType.DOUBLE); b.setDimensions(getVariableName() + " " + boundsDimName); b.addAttribute(new Attribute("long_name", "bounds for " + v.getName())); b.addAttribute(new Attribute("units", lookup.getLevelUnit(typicalRecord))); Array boundsArray = Array.factory(DataType.DOUBLE, new int[] {coordValues.length, 2}); ucar.ma2.Index ima = boundsArray.getIndex(); for (int i = 0; i < coordValues.length; i++) { LevelCoord lc = (LevelCoord) levels.get(i); boundsArray.setDouble(ima.set(i, 0), lc.value1); boundsArray.setDouble(ima.set(i, 1), lc.value2); } b.setCachedData(boundsArray, true); ncfile.addVariable(g, b); } if (factors != null) { // check if already created if (g == null) { g = ncfile.getRootGroup(); } if (g.findVariable("hybrida") != null) return; v.addAttribute(new Attribute("standard_name", "atmosphere_hybrid_sigma_pressure_coordinate")); v.addAttribute(new Attribute("formula_terms", "ap: hybrida b: hybridb ps: Pressure")); // create hybrid factor variables // add hybrida variable Variable ha = new Variable(ncfile, g, null, "hybrida"); ha.setDataType(DataType.DOUBLE); ha.addAttribute(new Attribute("long_name", "level_a_factor")); ha.addAttribute(new Attribute("units", "")); ha.setDimensions(getVariableName()); // add data int middle = factors.length / 2; double[] adata; double[] bdata; if (levels.size() < middle) { // only partial data wanted adata = new double[levels.size()]; bdata = new double[levels.size()]; } else { adata = new double[middle]; bdata = new double[middle]; } for (int i = 0; i < middle && i < levels.size(); i++) adata[i] = factors[i]; Array haArray = Array.factory(DataType.DOUBLE, new int[] {adata.length}, adata); ha.setCachedData(haArray, true); ncfile.addVariable(g, ha); // add hybridb variable Variable hb = new Variable(ncfile, g, null, "hybridb"); hb.setDataType(DataType.DOUBLE); hb.addAttribute(new Attribute("long_name", "level_b_factor")); hb.addAttribute(new Attribute("units", "")); hb.setDimensions(getVariableName()); // add data for (int i = 0; i < middle && i < levels.size(); i++) bdata[i] = factors[i + middle]; Array hbArray = Array.factory(DataType.DOUBLE, new int[] {bdata.length}, bdata); hb.setCachedData(hbArray, true); ncfile.addVariable(g, hb); /* // TODO: delete next time modifying code double[] adata = new double[ middle ]; for( int i = 0; i < middle; i++ ) adata[ i ] = factors[ i ]; Array haArray = Array.factory(DataType.DOUBLE, new int[]{adata.length}, adata); ha.setCachedData(haArray, true); ncfile.addVariable(g, ha); // add hybridb variable Variable hb = new Variable(ncfile, g, null, "hybridb"); hb.setDataType(DataType.DOUBLE); hb.addAttribute(new Attribute("long_name", "level_b_factor" )); //hb.addAttribute(new Attribute("standard_name", "atmosphere_hybrid_sigma_pressure_coordinate" )); hb.addAttribute(new Attribute("units", "")); hb.setDimensions(getVariableName()); // add data double[] bdata = new double[ middle ]; for( int i = 0; i < middle; i++ ) bdata[ i ] = factors[ i + middle ]; Array hbArray = Array.factory(DataType.DOUBLE, new int[]{bdata.length}, bdata); hb.setCachedData(hbArray, true); ncfile.addVariable(g, hb); */ } }
public void augmentDataset(NetcdfDataset ds, CancelTask cancelTask) throws IOException { ds.addAttribute(null, new Attribute("FeatureType", FeatureType.IMAGE.toString())); // LOOK Group vhrr = ds.findGroup("VHRR"); Group loc = vhrr.findGroup("Geo-Location"); Variable lat = loc.findVariable("Latitude"); lat.addAttribute(new Attribute(CDM.UNITS, "degrees_north")); lat.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Lat.toString())); Variable lon = loc.findVariable("Longitude"); lon.addAttribute(new Attribute(CDM.UNITS, "degrees_east")); lon.addAttribute(new Attribute(_Coordinate.AxisType, AxisType.Lon.toString())); int[] shape = lat.getShape(); assert shape.length == 2; Dimension scan = new Dimension("scan", shape[0]); Dimension xscan = new Dimension("xscan", shape[1]); vhrr.addDimension(scan); vhrr.addDimension(xscan); lat.setDimensions("scan xscan"); lon.setDimensions("scan xscan"); Group data = vhrr.findGroup("Image Data"); for (Variable v : data.getVariables()) { int[] vs = v.getShape(); if ((vs.length == 2) && (vs[0] == shape[0]) && (vs[1] == shape[1])) { v.setDimensions("scan xscan"); v.addAttribute(new Attribute(_Coordinate.Axes, "lat lon time")); } } /* Group PRODUCT_METADATA { Group PRODUCT_DETAILS { PRODUCT_DETAILS:UNIQUE_ID = "3AVHR_22NOV2007_0902"; PRODUCT_DETAILS:PRODUCT_TYPE = "STANDARD(FULL DISK) "; PRODUCT_DETAILS:PROCESSING_SOFTWARE = "InPGS_XXXXXXXXXXXXXX"; PRODUCT_DETAILS:SPACECRAFT_ID = "INSAT-3A "; PRODUCT_DETAILS:SENSOR_ID = "VHR"; PRODUCT_DETAILS:ACQUISITION_TYPE = "FULL FRAME "; PRODUCT_DETAILS:ACQUISITION_DATE = "22NOV2007"; PRODUCT_DETAILS:ACQUISITION_TIME_IN_GMT = "0902"; PRODUCT_DETAILS:PRODUCT_NAME = " FULL DISK"; PRODUCT_DETAILS:PROCESSING_LEVEL = "L1B"; PRODUCT_DETAILS:BAND_COMBINATION = "Visible(VIS),Thermal Infrared(TIR),Water Vapour(WV)"; PRODUCT_DETAILS:PRODUCT_CODE = "ST00001HD"; } */ Group info = ds.findGroup("PRODUCT_METADATA/PRODUCT_DETAILS"); String dateS = info.findAttribute("ACQUISITION_DATE").getStringValue(); String timeS = info.findAttribute("ACQUISITION_TIME_IN_GMT").getStringValue(); SimpleDateFormat format = new SimpleDateFormat("ddMMMyyyyHHmm"); format.setTimeZone(java.util.TimeZone.getTimeZone("GMT")); try { Date d = format.parse(dateS + timeS); VariableDS time = new VariableDS( ds, vhrr, null, "time", DataType.LONG, "", "seconds since 1970-01-01 00:00", "time generated from PRODUCT_METADATA/PRODUCT_DETAILS"); time.addAttribute( new Attribute( _Coordinate.AxisType, AxisType.Time.toString())); // // LOOK : cant handle scalar coordinates yet ?? time.addAttribute(new Attribute("IsoDate", new DateFormatter().toDateTimeStringISO(d))); CoordinateAxis1D timeAxis = new CoordinateAxis1D(ds, time); ds.addVariable(vhrr, timeAxis); ArrayLong.D0 timeData = new ArrayLong.D0(); timeData.set(d.getTime() / 1000); time.setCachedData(timeData, true); } catch (ParseException e) { e.printStackTrace(); throw new IOException(e.getMessage()); } ds.finish(); }