@Override protected void setUp() { _attributeInt = new MetadataAttribute( "attributeInt", ProductData.createInstance(ProductData.TYPE_INT32, 3), false); _attributeFloat = new MetadataAttribute( "attributeFloat", ProductData.createInstance(ProductData.TYPE_FLOAT32), false); _attributeString = new MetadataAttribute( "attributeString", ProductData.createInstance(ProductData.TYPE_ASCII, 32), false); }
private void handleMetadataGroup(Group group, MetadataElement metadataElement) throws ProductIOException { List<Variable> variables = group.getVariables(); for (Variable variable : variables) { final String name = variable.getShortName(); final int dataType = getProductDataType(variable); Array array; try { array = variable.read(); } catch (IOException e) { throw new ProductIOException(e.getMessage()); } final ProductData data = ProductData.createInstance(dataType, array.getStorage()); final MetadataAttribute attribute = new MetadataAttribute("data", data, true); final MetadataElement sdsElement = new MetadataElement(name); sdsElement.addAttribute(attribute); metadataElement.addElement(sdsElement); final List<Attribute> list = variable.getAttributes(); for (Attribute hdfAttribute : list) { final String attribName = hdfAttribute.getShortName(); if ("units".equals(attribName)) { attribute.setUnit(hdfAttribute.getStringValue()); } else if ("long_name".equals(attribName)) { attribute.setDescription(hdfAttribute.getStringValue()); } else { addAttributeToElement(sdsElement, hdfAttribute); } } } }
@Override protected void setUp() { _nodeList = new ProductNodeList<MetadataAttribute>(); _attribute1 = new MetadataAttribute( "attribute1", ProductData.createInstance(ProductData.TYPE_INT32), true); _attribute2 = new MetadataAttribute( "attribute2", ProductData.createInstance(ProductData.TYPE_INT32), true); _attribute3 = new MetadataAttribute( "attribute3", ProductData.createInstance(ProductData.TYPE_INT32), true); _attribute4 = new MetadataAttribute( "attribute4", ProductData.createInstance(ProductData.TYPE_INT32), true); }
public void addInputParamMetadata(Product product) throws ProductIOException { Variable inputParams = ncFile.findVariable("Input_Parameters"); if (inputParams != null) { final MetadataElement inputParamsMeta = new MetadataElement("Input_Parameters"); Array array; try { array = inputParams.read(); } catch (IOException e) { throw new ProductIOException(e.getMessage()); } String[] lines = array.toString().split("\n"); for (String line : lines) { String[] parts = line.split("="); if (parts.length == 2) { final String name = parts[0].trim(); final String value = parts[1].trim(); final ProductData data = ProductData.createInstance(ProductData.TYPE_ASCII, value); final MetadataAttribute attribute = new MetadataAttribute(name, data, true); inputParamsMeta.addAttribute(attribute); } } final MetadataElement metadataRoot = product.getMetadataRoot(); metadataRoot.addElement(inputParamsMeta); } }
private void readBandRasterDataSubSampling( Band sourceBand, int sourceOffsetX, int sourceOffsetY, int sourceWidth, int sourceHeight, int sourceStepX, int sourceStepY, ProductData destBuffer, int destWidth, ProgressMonitor pm) throws IOException { final int sourceMinY = sourceOffsetY; final int sourceMaxY = sourceOffsetY + sourceHeight - 1; ProductData lineBuffer = ProductData.createInstance(destBuffer.getType(), sourceWidth); int destPos = 0; try { pm.beginTask("Reading sub sampled raster data...", 2 * (sourceMaxY - sourceMinY)); for (int sourceY = sourceMinY; sourceY <= sourceMaxY; sourceY += sourceStepY) { sourceBand.readRasterData( sourceOffsetX, sourceY, sourceWidth, 1, lineBuffer, SubProgressMonitor.create(pm, 1)); if (sourceStepX == 1) { copyData(lineBuffer, 0, destBuffer, destPos, destWidth); } else { copyLine(lineBuffer, 0, sourceWidth, sourceStepX, destBuffer, destPos); } pm.worked(1); destPos += destWidth; } } finally { pm.done(); } }
MetadataAttribute attributeToMetadata(Attribute attribute) { final int productDataType = getProductDataType(attribute.getDataType(), false, false); if (productDataType != -1) { ProductData productData; if (attribute.isString()) { productData = ProductData.createInstance(attribute.getStringValue()); } else if (attribute.isArray()) { productData = ProductData.createInstance(productDataType, attribute.getLength()); productData.setElems(attribute.getValues().getStorage()); } else { productData = ProductData.createInstance(productDataType, 1); productData.setElems(attribute.getValues().getStorage()); } return new MetadataAttribute(attribute.getShortName(), productData, true); } return null; }
public ProductData readData(Variable variable) throws ProductIOException { final int dataType = getProductDataType(variable); Array array; try { array = variable.read(); } catch (IOException e) { throw new ProductIOException(e.getMessage()); } return ProductData.createInstance(dataType, array.getStorage()); }
/** * Adds a new coding value to this sample coding. * * @param name the coding name * @param values the values * @param description the description text * @throws IllegalArgumentException if <code>name</code> is null * @return A new attribute representing the coded sample. */ public MetadataAttribute addSamples(String name, int[] values, String description) { Guardian.assertNotNull("name", name); final ProductData productData = ProductData.createInstance(ProductData.TYPE_INT32, values.length); MetadataAttribute attribute = new MetadataAttribute(name, productData, false); attribute.setDataElems(values); if (description != null) { attribute.setDescription(description); } addAttribute(attribute); return attribute; }
public void testRsAttribute() { try { new MetadataAttribute(null, ProductData.createInstance(ProductData.TYPE_FLOAT32), false); fail( "new MetadataAttribute(null, false, Value.create(Value.TYPE_FLOAT32)) should not be possible"); } catch (IllegalArgumentException e) { } try { new MetadataAttribute("a2", null, false); fail("new MetadataAttribute(\"a2\", false, null)) should not be possible"); } catch (IllegalArgumentException e) { } }
// Don't do this...it hurts. Too much of a memory hog... private void addBandsBinMap(Product product) throws IOException, InvalidRangeException { String[] bandList = product.getBandNames(); if (rowInfo == null) { rowInfo = createRowInfos(); } final int height = sceneHeight; final int width = sceneWidth; final ISINGrid grid = this.grid; // loop over lines try { int[] lineOffsets = new int[1]; int[] lineLengths = new int[1]; int[] stride = new int[1]; stride[0] = 1; // for (int y = sourceOffsetY; y < sourceOffsetY + sourceHeight; y++) { for (String name : bandList) { if (name.endsWith("mean") || name.endsWith("stdev")) continue; Band band = product.getBand(name); ProductData buffer; final Variable variable = variableMap.get(band); DataType prodtype = variable.getDataType(); float[] fbuffer = new float[width * height]; short[] sbuffer = new short[width * height]; int[] ibuffer = new int[width * height]; byte[] bbuffer = new byte[width * height]; if (prodtype == DataType.FLOAT) { Arrays.fill(fbuffer, Float.NaN); buffer = ProductData.createInstance(fbuffer); } else if (prodtype == DataType.SHORT) { Arrays.fill(sbuffer, (short) -999); buffer = ProductData.createInstance(sbuffer); } else if (prodtype == DataType.BYTE) { Arrays.fill(bbuffer, (byte) 255); buffer = ProductData.createInstance(bbuffer); } else { Arrays.fill(ibuffer, -999); buffer = ProductData.createInstance(ibuffer); } for (int y = 0; y < height; y++) { final int rowIndex = (height - 1) - y; final RowInfo rowInfo = this.rowInfo[rowIndex]; if (rowInfo != null) { final Array bindata; final int lineOffset = rowInfo.offset; final int lineLength = rowInfo.length; lineOffsets[0] = lineOffset; lineLengths[0] = lineLength; synchronized (ncFile) { bindata = variable .read() .section(lineOffsets, lineLengths, stride); // .copyTo1DJavaArray(); } int lineIndex0 = 0; for (int x = 0; x < width; x++) { final double lon = x * 360.0 / width; final int binIndex = grid.getBinIndex(rowIndex, lon); int lineIndex = -1; for (int i = lineIndex0; i < lineLength; i++) { int binidx = bins[lineOffset + i]; if (binidx >= binIndex) { if (binidx == binIndex) { lineIndex = i; } lineIndex0 = i; break; } } if (lineIndex >= 0) { final int rasterIndex = width * y + x; final Array elem; elem = Array.factory(bindata.copyTo1DJavaArray()); for (int i = 0; i < elem.getSize(); i++) { if (prodtype == DataType.FLOAT) { buffer.setElemFloatAt(rasterIndex, elem.getFloat(i)); } else { buffer.setElemIntAt(rasterIndex, elem.getInt(i)); } // System.arraycopy(bindata, lineIndex, buffer, // rasterIndex, 1); } } } } } band.setDataElems(buffer); } } catch (IOException e) { throw new IOException("Could not map product " + product.getName(), e); } }
/** * Creates product data that is compatible to this dataset's data type. The data buffer returned * contains exactly <code>numElems</code> elements of a compatible data type. * * @param numElems the number of elements, must not be less than one * @return product data compatible with this data node */ public ProductData createCompatibleProductData(final int numElems) { return ProductData.createInstance(getDataType(), numElems); }