/**
* This process returns a boolean value which indicates if the requested download does not exceed
* the imposed limits, if present
*
* @param layerName the layer name
* @param filter the filter
* @param email the email
* @param outputFormat the output format
* @param targetCRS the target crs
* @param roiCRS the roi crs
* @param roi the roi
* @param clip the crop to geometry
* @param targetSizeX the size of the target image along the X axis
* @param targetSizeY the size of the target image along the Y axis
* @param bandIndices the band indices selected for output, in case of raster input
* @param progressListener the progress listener
* @return the boolean
*/
@DescribeResult(name = "result", description = "Download Limits are respected or not!")
public Boolean execute(
@DescribeParameter(name = "layerName", min = 1, description = "Original layer to download")
String layerName,
@DescribeParameter(name = "filter", min = 0, description = "Optional Vectorial Filter")
Filter filter,
@DescribeParameter(name = "targetCRS", min = 0, description = "Target CRS")
CoordinateReferenceSystem targetCRS,
@DescribeParameter(name = "RoiCRS", min = 0, description = "Region Of Interest CRS")
CoordinateReferenceSystem roiCRS,
@DescribeParameter(name = "ROI", min = 0, description = "Region Of Interest") Geometry roi,
@DescribeParameter(name = "cropToROI", min = 0, description = "Crop to ROI") Boolean clip,
@DescribeParameter(
name = "targetSizeX",
min = 0,
minValue = 1,
description = "X Size of the Target Image (applies to raster data only)")
Integer targetSizeX,
@DescribeParameter(
name = "targetSizeY",
min = 0,
minValue = 1,
description = "Y Size of the Target Image (applies to raster data only)")
Integer targetSizeY,
@DescribeParameter(name = "selectedBands", description = "Band Selection Indices", min = 0)
int[] bandIndices,
ProgressListener progressListener)
throws Exception {
//
// initial checks on mandatory params
//
// layer name
if (layerName == null || layerName.length() <= 0) {
throw new IllegalArgumentException("Empty or null layerName provided!");
}
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Estimator process called on resource: " + layerName);
}
if (clip == null) {
clip = false;
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Clipping disabled");
}
}
if (roi != null) {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "ROI present");
}
DownloadUtilities.checkPolygonROI(roi);
if (roiCRS == null) {
throw new IllegalArgumentException("ROI without a CRS is not usable!");
}
roi.setUserData(roiCRS);
}
//
// Move on with the real code
//
// checking for the resources on the GeoServer catalog
LayerInfo layerInfo = catalog.getLayerByName(layerName);
if (layerInfo == null) {
// could not find any layer ... abruptly interrupt the process
throw new IllegalArgumentException("Unable to locate layer: " + layerName);
}
ResourceInfo resourceInfo = layerInfo.getResource();
if (resourceInfo == null) {
// could not find any data store associated to the specified layer ... abruptly interrupt the
// process
throw new IllegalArgumentException("Unable to locate ResourceInfo for layer:" + layerName);
}
//
// Get curent limits
//
DownloadServiceConfiguration limits = downloadServiceConfigurationGenerator.getConfiguration();
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Getting configuration limits");
}
// ////
// 1. DataStore -> look for vectorial data download
// 2. CoverageStore -> look for raster data download
// ////
if (resourceInfo instanceof FeatureTypeInfo) {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Working with Vectorial dataset");
}
final FeatureTypeInfo featureTypeInfo = (FeatureTypeInfo) resourceInfo;
return new VectorEstimator(limits)
.execute(featureTypeInfo, roi, clip, filter, targetCRS, progressListener);
} else if (resourceInfo instanceof CoverageInfo) {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Working with Raster dataset");
}
final CoverageInfo coverage = (CoverageInfo) resourceInfo;
return new RasterEstimator(limits)
.execute(
progressListener,
coverage,
roi,
targetCRS,
clip,
filter,
targetSizeX,
targetSizeY,
bandIndices);
}
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.log(Level.FINE, "Working with a wrong Resource");
}
// the requested layer is neither a featuretype nor a coverage --> error
final ProcessException ex =
new ProcessException(
"Could not complete the Download Process: target resource is of Illegal type --> "
+ resourceInfo
!= null
? resourceInfo.getClass().getCanonicalName()
: "null");
// Notify the listener if present
if (progressListener != null) {
progressListener.exceptionOccurred(ex);
}
throw ex;
}
@Override
public Map<String, Object> execute(Map<String, Object> input, ProgressListener monitor)
throws ProcessException {
if (started) throw new IllegalStateException("Process can only be run once");
started = true;
if (monitor == null) monitor = new NullProgressListener();
try {
monitor.started();
monitor.setTask(Text.text("Grabbing arguments"));
monitor.progress(10.0f);
SimpleFeatureCollection inputFeatures =
(SimpleFeatureCollection)
Params.getValue(input, PearsonCorrelationProcessFactory.inputFeatures, null);
String inputFields =
(String) Params.getValue(input, PearsonCorrelationProcessFactory.inputFields, null);
if (inputFeatures == null || inputFields == null) {
throw new NullPointerException("All parameters required");
}
monitor.setTask(Text.text("Processing ..."));
monitor.progress(25.0f);
if (monitor.isCanceled()) {
return null; // user has canceled this operation
}
// start process
PearsonOperation operation = new PearsonOperation();
PearsonResult ret = operation.execute(inputFeatures, inputFields);
// end process
monitor.setTask(Text.text("Encoding result"));
monitor.progress(90.0f);
Map<String, Object> resultMap = new HashMap<String, Object>();
resultMap.put(PearsonCorrelationProcessFactory.RESULT.key, ret);
monitor.complete(); // same as 100.0f
return resultMap;
} catch (Exception eek) {
monitor.exceptionOccurred(eek);
return null;
} finally {
monitor.dispose();
}
}
/**
* Executes the import operation using the parameters that have been specified. Features will be
* added to the working tree, and a new working tree will be constructed. Either {@code all} or
* {@code table}, but not both, must be set prior to the import process.
*
* @return RevTree the new working tree
*/
@SuppressWarnings("deprecation")
@Override
public RevTree call() {
// check preconditions and get the actual list of type names to import
final String[] typeNames = checkPreconditions();
ProgressListener progressListener = getProgressListener();
progressListener.started();
// use a local variable not to alter the command's state
boolean overwrite = this.overwrite;
if (alter) {
overwrite = false;
}
final WorkingTree workTree = getWorkTree();
final boolean destPathProvided = destPath != null;
if (destPathProvided && overwrite) {
// we delete the previous tree to honor the overwrite setting, but then turn it
// to false. Otherwise, each table imported will overwrite the previous ones and
// only the last one will be imported.
try {
workTree.delete(destPath);
} catch (Exception e) {
throw new GeoToolsOpException(e, StatusCode.UNABLE_TO_INSERT);
}
overwrite = false;
}
int tableCount = 0;
for (String typeName : typeNames) {
{
tableCount++;
String tableName = String.format("%-16s", typeName);
if (typeName.length() > 16) {
tableName = tableName.substring(0, 13) + "...";
}
progressListener.setDescription(
"Importing " + tableName + " (" + tableCount + "/" + typeNames.length + ")... ");
}
FeatureSource featureSource = getFeatureSource(typeName);
SimpleFeatureType featureType = (SimpleFeatureType) featureSource.getSchema();
final String fidPrefix = featureType.getTypeName() + ".";
String path;
if (destPath == null) {
path = featureType.getTypeName();
} else {
NodeRef.checkValidPath(destPath);
path = destPath;
featureType = createForceFeatureType(featureType, path);
}
featureSource =
new ForceTypeAndFidFeatureSource<FeatureType, Feature>(
featureSource, featureType, fidPrefix);
ProgressListener taskProgress = subProgress(100.f / typeNames.length);
if (overwrite) {
try {
workTree.delete(path);
workTree.createTypeTree(path, featureType);
} catch (Exception e) {
throw new GeoToolsOpException(e, StatusCode.UNABLE_TO_INSERT);
}
}
if (alter) {
// first we modify the feature type and the existing features, if needed
workTree.updateTypeTree(path, featureType);
Iterator<Feature> transformedIterator = transformFeatures(featureType, path);
try {
final Integer collectionSize = collectionSize(featureSource);
workTree.insert(path, transformedIterator, taskProgress, null, collectionSize);
} catch (Exception e) {
throw new GeoToolsOpException(StatusCode.UNABLE_TO_INSERT);
}
}
try {
insert(workTree, path, featureSource, taskProgress);
} catch (Exception e) {
throw new GeoToolsOpException(e, StatusCode.UNABLE_TO_INSERT);
}
}
progressListener.progress(100.f);
progressListener.complete();
return workTree.getTree();
}
