/** Visit all files to keep only XML files. */
@Override
protected void visit() {
final ParameterValue<URL> paramUrl =
(ParameterValue<URL>)
getSourceConfiguration(getSource()).parameter(URL.getName().getCode());
if (paramUrl == null || paramUrl.getValue() == null) {
getLogger().log(Level.WARNING, "Provided File path is not defined.");
return;
}
final URL urlPath = paramUrl.getValue();
try {
path = new File(urlPath.toURI());
} catch (URISyntaxException e) {
getLogger().log(Level.INFO, "Fails to convert path url to file.");
path = new File(urlPath.getPath());
}
List<File> candidates = new ArrayList<>();
if (path.isDirectory()) {
candidates.addAll(
FileUtilities.scanDirectory(
path,
new FileFilter() {
@Override
public boolean accept(File pathname) {
final String fullName = pathname.getName();
final int idx = fullName.lastIndexOf('.');
final String extension = fullName.substring(idx + 1);
return extension.equalsIgnoreCase("xml");
}
}));
} else {
candidates.add(path);
}
index = new HashMap<>();
for (final File candidate : candidates) {
try {
final MapContext mapContext =
MapContextIO.readMapContextFile(candidate, "", "", styleBusiness);
if (mapContext != null) {
final GenericName name = NamesExt.create(mapContext.getName());
index.put(name, candidate);
}
} catch (JAXBException e) {
getLogger()
.log(
Level.WARNING,
"Candidate MapContext file can't be read : " + candidate.getAbsolutePath(),
e);
}
}
super.visit();
}
/**
* Class Description
*
* @author Alexis Manin (Geomatys) Date : 27/02/13
*/
public class LabelLine implements MIFSymbolizer {
public static final GenericName NAME = NamesExt.create("LABEL");
public static final Pattern PATTERN =
Pattern.compile(NAME.tip().toString(), Pattern.CASE_INSENSITIVE);
private String type = "simple";
private Coordinate point;
public LabelLine(String lineType, Coordinate pt) {
type = lineType;
point = pt;
}
@Override
public String toMIFText() {
return NAME.tip().toString() + ' ' + type + ' ' + point.x + ' ' + point.y;
}
@Override
public Unit<Length> getUnitOfMeasure() {
throw new UnsupportedOperationException("No implementation exists for this method.");
}
@Override
public String getGeometryPropertyName() {
throw new UnsupportedOperationException("No implementation exists for this method.");
}
@Override
public Expression getGeometry() {
return FactoryFinder.getFilterFactory(null).property(getGeometryPropertyName());
}
@Override
public String getName() {
return NAME.tip().toString();
}
@Override
public Description getDescription() {
throw new UnsupportedOperationException("No implementation exists for this method.");
}
@Override
public Object accept(StyleVisitor styleVisitor, Object o) {
throw new UnsupportedOperationException("No implementation exists for this method.");
}
@Override
public String toString() {
return toMIFText();
}
}
@Override
public synchronized DataNode getRootNode() throws DataStoreException {
if (rootNode == null) {
rootNode = new DefaultDataNode();
final AbstractWMSCapabilities capa;
try {
capa = getCapabilities();
} catch (CapabilitiesException ex) {
throw new DataStoreException(ex);
}
final List<AbstractLayer> layers = capa.getLayers();
for (AbstractLayer al : layers) {
final String name = al.getName();
if (name != null) {
final GenericName nn = NamesExt.valueOf(name);
final CoverageReference ref = createReference(nn);
rootNode.getChildren().add(ref);
}
}
}
return rootNode;
}
public static FeatureReader wrap(FeatureReader reader, final Query remainingParameters)
throws DataStoreException {
final Integer start = remainingParameters.getStartIndex();
final Integer max = remainingParameters.getMaxFeatures();
final Filter filter = remainingParameters.getFilter();
final GenericName[] properties = remainingParameters.getPropertyNames();
final SortBy[] sorts = remainingParameters.getSortBy();
final double[] resampling = remainingParameters.getResolution();
final CoordinateReferenceSystem crs = remainingParameters.getCoordinateSystemReproject();
final Hints hints = remainingParameters.getHints();
// we should take care of wrapping the reader in a correct order to avoid
// unnecessary calculations. fast and reducing number wrapper should be placed first.
// but we must not take misunderstanding assumptions neither.
// exemple : filter is slow than startIndex and MaxFeature but must be placed before
// otherwise the result will be illogic.
// wrap sort by ---------------------------------------------------------
// This can be really expensive, and force the us to read the full iterator.
// that may cause out of memory errors.
if (sorts != null && sorts.length != 0) {
reader = GenericSortByFeatureIterator.wrap(reader, sorts);
}
// wrap filter ----------------------------------------------------------
// we must keep the filter first since it impacts the start index and max feature
if (filter != null && filter != Filter.INCLUDE) {
if (filter == Filter.EXCLUDE) {
// filter that exclude everything, use optimzed reader
reader = GenericEmptyFeatureIterator.createReader(reader.getFeatureType());
// close original reader
reader.close();
} else {
reader = GenericFilterFeatureIterator.wrap(reader, filter);
}
}
// wrap start index -----------------------------------------------------
if (start != null && start > 0) {
reader = GenericStartIndexFeatureIterator.wrap(reader, start);
}
// wrap max -------------------------------------------------------------
if (max != null) {
if (max == 0) {
// use an optimized reader
reader = GenericEmptyFeatureIterator.createReader(reader.getFeatureType());
// close original reader
reader.close();
} else {
reader = GenericMaxFeatureIterator.wrap(reader, max);
}
}
// wrap properties, remove primary keys if necessary --------------------
final Boolean hide = (Boolean) hints.get(HintsPending.FEATURE_HIDE_ID_PROPERTY);
final FeatureType original = reader.getFeatureType();
FeatureType mask = original;
if (properties != null) {
final List<GenericName> names = new ArrayList<GenericName>();
loop:
for (GenericName n : properties) {
for (GenericName dn : names) {
if (NamesExt.match(n, dn)) continue loop;
}
names.add(n);
}
try {
mask = FeatureTypeUtilities.createSubType(mask, names.toArray(new GenericName[0]));
} catch (MismatchedFeatureException ex) {
throw new DataStoreException(ex);
}
}
if (hide != null && hide) {
try {
// remove primary key properties
mask = FeatureTypeUtilities.excludePrimaryKeyFields(mask);
} catch (MismatchedFeatureException ex) {
throw new DataStoreException(ex);
}
}
if (mask != original) {
reader = GenericRetypeFeatureIterator.wrap(reader, mask, hints);
}
// wrap resampling ------------------------------------------------------
if (resampling != null) {
reader =
GenericTransformFeatureIterator.wrap(
reader, new GeometryScaleTransformer(resampling[0], resampling[1]), hints);
}
// wrap reprojection ----------------------------------------------------
if (crs != null) {
try {
reader = GenericReprojectFeatureIterator.wrap(reader, crs, hints);
} catch (FactoryException ex) {
throw new DataStoreException(ex);
} catch (MismatchedFeatureException ex) {
throw new DataStoreException(ex);
}
}
return reader;
}
