/**
* Collect georeferencing information about this geotiff.
*
* @param hints
* @throws DataSourceException
*/
private void getHRInfo(Hints hints) throws DataSourceException {
ImageReader reader = null;
ImageReader ovrReader = null;
ImageInputStream ovrStream = null;
try {
// //
//
// Get a reader for this format
//
// //
reader = READER_SPI.createReaderInstance();
// //
//
// get the METADATA
//
// //
inStream.mark();
reader.setInput(inStream);
final IIOMetadata iioMetadata = reader.getImageMetadata(0);
final GeoTiffIIOMetadataDecoder metadata = new GeoTiffIIOMetadataDecoder(iioMetadata);
gtcs = new GeoTiffMetadata2CRSAdapter(hints);
// //
//
// get the CRS INFO
//
// //
final Object tempCRS = this.hints.get(Hints.DEFAULT_COORDINATE_REFERENCE_SYSTEM);
if (tempCRS != null) {
this.crs = (CoordinateReferenceSystem) tempCRS;
if (LOGGER.isLoggable(Level.FINE))
LOGGER.log(Level.FINE, "Using forced coordinate reference system");
} else {
// check external prj first
crs = getCRS(source);
// now, if we did not want to override the inner CRS or we did not have any external PRJ at
// hand
// let's look inside the geotiff
if (!OVERRIDE_INNER_CRS || crs == null) {
if (metadata.hasGeoKey() && gtcs != null) {
crs = gtcs.createCoordinateSystem(metadata);
}
}
}
//
// No data
//
if (metadata.hasNoData()) {
noData = metadata.getNoData();
}
//
// parse and set layout
//
setLayout(reader);
// //
//
// get the dimension of the hr image and build the model as well as
// computing the resolution
// //
numOverviews = reader.getNumImages(true) - 1;
int hrWidth = reader.getWidth(0);
int hrHeight = reader.getHeight(0);
final Rectangle actualDim = new Rectangle(0, 0, hrWidth, hrHeight);
originalGridRange = new GridEnvelope2D(actualDim);
if (gtcs != null
&& metadata != null
&& (metadata.hasModelTrasformation()
|| (metadata.hasPixelScales() && metadata.hasTiePoints()))) {
this.raster2Model = GeoTiffMetadata2CRSAdapter.getRasterToModel(metadata);
} else {
// world file
this.raster2Model = parseWorldFile(source);
// now world file --> mapinfo?
if (raster2Model == null) {
MapInfoFileReader mifReader = parseMapInfoFile(source);
if (mifReader != null) {
raster2Model = mifReader.getTransform();
crs = mifReader.getCRS();
}
}
}
if (crs == null) {
if (LOGGER.isLoggable(Level.WARNING)) {
LOGGER.warning("Coordinate Reference System is not available");
}
crs = AbstractGridFormat.getDefaultCRS();
}
if (this.raster2Model == null) {
TiePoint[] modelTiePoints = metadata.getModelTiePoints();
if (modelTiePoints != null && modelTiePoints.length > 1) {
// use a unit transform and expose the GCPs
gcps = new GroundControlPoints(Arrays.asList(modelTiePoints), crs);
raster2Model = ProjectiveTransform.create(new AffineTransform());
crs = AbstractGridFormat.getDefaultCRS();
} else {
throw new DataSourceException("Raster to Model Transformation is not available");
}
}
// create envelope using corner transformation
final AffineTransform tempTransform = new AffineTransform((AffineTransform) raster2Model);
tempTransform.concatenate(CoverageUtilities.CENTER_TO_CORNER);
originalEnvelope =
CRS.transform(ProjectiveTransform.create(tempTransform), new GeneralEnvelope(actualDim));
originalEnvelope.setCoordinateReferenceSystem(crs);
// ///
//
// setting the higher resolution available for this coverage
//
// ///
highestRes = new double[2];
highestRes[0] = XAffineTransform.getScaleX0(tempTransform);
highestRes[1] = XAffineTransform.getScaleY0(tempTransform);
if (ovrInStreamSPI != null) {
ovrReader = READER_SPI.createReaderInstance();
ovrStream =
ovrInStreamSPI.createInputStreamInstance(
ovrSource, ImageIO.getUseCache(), ImageIO.getCacheDirectory());
ovrReader.setInput(ovrStream);
// this includes the real image as this is a image index, we need to add one.
extOvrImgChoice = numOverviews + 1;
numOverviews = numOverviews + ovrReader.getNumImages(true);
if (numOverviews < extOvrImgChoice) extOvrImgChoice = -1;
}
// //
//
// get information for the successive images
//
// //
if (numOverviews >= 1) {
overViewResolutions = new double[numOverviews][2];
// Internal overviews start at 1, so lastInternalOverview matches numOverviews if no
// external.
int firstExternalOverview = extOvrImgChoice == -1 ? numOverviews : extOvrImgChoice - 1;
double spanRes0 = highestRes[0] * this.originalGridRange.getSpan(0);
double spanRes1 = highestRes[1] * this.originalGridRange.getSpan(1);
for (int i = 0; i < firstExternalOverview; i++) {
overViewResolutions[i][0] = spanRes0 / reader.getWidth(i + 1);
overViewResolutions[i][1] = spanRes1 / reader.getHeight(i + 1);
}
for (int i = firstExternalOverview; i < numOverviews; i++) {
overViewResolutions[i][0] = spanRes0 / ovrReader.getWidth(i - firstExternalOverview);
overViewResolutions[i][1] = spanRes1 / ovrReader.getHeight(i - firstExternalOverview);
}
} else overViewResolutions = null;
} catch (Throwable e) {
throw new DataSourceException(e);
} finally {
if (reader != null)
try {
reader.dispose();
} catch (Throwable t) {
}
if (ovrReader != null)
try {
ovrReader.dispose();
} catch (Throwable t) {
}
if (ovrStream != null)
try {
ovrStream.close();
} catch (Throwable t) {
}
if (inStream != null)
try {
inStream.reset();
} catch (Throwable t) {
}
}
}
private JSONObj resource(JSONObj obj, StoreInfo store, String name, HttpServletRequest req)
throws IOException {
obj.put("name", name);
if (store instanceof DataStoreInfo) {
DataStoreInfo data = (DataStoreInfo) store;
@SuppressWarnings("rawtypes")
DataAccess dataStore = data.getDataStore(new NullProgressListener());
FeatureType schema;
org.geotools.data.ResourceInfo info;
if (dataStore instanceof DataStore) {
schema = ((DataStore) dataStore).getSchema(name);
info = ((DataStore) dataStore).getFeatureSource(name).getInfo();
} else {
NameImpl qname = new NameImpl(name);
schema = dataStore.getSchema(qname);
info = dataStore.getFeatureSource(qname).getInfo();
}
String title = info.getTitle() == null ? WordUtils.capitalize(name) : info.getTitle();
String description = info.getDescription() == null ? "" : info.getDescription();
obj.put("title", title);
obj.put("description", description);
JSONArr keywords = obj.putArray("keywords");
keywords.raw().addAll(info.getKeywords());
IO.bounds(obj.putObject("bounds"), info.getBounds());
IO.schema(obj.putObject("schema"), schema, false);
}
if (store instanceof CoverageStoreInfo) {
CoverageStoreInfo data = (CoverageStoreInfo) store;
GridCoverageReader r = data.getGridCoverageReader(null, null);
obj.put("title", WordUtils.capitalize(name));
obj.put("description", "");
if (r instanceof GridCoverage2DReader) {
GridCoverage2DReader reader = (GridCoverage2DReader) r;
CoordinateReferenceSystem crs = reader.getCoordinateReferenceSystem(name);
IO.schemaGrid(obj.putObject("schema"), crs, false);
} else {
IO.schemaGrid(obj.putObject("schema"), AbstractGridFormat.getDefaultCRS(), false);
}
}
JSONArr layers = obj.putArray("layers");
Catalog cat = geoServer.getCatalog();
if (store instanceof CoverageStoreInfo) {
// coverage store does not respect native name so we search by id
for (CoverageInfo info : cat.getCoveragesByCoverageStore((CoverageStoreInfo) store)) {
layers(info, layers);
}
} else {
Filter filter =
and(equal("namespace.prefix", store.getWorkspace().getName()), equal("nativeName", name));
try (CloseableIterator<ResourceInfo> published = cat.list(ResourceInfo.class, filter); ) {
while (published.hasNext()) {
ResourceInfo info = published.next();
if (!info.getStore().getId().equals(store.getId())) {
continue; // native name is not enough, double check store id
}
layers(info, layers);
}
}
}
return obj;
}
