/**
* Retrieves the original grid to world transformation for this {@link
* AbstractGridCoverage2DReader}.
*
* @param pixInCell specifies the datum of the transformation we want.
* @return the original grid to world transformation for this {@link
* AbstractGridCoverage2DReader}.
*/
@Override
public MathTransform getOriginalGridToWorld(String coverageName, PixelInCell pixInCell) {
if (!checkName(coverageName)) {
throw new IllegalArgumentException(
"The specified coverageName " + coverageName + "is not supported");
}
synchronized (this) {
if (raster2Model == null) {
final GridToEnvelopeMapper geMapper =
new GridToEnvelopeMapper(
getOriginalGridRange(coverageName), getOriginalEnvelope(coverageName));
geMapper.setPixelAnchor(PixelInCell.CELL_CENTER);
raster2Model = geMapper.createTransform();
}
}
// we do not have to change the pixel datum
if (pixInCell == PixelInCell.CELL_CENTER) return raster2Model;
// we do have to change the pixel datum
if (raster2Model instanceof AffineTransform) {
final AffineTransform tr = new AffineTransform((AffineTransform) raster2Model);
tr.concatenate(AffineTransform.getTranslateInstance(-0.5, -0.5));
return ProjectiveTransform.create(tr);
}
if (raster2Model instanceof IdentityTransform) {
final AffineTransform tr = new AffineTransform(1, 0, 0, 1, 0, 0);
tr.concatenate(AffineTransform.getTranslateInstance(-0.5, -0.5));
return ProjectiveTransform.create(tr);
}
throw new IllegalStateException("This reader's grid to world transform is invalud!");
}
private void init(
final BoundingBox granuleBBOX,
final URL granuleUrl,
final ImageReaderSpi suggestedSPI,
final Geometry inclusionGeometry,
final boolean heterogeneousGranules,
final boolean handleArtifactsFiltering) {
this.granuleBBOX = ReferencedEnvelope.reference(granuleBBOX);
this.granuleUrl = granuleUrl;
this.inclusionGeometry = inclusionGeometry;
this.handleArtifactsFiltering = handleArtifactsFiltering;
filterMe = handleArtifactsFiltering && inclusionGeometry != null;
// create the base grid to world transformation
ImageInputStream inStream = null;
ImageReader reader = null;
try {
//
// get info about the raster we have to read
//
// get a stream
if (cachedStreamSPI == null) {
cachedStreamSPI = ImageIOExt.getImageInputStreamSPI(granuleUrl, true);
if (cachedStreamSPI == null) {
final File file = DataUtilities.urlToFile(granuleUrl);
if (file != null) {
if (LOGGER.isLoggable(Level.WARNING)) {
LOGGER.log(Level.WARNING, Utils.getFileInfo(file));
}
}
throw new IllegalArgumentException(
"Unable to get an input stream for the provided granule " + granuleUrl.toString());
}
}
assert cachedStreamSPI != null : "no cachedStreamSPI available!";
inStream =
cachedStreamSPI.createInputStreamInstance(
granuleUrl, ImageIO.getUseCache(), ImageIO.getCacheDirectory());
if (inStream == null) {
final File file = DataUtilities.urlToFile(granuleUrl);
if (file != null) {
if (LOGGER.isLoggable(Level.WARNING)) {
LOGGER.log(Level.WARNING, Utils.getFileInfo(file));
}
}
throw new IllegalArgumentException(
"Unable to get an input stream for the provided file " + granuleUrl.toString());
}
// get a reader and try to cache the suggested SPI first
if (cachedReaderSPI == null) {
inStream.mark();
if (suggestedSPI != null && suggestedSPI.canDecodeInput(inStream)) {
cachedReaderSPI = suggestedSPI;
inStream.reset();
} else {
inStream.mark();
reader = ImageIOExt.getImageioReader(inStream);
if (reader != null) cachedReaderSPI = reader.getOriginatingProvider();
inStream.reset();
}
}
reader = cachedReaderSPI.createReaderInstance();
if (reader == null)
throw new IllegalArgumentException(
"Unable to get an ImageReader for the provided file " + granuleUrl.toString());
reader.setInput(inStream);
// get selected level and base level dimensions
final Rectangle originalDimension = Utils.getDimension(0, reader);
// build the g2W for this tile, in principle we should get it
// somehow from the tile itself or from the index, but at the moment
// we do not have such info, hence we assume that it is a simple
// scale and translate
final GridToEnvelopeMapper geMapper =
new GridToEnvelopeMapper(new GridEnvelope2D(originalDimension), granuleBBOX);
geMapper.setPixelAnchor(
PixelInCell
.CELL_CENTER); // this is the default behavior but it is nice to write it down anyway
this.baseGridToWorld = geMapper.createAffineTransform();
try {
if (inclusionGeometry != null) {
geMapper.setPixelAnchor(PixelInCell.CELL_CORNER);
Geometry mapped = JTS.transform(inclusionGeometry, geMapper.createTransform().inverse());
this.granuleROIShape = new ROIGeometry(mapped);
}
} catch (TransformException e1) {
throw new IllegalArgumentException(e1);
}
// add the base level
this.granuleLevels.put(
Integer.valueOf(0),
new GranuleOverviewLevelDescriptor(
1, 1, originalDimension.width, originalDimension.height));
////////////////////// Setting overviewController ///////////////////////
if (heterogeneousGranules) {
// //
//
// Right now we are setting up overviewsController by assuming that
// overviews are internal images as happens in TIFF images
// We can improve this by leveraging on coverageReaders
//
// //
// Getting the first level descriptor
final GranuleOverviewLevelDescriptor baseOverviewLevelDescriptor = granuleLevels.get(0);
// Variables initialization
final int numberOfOvervies = reader.getNumImages(true) - 1;
final AffineTransform2D baseG2W = baseOverviewLevelDescriptor.getGridToWorldTransform();
final int width = baseOverviewLevelDescriptor.getWidth();
final int height = baseOverviewLevelDescriptor.getHeight();
final double resX = AffineTransform2D.getScaleX0(baseG2W);
final double resY = AffineTransform2D.getScaleY0(baseG2W);
final double[] highestRes = new double[] {resX, resY};
final double[][] overviewsResolution = new double[numberOfOvervies][2];
// Populating overviews and initializing overviewsController
for (int i = 0; i < numberOfOvervies; i++) {
overviewsResolution[i][0] = (highestRes[0] * width) / reader.getWidth(i + 1);
overviewsResolution[i][1] = (highestRes[1] * height) / reader.getWidth(i + 1);
}
overviewsController =
new OverviewsController(highestRes, numberOfOvervies, overviewsResolution);
}
//////////////////////////////////////////////////////////////////////////
} catch (IllegalStateException e) {
throw new IllegalArgumentException(e);
} catch (IOException e) {
throw new IllegalArgumentException(e);
} finally {
// close/dispose stream and readers
try {
if (inStream != null) {
inStream.close();
}
} catch (Throwable e) {
throw new IllegalArgumentException(e);
} finally {
if (reader != null) {
reader.dispose();
}
}
}
}
