private GeneralEnvelope getResultEnvelope(
final List<RasterQueryInfo> queryInfos, final GridEnvelope mosaicGeometry) {
// use the same queryInfo used by setMosaicLocations
final RasterQueryInfo baseQueryInfo = RasterUtils.findLowestResolution(queryInfos);
GeneralEnvelope finalEnvelope = null;
// if (queryInfos.size() == 1) {
// finalEnvelope = queryInfos.get(0).getResultEnvelope();
// } else {
int rasterIndex = baseQueryInfo.getRasterIndex();
int pyramidLevel = baseQueryInfo.getPyramidLevel();
MathTransform rasterToModel = rasterInfo.getRasterToModel(rasterIndex, pyramidLevel);
CoordinateReferenceSystem coverageCrs = rasterInfo.getCoverageCrs();
GeneralEnvelope mosaicGeometryEnv = new GeneralEnvelope(coverageCrs);
mosaicGeometryEnv.setEnvelope(
mosaicGeometry.getLow(0),
mosaicGeometry.getLow(1),
1 + mosaicGeometry.getHigh(0),
1 + mosaicGeometry.getHigh(1));
try {
finalEnvelope = CRS.transform(rasterToModel, mosaicGeometryEnv);
finalEnvelope.setCoordinateReferenceSystem(coverageCrs);
} catch (TransformException e) {
throw new RuntimeException(e);
}
// }
// double[] resolution = baseQueryInfo.getResolution();
// finalEnvelope = toPixelCenter(resolution, finalEnvelope);
return finalEnvelope;
}
private void readAllTiledRasters(
final List<RasterQueryInfo> queries,
final TiledRasterReader rasterReader,
final LoggingHelper log)
throws IOException {
for (RasterQueryInfo queryInfo : queries) {
final Long rasterId = queryInfo.getRasterId();
final RenderedImage rasterImage;
try {
final int pyramidLevel = queryInfo.getPyramidLevel();
final GridEnvelope matchingTiles = queryInfo.getMatchingTiles();
// final Point imageLocation = queryInfo.getTiledImageSize().getLocation();
rasterImage = rasterReader.read(rasterId, pyramidLevel, matchingTiles);
} catch (IOException e) {
LOGGER.log(Level.SEVERE, "Fetching data for " + queryInfo.toString(), e);
throw e;
}
queryInfo.setResultImage(rasterImage);
{
LOGGER.finer(queryInfo.toString());
log.appendLoggingGeometries(LoggingHelper.MOSAIC_EXPECTED, queryInfo.getMosaicLocation());
log.appendLoggingGeometries(LoggingHelper.MOSAIC_ENV, queryInfo.getResultEnvelope());
// final Rectangle tiledImageSize = queryInfo.getTiledImageSize();
// int width = rasterImage.getWidth();
// int height = rasterImage.getHeight();
// if (tiledImageSize.width != width || tiledImageSize.height != height) {
// throw new IllegalStateException(
// "Read image is not of the expected size. Image=" + width + "x" + height
// + ", expected: " + tiledImageSize.width + "x"
// + tiledImageSize.height);
// }
}
}
}
/**
* For each raster: crop->scale->translate->add to mosaic
*
* @param queries
* @param mosaicGeometry
* @return
* @throws IOException
*/
private RenderedImage createMosaic(
final List<RasterQueryInfo> queries,
final GridEnvelope mosaicGeometry,
final LoggingHelper log)
throws IOException {
List<RenderedImage> transformed = new ArrayList<RenderedImage>(queries.size());
/*
* Do we need to expand to RGB color space and then create a new colormapped image with the
* whole mosaic?
*/
boolean expandCM = queries.size() > 1 && rasterInfo.isColorMapped();
if (expandCM) {
LOGGER.fine(
"Creating mosaic out of "
+ queries.size()
+ " colormapped rasters. The mosaic tiles will be expanded to "
+ "\nRGB space and the resulting mosaic reduced to a new IndexColorModel");
}
for (RasterQueryInfo query : queries) {
RenderedImage image = query.getResultImage();
log.log(image, query.getRasterId(), "01_original");
if (expandCM) {
if (LOGGER.isLoggable(Level.FINER)) {
LOGGER.finer(
"Creating color expanded version of tile for raster #" + query.getRasterId());
}
/*
* reformat the image as a 4 band rgba backed by byte data
*/
image = FormatDescriptor.create(image, Integer.valueOf(DataBuffer.TYPE_BYTE), null);
log.log(image, query.getRasterId(), "04_1_colorExpanded");
}
image = cropToRequiredDimension(image, query.getResultGridRange());
log.log(image, query.getRasterId(), "02_crop");
// Raster data = image.getData();
// image = new BufferedImage(image.getColorModel(), (WritableRaster) data, false, null);
if (queries.size() == 1) {
return image;
}
final GridEnvelope mosaicLocation = query.getMosaicLocation();
// scale
Float scaleX = Float.valueOf(((float) mosaicLocation.getSpan(0) / image.getWidth()));
Float scaleY = Float.valueOf(((float) mosaicLocation.getSpan(1) / image.getHeight()));
Float translateX = Float.valueOf(0);
Float translateY = Float.valueOf(0);
if (!(Float.valueOf(1.0F).equals(scaleX) && Float.valueOf(1.0F).equals(scaleY))) {
ParameterBlock pb = new ParameterBlock();
pb.addSource(image);
pb.add(scaleX);
pb.add(scaleY);
pb.add(translateX);
pb.add(translateY);
pb.add(new InterpolationNearest());
image = JAI.create("scale", pb);
log.log(image, query.getRasterId(), "03_scale");
int width = image.getWidth();
int height = image.getHeight();
assert mosaicLocation.getSpan(0) == width;
assert mosaicLocation.getSpan(1) == height;
}
if (image.getMinX() != mosaicLocation.getLow(0)
|| image.getMinY() != mosaicLocation.getLow(1)) {
// translate
ParameterBlock pb = new ParameterBlock();
pb.addSource(image);
pb.add(Float.valueOf(mosaicLocation.getLow(0) - image.getMinX()));
pb.add(Float.valueOf(mosaicLocation.getLow(1) - image.getMinY()));
pb.add(null);
image = JAI.create("translate", pb);
log.log(image, query.getRasterId(), "04_translate");
assert image.getMinX() == mosaicLocation.getLow(0)
: image.getMinX() + " != " + mosaicLocation.getLow(0);
assert image.getMinY() == mosaicLocation.getLow(1)
: image.getMinY() + " != " + mosaicLocation.getLow(1);
assert image.getWidth() == mosaicLocation.getSpan(0)
: image.getWidth() + " != " + mosaicLocation.getSpan(0);
assert image.getHeight() == mosaicLocation.getSpan(1)
: image.getHeight() + " != " + mosaicLocation.getSpan(1);
}
transformed.add(image);
}
final RenderedImage mosaic;
if (queries.size() == 1) {
/*
* This is besides a very slight perf improvement needed because the JAI mosaic
* operation truncates floating point raster values to 0 and 1. REVISIT: If there's no
* workaround for that we should prevent raster catalogs made of floating point rasters
* and throw an exception as we could not really support that.
*/
mosaic = transformed.get(0);
} else {
/*
* adapted from RasterLayerResponse.java in the imagemosaic module
*/
ParameterBlockJAI mosaicParams = new ParameterBlockJAI("Mosaic");
mosaicParams.setParameter("mosaicType", MosaicDescriptor.MOSAIC_TYPE_OVERLAY);
// set background values to raster's no-data
double[] backgroundValues;
if (expandCM) {
backgroundValues = new double[] {0, 0, 0, 0};
} else {
final int numBands = rasterInfo.getNumBands();
backgroundValues = new double[numBands];
final int rasterIndex = 0;
Number noDataValue;
for (int bn = 0; bn < numBands; bn++) {
noDataValue = rasterInfo.getNoDataValue(rasterIndex, bn);
backgroundValues[bn] = noDataValue.doubleValue();
}
}
mosaicParams.setParameter("backgroundValues", backgroundValues);
final ImageLayout layout =
new ImageLayout(
mosaicGeometry.getLow(0),
mosaicGeometry.getLow(1),
mosaicGeometry.getSpan(0),
mosaicGeometry.getSpan(1));
final int tileWidth = rasterInfo.getTileDimension(0).width;
final int tileHeight = rasterInfo.getTileDimension(0).height;
layout.setTileWidth(tileWidth);
layout.setTileHeight(tileHeight);
final RenderingHints hints = new RenderingHints(JAI.KEY_IMAGE_LAYOUT, layout);
for (RenderedImage img : transformed) {
mosaicParams.addSource(img);
log.appendLoggingGeometries(LoggingHelper.MOSAIC_RESULT, img);
}
log.log(LoggingHelper.MOSAIC_RESULT);
LOGGER.fine("Creating mosaic out of " + queries.size() + " raster tiles");
mosaic = JAI.create("Mosaic", mosaicParams, hints);
log.log(mosaic, 0L, "05_mosaic_result");
}
return mosaic;
}
