// Converts lat/lon bounds to the correct tile bounds, in lat/lon for a zoom level public static Bounds tileBounds( final TMSUtils.Bounds bounds, final int zoom, final int tilesize) { final TMSUtils.TileBounds tb = TMSUtils.boundsToTile(bounds, zoom, tilesize); return TMSUtils.tileToBounds(tb, zoom, tilesize); }
/** * BoundsCropper takes an image (actually, its metadata), a list of user bounds to crop, and a * zoom level, and gives back the metadata corresponding to the cropped image with the maximum * zoom level set to the one provided. * * <p>Additional details: * * <p>If there is only one user bounds, then the cropped image bounds corresponds to that * singleton bounds. If there is a list of user bounds, then the cropped image bounds corresponds * to an envelope around the list of user bounds. * * <p>The new image bounds are computed from the old using the following two transformations - * first, the user bounds are capped to the nearest tile boundaries. - second, the bounds from * above are then intersected with the original image boundaries * * <p>The new tile bounds are computed from the new image bounds. * * <p>If the user bounds are outside the image bounds (i.e., they have no overlap), then an * exception is thrown * * <p>If the provided zoom level is different from the maximum zoom level in the input metadata, * then care is taken to set the maximum zoom level of the returned data to the provided zoom * level. * * @param origMetadata * @param userBounds * @param zoomLevel * @return */ public static MrsPyramidMetadata getCroppedMetadata( MrsPyramidMetadata origMetadata, List<Bounds> userBounds, int zoomLevel) { double minX = Double.POSITIVE_INFINITY, minY = Double.POSITIVE_INFINITY; double maxX = Double.NEGATIVE_INFINITY, maxY = Double.NEGATIVE_INFINITY; // if there is a list of user bounds, find the envelope surrounding it for (Bounds bounds : userBounds) { if (bounds.w < minX) minX = bounds.w; if (bounds.s < minY) minY = bounds.s; if (bounds.e > maxX) maxX = bounds.e; if (bounds.n > maxY) maxY = bounds.n; } Bounds cropBounds = new Bounds(minX, minY, maxX, maxY); // now cap it to the nearest outside tile boundaries Bounds cropTileBounds = TMSUtils.tileBounds(cropBounds, zoomLevel, origMetadata.getTilesize()); // get the original image bounds Bounds imageBounds = Bounds.convertOldToNewBounds(origMetadata.getBounds()); // complain if the user bounds has no overlap with if (!imageBounds.intersect(cropTileBounds)) { throw new IllegalArgumentException( String.format( "Oops - cropped bounds and image bounds " + "do not overlap: cropped bounds=%s, image bounds=%s", cropTileBounds, imageBounds)); } // now find the intersection of the cropped bounds and image bounds - this becomes the new // image bounds Bounds newImageBounds = new Bounds( Math.max(cropTileBounds.w, imageBounds.w), Math.max(cropTileBounds.s, imageBounds.s), Math.min(cropTileBounds.e, imageBounds.e), Math.min(cropTileBounds.n, imageBounds.n)); // find the tile bounds corresponding to the new image bounds - this becomes the new tile bounds TMSUtils.TileBounds newTileBounds = TMSUtils.boundsToTile(newImageBounds, zoomLevel, origMetadata.getTilesize()); final TMSUtils.Pixel lowerPx = TMSUtils.latLonToPixels( newImageBounds.s, newImageBounds.w, zoomLevel, origMetadata.getTilesize()); final TMSUtils.Pixel upperPx = TMSUtils.latLonToPixels( newImageBounds.n, newImageBounds.e, zoomLevel, origMetadata.getTilesize()); final LongRectangle pixelBounds = new LongRectangle(0, 0, upperPx.px - lowerPx.px, upperPx.py - lowerPx.py); // time to create the new metadata MrsPyramidMetadata croppedMetadata = new MrsPyramidMetadata(); croppedMetadata.setPyramid(origMetadata.getPyramid()); croppedMetadata.setBounds(Bounds.convertNewToOldBounds(newImageBounds)); croppedMetadata.setTilesize(origMetadata.getTilesize()); croppedMetadata.setTileType(origMetadata.getTileType()); croppedMetadata.setBands(1); croppedMetadata.setDefaultValues(origMetadata.getDefaultValues()); // max zoom should be input zoom not origMetadata.getMaxZoomLevel croppedMetadata.setMaxZoomLevel(zoomLevel); croppedMetadata.setName(zoomLevel, "" + zoomLevel); croppedMetadata.setTileBounds(zoomLevel, TileBounds.convertToLongRectangle(newTileBounds)); croppedMetadata.setPixelBounds(zoomLevel, pixelBounds); croppedMetadata.setProtectionLevel(origMetadata.getProtectionLevel()); return croppedMetadata; }