public int countImagesInSector(Sector sector, int levelNumber) { if (sector == null) { String msg = Logging.getMessage("nullValue.SectorIsNull"); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); } Level targetLevel = this.levels.getLastLevel(); if (levelNumber >= 0) { for (int i = levelNumber; i < this.getLevels().getLastLevel().getLevelNumber(); i++) { if (this.levels.isLevelEmpty(i)) continue; targetLevel = this.levels.getLevel(i); break; } } // Collect all the tiles intersecting the input sector. LatLon delta = targetLevel.getTileDelta(); Angle latOrigin = this.levels.getTileOrigin().getLatitude(); Angle lonOrigin = this.levels.getTileOrigin().getLongitude(); final int nwRow = Tile.computeRow(delta.getLatitude(), sector.getMaxLatitude(), latOrigin); final int nwCol = Tile.computeColumn(delta.getLongitude(), sector.getMinLongitude(), lonOrigin); final int seRow = Tile.computeRow(delta.getLatitude(), sector.getMinLatitude(), latOrigin); final int seCol = Tile.computeColumn(delta.getLongitude(), sector.getMaxLongitude(), lonOrigin); int numRows = nwRow - seRow + 1; int numCols = seCol - nwCol + 1; return numRows * numCols; }
protected int determineAdjustmentSide(Movable dragObject, double factor) { if (dragObject instanceof SurfaceSector) { SurfaceSector quad = (SurfaceSector) dragObject; Sector s = quad.getSector(); // TODO: go over all sectors Position p = this.getWwd().getCurrentPosition(); if (p == null) { return NONE; } double dN = abs(s.getMaxLatitude().subtract(p.getLatitude()).degrees); double dS = abs(s.getMinLatitude().subtract(p.getLatitude()).degrees); double dW = abs(s.getMinLongitude().subtract(p.getLongitude()).degrees); double dE = abs(s.getMaxLongitude().subtract(p.getLongitude()).degrees); double sLat = factor * s.getDeltaLatDegrees(); double sLon = factor * s.getDeltaLonDegrees(); if (dN < sLat && dW < sLon) return NORTHWEST; if (dN < sLat && dE < sLon) return NORTHEAST; if (dS < sLat && dW < sLon) return SOUTHWEST; if (dS < sLat && dE < sLon) return SOUTHEAST; if (dN < sLat) return NORTH; if (dS < sLat) return SOUTH; if (dW < sLon) return WEST; if (dE < sLon) return EAST; } return NONE; }
public static String makeSectorDescription(Sector sector) { return String.format( "S %7.4f\u00B0 W %7.4f\u00B0 N %7.4f\u00B0 E %7.4f\u00B0", sector.getMinLatitude().degrees, sector.getMinLongitude().degrees, sector.getMaxLatitude().degrees, sector.getMaxLongitude().degrees); }
protected Sector resizeShape(Movable dragObject, int side) { if (dragObject instanceof SurfaceSector) { SurfaceSector quad = (SurfaceSector) dragObject; Sector s = quad.getSector(); // TODO: go over all sectors Position p = this.getWwd().getCurrentPosition(); if (p == null || this.getPreviousPosition() == null) { return null; } Angle dLat = p.getLatitude().subtract(this.getPreviousPosition().getLatitude()); Angle dLon = p.getLongitude().subtract(this.getPreviousPosition().getLongitude()); Angle newMinLat = s.getMinLatitude(); Angle newMinLon = s.getMinLongitude(); Angle newMaxLat = s.getMaxLatitude(); Angle newMaxLon = s.getMaxLongitude(); if (side == NORTH) { newMaxLat = s.getMaxLatitude().add(dLat); } else if (side == SOUTH) { newMinLat = s.getMinLatitude().add(dLat); } else if (side == EAST) { newMaxLon = s.getMaxLongitude().add(dLon); } else if (side == WEST) { newMinLon = s.getMinLongitude().add(dLon); } else if (side == NORTHWEST) { newMaxLat = s.getMaxLatitude().add(dLat); newMinLon = s.getMinLongitude().add(dLon); } else if (side == NORTHEAST) { newMaxLat = s.getMaxLatitude().add(dLat); newMaxLon = s.getMaxLongitude().add(dLon); } else if (side == SOUTHWEST) { newMinLat = s.getMinLatitude().add(dLat); newMinLon = s.getMinLongitude().add(dLon); } else if (side == SOUTHEAST) { newMinLat = s.getMinLatitude().add(dLat); newMaxLon = s.getMaxLongitude().add(dLon); } return new Sector(newMinLat, newMaxLat, newMinLon, newMaxLon); } return null; }
private static AffineTransform createTransform(Sector source, MeshCoords destination) { java.awt.geom.AffineTransform transform = new java.awt.geom.AffineTransform(); transform.translate(destination.left, destination.bottom); transform.scale( (destination.right - destination.left) / source.getDeltaLonDegrees(), (destination.top - destination.bottom) / source.getDeltaLatDegrees()); transform.translate(-source.getMinLongitude().degrees, -source.getMinLatitude().degrees); return transform; }
protected Angle computeIconRadius(DrawContext dc, double regionPixelSize, Sector drawSector) { double minCosLat = Math.min(drawSector.getMinLatitude().cos(), drawSector.getMaxLatitude().cos()); if (minCosLat < 0.001) return Angle.POS180; Rectangle2D iconDimension = this.computeDrawDimension(regionPixelSize); // Meter double dLat = iconDimension.getHeight() / dc.getGlobe().getRadius(); double dLon = iconDimension.getWidth() / dc.getGlobe().getRadius() / minCosLat; return Angle.fromRadians(Math.sqrt(dLat * dLat + dLon * dLon) / 2); }
public Sector(Sector sector) { if (sector == null) { throw new IllegalArgumentException("Sector Is Null"); } this.minLatitude = new Angle(sector.getMinLatitude()); this.maxLatitude = new Angle(sector.getMaxLatitude()); this.minLongitude = new Angle(sector.getMinLongitude()); this.maxLongitude = new Angle(sector.getMaxLongitude()); this.deltaLat = Angle.fromDegrees(this.maxLatitude.degrees - this.minLatitude.degrees); this.deltaLon = Angle.fromDegrees(this.maxLongitude.degrees - this.minLongitude.degrees); }
/** * Compares this sector to a specified sector according to their minimum latitude, minimum * longitude, maximum latitude, and maximum longitude, respectively. * * @param that the <code>Sector</code> to compareTo with <code>this</code>. * @return -1 if this sector compares less than that specified, 0 if they're equal, and 1 if it * compares greater. * @throws IllegalArgumentException if <code>that</code> is null */ public int compareTo(Sector that) { if (that == null) { throw new IllegalArgumentException("Sector Is Null"); } if (this.getMinLatitude().compareTo(that.getMinLatitude()) < 0) { return -1; } if (this.getMinLatitude().compareTo(that.getMinLatitude()) > 0) { return 1; } if (this.getMinLongitude().compareTo(that.getMinLongitude()) < 0) { return -1; } if (this.getMinLongitude().compareTo(that.getMinLongitude()) > 0) { return 1; } if (this.getMaxLatitude().compareTo(that.getMaxLatitude()) < 0) { return -1; } if (this.getMaxLatitude().compareTo(that.getMaxLatitude()) > 0) { return 1; } if (this.getMaxLongitude().compareTo(that.getMaxLongitude()) < 0) { return -1; } if (this.getMaxLongitude().compareTo(that.getMaxLongitude()) > 0) { return 1; } return 0; }
protected static ArrayList<Position> generateReferenceLocations( Sector sector, int numLats, int numLons) { ArrayList<Position> locations = new ArrayList<Position>(); double dLat = (sector.getMaxLatitude().degrees - sector.getMinLatitude().degrees) / (numLats - 1); double dLon = (sector.getMaxLongitude().degrees - sector.getMinLongitude().degrees) / (numLons - 1); for (int j = 0; j < numLats; j++) { double lat = sector.getMinLatitude().degrees + j * dLat; for (int i = 0; i < numLons; i++) { double lon = sector.getMinLongitude().degrees + i * dLon; // Specify angles to five decimal places. locations.add( Position.fromDegrees( Math.round(lat * 100000.0) / 100000.0, Math.round(lon * 100000.0) / 100000.0, 0)); } } return locations; }
public static VirtualEarthTile[] createTiles( Sector bbox /*int wwLevel, int wwRow, int wwCol*/, VirtualEarthLayer layer) throws WWRuntimeException { if (null == bbox) { String message = Logging.getMessage("nullValue.SectorIsNull"); Logging.logger().severe(message); throw new WWRuntimeException(message); } if (null == layer) { String message = Logging.getMessage("nullValue.LayerIsNull"); Logging.logger().severe(message); throw new WWRuntimeException(message); } int level = getZoomLevelByTrueViewRange(bbox.getDeltaLatDegrees()); Point startPixel = LatLongToPixelXY(bbox.getMaxLatitude().degrees, bbox.getMinLongitude().degrees, level); Point endPixel = LatLongToPixelXY(bbox.getMinLatitude().degrees, bbox.getMaxLongitude().degrees, level); Point startTile = PixelXYToTileXY(startPixel.x, startPixel.y); Point endTile = PixelXYToTileXY(endPixel.x, endPixel.y); ArrayList<VirtualEarthTile> tileList = new ArrayList<VirtualEarthTile>(); for (int y = startTile.y; y <= endTile.y; y++) { for (int x = startTile.x; x <= endTile.x; x++) { try { int ulPixelX = x * VE_MAX_TILE_SIZE; int ulPixelY = y * VE_MAX_TILE_SIZE; LatLon ul = PixelXYToLatLong(ulPixelX, ulPixelY, level); int lrPixelX = ulPixelX + VE_MAX_TILE_SIZE; int lrPixelY = ulPixelY + VE_MAX_TILE_SIZE; LatLon lr = PixelXYToLatLong(lrPixelX, lrPixelY, level); Sector tileSector = Sector.boundingSector(ul, lr); tileList.add(new VirtualEarthTile(x, y, level, layer, tileSector)); } catch (Exception ex) { Logging.logger().log(Level.SEVERE, ex.getMessage(), ex); } } } VirtualEarthTile[] tiles = new VirtualEarthTile[tileList.size()]; return tileList.toArray(tiles); }
protected List<Sector> computeSectors(DrawContext dc) { if (this.locations == null || !this.locations.iterator().hasNext()) return null; // Compute all locations bounding sector, then add some padding for the icon half diagonal // extent Sector sector = Sector.boundingSector(this.locations); // Compute padding double minCosLat = Math.min(sector.getMinLatitude().cos(), sector.getMaxLatitude().cos()); minCosLat = Math.max(minCosLat, .01); // avoids division by zero at the poles Rectangle2D iconDimension = this.computeDrawDimension(dc, sector.getCentroid()); double diagonalLength = Math.sqrt( iconDimension.getWidth() * iconDimension.getWidth() + iconDimension.getHeight() * iconDimension.getHeight()); double padLatRadians = diagonalLength / 2 / dc.getGlobe().getRadius(); double padLonRadians = diagonalLength / 2 / dc.getGlobe().getRadius() / minCosLat; // Apply padding to sector Angle minLat = sector.getMinLatitude().subtractRadians(padLatRadians); Angle maxLat = sector.getMaxLatitude().addRadians(padLatRadians); Angle minLon = sector.getMinLongitude().subtractRadians(padLonRadians); Angle maxLon = sector.getMaxLongitude().addRadians(padLatRadians); return this.computeNormalizedSectors(new Sector(minLat, maxLat, minLon, maxLon)); }
private static MeshCoords transformSector(AffineTransform transform, Sector sector) { java.awt.geom.Point2D p = new java.awt.geom.Point2D.Double(); java.awt.geom.Point2D ll = new java.awt.geom.Point2D.Double(); java.awt.geom.Point2D ur = new java.awt.geom.Point2D.Double(); p.setLocation(sector.getMinLongitude().degrees, sector.getMinLatitude().degrees); transform.transform(p, ll); p.setLocation(sector.getMaxLongitude().degrees, sector.getMaxLatitude().degrees); transform.transform(p, ur); return new MeshCoords( (float) ur.getY(), // Top (float) ll.getX(), // Left (float) ll.getY(), // Bottom (float) ur.getX()); // Right }
protected static boolean isSectorVisible( DrawContext dc, Sector sector, double minDistanceSquared, double maxDistanceSquared) { View view = dc.getView(); Position eyePos = view.getEyePosition(); if (eyePos == null) return false; Angle lat = clampAngle(eyePos.getLatitude(), sector.getMinLatitude(), sector.getMaxLatitude()); Angle lon = clampAngle(eyePos.getLongitude(), sector.getMinLongitude(), sector.getMaxLongitude()); Vec4 p = dc.getGlobe().computePointFromPosition(lat, lon, 0d); double distSquared = dc.getView().getEyePoint().distanceToSquared3(p); //noinspection RedundantIfStatement if (minDistanceSquared > distSquared || maxDistanceSquared < distSquared) return false; return true; }
private MercatorTextureTile[][] getTilesInSector(Sector sector, int levelNumber) { if (sector == null) { String msg = Logging.getMessage("nullValue.SectorIsNull"); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); } Level targetLevel = this.levels.getLastLevel(); if (levelNumber >= 0) { for (int i = levelNumber; i < this.getLevels().getLastLevel().getLevelNumber(); i++) { if (this.levels.isLevelEmpty(i)) continue; targetLevel = this.levels.getLevel(i); break; } } // Collect all the tiles intersecting the input sector. LatLon delta = targetLevel.getTileDelta(); Angle latOrigin = this.levels.getTileOrigin().getLatitude(); Angle lonOrigin = this.levels.getTileOrigin().getLongitude(); final int nwRow = Tile.computeRow(delta.getLatitude(), sector.getMaxLatitude(), latOrigin); final int nwCol = Tile.computeColumn(delta.getLongitude(), sector.getMinLongitude(), lonOrigin); final int seRow = Tile.computeRow(delta.getLatitude(), sector.getMinLatitude(), latOrigin); final int seCol = Tile.computeColumn(delta.getLongitude(), sector.getMaxLongitude(), lonOrigin); int numRows = nwRow - seRow + 1; int numCols = seCol - nwCol + 1; MercatorTextureTile[][] sectorTiles = new MercatorTextureTile[numRows][numCols]; for (int row = nwRow; row >= seRow; row--) { for (int col = nwCol; col <= seCol; col++) { TileKey key = new TileKey(targetLevel.getLevelNumber(), row, col, targetLevel.getCacheName()); Sector tileSector = this.levels.computeSectorForKey(key); MercatorSector mSector = MercatorSector.fromSector(tileSector); // TODO: check sectorTiles[nwRow - row][col - nwCol] = new MercatorTextureTile(mSector, targetLevel, row, col); } } return sectorTiles; }
private static MeshTile[] createTiles(LevelSet levelSet, int levelNumber, MeshCoords coords) { Sector sector = levelSet.getSector(); Level level = levelSet.getLevel(levelNumber); Angle dLat = level.getTileDelta().getLatitude(); Angle dLon = level.getTileDelta().getLongitude(); Angle latOrigin = levelSet.getTileOrigin().getLatitude(); Angle lonOrigin = levelSet.getTileOrigin().getLongitude(); // Determine the row and column offset from the common World Wind global tiling origin. int firstRow = Tile.computeRow(dLat, sector.getMinLatitude(), latOrigin); int firstCol = Tile.computeColumn(dLon, sector.getMinLongitude(), lonOrigin); int lastRow = Tile.computeRow(dLat, sector.getMaxLatitude(), latOrigin); int lastCol = Tile.computeColumn(dLon, sector.getMaxLongitude(), lonOrigin); int numLatTiles = lastRow - firstRow + 1; int numLonTiles = lastCol - firstCol + 1; AffineTransform sectorTransform = createTransform(sector, coords); MeshTile[] tiles = new MeshTile[numLatTiles * numLonTiles]; int index = 0; Angle p1 = Tile.computeRowLatitude(firstRow, dLat, latOrigin); for (int row = firstRow; row <= lastRow; row++) { Angle p2 = p1.add(dLat); Angle t1 = Tile.computeColumnLongitude(firstCol, dLon, lonOrigin); for (int col = firstCol; col <= lastCol; col++) { Angle t2 = t1.add(dLon); Sector tileSector = new Sector(p1, p2, t1, t2); MeshCoords tileCoords = transformSector(sectorTransform, tileSector); tiles[index++] = new MeshTile(tileSector, level, row, col, tileCoords); t1 = t2; } p1 = p2; } return tiles; }
public URL getURL(Tile tile, String altImageFormat) throws MalformedURLException { StringBuffer sb; if (this.URLTemplate == null) { sb = new StringBuffer(WWXML.fixGetMapString(tile.getLevel().getService())); if (!sb.toString().toLowerCase().contains("service=wms")) sb.append("service=WMS"); sb.append("&request=GetMap"); sb.append("&version=").append(this.wmsVersion); sb.append(this.crs); sb.append("&layers=").append(this.layerNames); sb.append("&styles=").append(this.styleNames != null ? this.styleNames : ""); sb.append("&transparent=TRUE"); if (this.backgroundColor != null) sb.append("&bgcolor=").append(this.backgroundColor); this.URLTemplate = sb.toString(); } else { sb = new StringBuffer(this.URLTemplate); } String format = (altImageFormat != null) ? altImageFormat : this.imageFormat; if (null != format) sb.append("&format=").append(format); sb.append("&width=").append(tile.getWidth()); sb.append("&height=").append(tile.getHeight()); Sector s = tile.getSector(); sb.append("&bbox="); sb.append(s.getMinLongitude().getDegrees()); sb.append(","); sb.append(s.getMinLatitude().getDegrees()); sb.append(","); sb.append(s.getMaxLongitude().getDegrees()); sb.append(","); sb.append(s.getMaxLatitude().getDegrees()); // sb.append("&"); // terminate the query string return new java.net.URL(sb.toString().replace(" ", "%20")); }
protected List<Position> buildGrid(Sector sector, double height, int nLatCells, int nLonCells) { List<Position> grid = new ArrayList<Position>((nLatCells + 1) * (nLonCells + 1)); double dLat = sector.getDeltaLatDegrees() / nLatCells; double dLon = sector.getDeltaLonDegrees() / nLonCells; for (int j = 0; j <= nLatCells; j++) { double lat = j == nLatCells ? sector.getMaxLatitude().degrees : sector.getMinLatitude().degrees + j * dLat; for (int i = 0; i <= nLonCells; i++) { double lon = i == nLonCells ? sector.getMaxLongitude().degrees : sector.getMinLongitude().degrees + i * dLon; grid.add(Position.fromDegrees(lat, lon, height)); } } return grid; }
protected boolean isNavSectorVisible( DrawContext dc, double minDistanceSquared, double maxDistanceSquared) { if (!navSector.intersects(dc.getVisibleSector())) return false; View view = dc.getView(); Position eyePos = view.getEyePosition(); if (eyePos == null) return false; // check for eyePos over globe if (Double.isNaN(eyePos.getLatitude().getDegrees()) || Double.isNaN(eyePos.getLongitude().getDegrees())) return false; Angle lat = clampAngle(eyePos.getLatitude(), navSector.getMinLatitude(), navSector.getMaxLatitude()); Angle lon = clampAngle( eyePos.getLongitude(), navSector.getMinLongitude(), navSector.getMaxLongitude()); Vec4 p = dc.getGlobe().computePointFromPosition(lat, lon, 0d); double distSquared = dc.getView().getEyePoint().distanceToSquared3(p); //noinspection RedundantIfStatement if (minDistanceSquared > distSquared || maxDistanceSquared < distSquared) return false; return true; }
private void appendGeoTiff(ArrayList<TiffIFDEntry> ifds, AVList params) throws IOException, IllegalArgumentException { if (null == params || 0 == params.getEntries().size()) { String reason = Logging.getMessage("nullValue.AVListIsNull"); Logging.logger().finest(Logging.getMessage("GeotiffWriter.GeoKeysMissing", reason)); return; } long offset = this.theChannel.position(); if (params.hasKey(AVKey.DISPLAY_NAME)) { String value = params.getStringValue(AVKey.DISPLAY_NAME); if (null != value && 0 < value.trim().length()) { offset = this.theChannel.position(); byte[] bytes = value.trim().getBytes(); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add(new TiffIFDEntry(Tiff.Tag.DOCUMENT_NAME, Tiff.Type.ASCII, bytes.length, offset)); } } if (params.hasKey(AVKey.DESCRIPTION)) { String value = params.getStringValue(AVKey.DESCRIPTION); if (null != value && 0 < value.trim().length()) { offset = this.theChannel.position(); byte[] bytes = value.trim().getBytes(); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add( new TiffIFDEntry(Tiff.Tag.IMAGE_DESCRIPTION, Tiff.Type.ASCII, bytes.length, offset)); } } if (params.hasKey(AVKey.VERSION)) { String value = params.getStringValue(AVKey.VERSION); if (null != value && 0 < value.trim().length()) { offset = this.theChannel.position(); byte[] bytes = value.trim().getBytes(); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add( new TiffIFDEntry(Tiff.Tag.SOFTWARE_VERSION, Tiff.Type.ASCII, bytes.length, offset)); } } if (params.hasKey(AVKey.DATE_TIME)) { String value = params.getStringValue(AVKey.DATE_TIME); if (null != value && 0 < value.trim().length()) { offset = this.theChannel.position(); byte[] bytes = value.getBytes(); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add(new TiffIFDEntry(Tiff.Tag.DATE_TIME, Tiff.Type.ASCII, bytes.length, offset)); } } if (params.hasKey(AVKey.SECTOR)) { if (params.hasKey(AVKey.PIXEL_WIDTH) && params.hasKey(AVKey.PIXEL_HEIGHT)) { offset = this.theChannel.position(); double[] values = new double[] { (Double) params.getValue(AVKey.PIXEL_WIDTH), (Double) params.getValue(AVKey.PIXEL_HEIGHT), isElevation(params) ? 1d : 0d }; byte[] bytes = this.getBytes(values); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add( new TiffIFDEntry( GeoTiff.Tag.MODEL_PIXELSCALE, Tiff.Type.DOUBLE, values.length, offset)); } if (params.hasKey(AVKey.WIDTH) && params.hasKey(AVKey.HEIGHT)) { offset = this.theChannel.position(); double w = (Integer) params.getValue(AVKey.WIDTH); double h = (Integer) params.getValue(AVKey.HEIGHT); Sector sec = (Sector) params.getValue(AVKey.SECTOR); double[] values = new double[] { // i , j, k=0, x, y, z=0 0d, 0d, 0d, sec.getMinLongitude().degrees, sec.getMaxLatitude().degrees, 0d, w - 1, 0d, 0d, sec.getMaxLongitude().degrees, sec.getMaxLatitude().degrees, 0d, w - 1, h - 1, 0d, sec.getMaxLongitude().degrees, sec.getMinLatitude().degrees, 0d, 0d, h - 1, 0d, sec.getMinLongitude().degrees, sec.getMinLatitude().degrees, 0d, }; byte[] bytes = this.getBytes(values); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add( new TiffIFDEntry(GeoTiff.Tag.MODEL_TIEPOINT, Tiff.Type.DOUBLE, values.length, offset)); } // Tiff.Tag.MODEL_TRANSFORMATION excludes Tiff.Tag.MODEL_TIEPOINT & Tiff.Tag.MODEL_PIXELSCALE if (params.hasKey(AVKey.MISSING_DATA_SIGNAL) || params.hasKey(AVKey.MISSING_DATA_REPLACEMENT)) { offset = this.theChannel.position(); Object nodata = params.hasKey(AVKey.MISSING_DATA_SIGNAL) ? params.getValue(AVKey.MISSING_DATA_SIGNAL) : params.getValue(AVKey.MISSING_DATA_REPLACEMENT); String value = "" + nodata + "\0"; byte[] bytes = value.getBytes(); this.theChannel.write(ByteBuffer.wrap(bytes)); ifds.add(new TiffIFDEntry(GeoTiff.Tag.GDAL_NODATA, Tiff.Type.ASCII, bytes.length, offset)); } if (params.hasKey(AVKey.COORDINATE_SYSTEM)) { String cs = params.getStringValue(AVKey.COORDINATE_SYSTEM); if (AVKey.COORDINATE_SYSTEM_GEOGRAPHIC.equals(cs)) { if (isElevation(params)) this.writeGeographicElevationGeoKeys(ifds, params); else this.writeGeographicImageGeoKeys(ifds, params); } else if (AVKey.COORDINATE_SYSTEM_PROJECTED.equals(cs)) { String msg = Logging.getMessage("GeotiffWriter.FeatureNotImplementedd", cs); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); // TODO extract PCS (Projection Coordinate System) } else { String msg = Logging.getMessage("GeotiffWriter.UnknownCoordinateSystem", cs); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); } } } }