private void writeGeoCoding(final MapGeoCoding geoCoding) throws IOException { final MapInfo mapInfo = geoCoding.getMapInfo(); final MapProjection mapProjection = mapInfo.getMapProjection(); final int groupID = createH5G(_fileID, "geo_coding"); try { createScalarAttribute(groupID, "java_class_name", MapGeoCoding.class.getName()); createScalarAttribute(groupID, "easting", mapInfo.getEasting()); createScalarAttribute(groupID, "northing", mapInfo.getNorthing()); createScalarAttribute(groupID, "pixel_x", mapInfo.getPixelX()); createScalarAttribute(groupID, "pixel_y", mapInfo.getPixelY()); createScalarAttribute(groupID, "pixel_size_x", mapInfo.getPixelSizeX()); createScalarAttribute(groupID, "pixel_size_y", mapInfo.getPixelSizeY()); createScalarAttribute(groupID, "datum", mapInfo.getDatum().getName()); createScalarAttribute(groupID, "unit", mapProjection.getMapUnit()); createScalarAttribute(groupID, "projection", mapProjection.getName()); final int paramsID = createH5G(groupID, "projection_params"); try { final MapTransform mapTransform = mapProjection.getMapTransform(); final MapTransformDescriptor mapTransformDescriptor = mapTransform.getDescriptor(); final Parameter[] parameters = mapTransformDescriptor.getParameters(); for (int i = 0; i < parameters.length; i++) { createScalarAttribute( paramsID, parameters[i].getName(), mapTransform.getParameterValues()[i]); } } finally { closeH5G(paramsID); } } finally { closeH5G(groupID); } }
private static MathTransform getMathTransform(MapTransform mapTransform) throws FactoryException { if (mapTransform.getDescriptor() instanceof AffineTransformDescriptor) { return new AffineTransform2D(new AffineTransform(mapTransform.getParameterValues())); } if (mapTransform instanceof AlbersEqualAreaConicDescriptor.AEAC) { return createAlbersConicEqualAreaMathTransform( (AlbersEqualAreaConicDescriptor.AEAC) mapTransform); } if (mapTransform instanceof LambertConformalConicDescriptor.LCCT) { return createLambertConformalConicMathTransform( (LambertConformalConicDescriptor.LCCT) mapTransform); } if (mapTransform instanceof StereographicDescriptor.ST) { return createStereographicMathTransform((StereographicDescriptor.ST) mapTransform); } if (mapTransform instanceof TransverseMercatorDescriptor.TMT) { return createTransverseMercatorMathTransform((TransverseMercatorDescriptor.TMT) mapTransform); } return null; }
/** * Writes the systems byte order to the out stream. In java only high byte first. * * @param out the stream to write to * @param rasterDataNode */ private static void writeMapProjectionInfo(PrintWriter out, RasterDataNode rasterDataNode) { Product product = rasterDataNode.getProduct(); if (product == null) { return; } String mapProjectionName = "Arbitrary"; String mapUnits = "Meters"; double referencePixelX = 0, referencePixelY = 0; double easting = 0, northing = 0; double pixelSizeX = 0, pixelSizeY = 0; String datumName = ""; int utmZone = -1; String utmHemisphere = ""; MapProjection mapProjection = null; if (product.getGeoCoding() instanceof CrsGeoCoding) { final CrsGeoCoding crsGeoCoding = (CrsGeoCoding) product.getGeoCoding(); final CoordinateReferenceSystem crs = crsGeoCoding.getMapCRS(); final ImageGeometry imgGeom = ImageGeometry.createTargetGeometry( product, crs, null, null, null, null, null, null, null, null, null); final String crsName = crs.getName().toString().toUpperCase(); if (crsName.equals("WGS84(DD)")) { mapProjectionName = "Geographic Lat/Lon"; mapUnits = "Degrees"; } else if (crsName.contains("UTM")) { mapProjectionName = "UTM"; String zoneStr = crsName.substring(crsName.indexOf("ZONE") + 5, crsName.length()).trim(); int i = 0; String zoneNumStr = ""; while (Character.isDigit(zoneStr.charAt(i))) { zoneNumStr += zoneStr.charAt(i++); } utmZone = Integer.parseInt(zoneNumStr); GeoPos centrePos = crsGeoCoding.getGeoPos( new PixelPos(product.getSceneRasterWidth() / 2, product.getSceneRasterHeight() / 2), null); utmHemisphere = centrePos.getLat() > 0 ? "North" : "South"; } referencePixelX = imgGeom.getReferencePixelX(); referencePixelY = imgGeom.getReferencePixelY(); easting = imgGeom.getEasting(); northing = imgGeom.getNorthing(); pixelSizeX = imgGeom.getPixelSizeX(); pixelSizeY = imgGeom.getPixelSizeY(); datumName = crsGeoCoding.getDatum().getName(); } else if (product.getGeoCoding() instanceof MapGeoCoding) { final MapGeoCoding mapGeoCoding = (MapGeoCoding) product.getGeoCoding(); final MapInfo info = mapGeoCoding.getMapInfo(); if (info == null) { return; } mapProjection = info.getMapProjection(); if (mapProjection instanceof UTMProjection) { mapProjectionName = "UTM"; final UTMProjection utmProjection = (UTMProjection) mapProjection; utmZone = utmProjection.getZone(); utmHemisphere = utmProjection.isNorth() ? "North" : "South"; } else if (mapProjection.isPreDefined()) { mapProjectionName = mapProjection.getName(); } if ("meter".equals(mapProjection.getMapUnit())) { mapUnits = "Meters"; } else if ("degree".equals(mapProjection.getMapUnit())) { mapUnits = "Degrees"; } else { mapUnits = mapProjection.getMapUnit(); } datumName = mapGeoCoding.getDatum().getName(); } else { return; } out.print(_enviMapInfo); out.print(" = {"); out.print(mapProjectionName); out.print(","); out.print(referencePixelX + 1.0f); out.print(","); out.print(referencePixelY + 1.0f); out.print(","); out.print(easting); out.print(","); out.print(northing); out.print(","); out.print(pixelSizeX); out.print(","); out.print(pixelSizeY); out.print(","); if (utmZone != -1) { out.print(utmZone); out.print(","); out.print(utmHemisphere); out.print(","); } out.print(datumName); out.print(","); out.print("units=" + mapUnits); out.print("}"); out.println(); if (mapProjection != null && !mapProjection.isPreDefined()) { final MapTransform mapTransform = mapProjection.getMapTransform(); final double[] parameterValues = mapTransform.getParameterValues(); final String transformName = mapTransform.getDescriptor().getName(); out.print(_enviProjectionInfo); out.print(" = {"); if (transformName.equals(TransverseMercatorDescriptor.NAME)) { out.print(3); out.print(","); out.print(parameterValues[0]); // semi_major (meters) out.print(","); out.print(parameterValues[1]); // semi_minor (meters) out.print(","); out.print(parameterValues[2]); // latitude_of_origin (degree) out.print(","); out.print(parameterValues[3]); // central_meridian (degree) out.print(","); out.print(parameterValues[5]); // false_easting (meters) out.print(","); out.print(parameterValues[6]); // false_northing (meters) out.print(","); out.print(parameterValues[4]); // scaling_factor (no unit) out.print(","); } else if (transformName.equals(LambertConformalConicDescriptor.NAME)) { out.print(4); out.print(","); out.print(parameterValues[0]); // semi_major (meters) out.print(","); out.print(parameterValues[1]); // semi_minor (meters) out.print(","); out.print(parameterValues[2]); // latitude_of_origin (degree) out.print(","); out.print(parameterValues[3]); // central_meridian (degree) out.print(","); out.print(0.0); // false_easting (meters) out.print(","); out.print(0.0); // false_northing (meters) out.print(","); out.print(parameterValues[4]); // latitude_of_intersection_1 (meters) out.print(","); out.print(parameterValues[5]); // latitude_of_intersection_2 (meters) out.print(","); } out.print(mapProjectionName); out.print(","); out.print("units=" + mapUnits); out.print("}"); out.println(); } }