/** * Create a new raster that contains all data we need for the transformation. * * @throws IllegalArgumentException */ private AbstractRaster getSubRaster( ICRS srcCRS, AbstractRaster sourceRaster, Envelope dstEnvelope) throws TransformationException, IllegalArgumentException { Envelope dataEnv = dstEnvelope; if (srcCRS != null && !srcCRS.equals(getTargetCRS())) { GeometryTransformer srcTransf = new GeometryTransformer(srcCRS); // the envelope from which we need data Envelope workEnv = srcTransf.transform(dstEnvelope, getTargetCRS()); Envelope dataEnvelope = sourceRaster.getEnvelope(); // the envelope from which we have data Geometry dataEnvGeom = workEnv.getIntersection(dataEnvelope); if (dataEnvGeom == null) { LOG.debug("no intersection for " + sourceRaster + " and " + dstEnvelope); // todo create subclass of TransformationException throw new TransformationException("no source data found"); } dataEnv = dataEnvGeom.getEnvelope(); } AbstractRaster source; try { source = sourceRaster.getSubRaster(dataEnv); } catch (IndexOutOfBoundsException ex) { throw new TransformationException("no source data found"); } // if ( LOG.isDebugEnabled() ) { // debugRasterFile( source ); // } return source; }
@Override public <T> boolean evaluate(T obj, XPathEvaluator<T> xpathEvaluator) throws FilterEvaluationException { Expression param1 = getParam1(); if (param1 != null) { for (TypedObjectNode paramValue : param1.evaluate(obj, xpathEvaluator)) { Geometry param1Value = checkGeometryOrNull(paramValue); if (param1Value != null) { Geometry transformedGeom = getCompatibleGeometry(param1Value, geometry); return transformedGeom.intersects(param1Value); } } } else if (obj instanceof Feature) { // handle the case where the property name is empty Feature f = (Feature) obj; for (Property prop : f.getProperties()) { if (prop.getValue() instanceof Geometry) { Geometry geom = (Geometry) prop.getValue(); Geometry transformedGeom = getCompatibleGeometry(geometry, geom); if (transformedGeom.intersects(geometry)) { return true; } } } if (f.getExtraProperties() != null) { for (Property prop : f.getExtraProperties().getProperties()) { if (prop.getValue() instanceof Geometry) { Geometry geom = (Geometry) prop.getValue(); Geometry transformedGeom = getCompatibleGeometry(geometry, geom); if (transformedGeom.intersects(geometry)) { return true; } } } } } else { LOG.warn("Evaluating Intersects on non-Feature object and property name not specified."); } return false; }
@Override public List<String> performInsert(FeatureCollection fc, IDGenMode mode) throws FeatureStoreException { LOG.debug("performInsert()"); Set<Geometry> geometries = new LinkedHashSet<Geometry>(); Set<Feature> features = new LinkedHashSet<Feature>(); Set<String> fids = new LinkedHashSet<String>(); Set<String> gids = new LinkedHashSet<String>(); for (Feature member : fc) { findFeaturesAndGeometries(member, geometries, features, fids, gids); } LOG.debug(features.size() + " features / " + geometries.size() + " geometries"); for (FeatureInspector inspector : inspectors) { for (Feature f : features) { // TODO cope with inspectors that return a different instance inspector.inspect(f); } } long begin = System.currentTimeMillis(); String fid = null; try { PreparedStatement blobInsertStmt = null; if (blobMapping != null) { switch (mode) { case GENERATE_NEW: { // TODO don't change incoming features / geometries for (Feature feature : features) { String newFid = "FEATURE_" + generateNewId(); String oldFid = feature.getId(); if (oldFid != null) { fids.remove(oldFid); } fids.add(newFid); feature.setId(newFid); } for (Geometry geometry : geometries) { String newGid = "GEOMETRY_" + generateNewId(); String oldGid = geometry.getId(); if (oldGid != null) { gids.remove(oldGid); } gids.add(newGid); geometry.setId(newGid); } break; } case REPLACE_DUPLICATE: { throw new FeatureStoreException("REPLACE_DUPLICATE is not available yet."); } case USE_EXISTING: { // TODO don't change incoming features / geometries for (Feature feature : features) { if (feature.getId() == null) { String newFid = "FEATURE_" + generateNewId(); feature.setId(newFid); fids.add(newFid); } } for (Geometry geometry : geometries) { if (geometry.getId() == null) { String newGid = "GEOMETRY_" + generateNewId(); geometry.setId(newGid); gids.add(newGid); } } break; } } StringBuilder sql = new StringBuilder("INSERT INTO "); sql.append(blobMapping.getTable()); sql.append(" ("); sql.append(blobMapping.getGMLIdColumn()); sql.append(","); sql.append(blobMapping.getTypeColumn()); sql.append(","); sql.append(blobMapping.getDataColumn()); sql.append(","); sql.append(blobMapping.getBBoxColumn()); sql.append(") VALUES(?,?,?,"); sql.append(blobGeomConverter.getSetSnippet(null)); sql.append(")"); LOG.debug("Inserting: {}", sql); blobInsertStmt = conn.prepareStatement(sql.toString()); for (Feature feature : features) { fid = feature.getId(); if (blobInsertStmt != null) { insertFeatureBlob(blobInsertStmt, feature); } FeatureTypeMapping ftMapping = fs.getMapping(feature.getName()); if (ftMapping != null) { throw new UnsupportedOperationException(); } ICRS storageSrs = blobMapping.getCRS(); bboxTracker.insert(feature, storageSrs); } if (blobInsertStmt != null) { blobInsertStmt.close(); } } else { // pure relational mode List<FeatureRow> idAssignments = new ArrayList<FeatureRow>(); InsertRowManager insertManager = new InsertRowManager(fs, conn, mode); for (Feature feature : features) { FeatureTypeMapping ftMapping = fs.getMapping(feature.getName()); if (ftMapping == null) { throw new FeatureStoreException( "Cannot insert feature of type '" + feature.getName() + "'. No mapping defined and BLOB mode is off."); } idAssignments.add(insertManager.insertFeature(feature, ftMapping)); Pair<TableName, GeometryMapping> mapping = ftMapping.getDefaultGeometryMapping(); if (mapping != null) { ICRS storageSrs = mapping.second.getCRS(); bboxTracker.insert(feature, storageSrs); } } if (insertManager.getDelayedRows() != 0) { String msg = "After insertion, " + insertManager.getDelayedRows() + " delayed rows left uninserted. Probably a cyclic key constraint blocks insertion."; throw new RuntimeException(msg); } // TODO why is this necessary? fids.clear(); for (FeatureRow assignment : idAssignments) { fids.add(assignment.getNewId()); } } } catch (Throwable t) { String msg = "Error inserting feature: " + t.getMessage(); LOG.error(msg); LOG.trace("Stack trace:", t); throw new FeatureStoreException(msg, t); } long elapsed = System.currentTimeMillis() - begin; LOG.debug("Insertion of " + features.size() + " features: " + elapsed + " [ms]"); return new ArrayList<String>(fids); }