private static Coordinate[] extractCoordinates(List segs) { Coordinate[] pts = new Coordinate[segs.size() + 1]; LineSegment seg = null; for (int i = 0; i < segs.size(); i++) { seg = (LineSegment) segs.get(i); pts[i] = seg.p0; } // add last point pts[pts.length - 1] = seg.p1; return pts; }
/** * Computes the {@link Polygon} formed by this ring and any contained holes. * * @return the {@link Polygon} formed by this ring and its holes. */ public Polygon getPolygon() { LinearRing[] holeLR = null; if (holes != null) { holeLR = new LinearRing[holes.size()]; for (int i = 0; i < holes.size(); i++) { holeLR[i] = (LinearRing) holes.get(i); } } Polygon poly = factory.createPolygon(ring, holeLR); return poly; }
/** * return a single geometry collection <br> * result.GeometryN(i) = the i-th feature in the FeatureCollection<br> * All the geometry types will be the same type (ie. all polygons) - or they will be set to<br> * NULL geometries<br> * <br> * GeometryN(i) = {Multipoint,Multilinestring, or Multipolygon)<br> * * @param fc feature collection to make homogeneous */ public GeometryCollection makeSHAPEGeometryCollection(FeatureCollection fc) throws Exception { GeometryCollection result; Geometry[] allGeoms = new Geometry[fc.size()]; int geomtype = findBestGeometryType(fc); if (geomtype == 0) { throw new Exception( "Could not determine shapefile type - data is either all GeometryCollections or empty"); } List features = fc.getFeatures(); for (int t = 0; t < features.size(); t++) { Geometry geom; geom = ((Feature) features.get(t)).getGeometry(); switch (geomtype) { case 1: // point if ((geom instanceof Point)) { // good! Point[] p = new Point[1]; p[0] = (Point) geom; allGeoms[t] = new MultiPoint(p, new PrecisionModel(), 0); } else if (geom instanceof MultiPoint) { allGeoms[t] = geom; } else { allGeoms[t] = new MultiPoint(null, new PrecisionModel(), 0); } break; case 2: // line if ((geom instanceof LineString)) { LineString[] l = new LineString[1]; l[0] = (LineString) geom; allGeoms[t] = new MultiLineString(l, new PrecisionModel(), 0); } else if (geom instanceof MultiLineString) { allGeoms[t] = geom; } else { allGeoms[t] = new MultiLineString(null, new PrecisionModel(), 0); } break; case 3: // polygon if (geom instanceof Polygon) { // good! Polygon[] p = new Polygon[1]; p[0] = (Polygon) geom; allGeoms[t] = makeGoodSHAPEMultiPolygon(new MultiPolygon(p, new PrecisionModel(), 0)); } else if (geom instanceof MultiPolygon) { allGeoms[t] = makeGoodSHAPEMultiPolygon((MultiPolygon) geom); } else { allGeoms[t] = new MultiPolygon(null, new PrecisionModel(), 0); } break; } } result = new GeometryCollection(allGeoms, new PrecisionModel(), 0); return result; }
/** * Write a dbf file with the information from the featureCollection. * * @param featureCollection column data from collection * @param fname name of the dbf file to write to */ void writeDbf(FeatureCollection featureCollection, String fname) throws Exception { DbfFileWriter dbf; FeatureSchema fs; int t; int f; int u; int num; fs = featureCollection.getFeatureSchema(); // -1 because one of the columns is geometry DbfFieldDef[] fields = new DbfFieldDef[fs.getAttributeCount() - 1]; // dbf column type and size f = 0; for (t = 0; t < fs.getAttributeCount(); t++) { AttributeType columnType = fs.getAttributeType(t); String columnName = fs.getAttributeName(t); if (columnType == AttributeType.INTEGER) { fields[f] = new DbfFieldDef(columnName, 'N', 16, 0); f++; } else if (columnType == AttributeType.DOUBLE) { fields[f] = new DbfFieldDef(columnName, 'N', 33, 16); f++; } else if (columnType == AttributeType.STRING) { int maxlength = findMaxStringLength(featureCollection, t); if (maxlength > 255) { throw new Exception( "ShapefileWriter does not support strings longer than 255 characters"); } fields[f] = new DbfFieldDef(columnName, 'C', maxlength, 0); f++; } else if (columnType == AttributeType.DATE) { fields[f] = new DbfFieldDef(columnName, 'D', 8, 0); f++; } else if (columnType == AttributeType.GEOMETRY) { // do nothing - the .shp file handles this } else { throw new Exception("Shapewriter: unsupported AttributeType found in featurecollection."); } } // write header dbf = new DbfFileWriter(fname); dbf.writeHeader(fields, featureCollection.size()); // write rows num = featureCollection.size(); List features = featureCollection.getFeatures(); for (t = 0; t < num; t++) { // System.out.println("dbf: record "+t); Feature feature = (Feature) features.get(t); Vector DBFrow = new Vector(); // make data for each column in this feature (row) for (u = 0; u < fs.getAttributeCount(); u++) { AttributeType columnType = fs.getAttributeType(u); if (columnType == AttributeType.INTEGER) { Object a = feature.getAttribute(u); if (a == null) { DBFrow.add(new Integer(0)); } else { DBFrow.add((Integer) a); } } else if (columnType == AttributeType.DOUBLE) { Object a = feature.getAttribute(u); if (a == null) { DBFrow.add(new Double(0.0)); } else { DBFrow.add((Double) a); } } else if (columnType == AttributeType.DATE) { Object a = feature.getAttribute(u); if (a == null) { DBFrow.add(""); } else { DBFrow.add(DbfFile.DATE_PARSER.format((Date) a)); } } else if (columnType == AttributeType.STRING) { Object a = feature.getAttribute(u); if (a == null) { DBFrow.add(new String("")); } else { // MD 16 jan 03 - added some defensive programming if (a instanceof String) { DBFrow.add(a); } else { DBFrow.add(a.toString()); } } } } dbf.writeRecord(DBFrow); } dbf.close(); }