/** * Converts to a {@link MultiLineString}. * * @return this. */ public MultiLineString toMultiLineString() { return new MultiLineString(positions()); }
/** * Converts to a {@link MultiLineString}. * * @return this. */ public MultiLineString toMultiLineString() { return new MultiLineString(positions()); }
/** * Creates a MultiLineString from the given LineStrings. * * @param lineStrings The Iterable of {@link LineString}. * @return MultiLineString. */ public static MultiLineString of(Iterable<LineString> lineStrings) { AreaPositions.Builder positionsBuilder = AreaPositions.builder(); for(LineString lineString : lineStrings) { positionsBuilder.addLinearPosition(lineString.positions()); } return new MultiLineString(positionsBuilder.build()); }
/** * Creates a MultiLineString from the given LineStrings. * * @param lineStrings The Iterable of {@link LineString}. * @return MultiLineString. */ public static MultiLineString of(Iterable<LineString> lineStrings) { AreaPositions.Builder positionsBuilder = AreaPositions.builder(); for(LineString lineString : lineStrings) { positionsBuilder.addLinearPosition(lineString.positions()); } return new MultiLineString(positionsBuilder.build()); }
private Geometry<?> buildGeometry(final Geometry.Type type, final Positions positions, final Geometry<?> geometries) { switch (type) { case GEOMETRY_COLLECTION: return geometries; case MULTI_POLYGON: return new MultiPolygon((MultiDimensionalPositions) positions); case POLYGON: return new Polygon((AreaPositions) positions); case MULTI_LINE_STRING: return new MultiLineString((AreaPositions) positions); case LINEAR_RING: case LINE_STRING: return ((LinearPositions) positions).isClosed() ? new LinearRing((LinearPositions) positions) : new LineString((LinearPositions) positions); case MULTI_POINT: if (positions instanceof SinglePosition) { return new MultiPoint(LinearPositions.builder().addSinglePosition((SinglePosition) positions).build()); } else { return new MultiPoint((LinearPositions) positions); } case POINT: return new Point(((SinglePosition) positions)); default: throw new IllegalArgumentException("Cannot build a geometry for type: " + type); } }
private Geometry<?> buildGeometry(final Geometry.Type type, final Positions positions, final Geometry<?> geometries) { switch (type) { case GEOMETRY_COLLECTION: return geometries; case MULTI_POLYGON: return new MultiPolygon((MultiDimensionalPositions) positions); case POLYGON: return new Polygon((AreaPositions) positions); case MULTI_LINE_STRING: return new MultiLineString((AreaPositions) positions); case LINEAR_RING: case LINE_STRING: return ((LinearPositions) positions).isClosed() ? new LinearRing((LinearPositions) positions) : new LineString((LinearPositions) positions); case MULTI_POINT: if (positions instanceof SinglePosition) { return new MultiPoint(LinearPositions.builder().addSinglePosition((SinglePosition) positions).build()); } else { return new MultiPoint((LinearPositions) positions); } case POINT: return new Point(((SinglePosition) positions)); default: throw new IllegalArgumentException("Cannot build a geometry for type: " + type); } }