@Override public int getGeometryID() { // TODO Auto-generated method stub return m_geoms.getGeometryID(); }
@Override public int getGeometryID() { return m_cur.getGeometryID(); } }
@Override public int getGeometryID() { return m_cur.getGeometryID(); } }
@Override public Geometry next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null) { m_index = m_inputGeometryCursor.getGeometryID(); return Clipper.clip(geometry, m_envelope, m_tolerance, 0.0); } return null; }
@Override public Geometry next() { if (!m_b_done) { Geometry geometry = m_inputGeometryCursor.next(); if (geometry != null) { m_index = m_inputGeometryCursor.getGeometryID(); return calculate_boundary(geometry, m_progress_tracker); } m_b_done = true; } return null; }
@Override public Geometry next() { Geometry geom; if ((geom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); return densifyByLength(geom); } return null; }
@Override public String next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null) { m_index = m_inputGeometryCursor.getGeometryID(); return exportToString(geometry, m_spatialReference, null); } return null; }
public Geometry next() { Geometry geom = m_inputGeoms.next(); if (geom != null) { m_index = m_inputGeoms.getGeometryID(); return Offset(geom); } return null; }
@Override public String next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null) { m_index = m_inputGeometryCursor.getGeometryID(); return exportToGeoJson(m_export_flags, geometry, m_spatialReference); } return null; }
@Override public Geometry next() { if (m_bEmpty) return null; Geometry geom; if ((geom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); return OperatorDifferenceLocal.difference(geom, m_geomSubtractor, m_Spatial_reference, m_progress_tracker); } return null; }
public Geometry next() { Geometry geom = m_inputGeoms.next(); if (geom != null) { m_index = m_inputGeoms.getGeometryID(); return Offset(geom); } return null; }
@Override public Geometry next() { if (!m_b_done) { Geometry geometry = m_inputGeometryCursor.next(); if (geometry != null) { m_index = m_inputGeometryCursor.getGeometryID(); return calculate_boundary(geometry, m_progress_tracker); } m_b_done = true; } return null; }
@Override public Geometry next() { if (m_bEmpty) return null; Geometry geom; if ((geom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); return OperatorDifferenceLocal.difference(geom, m_geomSubtractor, m_Spatial_reference, m_progress_tracker); } return null; }
@Override public Geometry next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null) { m_index = m_inputGeometryCursor.getGeometryID(); return Clipper.clip(geometry, m_envelope, m_tolerance, 0.0); } return null; }
@Override public String next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null) { m_index = m_inputGeometryCursor.getGeometryID(); return exportToString(geometry, m_spatialReference, null); } return null; }
@Override public Geometry next() { { Geometry geom; while ((geom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); if (m_dindex + 1 < m_distances.length) m_dindex++; return buffer(geom, m_distances[m_dindex]); } return null; } }
@Override public Geometry next() { if (m_bEmpty) return null; Geometry leftGeom; if ((leftGeom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); return OperatorSymmetricDifferenceLocal.symmetricDifference( leftGeom, m_rightGeom, m_spatial_reference, m_progress_tracker); } return null; }
@Override public Geometry next() { Geometry geom; if ((geom = m_inputGeoms.next()) != null) { m_index = m_inputGeoms.getGeometryID(); return densifyByLength(geom); } return null; }
@Override public Geometry next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null)// if (geometry = // m_inputGeometryCursor->Next()) { m_index = m_inputGeometryCursor.getGeometryID(); if ((m_progressTracker != null) && !(m_progressTracker.progress(-1, -1))) throw new RuntimeException("user_canceled"); return simplify(geometry); } return null; }
@Override public Geometry next() { Geometry geometry; if ((geometry = m_inputGeometryCursor.next()) != null)// if (geometry = // m_inputGeometryCursor->Next()) { m_index = m_inputGeometryCursor.getGeometryID(); if ((m_progressTracker != null) && !(m_progressTracker.progress(-1, -1))) throw new RuntimeException("user_canceled"); return simplify(geometry); } return null; }