def doEncode(cls, obj, el, ver, format, bounds, xmldecl, namespaces=True, nsmappings={}, out=None): cfg = cls.config(ver) if not bounds: cfg.getProperties().add(GML2.NO_FEATURE_BOUNDS) e = Encoder(cfg) if not xmldecl: e.setOmitXMLDeclaration(True) if format: e.setIndenting(True) if namespaces: for pre,uri in nsmappings.iteritems(): if uri: e.getNamespaces().declarePrefix(pre, uri) else: e.setNamespaceAware(False) if not isinstance(el, tuple): el = (cls.uri(ver), el) qname = QName(el[0], el[1]) if out: return doOutput(lambda output: e.encode(obj, qname, output), out) else: return e.encodeAsString(obj, qname)
def doEncode(cls, obj, el, ver, format, bounds, xmldecl, namespaces=True, nsmappings={}, out=None): cfg = cls.config(ver) if not bounds: cfg.getProperties().add(GML2.NO_FEATURE_BOUNDS) e = Encoder(cfg) if not xmldecl: e.setOmitXMLDeclaration(True) if format: e.setIndenting(True) if namespaces: for pre, uri in nsmappings.iteritems(): if uri: e.getNamespaces().declarePrefix(pre, uri) else: e.setNamespaceAware(False) if not isinstance(el, tuple): el = (cls.uri(ver), el) qname = QName(el[0], el[1]) if out: return doOutput(lambda output: e.encode(obj, qname, output), out) else: return e.encodeAsString(obj, qname)