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""" |
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parse xml file from opcua-spec |
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""" |
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import logging |
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import re |
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import sys |
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import xml.etree.ElementTree as ET |
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class NodeData(object): |
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def __init__(self): |
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self.nodetype = None |
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self.nodeid = None |
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self.browsename = None |
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self.displayname = None |
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self.symname = None # FIXME: this param is never used, why? |
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self.parent = None |
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self.parentlink = None |
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self.desc = "" |
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self.typedef = None |
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self.refs = [] |
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self.nodeclass = None |
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self.eventnotifier = 0 |
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# variable |
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self.datatype = None |
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self.rank = -1 # check default value |
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self.value = None |
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self.valuetype = None |
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self.dimensions = None |
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self.accesslevel = None |
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self.useraccesslevel = None |
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self.minsample = None |
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# referencetype |
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self.inversename = "" |
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self.abstract = "false" |
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self.symmetric = "false" |
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# datatype |
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self.definition = [] |
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class RefStruct(object): |
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def __init__(self): |
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self.reftype = None |
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self.forward = True |
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self.target = None |
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class XMLParser(object): |
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def __init__(self, xmlpath, server): |
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self.server = server # POC |
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self.logger = logging.getLogger(__name__) |
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self._retag = re.compile(r"(\{.*\})(.*)") |
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self.path = xmlpath |
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self.aliases = {} |
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self.tree = ET.parse(xmlpath) |
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self.root = self.tree.getroot() |
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self.it = None |
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self.namespaces = {} |
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self._re_nodeid = re.compile(r"^ns=(?P<ns>\d+[^;]*);i=(?P<i>\d+)") |
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def __iter__(self): |
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self.it = iter(self.root) |
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return self |
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def __next__(self): |
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while True: |
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if sys.version_info[0] < 3: |
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child = self.it.next() |
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else: |
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child = self.it.__next__() |
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name = self._retag.match(child.tag).groups()[1] |
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if name == "Aliases": |
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for el in child: |
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self.aliases[el.attrib["Alias"]] = el.text |
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elif name == 'NamespaceUris': |
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for ns_index, ns_element in enumerate(child): |
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ns_uri = ns_element.text |
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ns_server_index = self.server.register_namespace(ns_uri) |
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self.namespaces[ns_index + 1] = (ns_server_index, ns_uri) |
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else: |
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node = self._parse_node(name, child) |
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return node |
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def next(self): # support for python2 |
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return self.__next__() |
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def _get_node_id(self, value): |
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node_id = value |
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r_match = self._re_nodeid.search(value) |
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if r_match: |
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node_ns, node_id = r_match.groups() |
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ns_server = self.namespaces.get(int(node_ns), None) |
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if ns_server: |
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node_id = "ns={};i={}".format(ns_server[0], node_id) |
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return node_id |
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def _parse_node(self, name, child): |
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obj = NodeData() |
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obj.nodetype = name |
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for key, val in child.attrib.items(): |
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self._set_attr(key, val, obj) |
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obj.displayname = obj.browsename # give a default value to display name |
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for el in child: |
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self._parse_tag(el, obj) |
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return obj |
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def _set_attr(self, key, val, obj): |
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if key == "NodeId": |
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obj.nodeid = self._get_node_id(val) |
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elif key == "BrowseName": |
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obj.browsename = val |
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elif key == "SymbolicName": |
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obj.symname = val |
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elif key == "ParentNodeId": |
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obj.parent = self._get_node_id(val) |
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elif key == "DataType": |
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obj.datatype = val |
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elif key == "IsAbstract": |
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obj.abstract = val |
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elif key == "EventNotifier": |
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obj.eventnotifier = 1 if val == "1" else 0 |
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elif key == "ValueRank": |
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obj.rank = int(val) |
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elif key == "ArrayDimensions": |
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obj.dimensions = [int(i) for i in val.split(",")] |
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elif key == "MinimumSamplingInterval": |
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obj.minsample = int(val) |
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elif key == "AccessLevel": |
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obj.accesslevel = int(val) |
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elif key == "UserAccessLevel": |
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obj.useraccesslevel = int(val) |
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elif key == "Symmetric": |
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obj.symmetric = True if val == "true" else False |
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else: |
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self.logger.info("Attribute not implemented: %s:%s", key, val) |
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def _parse_tag(self, el, obj): |
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tag = self._retag.match(el.tag).groups()[1] |
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if tag == "DisplayName": |
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obj.displayname = el.text |
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elif tag == "Description": |
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obj.desc = el.text |
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elif tag == "References": |
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self._parse_refs(el, obj) |
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elif tag == "Value": |
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self._parse_value(el, obj) |
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elif tag == "InverseName": |
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obj.inversename = el.text |
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elif tag == "Definition": |
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for field in el: |
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obj.definition.append(field) |
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else: |
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self.logger.info("Not implemented tag: %s", el) |
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def _parse_value(self, el, obj): |
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for val in el: |
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ntag = self._retag.match(val.tag).groups()[1] |
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obj.valuetype = ntag |
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if ntag in ("Int8", "UInt8", "Int16", "UInt16", "Int32", "UInt32", "Int64", "UInt64"): |
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obj.value = int(val.text) |
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elif ntag in ("Float", "Double"): |
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obj.value = float(val.text) |
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elif ntag in ("Boolean"): |
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if val.text in ("True", "true", "1", "on", "On"): |
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obj.value = bool(1) |
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else: |
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obj.value = bool(0) |
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elif ntag in ("ByteString", "String"): |
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mytext = val.text |
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if mytext is None: # support importing null strings |
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mytext = "" |
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mytext = mytext.replace('\n', '').replace('\r', '') |
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# obj.value.append('b"{}"'.format(mytext)) |
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obj.value = mytext |
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elif ntag == "ListOfExtensionObject": |
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obj.value, obj.valuetype = self._parse_list_of_extension_object(el) |
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elif ntag == "ListOfLocalizedText": |
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obj.value = self._parse_list_of_localized_text(el) |
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else: |
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self.logger.info("Value type not implemented: %s", ntag) |
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def _get_text(self, el): |
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txt = "" |
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for text in el.itertext(): |
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txt += text |
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return txt |
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def _parse_list_of_localized_text(self, el): |
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value = [] |
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for localized_text_list in el: |
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for localized_text in localized_text_list: |
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ntag = self._retag.match(localized_text.tag).groups()[1] |
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for child in localized_text: |
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ntag = self._retag.match(child.tag).groups()[1] |
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if ntag == 'Text': |
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value.append(self._get_text(child)) |
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return value |
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def _parse_list_of_extension_object(self, el): |
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''' |
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Parse a uax:ListOfExtensionObject Value |
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Return an array with a value of each uax:ExtensionObject/*/* (each element is convert to a netry in a dict. |
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also the valuetype is returned. The valuetype is uax:ExtensionObject/*/tag() |
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''' |
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value = [] |
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valuetype = None |
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for extension_object_list in el: |
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for extension_object in extension_object_list: |
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extension_object.find('Body') |
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for extension_object_part in extension_object: |
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ntag = self._retag.match(extension_object_part.tag).groups()[1] |
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if ntag == 'Body': |
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data = {} |
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ntag = self._retag.match(extension_object_part.find('*').tag).groups()[1] |
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valuetype = ntag |
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for body_item in extension_object_part.findall('*/*'): |
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ntag = self._retag.match(body_item.tag).groups()[1] |
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child = body_item.find('*') |
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if child is not None: |
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data[ntag] = self._get_text(child) |
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else: |
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data[ntag] = self._get_text(body_item) |
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value.append(data) |
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return value, valuetype |
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def _parse_refs(self, el, obj): |
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for ref in el: |
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if ref.attrib["ReferenceType"] == "HasTypeDefinition": |
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obj.typedef = self._get_node_id(ref.text) |
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elif "IsForward" in ref.attrib and ref.attrib["IsForward"] == "false": |
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# if obj.parent: |
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# sys.stderr.write("Parent is already set with: "+ obj.parent + " " + ref.text + "\n") |
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obj.parent = self._get_node_id(ref.text) |
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obj.parentlink = ref.attrib["ReferenceType"] |
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else: |
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struct = RefStruct() |
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if "IsForward" in ref.attrib: |
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struct.forward = ref.attrib["IsForward"] |
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struct.target = self._get_node_id(ref.text) |
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struct.reftype = ref.attrib["ReferenceType"] |
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obj.refs.append(struct) |
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FreeOpcUa /
python-opcua
