HGKeeper

Proper fix for error 'object has no attribute 'getSlave' in EtherCAT extension

2018-08-24, Andrey Skvortsov

96ca6b056c55

Proper fix for error 'object has no attribute 'getSlave' in EtherCAT extension

traceback:
File "/home/developer/WorkData/PLC/beremiz/beremiz/IDEFrame.py", line 1433, in OnPouSelectedChanged
window.RefreshView()
File "/home/developer/WorkData/PLC/beremiz/beremiz/etherlab/ConfigEditor.py", line 837, in RefreshView
self.RefreshProcessVariables()
File "/home/developer/WorkData/PLC/beremiz/beremiz/etherlab/ConfigEditor.py", line 886, in RefreshProcessVariables
slaves = self.Controler.GetSlaves(**self.CurrentNodesFilter)
File "/home/developer/WorkData/PLC/beremiz/beremiz/etherlab/EthercatMaster.py", line 341, in GetSlaves
for slave in self.Config.getConfig().getSlave():
:_'lxml.etree._Element'_object_has_no_attribute_'getSlave'

Steps to reproduce problem:

- Add new EtherCAT master
- Add new EthercatNode to the master
- double click on

Revert commit "Dirty fix for error '_object_has_no_attribute_'getSlave' in EtherCAT extension"
[a3ac46366b86a0b237dac93be6b2281ac70b98a8].

The problem was that XML elements (proxy object) in some cases were created using custom XML
classes constructors and lxml.etree.Element() call and live python
patching. This causes that lxml backend doesn't know that custom python class
should be used for these XML elements.
Proxy object can be move/deleted and recreated by lxml
backend at any point in time or this can be done in python by copy/deepcopy operations.
If this happens, then newly created
proxy elements are using default class lxml.etree._Element. And all
custom functionality is lost.

All created XML elements should be always created through corresponding
parser and class lookup callback done by lxml backend.
It's described in more details in lxml documentation:
https://lxml.de/element_classes.html

#!/usr/bin/env python

# -*- coding: utf-8 -*-

# This file is part of Beremiz.

# See COPYING file for copyrights details.

from __future__ import absolute_import

from collections import OrderedDict, namedtuple

from plcopen.XSLTModelQuery import XSLTModelQuery, _StringValue, _BoolValue, _translate_args

# -------------------------------------------------------------------------------

# Helpers object for generating pou block instances list

# -------------------------------------------------------------------------------

_Point = namedtuple("Point", ["x", "y"])

_BlockInstanceInfos = namedtuple(

"BlockInstanceInfos",

["type", "id", "x", "y", "width", "height", "specific_values", "inputs", "outputs"])

_BlockSpecificValues = (

namedtuple("BlockSpecificValues",

["name", "execution_order"]),

[_StringValue, int])

_VariableSpecificValues = (

namedtuple("VariableSpecificValues",

["name", "value_type", "execution_order"]),

[_StringValue, _StringValue, int])

_ConnectionSpecificValues = (

namedtuple("ConnectionSpecificValues", ["name"]),

[_StringValue])

_PowerRailSpecificValues = (

namedtuple("PowerRailSpecificValues", ["connectors"]),

[int])

_LDElementSpecificValues = (

namedtuple("LDElementSpecificValues",

["name", "negated", "edge", "storage", "execution_order"]),

[_StringValue, _BoolValue, _StringValue, _StringValue, int])

_DivergenceSpecificValues = (

namedtuple("DivergenceSpecificValues", ["connectors"]),

[int])

_SpecificValuesTuples = {

"comment": (

namedtuple("CommentSpecificValues", ["content"]),

[_StringValue]),

"input": _VariableSpecificValues,

"output": _VariableSpecificValues,

"inout": _VariableSpecificValues,

"connector": _ConnectionSpecificValues,

"continuation": _ConnectionSpecificValues,

"leftPowerRail": _PowerRailSpecificValues,

"rightPowerRail": _PowerRailSpecificValues,

"contact": _LDElementSpecificValues,

"coil": _LDElementSpecificValues,

"step": (

namedtuple("StepSpecificValues", ["name", "initial", "action"]),

[_StringValue, _BoolValue, lambda x: x]),

"transition": (

namedtuple("TransitionSpecificValues",

["priority", "condition_type", "condition", "connection"]),

[int, _StringValue, _StringValue, lambda x: x]),

"selectionDivergence": _DivergenceSpecificValues,

"selectionConvergence": _DivergenceSpecificValues,

"simultaneousDivergence": _DivergenceSpecificValues,

"simultaneousConvergence": _DivergenceSpecificValues,

"jump": (

namedtuple("JumpSpecificValues", ["target"]),

[_StringValue]),

"actionBlock": (

namedtuple("ActionBlockSpecificValues", ["actions"]),

[lambda x: x]),

}

_InstanceConnectionInfos = namedtuple(

"InstanceConnectionInfos",

["name", "negated", "edge", "position", "links"])

_ConnectionLinkInfos = namedtuple(

"ConnectionLinkInfos",

["refLocalId", "formalParameter", "points"])

class _ActionInfos(object):

__slots__ = ["qualifier", "type", "value", "duration", "indicator"]

def __init__(self, *args):

for attr, value in zip(self.__slots__, args):

setattr(self, attr, value if value is not None else "")

def copy(self):

return _ActionInfos(*[getattr(self, attr) for attr in self.__slots__])

class BlockInstanceFactory(object):

def __init__(self, block_instances):

self.BlockInstances = block_instances

self.CurrentInstance = None

self.SpecificValues = None

self.CurrentConnection = None

self.CurrentLink = None

def SetSpecificValues(self, context, *args):

self.SpecificValues = list(args)

self.CurrentInstance = None

self.CurrentConnection = None

self.CurrentLink = None

def AddBlockInstance(self, context, *args):

specific_values_tuple, specific_values_translation = \

_SpecificValuesTuples.get(args[0][0], _BlockSpecificValues)

if args[0][0] == "step" and len(self.SpecificValues) < 3 or \

args[0][0] == "transition" and len(self.SpecificValues) < 4:

self.SpecificValues.append([None])

elif args[0][0] == "actionBlock" and len(self.SpecificValues) < 1:

self.SpecificValues.append([[]])

specific_values = specific_values_tuple(*_translate_args(

specific_values_translation, self.SpecificValues))

self.SpecificValues = None

self.CurrentInstance = _BlockInstanceInfos(

*(_translate_args([_StringValue, int] + [float] * 4, args) +

[specific_values, [], []]))

self.BlockInstances[self.CurrentInstance.id] = self.CurrentInstance

def AddInstanceConnection(self, context, *args):

connection_args = _translate_args(

[_StringValue] * 2 + [_BoolValue, _StringValue] + [float] * 2, args)

self.CurrentConnection = _InstanceConnectionInfos(

*(connection_args[1:4] + [

_Point(*connection_args[4:6]), []]))

if self.CurrentInstance is not None:

if connection_args[0] == "input":

self.CurrentInstance.inputs.append(self.CurrentConnection)

else:

self.CurrentInstance.outputs.append(self.CurrentConnection)

else:

self.SpecificValues.append([self.CurrentConnection])

def AddConnectionLink(self, context, *args):

self.CurrentLink = _ConnectionLinkInfos(

*(_translate_args([int, _StringValue], args) + [[]]))

self.CurrentConnection.links.append(self.CurrentLink)

def AddLinkPoint(self, context, *args):

self.CurrentLink.points.append(_Point(

*_translate_args([float] * 2, args)))

def AddAction(self, context, *args):

if len(self.SpecificValues) == 0:

self.SpecificValues.append([[]])

translated_args = _translate_args([_StringValue] * 5, args)

self.SpecificValues[0][0].append(_ActionInfos(*translated_args))

class BlockInstanceCollector(XSLTModelQuery):

""" object for collecting instances path list"""

def __init__(self, controller):

XSLTModelQuery.__init__(self,

controller,

"pou_block_instances.xslt",

[(name, self.FactoryCaller(name))

for name in ["AddBlockInstance",

"SetSpecificValues",

"AddInstanceConnection",

"AddConnectionLink",

"AddLinkPoint",

"AddAction"]])

def FactoryCaller(self, funcname):

def CallFactory(*args):

return getattr(self.factory, funcname)(*args)

return CallFactory

def Collect(self, root, debug):

element_instances = OrderedDict()

self.factory = BlockInstanceFactory(element_instances)

self._process_xslt(root, debug)

self.factory = None

return element_instances