OPCUA: fix display names appearing with a "LocalizedText(" prefix when browsing localized server.
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# This file is part of Beremiz
#
# Copyright (C) 2011-2014: Laurent BESSARD, Edouard TISSERANT
# RTES Lab : CRKim, JBLee, youcu
# Higen Motor : Donggu Kang
#
# See COPYING file for copyrights details.
from __future__ import absolute_import
import os
import wx
from PLCControler import LOCATION_CONFNODE, LOCATION_VAR_INPUT
from MotionLibrary import AxisXSD
from etherlab.EthercatSlave import _EthercatSlaveCTN, _CommonSlave
from etherlab.ConfigEditor import CIA402NodeEditor
# Definition of node variables that have to be mapped in PDO
# [(name, index, subindex, type,
# direction for master ('I': input, 'Q': output)),...]
NODE_VARIABLES = [
("ControlWord", 0x6040, 0x00, "UINT", "Q"),
("TargetPosition", 0x607a, 0x00, "DINT", "Q"),
("TargetVelocity", 0x60ff, 0x00, "DINT", "Q"),
("TargetTorque", 0x6071, 0x00, "INT", "Q"),
("ModesOfOperation", 0x6060, 0x00, "SINT", "Q"),
("StatusWord", 0x6041, 0x00, "UINT", "I"),
("ModesOfOperationDisplay", 0x6061, 0x00, "SINT", "I"),
("ActualPosition", 0x6064, 0x00, "DINT", "I"),
("ActualVelocity", 0x606c, 0x00, "DINT", "I"),
("ActualTorque", 0x6077, 0x00, "INT", "I"),
]
# Definition of optional node variables that can be added to PDO mapping.
# A checkbox will be displayed for each section in node configuration panel to
# enable them
# [(section_name,
# [{'description', (name, index, subindex, type,
# direction for master ('I': input, 'Q': output)),
# 'retrieve', string_template_for_retrieve_variable (None: not retrieved,
# default string template if not defined),
# 'publish', string_template_for_publish_variable (None: not published,
# default string template if not defined),
# },...]
EXTRA_NODE_VARIABLES = [
("ErrorCode", [
{"description": ("ErrorCode", 0x603F, 0x00, "UINT", "I"),
"publish": None}
]),
("DigitalInputs", [
{"description": ("DigitalInputs", 0x60FD, 0x00, "UDINT", "I"),
"publish": None}
]),
("DigitalOutputs", [
{"description": ("DigitalOutputs", 0x60FE, 0x00, "UDINT", "Q"),
"retrieve": None}
]),
("TouchProbe", [
{"description": ("TouchProbeFunction", 0x60B8, 0x00, "UINT", "Q"),
"retrieve": None},
{"description": ("TouchProbeStatus", 0x60B9, 0x00, "UINT", "I"),
"publish": None},
{"description": ("TouchProbePos1PosValue", 0x60BA, 0x00, "DINT", "I"),
"publish": None},
{"description": ("TouchProbePos1NegValue", 0x60BB, 0x00, "DINT", "I"),
"publish": None},
]),
]
# List of parameters name in no configuration panel for optional variable
# sections
EXTRA_NODE_VARIABLES_DICT = {
"Enable" + name: params
for name, params in EXTRA_NODE_VARIABLES}
# List of block to define to interface MCL to fieldbus for specific functions
FIELDBUS_INTERFACE_GLOBAL_INSTANCES = [
{"blocktype": "GetTorqueLimit",
"inputs": [],
"outputs": [{"name": "TorqueLimitPos", "type": "UINT"},
{"name": "TorqueLimitNeg", "type": "UINT"}]},
{"blocktype": "SetTorqueLimit",
"inputs": [{"name": "TorqueLimitPos", "type": "UINT"},
{"name": "TorqueLimitNeg", "type": "UINT"}],
"outputs": []},
]
# --------------------------------------------------
# Ethercat CIA402 Node
# --------------------------------------------------
class _EthercatCIA402SlaveCTN(_EthercatSlaveCTN):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="CIA402SlaveParams">
<xsd:complexType>
%s
</xsd:complexType>
</xsd:element>
</xsd:schema>
""" % ("\n".join(["""\
<xsd:attribute name="Enable%s" type="xsd:boolean"
use="optional" default="false"/>""" % category
for category, variables in EXTRA_NODE_VARIABLES]) + AxisXSD)
NODE_PROFILE = 402
EditorType = CIA402NodeEditor
ConfNodeMethods = [
{
"bitmap": "CIA402AxisRef",
"name": _("Axis Ref"),
"tooltip": _("Initiate Drag'n drop of Axis ref located variable"),
"method": "_getCIA402AxisRef",
"push": True,
},
{
"bitmap": "CIA402NetPos",
"name": _("Axis Pos"),
"tooltip": _("Initiate Drag'n drop of Network position located variable"),
"method": "_getCIA402NetworkPosition",
"push": True,
},
]
# --------------------------------------------------
# class code
# --------------------------------------------------
def __init__(self):
_EthercatSlaveCTN.__init__(self)
# ----------- call ethercat mng. function --------------
self.CommonMethod = _CommonSlave(self)
def GetIconName(self):
return "CIA402Slave"
def SetParamsAttribute(self, path, value):
if path == "CIA402SlaveParams.Type":
path = "SlaveParams.Type"
elif path == "CIA402SlaveParams.Alias":
path = "SlaveParams.Alias"
return _EthercatSlaveCTN.SetParamsAttribute(self, path, value)
def GetVariableLocationTree(self):
axis_name = self.CTNName()
current_location = self.GetCurrentLocation()
children = [
{
"name": name_frmt % (axis_name),
"type": LOCATION_VAR_INPUT,
"size": "W",
"IEC_type": iec_type,
"var_name": var_name_frmt % axis_name,
"location": location_frmt % (".".join(map(str, current_location))),
"description": "",
"children": []
}
for name_frmt, iec_type, var_name_frmt, location_frmt in [
("%s Network Position", "UINT", "%s_pos", "%%IW%s"),
("%s Axis Ref", "AXIS_REF", "%s", "%%IW%s.402")
]
]
children.extend(self.CTNParent.GetDeviceLocationTree(self.GetSlavePos(),
current_location,
axis_name))
return {
"name": axis_name,
"type": LOCATION_CONFNODE,
"location": self.GetFullIEC_Channel(),
"children": children,
}
def CTNGlobalInstances(self):
current_location = self.GetCurrentLocation()
return [("%s_%s" % (block_infos["blocktype"],
"_".join(map(str, current_location))),
"EtherLab%s" % block_infos["blocktype"], "")
for block_infos in FIELDBUS_INTERFACE_GLOBAL_INSTANCES]
def StartDragNDrop(self, data):
data_obj = wx.TextDataObject(str(data))
dragSource = wx.DropSource(self.GetCTRoot().AppFrame)
dragSource.SetData(data_obj)
dragSource.DoDragDrop()
def _getCIA402NetworkPosition(self):
self.StartDragNDrop(
("%%IW%s" % ".".join(map(str, self.GetCurrentLocation())),
"location", "UINT", self.CTNName() + "_Pos", ""))
def _getCIA402AxisRef(self):
self.StartDragNDrop(
("%%IW%s.402" % ".".join(map(str, self.GetCurrentLocation())),
"location", "AXIS_REF", self.CTNName(), ""))
# add jblee
"""
def LoadPDOSelectData(self):
ReadData = []
files = os.listdir(self.CTNPath())
filepath = os.path.join(self.CTNPath(), "DataForPDO.txt")
if os.path.isfile(filepath):
PDODataRead = open(filepath, 'r')
ReadData = PDODataRead.readlines()
PDODataRead.close()
if len(ReadData) > 1:
for data in ReadData[0].split() :
if data == "RxPDO":
continue
self.SelectedRxPDOIndex.append(int(data, 0))
for data in ReadData[1].split() :
if data == "TxPDO":
continue
self.SelectedTxPDOIndex.append(int(data, 0))
"""
def LoadPDOSelectData(self):
RxPDOData = self.BaseParams.getRxPDO()
RxPDOs = []
if RxPDOData != "None":
RxPDOs = RxPDOData.split()
if RxPDOs :
for RxPDO in RxPDOs :
self.SelectedRxPDOIndex.append(int(RxPDO, 0))
TxPDOData = self.BaseParams.getTxPDO()
TxPDOs = []
if TxPDOData != "None":
TxPDOs = TxPDOData.split()
if TxPDOs :
for TxPDO in TxPDOs :
self.SelectedTxPDOIndex.append(int(TxPDO, 0))
def LoadDefaultPDOSet(self):
ReturnData = []
rx_pdo_entries = self.CommonMethod.GetRxPDOCategory()
if len(rx_pdo_entries):
for i in range(len(rx_pdo_entries)):
if rx_pdo_entries[i]['sm'] is not None:
ReturnData.append(rx_pdo_entries[i]['pdo_index'])
tx_pdo_entries = self.CommonMethod.GetTxPDOCategory()
if len(tx_pdo_entries):
for i in range(len(tx_pdo_entries)):
if tx_pdo_entries[i]['sm'] is not None:
ReturnData.append(tx_pdo_entries[i]['pdo_index'])
if ReturnData :
return ReturnData
else :
return [5632, 6656]
def CTNGenerate_C(self, buildpath, locations):
current_location = self.GetCurrentLocation()
location_str = "_".join(map(str, current_location))
# Open CIA402 node code template file
plc_cia402node_filepath = os.path.join(os.path.split(__file__)[0],
"plc_cia402node.c")
plc_cia402node_file = open(plc_cia402node_filepath, 'r')
plc_cia402node_code = plc_cia402node_file.read()
plc_cia402node_file.close()
# HSAHN 150726
# add "default_variables_retrieve": [], "default_variables_publish": [],
# As PDO mapping object, it will add auto-complete code.
# add "modeofop_homing_method", "modeofop_computation_mode" by jblee
str_completion = {
"slave_pos": self.GetSlavePos(),
"location": location_str,
"MCL_headers": Headers,
"extern_located_variables_declaration": [],
"fieldbus_interface_declaration": [],
"fieldbus_interface_definition": [],
"entry_variables": [],
"init_axis_params": [],
"init_entry_variables": [],
"default_variables_retrieve": [],
"default_variables_publish": [],
"extra_variables_retrieve": [],
"extra_variables_publish": [],
"modeofop_homing_method": [],
"modeofop_computation_mode": []
}
for blocktype_infos in FIELDBUS_INTERFACE_GLOBAL_INSTANCES:
texts = {
"blocktype": blocktype_infos["blocktype"],
"ucase_blocktype": blocktype_infos["blocktype"].upper(),
"location": "_".join(map(str, current_location))
}
texts["blockname"] = "%(ucase_blocktype)s_%(location)s" % texts
inputs = [{"input_name": "POS", "input_value": str(self.GetSlavePos())},
{"input_name": "EXECUTE", "input_value": "__GET_VAR(data__->EXECUTE)"}] +\
[{"input_name": input["name"].upper(),
"input_value": "__GET_VAR(data__->%s)" % input["name"].upper()}
for input in blocktype_infos["inputs"]]
input_texts = []
for input_infos in inputs:
input_infos.update(texts)
input_texts.append(BLOCK_INPUT_TEMPLATE % input_infos)
texts["extract_inputs"] = "\n".join(input_texts)
outputs = [{"output_name": output} for output in ["DONE", "BUSY", "ERROR"]] + \
[{"output_name": output["name"].upper()} for output in blocktype_infos["outputs"]]
output_texts = []
for output_infos in outputs:
output_infos.update(texts)
output_texts.append(BLOCK_OUTPUT_TEMPLATE % output_infos)
texts["return_outputs"] = "\n".join(output_texts)
str_completion["fieldbus_interface_declaration"].append(
BLOCK_FUNCTION_TEMPLATE % texts)
str_completion["fieldbus_interface_definition"].append(
BLOCK_FUNTION_DEFINITION_TEMPLATE % texts)
variables = NODE_VARIABLES[:]
#HSAHN
#2015. 7. 24 PDO Variable
#if PDO is not selected, use 1st PDO set
self.LoadPDOSelectData()
if not self.SelectedRxPDOIndex and not self.SelectedTxPDOIndex :
self.SelectedPDOIndex = self.LoadDefaultPDOSet()
else :
self.SelectedPDOIndex = self.SelectedRxPDOIndex + self.SelectedTxPDOIndex
add_idx = []
for i in range(len(ADD_NODE_VARIABLES)):
add_idx.append(ADD_NODE_VARIABLES[i]['index'])
self.CommonMethod.RequestPDOInfo()
pdo_info = self.CommonMethod.GetRxPDOCategory() + self.CommonMethod.GetTxPDOCategory()
pdo_entry = self.CommonMethod.GetRxPDOInfo() + self.CommonMethod.GetTxPDOInfo()
list_index = 0
ModeOfOpFlag = False
ModeOfOpDisplayFlag = False
for i in range(len(pdo_info)):
#if pdo_index is in the SelectedPDOIndex: put the PDO mapping information intto the "used" object
if pdo_info[i]['pdo_index'] in self.SelectedPDOIndex:
used = pdo_entry[list_index:list_index + pdo_info[i]['number_of_entry']]
for used_data in used:
# 24672 -> 0x6060, Mode of Operation
if used_data['entry_index'] == 24672:
ModeOfOpFlag = True
# 24673 -> 0x6061, Mode of Operation Display
elif used_data["entry_index"] == 24673:
ModeOfOpDisplayFlag = True
if used_data['entry_index'] in add_idx:
idx = add_idx.index(used_data['entry_index'])
adder = list([ADD_NODE_VARIABLES[idx]['name'], ADD_NODE_VARIABLES[idx]['index'], \
ADD_NODE_VARIABLES[idx]['sub-index'], ADD_NODE_VARIABLES[idx]['type'], \
ADD_NODE_VARIABLES[idx]['direction']])
variables.append(adder)
if ADD_NODE_VARIABLES[idx]['direction'] == "Q":
parsed_string = ADD_NODE_VARIABLES[idx]['name'].replace("Target", "")
# add jblee
check_q_data = " *(AxsPub.Target%s) = AxsPub.axis->Raw%sSetPoint;" %(parsed_string, parsed_string)
if check_q_data not in str_completion["default_variables_publish"]:
str_completion["default_variables_publish"].append(check_q_data)
elif ADD_NODE_VARIABLES[idx]['direction'] == "I":
parsed_string = ADD_NODE_VARIABLES[idx]['name'].replace("Actual", "")
# add jblee
check_i_data = " AxsPub.axis->ActualRaw%s = *(AxsPub.Actual%s);" %(parsed_string, parsed_string)
if check_i_data not in str_completion["default_variables_retrieve"]:
str_completion["default_variables_retrieve"].append(check_i_data)
list_index += pdo_info[i]['number_of_entry']
#HSAHN END
params = self.CTNParams[1].getElementInfos(self.CTNParams[0])
for param in params["children"]:
if param["name"] in EXTRA_NODE_VARIABLES_DICT:
if param["value"]:
extra_variables = EXTRA_NODE_VARIABLES_DICT.get(param["name"])
for variable_infos in extra_variables:
var_infos = {
"location": location_str,
"name": variable_infos["description"][0]
}
variables.append(variable_infos["description"])
retrieve_template = variable_infos.get("retrieve", DEFAULT_RETRIEVE)
publish_template = variable_infos.get("publish", DEFAULT_PUBLISH)
if retrieve_template is not None:
str_completion["extra_variables_retrieve"].append(
retrieve_template % var_infos)
if publish_template is not None:
str_completion["extra_variables_publish"].append(
publish_template % var_infos)
#elif param["value"] is not None:
if param["value"] is not None:
param_infos = {
"location": location_str,
"param_name": param["name"],
}
if param["type"] == "boolean":
param_infos["param_value"] = {True: "1", False: "0"}[param["value"]]
param_infos["param_name"] = param["name"].replace("Enable", "") + "Enabled"
if param["value"] == False:
continue
else:
param_infos["param_value"] = str(param["value"])
# param_name = param_name.replace("Enable", "") + "Enabled"
str_completion["init_axis_params"].append(
" __CIA402Node_%(location)s.axis->%(param_name)s = %(param_value)s;" % param_infos)
check_variable = []
for variable in variables:
# add jblee
if variable in check_variable:
continue
var_infos = dict(zip(["name", "index", "subindex", "var_type", "dir"], variable))
var_infos["location"] = location_str
var_infos["var_size"] = self.GetSizeOfType(var_infos["var_type"])
var_infos["var_name"] = "__%(dir)s%(var_size)s%(location)s_%(index)d_%(subindex)d" % var_infos
# add jblee
if var_infos["index"] in [24672] and ModeOfOpFlag:
str_completion["modeofop_homing_method"].append(MODEOFOP_HOMING_METHOD_TEMPLATE)
str_completion["modeofop_computation_mode"].append(MODEOFOP_COMPUTATION_MODE_TEMPLATE)
# add jblee
if var_infos["index"] in [24672, 24673] and (not ModeOfOpFlag or not ModeOfOpDisplayFlag):
continue
str_completion["extern_located_variables_declaration"].append(
"IEC_%(var_type)s *%(var_name)s;" % var_infos)
str_completion["entry_variables"].append(
" IEC_%(var_type)s *%(name)s;" % var_infos)
str_completion["init_entry_variables"].append(
" __CIA402Node_%(location)s.%(name)s = %(var_name)s;" % var_infos)
self.CTNParent.FileGenerator.DeclareVariable(
self.GetSlavePos(), var_infos["index"], var_infos["subindex"],
var_infos["var_type"], var_infos["dir"], var_infos["var_name"])
# add jblee
check_variable.append(variable)
for element in ["extern_located_variables_declaration",
"fieldbus_interface_declaration",
"fieldbus_interface_definition",
"entry_variables",
"init_axis_params",
"init_entry_variables",
"default_variables_retrieve",
"default_variables_publish",
"extra_variables_retrieve",
"extra_variables_publish",
"modeofop_homing_method",
"modeofop_computation_mode"]:
str_completion[element] = "\n".join(str_completion[element])
Gen_CIA402Nodefile_path = os.path.join(buildpath, "cia402node_%s.c"%location_str)
cia402nodefile = open(Gen_CIA402Nodefile_path, 'w')
cia402nodefile.write(plc_cia402node_code % str_completion)
cia402nodefile.close()
return [(Gen_CIA402Nodefile_path, '"-I%s"' % os.path.abspath(self.GetCTRoot().GetIECLibPath()))], "", True