move code in mki18n.py generated translation strings from custom files into separate function
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# This file is part of Beremiz, a Integrated Development Environment for
# programming IEC 61131-3 automates supporting plcopen standard and CanFestival.
#
# Copyright (C) 2007: Edouard TISSERANT and Laurent BESSARD
#
# See COPYING file for copyrights details.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
from os.path import join, split, realpath
sd = split(realpath(__file__))[0]
# Override gettext _ in this module
# since we just want string to be added to dictionnary
# but translation should happen here
_ = lambda x:x
LANGUAGES = ["IL","ST","FBD","LD","SFC"]
LOCATIONDATATYPES = {"X" : ["BOOL"],
"B" : ["SINT", "USINT", "BYTE", "STRING"],
"W" : ["INT", "UINT", "WORD", "WSTRING"],
"D" : ["DINT", "UDINT", "REAL", "DWORD"],
"L" : ["LINT", "ULINT", "LREAL", "LWORD"]}
#-------------------------------------------------------------------------------
# Function Block Types definitions
#-------------------------------------------------------------------------------
StdTC6Libs = [(_("Standard function blocks"), join(sd, "Standard_Function_Blocks.xml")),
(_("Additional function blocks"),join(sd, "Additional_Function_Blocks.xml"))]
StdFuncsCSV = join(sd,"iec_std.csv")
# FIXME : since std fb now loaded from TC6 file, is that still necessary ?
StdBlockComments = {
"SR": _("SR bistable\nThe SR bistable is a latch where the Set dominates."),
"RS": _("RS bistable\nThe RS bistable is a latch where the Reset dominates."),
"SEMA": _("Semaphore\nThe semaphore provides a mechanism to allow software elements mutually exclusive access to certain ressources."),
"R_TRIG": _("Rising edge detector\nThe output produces a single pulse when a rising edge is detected."),
"F_TRIG": _("Falling edge detector\nThe output produces a single pulse when a falling edge is detected."),
"CTU": _("Up-counter\nThe up-counter can be used to signal when a count has reached a maximum value."),
"CTD": _("Down-counter\nThe down-counter can be used to signal when a count has reached zero, on counting down from a preset value."),
"CTUD": _("Up-down counter\nThe up-down counter has two inputs CU and CD. It can be used to both count up on one input and down on the other."),
"TP": _("Pulse timer\nThe pulse timer can be used to generate output pulses of a given time duration."),
"TON": _("On-delay timer\nThe on-delay timer can be used to delay setting an output true, for fixed period after an input becomes true."),
"TOF": _("Off-delay timer\nThe off-delay timer can be used to delay setting an output false, for fixed period after input goes false."),
"RTC": _("Real time clock\nThe real time clock has many uses including time stamping, setting dates and times of day in batch reports, in alarm messages and so on."),
"INTEGRAL": _("Integral\nThe integral function block integrates the value of input XIN over time."),
"DERIVATIVE": _("Derivative\nThe derivative function block produces an output XOUT proportional to the rate of change of the input XIN."),
"PID": _("PID\nThe PID (proportional, Integral, Derivative) function block provides the classical three term controller for closed loop control."),
"RAMP": _("Ramp\nThe RAMP function block is modelled on example given in the standard."),
"HYSTERESIS": _("Hysteresis\nThe hysteresis function block provides a hysteresis boolean output driven by the difference of two floating point (REAL) inputs XIN1 and XIN2."),
}
for block_type in ["CTU", "CTD", "CTUD"]:
for return_type in ["DINT", "LINT", "UDINT", "ULINT"]:
StdBlockComments["%s_%s" % (block_type, return_type)] = StdBlockComments[block_type]
def GetBlockInfos(pou):
infos = pou.getblockInfos()
# FIXME : as well
infos["comment"] = StdBlockComments[infos["name"]]
infos["inputs"] = [
(var_name, var_type, "rising")
if var_name in ["CU", "CD"]
else (var_name, var_type, var_modifier)
for var_name, var_type, var_modifier in infos["inputs"]]
return infos
#-------------------------------------------------------------------------------
# Data Types definitions
#-------------------------------------------------------------------------------
"""
Ordored list of common data types defined in the IEC 61131-3
Each type is associated to his direct parent type. It defines then a hierarchy
between type that permits to make a comparison of two types
"""
TypeHierarchy_list = [
("ANY", None),
("ANY_DERIVED", "ANY"),
("ANY_ELEMENTARY", "ANY"),
("ANY_MAGNITUDE", "ANY_ELEMENTARY"),
("ANY_BIT", "ANY_ELEMENTARY"),
("ANY_NBIT", "ANY_BIT"),
("ANY_STRING", "ANY_ELEMENTARY"),
("ANY_DATE", "ANY_ELEMENTARY"),
("ANY_NUM", "ANY_MAGNITUDE"),
("ANY_REAL", "ANY_NUM"),
("ANY_INT", "ANY_NUM"),
("ANY_SINT", "ANY_INT"),
("ANY_UINT", "ANY_INT"),
("BOOL", "ANY_BIT"),
("SINT", "ANY_SINT"),
("INT", "ANY_SINT"),
("DINT", "ANY_SINT"),
("LINT", "ANY_SINT"),
("USINT", "ANY_UINT"),
("UINT", "ANY_UINT"),
("UDINT", "ANY_UINT"),
("ULINT", "ANY_UINT"),
("REAL", "ANY_REAL"),
("LREAL", "ANY_REAL"),
("TIME", "ANY_MAGNITUDE"),
("DATE", "ANY_DATE"),
("TOD", "ANY_DATE"),
("DT", "ANY_DATE"),
("STRING", "ANY_STRING"),
("BYTE", "ANY_NBIT"),
("WORD", "ANY_NBIT"),
("DWORD", "ANY_NBIT"),
("LWORD", "ANY_NBIT")
#("WSTRING", "ANY_STRING") # TODO
]
DefaultType = "DINT"
DataTypeRange_list = [
("SINT", (-2**7, 2**7 - 1)),
("INT", (-2**15, 2**15 - 1)),
("DINT", (-2**31, 2**31 - 1)),
("LINT", (-2**31, 2**31 - 1)),
("USINT", (0, 2**8 - 1)),
("UINT", (0, 2**16 - 1)),
("UDINT", (0, 2**31 - 1)),
("ULINT", (0, 2**31 - 1))
]
ANY_TO_ANY_FILTERS = {
"ANY_TO_ANY":[
# simple type conv are let as C cast
(("ANY_INT","ANY_BIT"),("ANY_NUM","ANY_BIT")),
(("ANY_REAL",),("ANY_REAL",)),
# REAL_TO_INT
(("ANY_REAL",),("ANY_SINT",)),
(("ANY_REAL",),("ANY_UINT",)),
(("ANY_REAL",),("ANY_BIT",)),
# TO_TIME
(("ANY_INT","ANY_BIT"),("ANY_DATE","TIME")),
(("ANY_REAL",),("ANY_DATE","TIME")),
(("ANY_STRING",), ("ANY_DATE","TIME")),
# FROM_TIME
(("ANY_DATE","TIME"), ("ANY_REAL",)),
(("ANY_DATE","TIME"), ("ANY_INT","ANY_NBIT")),
(("TIME",), ("ANY_STRING",)),
(("DATE",), ("ANY_STRING",)),
(("TOD",), ("ANY_STRING",)),
(("DT",), ("ANY_STRING",)),
# TO_STRING
(("BOOL",), ("ANY_STRING",)),
(("ANY_BIT",), ("ANY_STRING",)),
(("ANY_REAL",), ("ANY_STRING",)),
(("ANY_SINT",), ("ANY_STRING",)),
(("ANY_UINT",), ("ANY_STRING",)),
# FROM_STRING
(("ANY_STRING",), ("BOOL",)),
(("ANY_STRING",), ("ANY_BIT",)),
(("ANY_STRING",), ("ANY_SINT",)),
(("ANY_STRING",), ("ANY_UINT",)),
(("ANY_STRING",), ("ANY_REAL",))],
"BCD_TO_ANY":[
(("BYTE",),("USINT",)),
(("WORD",),("UINT",)),
(("DWORD",),("UDINT",)),
(("LWORD",),("ULINT",))],
"ANY_TO_BCD":[
(("USINT",),("BYTE",)),
(("UINT",),("WORD",)),
(("UDINT",),("DWORD",)),
(("ULINT",),("LWORD",))]
}
# remove gettext override
del _