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# -*- coding: utf-8 -*-
#
# AWL simulator - symbol table parser
#
# Copyright 2014-2020 Michael Buesch <m@bues.ch>
#
# 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 __future__ import division, absolute_import, print_function, unicode_literals
#from awlsim.common.cython_support cimport * #@cy
from awlsim.common.compat import *
from awlsim.common.datatypehelpers import * #+cimport
from awlsim.common.exceptions import *
from awlsim.common.cpuconfig import *
from awlsim.common.util import *
from awlsim.common.immutable import *
from awlsim.core.memory import * #+cimport
from awlsim.awlcompiler.optrans import *
import csv
import functools
__all__ = [
"Symbol",
"SymbolTable",
"SymTabParser",
"SymTabParser_ASC",
"SymTabParser_CSV",
]
class AwlsimSymTabCSVDialect(csv.Dialect):
delimiter = str(';')
quotechar = str('"')
doublequote = True
skipinitialspace = True
lineterminator = str('\r\n')
quoting = csv.QUOTE_MINIMAL
escapechar = None
csv.register_dialect("awlsim_symtab", AwlsimSymTabCSVDialect)
class Symbol(OptionalImmutable):
"""One symbol.
"""
def __init__(self, name="", operator=None, type=None, comment="",
mnemonics=S7CPUConfig.MNEMONICS_AUTO,
lineNr=None, symTab=None):
self.setSymTab(symTab)
self.setName(name) # The symbol name string
self.setOperator(operator) # The symbol address (AwlOperator)
self.setType(type) # The symbol type (AwlDataType)
self.setComment(comment) # The comment string
self.setMnemonics(mnemonics)
self.setLineNr(lineNr)
def isValid(self):
return self.name and self.operator and self.type
def validate(self):
name = self.name if self.name else "<no name>"
if not self.isValid():
raise AwlSimError("Symbol '%s' is incomplete. "
"Cannot generate symbol information." % name)
def setSymTab(self, symTab):
self.symTab = symTab
def getSymTab(self):
return self.symTab
def setName(self, newName):
if newName is not None and len(newName) > 24:
raise AwlSimError("Symbol table parser: Symbol name '%s' is "
"too long. Maximum is 24 characters." % newName)
self.name = newName
def getName(self):
return self.name
def setOperator(self, newOperator):
self.operator = newOperator
def setOperatorString(self, newOperatorString):
if not newOperatorString.strip():
self.setOperator(None)
return
for m in (S7CPUConfig.MNEMONICS_EN, S7CPUConfig.MNEMONICS_DE):
if self.mnemonics != S7CPUConfig.MNEMONICS_AUTO and\
self.mnemonics != m:
continue
with contextlib.suppress(AwlSimError):
opTrans = AwlOpTranslator(mnemonics=m)
opDesc = opTrans.translateFromString(newOperatorString)
self.setOperator(opDesc.operator)
return
raise AwlSimError("Symbol table parser: Can't parse symbol "
"address '%s' in line %s" %\
(newOperatorString, self.getLineNrString()))
def getOperator(self):
return self.operator
def getOperatorString(self):
operator = self.getOperator()
if operator:
return str(operator)
return ""
def setType(self, newType):
self.type = newType
def setTypeString(self, newTypeString):
if not newTypeString:
self.setType(None)
return
try:
from awlsim.core.datatypes import AwlDataType
awlType = AwlDataType.makeByName(newTypeString.split())
except AwlSimError as e:
raise AwlSimError("Symbol table parser: Can't parse symbol "
"type '%s' in line %s" %\
(newTypeString, self.getLineNrString()))
self.setType(awlType)
def getType(self):
return self.type
def getTypeString(self):
type = self.getType()
if type:
return str(type)
return ""
def setComment(self, newComment):
if newComment is not None and len(newComment) > 80:
raise AwlSimError("Symbol table parser: Symbol comment string of symbol '%s' is "
"too long. Maximum is 80 characters." % self.name)
self.comment = newComment
def getComment(self):
return self.comment
def setMnemonics(self, newMnemonics):
self.mnemonics = newMnemonics
def setLineNr(self, newLineNr):
self.lineNr = newLineNr
def getLineNrString(self):
return self.lineNr if self.lineNr is not None else "<unknown>"
def nameIsEqual(self, otherName):
if self.name is None or otherName is None:
return False
return self.name.lower() == otherName.lower()
def __csvRecord(self, value):
value = str(value)
value = value.replace('"', '""')
if ';' in value or\
'"' in value or\
'\r' in value or\
'\n' in value:
value = '"' + value + '"'
return value
def toCSV(self):
# Returns compact CSV of this symbol.
self.validate()
try:
name = self.__csvRecord(self.name)
operator = self.__csvRecord(self.operator)
type = self.__csvRecord(self.type)
comment = self.__csvRecord(self.comment)
return ''.join((name, ';', operator, ';',
type, ';', comment, '\r\n'))
except UnicodeError as e:
raise AwlSimError("Unicode error while trying to generate "
"symbol CSV dump.")
def toReadableCSV(self):
# Returns human readable, but also machine processable
# CSV of this symbol.
self.validate()
try:
name = self.__csvRecord(self.name)
operator = self.__csvRecord(self.operator)
type = self.__csvRecord(self.type)
comment = self.__csvRecord(self.comment)
namePadding = " " * (24 - len(name)) + " "
operatorPadding = " " * (11 - len(operator)) + " "
if comment:
typePadding = " " * (9 - len(type)) + " "
else:
typePadding = ""
return ''.join((name, ';', namePadding,
operator, ';', operatorPadding,
type, ';', typePadding,
comment, '\r\n'))
except UnicodeError as e:
raise AwlSimError("Unicode error while trying to generate "
"symbol CSV dump.")
def toASC(self, stripWhitespace=False):
# Returns ASC format of this symbol.
self.validate()
try:
name = str(self.name)
operator = str(self.operator)
type = str(self.type)
comment = str(self.comment)
name += " " * (24 - len(name))
operator += " " * (11 - len(operator))
type += " " * (9 - len(type))
comment += " " * (80 - len(comment))
line = ''.join(('126,', name, operator,
' ', type, ' ', comment))
if stripWhitespace:
# Strip the right hand white space.
# This does not produce compliant ASC format.
# But the Awlsim parser supports this as
# an editing convenience.
# See SymTabParser_ASC.
# This is an Awlsim extension.
line = line.rstrip()
minLen = SymTabParser_ASC.LEN_LEN +\
SymTabParser_ASC.LEN_NAME +\
SymTabParser_ASC.LEN_ADDR + 1
if len(line) < minLen:
line += " " * (minLen - len(line))
line += '\r\n'
except UnicodeError as e:
raise AwlSimError("Unicode error while trying to generate "
"symbol ASC dump.")
return line
def __repr__(self):
return self.toReadableCSV()
class SymbolTable(OptionalImmutable):
"""Parsed symbol table.
"""
def __init__(self):
self.clear()
def setImmutable(self):
for symbol in self.__symbolsList:
symbol.setImmutable()
OptionalImmutable.setImmutable(self)
def clear(self):
self.__symbolsList = []
def toCSV(self):
return "".join(s.toCSV()\
for s in self.__symbolsList)
def toReadableCSV(self):
return "".join(s.toReadableCSV()\
for s in self.__symbolsList)
def toASC(self, stripWhitespace=False):
return "".join(s.toASC(stripWhitespace=stripWhitespace)\
for s in self.__symbolsList)
def toSource(self, source):
"""Convert the symbol table to bytes for use in the SymTabSource().
The source bytes will be written into source.sourceBytes.
Raises AwlSimError if something goes wrong.
"""
try:
stripWs = not source.isFileBacked()
dataString = self.toASC(stripWhitespace=stripWs)
data = dataString.encode(source.ENCODING)
source.sourceBytes = data
except UnicodeError as e:
raise AwlSimError("Failed to encode symbol "
"table characters.")
def __repr__(self):
return self.toReadableCSV()
def __len__(self):
return len(self.__symbolsList)
def __iter__(self):
for symbol in self.__symbolsList:
yield symbol
def __reversed__(self):
for symbol in reversed(self.__symbolsList):
yield symbol
def __getitem__(self, index):
return self.__symbolsList[index]
def __setitem__(self, index, symbol):
self.pop(index)
self.insert(index, symbol)
def __delitem__(self, index):
self.pop(index)
def __contains__(self, value):
if value is None:
return False
elif isString(value):
index, symbol = self.__findByName(value)
return symbol is not None
elif isinstance(value, Symbol):
name = value.getName()
if name is None:
return False
index, symbol = self.__findByName(name)
return symbol is not None
raise TypeError
def pop(self, index):
"""Get symbol by index and remove it from the table."""
symbol = self.__symbolsList.pop(index)
symbol.setSymTab(None)
return symbol
def insert(self, index, symbol):
"""Insert a symbol before index."""
if symbol in self:
raise AwlSimError("Multiple definitions of "
"symbol '%s'" % symbol.getName())
self.__symbolsList.insert(index, symbol)
symbol.setSymTab(self)
def add(self, symbol, overrideExisting = False):
if symbol in self:
if overrideExisting:
i = self.findIndexByName(symbol.getName())
assert(i is not None)
self[i] = symbol
else:
raise AwlSimError("Multiple definitions of "
"symbol '%s'" % symbol.getName())
self.__symbolsList.append(symbol)
symbol.setSymTab(self)
def __findByName(self, name):
name = name.lower()
for i, symbol in enumerate(self.__symbolsList):
if name == symbol.getName().lower():
return i, symbol
return None, None
def findByName(self, name):
index, symbol = self.__findByName(name)
return symbol
def findIndexByName(self, name):
index, symbol = self.__findByName(name)
return index
def getByDataType(self, dataType):
"""Get all symbols with the given AwlDataType.
Returns a generator.
"""
return (symbol for symbol in self.__symbolsList\
if symbol.getType() == dataType)
def merge(self, other, overrideExisting = False):
"""Merge 'other' into 'self'"""
for symbol in other.__symbolsList:
self.add(symbol, overrideExisting)
@functools.lru_cache(maxsize=128)
def _SymTabParser_parseTextCached(*args, **kwargs):
symTab = SymTabParser.parseText(*args, **kwargs)
# Do not allow changes to cached object.
symTab.setImmutable()
return symTab
class SymTabParser(object):
"""Abstract symbol table parser.
"""
implementations = []
@classmethod
def parseSource(cls, source,
autodetectFormat=True,
mnemonics=S7CPUConfig.MNEMONICS_AUTO):
"""Parse a symbol table source and
return the corresponding SymbolTable instance.
"""
return cls.parseText(source.sourceText, autodetectFormat, mnemonics)
@classmethod
def parseText(cls, sourceText,
autodetectFormat=True,
mnemonics=S7CPUConfig.MNEMONICS_AUTO):
"""Parse a symbol table source text and
return the corresponding SymbolTable instance.
"""
try:
if not sourceText.strip():
return SymbolTable()
if autodetectFormat:
for implCls in cls.implementations:
if implCls._probe(sourceText):
parserClass = implCls
break
else:
raise AwlSimError("Failed to find a suitable "\
"symbol table parser")
else:
parserClass = cls
if mnemonics == S7CPUConfig.MNEMONICS_AUTO:
instance = parserClass(S7CPUConfig.MNEMONICS_EN)
try:
symTab = instance._parse(sourceText)
except AwlSimError as e:
instance = parserClass(S7CPUConfig.MNEMONICS_DE)
symTab = instance._parse(sourceText)
else:
instance = parserClass(mnemonics)
symTab = instance._parse(sourceText)
return symTab
except UnicodeError as e:
raise AwlSimError("Encoding error while trying to decode "
"symbol table.")
@classmethod
def parseTextCached(cls, sourceText,
autodetectFormat=True,
mnemonics=S7CPUConfig.MNEMONICS_AUTO):
"""Parse a symbol table source text and
return the corresponding immutable (read-only) SymbolTable instance.
Add the SymbolTable instance to a cache.
"""
# Cython throws an exception, if @classmethod is combined with @lru_cache.
# Use pure function with @lru_cache decorator:
return _SymTabParser_parseTextCached(sourceText,
autodetectFormat,
mnemonics)
@classmethod
def _probe(cls, sourceText):
try:
if not sourceText.strip():
return False
p = cls(None)
p._parse(sourceText, probeOnly=True)
except AwlSimError as e:
return False
except UnicodeError as e:
return False
return True
def __init__(self, mnemonics):
self.mnemonics = mnemonics
def _parse(self, data, probeOnly=False):
raise NotImplementedError
def parseSym(self, symName, symAddr, symType, symComment,
lineNr):
symName = symName.strip()
symAddr = symAddr.strip().upper()
symType = symType.strip().upper()
symComment = symComment.strip()
if not symName:
raise AwlSimError("Symbol table parser: Unnamed symbol "
"in line %d" % lineNr)
if not symAddr:
raise AwlSimError("Symbol table parser: Symbol '%s' lacks "
"an address (line %d)" % (symName, lineNr))
if len(symAddr) > 11:
raise AwlSimError("Symbol table parser: Symbol address string of symbol '%s' is "
"too long. Maximum is 11 characters." % symName)
if len(symType) > 9:
raise AwlSimError("Symbol table parser: Symbol type string of symbol '%s' is "
"too long. Maximum is 9 characters." % symName)
if symAddr.startswith("VAT") and not symType:
symType = symAddr
if not symType:
raise AwlSimError("Symbol table parser: Symbol '%s' lacks "
"a type (line %d)" % (symName, lineNr))
sym = Symbol(name = symName,
comment = symComment,
mnemonics = self.mnemonics,
lineNr = lineNr)
sym.setOperatorString(symAddr)
sym.setTypeString(symType)
return sym
class SymTabParser_ASC(SymTabParser):
"""ASC symbol table file parser.
"""
# Character lengths of the fields.
# (The length field being restricted to 4 characters
# is an Awlsim restriction.)
LEN_LEN = 4
LEN_NAME = 24
LEN_ADDR = 12
LEN_TYPE = 10
LEN_COMMENT = 80
def _parse(self, data, probeOnly=False):
table = SymbolTable()
lines = data.splitlines()
for i, line in enumerate(lines):
lineNr = i + 1
if not line.strip():
continue
if not line.startswith("126,"):
# Technically it is allowed to have a different length
# prefix, but we do not support that.
# S7 and Awlsim do only generate entries with
# 126 characters, so we restrict the parser to that.
raise AwlSimError("ASC symbol table parser: "\
"Invalid line start (!= '126,') in "\
"line %d" % lineNr)
if len(line) >= self.LEN_LEN + self.LEN_NAME + self.LEN_ADDR + 1 and\
len(line) < 130:
# As a convenience we support entries with the trailing
# whitespace after the data type being stripped.
# (We assume a data type length of at least 1 character here)
# Just add some white space to fill the 130 characters.
# This is an Awlsim extension.
line += " " * (130 - len(line))
if len(line) != 130:
raise AwlSimError("ASC symbol table parser: "\
"Invalid line length (!= 130 chars) in "\
"line %d" % lineNr)
offs = self.LEN_LEN
symName = line[offs : offs + self.LEN_NAME]
offs += self.LEN_NAME
symAddr = line[offs : offs + self.LEN_ADDR]
offs += self.LEN_ADDR
symType = line[offs : offs + self.LEN_TYPE]
offs += self.LEN_TYPE
symComment = line[offs : ]
if not probeOnly:
table.add(self.parseSym(symName = symName,
symAddr = symAddr,
symType = symType,
symComment = symComment,
lineNr = lineNr))
return table
SymTabParser.implementations.append(SymTabParser_ASC)
class SymTabParser_CSV(SymTabParser):
"""CSV symbol table file parser.
"""
def _parse(self, data, probeOnly=False):
table = SymbolTable()
csvReader = csv.reader(data.splitlines(),
dialect="awlsim_symtab")
for i, row in enumerate(csvReader):
lineNr = i + 1
if len(row) == 0:
continue # Empty line
if len(row) != 4:
raise AwlSimError("Wrong record count in "
"line %d. Expected 4, but got %d records." %\
(lineNr, len(row)))
if not probeOnly:
table.add(self.parseSym(symName = row[0],
symAddr = row[1],
symType = row[2],
symComment = row[3],
lineNr = lineNr))
return table
SymTabParser.implementations.append(SymTabParser_CSV)
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