Exemplo n.º 1
0
def parse_then(string: str, location: int, tokens: ParseResults) -> Then:
    tokens = tokens[0]
    start = tokens.pop(0)
    locn = parser_location(start, tokens[-1], string)
    return Then(
        tokens[1] if tokens[1] != "null" else None,
        tokens[2][0]["first"]
        if tokens[2] and "first" in tokens[2][0] else UNDEFINED,
        tokens[2][0]["length"]
        if tokens[2] and "length" in tokens[2][0] else UNDEFINED,
        tokens[3][0] if tokens[3] else BooleanTrue(location=locn),
        locn,
    )
Exemplo n.º 2
0
 def parse_string(self, string: str) -> None:
     error = RecordFluxError()
     try:
         for specification in grammar.unit().parseString(string):
             self.__specifications.appendleft(specification)
             check_naming(error, specification.package)
     except (ParseException, ParseFatalException) as e:
         error.append(
             e.msg,
             Subsystem.PARSER,
             Severity.ERROR,
             parser_location(e.loc, e.loc, e.pstr),
         )
     error.propagate()
Exemplo n.º 3
0
    def __parse(self,
                specfile: Path,
                transitions: List[Tuple[ID, ID]] = None) -> None:
        error = RecordFluxError()
        log.info("Parsing %s", specfile)

        if not transitions:
            transitions = []

        with open(specfile, "r") as filehandle:
            push_source(specfile)
            try:
                for specification in grammar.unit().parseFile(filehandle):
                    check_naming(error, specification.package, specfile.name)
                    self.__specifications.appendleft(specification)
                    for item in specification.context.items:
                        transition = (specification.package.identifier, item)
                        if transition in transitions:
                            error.append(
                                f'dependency cycle when including "{transitions[0][1]}"',
                                Subsystem.PARSER,
                                Severity.ERROR,
                                transitions[0][1].location,
                            )
                            error.extend([(
                                f'when including "{i}"',
                                Subsystem.PARSER,
                                Severity.INFO,
                                i.location,
                            ) for _, i in transitions[1:]])
                            continue
                        transitions.append(transition)
                        self.__parse(
                            specfile.parent / f"{str(item).lower()}.rflx",
                            transitions)
            except (ParseException, ParseFatalException) as e:
                error.append(
                    e.msg,
                    Subsystem.PARSER,
                    Severity.ERROR,
                    parser_location(e.loc, e.loc, e.pstr, specfile),
                )
            finally:
                pop_source()

        error.propagate()
Exemplo n.º 4
0
def numeric_literal() -> Token:
    numeral = Combine(
        Word(nums) + ZeroOrMore(Optional(Word("_")) + Word(nums)))
    numeral.setParseAction(lambda t: t[0].replace("_", ""))

    decimal_literal = Group(numeral)
    decimal_literal.setParseAction(lambda t: (int(t[0][0]), 0))

    extended_digit = Word(nums + "ABCDEF")
    based_numeral = Combine(extended_digit +
                            ZeroOrMore(Optional("_") + extended_digit))
    based_numeral.setParseAction(lambda t: t[0].replace("_", ""))

    based_literal = numeral + Literal("#") - based_numeral - Literal("#")
    based_literal.setParseAction(lambda t: (int(t[2], int(t[0])), int(t[0])))

    num_literal = based_literal | decimal_literal
    num_literal.setName("Number")

    return locatedExpr(num_literal).setParseAction(lambda s, l, t: Number(
        t[0][1][0], t[0][1][1], parser_location(t[0][0], t[0][2], s)))
Exemplo n.º 5
0
def parse_type(string: str, location: int, tokens: ParseResults) -> Type:
    package = ID("__PACKAGE__")
    name = tokens[1]

    locn = parser_location(tokens[0], tokens[-1], string)

    identifier = package * name

    if tokens[3] == "mod":
        return ModularInteger(identifier, tokens[4], locn)
    if tokens[3] == "range":
        tokens[6] = tokens[6]["size"]
        return RangeInteger(identifier, tokens[4], tokens[5], tokens[6], locn)
    if tokens[3] == "message":
        return MessageSpec(identifier, tokens[4], locn)
    if tokens[3] == "null message":
        return MessageSpec(identifier, [], locn)
    if tokens[3] == "(":
        elements = tokens[4:-3]
        aspects = tokens[-2]
        if "always_valid" not in aspects:
            aspects["always_valid"] = False
        enumeration = Enumeration(identifier, elements, aspects["size"],
                                  aspects["always_valid"], locn)
        return enumeration
    if tokens[3] == "new":
        return DerivationSpec(identifier, tokens[4], locn)
    if tokens[3] == "array of":
        return ArraySpec(
            identifier,
            ReferenceSpec(qualified_type_name(tokens[4], package),
                          tokens[4].location),
            locn,
        )

    raise ParseFatalException(string, location, "unexpected type")
Exemplo n.º 6
0
def parse_refinement(string: str, location: int,
                     tokens: ParseResults) -> RefinementSpec:
    constraint = tokens[4] if "constraint" in tokens else TRUE
    locn = parser_location(tokens[0], tokens[-1], string)
    return RefinementSpec(tokens[1], tokens[2], tokens[3], constraint, locn)
Exemplo n.º 7
0
def verify_identifier(string: str, location: int, tokens: ParseResults) -> ID:
    reserved_words = [
        "abort",
        "abs",
        "abstract",
        "accept",
        "access",
        "aliased",
        "all",
        "and",
        "array",
        "at",
        "begin",
        "body",
        "case",
        "constant",
        "declare",
        "delay",
        "delta",
        "digits",
        "do",
        "else",
        "elsif",
        "end",
        "entry",
        "exception",
        "exit",
        "for",
        "function",
        "generic",
        "goto",
        "if",
        "in",
        "interface",
        "is",
        "limited",
        "loop",
        "mod",
        "new",
        "not",
        "null",
        "of",
        "or",
        "others",
        "out",
        "overriding",
        "package",
        "pragma",
        "private",
        "procedure",
        "protected",
        "raise",
        "range",
        "record",
        "rem",
        "renames",
        "requeue",
        "return",
        "reverse",
        "select",
        "separate",
        "some",
        "subtype",
        "synchronized",
        "tagged",
        "task",
        "terminate",
        "then",
        "type",
        "until",
        "use",
        "when",
        "while",
        "with",
        "xor",
        "initial",
        "final",
    ]
    data = tokens[0].asDict()
    tokens = data["value"]
    locn = parser_location(data["locn_start"], data["locn_end"], string)

    if tokens[0].lower() in reserved_words:
        fail(
            f'reserved word "{tokens[0]}" used as identifier',
            Subsystem.PARSER,
            Severity.ERROR,
            locn,
        )

    return ID(tokens[0], locn)
Exemplo n.º 8
0
def parse_array_aggregate(string: str, location: int,
                          tokens: ParseResults) -> Expr:
    return Aggregate(*tokens[1:-1],
                     location=parser_location(tokens[0], tokens[-1], string))