Ejemplo n.º 1
0
 def parse(self, value):
     try:
         value = int(value)
         if value not in (0, 1):
             raise ParserError("Expected a 0 or 1.")
         return value
     except:
         raise ParserError("Expected a 0 or 1.")
Ejemplo n.º 2
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	def parse(self,value):
		try:
			value = bool(value)
			if value not in (True,False):
				raise ParserError("Expected False or True.")
			return value
		except:
			raise ParserError("Expected False or True.")
Ejemplo n.º 3
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 def parse(self, value):
     try:
         # Allow clients to be compatible with old FIFE versions
         if value in ["0", "False", "false"]:
             value = False
         elif value in ["1", "True", "true"]:
             value = True
         if value not in (True, False):
             raise ParserError(str(self.name) + " expected False or True.")
         return value
     except:
         raise ParserError(str(self.name) + " expected False or True.")
Ejemplo n.º 4
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	def parse(self,value):
		a = 255
		try:
			try:
				r,g,b,a = tuple(map(int,str(value).split(',')))
				for c in (r,g,b,a):
					if not 0 <= c < 256: raise ParserError("Expected a color (Failed: 0 <= %d <= 255)" %c)
			except:
				r,g,b = tuple(map(int,str(value).split(',')))
				for c in (r,g,b):
					if not 0 <= c < 256: raise ParserError("Expected a color (Failed: 0 <= %d <= 255)" %c)
		except:
			raise ParserError("Expected a color.")

		return r,g,b,a
Ejemplo n.º 5
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 def __init__(self, text: str = ""):
     self.scanner: Scanner = Scanner(text)
     stringsAndTokens = self.scanner.get_strings_and_tokens_list()
     try:
         self.parser: Parser = Parser(stringsAndTokens)
     except:
         raise ParserError()
Ejemplo n.º 6
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 def set_text(self, text: str) -> None:
     self.scanner.set_text(text)
     stringsAndTokens = self.scanner.get_strings_and_tokens_list()
     try:
         self.parser: Parser = Parser(stringsAndTokens)
     except:
         raise ParserError()
Ejemplo n.º 7
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 def parse(self, value):
     try:
         result = map(unicode, str(value).split(','))
         return result
     except:
         raise ParserError(
             str(self.name) + " expected a list with unicode strings.")
Ejemplo n.º 8
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 def parse(self, value):
     try:
         x, y = tuple(map(int, str(value).split(',')))
         return x, y
     except:
         raise ParserError(
             "Expected a comma separated list of two integers.")
Ejemplo n.º 9
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    def parse(self, value):
        try:
            result = []
            # we use ';' to split, because of point and color attributes
            # example: "Int:5; Color:255,0,255"
            tmp_result = map(str, str(value).split(';'))
            for r in tmp_result:
                type = str(r).split(':')[0].strip()
                val = str(r).split(':')[1].strip()

                m = ATTRIBUTE_TYPE.get(type)
                if m is None:
                    raise ParserError("Unknown attribute type " + type + ".")
                method = getattr(m(self), 'parse')
                result.append(method(val))
            return result
        except:
            raise ParserError(str(self.name) + " expected a mixed list.")
Ejemplo n.º 10
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 def parse(self, value):
     try:
         result = map(float, str(value).split(','))
         return result
     except:
         raise ParserError(str(self.name) + " expected a list with floats.")
Ejemplo n.º 11
0
 def parse(self, value):
     try:
         return float(value)
     except:
         raise ParserError(str(self.name) + " expected a float.")
Ejemplo n.º 12
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 def parse(self, value):
     try:
         return int(value)
     except:
         raise ParserError(str(self.name) + " expected a single integer.")
Ejemplo n.º 13
0
 def parse(self, value):
     try:
         return float(value)
     except:
         raise ParserError("Expected a float.")
Ejemplo n.º 14
0
 def error(self, message):
     print(message, '\n')
     self.print_help()
     raise ParserError(message)
Ejemplo n.º 15
0
def build_tree(tokens):
    """Create a parse tree from token list.

    :param tokens: List of tokens.
    :type tokens: list
    :return: Parse tree root node.
    """

    node = Node()
    i = 0

    while i < len(tokens):
        token = tokens[i]

        # First token on the list or a comma separator
        if i == 0 or token.type is Separator.COMMA:
            node.parts.append(SelectNode())

        # FROM
        elif token.type is Command.FROM:
            pyser_assert(node.source is None,
                         ParserError('Multiple source at %s in %s' % (i, tokens)))

            next_token = tokens[i+1]
            pyser_assert(next_token.type is Bracket.LEFT,
                         ParserError.grammar(i, tokens))

            bracket_count = 1
            end = i+3

            while True:
                if 0 == bracket_count:
                    break

                pyser_assert(end != len(tokens),
                             ParserError.unbalanced(i+1, tokens))

                if tokens[end].type is Bracket.LEFT:
                    bracket_count += 1
                elif tokens[end].type is Bracket.RIGHT:
                    bracket_count -= 1
                end += 1
            end -= 1

            logger.debug('Recursion at %s-%s' % (i+1, end))

            node.source = build_tree(tokens[i+2:end])

            i = end

        # <RE>
        elif token.type is RegularExpression.RE:
            pyser_assert(node.parts[-1].filter_ is None,
                         ParserError.repeated('filter', i, tokens))

            node.parts[-1].filter_ = token.token[1:-1]

        # AS <ID>
        elif token.type is Command.AS:
            pyser_assert(node.parts[-1].identifier is None,
                         ParserError.repeated('identifier', i, tokens))

            i += 1
            next_token = tokens[i]

            pyser_assert(next_token.type is Identifier.ID,
                         ParserError.grammar(i, tokens))

            node.parts[-1].identifier = next_token

        # ORDER ASC, ORDER DESC, ORDER <RE>
        elif token.type in [Command.ORDER_ASC, Command.ORDER_DESC, Command.ORDER]:
            pyser_assert(not types_in([Command.ORDER, Command.ORDER_ASC, Command.ORDER_DESC], node.post_processors),
                         ParserError.repeated('order', i, tokens))

            node.post_processors.append(token)

            if token.type is Command.ORDER:
                i += 1
                next_token = tokens[i]

                pyser_assert(next_token.type is RegularExpression.RE,
                             ParserError.grammar(i, tokens))

                node.post_processors.append(next_token)

        # LIMIT <INT>
        elif token.type in [Command.LIMIT]:
            pyser_assert(not type_in(Command.LIMIT, node.post_processors),
                         ParserError.repeated('limit', i, tokens))

            node.post_processors.append(token)

            i += 1
            next_token = tokens[i]

            pyser_assert(next_token.type is Numeric.INT,
                         ParserError.grammar(i, tokens))

            node.post_processors.append(next_token)

        # GROUP BY <RE>
        elif token.type is Command.GROUP:
            #pyser_assert(not type_in(Command.GROUP, node.post_processors),
            #             ParserError.repeated('group', i, tokens))

            #node.post_processors.append(token)

            i += 1
            next_token = tokens[i]

            pyser_assert(next_token.type is RegularExpression.RE,
                         ParserError.grammar(i, tokens))

            #node.post_processors.append(next_token)
            node.group = next_token

        # SUM, MIN, MAX, COUNT, FUNCTION()
        else:
            logger.debug('append %s -> %s' % (i, token))
            node.parts[-1].commands.append(token)

        i += 1

    logger.debug('parts: %s' % node.parts)

    return node
Ejemplo n.º 16
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 def error(cls, error_code: ErrorCode, token: Token) -> NoReturn:
     raise ParserError(
         error_code=error_code,
         token=token,
         message=f"{error_code.value} \n\t{token}",
     )