Esempio n. 1
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def a2s_rules(server_addr, timeout=2, challenge=0, binary=False):
    """Get rules from server

    :param server_addr: (ip, port) for the server
    :type  server_addr: tuple
    :param timeout: (optional) timeout in seconds
    :type  timeout: float
    :param challenge: (optional) challenge number
    :type  challenge: int
    :param binary: (optional) return rules as raw bytes
    :type  binary: bool
    :raises: :class:`RuntimeError`, :class:`socket.timeout`
    :returns: a list of rules
    :rtype: :class:`dict`
    """
    ss = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    ss.connect(server_addr)
    ss.settimeout(timeout)

    # request challenge number
    if challenge in (-1, 0):
        ss.send(_pack('<lci', -1, b'V', challenge))
        try:
            _, header, challenge = _unpack_from('<lcl', ss.recv(512))
        except:
            ss.close()
            raise

        if header != b'A':
            raise RuntimeError("Unexpected challenge response")

    # request player info
    ss.send(_pack('<lci', -1, b'V', challenge))

    try:
        data = StructReader(_handle_a2s_response(ss))
    finally:
        ss.close()

    header, num_rules = data.unpack('<4xcH')

    if header != b'E':
        raise RuntimeError("Invalid response header - %s" % repr(header))

    rules = {}

    while len(rules) != num_rules:
        name = data.read_cstring(binary=binary)
        value = data.read_cstring(binary=binary)

        if not binary:
            if _re_match(r'^\-?[0-9]+$', value):
                value = int(value)
            elif _re_match(r'^\-?[0-9]+\.[0-9]+$', value):
                value = float(value)

        rules[name] = value

    return rules
Esempio n. 2
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def a2s_rules(server_addr, timeout=2, challenge=0):
    """Get rules from server

    :param server_addr: (ip, port) for the server
    :type  server_addr: tuple
    :param timeout: (optional) timeout in seconds
    :type  timeout: float
    :param challenge: (optional) challenge number
    :type  challenge: int
    :raises: :class:`RuntimeError`, :class:`socket.timeout`
    :returns: a list of players
    :rtype: :class:`list`
    """
    ss = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    ss.connect(server_addr)
    ss.settimeout(timeout)

    # request challenge number
    if challenge in (-1, 0):
        ss.send(_pack('<lci', -1, b'V', challenge))
        try:
            _, header, challenge = _unpack_from('<lcl', ss.recv(512))
        except:
            ss.close()
            raise

        if header != b'A':
            raise RuntimeError("Unexpected challenge response")

    # request player info
    ss.send(_pack('<lci', -1, b'V', challenge))

    try:
        data = StructReader(_handle_a2s_response(ss))
    finally:
        ss.close()

    header, num_rules = data.unpack('<4xcH')

    if header != b'E':
        raise RuntimeError("Invalid reponse header - %s" % repr(header))

    rules = {}

    while len(rules) != num_rules:
        name = data.read_cstring()
        value = data.read_cstring()

        if _re_match(r'^\-?[0-9]+$', value):
            value = int(value)
        elif _re_match(r'^\-?[0-9]+\.[0-9]+$', value):
            value = float(value)

        rules[name] = value

    return rules
Esempio n. 3
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def isprime_regex(n):
    """isprime_regex(n) -> True|False

    Astonishingly, you can test whether a number is prime using a regex.
    It goes without saying that this is not efficient, and should be treated
    as a novelty rather than a serious implementation. It is O(N^2) in time
    and O(N) in memory: in other words, slow and expensive.
    """
    _validate_int(n)
    return not _re_match(r'^1?$|^(11+?)\1+$', '1' * n)
Esempio n. 4
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def isprime_regex(n):
    """isprime_regex(n) -> True|False

    Astonishingly, you can test whether a number is prime using a regex.
    It goes without saying that this is not efficient, and should be treated
    as a novelty rather than a serious implementation. It is O(N^2) in time
    and O(N) in memory: in other words, slow and expensive.
    """
    _validate_int(n)
    return not _re_match(r'^1?$|^(11+?)\1+$', '1'*n)
Esempio n. 5
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    def isprime_regex(n):
        """Slow primality test using a regular expression.

        >>> Awful.isprime_regex(11)
        True
        >>> Awful.isprime_regex(15)
        False

        Unsurprisingly, this is not efficient, and should be treated as a
        novelty rather than a serious implementation. It is O(N^2) in time
        and O(N) in memory: in other words, slow and expensive.
        """
        _validate_int(n)
        return not _re_match(r'^1?$|^(11+?)\1+$', '1'*n)
Esempio n. 6
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def _is_aims_volume(obj):
    return _re_match(r".*soma.aims.Volume.*", str(type(obj))) or _re_match(
        r".*soma.aims.AimsData.*", str(type(obj)))
Esempio n. 7
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 def ensure_the_value_file_doesnt_look_scary():
     if _re_match(r'\S+\Z', value_path):
         return
     _whine_about_how_value_file_looks_scary(listener, value_path)
     raise stop()
Esempio n. 8
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def _parse_the_one_line(line, path, hence, listener):
    md = _re_match(r'editable_readme_path: (\S.+)$', line)
    if md:
        return md[1]
    _whine_about_how_line_doesnt_look_right(listener, line, path, hence)