mirror of
https://github.com/LonamiWebs/Telethon.git
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298 lines
10 KiB
Python
298 lines
10 KiB
Python
import re
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from zlib import crc32
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from ..utils import snake_to_camel_case
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CORE_TYPES = (
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0xbc799737, # boolFalse#bc799737 = Bool;
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0x997275b5, # boolTrue#997275b5 = Bool;
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0x3fedd339, # true#3fedd339 = True;
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0x1cb5c415, # vector#1cb5c415 {t:Type} # [ t ] = Vector t;
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)
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# https://github.com/telegramdesktop/tdesktop/blob/4bf66cb6e93f3965b40084771b595e93d0b11bcd/Telegram/SourceFiles/codegen/scheme/codegen_scheme.py#L57-L62
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WHITELISTED_MISMATCHING_IDS = {
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# 0 represents any layer
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0: {'ipPortSecret', 'accessPointRule', 'help.configSimple'},
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77: {'channel'},
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78: {'channel'},
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79: {'channel'},
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80: {'channel'},
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}
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class TLObject:
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def __init__(self, fullname, object_id, args, result, is_function, layer):
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"""
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Initializes a new TLObject, given its properties.
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:param fullname: The fullname of the TL object (namespace.name)
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The namespace can be omitted.
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:param object_id: The hexadecimal string representing the object ID
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:param args: The arguments, if any, of the TL object
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:param result: The result type of the TL object
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:param is_function: Is the object a function or a type?
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:param layer: The layer this TLObject belongs to.
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"""
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# The name can or not have a namespace
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self.fullname = fullname
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if '.' in fullname:
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self.namespace, self.name = fullname.split('.', maxsplit=1)
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else:
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self.namespace, self.name = None, fullname
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self.args = args
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self.result = result
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self.is_function = is_function
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self.bot_usable = None
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self.id = None
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if object_id is None:
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self.id = self.infer_id()
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else:
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self.id = int(object_id, base=16)
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whitelist = WHITELISTED_MISMATCHING_IDS[0] |\
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WHITELISTED_MISMATCHING_IDS.get(layer, set())
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if self.fullname not in whitelist:
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assert self.id == self.infer_id(),\
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'Invalid inferred ID for ' + repr(self)
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self.class_name = snake_to_camel_case(
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self.name, suffix='Request' if self.is_function else '')
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self.real_args = list(a for a in self.sorted_args() if not
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(a.flag_indicator or a.generic_definition))
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def sorted_args(self):
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"""Returns the arguments properly sorted and ready to plug-in
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into a Python's method header (i.e., flags and those which
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can be inferred will go last so they can default =None)
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"""
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return sorted(self.args,
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key=lambda x: x.is_flag or x.can_be_inferred)
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def __repr__(self, ignore_id=False):
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if self.id is None or ignore_id:
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hex_id = ''
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else:
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hex_id = '#{:08x}'.format(self.id)
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if self.args:
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args = ' ' + ' '.join([repr(arg) for arg in self.args])
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else:
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args = ''
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return '{}{}{} = {}'.format(self.fullname, hex_id, args, self.result)
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def infer_id(self):
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representation = self.__repr__(ignore_id=True)
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representation = representation\
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.replace(':bytes ', ':string ')\
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.replace('?bytes ', '?string ')\
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.replace('<', ' ').replace('>', '')\
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.replace('{', '').replace('}', '')
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representation = re.sub(
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r' \w+:flags\.\d+\?true',
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r'',
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representation
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)
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return crc32(representation.encode('ascii'))
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class TLArg:
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def __init__(self, name, arg_type, generic_definition):
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"""
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Initializes a new .tl argument
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:param name: The name of the .tl argument
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:param arg_type: The type of the .tl argument
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:param generic_definition: Is the argument a generic definition?
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(i.e. {X:Type})
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"""
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self.name = 'is_self' if name == 'self' else name
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# Default values
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self.is_vector = False
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self.is_flag = False
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self.skip_constructor_id = False
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self.flag_index = -1
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# Special case: some types can be inferred, which makes it
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# less annoying to type. Currently the only type that can
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# be inferred is if the name is 'random_id', to which a
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# random ID will be assigned if left as None (the default)
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self.can_be_inferred = name == 'random_id'
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# The type can be an indicator that other arguments will be flags
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if arg_type == '#':
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self.flag_indicator = True
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self.type = None
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self.is_generic = False
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else:
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self.flag_indicator = False
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self.is_generic = arg_type.startswith('!')
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# Strip the exclamation mark always to have only the name
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self.type = arg_type.lstrip('!')
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# The type may be a flag (flags.IDX?REAL_TYPE)
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# Note that 'flags' is NOT the flags name; this
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# is determined by a previous argument
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# However, we assume that the argument will always be called 'flags'
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flag_match = re.match(r'flags.(\d+)\?([\w<>.]+)', self.type)
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if flag_match:
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self.is_flag = True
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self.flag_index = int(flag_match.group(1))
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# Update the type to match the exact type, not the "flagged" one
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self.type = flag_match.group(2)
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# Then check if the type is a Vector<REAL_TYPE>
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vector_match = re.match(r'[Vv]ector<([\w\d.]+)>', self.type)
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if vector_match:
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self.is_vector = True
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# If the type's first letter is not uppercase, then
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# it is a constructor and we use (read/write) its ID
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# as pinpointed on issue #81.
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self.use_vector_id = self.type[0] == 'V'
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# Update the type to match the one inside the vector
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self.type = vector_match.group(1)
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# See use_vector_id. An example of such case is ipPort in
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# help.configSpecial
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if self.type.split('.')[-1][0].islower():
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self.skip_constructor_id = True
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# The name may contain "date" in it, if this is the case and the type is "int",
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# we can safely assume that this should be treated as a "date" object.
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# Note that this is not a valid Telegram object, but it's easier to work with
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if self.type == 'int' and (
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re.search(r'(\b|_)date\b', name) or
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name in ('expires', 'expires_at', 'was_online')):
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self.type = 'date'
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self.generic_definition = generic_definition
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def type_hint(self):
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type = self.type
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if '.' in type:
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type = type.split('.')[1]
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result = {
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'int': 'int',
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'long': 'int',
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'int128': 'int',
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'int256': 'int',
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'string': 'str',
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'date': 'Optional[datetime]', # None date = 0 timestamp
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'bytes': 'bytes',
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'true': 'bool',
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}.get(type, "Type{}".format(type))
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if self.is_vector:
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result = 'List[{}]'.format(result)
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if self.is_flag and type != 'date':
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result = 'Optional[{}]'.format(result)
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return result
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def __str__(self):
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# Find the real type representation by updating it as required
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real_type = self.type
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if self.flag_indicator:
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real_type = '#'
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if self.is_vector:
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if self.use_vector_id:
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real_type = 'Vector<{}>'.format(real_type)
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else:
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real_type = 'vector<{}>'.format(real_type)
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if self.is_generic:
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real_type = '!{}'.format(real_type)
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if self.is_flag:
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real_type = 'flags.{}?{}'.format(self.flag_index, real_type)
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if self.generic_definition:
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return '{{{}:{}}}'.format(self.name, real_type)
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else:
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return '{}:{}'.format(self.name, real_type)
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def __repr__(self):
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return str(self).replace(':date', ':int').replace('?date', '?int')
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def _from_line(line, is_function, layer):
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match = re.match(
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r'^([\w.]+)' # 'name'
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r'(?:#([0-9a-fA-F]+))?' # '#optionalcode'
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r'(?:\s{?\w+:[\w\d<>#.?!]+}?)*' # '{args:.0?type}'
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r'\s=\s' # ' = '
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r'([\w\d<>#.?]+);$', # '<result.type>;'
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line
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)
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if match is None:
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# Probably "vector#1cb5c415 {t:Type} # [ t ] = Vector t;"
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raise ValueError('Cannot parse TLObject {}'.format(line))
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args_match = re.findall(
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r'({)?'
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r'(\w+)'
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r':'
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r'([\w\d<>#.?!]+)'
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r'}?',
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line
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)
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return TLObject(
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fullname=match.group(1),
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object_id=match.group(2),
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result=match.group(3),
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is_function=is_function,
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layer=layer,
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args=[TLArg(name, arg_type, brace != '')
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for brace, name, arg_type in args_match]
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)
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def parse_tl(file_path, layer, ignore_core=False, invalid_bot_methods=None):
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"""This method yields TLObjects from a given .tl file."""
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if invalid_bot_methods is None:
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invalid_bot_methods = set()
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with open(file_path, encoding='utf-8') as file:
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is_function = False
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for line in file:
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comment_index = line.find('//')
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if comment_index != -1:
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line = line[:comment_index]
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line = line.strip()
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if not line:
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continue
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match = re.match('---(\w+)---', line)
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if match:
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following_types = match.group(1)
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is_function = following_types == 'functions'
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continue
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try:
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result = _from_line(line, is_function, layer=layer)
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if not ignore_core or result.id not in CORE_TYPES:
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result.bot_usable =\
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result.fullname not in invalid_bot_methods
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yield result
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except ValueError as e:
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if 'vector#1cb5c415' not in str(e):
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raise
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def find_layer(file_path):
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"""Finds the layer used on the specified scheme.tl file."""
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layer_regex = re.compile(r'^//\s*LAYER\s*(\d+)$')
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with open(file_path, encoding='utf-8') as file:
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for line in file:
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match = layer_regex.match(line)
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if match:
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return int(match.group(1))
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