import itertools import re import typing from .. import utils from ..tl import types if typing.TYPE_CHECKING: from .telegramclient import TelegramClient class MessageParseMethods: # region Public properties @property def parse_mode(self: 'TelegramClient'): """ This property is the default parse mode used when sending messages. Defaults to `telethon.extensions.markdown`. It will always be either `None` or an object with ``parse`` and ``unparse`` methods. When setting a different value it should be one of: * Object with ``parse`` and ``unparse`` methods. * A ``callable`` to act as the parse method. * A `str` indicating the ``parse_mode``. For Markdown ``'md'`` or ``'markdown'`` may be used. For HTML, ``'htm'`` or ``'html'`` may be used. The ``parse`` method should be a function accepting a single parameter, the text to parse, and returning a tuple consisting of ``(parsed message str, [MessageEntity instances])``. The ``unparse`` method should be the inverse of ``parse`` such that ``assert text == unparse(*parse(text))``. See :tl:`MessageEntity` for allowed message entities. Example .. code-block:: python # Disabling default formatting client.parse_mode = None # Enabling HTML as the default format client.parse_mode = 'html' """ return self._parse_mode @parse_mode.setter def parse_mode(self: 'TelegramClient', mode: str): self._parse_mode = utils.sanitize_parse_mode(mode) # endregion # region Private methods async def _replace_with_mention(self: 'TelegramClient', entities, i, user): """ Helper method to replace ``entities[i]`` to mention ``user``, or do nothing if it can't be found. """ try: entities[i] = types.InputMessageEntityMentionName( entities[i].offset, entities[i].length, await self.get_input_entity(user) ) return True except (ValueError, TypeError): return False async def _parse_message_text(self: 'TelegramClient', message, parse_mode): """ Returns a (parsed message, entities) tuple depending on ``parse_mode``. """ if parse_mode == (): parse_mode = self._parse_mode else: parse_mode = utils.sanitize_parse_mode(parse_mode) if not parse_mode: return message, [] message, msg_entities = parse_mode.parse(message) for i in reversed(range(len(msg_entities))): e = msg_entities[i] if isinstance(e, types.MessageEntityTextUrl): m = re.match(r'^@|\+|tg://user\?id=(\d+)', e.url) if m: user = int(m.group(1)) if m.group(1) else e.url is_mention = await self._replace_with_mention(msg_entities, i, user) if not is_mention: del msg_entities[i] elif isinstance(e, (types.MessageEntityMentionName, types.InputMessageEntityMentionName)): is_mention = await self._replace_with_mention(msg_entities, i, e.user_id) if not is_mention: del msg_entities[i] return message, msg_entities def _get_response_message(self: 'TelegramClient', request, result, input_chat): """ Extracts the response message known a request and Update result. The request may also be the ID of the message to match. If ``request is None`` this method returns ``{id: message}``. If ``request.random_id`` is a list, this method returns a list too. """ if isinstance(result, types.UpdateShort): updates = [result.update] entities = {} elif isinstance(result, (types.Updates, types.UpdatesCombined)): updates = result.updates entities = {utils.get_peer_id(x): x for x in itertools.chain(result.users, result.chats)} else: return None random_to_id = {} id_to_message = {} sched_to_message = {} # scheduled IDs may collide with normal IDs for update in updates: if isinstance(update, types.UpdateMessageID): random_to_id[update.random_id] = update.id elif isinstance(update, ( types.UpdateNewChannelMessage, types.UpdateNewMessage)): update.message._finish_init(self, entities, input_chat) id_to_message[update.message.id] = update.message elif (isinstance(update, types.UpdateEditMessage) and not isinstance(request.peer, types.InputPeerChannel)): if request.id == update.message.id: update.message._finish_init(self, entities, input_chat) return update.message elif (isinstance(update, types.UpdateEditChannelMessage) and utils.get_peer_id(request.peer) == utils.get_peer_id(update.message.to_id)): if request.id == update.message.id: update.message._finish_init(self, entities, input_chat) return update.message elif isinstance(update, types.UpdateNewScheduledMessage): update.message._finish_init(self, entities, input_chat) sched_to_message[update.message.id] = update.message if request is None: return id_to_message # Use the scheduled mapping if we got a request with a scheduled message # # This breaks if the schedule date is too young, however, since the message # is sent immediately, so have a fallback. if getattr(request, 'schedule_date', None) is None: mapping = id_to_message opposite = {} # if there's no schedule it can never be scheduled else: mapping = sched_to_message opposite = id_to_message # scheduled may be treated as normal, though random_id = request if isinstance(request, (int, list)) else request.random_id if not utils.is_list_like(random_id): msg = mapping.get(random_to_id.get(random_id)) if not msg: msg = opposite.get(random_to_id.get(random_id)) if not msg: self._log[__name__].warning( 'Request %s had missing message mapping %s', request, result) return msg try: return [mapping[random_to_id[rnd]] for rnd in random_id] except KeyError: try: return [opposite[random_to_id[rnd]] for rnd in random_id] except KeyError: # Sometimes forwards fail (`MESSAGE_ID_INVALID` if a message gets # deleted or `WORKER_BUSY_TOO_LONG_RETRY` if there are issues at # Telegram), in which case we get some "missing" message mappings. # Log them with the hope that we can better work around them. self._log[__name__].warning( 'Request %s had missing message mappings %s', request, result) return [ mapping.get(random_to_id.get(rnd)) or opposite.get(random_to_id.get(rnd)) for rnd in random_to_id ] # endregion