Telethon/telethon/client/messages.py

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import itertools
from .messageparse import MessageParseMethods
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from .uploads import UploadMethods
from .buttons import ButtonMethods
from .. import utils, errors
from ..tl import types, functions
from ..requestiter import RequestIter
_MAX_CHUNK_SIZE = 100
class _MessagesIter(RequestIter):
"""
Common factor for all requests that need to iterate over messages.
"""
async def _init(
self, entity, offset_id, min_id, max_id,
from_user, offset_date, add_offset, filter, search
):
# Note that entity being ``None`` will perform a global search.
if entity:
self.entity = await self.client.get_input_entity(entity)
else:
self.entity = None
if self.reverse:
raise ValueError('Cannot reverse global search')
# Telegram doesn't like min_id/max_id. If these IDs are low enough
# (starting from last_id - 100), the request will return nothing.
#
# We can emulate their behaviour locally by setting offset = max_id
# and simply stopping once we hit a message with ID <= min_id.
if self.reverse:
offset_id = max(offset_id, min_id)
if offset_id and max_id:
if max_id - offset_id <= 1:
raise StopAsyncIteration
if not max_id:
max_id = float('inf')
else:
offset_id = max(offset_id, max_id)
if offset_id and min_id:
if offset_id - min_id <= 1:
raise StopAsyncIteration
if self.reverse:
if offset_id:
offset_id += 1
else:
offset_id = 1
if from_user:
from_user = await self.client.get_input_entity(from_user)
if not isinstance(from_user, (
types.InputPeerUser, types.InputPeerSelf)):
from_user = None # Ignore from_user unless it's a user
if from_user:
self.from_id = await self.client.get_peer_id(from_user)
else:
self.from_id = None
if not self.entity:
self.request = functions.messages.SearchGlobalRequest(
q=search or '',
offset_date=offset_date,
offset_peer=types.InputPeerEmpty(),
offset_id=offset_id,
limit=1
)
elif search is not None or filter or from_user:
if filter is None:
filter = types.InputMessagesFilterEmpty()
# Telegram completely ignores `from_id` in private chats
if isinstance(
self.entity, (types.InputPeerUser, types.InputPeerSelf)):
# Don't bother sending `from_user` (it's ignored anyway),
# but keep `from_id` defined above to check it locally.
from_user = None
else:
# Do send `from_user` to do the filtering server-side,
# and set `from_id` to None to avoid checking it locally.
self.from_id = None
self.request = functions.messages.SearchRequest(
peer=self.entity,
q=search or '',
filter=filter() if isinstance(filter, type) else filter,
min_date=None,
max_date=offset_date,
offset_id=offset_id,
add_offset=add_offset,
limit=0, # Search actually returns 0 items if we ask it to
max_id=0,
min_id=0,
hash=0,
from_id=from_user
)
else:
self.request = functions.messages.GetHistoryRequest(
peer=self.entity,
limit=1,
offset_date=offset_date,
offset_id=offset_id,
min_id=0,
max_id=0,
add_offset=add_offset,
hash=0
)
if self.limit <= 0:
# No messages, but we still need to know the total message count
result = await self.client(self.request)
if isinstance(result, types.messages.MessagesNotModified):
self.total = result.count
else:
self.total = getattr(result, 'count', len(result.messages))
raise StopAsyncIteration
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if self.wait_time is None:
self.wait_time = 1 if self.limit > 3000 else 0
# When going in reverse we need an offset of `-limit`, but we
# also want to respect what the user passed, so add them together.
if self.reverse:
self.request.add_offset -= _MAX_CHUNK_SIZE
self.add_offset = add_offset
self.max_id = max_id
self.min_id = min_id
self.last_id = 0 if self.reverse else float('inf')
async def _load_next_chunk(self):
self.request.limit = min(self.left, _MAX_CHUNK_SIZE)
if self.reverse and self.request.limit != _MAX_CHUNK_SIZE:
# Remember that we need -limit when going in reverse
self.request.add_offset = self.add_offset - self.request.limit
r = await self.client(self.request)
self.total = getattr(r, 'count', len(r.messages))
entities = {utils.get_peer_id(x): x
for x in itertools.chain(r.users, r.chats)}
messages = reversed(r.messages) if self.reverse else r.messages
for message in messages:
if (isinstance(message, types.MessageEmpty)
or self.from_id and message.from_id != self.from_id):
continue
if not self._message_in_range(message):
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return True
# There has been reports that on bad connections this method
# was returning duplicated IDs sometimes. Using ``last_id``
# is an attempt to avoid these duplicates, since the message
# IDs are returned in descending order (or asc if reverse).
self.last_id = message.id
message._finish_init(self.client, entities, self.entity)
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self.buffer.append(message)
if len(r.messages) < self.request.limit:
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return True
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# Get the last message that's not empty (in some rare cases
# it can happen that the last message is :tl:`MessageEmpty`)
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if self.buffer:
self._update_offset(self.buffer[-1])
else:
# There are some cases where all the messages we get start
# being empty. This can happen on migrated mega-groups if
# the history was cleared, and we're using search. Telegram
# acts incredibly weird sometimes. Messages are returned but
# only "empty", not their contents. If this is the case we
# should just give up since there won't be any new Message.
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return True
def _message_in_range(self, message):
"""
Determine whether the given message is in the range or
it should be ignored (and avoid loading more chunks).
"""
# No entity means message IDs between chats may vary
if self.entity:
if self.reverse:
if message.id <= self.last_id or message.id >= self.max_id:
return False
else:
if message.id >= self.last_id or message.id <= self.min_id:
return False
return True
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def _update_offset(self, last_message):
"""
After making the request, update its offset with the last message.
"""
self.request.offset_id = last_message.id
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if self.reverse:
# We want to skip the one we already have
self.request.offset_id += 1
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if isinstance(self.request, functions.messages.SearchRequest):
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# Unlike getHistory and searchGlobal that use *offset* date,
# this is *max* date. This means that doing a search in reverse
# will break it. Since it's not really needed once we're going
# (only for the first request), it's safe to just clear it off.
self.request.max_date = None
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else:
# getHistory and searchGlobal call it offset_date
self.request.offset_date = last_message.date
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if isinstance(self.request, functions.messages.SearchGlobalRequest):
self.request.offset_peer = last_message.input_chat
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class _IDsIter(RequestIter):
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async def _init(self, entity, ids):
# TODO We never actually split IDs in chunks, but maybe we should
if not utils.is_list_like(ids):
self.ids = [ids]
elif not ids:
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raise StopAsyncIteration
elif self.reverse:
self.ids = list(reversed(ids))
else:
self.ids = ids
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if entity:
entity = await self.client.get_input_entity(entity)
self.total = len(ids)
from_id = None # By default, no need to validate from_id
if isinstance(entity, (types.InputChannel, types.InputPeerChannel)):
try:
r = await self.client(
functions.channels.GetMessagesRequest(entity, ids))
except errors.MessageIdsEmptyError:
# All IDs were invalid, use a dummy result
r = types.messages.MessagesNotModified(len(ids))
else:
r = await self.client(functions.messages.GetMessagesRequest(ids))
if entity:
from_id = await self.client.get_peer_id(entity)
if isinstance(r, types.messages.MessagesNotModified):
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self.buffer.extend(None for _ in ids)
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return
entities = {utils.get_peer_id(x): x
for x in itertools.chain(r.users, r.chats)}
# Telegram seems to return the messages in the order in which
# we asked them for, so we don't need to check it ourselves,
# unless some messages were invalid in which case Telegram
# may decide to not send them at all.
#
# The passed message IDs may not belong to the desired entity
# since the user can enter arbitrary numbers which can belong to
# arbitrary chats. Validate these unless ``from_id is None``.
for message in r.messages:
if isinstance(message, types.MessageEmpty) or (
from_id and message.chat_id != from_id):
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self.buffer.append(None)
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else:
message._finish_init(self.client, entities, entity)
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self.buffer.append(message)
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async def _load_next_chunk(self):
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return True # no next chunk, all done in init
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class MessageMethods(UploadMethods, ButtonMethods, MessageParseMethods):
# region Public methods
# region Message retrieval
def iter_messages(
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self, entity, limit=None, *, offset_date=None, offset_id=0,
max_id=0, min_id=0, add_offset=0, search=None, filter=None,
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from_user=None, wait_time=None, ids=None, reverse=False
):
"""
Iterator over the message history for the specified entity.
If either `search`, `filter` or `from_user` are provided,
:tl:`messages.Search` will be used instead of :tl:`messages.getHistory`.
Args:
entity (`entity`):
The entity from whom to retrieve the message history.
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It may be ``None`` to perform a global search, or
to get messages by their ID from no particular chat.
Note that some of the offsets will not work if this
is the case.
Note that if you want to perform a global search,
you **must** set a non-empty `search` string.
limit (`int` | `None`, optional):
Number of messages to be retrieved. Due to limitations with
the API retrieving more than 3000 messages will take longer
than half a minute (or even more based on previous calls).
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The limit may also be ``None``, which would eventually return
the whole history.
offset_date (`datetime`):
Offset date (messages *previous* to this date will be
retrieved). Exclusive.
offset_id (`int`):
Offset message ID (only messages *previous* to the given
ID will be retrieved). Exclusive.
max_id (`int`):
All the messages with a higher (newer) ID or equal to this will
be excluded.
min_id (`int`):
All the messages with a lower (older) ID or equal to this will
be excluded.
add_offset (`int`):
Additional message offset (all of the specified offsets +
this offset = older messages).
search (`str`):
The string to be used as a search query.
filter (:tl:`MessagesFilter` | `type`):
The filter to use when returning messages. For instance,
:tl:`InputMessagesFilterPhotos` would yield only messages
containing photos.
from_user (`entity`):
Only messages from this user will be returned.
This parameter will be ignored if it is not an user.
wait_time (`int`):
Wait time between different :tl:`GetHistoryRequest`. Use this
parameter to avoid hitting the ``FloodWaitError`` as needed.
If left to ``None``, it will default to 1 second only if
the limit is higher than 3000.
ids (`int`, `list`):
A single integer ID (or several IDs) for the message that
should be returned. This parameter takes precedence over
the rest (which will be ignored if this is set). This can
for instance be used to get the message with ID 123 from
a channel. Note that if the message doesn't exist, ``None``
will appear in its place, so that zipping the list of IDs
with the messages can match one-to-one.
.. note::
At the time of writing, Telegram will **not** return
:tl:`MessageEmpty` for :tl:`InputMessageReplyTo` IDs that
failed (i.e. the message is not replying to any, or is
replying to a deleted message). This means that it is
**not** possible to match messages one-by-one, so be
careful if you use non-integers in this parameter.
reverse (`bool`, optional):
If set to ``True``, the messages will be returned in reverse
order (from oldest to newest, instead of the default newest
to oldest). This also means that the meaning of `offset_id`
and `offset_date` parameters is reversed, although they will
still be exclusive. `min_id` becomes equivalent to `offset_id`
instead of being `max_id` as well since messages are returned
in ascending order.
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You cannot use this if both `entity` and `ids` are ``None``.
Yields:
Instances of `telethon.tl.custom.message.Message`.
Notes:
Telegram's flood wait limit for :tl:`GetHistoryRequest` seems to
be around 30 seconds per 10 requests, therefore a sleep of 1
second is the default for this limit (or above).
"""
if ids is not None:
return _IDsIter(self, limit, entity=entity, ids=ids)
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return _MessagesIter(
client=self,
reverse=reverse,
wait_time=wait_time,
limit=limit,
entity=entity,
offset_id=offset_id,
min_id=min_id,
max_id=max_id,
from_user=from_user,
offset_date=offset_date,
add_offset=add_offset,
filter=filter,
search=search
)
async def get_messages(self, *args, **kwargs):
"""
Same as `iter_messages`, but returns a
`TotalList <telethon.helpers.TotalList>` instead.
If the `limit` is not set, it will be 1 by default unless both
`min_id` **and** `max_id` are set (as *named* arguments), in
which case the entire range will be returned.
This is so because any integer limit would be rather arbitrary and
it's common to only want to fetch one message, but if a range is
specified it makes sense that it should return the entirety of it.
If `ids` is present in the *named* arguments and is not a list,
a single `Message <telethon.tl.custom.message.Message>` will be
returned for convenience instead of a list.
"""
if len(args) == 1 and 'limit' not in kwargs:
if 'min_id' in kwargs and 'max_id' in kwargs:
kwargs['limit'] = None
else:
kwargs['limit'] = 1
it = self.iter_messages(*args, **kwargs)
ids = kwargs.get('ids')
if ids and not utils.is_list_like(ids):
async for message in it:
return message
else:
# Iterator exhausted = empty, to handle InputMessageReplyTo
return None
return await it.collect()
# endregion
# region Message sending/editing/deleting
async def send_message(
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self, entity, message='', *, reply_to=None,
parse_mode=(), link_preview=True, file=None,
force_document=False, clear_draft=False, buttons=None,
silent=None):
"""
Sends the given message to the specified entity (user/chat/channel).
The default parse mode is the same as the official applications
(a custom flavour of markdown). ``**bold**, `code` or __italic__``
are available. In addition you can send ``[links](https://example.com)``
and ``[mentions](@username)`` (or using IDs like in the Bot API:
``[mention](tg://user?id=123456789)``) and ``pre`` blocks with three
backticks.
Sending a ``/start`` command with a parameter (like ``?start=data``)
is also done through this method. Simply send ``'/start data'`` to
the bot.
Args:
entity (`entity`):
To who will it be sent.
message (`str` | `Message <telethon.tl.custom.message.Message>`):
The message to be sent, or another message object to resend.
The maximum length for a message is 35,000 bytes or 4,096
characters. Longer messages will not be sliced automatically,
and you should slice them manually if the text to send is
longer than said length.
reply_to (`int` | `Message <telethon.tl.custom.message.Message>`, optional):
Whether to reply to a message or not. If an integer is provided,
it should be the ID of the message that it should reply to.
parse_mode (`object`, optional):
See the `TelegramClient.parse_mode
<telethon.client.messageparse.MessageParseMethods.parse_mode>`
property for allowed values. Markdown parsing will be used by
default.
link_preview (`bool`, optional):
Should the link preview be shown?
file (`file`, optional):
Sends a message with a file attached (e.g. a photo,
video, audio or document). The ``message`` may be empty.
force_document (`bool`, optional):
Whether to send the given file as a document or not.
clear_draft (`bool`, optional):
Whether the existing draft should be cleared or not.
Has no effect when sending a file.
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buttons (`list`, `custom.Button <telethon.tl.custom.button.Button>`, :tl:`KeyboardButton`):
The matrix (list of lists), row list or button to be shown
after sending the message. This parameter will only work if
you have signed in as a bot. You can also pass your own
:tl:`ReplyMarkup` here.
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All the following limits apply together:
* There can be 100 buttons at most (any more are ignored).
* There can be 8 buttons per row at most (more are ignored).
* The maximum callback data per button is 64 bytes.
* The maximum data that can be embedded in total is just
over 4KB, shared between inline callback data and text.
silent (`bool`, optional):
Whether the message should notify people in a broadcast
channel or not. Defaults to ``False``, which means it will
notify them. Set it to ``True`` to alter this behaviour.
Returns:
The sent `custom.Message <telethon.tl.custom.message.Message>`.
"""
if file is not None:
return await self.send_file(
entity, file, caption=message, reply_to=reply_to,
parse_mode=parse_mode, force_document=force_document,
buttons=buttons
)
elif not message:
raise ValueError(
'The message cannot be empty unless a file is provided'
)
entity = await self.get_input_entity(entity)
if isinstance(message, types.Message):
if buttons is None:
markup = message.reply_markup
else:
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markup = self.build_reply_markup(buttons)
if silent is None:
silent = message.silent
if (message.media and not isinstance(
message.media, types.MessageMediaWebPage)):
return await self.send_file(
entity,
message.media,
caption=message.message,
silent=silent,
reply_to=reply_to,
buttons=markup,
entities=message.entities
)
request = functions.messages.SendMessageRequest(
peer=entity,
message=message.message or '',
silent=silent,
reply_to_msg_id=utils.get_message_id(reply_to),
reply_markup=markup,
entities=message.entities,
clear_draft=clear_draft,
no_webpage=not isinstance(
message.media, types.MessageMediaWebPage)
)
message = message.message
else:
message, msg_ent = await self._parse_message_text(message,
parse_mode)
request = functions.messages.SendMessageRequest(
peer=entity,
message=message,
entities=msg_ent,
no_webpage=not link_preview,
reply_to_msg_id=utils.get_message_id(reply_to),
clear_draft=clear_draft,
silent=silent,
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reply_markup=self.build_reply_markup(buttons)
)
result = await self(request)
if isinstance(result, types.UpdateShortSentMessage):
message = types.Message(
id=result.id,
to_id=utils.get_peer(entity),
message=message,
date=result.date,
out=result.out,
media=result.media,
entities=result.entities,
reply_markup=request.reply_markup
)
message._finish_init(self, {}, entity)
return message
return self._get_response_message(request, result, entity)
async def forward_messages(self, entity, messages, from_peer=None,
*, silent=None):
"""
Forwards the given message(s) to the specified entity.
Args:
entity (`entity`):
To which entity the message(s) will be forwarded.
messages (`list` | `int` | `Message <telethon.tl.custom.message.Message>`):
The message(s) to forward, or their integer IDs.
from_peer (`entity`):
If the given messages are integer IDs and not instances
of the ``Message`` class, this *must* be specified in
order for the forward to work.
silent (`bool`, optional):
Whether the message should notify people in a broadcast
channel or not. Defaults to ``False``, which means it will
notify them. Set it to ``True`` to alter this behaviour.
Returns:
The list of forwarded `telethon.tl.custom.message.Message`,
or a single one if a list wasn't provided as input.
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Note that if all messages are invalid (i.e. deleted) the call
will fail with ``MessageIdInvalidError``. If only some are
invalid, the list will have ``None`` instead of those messages.
"""
single = not utils.is_list_like(messages)
if single:
messages = (messages,)
if not from_peer:
try:
# On private chats (to_id = PeerUser), if the message is
# not outgoing, we actually need to use "from_id" to get
# the conversation on which the message was sent.
from_peer = next(
m.from_id
if not m.out and isinstance(m.to_id, types.PeerUser)
else m.to_id for m in messages
if isinstance(m, types.Message)
)
except StopIteration:
raise ValueError(
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'from_peer must be given if integer IDs are used'
) from None
req = functions.messages.ForwardMessagesRequest(
from_peer=from_peer,
id=[m if isinstance(m, int) else m.id for m in messages],
to_peer=entity,
silent=silent
)
result = await self(req)
if isinstance(result, (types.Updates, types.UpdatesCombined)):
entities = {utils.get_peer_id(x): x
for x in itertools.chain(result.users, result.chats)}
else:
entities = {}
random_to_id = {}
id_to_message = {}
for update in result.updates:
if isinstance(update, types.UpdateMessageID):
random_to_id[update.random_id] = update.id
elif isinstance(update, (
types.UpdateNewMessage, types.UpdateNewChannelMessage)):
update.message._finish_init(self, entities, entity)
id_to_message[update.message.id] = update.message
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# Trying to forward only deleted messages causes `MESSAGE_ID_INVALID`
# but forwarding valid and invalid messages in the same call makes the
# call succeed, although the API won't return those messages thus
# `random_to_id[rnd]` would `KeyError`. Check the key beforehand.
result = [id_to_message[random_to_id[rnd]]
if rnd in random_to_id else None
for rnd in req.random_id]
return result[0] if single else result
async def edit_message(
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self, entity, message=None, text=None,
*, parse_mode=(), link_preview=True, file=None,
buttons=None):
"""
Edits the given message ID (to change its contents or disable preview).
Args:
entity (`entity` | `Message <telethon.tl.custom.message.Message>`):
From which chat to edit the message. This can also be
the message to be edited, and the entity will be inferred
from it, so the next parameter will be assumed to be the
message text.
message (`int` | `Message <telethon.tl.custom.message.Message>` | `str`):
The ID of the message (or `Message
<telethon.tl.custom.message.Message>` itself) to be edited.
If the `entity` was a `Message
<telethon.tl.custom.message.Message>`, then this message
will be treated as the new text.
text (`str`, optional):
The new text of the message. Does nothing if the `entity`
was a `Message <telethon.tl.custom.message.Message>`.
parse_mode (`object`, optional):
See the `TelegramClient.parse_mode
<telethon.client.messageparse.MessageParseMethods.parse_mode>`
property for allowed values. Markdown parsing will be used by
default.
link_preview (`bool`, optional):
Should the link preview be shown?
file (`str` | `bytes` | `file` | `media`, optional):
The file object that should replace the existing media
in the message.
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buttons (`list`, `custom.Button <telethon.tl.custom.button.Button>`, :tl:`KeyboardButton`):
The matrix (list of lists), row list or button to be shown
after sending the message. This parameter will only work if
you have signed in as a bot. You can also pass your own
:tl:`ReplyMarkup` here.
Examples:
>>> client = ...
>>> message = client.send_message('username', 'hello')
>>>
>>> client.edit_message('username', message, 'hello!')
>>> # or
>>> client.edit_message('username', message.id, 'Hello')
>>> # or
>>> client.edit_message(message, 'Hello!')
Raises:
``MessageAuthorRequiredError`` if you're not the author of the
message but tried editing it anyway.
``MessageNotModifiedError`` if the contents of the message were
not modified at all.
Returns:
The edited `telethon.tl.custom.message.Message`.
"""
if isinstance(entity, types.Message):
text = message # Shift the parameters to the right
message = entity
entity = entity.to_id
entity = await self.get_input_entity(entity)
text, msg_entities = await self._parse_message_text(text, parse_mode)
file_handle, media = await self._file_to_media(file)
request = functions.messages.EditMessageRequest(
peer=entity,
id=utils.get_message_id(message),
message=text,
no_webpage=not link_preview,
entities=msg_entities,
media=media,
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reply_markup=self.build_reply_markup(buttons)
)
msg = self._get_response_message(request, await self(request), entity)
await self._cache_media(msg, file, file_handle)
return msg
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async def delete_messages(self, entity, message_ids, *, revoke=True):
"""
Deletes a message from a chat, optionally "for everyone".
Args:
entity (`entity`):
From who the message will be deleted. This can actually
be ``None`` for normal chats, but **must** be present
for channels and megagroups.
message_ids (`list` | `int` | `Message <telethon.tl.custom.message.Message>`):
The IDs (or ID) or messages to be deleted.
revoke (`bool`, optional):
Whether the message should be deleted for everyone or not.
By default it has the opposite behaviour of official clients,
and it will delete the message for everyone.
This has no effect on channels or megagroups.
Returns:
A list of :tl:`AffectedMessages`, each item being the result
for the delete calls of the messages in chunks of 100 each.
"""
if not utils.is_list_like(message_ids):
message_ids = (message_ids,)
message_ids = (
m.id if isinstance(m, (
types.Message, types.MessageService, types.MessageEmpty))
else int(m) for m in message_ids
)
entity = await self.get_input_entity(entity) if entity else None
if isinstance(entity, types.InputPeerChannel):
return await self([functions.channels.DeleteMessagesRequest(
entity, list(c)) for c in utils.chunks(message_ids)])
else:
return await self([functions.messages.DeleteMessagesRequest(
list(c), revoke) for c in utils.chunks(message_ids)])
# endregion
# region Miscellaneous
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async def send_read_acknowledge(
self, entity, message=None, *, max_id=None, clear_mentions=False):
"""
Sends a "read acknowledge" (i.e., notifying the given peer that we've
read their messages, also known as the "double check").
This effectively marks a message as read (or more than one) in the
given conversation.
If neither message nor maximum ID are provided, all messages will be
marked as read by assuming that ``max_id = 0``.
Args:
entity (`entity`):
The chat where these messages are located.
message (`list` | `Message <telethon.tl.custom.message.Message>`):
Either a list of messages or a single message.
max_id (`int`):
Overrides messages, until which message should the
acknowledge should be sent.
clear_mentions (`bool`):
Whether the mention badge should be cleared (so that
there are no more mentions) or not for the given entity.
If no message is provided, this will be the only action
taken.
"""
if max_id is None:
if not message:
max_id = 0
else:
if utils.is_list_like(message):
max_id = max(msg.id for msg in message)
else:
max_id = message.id
entity = await self.get_input_entity(entity)
if clear_mentions:
await self(functions.messages.ReadMentionsRequest(entity))
if max_id is None:
return True
if max_id is not None:
if isinstance(entity, types.InputPeerChannel):
return await self(functions.channels.ReadHistoryRequest(
entity, max_id=max_id))
else:
return await self(functions.messages.ReadHistoryRequest(
entity, max_id=max_id))
return False
# endregion
# endregion