Telethon/telethon/events/common.py
Lonami Exo 22124b5ced Refactor code to fetch missing entities once again
This is another attempt at reducing CPU usage similar to:
    1b6b4a57d9

In addition it simplifies some of the code and opens up new
ideas for the state cache as well.
2019-05-01 14:02:27 +02:00

204 lines
6.6 KiB
Python

import abc
import asyncio
import itertools
import warnings
from .. import utils
from ..tl import TLObject, types, functions
from ..tl.custom.chatgetter import ChatGetter
async def _into_id_set(client, chats):
"""Helper util to turn the input chat or chats into a set of IDs."""
if chats is None:
return None
if not utils.is_list_like(chats):
chats = (chats,)
result = set()
for chat in chats:
if isinstance(chat, int):
if chat < 0:
result.add(chat) # Explicitly marked IDs are negative
else:
result.update({ # Support all valid types of peers
utils.get_peer_id(types.PeerUser(chat)),
utils.get_peer_id(types.PeerChat(chat)),
utils.get_peer_id(types.PeerChannel(chat)),
})
elif isinstance(chat, TLObject) and chat.SUBCLASS_OF_ID == 0x2d45687:
# 0x2d45687 == crc32(b'Peer')
result.add(utils.get_peer_id(chat))
else:
chat = await client.get_input_entity(chat)
if isinstance(chat, types.InputPeerSelf):
chat = await client.get_me(input_peer=True)
result.add(utils.get_peer_id(chat))
return result
class EventBuilder(abc.ABC):
"""
The common event builder, with builtin support to filter per chat.
Args:
chats (`entity`, optional):
May be one or more entities (username/peer/etc.), preferably IDs.
By default, only matching chats will be handled.
blacklist_chats (`bool`, optional):
Whether to treat the chats as a blacklist instead of
as a whitelist (default). This means that every chat
will be handled *except* those specified in ``chats``
which will be ignored if ``blacklist_chats=True``.
func (`callable`, optional):
A callable function that should accept the event as input
parameter, and return a value indicating whether the event
should be dispatched or not (any truthy value will do, it
does not need to be a `bool`). It works like a custom filter:
.. code-block:: python
@client.on(events.NewMessage(func=lambda e: e.is_private))
async def handler(event):
pass # code here
"""
self_id = None
def __init__(self, chats=None, *, blacklist_chats=False, func=None):
self.chats = chats
self.blacklist_chats = bool(blacklist_chats)
self.resolved = False
self.func = func
self._resolve_lock = None
@classmethod
@abc.abstractmethod
def build(cls, update):
"""Builds an event for the given update if possible, or returns None"""
async def resolve(self, client):
"""Helper method to allow event builders to be resolved before usage"""
if self.resolved:
return
if not self._resolve_lock:
self._resolve_lock = asyncio.Lock(loop=client.loop)
async with self._resolve_lock:
if not self.resolved:
await self._resolve(client)
self.resolved = True
async def _resolve(self, client):
self.chats = await _into_id_set(client, self.chats)
if not EventBuilder.self_id:
EventBuilder.self_id = await client.get_peer_id('me')
def filter(self, event):
"""
If the ID of ``event._chat_peer`` isn't in the chats set (or it is
but the set is a blacklist) returns ``None``, otherwise the event.
The events must have been resolved before this can be called.
"""
if not self.resolved:
return None
if self.chats is not None:
# Note: the `event.chat_id` property checks if it's `None` for us
inside = event.chat_id in self.chats
if inside == self.blacklist_chats:
# If this chat matches but it's a blacklist ignore.
# If it doesn't match but it's a whitelist ignore.
return None
if not self.func or self.func(event):
return event
class EventCommon(ChatGetter, abc.ABC):
"""
Intermediate class with common things to all events.
Remember that this class implements `ChatGetter
<telethon.tl.custom.chatgetter.ChatGetter>` which
means you have access to all chat properties and methods.
In addition, you can access the `original_update`
field which contains the original :tl:`Update`.
"""
_event_name = 'Event'
def __init__(self, chat_peer=None, msg_id=None, broadcast=False):
self._entities = {}
self._client = None
self._chat_peer = chat_peer
self._message_id = msg_id
self._input_chat = None
self._chat = None
self._broadcast = broadcast
self.original_update = None
def _set_client(self, client):
"""
Setter so subclasses can act accordingly when the client is set.
"""
self._client = client
def _get_entity_pair(self, entity_id):
"""
Returns ``(entity, input_entity)`` for the given entity ID.
"""
entity = self._entities.get(entity_id)
try:
input_entity = utils.get_input_peer(entity)
except TypeError:
try:
input_entity = self._client._entity_cache[entity_id]
except KeyError:
input_entity = None
return entity, input_entity
def _load_entities(self):
"""
Must load all the entities it needs from cache, and
return ``False`` if it could not find all of them.
"""
if not self._chat_peer:
return True # Nothing to load (e.g. MessageDeleted)
self._chat, self._input_chat = self._get_entity_pair(self.chat_id)
return self._input_chat is not None
@property
def client(self):
"""
The `telethon.TelegramClient` that created this event.
"""
return self._client
def __str__(self):
return TLObject.pretty_format(self.to_dict())
def stringify(self):
return TLObject.pretty_format(self.to_dict(), indent=0)
def to_dict(self):
d = {k: v for k, v in self.__dict__.items() if k[0] != '_'}
d['_'] = self._event_name
return d
def name_inner_event(cls):
"""Decorator to rename cls.Event 'Event' as 'cls.Event'"""
if hasattr(cls, 'Event'):
cls.Event._event_name = '{}.Event'.format(cls.__name__)
else:
warnings.warn('Class {} does not have a inner Event'.format(cls))
return cls