Telethon/telethon/tl/entity_database.py

157 lines
5.4 KiB
Python

from threading import Lock
from .. import utils
from ..tl import TLObject
from ..tl.types import User, Chat, Channel
class EntityDatabase:
def __init__(self, input_list=None, enabled=True):
self.enabled = enabled
self._lock = Lock()
self._entities = {} # marked_id: user|chat|channel
if input_list:
self._input_entities = {k: v for k, v in input_list}
else:
self._input_entities = {} # marked_id: hash
# TODO Allow disabling some extra mappings
self._username_id = {} # username: marked_id
def process(self, tlobject):
"""Processes all the found entities on the given TLObject,
unless .enabled is False.
Returns True if new input entities were added.
"""
if not self.enabled:
return False
# Save all input entities we know of
if not isinstance(tlobject, TLObject) and hasattr(tlobject, '__iter__'):
# This may be a list of users already for instance
return self.expand(tlobject)
entities = []
if hasattr(tlobject, 'chats') and hasattr(tlobject.chats, '__iter__'):
entities.extend(tlobject.chats)
if hasattr(tlobject, 'users') and hasattr(tlobject.users, '__iter__'):
entities.extend(tlobject.users)
return self.expand(entities)
def expand(self, entities):
"""Adds new input entities to the local database unconditionally.
Unknown types will be ignored.
"""
if not entities or not self.enabled:
return False
new = [] # Array of entities (User, Chat, or Channel)
new_input = {} # Dictionary of {entity_marked_id: access_hash}
for e in entities:
if not isinstance(e, TLObject):
continue
try:
p = utils.get_input_peer(e)
new_input[utils.get_peer_id(p, add_mark=True)] = \
getattr(p, 'access_hash', 0) # chats won't have hash
if isinstance(e, User) \
or isinstance(e, Chat) \
or isinstance(e, Channel):
new.append(e)
except ValueError:
pass
with self._lock:
before = len(self._input_entities)
self._input_entities.update(new_input)
for e in new:
self._add_full_entity(e)
return len(self._input_entities) != before
def _add_full_entity(self, entity):
"""Adds a "full" entity (User, Chat or Channel, not "Input*").
Not to be confused with UserFull, ChatFull, or ChannelFull,
"full" means simply not "Input*".
"""
marked_id = utils.get_peer_id(
utils.get_input_peer(entity), add_mark=True
)
try:
old_entity = self._entities[marked_id]
old_entity.__dict__.update(entity.__dict__) # Keep old references
# Update must delete old username
username = getattr(old_entity, 'username', None)
if username:
del self._username_id[username.lower()]
except KeyError:
# Add new entity
self._entities[marked_id] = entity
# Always update username if any
username = getattr(entity, 'username', None)
if username:
self._username_id[username.lower()] = marked_id
def __getitem__(self, key):
"""Accepts a digit only string as phone number,
otherwise it's treated as an username.
If an integer is given, it's treated as the ID of the desired User.
The ID given won't try to be guessed as the ID of a chat or channel,
as there may be an user with that ID, and it would be unreliable.
If a Peer is given (PeerUser, PeerChat, PeerChannel),
its specific entity is retrieved as User, Chat or Channel.
Note that megagroups are channels with .megagroup = True.
"""
if isinstance(key, str):
# TODO Parse phone properly, currently only usernames
key = key.lstrip('@').lower()
# TODO Use the client to return from username if not found
return self._entities[self._username_id[key]]
if isinstance(key, int):
return self._entities[key] # normal IDs are assumed users
if isinstance(key, TLObject):
sc = type(key).SUBCLASS_OF_ID
if sc == 0x2d45687:
# Subclass of "Peer"
return self._entities[utils.get_peer_id(key, add_mark=True)]
elif sc in {0x2da17977, 0xc5af5d94, 0x6d44b7db}:
# Subclass of "User", "Chat" or "Channel"
return key
raise KeyError(key)
def __delitem__(self, key):
target = self[key]
del self._entities[key]
if getattr(target, 'username'):
del self._username_id[target.username]
# TODO Allow search by name by tokenizing the input and return a list
def get_input_entity(self, peer):
try:
return self._input_entities[utils.get_peer_id(peer, add_mark=True)]
except ValueError as e:
raise KeyError(peer) from e
def get_input_list(self):
return list(self._input_entities.items())
def clear(self, target=None):
if target is None:
self._entities.clear()
else:
del self[target]