Telethon/readthedocs/extra/advanced-usage/accessing-the-full-api.rst

.. _accessing-the-full-api:

======================
Accessing the Full API
======================

.. important::

    While you have access to this, you should always use the friendly
    methods listed on :ref:`telethon-client` unless you have a better
    reason not to, like a method not existing or you wanting more control.


The :ref:`TelegramClient <telethon-client>` doesn't offer a method for
every single request the Telegram API supports. However, it's very simple to
*call* or *invoke* any request. Whenever you need something, don't forget to
`check the documentation`__ and look for the `method you need`__. There you
can go through a sorted list of everything you can do.


.. note::

    The reason to keep both https://lonamiwebs.github.io/Telethon and this
    documentation alive is that the former allows instant search results
    as you type, and a "Copy import" button. If you like namespaces, you
    can also do ``from telethon.tl import types, functions``. Both work.


.. important::

    All the examples in this documentation assume that you have
    ``from telethon import sync`` or ``import telethon.sync``
    for the sake of simplicity and that you understand what
    it does (see :ref:`asyncio-magic` for more). Simply add
    either line at the beginning of your project and it will work.


You should also refer to the documentation to see what the objects
(constructors) Telegram returns look like. Every constructor inherits
from a common type, and that's the reason for this distinction.

Say `client.send_message
<telethon.client.messages.MessageMethods.send_message>` didn't exist,
we could use the `search`__ to look for "message". There we would find
:tl:`SendMessageRequest`, which we can work with.

Every request is a Python class, and has the parameters needed for you
to invoke it. You can also call ``help(request)`` for information on
what input parameters it takes. Remember to "Copy import to the
clipboard", or your script won't be aware of this class! Now we have:

.. code-block:: python

    from telethon.tl.functions.messages import SendMessageRequest

If you're going to use a lot of these, you may do:

.. code-block:: python

    from telethon.tl import types, functions
    # We now have access to 'functions.messages.SendMessageRequest'

We see that this request must take at least two parameters, a ``peer``
of type :tl:`InputPeer`, and a ``message`` which is just a Python
``str``\ ing.

How can we retrieve this :tl:`InputPeer`? We have two options. We manually
construct one, for instance:

.. code-block:: python

    from telethon.tl.types import InputPeerUser

    peer = InputPeerUser(user_id, user_hash)

Or we call `client.get_input_entity
<telethon.client.users.UserMethods.get_input_entity>`:

.. code-block:: python

    import telethon.sync
    peer = client.get_input_entity('someone')


When you're going to invoke an API method, most require you to pass an
:tl:`InputUser`, :tl:`InputChat`, or so on, this is why using
`client.get_input_entity <telethon.client.users.UserMethods.get_input_entity>`
is more straightforward (and often immediate, if you've seen the user before,
know their ID, etc.). If you also **need** to have information about the whole
user, use `client.get_entity <telethon.client.users.UserMethods.get_entity>`
instead:

.. code-block:: python

    entity = client.get_entity('someone')

In the later case, when you use the entity, the library will cast it to
its "input" version for you. If you already have the complete user and
want to cache its input version so the library doesn't have to do this
every time its used, simply call `telethon.utils.get_input_peer`:

.. code-block:: python

    from telethon import utils
    peer = utils.get_input_peer(entity)


.. note::

    Since ``v0.16.2`` this is further simplified. The ``Request`` itself
    will call `client.get_input_entity <
    telethon.client.users.UserMethods.get_input_entity>` for you when required,
    but it's good to remember what's happening.


After this small parenthesis about `client.get_entity
<telethon.client.users.UserMethods.get_entity>` versus
`client.get_input_entity <telethon.client.users.UserMethods.get_input_entity>`,
we have everything we need. To invoke our
request we do:

.. code-block:: python

    result = client(SendMessageRequest(peer, 'Hello there!'))
    # __call__ is an alias for client.invoke(request). Both will work

Message sent! Of course, this is only an example. There are over 250
methods available as of layer 80, and you can use every single of them
as you wish. Remember to use the right types! To sum up:

.. code-block:: python

    result = client(SendMessageRequest(
        client.get_input_entity('username'), 'Hello there!'
    ))


This can further be simplified to:

.. code-block:: python

    result = client(SendMessageRequest('username', 'Hello there!'))
    # Or even
    result = client(SendMessageRequest(PeerChannel(id), 'Hello there!'))

.. note::

    Note that some requests have a "hash" parameter. This is **not**
    your ``api_hash``! It likely isn't your self-user ``.access_hash`` either.

    It's a special hash used by Telegram to only send a difference of new data
    that you don't already have with that request, so you can leave it to 0,
    and it should work (which means no hash is known yet).

    For those requests having a "limit" parameter, you can often set it to
    zero to signify "return default amount". This won't work for all of them
    though, for instance, in "messages.search" it will actually return 0 items.


Requests in Parallel
********************

The library will automatically merge outgoing requests into a single
*container*. Telegram's API supports sending multiple requests in a
single container, which is faster because it has less overhead and
the server can run them without waiting for others. You can also
force using a container manually:

.. code-block:: python

    async def main():

        # Letting the library do it behind the scenes
        await asyncio.wait([
            client.send_message('me', 'Hello'),
            client.send_message('me', ','),
            client.send_message('me', 'World'),
            client.send_message('me', '.')
        ])

        # Manually invoking many requests at once
        await client([
            SendMessageRequest('me', 'Hello'),
            SendMessageRequest('me', ', '),
            SendMessageRequest('me', 'World'),
            SendMessageRequest('me', '.')
        ])

Note that you cannot guarantee the order in which they are run.
Try running the above code more than one time. You will see the
order in which the messages arrive is different.

If you use the raw API (the first option), you can use ``ordered``
to tell the server that it should run the requests sequentially.
This will still be faster than going one by one, since the server
knows all requests directly:

.. code-block:: python

    client([
        SendMessageRequest('me', 'Hello'),
        SendMessageRequest('me', ', '),
        SendMessageRequest('me', 'World'),
        SendMessageRequest('me', '.')
    ], ordered=True)

If any of the requests fails with a Telegram error (not connection
errors or any other unexpected events), the library will raise
`telethon.errors.common.MultiError`. You can ``except`` this
and still access the successful results:

.. code-block:: python

    from telethon.errors import MultiError

    try:
        client([
            SendMessageRequest('me', 'Hello'),
            SendMessageRequest('me', ''),
            SendMessageRequest('me', 'World')
        ], ordered=True)
    except MultiError as e:
        # The first and third requests worked.
        first = e.results[0]
        third = e.results[2]
        # The second request failed.
        second = e.exceptions[1]

__ https://lonamiwebs.github.io/Telethon
__ https://lonamiwebs.github.io/Telethon/methods/index.html
__ https://lonamiwebs.github.io/Telethon/?q=message&redirect=no