.. currentmodule:: royalnet.commands
Creating a new Command
====================================
A Royalnet Command is a small script that is run whenever a specific message is sent to a Royalnet interface.
A Command code looks like this: ::
import royalnet.commands as rc
class PingCommand(rc.Command):
name = "ping"
description = "Play ping-pong with the bot."
def __init__(self, serf: "Serf", config):
# This code is run just once, while the bot is starting
super().__init__(serf=serf, config=config)
async def run(self, args: rc.CommandArgs, data: rc.CommandData):
# This code is run every time the command is called
await data.reply("Pong!")
Creating a new Command
------------------------------------
First, think of a ``name`` for your command.
It's the name your command will be called with: for example, the "spaghetti" command will be called by typing **/spaghetti** in chat.
Try to keep the name as short as possible, while staying specific enough so no other command will have the same name.
Next, create a new Python file with the ``name`` you have thought of.
The previously mentioned "spaghetti" command should have a file called ``spaghetti.py``.
Then, in the first row of the file, import the :class:`Command` class from royalnet, and create a new class inheriting from it: ::
import royalnet.commands as rc
class SpaghettiCommand(rc.Command):
...
Inside the class, override the attributes ``name`` and ``description`` with respectively the **name of the command** and a **small description of what the command will do**: ::
import royalnet.commands as rc
class SpaghettiCommand(rc.Command):
name = "spaghetti"
description = "Send a spaghetti emoji in the chat."
Now override the :meth:`Command.run` method, adding the code you want the bot to run when the command is called.
To send a message in the chat the command was called in, you can use the :meth:`CommandData.reply` coroutine: ::
import royalnet.commands as rc
class SpaghettiCommand(rc.Command):
name = "spaghetti"
description = "Send a spaghetti emoji in the chat."
async def run(self, args: rc.CommandArgs, data: rc.CommandData):
await data.reply("🍝")
Finally, open the ``commands/__init__.py`` file, and import your command there, then add a reference to your imported
command to the ``available_commands`` list: ::
# Imports go here!
from .spaghetti import SpaghettiCommand
# Enter the commands of your Pack here!
available_commands = [
SpaghettiCommand,
]
# Don't change this, it should automatically generate __all__
__all__ = [command.__name__ for command in available_commands]
Formatting command replies
------------------------------------
You can use a subset of [BBCode](https://en.wikipedia.org/wiki/BBCode) to format messages sent with :meth:`CommandData.reply`: ::
async def run(self, args: rc.CommandArgs, data: rc.CommandData):
await data.reply("[b]Bold of you to assume that my code has no bugs.[/b]")
Available tags
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Here's a list of all tags that can be used:
- ``[b]bold[/b]``
- ``[i]italic[/i]``
- ``[c]code[/c]``
- ``[p]multiline \n code[/p]``
- ``[url=https://google.com]inline link[/url]`` (will be rendered differently on every platform)
Command arguments
------------------------------------
A command can have some arguments passed by the user: for example, on Telegram an user may type `/spaghetti carbonara al-dente`
to pass the :class:`str` `"carbonara al-dente"` to the command code.
These arguments can be accessed in multiple ways through the ``args`` parameter passed to the :meth:`Command.run`
method.
If you want your command to use arguments, override the ``syntax`` class attribute with a brief description of the
syntax of your command, possibly using {curly braces} for required arguments and [square brackets] for optional
ones. ::
import royalnet.commands as rc
class SpaghettiCommand(rc.Command):
name = "spaghetti"
description = "Send a spaghetti emoji in the chat."
syntax = "{first_pasta} [second_pasta]"
async def run(self, args: rc.CommandArgs, data: rc.CommandData):
first_pasta = args[0]
second_pasta = args.optional(1)
if second_pasta is None:
await data.reply(f"🍝 Here's your {first_pasta}!")
else:
await data.reply(f"🍝 Here's your {first_pasta} and your {second_pasta}!")
Direct access
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can consider arguments as if they were separated by spaces.
You can then access command arguments directly by number as if the args object was a list of :class:`str`.
If you request an argument with a certain number, but the argument does not exist, an
:exc:`.InvalidInputError` is raised, making the arguments accessed in this way **required**. ::
args[0]
# "carbonara"
args[1]
# "al-dente"
args[2]
# raises InvalidInputError
Optional access
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
If you don't want arguments to be required, you can access them through the :meth:`CommandArgs.optional` method: it
will return ``None`` if the argument wasn't passed, making it **optional**. ::
args.optional(0)
# "carbonara"
args.optional(1)
# "al-dente"
args.optional(2)
# None
You can specify a default result too, so that the method will return it instead of returning ``None``: ::
args.optional(2, default="banana")
# "banana"
Full string
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
If you want the full argument string, you can use the :meth:`CommandArgs.joined` method. ::
args.joined()
# "carbonara al-dente"
You can specify a minimum number of arguments too, so that an :exc:`.InvalidInputError` will be
raised if not enough arguments are present: ::
args.joined(require_at_least=3)
# raises InvalidInputError
Regular expressions
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
For more complex commands, you may want to get arguments through `regular expressions `_.
You can then use the :meth:`CommandArgs.match` method, which tries to match a pattern to the command argument string,
which returns a tuple of the matched groups and raises an :exc:`.InvalidInputError` if there is no match.
To match a pattern, :func:`re.match` is used, meaning that Python will try to match only at the beginning of the string. ::
args.match(r"(carb\w+)")
# ("carbonara",)
args.match(r"(al-\w+)")
# raises InvalidInputError
args.match(r"\s*(al-\w+)")
# ("al-dente",)
args.match(r"\s*(carb\w+)\s*(al-\w+)")
# ("carbonara", "al-dente")
Raising errors
---------------------------------------------
If you want to display an error message to the user, you can raise a :exc:`.CommandError` using the error message as argument: ::
if not kitchen.is_open():
raise CommandError("The kitchen is closed. Come back later!")
There are some subclasses of :exc:`.CommandError` that can be used for some more specific cases:
:exc:`.UserError`
The user did something wrong, it is not a problem with the bot.
:exc:`.InvalidInputError`
The arguments the user passed to the command by the user are invalid.
*Additionally displays the command syntax in the error message.*
:exc:`.UnsupportedError`
The command is not supported on the interface it is being called.
:exc:`.ConfigurationError`
A value is missing or invalid in the ``config.toml`` section of your pack.
:exc:`.ExternalError`
An external API the command depends on is unavailable or returned an error.
:exc:`.ProgramError`
An error caused by a programming mistake. Equivalent to :exc:`AssertionError`, but includes a message to facilitate debugging.
Coroutines and slow operations
------------------------------------
You may have noticed that in the previous examples we used ``await data.reply("🍝")`` instead of just ``data.reply("🍝")``.
This is because :meth:`CommandData.reply` isn't a simple method: it is a coroutine, a special kind of function that
can be executed separately from the rest of the code, allowing the bot to do other things in the meantime.
By adding the ``await`` keyword before the ``data.reply("🍝")``, we tell the bot that it can do other things, like
receiving new messages, while the message is being sent.
You should avoid running slow normal functions inside bot commands, as they will stop the bot from working until they
are finished and may cause bugs in other parts of the code! ::
async def run(self, args, data):
# Don't do this!
image = download_1_terabyte_of_spaghetti("right_now", from="italy")
...
If the slow function you want does not cause any side effect, you can wrap it with the :func:`royalnet.utils.asyncify`
function: ::
async def run(self, args, data):
# If the called function has no side effect, you can do this!
image = await asyncify(download_1_terabyte_of_spaghetti, "right_now", from="italy")
...
Avoid using :func:`time.sleep` function, as it is considered a slow operation: use instead :func:`asyncio.sleep`,
a coroutine that does the same exact thing but in an asyncronous way.
Delete the invoking message
------------------------------------
The invoking message of a command is the message that the user sent that the bot recognized as a command; for example,
the message ``/spaghetti carbonara`` is the invoking message for the ``spaghetti`` command run.
You can have the bot delete the invoking message for a command by calling the :class:`CommandData.delete_invoking`
method: ::
async def run(self, args, data):
await data.delete_invoking()
Not all interfaces support deleting messages; by default, if the interface does not support deletions, the call is
ignored.
You can have the method raise an error if the message can't be deleted by setting the ``error_if_unavailable`` parameter
to True: ::
async def run(self, args, data):
try:
await data.delete_invoking(error_if_unavailable=True)
except royalnet.error.UnsupportedError:
await data.reply("🚫 The message could not be deleted.")
else:
await data.reply("✅ The message was deleted!")
Sharing data between multiple calls
------------------------------------
The :class:`Command` class is shared between multiple command calls: if you need to store some data, you may store it as a protected/private field of your command class: ::
class SpaghettiCommand(rc.Command):
name = "spaghetti"
description = "Send a spaghetti emoji in the chat."
syntax = "(requestedpasta)"
__total_spaghetti = 0
async def run(self, args: rc.CommandArgs, data: rc.CommandData):
self.__total_spaghetti += 1
await data.reply(f"🍝 Here's your {args[0]}!\n"
f"[i]Spaghetti have been served {self.__total_spaghetti} times.[/i]")
Values stored in this way persist **only until the bot is restarted**, and **won't be shared between different serfs**; if you need persistent values, it is recommended to use a database through the Alchemy service.
Using the Alchemy
------------------------------------
Royalnet can be connected to a PostgreSQL database through a special SQLAlchemy interface called
:class:`royalnet.alchemy.Alchemy`.
If the connection is established, the ``self.alchemy`` and ``data.session`` fields will be
available for use in commands.
``self.alchemy`` is an instance of :class:`royalnet.alchemy.Alchemy`, which contains the
:class:`sqlalchemy.engine.Engine`, metadata and tables, while ``data.session`` is a
:class:`sqlalchemy.orm.session.Session`, and can be interacted in the same way as one.
Querying the database
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can :class:`sqlalchemy.orm.query.Query` the database using the SQLAlchemy ORM.
The SQLAlchemy tables can be found inside :class:`royalnet.alchemy.Alchemy` with the :meth:`royalnet.alchemy.Alchemy.get` method: ::
import royalnet.backpack.tables as rbt
User = self.alchemy.get(rbt.User)
Adding filters to the query
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can filter the query results with the :meth:`sqlalchemy.orm.query.Query.filter` method.
.. note:: Remember to always use a table column as first comparision element, as it won't work otherwise.
::
query = query.filter(User.role == "Member")
Ordering the results of a query
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can order the query results in **ascending order** with the :meth:`sqlalchemy.orm.query.Query.order_by` method. ::
query = query.order_by(User.username)
Additionally, you can append the `.desc()` method to a table column to sort in **descending order**: ::
query = query.order_by(User.username.desc())
Fetching the results of a query
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can fetch the query results with the :meth:`sqlalchemy.orm.query.Query.all`,
:meth:`sqlalchemy.orm.query.Query.first`, :meth:`sqlalchemy.orm.query.Query.one` and
:meth:`sqlalchemy.orm.query.Query.one_or_none` methods.
Remember to use :func:`royalnet.utils.asyncify` when fetching results, as it may take a while!
Use :meth:`sqlalchemy.orm.query.Query.all` if you want a :class:`list` of **all results**: ::
results: list = await asyncify(query.all)
Use :meth:`sqlalchemy.orm.query.Query.first` if you want **the first result** of the list, or ``None`` if
there are no results: ::
result: typing.Union[..., None] = await asyncify(query.first)
Use :meth:`sqlalchemy.orm.query.Query.one` if you expect to have **a single result**, and you want the command to
raise an error if any different number of results is returned: ::
result: ... = await asyncify(query.one) # Raises an error if there are no results or more than a result.
Use :meth:`sqlalchemy.orm.query.Query.one_or_none` if you expect to have **a single result**, or **nothing**, and
if you want the command to raise an error if the number of results is greater than one. ::
result: typing.Union[..., None] = await asyncify(query.one_or_none) # Raises an error if there is more than a result.
More Alchemy
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can read more about sqlalchemy at their `website `_.
Calling Events
------------------------------------
You can **call an event** from inside a command, and receive its return value.
This may be used for example to get data from a different platform, such as getting the users online in a specific Discord server.
You can call an event with the :meth:`Serf.call_herald_event` method: ::
result = await self.serf.call_herald_event("event_name")
You can also pass parameters to the called event: ::
result = await self.serf.call_herald_event("event_name", ..., kwarg=..., *..., **...)
Errors raised by the event will also be raised by the :meth:`Serf.call_herald_event` method as one of the exceptions described in the :ref:`Raising errors` section.
Displaying Keyboards
------------------------------------
This section is not documented yet.
Running code at the initialization of the bot
---------------------------------------------
This section is not documented yet.
Running repeating jobs
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This section is not documented yet.