# -*- coding: utf-8 -*-
"""
The MIT License (MIT)
Copyright (c) 2015-2020 Rapptz
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.
"""
import asyncio
import functools
import inspect
import typing
import datetime
import discord
from .errors import *
from .cooldowns import Cooldown, BucketType, CooldownMapping, MaxConcurrency
from . import converter as converters
from ._types import _BaseCommand
from .cog import Cog
__all__ = (
'Command',
'Group',
'GroupMixin',
'command',
'group',
'has_role',
'has_permissions',
'has_any_role',
'check',
'check_any',
'bot_has_role',
'bot_has_permissions',
'bot_has_any_role',
'cooldown',
'max_concurrency',
'dm_only',
'guild_only',
'is_owner',
'is_nsfw',
'has_guild_permissions',
'bot_has_guild_permissions'
)
def wrap_callback(coro):
@functools.wraps(coro)
async def wrapped(*args, **kwargs):
try:
ret = await coro(*args, **kwargs)
except CommandError:
raise
except asyncio.CancelledError:
return
except Exception as exc:
raise CommandInvokeError(exc) from exc
return ret
return wrapped
def hooked_wrapped_callback(command, ctx, coro):
@functools.wraps(coro)
async def wrapped(*args, **kwargs):
try:
ret = await coro(*args, **kwargs)
except CommandError:
ctx.command_failed = True
raise
except asyncio.CancelledError:
ctx.command_failed = True
return
except Exception as exc:
ctx.command_failed = True
raise CommandInvokeError(exc) from exc
finally:
if command._max_concurrency is not None:
await command._max_concurrency.release(ctx)
await command.call_after_hooks(ctx)
return ret
return wrapped
def _convert_to_bool(argument):
lowered = argument.lower()
if lowered in ('yes', 'y', 'true', 't', '1', 'enable', 'on'):
return True
elif lowered in ('no', 'n', 'false', 'f', '0', 'disable', 'off'):
return False
else:
raise BadArgument(lowered + ' is not a recognised boolean option')
class _CaseInsensitiveDict(dict):
def __contains__(self, k):
return super().__contains__(k.casefold())
def __delitem__(self, k):
return super().__delitem__(k.casefold())
def __getitem__(self, k):
return super().__getitem__(k.casefold())
def get(self, k, default=None):
return super().get(k.casefold(), default)
def pop(self, k, default=None):
return super().pop(k.casefold(), default)
def __setitem__(self, k, v):
super().__setitem__(k.casefold(), v)
class Command(_BaseCommand):
r"""A class that implements the protocol for a bot text command.
These are not created manually, instead they are created via the
decorator or functional interface.
Attributes
-----------
name: :class:`str`
The name of the command.
callback: :ref:`coroutine <coroutine>`
The coroutine that is executed when the command is called.
help: :class:`str`
The long help text for the command.
brief: :class:`str`
The short help text for the command. If this is not specified
then the first line of the long help text is used instead.
usage: :class:`str`
A replacement for arguments in the default help text.
aliases: :class:`list`
The list of aliases the command can be invoked under.
enabled: :class:`bool`
A boolean that indicates if the command is currently enabled.
If the command is invoked while it is disabled, then
:exc:`.DisabledCommand` is raised to the :func:`.on_command_error`
event. Defaults to ``True``.
parent: Optional[:class:`Command`]
The parent command that this command belongs to. ``None`` if there
isn't one.
cog: Optional[:class:`Cog`]
The cog that this command belongs to. ``None`` if there isn't one.
checks: List[Callable[..., :class:`bool`]]
A list of predicates that verifies if the command could be executed
with the given :class:`.Context` as the sole parameter. If an exception
is necessary to be thrown to signal failure, then one inherited from
:exc:`.CommandError` should be used. Note that if the checks fail then
:exc:`.CheckFailure` exception is raised to the :func:`.on_command_error`
event.
description: :class:`str`
The message prefixed into the default help command.
hidden: :class:`bool`
If ``True``\, the default help command does not show this in the
help output.
rest_is_raw: :class:`bool`
If ``False`` and a keyword-only argument is provided then the keyword
only argument is stripped and handled as if it was a regular argument
that handles :exc:`.MissingRequiredArgument` and default values in a
regular matter rather than passing the rest completely raw. If ``True``
then the keyword-only argument will pass in the rest of the arguments
in a completely raw matter. Defaults to ``False``.
invoked_subcommand: Optional[:class:`Command`]
The subcommand that was invoked, if any.
ignore_extra: :class:`bool`
If ``True``\, ignores extraneous strings passed to a command if all its
requirements are met (e.g. ``?foo a b c`` when only expecting ``a``
and ``b``). Otherwise :func:`.on_command_error` and local error handlers
are called with :exc:`.TooManyArguments`. Defaults to ``True``.
cooldown_after_parsing: :class:`bool`
If ``True``\, cooldown processing is done after argument parsing,
which calls converters. If ``False`` then cooldown processing is done
first and then the converters are called second. Defaults to ``False``.
"""
def __new__(cls, *args, **kwargs):
# if you're wondering why this is done, it's because we need to ensure
# we have a complete original copy of **kwargs even for classes that
# mess with it by popping before delegating to the subclass __init__.
# In order to do this, we need to control the instance creation and
# inject the original kwargs through __new__ rather than doing it
# inside __init__.
self = super().__new__(cls)
# we do a shallow copy because it's probably the most common use case.
# this could potentially break if someone modifies a list or something
# while it's in movement, but for now this is the cheapest and
# fastest way to do what we want.
self.__original_kwargs__ = kwargs.copy()
return self
def __init__(self, func, **kwargs):
if not asyncio.iscoroutinefunction(func):
raise TypeError('Callback must be a coroutine.')
self.name = name = kwargs.get('name') or func.__name__
if not isinstance(name, str):
raise TypeError('Name of a command must be a string.')
self.callback = func
self.enabled = kwargs.get('enabled', True)
help_doc = kwargs.get('help')
if help_doc is not None:
help_doc = inspect.cleandoc(help_doc)
else:
help_doc = inspect.getdoc(func)
if isinstance(help_doc, bytes):
help_doc = help_doc.decode('utf-8')
self.help = help_doc
self.brief = kwargs.get('brief')
self.usage = kwargs.get('usage')
self.rest_is_raw = kwargs.get('rest_is_raw', False)
self.aliases = kwargs.get('aliases', [])
if not isinstance(self.aliases, (list, tuple)):
raise TypeError("Aliases of a command must be a list of strings.")
self.description = inspect.cleandoc(kwargs.get('description', ''))
self.hidden = kwargs.get('hidden', False)
try:
checks = func.__commands_checks__
checks.reverse()
except AttributeError:
checks = kwargs.get('checks', [])
finally:
self.checks = checks
try:
cooldown = func.__commands_cooldown__
except AttributeError:
cooldown = kwargs.get('cooldown')
finally:
self._buckets = CooldownMapping(cooldown)
try:
max_concurrency = func.__commands_max_concurrency__
except AttributeError:
max_concurrency = kwargs.get('max_concurrency')
finally:
self._max_concurrency = max_concurrency
self.ignore_extra = kwargs.get('ignore_extra', True)
self.cooldown_after_parsing = kwargs.get('cooldown_after_parsing', False)
self.cog = None
# bandaid for the fact that sometimes parent can be the bot instance
parent = kwargs.get('parent')
self.parent = parent if isinstance(parent, _BaseCommand) else None
self._before_invoke = None
self._after_invoke = None
@property
def callback(self):
return self._callback
@callback.setter
def callback(self, function):
self._callback = function
self.module = function.__module__
signature = inspect.signature(function)
self.params = signature.parameters.copy()
# PEP-563 allows postponing evaluation of annotations with a __future__
# import. When postponed, Parameter.annotation will be a string and must
# be replaced with the real value for the converters to work later on
for key, value in self.params.items():
if isinstance(value.annotation, str):
self.params[key] = value = value.replace(annotation=eval(value.annotation, function.__globals__))
# fail early for when someone passes an unparameterized Greedy type
if value.annotation is converters.Greedy:
raise TypeError('Unparameterized Greedy[...] is disallowed in signature.')
[docs] def add_check(self, func):
"""Adds a check to the command.
This is the non-decorator interface to :func:`.check`.
.. versionadded:: 1.3
Parameters
-----------
func
The function that will be used as a check.
"""
self.checks.append(func)
[docs] def remove_check(self, func):
"""Removes a check from the command.
This function is idempotent and will not raise an exception
if the function is not in the command's checks.
.. versionadded:: 1.3
Parameters
-----------
func
The function to remove from the checks.
"""
try:
self.checks.remove(func)
except ValueError:
pass
[docs] def update(self, **kwargs):
"""Updates :class:`Command` instance with updated attribute.
This works similarly to the :func:`.command` decorator in terms
of parameters in that they are passed to the :class:`Command` or
subclass constructors, sans the name and callback.
"""
self.__init__(self.callback, **dict(self.__original_kwargs__, **kwargs))
async def __call__(self, *args, **kwargs):
"""|coro|
Calls the internal callback that the command holds.
.. note::
This bypasses all mechanisms -- including checks, converters,
invoke hooks, cooldowns, etc. You must take care to pass
the proper arguments and types to this function.
.. versionadded:: 1.3
"""
if self.cog is not None:
return await self.callback(self.cog, *args, **kwargs)
else:
return await self.callback(*args, **kwargs)
def _ensure_assignment_on_copy(self, other):
other._before_invoke = self._before_invoke
other._after_invoke = self._after_invoke
if self.checks != other.checks:
other.checks = self.checks.copy()
if self._buckets.valid and not other._buckets.valid:
other._buckets = self._buckets.copy()
if self._max_concurrency != other._max_concurrency:
other._max_concurrency = self._max_concurrency.copy()
try:
other.on_error = self.on_error
except AttributeError:
pass
return other
[docs] def copy(self):
"""Creates a copy of this command."""
ret = self.__class__(self.callback, **self.__original_kwargs__)
return self._ensure_assignment_on_copy(ret)
def _update_copy(self, kwargs):
if kwargs:
kw = kwargs.copy()
kw.update(self.__original_kwargs__)
copy = self.__class__(self.callback, **kw)
return self._ensure_assignment_on_copy(copy)
else:
return self.copy()
async def dispatch_error(self, ctx, error):
ctx.command_failed = True
cog = self.cog
try:
coro = self.on_error
except AttributeError:
pass
else:
injected = wrap_callback(coro)
if cog is not None:
await injected(cog, ctx, error)
else:
await injected(ctx, error)
try:
if cog is not None:
local = Cog._get_overridden_method(cog.cog_command_error)
if local is not None:
wrapped = wrap_callback(local)
await wrapped(ctx, error)
finally:
ctx.bot.dispatch('command_error', ctx, error)
async def _actual_conversion(self, ctx, converter, argument, param):
if converter is bool:
return _convert_to_bool(argument)
try:
module = converter.__module__
except AttributeError:
pass
else:
if module is not None and (module.startswith('discord.') and not module.endswith('converter')):
converter = getattr(converters, converter.__name__ + 'Converter', converter)
try:
if inspect.isclass(converter):
if issubclass(converter, converters.Converter):
instance = converter()
ret = await instance.convert(ctx, argument)
return ret
else:
method = getattr(converter, 'convert', None)
if method is not None and inspect.ismethod(method):
ret = await method(ctx, argument)
return ret
elif isinstance(converter, converters.Converter):
ret = await converter.convert(ctx, argument)
return ret
except CommandError:
raise
except Exception as exc:
raise ConversionError(converter, exc) from exc
try:
return converter(argument)
except CommandError:
raise
except Exception as exc:
try:
name = converter.__name__
except AttributeError:
name = converter.__class__.__name__
raise BadArgument('Converting to "{}" failed for parameter "{}".'.format(name, param.name)) from exc
async def do_conversion(self, ctx, converter, argument, param):
try:
origin = converter.__origin__
except AttributeError:
pass
else:
if origin is typing.Union:
errors = []
_NoneType = type(None)
for conv in converter.__args__:
# if we got to this part in the code, then the previous conversions have failed
# so we should just undo the view, return the default, and allow parsing to continue
# with the other parameters
if conv is _NoneType and param.kind != param.VAR_POSITIONAL:
ctx.view.undo()
return None if param.default is param.empty else param.default
try:
value = await self._actual_conversion(ctx, conv, argument, param)
except CommandError as exc:
errors.append(exc)
else:
return value
# if we're here, then we failed all the converters
raise BadUnionArgument(param, converter.__args__, errors)
return await self._actual_conversion(ctx, converter, argument, param)
def _get_converter(self, param):
converter = param.annotation
if converter is param.empty:
if param.default is not param.empty:
converter = str if param.default is None else type(param.default)
else:
converter = str
return converter
async def transform(self, ctx, param):
required = param.default is param.empty
converter = self._get_converter(param)
consume_rest_is_special = param.kind == param.KEYWORD_ONLY and not self.rest_is_raw
view = ctx.view
view.skip_ws()
# The greedy converter is simple -- it keeps going until it fails in which case,
# it undos the view ready for the next parameter to use instead
if type(converter) is converters._Greedy:
if param.kind == param.POSITIONAL_OR_KEYWORD:
return await self._transform_greedy_pos(ctx, param, required, converter.converter)
elif param.kind == param.VAR_POSITIONAL:
return await self._transform_greedy_var_pos(ctx, param, converter.converter)
else:
# if we're here, then it's a KEYWORD_ONLY param type
# since this is mostly useless, we'll helpfully transform Greedy[X]
# into just X and do the parsing that way.
converter = converter.converter
if view.eof:
if param.kind == param.VAR_POSITIONAL:
raise RuntimeError() # break the loop
if required:
if self._is_typing_optional(param.annotation):
return None
raise MissingRequiredArgument(param)
return param.default
previous = view.index
if consume_rest_is_special:
argument = view.read_rest().strip()
else:
argument = view.get_quoted_word()
view.previous = previous
return await self.do_conversion(ctx, converter, argument, param)
async def _transform_greedy_pos(self, ctx, param, required, converter):
view = ctx.view
result = []
while not view.eof:
# for use with a manual undo
previous = view.index
view.skip_ws()
try:
argument = view.get_quoted_word()
value = await self.do_conversion(ctx, converter, argument, param)
except (CommandError, ArgumentParsingError):
view.index = previous
break
else:
result.append(value)
if not result and not required:
return param.default
return result
async def _transform_greedy_var_pos(self, ctx, param, converter):
view = ctx.view
previous = view.index
try:
argument = view.get_quoted_word()
value = await self.do_conversion(ctx, converter, argument, param)
except (CommandError, ArgumentParsingError):
view.index = previous
raise RuntimeError() from None # break loop
else:
return value
@property
def clean_params(self):
"""Retrieves the parameter OrderedDict without the context or self parameters.
Useful for inspecting signature.
"""
result = self.params.copy()
if self.cog is not None:
# first parameter is self
result.popitem(last=False)
try:
# first/second parameter is context
result.popitem(last=False)
except Exception:
raise ValueError('Missing context parameter') from None
return result
@property
def full_parent_name(self):
""":class:`str`: Retrieves the fully qualified parent command name.
This the base command name required to execute it. For example,
in ``?one two three`` the parent name would be ``one two``.
"""
entries = []
command = self
while command.parent is not None:
command = command.parent
entries.append(command.name)
return ' '.join(reversed(entries))
@property
def parents(self):
""":class:`Command`: Retrieves the parents of this command.
If the command has no parents then it returns an empty :class:`list`.
For example in commands ``?a b c test``, the parents are ``[c, b, a]``.
.. versionadded:: 1.1
"""
entries = []
command = self
while command.parent is not None:
command = command.parent
entries.append(command)
return entries
@property
def root_parent(self):
"""Retrieves the root parent of this command.
If the command has no parents then it returns ``None``.
For example in commands ``?a b c test``, the root parent is ``a``.
"""
if not self.parent:
return None
return self.parents[-1]
@property
def qualified_name(self):
""":class:`str`: Retrieves the fully qualified command name.
This is the full parent name with the command name as well.
For example, in ``?one two three`` the qualified name would be
``one two three``.
"""
parent = self.full_parent_name
if parent:
return parent + ' ' + self.name
else:
return self.name
def __str__(self):
return self.qualified_name
async def _parse_arguments(self, ctx):
ctx.args = [ctx] if self.cog is None else [self.cog, ctx]
ctx.kwargs = {}
args = ctx.args
kwargs = ctx.kwargs
view = ctx.view
iterator = iter(self.params.items())
if self.cog is not None:
# we have 'self' as the first parameter so just advance
# the iterator and resume parsing
try:
next(iterator)
except StopIteration:
fmt = 'Callback for {0.name} command is missing "self" parameter.'
raise discord.ClientException(fmt.format(self))
# next we have the 'ctx' as the next parameter
try:
next(iterator)
except StopIteration:
fmt = 'Callback for {0.name} command is missing "ctx" parameter.'
raise discord.ClientException(fmt.format(self))
for name, param in iterator:
if param.kind == param.POSITIONAL_OR_KEYWORD:
transformed = await self.transform(ctx, param)
args.append(transformed)
elif param.kind == param.KEYWORD_ONLY:
# kwarg only param denotes "consume rest" semantics
if self.rest_is_raw:
converter = self._get_converter(param)
argument = view.read_rest()
kwargs[name] = await self.do_conversion(ctx, converter, argument, param)
else:
kwargs[name] = await self.transform(ctx, param)
break
elif param.kind == param.VAR_POSITIONAL:
while not view.eof:
try:
transformed = await self.transform(ctx, param)
args.append(transformed)
except RuntimeError:
break
if not self.ignore_extra:
if not view.eof:
raise TooManyArguments('Too many arguments passed to ' + self.qualified_name)
async def call_before_hooks(self, ctx):
# now that we're done preparing we can call the pre-command hooks
# first, call the command local hook:
cog = self.cog
if self._before_invoke is not None:
if cog is None:
await self._before_invoke(ctx)
else:
await self._before_invoke(cog, ctx)
# call the cog local hook if applicable:
if cog is not None:
hook = Cog._get_overridden_method(cog.cog_before_invoke)
if hook is not None:
await hook(ctx)
# call the bot global hook if necessary
hook = ctx.bot._before_invoke
if hook is not None:
await hook(ctx)
async def call_after_hooks(self, ctx):
cog = self.cog
if self._after_invoke is not None:
if cog is None:
await self._after_invoke(ctx)
else:
await self._after_invoke(cog, ctx)
# call the cog local hook if applicable:
if cog is not None:
hook = Cog._get_overridden_method(cog.cog_after_invoke)
if hook is not None:
await hook(ctx)
hook = ctx.bot._after_invoke
if hook is not None:
await hook(ctx)
def _prepare_cooldowns(self, ctx):
if self._buckets.valid:
current = ctx.message.created_at.replace(tzinfo=datetime.timezone.utc).timestamp()
bucket = self._buckets.get_bucket(ctx.message, current)
retry_after = bucket.update_rate_limit(current)
if retry_after:
raise CommandOnCooldown(bucket, retry_after)
async def prepare(self, ctx):
ctx.command = self
if not await self.can_run(ctx):
raise CheckFailure('The check functions for command {0.qualified_name} failed.'.format(self))
if self.cooldown_after_parsing:
await self._parse_arguments(ctx)
self._prepare_cooldowns(ctx)
else:
self._prepare_cooldowns(ctx)
await self._parse_arguments(ctx)
if self._max_concurrency is not None:
await self._max_concurrency.acquire(ctx)
await self.call_before_hooks(ctx)
[docs] def is_on_cooldown(self, ctx):
"""Checks whether the command is currently on cooldown.
Parameters
-----------
ctx: :class:`.Context`
The invocation context to use when checking the commands cooldown status.
Returns
--------
:class:`bool`
A boolean indicating if the command is on cooldown.
"""
if not self._buckets.valid:
return False
bucket = self._buckets.get_bucket(ctx.message)
return bucket.get_tokens() == 0
[docs] def reset_cooldown(self, ctx):
"""Resets the cooldown on this command.
Parameters
-----------
ctx: :class:`.Context`
The invocation context to reset the cooldown under.
"""
if self._buckets.valid:
bucket = self._buckets.get_bucket(ctx.message)
bucket.reset()
async def invoke(self, ctx):
await self.prepare(ctx)
# terminate the invoked_subcommand chain.
# since we're in a regular command (and not a group) then
# the invoked subcommand is None.
ctx.invoked_subcommand = None
injected = hooked_wrapped_callback(self, ctx, self.callback)
await injected(*ctx.args, **ctx.kwargs)
async def reinvoke(self, ctx, *, call_hooks=False):
ctx.command = self
await self._parse_arguments(ctx)
if call_hooks:
await self.call_before_hooks(ctx)
ctx.invoked_subcommand = None
try:
await self.callback(*ctx.args, **ctx.kwargs)
except:
ctx.command_failed = True
raise
finally:
if call_hooks:
await self.call_after_hooks(ctx)
def error(self, coro):
"""A decorator that registers a coroutine as a local error handler.
A local error handler is an :func:`.on_command_error` event limited to
a single command. However, the :func:`.on_command_error` is still
invoked afterwards as the catch-all.
Parameters
-----------
coro: :ref:`coroutine <coroutine>`
The coroutine to register as the local error handler.
Raises
-------
TypeError
The coroutine passed is not actually a coroutine.
"""
if not asyncio.iscoroutinefunction(coro):
raise TypeError('The error handler must be a coroutine.')
self.on_error = coro
return coro
[docs] def before_invoke(self, coro):
"""A decorator that registers a coroutine as a pre-invoke hook.
A pre-invoke hook is called directly before the command is
called. This makes it a useful function to set up database
connections or any type of set up required.
This pre-invoke hook takes a sole parameter, a :class:`.Context`.
See :meth:`.Bot.before_invoke` for more info.
Parameters
-----------
coro: :ref:`coroutine <coroutine>`
The coroutine to register as the pre-invoke hook.
Raises
-------
TypeError
The coroutine passed is not actually a coroutine.
"""
if not asyncio.iscoroutinefunction(coro):
raise TypeError('The pre-invoke hook must be a coroutine.')
self._before_invoke = coro
return coro
[docs] def after_invoke(self, coro):
"""A decorator that registers a coroutine as a post-invoke hook.
A post-invoke hook is called directly after the command is
called. This makes it a useful function to clean-up database
connections or any type of clean up required.
This post-invoke hook takes a sole parameter, a :class:`.Context`.
See :meth:`.Bot.after_invoke` for more info.
Parameters
-----------
coro: :ref:`coroutine <coroutine>`
The coroutine to register as the post-invoke hook.
Raises
-------
TypeError
The coroutine passed is not actually a coroutine.
"""
if not asyncio.iscoroutinefunction(coro):
raise TypeError('The post-invoke hook must be a coroutine.')
self._after_invoke = coro
return coro
@property
def cog_name(self):
""":class:`str`: The name of the cog this command belongs to. None otherwise."""
return type(self.cog).__cog_name__ if self.cog is not None else None
@property
def short_doc(self):
""":class:`str`: Gets the "short" documentation of a command.
By default, this is the :attr:`brief` attribute.
If that lookup leads to an empty string then the first line of the
:attr:`help` attribute is used instead.
"""
if self.brief is not None:
return self.brief
if self.help is not None:
return self.help.split('\n', 1)[0]
return ''
def _is_typing_optional(self, annotation):
try:
origin = annotation.__origin__
except AttributeError:
return False
if origin is not typing.Union:
return False
return annotation.__args__[-1] is type(None)
@property
def signature(self):
""":class:`str`: Returns a POSIX-like signature useful for help command output."""
if self.usage is not None:
return self.usage
params = self.clean_params
if not params:
return ''
result = []
for name, param in params.items():
greedy = isinstance(param.annotation, converters._Greedy)
if param.default is not param.empty:
# We don't want None or '' to trigger the [name=value] case and instead it should
# do [name] since [name=None] or [name=] are not exactly useful for the user.
should_print = param.default if isinstance(param.default, str) else param.default is not None
if should_print:
result.append('[%s=%s]' % (name, param.default) if not greedy else
'[%s=%s]...' % (name, param.default))
continue
else:
result.append('[%s]' % name)
elif param.kind == param.VAR_POSITIONAL:
result.append('[%s...]' % name)
elif greedy:
result.append('[%s]...' % name)
elif self._is_typing_optional(param.annotation):
result.append('[%s]' % name)
else:
result.append('<%s>' % name)
return ' '.join(result)
async def can_run(self, ctx):
"""|coro|
Checks if the command can be executed by checking all the predicates
inside the :attr:`.checks` attribute. This also checks whether the
command is disabled.
.. versionchanged:: 1.3
Checks whether the command is disabled or not
Parameters
-----------
ctx: :class:`.Context`
The ctx of the command currently being invoked.
Raises
-------
:class:`CommandError`
Any command error that was raised during a check call will be propagated
by this function.
Returns
--------
:class:`bool`
A boolean indicating if the command can be invoked.
"""
if not self.enabled:
raise DisabledCommand('{0.name} command is disabled'.format(self))
original = ctx.command
ctx.command = self
try:
if not await ctx.bot.can_run(ctx):
raise CheckFailure('The global check functions for command {0.qualified_name} failed.'.format(self))
cog = self.cog
if cog is not None:
local_check = Cog._get_overridden_method(cog.cog_check)
if local_check is not None:
ret = await discord.utils.maybe_coroutine(local_check, ctx)
if not ret:
return False
predicates = self.checks
if not predicates:
# since we have no checks, then we just return True.
return True
return await discord.utils.async_all(predicate(ctx) for predicate in predicates)
finally:
ctx.command = original
class GroupMixin:
"""A mixin that implements common functionality for classes that behave
similar to :class:`.Group` and are allowed to register commands.
Attributes
-----------
all_commands: :class:`dict`
A mapping of command name to :class:`.Command` or subclass
objects.
case_insensitive: :class:`bool`
Whether the commands should be case insensitive. Defaults to ``False``.
"""
def __init__(self, *args, **kwargs):
case_insensitive = kwargs.get('case_insensitive', False)
self.all_commands = _CaseInsensitiveDict() if case_insensitive else {}
self.case_insensitive = case_insensitive
super().__init__(*args, **kwargs)
@property
def commands(self):
"""Set[:class:`.Command`]: A unique set of commands without aliases that are registered."""
return set(self.all_commands.values())
def recursively_remove_all_commands(self):
for command in self.all_commands.copy().values():
if isinstance(command, GroupMixin):
command.recursively_remove_all_commands()
self.remove_command(command.name)
def add_command(self, command):
"""Adds a :class:`.Command` or its subclasses into the internal list
of commands.
This is usually not called, instead the :meth:`~.GroupMixin.command` or
:meth:`~.GroupMixin.group` shortcut decorators are used instead.
Parameters
-----------
command: :class:`Command`
The command to add.
Raises
-------
:exc:`.ClientException`
If the command is already registered.
TypeError
If the command passed is not a subclass of :class:`.Command`.
"""
if not isinstance(command, Command):
raise TypeError('The command passed must be a subclass of Command')
if isinstance(self, Command):
command.parent = self
if command.name in self.all_commands:
raise discord.ClientException('Command {0.name} is already registered.'.format(command))
self.all_commands[command.name] = command
for alias in command.aliases:
if alias in self.all_commands:
raise discord.ClientException('The alias {} is already an existing command or alias.'.format(alias))
self.all_commands[alias] = command
def remove_command(self, name):
"""Remove a :class:`.Command` or subclasses from the internal list
of commands.
This could also be used as a way to remove aliases.
Parameters
-----------
name: :class:`str`
The name of the command to remove.
Returns
--------
:class:`.Command` or subclass
The command that was removed. If the name is not valid then
`None` is returned instead.
"""
command = self.all_commands.pop(name, None)
# does not exist
if command is None:
return None
if name in command.aliases:
# we're removing an alias so we don't want to remove the rest
return command
# we're not removing the alias so let's delete the rest of them.
for alias in command.aliases:
self.all_commands.pop(alias, None)
return command
def walk_commands(self):
"""An iterator that recursively walks through all commands and subcommands."""
for command in tuple(self.all_commands.values()):
yield command
if isinstance(command, GroupMixin):
yield from command.walk_commands()
def get_command(self, name):
"""Get a :class:`.Command` or subclasses from the internal list
of commands.
This could also be used as a way to get aliases.
The name could be fully qualified (e.g. ``'foo bar'``) will get
the subcommand ``bar`` of the group command ``foo``. If a
subcommand is not found then ``None`` is returned just as usual.
Parameters
-----------
name: :class:`str`
The name of the command to get.
Returns
--------
:class:`Command` or subclass
The command that was requested. If not found, returns ``None``.
"""
# fast path, no space in name.
if ' ' not in name:
return self.all_commands.get(name)
names = name.split()
obj = self.all_commands.get(names[0])
if not isinstance(obj, GroupMixin):
return obj
for name in names[1:]:
try:
obj = obj.all_commands[name]
except (AttributeError, KeyError):
return None
return obj
def command(self, *args, **kwargs):
"""A shortcut decorator that invokes :func:`.command` and adds it to
the internal command list via :meth:`~.GroupMixin.add_command`.
"""
def decorator(func):
kwargs.setdefault('parent', self)
result = command(*args, **kwargs)(func)
self.add_command(result)
return result
return decorator
def group(self, *args, **kwargs):
"""A shortcut decorator that invokes :func:`.group` and adds it to
the internal command list via :meth:`~.GroupMixin.add_command`.
"""
def decorator(func):
kwargs.setdefault('parent', self)
result = group(*args, **kwargs)(func)
self.add_command(result)
return result
return decorator
class Group(GroupMixin, Command):
"""A class that implements a grouping protocol for commands to be
executed as subcommands.
This class is a subclass of :class:`.Command` and thus all options
valid in :class:`.Command` are valid in here as well.
Attributes
-----------
invoke_without_command: Optional[:class:`bool`]
Indicates if the group callback should begin parsing and
invocation only if no subcommand was found. Useful for
making it an error handling function to tell the user that
no subcommand was found or to have different functionality
in case no subcommand was found. If this is ``False``, then
the group callback will always be invoked first. This means
that the checks and the parsing dictated by its parameters
will be executed. Defaults to ``False``.
case_insensitive: Optional[:class:`bool`]
Indicates if the group's commands should be case insensitive.
Defaults to ``False``.
"""
def __init__(self, *args, **attrs):
self.invoke_without_command = attrs.pop('invoke_without_command', False)
super().__init__(*args, **attrs)
def copy(self):
"""Creates a copy of this :class:`Group`."""
ret = super().copy()
for cmd in self.commands:
ret.add_command(cmd.copy())
return ret
async def invoke(self, ctx):
ctx.invoked_subcommand = None
early_invoke = not self.invoke_without_command
if early_invoke:
await self.prepare(ctx)
view = ctx.view
previous = view.index
view.skip_ws()
trigger = view.get_word()
if trigger:
ctx.subcommand_passed = trigger
ctx.invoked_subcommand = self.all_commands.get(trigger, None)
if early_invoke:
injected = hooked_wrapped_callback(self, ctx, self.callback)
await injected(*ctx.args, **ctx.kwargs)
if trigger and ctx.invoked_subcommand:
ctx.invoked_with = trigger
await ctx.invoked_subcommand.invoke(ctx)
elif not early_invoke:
# undo the trigger parsing
view.index = previous
view.previous = previous
await super().invoke(ctx)
async def reinvoke(self, ctx, *, call_hooks=False):
ctx.invoked_subcommand = None
early_invoke = not self.invoke_without_command
if early_invoke:
ctx.command = self
await self._parse_arguments(ctx)
if call_hooks:
await self.call_before_hooks(ctx)
view = ctx.view
previous = view.index
view.skip_ws()
trigger = view.get_word()
if trigger:
ctx.subcommand_passed = trigger
ctx.invoked_subcommand = self.all_commands.get(trigger, None)
if early_invoke:
try:
await self.callback(*ctx.args, **ctx.kwargs)
except:
ctx.command_failed = True
raise
finally:
if call_hooks:
await self.call_after_hooks(ctx)
if trigger and ctx.invoked_subcommand:
ctx.invoked_with = trigger
await ctx.invoked_subcommand.reinvoke(ctx, call_hooks=call_hooks)
elif not early_invoke:
# undo the trigger parsing
view.index = previous
view.previous = previous
await super().reinvoke(ctx, call_hooks=call_hooks)
# Decorators
def command(name=None, cls=None, **attrs):
"""A decorator that transforms a function into a :class:`.Command`
or if called with :func:`.group`, :class:`.Group`.
By default the ``help`` attribute is received automatically from the
docstring of the function and is cleaned up with the use of
``inspect.cleandoc``. If the docstring is ``bytes``, then it is decoded
into :class:`str` using utf-8 encoding.
All checks added using the :func:`.check` & co. decorators are added into
the function. There is no way to supply your own checks through this
decorator.
Parameters
-----------
name: :class:`str`
The name to create the command with. By default this uses the
function name unchanged.
cls
The class to construct with. By default this is :class:`.Command`.
You usually do not change this.
attrs
Keyword arguments to pass into the construction of the class denoted
by ``cls``.
Raises
-------
TypeError
If the function is not a coroutine or is already a command.
"""
if cls is None:
cls = Command
def decorator(func):
if isinstance(func, Command):
raise TypeError('Callback is already a command.')
return cls(func, name=name, **attrs)
return decorator
def group(name=None, **attrs):
"""A decorator that transforms a function into a :class:`.Group`.
This is similar to the :func:`.command` decorator but the ``cls``
parameter is set to :class:`Group` by default.
.. versionchanged:: 1.1
The ``cls`` parameter can now be passed.
"""
attrs.setdefault('cls', Group)
return command(name=name, **attrs)
def check(predicate):
r"""A decorator that adds a check to the :class:`.Command` or its
subclasses. These checks could be accessed via :attr:`.Command.checks`.
These checks should be predicates that take in a single parameter taking
a :class:`.Context`. If the check returns a ``False``\-like value then
during invocation a :exc:`.CheckFailure` exception is raised and sent to
the :func:`.on_command_error` event.
If an exception should be thrown in the predicate then it should be a
subclass of :exc:`.CommandError`. Any exception not subclassed from it
will be propagated while those subclassed will be sent to
:func:`.on_command_error`.
A special attribute named ``predicate`` is bound to the value
returned by this decorator to retrieve the predicate passed to the
decorator. This allows the following introspection and chaining to be done:
.. code-block:: python3
def owner_or_permissions(**perms):
original = commands.has_permissions(**perms).predicate
async def extended_check(ctx):
if ctx.guild is None:
return False
return ctx.guild.owner_id == ctx.author.id or await original(ctx)
return commands.check(extended_check)
.. note::
The function returned by ``predicate`` is **always** a coroutine,
even if the original function was not a coroutine.
.. versionchanged:: 1.3
The ``predicate`` attribute was added.
Examples
---------
Creating a basic check to see if the command invoker is you.
.. code-block:: python3
def check_if_it_is_me(ctx):
return ctx.message.author.id == 85309593344815104
@bot.command()
@commands.check(check_if_it_is_me)
async def only_for_me(ctx):
await ctx.send('I know you!')
Transforming common checks into its own decorator:
.. code-block:: python3
def is_me():
def predicate(ctx):
return ctx.message.author.id == 85309593344815104
return commands.check(predicate)
@bot.command()
@is_me()
async def only_me(ctx):
await ctx.send('Only you!')
Parameters
-----------
predicate: Callable[[:class:`Context`], :class:`bool`]
The predicate to check if the command should be invoked.
"""
def decorator(func):
if isinstance(func, Command):
func.checks.append(predicate)
else:
if not hasattr(func, '__commands_checks__'):
func.__commands_checks__ = []
func.__commands_checks__.append(predicate)
return func
if inspect.iscoroutinefunction(predicate):
decorator.predicate = predicate
else:
@functools.wraps(predicate)
async def wrapper(ctx):
return predicate(ctx)
decorator.predicate = wrapper
return decorator
def check_any(*checks):
r"""A :func:`check` that is added that checks if any of the checks passed
will pass, i.e. using logical OR.
If all checks fail then :exc:`.CheckAnyFailure` is raised to signal the failure.
It inherits from :exc:`.CheckFailure`.
.. note::
The ``predicate`` attribute for this function **is** a coroutine.
.. versionadded:: 1.3
Parameters
------------
\*checks: Callable[[:class:`Context`], :class:`bool`]
An argument list of checks that have been decorated with
the :func:`check` decorator.
Raises
-------
TypeError
A check passed has not been decorated with the :func:`check`
decorator.
Examples
---------
Creating a basic check to see if it's the bot owner or
the server owner:
.. code-block:: python3
def is_guild_owner():
def predicate(ctx):
return ctx.guild is not None and ctx.guild.owner_id == ctx.author.id
return commands.check(predicate)
@bot.command()
@commands.check_any(commands.is_owner(), is_guild_owner())
async def only_for_owners(ctx):
await ctx.send('Hello mister owner!')
"""
unwrapped = []
for wrapped in checks:
try:
pred = wrapped.predicate
except AttributeError:
raise TypeError('%r must be wrapped by commands.check decorator' % wrapped) from None
else:
unwrapped.append(pred)
async def predicate(ctx):
errors = []
for func in unwrapped:
try:
value = await func(ctx)
except CheckFailure as e:
errors.append(e)
else:
if value:
return True
# if we're here, all checks failed
raise CheckAnyFailure(unwrapped, errors)
return check(predicate)
def has_role(item):
"""A :func:`.check` that is added that checks if the member invoking the
command has the role specified via the name or ID specified.
If a string is specified, you must give the exact name of the role, including
caps and spelling.
If an integer is specified, you must give the exact snowflake ID of the role.
If the message is invoked in a private message context then the check will
return ``False``.
This check raises one of two special exceptions, :exc:`.MissingRole` if the user
is missing a role, or :exc:`.NoPrivateMessage` if it is used in a private message.
Both inherit from :exc:`.CheckFailure`.
.. versionchanged:: 1.1
Raise :exc:`.MissingRole` or :exc:`.NoPrivateMessage`
instead of generic :exc:`.CheckFailure`
Parameters
-----------
item: Union[:class:`int`, :class:`str`]
The name or ID of the role to check.
"""
def predicate(ctx):
if not isinstance(ctx.channel, discord.abc.GuildChannel):
raise NoPrivateMessage()
if isinstance(item, int):
role = discord.utils.get(ctx.author.roles, id=item)
else:
role = discord.utils.get(ctx.author.roles, name=item)
if role is None:
raise MissingRole(item)
return True
return check(predicate)
def has_any_role(*items):
r"""A :func:`.check` that is added that checks if the member invoking the
command has **any** of the roles specified. This means that if they have
one out of the three roles specified, then this check will return `True`.
Similar to :func:`.has_role`\, the names or IDs passed in must be exact.
This check raises one of two special exceptions, :exc:`.MissingAnyRole` if the user
is missing all roles, or :exc:`.NoPrivateMessage` if it is used in a private message.
Both inherit from :exc:`.CheckFailure`.
.. versionchanged:: 1.1
Raise :exc:`.MissingAnyRole` or :exc:`.NoPrivateMessage`
instead of generic :exc:`.CheckFailure`
Parameters
-----------
items: List[Union[:class:`str`, :class:`int`]]
An argument list of names or IDs to check that the member has roles wise.
Example
--------
.. code-block:: python3
@bot.command()
@commands.has_any_role('Library Devs', 'Moderators', 492212595072434186)
async def cool(ctx):
await ctx.send('You are cool indeed')
"""
def predicate(ctx):
if not isinstance(ctx.channel, discord.abc.GuildChannel):
raise NoPrivateMessage()
getter = functools.partial(discord.utils.get, ctx.author.roles)
if any(getter(id=item) is not None if isinstance(item, int) else getter(name=item) is not None for item in items):
return True
raise MissingAnyRole(items)
return check(predicate)
def bot_has_role(item):
"""Similar to :func:`.has_role` except checks if the bot itself has the
role.
This check raises one of two special exceptions, :exc:`.BotMissingRole` if the bot
is missing the role, or :exc:`.NoPrivateMessage` if it is used in a private message.
Both inherit from :exc:`.CheckFailure`.
.. versionchanged:: 1.1
Raise :exc:`.BotMissingRole` or :exc:`.NoPrivateMessage`
instead of generic :exc:`.CheckFailure`
"""
def predicate(ctx):
ch = ctx.channel
if not isinstance(ch, discord.abc.GuildChannel):
raise NoPrivateMessage()
me = ch.guild.me
if isinstance(item, int):
role = discord.utils.get(me.roles, id=item)
else:
role = discord.utils.get(me.roles, name=item)
if role is None:
raise BotMissingRole(item)
return True
return check(predicate)
def bot_has_any_role(*items):
"""Similar to :func:`.has_any_role` except checks if the bot itself has
any of the roles listed.
This check raises one of two special exceptions, :exc:`.BotMissingAnyRole` if the bot
is missing all roles, or :exc:`.NoPrivateMessage` if it is used in a private message.
Both inherit from :exc:`.CheckFailure`.
.. versionchanged:: 1.1
Raise :exc:`.BotMissingAnyRole` or :exc:`.NoPrivateMessage`
instead of generic checkfailure
"""
def predicate(ctx):
ch = ctx.channel
if not isinstance(ch, discord.abc.GuildChannel):
raise NoPrivateMessage()
me = ch.guild.me
getter = functools.partial(discord.utils.get, me.roles)
if any(getter(id=item) is not None if isinstance(item, int) else getter(name=item) is not None for item in items):
return True
raise BotMissingAnyRole(items)
return check(predicate)
def has_permissions(**perms):
"""A :func:`.check` that is added that checks if the member has all of
the permissions necessary.
Note that this check operates on the current channel permissions, not the
guild wide permissions.
The permissions passed in must be exactly like the properties shown under
:class:`.discord.Permissions`.
This check raises a special exception, :exc:`.MissingPermissions`
that is inherited from :exc:`.CheckFailure`.
Parameters
------------
perms
An argument list of permissions to check for.
Example
---------
.. code-block:: python3
@bot.command()
@commands.has_permissions(manage_messages=True)
async def test(ctx):
await ctx.send('You can manage messages.')
"""
invalid = set(perms) - set(discord.Permissions.VALID_FLAGS)
if invalid:
raise TypeError('Invalid permission(s): %s' % (', '.join(invalid)))
def predicate(ctx):
ch = ctx.channel
permissions = ch.permissions_for(ctx.author)
missing = [perm for perm, value in perms.items() if getattr(permissions, perm) != value]
if not missing:
return True
raise MissingPermissions(missing)
return check(predicate)
def bot_has_permissions(**perms):
"""Similar to :func:`.has_permissions` except checks if the bot itself has
the permissions listed.
This check raises a special exception, :exc:`.BotMissingPermissions`
that is inherited from :exc:`.CheckFailure`.
"""
invalid = set(perms) - set(discord.Permissions.VALID_FLAGS)
if invalid:
raise TypeError('Invalid permission(s): %s' % (', '.join(invalid)))
def predicate(ctx):
guild = ctx.guild
me = guild.me if guild is not None else ctx.bot.user
permissions = ctx.channel.permissions_for(me)
missing = [perm for perm, value in perms.items() if getattr(permissions, perm) != value]
if not missing:
return True
raise BotMissingPermissions(missing)
return check(predicate)
def has_guild_permissions(**perms):
"""Similar to :func:`.has_permissions`, but operates on guild wide
permissions instead of the current channel permissions.
If this check is called in a DM context, it will raise an
exception, :exc:`.NoPrivateMessage`.
.. versionadded:: 1.3
"""
invalid = set(perms) - set(discord.Permissions.VALID_FLAGS)
if invalid:
raise TypeError('Invalid permission(s): %s' % (', '.join(invalid)))
def predicate(ctx):
if not ctx.guild:
raise NoPrivateMessage
permissions = ctx.author.guild_permissions
missing = [perm for perm, value in perms.items() if getattr(permissions, perm) != value]
if not missing:
return True
raise MissingPermissions(missing)
return check(predicate)
def bot_has_guild_permissions(**perms):
"""Similar to :func:`.has_guild_permissions`, but checks the bot
members guild permissions.
.. versionadded:: 1.3
"""
invalid = set(perms) - set(discord.Permissions.VALID_FLAGS)
if invalid:
raise TypeError('Invalid permission(s): %s' % (', '.join(invalid)))
def predicate(ctx):
if not ctx.guild:
raise NoPrivateMessage
permissions = ctx.me.guild_permissions
missing = [perm for perm, value in perms.items() if getattr(permissions, perm) != value]
if not missing:
return True
raise BotMissingPermissions(missing)
return check(predicate)
def dm_only():
"""A :func:`.check` that indicates this command must only be used in a
DM context. Only private messages are allowed when
using the command.
This check raises a special exception, :exc:`.PrivateMessageOnly`
that is inherited from :exc:`.CheckFailure`.
.. versionadded:: 1.1
"""
def predicate(ctx):
if ctx.guild is not None:
raise PrivateMessageOnly()
return True
return check(predicate)
def guild_only():
"""A :func:`.check` that indicates this command must only be used in a
guild context only. Basically, no private messages are allowed when
using the command.
This check raises a special exception, :exc:`.NoPrivateMessage`
that is inherited from :exc:`.CheckFailure`.
"""
def predicate(ctx):
if ctx.guild is None:
raise NoPrivateMessage()
return True
return check(predicate)
def is_owner():
"""A :func:`.check` that checks if the person invoking this command is the
owner of the bot.
This is powered by :meth:`.Bot.is_owner`.
This check raises a special exception, :exc:`.NotOwner` that is derived
from :exc:`.CheckFailure`.
"""
async def predicate(ctx):
if not await ctx.bot.is_owner(ctx.author):
raise NotOwner('You do not own this bot.')
return True
return check(predicate)
def is_nsfw():
"""A :func:`.check` that checks if the channel is a NSFW channel.
This check raises a special exception, :exc:`.NSFWChannelRequired`
that is derived from :exc:`.CheckFailure`.
.. versionchanged:: 1.1
Raise :exc:`.NSFWChannelRequired` instead of generic :exc:`.CheckFailure`.
DM channels will also now pass this check.
"""
def pred(ctx):
ch = ctx.channel
if ctx.guild is None or (isinstance(ch, discord.TextChannel) and ch.is_nsfw()):
return True
raise NSFWChannelRequired(ch)
return check(pred)
def cooldown(rate, per, type=BucketType.default):
"""A decorator that adds a cooldown to a :class:`.Command`
or its subclasses.
A cooldown allows a command to only be used a specific amount
of times in a specific time frame. These cooldowns can be based
either on a per-guild, per-channel, per-user, per-role or global basis.
Denoted by the third argument of ``type`` which must be of enum
type :class:`.BucketType`.
If a cooldown is triggered, then :exc:`.CommandOnCooldown` is triggered in
:func:`.on_command_error` and the local error handler.
A command can only have a single cooldown.
Parameters
------------
rate: :class:`int`
The number of times a command can be used before triggering a cooldown.
per: :class:`float`
The amount of seconds to wait for a cooldown when it's been triggered.
type: :class:`.BucketType`
The type of cooldown to have.
"""
def decorator(func):
if isinstance(func, Command):
func._buckets = CooldownMapping(Cooldown(rate, per, type))
else:
func.__commands_cooldown__ = Cooldown(rate, per, type)
return func
return decorator
def max_concurrency(number, per=BucketType.default, *, wait=False):
"""A decorator that adds a maximum concurrency to a :class:`.Command` or its subclasses.
This enables you to only allow a certain number of command invocations at the same time,
for example if a command takes too long or if only one user can use it at a time. This
differs from a cooldown in that there is no set waiting period or token bucket -- only
a set number of people can run the command.
.. versionadded:: 1.3
Parameters
-------------
number: :class:`int`
The maximum number of invocations of this command that can be running at the same time.
per: :class:`.BucketType`
The bucket that this concurrency is based on, e.g. ``BucketType.guild`` would allow
it to be used up to ``number`` times per guild.
wait: :class:`bool`
Whether the command should wait for the queue to be over. If this is set to ``False``
then instead of waiting until the command can run again, the command raises
:exc:`.MaxConcurrencyReached` to its error handler. If this is set to ``True``
then the command waits until it can be executed.
"""
def decorator(func):
value = MaxConcurrency(number, per=per, wait=wait)
if isinstance(func, Command):
func._max_concurrency = value
else:
func.__commands_max_concurrency__ = value
return func
return decorator
