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import enum import errno import inspect import os import sys import typing as t from collections import abc from contextlib import contextmanager from contextlib import ExitStack from functools import update_wrapper from gettext import gettext as _ from gettext import ngettext from itertools import repeat from types import TracebackType from . import types from .exceptions import Abort from .exceptions import BadParameter from .exceptions import ClickException from .exceptions import Exit from .exceptions import MissingParameter from .exceptions import UsageError from .formatting import HelpFormatter from .formatting import join_options from .globals import pop_context from .globals import push_context from .parser import _flag_needs_value from .parser import OptionParser from .parser import split_opt from .termui import confirm from .termui import prompt from .termui import style from .utils import _detect_program_name from .utils import _expand_args from .utils import echo from .utils import make_default_short_help from .utils import make_str from .utils import PacifyFlushWrapper if t.TYPE_CHECKING: import typing_extensions as te from .shell_completion import CompletionItem F = t.TypeVar("F", bound=t.Callable[..., t.Any]) V = t.TypeVar("V") def _complete_visible_commands( ctx: "Context", incomplete: str ) -> t.Iterator[t.Tuple[str, "Command"]]: """List all the subcommands of a group that start with the incomplete value and aren't hidden. :param ctx: Invocation context for the group. :param incomplete: Value being completed. May be empty. """ multi = t.cast(MultiCommand, ctx.command) for name in multi.list_commands(ctx): if name.startswith(incomplete): command = multi.get_command(ctx, name) if command is not None and not command.hidden: yield name, command def _check_multicommand( base_command: "MultiCommand", cmd_name: str, cmd: "Command", register: bool = False ) -> None: if not base_command.chain or not isinstance(cmd, MultiCommand): return if register: hint = ( "It is not possible to add multi commands as children to" " another multi command that is in chain mode." ) else: hint = ( "Found a multi command as subcommand to a multi command" " that is in chain mode. This is not supported." ) raise RuntimeError( f"{hint}. Command {base_command.name!r} is set to chain and" f" {cmd_name!r} was added as a subcommand but it in itself is a" f" multi command. ({cmd_name!r} is a {type(cmd).__name__}" f" within a chained {type(base_command).__name__} named" f" {base_command.name!r})." ) def batch(iterable: t.Iterable[V], batch_size: int) -> t.List[t.Tuple[V, ...]]: return list(zip(*repeat(iter(iterable), batch_size))) @contextmanager def augment_usage_errors( ctx: "Context", param: t.Optional["Parameter"] = None ) -> t.Iterator[None]: """Context manager that attaches extra information to exceptions.""" try: yield except BadParameter as e: if e.ctx is None: e.ctx = ctx if param is not None and e.param is None: e.param = param raise except UsageError as e: if e.ctx is None: e.ctx = ctx raise def iter_params_for_processing( invocation_order: t.Sequence["Parameter"], declaration_order: t.Sequence["Parameter"], ) -> t.List["Parameter"]: """Given a sequence of parameters in the order as should be considered for processing and an iterable of parameters that exist, this returns a list in the correct order as they should be processed. """ def sort_key(item: "Parameter") -> t.Tuple[bool, float]: try: idx: float = invocation_order.index(item) except ValueError: idx = float("inf") return not item.is_eager, idx return sorted(declaration_order, key=sort_key) class ParameterSource(enum.Enum): """This is an :class:`~enum.Enum` that indicates the source of a parameter's value. Use :meth:`click.Context.get_parameter_source` to get the source for a parameter by name. .. versionchanged:: 8.0 Use :class:`~enum.Enum` and drop the ``validate`` method. .. versionchanged:: 8.0 Added the ``PROMPT`` value. """ COMMANDLINE = enum.auto() """The value was provided by the command line args.""" ENVIRONMENT = enum.auto() """The value was provided with an environment variable.""" DEFAULT = enum.auto() """Used the default specified by the parameter.""" DEFAULT_MAP = enum.auto() """Used a default provided by :attr:`Context.default_map`.""" PROMPT = enum.auto() """Used a prompt to confirm a default or provide a value.""" class Context: """The context is a special internal object that holds state relevant for the script execution at every single level. It's normally invisible to commands unless they opt-in to getting access to it. The context is useful as it can pass internal objects around and can control special execution features such as reading data from environment variables. A context can be used as context manager in which case it will call :meth:`close` on teardown. :param command: the command class for this context. :param parent: the parent context. :param info_name: the info name for this invocation. Generally this is the most descriptive name for the script or command. For the toplevel script it is usually the name of the script, for commands below it it's the name of the script. :param obj: an arbitrary object of user data. :param auto_envvar_prefix: the prefix to use for automatic environment variables. If this is `None` then reading from environment variables is disabled. This does not affect manually set environment variables which are always read. :param default_map: a dictionary (like object) with default values for parameters. :param terminal_width: the width of the terminal. The default is inherit from parent context. If no context defines the terminal width then auto detection will be applied. :param max_content_width: the maximum width for content rendered by Click (this currently only affects help pages). This defaults to 80 characters if not overridden. In other words: even if the terminal is larger than that, Click will not format things wider than 80 characters by default. In addition to that, formatters might add some safety mapping on the right. :param resilient_parsing: if this flag is enabled then Click will parse without any interactivity or callback invocation. Default values will also be ignored. This is useful for implementing things such as completion support. :param allow_extra_args: if this is set to `True` then extra arguments at the end will not raise an error and will be kept on the context. The default is to inherit from the command. :param allow_interspersed_args: if this is set to `False` then options and arguments cannot be mixed. The default is to inherit from the command. :param ignore_unknown_options: instructs click to ignore options it does not know and keeps them for later processing. :param help_option_names: optionally a list of strings that define how the default help parameter is named. The default is ``['--help']``. :param token_normalize_func: an optional function that is used to normalize tokens (options, choices, etc.). This for instance can be used to implement case insensitive behavior. :param color: controls if the terminal supports ANSI colors or not. The default is autodetection. This is only needed if ANSI codes are used in texts that Click prints which is by default not the case. This for instance would affect help output. :param show_default: Show the default value for commands. If this value is not set, it defaults to the value from the parent context. ``Command.show_default`` overrides this default for the specific command. .. versionchanged:: 8.1 The ``show_default`` parameter is overridden by ``Command.show_default``, instead of the other way around. .. versionchanged:: 8.0 The ``show_default`` parameter defaults to the value from the parent context. .. versionchanged:: 7.1 Added the ``show_default`` parameter. .. versionchanged:: 4.0 Added the ``color``, ``ignore_unknown_options``, and ``max_content_width`` parameters. .. versionchanged:: 3.0 Added the ``allow_extra_args`` and ``allow_interspersed_args`` parameters. .. versionchanged:: 2.0 Added the ``resilient_parsing``, ``help_option_names``, and ``token_normalize_func`` parameters. """ #: The formatter class to create with :meth:`make_formatter`. #: #: .. versionadded:: 8.0 formatter_class: t.Type["HelpFormatter"] = HelpFormatter def __init__( self, command: "Command", parent: t.Optional["Context"] = None, info_name: t.Optional[str] = None, obj: t.Optional[t.Any] = None, auto_envvar_prefix: t.Optional[str] = None, default_map: t.Optional[t.MutableMapping[str, t.Any]] = None, terminal_width: t.Optional[int] = None, max_content_width: t.Optional[int] = None, resilient_parsing: bool = False, allow_extra_args: t.Optional[bool] = None, allow_interspersed_args: t.Optional[bool] = None, ignore_unknown_options: t.Optional[bool] = None, help_option_names: t.Optional[t.List[str]] = None, token_normalize_func: t.Optional[t.Callable[[str], str]] = None, color: t.Optional[bool] = None, show_default: t.Optional[bool] = None, ) -> None: #: the parent context or `None` if none exists. self.parent = parent #: the :class:`Command` for this context. self.command = command #: the descriptive information name self.info_name = info_name #: Map of parameter names to their parsed values. Parameters #: with ``expose_value=False`` are not stored. self.params: t.Dict[str, t.Any] = {} #: the leftover arguments. self.args: t.List[str] = [] #: protected arguments. These are arguments that are prepended #: to `args` when certain parsing scenarios are encountered but #: must be never propagated to another arguments. This is used #: to implement nested parsing. self.protected_args: t.List[str] = [] #: the collected prefixes of the command's options. self._opt_prefixes: t.Set[str] = set(parent._opt_prefixes) if parent else set() if obj is None and parent is not None: obj = parent.obj #: the user object stored. self.obj: t.Any = obj self._meta: t.Dict[str, t.Any] = getattr(parent, "meta", {}) #: A dictionary (-like object) with defaults for parameters. if ( default_map is None and info_name is not None and parent is not None and parent.default_map is not None ): default_map = parent.default_map.get(info_name) self.default_map: t.Optional[t.MutableMapping[str, t.Any]] = default_map #: This flag indicates if a subcommand is going to be executed. A #: group callback can use this information to figure out if it's #: being executed directly or because the execution flow passes #: onwards to a subcommand. By default it's None, but it can be #: the name of the subcommand to execute. #: #: If chaining is enabled this will be set to ``'*'`` in case #: any commands are executed. It is however not possible to #: figure out which ones. If you require this knowledge you #: should use a :func:`result_callback`. self.invoked_subcommand: t.Optional[str] = None if terminal_width is None and parent is not None: terminal_width = parent.terminal_width #: The width of the terminal (None is autodetection). self.terminal_width: t.Optional[int] = terminal_width if max_content_width is None and parent is not None: max_content_width = parent.max_content_width #: The maximum width of formatted content (None implies a sensible #: default which is 80 for most things). self.max_content_width: t.Optional[int] = max_content_width if allow_extra_args is None: allow_extra_args = command.allow_extra_args #: Indicates if the context allows extra args or if it should #: fail on parsing. #: #: .. versionadded:: 3.0 self.allow_extra_args = allow_extra_args if allow_interspersed_args is None: allow_interspersed_args = command.allow_interspersed_args #: Indicates if the context allows mixing of arguments and #: options or not. #: #: .. versionadded:: 3.0 self.allow_interspersed_args: bool = allow_interspersed_args if ignore_unknown_options is None: ignore_unknown_options = command.ignore_unknown_options #: Instructs click to ignore options that a command does not #: understand and will store it on the context for later #: processing. This is primarily useful for situations where you #: want to call into external programs. Generally this pattern is #: strongly discouraged because it's not possibly to losslessly #: forward all arguments. #: #: .. versionadded:: 4.0 self.ignore_unknown_options: bool = ignore_unknown_options if help_option_names is None: if parent is not None: help_option_names = parent.help_option_names else: help_option_names = ["--help"] #: The names for the help options. self.help_option_names: t.List[str] = help_option_names if token_normalize_func is None and parent is not None: token_normalize_func = parent.token_normalize_func #: An optional normalization function for tokens. This is #: options, choices, commands etc. self.token_normalize_func: t.Optional[ t.Callable[[str], str] ] = token_normalize_func #: Indicates if resilient parsing is enabled. In that case Click #: will do its best to not cause any failures and default values #: will be ignored. Useful for completion. self.resilient_parsing: bool = resilient_parsing # If there is no envvar prefix yet, but the parent has one and # the command on this level has a name, we can expand the envvar # prefix automatically. if auto_envvar_prefix is None: if ( parent is not None and parent.auto_envvar_prefix is not None and self.info_name is not None ): auto_envvar_prefix = ( f"{parent.auto_envvar_prefix}_{self.info_name.upper()}" ) else: auto_envvar_prefix = auto_envvar_prefix.upper() if auto_envvar_prefix is not None: auto_envvar_prefix = auto_envvar_prefix.replace("-", "_") self.auto_envvar_prefix: t.Optional[str] = auto_envvar_prefix if color is None and parent is not None: color = parent.color #: Controls if styling output is wanted or not. self.color: t.Optional[bool] = color if show_default is None and parent is not None: show_default = parent.show_default #: Show option default values when formatting help text. self.show_default: t.Optional[bool] = show_default self._close_callbacks: t.List[t.Callable[[], t.Any]] = [] self._depth = 0 self._parameter_source: t.Dict[str, ParameterSource] = {} self._exit_stack = ExitStack() def to_info_dict(self) -> t.Dict[str, t.Any]: """Gather information that could be useful for a tool generating user-facing documentation. This traverses the entire CLI structure. .. code-block:: python with Context(cli) as ctx: info = ctx.to_info_dict() .. versionadded:: 8.0 """ return { "command": self.command.to_info_dict(self), "info_name": self.info_name, "allow_extra_args": self.allow_extra_args, "allow_interspersed_args": self.allow_interspersed_args, "ignore_unknown_options": self.ignore_unknown_options, "auto_envvar_prefix": self.auto_envvar_prefix, } def __enter__(self) -> "Context": self._depth += 1 push_context(self) return self def __exit__( self, exc_type: t.Optional[t.Type[BaseException]], exc_value: t.Optional[BaseException], tb: t.Optional[TracebackType], ) -> None: self._depth -= 1 if self._depth == 0: self.close() pop_context() @contextmanager def scope(self, cleanup: bool = True) -> t.Iterator["Context"]: """This helper method can be used with the context object to promote it to the current thread local (see :func:`get_current_context`). The default behavior of this is to invoke the cleanup functions which can be disabled by setting `cleanup` to `False`. The cleanup functions are typically used for things such as closing file handles. If the cleanup is intended the context object can also be directly used as a context manager. Example usage:: with ctx.scope(): assert get_current_context() is ctx This is equivalent:: with ctx: assert get_current_context() is ctx .. versionadded:: 5.0 :param cleanup: controls if the cleanup functions should be run or not. The default is to run these functions. In some situations the context only wants to be temporarily pushed in which case this can be disabled. Nested pushes automatically defer the cleanup. """ if not cleanup: self._depth += 1 try: with self as rv: yield rv finally: if not cleanup: self._depth -= 1 @property def meta(self) -> t.Dict[str, t.Any]: """This is a dictionary which is shared with all the contexts that are nested. It exists so that click utilities can store some state here if they need to. It is however the responsibility of that code to manage this dictionary well. The keys are supposed to be unique dotted strings. For instance module paths are a good choice for it. What is stored in there is irrelevant for the operation of click. However what is important is that code that places data here adheres to the general semantics of the system. Example usage:: LANG_KEY = f'{__name__}.lang' def set_language(value): ctx = get_current_context() ctx.meta[LANG_KEY] = value def get_language(): return get_current_context().meta.get(LANG_KEY, 'en_US') .. versionadded:: 5.0 """ return self._meta def make_formatter(self) -> HelpFormatter: """Creates the :class:`~click.HelpFormatter` for the help and usage output. To quickly customize the formatter class used without overriding this method, set the :attr:`formatter_class` attribute. .. versionchanged:: 8.0 Added the :attr:`formatter_class` attribute. """ return self.formatter_class( width=self.terminal_width, max_width=self.max_content_width ) def with_resource(self, context_manager: t.ContextManager[V]) -> V: """Register a resource as if it were used in a ``with`` statement. The resource will be cleaned up when the context is popped. Uses :meth:`contextlib.ExitStack.enter_context`. It calls the resource's ``__enter__()`` method and returns the result. When the context is popped, it closes the stack, which calls the resource's ``__exit__()`` method. To register a cleanup function for something that isn't a context manager, use :meth:`call_on_close`. Or use something from :mod:`contextlib` to turn it into a context manager first. .. code-block:: python @click.group() @click.option("--name") @click.pass_context def cli(ctx): ctx.obj = ctx.with_resource(connect_db(name)) :param context_manager: The context manager to enter. :return: Whatever ``context_manager.__enter__()`` returns. .. versionadded:: 8.0 """ return self._exit_stack.enter_context(context_manager) def call_on_close(self, f: t.Callable[..., t.Any]) -> t.Callable[..., t.Any]: """Register a function to be called when the context tears down. This can be used to close resources opened during the script execution. Resources that support Python's context manager protocol which would be used in a ``with`` statement should be registered with :meth:`with_resource` instead. :param f: The function to execute on teardown. """ return self._exit_stack.callback(f) def close(self) -> None: """Invoke all close callbacks registered with :meth:`call_on_close`, and exit all context managers entered with :meth:`with_resource`. """ self._exit_stack.close() # In case the context is reused, create a new exit stack. self._exit_stack = ExitStack() @property def command_path(self) -> str: """The computed command path. This is used for the ``usage`` information on the help page. It's automatically created by combining the info names of the chain of contexts to the root. """ rv = "" if self.info_name is not None: rv = self.info_name if self.parent is not None: parent_command_path = [self.parent.command_path] if isinstance(self.parent.command, Command): for param in self.parent.command.get_params(self): parent_command_path.extend(param.get_usage_pieces(self)) rv = f"{' '.join(parent_command_path)} {rv}" return rv.lstrip() def find_root(self) -> "Context": """Finds the outermost context.""" node = self while node.parent is not None: node = node.parent return node def find_object(self, object_type: t.Type[V]) -> t.Optional[V]: """Finds the closest object of a given type.""" node: t.Optional["Context"] = self while node is not None: if isinstance(node.obj, object_type): return node.obj node = node.parent return None def ensure_object(self, object_type: t.Type[V]) -> V: """Like :meth:`find_object` but sets the innermost object to a new instance of `object_type` if it does not exist. """ rv = self.find_object(object_type) if rv is None: self.obj = rv = object_type() return rv @t.overload def lookup_default( self, name: str, call: "te.Literal[True]" = True ) -> t.Optional[t.Any]: ... @t.overload def lookup_default( self, name: str, call: "te.Literal[False]" = ... ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: ... def lookup_default(self, name: str, call: bool = True) -> t.Optional[t.Any]: """Get the default for a parameter from :attr:`default_map`. :param name: Name of the parameter. :param call: If the default is a callable, call it. Disable to return the callable instead. .. versionchanged:: 8.0 Added the ``call`` parameter. """ if self.default_map is not None: value = self.default_map.get(name) if call and callable(value): return value() return value return None def fail(self, message: str) -> "te.NoReturn": """Aborts the execution of the program with a specific error message. :param message: the error message to fail with. """ raise UsageError(message, self) def abort(self) -> "te.NoReturn": """Aborts the script.""" raise Abort() def exit(self, code: int = 0) -> "te.NoReturn": """Exits the application with a given exit code.""" raise Exit(code) def get_usage(self) -> str: """Helper method to get formatted usage string for the current context and command. """ return self.command.get_usage(self) def get_help(self) -> str: """Helper method to get formatted help page for the current context and command. """ return self.command.get_help(self) def _make_sub_context(self, command: "Command") -> "Context": """Create a new context of the same type as this context, but for a new command. :meta private: """ return type(self)(command, info_name=command.name, parent=self) @t.overload def invoke( __self, # noqa: B902 __callback: "t.Callable[..., V]", *args: t.Any, **kwargs: t.Any, ) -> V: ... @t.overload def invoke( __self, # noqa: B902 __callback: "Command", *args: t.Any, **kwargs: t.Any, ) -> t.Any: ... def invoke( __self, # noqa: B902 __callback: t.Union["Command", "t.Callable[..., V]"], *args: t.Any, **kwargs: t.Any, ) -> t.Union[t.Any, V]: """Invokes a command callback in exactly the way it expects. There are two ways to invoke this method: 1. the first argument can be a callback and all other arguments and keyword arguments are forwarded directly to the function. 2. the first argument is a click command object. In that case all arguments are forwarded as well but proper click parameters (options and click arguments) must be keyword arguments and Click will fill in defaults. Note that before Click 3.2 keyword arguments were not properly filled in against the intention of this code and no context was created. For more information about this change and why it was done in a bugfix release see :ref:`upgrade-to-3.2`. .. versionchanged:: 8.0 All ``kwargs`` are tracked in :attr:`params` so they will be passed if :meth:`forward` is called at multiple levels. """ if isinstance(__callback, Command): other_cmd = __callback if other_cmd.callback is None: raise TypeError( "The given command does not have a callback that can be invoked." ) else: __callback = t.cast("t.Callable[..., V]", other_cmd.callback) ctx = __self._make_sub_context(other_cmd) for param in other_cmd.params: if param.name not in kwargs and param.expose_value: kwargs[param.name] = param.type_cast_value( # type: ignore ctx, param.get_default(ctx) ) # Track all kwargs as params, so that forward() will pass # them on in subsequent calls. ctx.params.update(kwargs) else: ctx = __self with augment_usage_errors(__self): with ctx: return __callback(*args, **kwargs) def forward( __self, __cmd: "Command", *args: t.Any, **kwargs: t.Any # noqa: B902 ) -> t.Any: """Similar to :meth:`invoke` but fills in default keyword arguments from the current context if the other command expects it. This cannot invoke callbacks directly, only other commands. .. versionchanged:: 8.0 All ``kwargs`` are tracked in :attr:`params` so they will be passed if ``forward`` is called at multiple levels. """ # Can only forward to other commands, not direct callbacks. if not isinstance(__cmd, Command): raise TypeError("Callback is not a command.") for param in __self.params: if param not in kwargs: kwargs[param] = __self.params[param] return __self.invoke(__cmd, *args, **kwargs) def set_parameter_source(self, name: str, source: ParameterSource) -> None: """Set the source of a parameter. This indicates the location from which the value of the parameter was obtained. :param name: The name of the parameter. :param source: A member of :class:`~click.core.ParameterSource`. """ self._parameter_source[name] = source def get_parameter_source(self, name: str) -> t.Optional[ParameterSource]: """Get the source of a parameter. This indicates the location from which the value of the parameter was obtained. This can be useful for determining when a user specified a value on the command line that is the same as the default value. It will be :attr:`~click.core.ParameterSource.DEFAULT` only if the value was actually taken from the default. :param name: The name of the parameter. :rtype: ParameterSource .. versionchanged:: 8.0 Returns ``None`` if the parameter was not provided from any source. """ return self._parameter_source.get(name) class BaseCommand: """The base command implements the minimal API contract of commands. Most code will never use this as it does not implement a lot of useful functionality but it can act as the direct subclass of alternative parsing methods that do not depend on the Click parser. For instance, this can be used to bridge Click and other systems like argparse or docopt. Because base commands do not implement a lot of the API that other parts of Click take for granted, they are not supported for all operations. For instance, they cannot be used with the decorators usually and they have no built-in callback system. .. versionchanged:: 2.0 Added the `context_settings` parameter. :param name: the name of the command to use unless a group overrides it. :param context_settings: an optional dictionary with defaults that are passed to the context object. """ #: The context class to create with :meth:`make_context`. #: #: .. versionadded:: 8.0 context_class: t.Type[Context] = Context #: the default for the :attr:`Context.allow_extra_args` flag. allow_extra_args = False #: the default for the :attr:`Context.allow_interspersed_args` flag. allow_interspersed_args = True #: the default for the :attr:`Context.ignore_unknown_options` flag. ignore_unknown_options = False def __init__( self, name: t.Optional[str], context_settings: t.Optional[t.MutableMapping[str, t.Any]] = None, ) -> None: #: the name the command thinks it has. Upon registering a command #: on a :class:`Group` the group will default the command name #: with this information. You should instead use the #: :class:`Context`\'s :attr:`~Context.info_name` attribute. self.name = name if context_settings is None: context_settings = {} #: an optional dictionary with defaults passed to the context. self.context_settings: t.MutableMapping[str, t.Any] = context_settings def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: """Gather information that could be useful for a tool generating user-facing documentation. This traverses the entire structure below this command. Use :meth:`click.Context.to_info_dict` to traverse the entire CLI structure. :param ctx: A :class:`Context` representing this command. .. versionadded:: 8.0 """ return {"name": self.name} def __repr__(self) -> str: return f"<{self.__class__.__name__} {self.name}>" def get_usage(self, ctx: Context) -> str: raise NotImplementedError("Base commands cannot get usage") def get_help(self, ctx: Context) -> str: raise NotImplementedError("Base commands cannot get help") def make_context( self, info_name: t.Optional[str], args: t.List[str], parent: t.Optional[Context] = None, **extra: t.Any, ) -> Context: """This function when given an info name and arguments will kick off the parsing and create a new :class:`Context`. It does not invoke the actual command callback though. To quickly customize the context class used without overriding this method, set the :attr:`context_class` attribute. :param info_name: the info name for this invocation. Generally this is the most descriptive name for the script or command. For the toplevel script it's usually the name of the script, for commands below it's the name of the command. :param args: the arguments to parse as list of strings. :param parent: the parent context if available. :param extra: extra keyword arguments forwarded to the context constructor. .. versionchanged:: 8.0 Added the :attr:`context_class` attribute. """ for key, value in self.context_settings.items(): if key not in extra: extra[key] = value ctx = self.context_class( self, info_name=info_name, parent=parent, **extra # type: ignore ) with ctx.scope(cleanup=False): self.parse_args(ctx, args) return ctx def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: """Given a context and a list of arguments this creates the parser and parses the arguments, then modifies the context as necessary. This is automatically invoked by :meth:`make_context`. """ raise NotImplementedError("Base commands do not know how to parse arguments.") def invoke(self, ctx: Context) -> t.Any: """Given a context, this invokes the command. The default implementation is raising a not implemented error. """ raise NotImplementedError("Base commands are not invocable by default") def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: """Return a list of completions for the incomplete value. Looks at the names of chained multi-commands. Any command could be part of a chained multi-command, so sibling commands are valid at any point during command completion. Other command classes will return more completions. :param ctx: Invocation context for this command. :param incomplete: Value being completed. May be empty. .. versionadded:: 8.0 """ from click.shell_completion import CompletionItem results: t.List["CompletionItem"] = [] while ctx.parent is not None: ctx = ctx.parent if isinstance(ctx.command, MultiCommand) and ctx.command.chain: results.extend( CompletionItem(name, help=command.get_short_help_str()) for name, command in _complete_visible_commands(ctx, incomplete) if name not in ctx.protected_args ) return results @t.overload def main( self, args: t.Optional[t.Sequence[str]] = None, prog_name: t.Optional[str] = None, complete_var: t.Optional[str] = None, standalone_mode: "te.Literal[True]" = True, **extra: t.Any, ) -> "te.NoReturn": ... @t.overload def main( self, args: t.Optional[t.Sequence[str]] = None, prog_name: t.Optional[str] = None, complete_var: t.Optional[str] = None, standalone_mode: bool = ..., **extra: t.Any, ) -> t.Any: ... def main( self, args: t.Optional[t.Sequence[str]] = None, prog_name: t.Optional[str] = None, complete_var: t.Optional[str] = None, standalone_mode: bool = True, windows_expand_args: bool = True, **extra: t.Any, ) -> t.Any: """This is the way to invoke a script with all the bells and whistles as a command line application. This will always terminate the application after a call. If this is not wanted, ``SystemExit`` needs to be caught. This method is also available by directly calling the instance of a :class:`Command`. :param args: the arguments that should be used for parsing. If not provided, ``sys.argv[1:]`` is used. :param prog_name: the program name that should be used. By default the program name is constructed by taking the file name from ``sys.argv[0]``. :param complete_var: the environment variable that controls the bash completion support. The default is ``"_<prog_name>_COMPLETE"`` with prog_name in uppercase. :param standalone_mode: the default behavior is to invoke the script in standalone mode. Click will then handle exceptions and convert them into error messages and the function will never return but shut down the interpreter. If this is set to `False` they will be propagated to the caller and the return value of this function is the return value of :meth:`invoke`. :param windows_expand_args: Expand glob patterns, user dir, and env vars in command line args on Windows. :param extra: extra keyword arguments are forwarded to the context constructor. See :class:`Context` for more information. .. versionchanged:: 8.0.1 Added the ``windows_expand_args`` parameter to allow disabling command line arg expansion on Windows. .. versionchanged:: 8.0 When taking arguments from ``sys.argv`` on Windows, glob patterns, user dir, and env vars are expanded. .. versionchanged:: 3.0 Added the ``standalone_mode`` parameter. """ if args is None: args = sys.argv[1:] if os.name == "nt" and windows_expand_args: args = _expand_args(args) else: args = list(args) if prog_name is None: prog_name = _detect_program_name() # Process shell completion requests and exit early. self._main_shell_completion(extra, prog_name, complete_var) try: try: with self.make_context(prog_name, args, **extra) as ctx: rv = self.invoke(ctx) if not standalone_mode: return rv # it's not safe to `ctx.exit(rv)` here! # note that `rv` may actually contain data like "1" which # has obvious effects # more subtle case: `rv=[None, None]` can come out of # chained commands which all returned `None` -- so it's not # even always obvious that `rv` indicates success/failure # by its truthiness/falsiness ctx.exit() except (EOFError, KeyboardInterrupt) as e: echo(file=sys.stderr) raise Abort() from e except ClickException as e: if not standalone_mode: raise e.show() sys.exit(e.exit_code) except OSError as e: if e.errno == errno.EPIPE: sys.stdout = t.cast(t.TextIO, PacifyFlushWrapper(sys.stdout)) sys.stderr = t.cast(t.TextIO, PacifyFlushWrapper(sys.stderr)) sys.exit(1) else: raise except Exit as e: if standalone_mode: sys.exit(e.exit_code) else: # in non-standalone mode, return the exit code # note that this is only reached if `self.invoke` above raises # an Exit explicitly -- thus bypassing the check there which # would return its result # the results of non-standalone execution may therefore be # somewhat ambiguous: if there are codepaths which lead to # `ctx.exit(1)` and to `return 1`, the caller won't be able to # tell the difference between the two return e.exit_code except Abort: if not standalone_mode: raise echo(_("Aborted!"), file=sys.stderr) sys.exit(1) def _main_shell_completion( self, ctx_args: t.MutableMapping[str, t.Any], prog_name: str, complete_var: t.Optional[str] = None, ) -> None: """Check if the shell is asking for tab completion, process that, then exit early. Called from :meth:`main` before the program is invoked. :param prog_name: Name of the executable in the shell. :param complete_var: Name of the environment variable that holds the completion instruction. Defaults to ``_{PROG_NAME}_COMPLETE``. .. versionchanged:: 8.2.0 Dots (``.``) in ``prog_name`` are replaced with underscores (``_``). """ if complete_var is None: complete_name = prog_name.replace("-", "_").replace(".", "_") complete_var = f"_{complete_name}_COMPLETE".upper() instruction = os.environ.get(complete_var) if not instruction: return from .shell_completion import shell_complete rv = shell_complete(self, ctx_args, prog_name, complete_var, instruction) sys.exit(rv) def __call__(self, *args: t.Any, **kwargs: t.Any) -> t.Any: """Alias for :meth:`main`.""" return self.main(*args, **kwargs) class Command(BaseCommand): """Commands are the basic building block of command line interfaces in Click. A basic command handles command line parsing and might dispatch more parsing to commands nested below it. :param name: the name of the command to use unless a group overrides it. :param context_settings: an optional dictionary with defaults that are passed to the context object. :param callback: the callback to invoke. This is optional. :param params: the parameters to register with this command. This can be either :class:`Option` or :class:`Argument` objects. :param help: the help string to use for this command. :param epilog: like the help string but it's printed at the end of the help page after everything else. :param short_help: the short help to use for this command. This is shown on the command listing of the parent command. :param add_help_option: by default each command registers a ``--help`` option. This can be disabled by this parameter. :param no_args_is_help: this controls what happens if no arguments are provided. This option is disabled by default. If enabled this will add ``--help`` as argument if no arguments are passed :param hidden: hide this command from help outputs. :param deprecated: issues a message indicating that the command is deprecated. .. versionchanged:: 8.1 ``help``, ``epilog``, and ``short_help`` are stored unprocessed, all formatting is done when outputting help text, not at init, and is done even if not using the ``@command`` decorator. .. versionchanged:: 8.0 Added a ``repr`` showing the command name. .. versionchanged:: 7.1 Added the ``no_args_is_help`` parameter. .. versionchanged:: 2.0 Added the ``context_settings`` parameter. """ def __init__( self, name: t.Optional[str], context_settings: t.Optional[t.MutableMapping[str, t.Any]] = None, callback: t.Optional[t.Callable[..., t.Any]] = None, params: t.Optional[t.List["Parameter"]] = None, help: t.Optional[str] = None, epilog: t.Optional[str] = None, short_help: t.Optional[str] = None, options_metavar: t.Optional[str] = "[OPTIONS]", add_help_option: bool = True, no_args_is_help: bool = False, hidden: bool = False, deprecated: bool = False, ) -> None: super().__init__(name, context_settings) #: the callback to execute when the command fires. This might be #: `None` in which case nothing happens. self.callback = callback #: the list of parameters for this command in the order they #: should show up in the help page and execute. Eager parameters #: will automatically be handled before non eager ones. self.params: t.List["Parameter"] = params or [] self.help = help self.epilog = epilog self.options_metavar = options_metavar self.short_help = short_help self.add_help_option = add_help_option self.no_args_is_help = no_args_is_help self.hidden = hidden self.deprecated = deprecated def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: info_dict = super().to_info_dict(ctx) info_dict.update( params=[param.to_info_dict() for param in self.get_params(ctx)], help=self.help, epilog=self.epilog, short_help=self.short_help, hidden=self.hidden, deprecated=self.deprecated, ) return info_dict def get_usage(self, ctx: Context) -> str: """Formats the usage line into a string and returns it. Calls :meth:`format_usage` internally. """ formatter = ctx.make_formatter() self.format_usage(ctx, formatter) return formatter.getvalue().rstrip("\n") def get_params(self, ctx: Context) -> t.List["Parameter"]: rv = self.params help_option = self.get_help_option(ctx) if help_option is not None: rv = [*rv, help_option] return rv def format_usage(self, ctx: Context, formatter: HelpFormatter) -> None: """Writes the usage line into the formatter. This is a low-level method called by :meth:`get_usage`. """ pieces = self.collect_usage_pieces(ctx) formatter.write_usage(ctx.command_path, " ".join(pieces)) def collect_usage_pieces(self, ctx: Context) -> t.List[str]: """Returns all the pieces that go into the usage line and returns it as a list of strings. """ rv = [self.options_metavar] if self.options_metavar else [] for param in self.get_params(ctx): rv.extend(param.get_usage_pieces(ctx)) return rv def get_help_option_names(self, ctx: Context) -> t.List[str]: """Returns the names for the help option.""" all_names = set(ctx.help_option_names) for param in self.params: all_names.difference_update(param.opts) all_names.difference_update(param.secondary_opts) return list(all_names) def get_help_option(self, ctx: Context) -> t.Optional["Option"]: """Returns the help option object.""" help_options = self.get_help_option_names(ctx) if not help_options or not self.add_help_option: return None def show_help(ctx: Context, param: "Parameter", value: str) -> None: if value and not ctx.resilient_parsing: echo(ctx.get_help(), color=ctx.color) ctx.exit() return Option( help_options, is_flag=True, is_eager=True, expose_value=False, callback=show_help, help=_("Show this message and exit."), ) def make_parser(self, ctx: Context) -> OptionParser: """Creates the underlying option parser for this command.""" parser = OptionParser(ctx) for param in self.get_params(ctx): param.add_to_parser(parser, ctx) return parser def get_help(self, ctx: Context) -> str: """Formats the help into a string and returns it. Calls :meth:`format_help` internally. """ formatter = ctx.make_formatter() self.format_help(ctx, formatter) return formatter.getvalue().rstrip("\n") def get_short_help_str(self, limit: int = 45) -> str: """Gets short help for the command or makes it by shortening the long help string. """ if self.short_help: text = inspect.cleandoc(self.short_help) elif self.help: text = make_default_short_help(self.help, limit) else: text = "" if self.deprecated: text = _("(Deprecated) {text}").format(text=text) return text.strip() def format_help(self, ctx: Context, formatter: HelpFormatter) -> None: """Writes the help into the formatter if it exists. This is a low-level method called by :meth:`get_help`. This calls the following methods: - :meth:`format_usage` - :meth:`format_help_text` - :meth:`format_options` - :meth:`format_epilog` """ self.format_usage(ctx, formatter) self.format_help_text(ctx, formatter) self.format_options(ctx, formatter) self.format_epilog(ctx, formatter) def format_help_text(self, ctx: Context, formatter: HelpFormatter) -> None: """Writes the help text to the formatter if it exists.""" if self.help is not None: # truncate the help text to the first form feed text = inspect.cleandoc(self.help).partition("\f")[0] else: text = "" if self.deprecated: text = _("(Deprecated) {text}").format(text=text) if text: formatter.write_paragraph() with formatter.indentation(): formatter.write_text(text) def format_options(self, ctx: Context, formatter: HelpFormatter) -> None: """Writes all the options into the formatter if they exist.""" opts = [] for param in self.get_params(ctx): rv = param.get_help_record(ctx) if rv is not None: opts.append(rv) if opts: with formatter.section(_("Options")): formatter.write_dl(opts) def format_epilog(self, ctx: Context, formatter: HelpFormatter) -> None: """Writes the epilog into the formatter if it exists.""" if self.epilog: epilog = inspect.cleandoc(self.epilog) formatter.write_paragraph() with formatter.indentation(): formatter.write_text(epilog) def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: if not args and self.no_args_is_help and not ctx.resilient_parsing: echo(ctx.get_help(), color=ctx.color) ctx.exit() parser = self.make_parser(ctx) opts, args, param_order = parser.parse_args(args=args) for param in iter_params_for_processing(param_order, self.get_params(ctx)): value, args = param.handle_parse_result(ctx, opts, args) if args and not ctx.allow_extra_args and not ctx.resilient_parsing: ctx.fail( ngettext( "Got unexpected extra argument ({args})", "Got unexpected extra arguments ({args})", len(args), ).format(args=" ".join(map(str, args))) ) ctx.args = args ctx._opt_prefixes.update(parser._opt_prefixes) return args def invoke(self, ctx: Context) -> t.Any: """Given a context, this invokes the attached callback (if it exists) in the right way. """ if self.deprecated: message = _( "DeprecationWarning: The command {name!r} is deprecated." ).format(name=self.name) echo(style(message, fg="red"), err=True) if self.callback is not None: return ctx.invoke(self.callback, **ctx.params) def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: """Return a list of completions for the incomplete value. Looks at the names of options and chained multi-commands. :param ctx: Invocation context for this command. :param incomplete: Value being completed. May be empty. .. versionadded:: 8.0 """ from click.shell_completion import CompletionItem results: t.List["CompletionItem"] = [] if incomplete and not incomplete[0].isalnum(): for param in self.get_params(ctx): if ( not isinstance(param, Option) or param.hidden or ( not param.multiple and ctx.get_parameter_source(param.name) # type: ignore is ParameterSource.COMMANDLINE ) ): continue results.extend( CompletionItem(name, help=param.help) for name in [*param.opts, *param.secondary_opts] if name.startswith(incomplete) ) results.extend(super().shell_complete(ctx, incomplete)) return results class MultiCommand(Command): """A multi command is the basic implementation of a command that dispatches to subcommands. The most common version is the :class:`Group`. :param invoke_without_command: this controls how the multi command itself is invoked. By default it's only invoked if a subcommand is provided. :param no_args_is_help: this controls what happens if no arguments are provided. This option is enabled by default if `invoke_without_command` is disabled or disabled if it's enabled. If enabled this will add ``--help`` as argument if no arguments are passed. :param subcommand_metavar: the string that is used in the documentation to indicate the subcommand place. :param chain: if this is set to `True` chaining of multiple subcommands is enabled. This restricts the form of commands in that they cannot have optional arguments but it allows multiple commands to be chained together. :param result_callback: The result callback to attach to this multi command. This can be set or changed later with the :meth:`result_callback` decorator. :param attrs: Other command arguments described in :class:`Command`. """ allow_extra_args = True allow_interspersed_args = False def __init__( self, name: t.Optional[str] = None, invoke_without_command: bool = False, no_args_is_help: t.Optional[bool] = None, subcommand_metavar: t.Optional[str] = None, chain: bool = False, result_callback: t.Optional[t.Callable[..., t.Any]] = None, **attrs: t.Any, ) -> None: super().__init__(name, **attrs) if no_args_is_help is None: no_args_is_help = not invoke_without_command self.no_args_is_help = no_args_is_help self.invoke_without_command = invoke_without_command if subcommand_metavar is None: if chain: subcommand_metavar = "COMMAND1 [ARGS]... [COMMAND2 [ARGS]...]..." else: subcommand_metavar = "COMMAND [ARGS]..." self.subcommand_metavar = subcommand_metavar self.chain = chain # The result callback that is stored. This can be set or # overridden with the :func:`result_callback` decorator. self._result_callback = result_callback if self.chain: for param in self.params: if isinstance(param, Argument) and not param.required: raise RuntimeError( "Multi commands in chain mode cannot have" " optional arguments." ) def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: info_dict = super().to_info_dict(ctx) commands = {} for name in self.list_commands(ctx): command = self.get_command(ctx, name) if command is None: continue sub_ctx = ctx._make_sub_context(command) with sub_ctx.scope(cleanup=False): commands[name] = command.to_info_dict(sub_ctx) info_dict.update(commands=commands, chain=self.chain) return info_dict def collect_usage_pieces(self, ctx: Context) -> t.List[str]: rv = super().collect_usage_pieces(ctx) rv.append(self.subcommand_metavar) return rv def format_options(self, ctx: Context, formatter: HelpFormatter) -> None: super().format_options(ctx, formatter) self.format_commands(ctx, formatter) def result_callback(self, replace: bool = False) -> t.Callable[[F], F]: """Adds a result callback to the command. By default if a result callback is already registered this will chain them but this can be disabled with the `replace` parameter. The result callback is invoked with the return value of the subcommand (or the list of return values from all subcommands if chaining is enabled) as well as the parameters as they would be passed to the main callback. Example:: @click.group() @click.option('-i', '--input', default=23) def cli(input): return 42 @cli.result_callback() def process_result(result, input): return result + input :param replace: if set to `True` an already existing result callback will be removed. .. versionchanged:: 8.0 Renamed from ``resultcallback``. .. versionadded:: 3.0 """ def decorator(f: F) -> F: old_callback = self._result_callback if old_callback is None or replace: self._result_callback = f return f def function(__value, *args, **kwargs): # type: ignore inner = old_callback(__value, *args, **kwargs) return f(inner, *args, **kwargs) self._result_callback = rv = update_wrapper(t.cast(F, function), f) return rv return decorator def format_commands(self, ctx: Context, formatter: HelpFormatter) -> None: """Extra format methods for multi methods that adds all the commands after the options. """ commands = [] for subcommand in self.list_commands(ctx): cmd = self.get_command(ctx, subcommand) # What is this, the tool lied about a command. Ignore it if cmd is None: continue if cmd.hidden: continue commands.append((subcommand, cmd)) # allow for 3 times the default spacing if len(commands): limit = formatter.width - 6 - max(len(cmd[0]) for cmd in commands) rows = [] for subcommand, cmd in commands: help = cmd.get_short_help_str(limit) rows.append((subcommand, help)) if rows: with formatter.section(_("Commands")): formatter.write_dl(rows) def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: if not args and self.no_args_is_help and not ctx.resilient_parsing: echo(ctx.get_help(), color=ctx.color) ctx.exit() rest = super().parse_args(ctx, args) if self.chain: ctx.protected_args = rest ctx.args = [] elif rest: ctx.protected_args, ctx.args = rest[:1], rest[1:] return ctx.args def invoke(self, ctx: Context) -> t.Any: def _process_result(value: t.Any) -> t.Any: if self._result_callback is not None: value = ctx.invoke(self._result_callback, value, **ctx.params) return value if not ctx.protected_args: if self.invoke_without_command: # No subcommand was invoked, so the result callback is # invoked with the group return value for regular # groups, or an empty list for chained groups. with ctx: rv = super().invoke(ctx) return _process_result([] if self.chain else rv) ctx.fail(_("Missing command.")) # Fetch args back out args = [*ctx.protected_args, *ctx.args] ctx.args = [] ctx.protected_args = [] # If we're not in chain mode, we only allow the invocation of a # single command but we also inform the current context about the # name of the command to invoke. if not self.chain: # Make sure the context is entered so we do not clean up # resources until the result processor has worked. with ctx: cmd_name, cmd, args = self.resolve_command(ctx, args) assert cmd is not None ctx.invoked_subcommand = cmd_name super().invoke(ctx) sub_ctx = cmd.make_context(cmd_name, args, parent=ctx) with sub_ctx: return _process_result(sub_ctx.command.invoke(sub_ctx)) # In chain mode we create the contexts step by step, but after the # base command has been invoked. Because at that point we do not # know the subcommands yet, the invoked subcommand attribute is # set to ``*`` to inform the command that subcommands are executed # but nothing else. with ctx: ctx.invoked_subcommand = "*" if args else None super().invoke(ctx) # Otherwise we make every single context and invoke them in a # chain. In that case the return value to the result processor # is the list of all invoked subcommand's results. contexts = [] while args: cmd_name, cmd, args = self.resolve_command(ctx, args) assert cmd is not None sub_ctx = cmd.make_context( cmd_name, args, parent=ctx, allow_extra_args=True, allow_interspersed_args=False, ) contexts.append(sub_ctx) args, sub_ctx.args = sub_ctx.args, [] rv = [] for sub_ctx in contexts: with sub_ctx: rv.append(sub_ctx.command.invoke(sub_ctx)) return _process_result(rv) def resolve_command( self, ctx: Context, args: t.List[str] ) -> t.Tuple[t.Optional[str], t.Optional[Command], t.List[str]]: cmd_name = make_str(args[0]) original_cmd_name = cmd_name # Get the command cmd = self.get_command(ctx, cmd_name) # If we can't find the command but there is a normalization # function available, we try with that one. if cmd is None and ctx.token_normalize_func is not None: cmd_name = ctx.token_normalize_func(cmd_name) cmd = self.get_command(ctx, cmd_name) # If we don't find the command we want to show an error message # to the user that it was not provided. However, there is # something else we should do: if the first argument looks like # an option we want to kick off parsing again for arguments to # resolve things like --help which now should go to the main # place. if cmd is None and not ctx.resilient_parsing: if split_opt(cmd_name)[0]: self.parse_args(ctx, ctx.args) ctx.fail(_("No such command {name!r}.").format(name=original_cmd_name)) return cmd_name if cmd else None, cmd, args[1:] def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: """Given a context and a command name, this returns a :class:`Command` object if it exists or returns `None`. """ raise NotImplementedError def list_commands(self, ctx: Context) -> t.List[str]: """Returns a list of subcommand names in the order they should appear. """ return [] def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: """Return a list of completions for the incomplete value. Looks at the names of options, subcommands, and chained multi-commands. :param ctx: Invocation context for this command. :param incomplete: Value being completed. May be empty. .. versionadded:: 8.0 """ from click.shell_completion import CompletionItem results = [ CompletionItem(name, help=command.get_short_help_str()) for name, command in _complete_visible_commands(ctx, incomplete) ] results.extend(super().shell_complete(ctx, incomplete)) return results class Group(MultiCommand): """A group allows a command to have subcommands attached. This is the most common way to implement nesting in Click. :param name: The name of the group command. :param commands: A dict mapping names to :class:`Command` objects. Can also be a list of :class:`Command`, which will use :attr:`Command.name` to create the dict. :param attrs: Other command arguments described in :class:`MultiCommand`, :class:`Command`, and :class:`BaseCommand`. .. versionchanged:: 8.0 The ``commands`` argument can be a list of command objects. """ #: If set, this is used by the group's :meth:`command` decorator #: as the default :class:`Command` class. This is useful to make all #: subcommands use a custom command class. #: #: .. versionadded:: 8.0 command_class: t.Optional[t.Type[Command]] = None #: If set, this is used by the group's :meth:`group` decorator #: as the default :class:`Group` class. This is useful to make all #: subgroups use a custom group class. #: #: If set to the special value :class:`type` (literally #: ``group_class = type``), this group's class will be used as the #: default class. This makes a custom group class continue to make #: custom groups. #: #: .. versionadded:: 8.0 group_class: t.Optional[t.Union[t.Type["Group"], t.Type[type]]] = None # Literal[type] isn't valid, so use Type[type] def __init__( self, name: t.Optional[str] = None, commands: t.Optional[ t.Union[t.MutableMapping[str, Command], t.Sequence[Command]] ] = None, **attrs: t.Any, ) -> None: super().__init__(name, **attrs) if commands is None: commands = {} elif isinstance(commands, abc.Sequence): commands = {c.name: c for c in commands if c.name is not None} #: The registered subcommands by their exported names. self.commands: t.MutableMapping[str, Command] = commands def add_command(self, cmd: Command, name: t.Optional[str] = None) -> None: """Registers another :class:`Command` with this group. If the name is not provided, the name of the command is used. """ name = name or cmd.name if name is None: raise TypeError("Command has no name.") _check_multicommand(self, name, cmd, register=True) self.commands[name] = cmd @t.overload def command(self, __func: t.Callable[..., t.Any]) -> Command: ... @t.overload def command( self, *args: t.Any, **kwargs: t.Any ) -> t.Callable[[t.Callable[..., t.Any]], Command]: ... def command( self, *args: t.Any, **kwargs: t.Any ) -> t.Union[t.Callable[[t.Callable[..., t.Any]], Command], Command]: """A shortcut decorator for declaring and attaching a command to the group. This takes the same arguments as :func:`command` and immediately registers the created command with this group by calling :meth:`add_command`. To customize the command class used, set the :attr:`command_class` attribute. .. versionchanged:: 8.1 This decorator can be applied without parentheses. .. versionchanged:: 8.0 Added the :attr:`command_class` attribute. """ from .decorators import command func: t.Optional[t.Callable[..., t.Any]] = None if args and callable(args[0]): assert ( len(args) == 1 and not kwargs ), "Use 'command(**kwargs)(callable)' to provide arguments." (func,) = args args = () if self.command_class and kwargs.get("cls") is None: kwargs["cls"] = self.command_class def decorator(f: t.Callable[..., t.Any]) -> Command: cmd: Command = command(*args, **kwargs)(f) self.add_command(cmd) return cmd if func is not None: return decorator(func) return decorator @t.overload def group(self, __func: t.Callable[..., t.Any]) -> "Group": ... @t.overload def group( self, *args: t.Any, **kwargs: t.Any ) -> t.Callable[[t.Callable[..., t.Any]], "Group"]: ... def group( self, *args: t.Any, **kwargs: t.Any ) -> t.Union[t.Callable[[t.Callable[..., t.Any]], "Group"], "Group"]: """A shortcut decorator for declaring and attaching a group to the group. This takes the same arguments as :func:`group` and immediately registers the created group with this group by calling :meth:`add_command`. To customize the group class used, set the :attr:`group_class` attribute. .. versionchanged:: 8.1 This decorator can be applied without parentheses. .. versionchanged:: 8.0 Added the :attr:`group_class` attribute. """ from .decorators import group func: t.Optional[t.Callable[..., t.Any]] = None if args and callable(args[0]): assert ( len(args) == 1 and not kwargs ), "Use 'group(**kwargs)(callable)' to provide arguments." (func,) = args args = () if self.group_class is not None and kwargs.get("cls") is None: if self.group_class is type: kwargs["cls"] = type(self) else: kwargs["cls"] = self.group_class def decorator(f: t.Callable[..., t.Any]) -> "Group": cmd: Group = group(*args, **kwargs)(f) self.add_command(cmd) return cmd if func is not None: return decorator(func) return decorator def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: return self.commands.get(cmd_name) def list_commands(self, ctx: Context) -> t.List[str]: return sorted(self.commands) class CommandCollection(MultiCommand): """A command collection is a multi command that merges multiple multi commands together into one. This is a straightforward implementation that accepts a list of different multi commands as sources and provides all the commands for each of them. See :class:`MultiCommand` and :class:`Command` for the description of ``name`` and ``attrs``. """ def __init__( self, name: t.Optional[str] = None, sources: t.Optional[t.List[MultiCommand]] = None, **attrs: t.Any, ) -> None: super().__init__(name, **attrs) #: The list of registered multi commands. self.sources: t.List[MultiCommand] = sources or [] def add_source(self, multi_cmd: MultiCommand) -> None: """Adds a new multi command to the chain dispatcher.""" self.sources.append(multi_cmd) def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: for source in self.sources: rv = source.get_command(ctx, cmd_name) if rv is not None: if self.chain: _check_multicommand(self, cmd_name, rv) return rv return None def list_commands(self, ctx: Context) -> t.List[str]: rv: t.Set[str] = set() for source in self.sources: rv.update(source.list_commands(ctx)) return sorted(rv) def _check_iter(value: t.Any) -> t.Iterator[t.Any]: """Check if the value is iterable but not a string. Raises a type error, or return an iterator over the value. """ if isinstance(value, str): raise TypeError return iter(value) class Parameter: r"""A parameter to a command comes in two versions: they are either :class:`Option`\s or :class:`Argument`\s. Other subclasses are currently not supported by design as some of the internals for parsing are intentionally not finalized. Some settings are supported by both options and arguments. :param param_decls: the parameter declarations for this option or argument. This is a list of flags or argument names. :param type: the type that should be used. Either a :class:`ParamType` or a Python type. The latter is converted into the former automatically if supported. :param required: controls if this is optional or not. :param default: the default value if omitted. This can also be a callable, in which case it's invoked when the default is needed without any arguments. :param callback: A function to further process or validate the value after type conversion. It is called as ``f(ctx, param, value)`` and must return the value. It is called for all sources, including prompts. :param nargs: the number of arguments to match. If not ``1`` the return value is a tuple instead of single value. The default for nargs is ``1`` (except if the type is a tuple, then it's the arity of the tuple). If ``nargs=-1``, all remaining parameters are collected. :param metavar: how the value is represented in the help page. :param expose_value: if this is `True` then the value is passed onwards to the command callback and stored on the context, otherwise it's skipped. :param is_eager: eager values are processed before non eager ones. This should not be set for arguments or it will inverse the order of processing. :param envvar: a string or list of strings that are environment variables that should be checked. :param shell_complete: A function that returns custom shell completions. Used instead of the param's type completion if given. Takes ``ctx, param, incomplete`` and must return a list of :class:`~click.shell_completion.CompletionItem` or a list of strings. .. versionchanged:: 8.0 ``process_value`` validates required parameters and bounded ``nargs``, and invokes the parameter callback before returning the value. This allows the callback to validate prompts. ``full_process_value`` is removed. .. versionchanged:: 8.0 ``autocompletion`` is renamed to ``shell_complete`` and has new semantics described above. The old name is deprecated and will be removed in 8.1, until then it will be wrapped to match the new requirements. .. versionchanged:: 8.0 For ``multiple=True, nargs>1``, the default must be a list of tuples. .. versionchanged:: 8.0 Setting a default is no longer required for ``nargs>1``, it will default to ``None``. ``multiple=True`` or ``nargs=-1`` will default to ``()``. .. versionchanged:: 7.1 Empty environment variables are ignored rather than taking the empty string value. This makes it possible for scripts to clear variables if they can't unset them. .. versionchanged:: 2.0 Changed signature for parameter callback to also be passed the parameter. The old callback format will still work, but it will raise a warning to give you a chance to migrate the code easier. """ param_type_name = "parameter" def __init__( self, param_decls: t.Optional[t.Sequence[str]] = None, type: t.Optional[t.Union[types.ParamType, t.Any]] = None, required: bool = False, default: t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]] = None, callback: t.Optional[t.Callable[[Context, "Parameter", t.Any], t.Any]] = None, nargs: t.Optional[int] = None, multiple: bool = False, metavar: t.Optional[str] = None, expose_value: bool = True, is_eager: bool = False, envvar: t.Optional[t.Union[str, t.Sequence[str]]] = None, shell_complete: t.Optional[ t.Callable[ [Context, "Parameter", str], t.Union[t.List["CompletionItem"], t.List[str]], ] ] = None, ) -> None: self.name: t.Optional[str] self.opts: t.List[str] self.secondary_opts: t.List[str] self.name, self.opts, self.secondary_opts = self._parse_decls( param_decls or (), expose_value ) self.type: types.ParamType = types.convert_type(type, default) # Default nargs to what the type tells us if we have that # information available. if nargs is None: if self.type.is_composite: nargs = self.type.arity else: nargs = 1 self.required = required self.callback = callback self.nargs = nargs self.multiple = multiple self.expose_value = expose_value self.default = default self.is_eager = is_eager self.metavar = metavar self.envvar = envvar self._custom_shell_complete = shell_complete if __debug__: if self.type.is_composite and nargs != self.type.arity: raise ValueError( f"'nargs' must be {self.type.arity} (or None) for" f" type {self.type!r}, but it was {nargs}." ) # Skip no default or callable default. check_default = default if not callable(default) else None if check_default is not None: if multiple: try: # Only check the first value against nargs. check_default = next(_check_iter(check_default), None) except TypeError: raise ValueError( "'default' must be a list when 'multiple' is true." ) from None # Can be None for multiple with empty default. if nargs != 1 and check_default is not None: try: _check_iter(check_default) except TypeError: if multiple: message = ( "'default' must be a list of lists when 'multiple' is" " true and 'nargs' != 1." ) else: message = "'default' must be a list when 'nargs' != 1." raise ValueError(message) from None if nargs > 1 and len(check_default) != nargs: subject = "item length" if multiple else "length" raise ValueError( f"'default' {subject} must match nargs={nargs}." ) def to_info_dict(self) -> t.Dict[str, t.Any]: """Gather information that could be useful for a tool generating user-facing documentation. Use :meth:`click.Context.to_info_dict` to traverse the entire CLI structure. .. versionadded:: 8.0 """ return { "name": self.name, "param_type_name": self.param_type_name, "opts": self.opts, "secondary_opts": self.secondary_opts, "type": self.type.to_info_dict(), "required": self.required, "nargs": self.nargs, "multiple": self.multiple, "default": self.default, "envvar": self.envvar, } def __repr__(self) -> str: return f"<{self.__class__.__name__} {self.name}>" def _parse_decls( self, decls: t.Sequence[str], expose_value: bool ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: raise NotImplementedError() @property def human_readable_name(self) -> str: """Returns the human readable name of this parameter. This is the same as the name for options, but the metavar for arguments. """ return self.name # type: ignore def make_metavar(self) -> str: if self.metavar is not None: return self.metavar metavar = self.type.get_metavar(self) if metavar is None: metavar = self.type.name.upper() if self.nargs != 1: metavar += "..." return metavar @t.overload def get_default( self, ctx: Context, call: "te.Literal[True]" = True ) -> t.Optional[t.Any]: ... @t.overload def get_default( self, ctx: Context, call: bool = ... ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: ... def get_default( self, ctx: Context, call: bool = True ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: """Get the default for the parameter. Tries :meth:`Context.lookup_default` first, then the local default. :param ctx: Current context. :param call: If the default is a callable, call it. Disable to return the callable instead. .. versionchanged:: 8.0.2 Type casting is no longer performed when getting a default. .. versionchanged:: 8.0.1 Type casting can fail in resilient parsing mode. Invalid defaults will not prevent showing help text. .. versionchanged:: 8.0 Looks at ``ctx.default_map`` first. .. versionchanged:: 8.0 Added the ``call`` parameter. """ value = ctx.lookup_default(self.name, call=False) # type: ignore if value is None: value = self.default if call and callable(value): value = value() return value def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: raise NotImplementedError() def consume_value( self, ctx: Context, opts: t.Mapping[str, t.Any] ) -> t.Tuple[t.Any, ParameterSource]: value = opts.get(self.name) # type: ignore source = ParameterSource.COMMANDLINE if value is None: value = self.value_from_envvar(ctx) source = ParameterSource.ENVIRONMENT if value is None: value = ctx.lookup_default(self.name) # type: ignore source = ParameterSource.DEFAULT_MAP if value is None: value = self.get_default(ctx) source = ParameterSource.DEFAULT return value, source def type_cast_value(self, ctx: Context, value: t.Any) -> t.Any: """Convert and validate a value against the option's :attr:`type`, :attr:`multiple`, and :attr:`nargs`. """ if value is None: return () if self.multiple or self.nargs == -1 else None def check_iter(value: t.Any) -> t.Iterator[t.Any]: try: return _check_iter(value) except TypeError: # This should only happen when passing in args manually, # the parser should construct an iterable when parsing # the command line. raise BadParameter( _("Value must be an iterable."), ctx=ctx, param=self ) from None if self.nargs == 1 or self.type.is_composite: def convert(value: t.Any) -> t.Any: return self.type(value, param=self, ctx=ctx) elif self.nargs == -1: def convert(value: t.Any) -> t.Any: # t.Tuple[t.Any, ...] return tuple(self.type(x, self, ctx) for x in check_iter(value)) else: # nargs > 1 def convert(value: t.Any) -> t.Any: # t.Tuple[t.Any, ...] value = tuple(check_iter(value)) if len(value) != self.nargs: raise BadParameter( ngettext( "Takes {nargs} values but 1 was given.", "Takes {nargs} values but {len} were given.", len(value), ).format(nargs=self.nargs, len=len(value)), ctx=ctx, param=self, ) return tuple(self.type(x, self, ctx) for x in value) if self.multiple: return tuple(convert(x) for x in check_iter(value)) return convert(value) def value_is_missing(self, value: t.Any) -> bool: if value is None: return True if (self.nargs != 1 or self.multiple) and value == (): return True return False def process_value(self, ctx: Context, value: t.Any) -> t.Any: value = self.type_cast_value(ctx, value) if self.required and self.value_is_missing(value): raise MissingParameter(ctx=ctx, param=self) if self.callback is not None: value = self.callback(ctx, self, value) return value def resolve_envvar_value(self, ctx: Context) -> t.Optional[str]: if self.envvar is None: return None if isinstance(self.envvar, str): rv = os.environ.get(self.envvar) if rv: return rv else: for envvar in self.envvar: rv = os.environ.get(envvar) if rv: return rv return None def value_from_envvar(self, ctx: Context) -> t.Optional[t.Any]: rv: t.Optional[t.Any] = self.resolve_envvar_value(ctx) if rv is not None and self.nargs != 1: rv = self.type.split_envvar_value(rv) return rv def handle_parse_result( self, ctx: Context, opts: t.Mapping[str, t.Any], args: t.List[str] ) -> t.Tuple[t.Any, t.List[str]]: with augment_usage_errors(ctx, param=self): value, source = self.consume_value(ctx, opts) ctx.set_parameter_source(self.name, source) # type: ignore try: value = self.process_value(ctx, value) except Exception: if not ctx.resilient_parsing: raise value = None if self.expose_value: ctx.params[self.name] = value # type: ignore return value, args def get_help_record(self, ctx: Context) -> t.Optional[t.Tuple[str, str]]: pass def get_usage_pieces(self, ctx: Context) -> t.List[str]: return [] def get_error_hint(self, ctx: Context) -> str: """Get a stringified version of the param for use in error messages to indicate which param caused the error. """ hint_list = self.opts or [self.human_readable_name] return " / ".join(f"'{x}'" for x in hint_list) def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: """Return a list of completions for the incomplete value. If a ``shell_complete`` function was given during init, it is used. Otherwise, the :attr:`type` :meth:`~click.types.ParamType.shell_complete` function is used. :param ctx: Invocation context for this command. :param incomplete: Value being completed. May be empty. .. versionadded:: 8.0 """ if self._custom_shell_complete is not None: results = self._custom_shell_complete(ctx, self, incomplete) if results and isinstance(results[0], str): from click.shell_completion import CompletionItem results = [CompletionItem(c) for c in results] return t.cast(t.List["CompletionItem"], results) return self.type.shell_complete(ctx, self, incomplete) class Option(Parameter): """Options are usually optional values on the command line and have some extra features that arguments don't have. All other parameters are passed onwards to the parameter constructor. :param show_default: Show the default value for this option in its help text. Values are not shown by default, unless :attr:`Context.show_default` is ``True``. If this value is a string, it shows that string in parentheses instead of the actual value. This is particularly useful for dynamic options. For single option boolean flags, the default remains hidden if its value is ``False``. :param show_envvar: Controls if an environment variable should be shown on the help page. Normally, environment variables are not shown. :param prompt: If set to ``True`` or a non empty string then the user will be prompted for input. If set to ``True`` the prompt will be the option name capitalized. :param confirmation_prompt: Prompt a second time to confirm the value if it was prompted for. Can be set to a string instead of ``True`` to customize the message. :param prompt_required: If set to ``False``, the user will be prompted for input only when the option was specified as a flag without a value. :param hide_input: If this is ``True`` then the input on the prompt will be hidden from the user. This is useful for password input. :param is_flag: forces this option to act as a flag. The default is auto detection. :param flag_value: which value should be used for this flag if it's enabled. This is set to a boolean automatically if the option string contains a slash to mark two options. :param multiple: if this is set to `True` then the argument is accepted multiple times and recorded. This is similar to ``nargs`` in how it works but supports arbitrary number of arguments. :param count: this flag makes an option increment an integer. :param allow_from_autoenv: if this is enabled then the value of this parameter will be pulled from an environment variable in case a prefix is defined on the context. :param help: the help string. :param hidden: hide this option from help outputs. :param attrs: Other command arguments described in :class:`Parameter`. .. versionchanged:: 8.1.0 Help text indentation is cleaned here instead of only in the ``@option`` decorator. .. versionchanged:: 8.1.0 The ``show_default`` parameter overrides ``Context.show_default``. .. versionchanged:: 8.1.0 The default of a single option boolean flag is not shown if the default value is ``False``. .. versionchanged:: 8.0.1 ``type`` is detected from ``flag_value`` if given. """ param_type_name = "option" def __init__( self, param_decls: t.Optional[t.Sequence[str]] = None, show_default: t.Union[bool, str, None] = None, prompt: t.Union[bool, str] = False, confirmation_prompt: t.Union[bool, str] = False, prompt_required: bool = True, hide_input: bool = False, is_flag: t.Optional[bool] = None, flag_value: t.Optional[t.Any] = None, multiple: bool = False, count: bool = False, allow_from_autoenv: bool = True, type: t.Optional[t.Union[types.ParamType, t.Any]] = None, help: t.Optional[str] = None, hidden: bool = False, show_choices: bool = True, show_envvar: bool = False, **attrs: t.Any, ) -> None: if help: help = inspect.cleandoc(help) default_is_missing = "default" not in attrs super().__init__(param_decls, type=type, multiple=multiple, **attrs) if prompt is True: if self.name is None: raise TypeError("'name' is required with 'prompt=True'.") prompt_text: t.Optional[str] = self.name.replace("_", " ").capitalize() elif prompt is False: prompt_text = None else: prompt_text = prompt self.prompt = prompt_text self.confirmation_prompt = confirmation_prompt self.prompt_required = prompt_required self.hide_input = hide_input self.hidden = hidden # If prompt is enabled but not required, then the option can be # used as a flag to indicate using prompt or flag_value. self._flag_needs_value = self.prompt is not None and not self.prompt_required if is_flag is None: if flag_value is not None: # Implicitly a flag because flag_value was set. is_flag = True elif self._flag_needs_value: # Not a flag, but when used as a flag it shows a prompt. is_flag = False else: # Implicitly a flag because flag options were given. is_flag = bool(self.secondary_opts) elif is_flag is False and not self._flag_needs_value: # Not a flag, and prompt is not enabled, can be used as a # flag if flag_value is set. self._flag_needs_value = flag_value is not None self.default: t.Union[t.Any, t.Callable[[], t.Any]] if is_flag and default_is_missing and not self.required: if multiple: self.default = () else: self.default = False if flag_value is None: flag_value = not self.default self.type: types.ParamType if is_flag and type is None: # Re-guess the type from the flag value instead of the # default. self.type = types.convert_type(None, flag_value) self.is_flag: bool = is_flag self.is_bool_flag: bool = is_flag and isinstance(self.type, types.BoolParamType) self.flag_value: t.Any = flag_value # Counting self.count = count if count: if type is None: self.type = types.IntRange(min=0) if default_is_missing: self.default = 0 self.allow_from_autoenv = allow_from_autoenv self.help = help self.show_default = show_default self.show_choices = show_choices self.show_envvar = show_envvar if __debug__: if self.nargs == -1: raise TypeError("nargs=-1 is not supported for options.") if self.prompt and self.is_flag and not self.is_bool_flag: raise TypeError("'prompt' is not valid for non-boolean flag.") if not self.is_bool_flag and self.secondary_opts: raise TypeError("Secondary flag is not valid for non-boolean flag.") if self.is_bool_flag and self.hide_input and self.prompt is not None: raise TypeError( "'prompt' with 'hide_input' is not valid for boolean flag." ) if self.count: if self.multiple: raise TypeError("'count' is not valid with 'multiple'.") if self.is_flag: raise TypeError("'count' is not valid with 'is_flag'.") def to_info_dict(self) -> t.Dict[str, t.Any]: info_dict = super().to_info_dict() info_dict.update( help=self.help, prompt=self.prompt, is_flag=self.is_flag, flag_value=self.flag_value, count=self.count, hidden=self.hidden, ) return info_dict def _parse_decls( self, decls: t.Sequence[str], expose_value: bool ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: opts = [] secondary_opts = [] name = None possible_names = [] for decl in decls: if decl.isidentifier(): if name is not None: raise TypeError(f"Name '{name}' defined twice") name = decl else: split_char = ";" if decl[:1] == "/" else "/" if split_char in decl: first, second = decl.split(split_char, 1) first = first.rstrip() if first: possible_names.append(split_opt(first)) opts.append(first) second = second.lstrip() if second: secondary_opts.append(second.lstrip()) if first == second: raise ValueError( f"Boolean option {decl!r} cannot use the" " same flag for true/false." ) else: possible_names.append(split_opt(decl)) opts.append(decl) if name is None and possible_names: possible_names.sort(key=lambda x: -len(x[0])) # group long options first name = possible_names[0][1].replace("-", "_").lower() if not name.isidentifier(): name = None if name is None: if not expose_value: return None, opts, secondary_opts raise TypeError("Could not determine name for option") if not opts and not secondary_opts: raise TypeError( f"No options defined but a name was passed ({name})." " Did you mean to declare an argument instead? Did" f" you mean to pass '--{name}'?" ) return name, opts, secondary_opts def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: if self.multiple: action = "append" elif self.count: action = "count" else: action = "store" if self.is_flag: action = f"{action}_const" if self.is_bool_flag and self.secondary_opts: parser.add_option( obj=self, opts=self.opts, dest=self.name, action=action, const=True ) parser.add_option( obj=self, opts=self.secondary_opts, dest=self.name, action=action, const=False, ) else: parser.add_option( obj=self, opts=self.opts, dest=self.name, action=action, const=self.flag_value, ) else: parser.add_option( obj=self, opts=self.opts, dest=self.name, action=action, nargs=self.nargs, ) def get_help_record(self, ctx: Context) -> t.Optional[t.Tuple[str, str]]: if self.hidden: return None any_prefix_is_slash = False def _write_opts(opts: t.Sequence[str]) -> str: nonlocal any_prefix_is_slash rv, any_slashes = join_options(opts) if any_slashes: any_prefix_is_slash = True if not self.is_flag and not self.count: rv += f" {self.make_metavar()}" return rv rv = [_write_opts(self.opts)] if self.secondary_opts: rv.append(_write_opts(self.secondary_opts)) help = self.help or "" extra = [] if self.show_envvar: envvar = self.envvar if envvar is None: if ( self.allow_from_autoenv and ctx.auto_envvar_prefix is not None and self.name is not None ): envvar = f"{ctx.auto_envvar_prefix}_{self.name.upper()}" if envvar is not None: var_str = ( envvar if isinstance(envvar, str) else ", ".join(str(d) for d in envvar) ) extra.append(_("env var: {var}").format(var=var_str)) # Temporarily enable resilient parsing to avoid type casting # failing for the default. Might be possible to extend this to # help formatting in general. resilient = ctx.resilient_parsing ctx.resilient_parsing = True try: default_value = self.get_default(ctx, call=False) finally: ctx.resilient_parsing = resilient show_default = False show_default_is_str = False if self.show_default is not None: if isinstance(self.show_default, str): show_default_is_str = show_default = True else: show_default = self.show_default elif ctx.show_default is not None: show_default = ctx.show_default if show_default_is_str or (show_default and (default_value is not None)): if show_default_is_str: default_string = f"({self.show_default})" elif isinstance(default_value, (list, tuple)): default_string = ", ".join(str(d) for d in default_value) elif inspect.isfunction(default_value): default_string = _("(dynamic)") elif self.is_bool_flag and self.secondary_opts: # For boolean flags that have distinct True/False opts, # use the opt without prefix instead of the value. default_string = split_opt( (self.opts if self.default else self.secondary_opts)[0] )[1] elif self.is_bool_flag and not self.secondary_opts and not default_value: default_string = "" else: default_string = str(default_value) if default_string: extra.append(_("default: {default}").format(default=default_string)) if ( isinstance(self.type, types._NumberRangeBase) # skip count with default range type and not (self.count and self.type.min == 0 and self.type.max is None) ): range_str = self.type._describe_range() if range_str: extra.append(range_str) if self.required: extra.append(_("required")) if extra: extra_str = "; ".join(extra) help = f"{help} [{extra_str}]" if help else f"[{extra_str}]" return ("; " if any_prefix_is_slash else " / ").join(rv), help @t.overload def get_default( self, ctx: Context, call: "te.Literal[True]" = True ) -> t.Optional[t.Any]: ... @t.overload def get_default( self, ctx: Context, call: bool = ... ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: ... def get_default( self, ctx: Context, call: bool = True ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: # If we're a non boolean flag our default is more complex because # we need to look at all flags in the same group to figure out # if we're the default one in which case we return the flag # value as default. if self.is_flag and not self.is_bool_flag: for param in ctx.command.params: if param.name == self.name and param.default: return t.cast(Option, param).flag_value return None return super().get_default(ctx, call=call) def prompt_for_value(self, ctx: Context) -> t.Any: """This is an alternative flow that can be activated in the full value processing if a value does not exist. It will prompt the user until a valid value exists and then returns the processed value as result. """ assert self.prompt is not None # Calculate the default before prompting anything to be stable. default = self.get_default(ctx) # If this is a prompt for a flag we need to handle this # differently. if self.is_bool_flag: return confirm(self.prompt, default) return prompt( self.prompt, default=default, type=self.type, hide_input=self.hide_input, show_choices=self.show_choices, confirmation_prompt=self.confirmation_prompt, value_proc=lambda x: self.process_value(ctx, x), ) def resolve_envvar_value(self, ctx: Context) -> t.Optional[str]: rv = super().resolve_envvar_value(ctx) if rv is not None: return rv if ( self.allow_from_autoenv and ctx.auto_envvar_prefix is not None and self.name is not None ): envvar = f"{ctx.auto_envvar_prefix}_{self.name.upper()}" rv = os.environ.get(envvar) if rv: return rv return None def value_from_envvar(self, ctx: Context) -> t.Optional[t.Any]: rv: t.Optional[t.Any] = self.resolve_envvar_value(ctx) if rv is None: return None value_depth = (self.nargs != 1) + bool(self.multiple) if value_depth > 0: rv = self.type.split_envvar_value(rv) if self.multiple and self.nargs != 1: rv = batch(rv, self.nargs) return rv def consume_value( self, ctx: Context, opts: t.Mapping[str, "Parameter"] ) -> t.Tuple[t.Any, ParameterSource]: value, source = super().consume_value(ctx, opts) # The parser will emit a sentinel value if the option can be # given as a flag without a value. This is different from None # to distinguish from the flag not being given at all. if value is _flag_needs_value: if self.prompt is not None and not ctx.resilient_parsing: value = self.prompt_for_value(ctx) source = ParameterSource.PROMPT else: value = self.flag_value source = ParameterSource.COMMANDLINE elif ( self.multiple and value is not None and any(v is _flag_needs_value for v in value) ): value = [self.flag_value if v is _flag_needs_value else v for v in value] source = ParameterSource.COMMANDLINE # The value wasn't set, or used the param's default, prompt if # prompting is enabled. elif ( source in {None, ParameterSource.DEFAULT} and self.prompt is not None and (self.required or self.prompt_required) and not ctx.resilient_parsing ): value = self.prompt_for_value(ctx) source = ParameterSource.PROMPT return value, source class Argument(Parameter): """Arguments are positional parameters to a command. They generally provide fewer features than options but can have infinite ``nargs`` and are required by default. All parameters are passed onwards to the constructor of :class:`Parameter`. """ param_type_name = "argument" def __init__( self, param_decls: t.Sequence[str], required: t.Optional[bool] = None, **attrs: t.Any, ) -> None: if required is None: if attrs.get("default") is not None: required = False else: required = attrs.get("nargs", 1) > 0 if "multiple" in attrs: raise TypeError("__init__() got an unexpected keyword argument 'multiple'.") super().__init__(param_decls, required=required, **attrs) if __debug__: if self.default is not None and self.nargs == -1: raise TypeError("'default' is not supported for nargs=-1.") @property def human_readable_name(self) -> str: if self.metavar is not None: return self.metavar return self.name.upper() # type: ignore def make_metavar(self) -> str: if self.metavar is not None: return self.metavar var = self.type.get_metavar(self) if not var: var = self.name.upper() # type: ignore if not self.required: var = f"[{var}]" if self.nargs != 1: var += "..." return var def _parse_decls( self, decls: t.Sequence[str], expose_value: bool ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: if not decls: if not expose_value: return None, [], [] raise TypeError("Could not determine name for argument") if len(decls) == 1: name = arg = decls[0] name = name.replace("-", "_").lower() else: raise TypeError( "Arguments take exactly one parameter declaration, got" f" {len(decls)}." ) return name, [arg], [] def get_usage_pieces(self, ctx: Context) -> t.List[str]: return [self.make_metavar()] def get_error_hint(self, ctx: Context) -> str: return f"'{self.make_metavar()}'" def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: parser.add_argument(dest=self.name, nargs=self.nargs, obj=self)