vendor/clap/src/derive.rs - toolchain/rustc - Git at Google

 //! This module contains traits that are usable with the `#[derive(...)].`
 //! macros in [`clap_derive`].

 use crate::builder::PossibleValue;
 use crate::{ArgMatches, Command, Error};

 use std::ffi::OsString;

 /// Parse command-line arguments into `Self`.
 ///
 /// The primary one-stop-shop trait used to create an instance of a `clap`
 /// [`Command`], conduct the parsing, and turn the resulting [`ArgMatches`] back
 /// into concrete instance of the user struct.
 ///
 /// This trait is primarily a convenience on top of [`FromArgMatches`] +
 /// [`CommandFactory`] which uses those two underlying traits to build the two
 /// fundamental functions `parse` which uses the `std::env::args_os` iterator,
 /// and `parse_from` which allows the consumer to supply the iterator (along
 /// with fallible options for each).
 ///
 /// See also [`Subcommand`] and [`Args`].
 ///
 /// See the [derive reference](crate::_derive) for attributes and best practices.
 ///
 /// **NOTE:** Deriving requires the [`derive` feature flag][crate::_features]
 ///
 /// # Examples
 ///
 /// The following example creates a `Context` struct that would be used
 /// throughout the application representing the normalized values coming from
 /// the CLI.
 ///
 #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
 #[cfg_attr(feature = "derive", doc = " ```")]
 /// /// My super CLI
 /// #[derive(clap::Parser)]
 /// #[command(name = "demo")]
 /// struct Context {
 ///     /// More verbose output
 ///     #[arg(long)]
 ///     verbose: bool,
 ///     /// An optional name
 ///     #[arg(short, long)]
 ///     name: Option<String>,
 /// }
 /// ```
 ///
 /// The equivalent [`Command`] struct + `From` implementation:
 ///
 /// ```rust
 /// # use clap::{Command, Arg, ArgMatches, ArgAction};
 /// Command::new("demo")
 ///     .about("My super CLI")
 ///     .arg(Arg::new("verbose")
 ///         .long("verbose")
 ///         .action(ArgAction::SetTrue)
 ///         .help("More verbose output"))
 ///     .arg(Arg::new("name")
 ///         .long("name")
 ///         .short('n')
 ///         .help("An optional name")
 ///         .action(ArgAction::Set));
 ///
 /// struct Context {
 ///     verbose: bool,
 ///     name: Option<String>,
 /// }
 ///
 /// impl From<ArgMatches> for Context {
 ///     fn from(m: ArgMatches) -> Self {
 ///         Context {
 ///             verbose: *m.get_one::<bool>("verbose").expect("defaulted_by_clap"),
 ///             name: m.get_one::<String>("name").cloned(),
 ///         }
 ///     }
 /// }
 /// ```
 ///
 pub trait Parser: FromArgMatches + CommandFactory + Sized {
     /// Parse from `std::env::args_os()`, exit on error
     fn parse() -> Self {
         let mut matches = <Self as CommandFactory>::command().get_matches();
         let res = <Self as FromArgMatches>::from_arg_matches_mut(&mut matches)
             .map_err(format_error::<Self>);
         match res {
             Ok(s) => s,
             Err(e) => {
                 // Since this is more of a development-time error, we aren't doing as fancy of a quit
                 // as `get_matches`
                 e.exit()
             }
         }
     }

     /// Parse from `std::env::args_os()`, return Err on error.
     fn try_parse() -> Result<Self, Error> {
         let mut matches = ok!(<Self as CommandFactory>::command().try_get_matches());
         <Self as FromArgMatches>::from_arg_matches_mut(&mut matches).map_err(format_error::<Self>)
     }

     /// Parse from iterator, exit on error
     fn parse_from<I, T>(itr: I) -> Self
     where
         I: IntoIterator<Item = T>,
         T: Into<OsString> + Clone,
     {
         let mut matches = <Self as CommandFactory>::command().get_matches_from(itr);
         let res = <Self as FromArgMatches>::from_arg_matches_mut(&mut matches)
             .map_err(format_error::<Self>);
         match res {
             Ok(s) => s,
             Err(e) => {
                 // Since this is more of a development-time error, we aren't doing as fancy of a quit
                 // as `get_matches_from`
                 e.exit()
             }
         }
     }

     /// Parse from iterator, return Err on error.
     fn try_parse_from<I, T>(itr: I) -> Result<Self, Error>
     where
         I: IntoIterator<Item = T>,
         T: Into<OsString> + Clone,
     {
         let mut matches = ok!(<Self as CommandFactory>::command().try_get_matches_from(itr));
         <Self as FromArgMatches>::from_arg_matches_mut(&mut matches).map_err(format_error::<Self>)
     }

     /// Update from iterator, exit on error
     fn update_from<I, T>(&mut self, itr: I)
     where
         I: IntoIterator<Item = T>,
         T: Into<OsString> + Clone,
     {
         let mut matches = <Self as CommandFactory>::command_for_update().get_matches_from(itr);
         let res = <Self as FromArgMatches>::update_from_arg_matches_mut(self, &mut matches)
             .map_err(format_error::<Self>);
         if let Err(e) = res {
             // Since this is more of a development-time error, we aren't doing as fancy of a quit
             // as `get_matches_from`
             e.exit()
         }
     }

     /// Update from iterator, return Err on error.
     fn try_update_from<I, T>(&mut self, itr: I) -> Result<(), Error>
     where
         I: IntoIterator<Item = T>,
         T: Into<OsString> + Clone,
     {
         let mut matches =
             ok!(<Self as CommandFactory>::command_for_update().try_get_matches_from(itr));
         <Self as FromArgMatches>::update_from_arg_matches_mut(self, &mut matches)
             .map_err(format_error::<Self>)
     }
 }

 /// Create a [`Command`] relevant for a user-defined container.
 ///
 /// Derived as part of [`Parser`].
 pub trait CommandFactory: Sized {
     /// Build a [`Command`] that can instantiate `Self`.
     ///
     /// See [`FromArgMatches::from_arg_matches_mut`] for instantiating `Self`.
     fn command() -> Command;
     /// Build a [`Command`] that can update `self`.
     ///
     /// See [`FromArgMatches::update_from_arg_matches_mut`] for updating `self`.
     fn command_for_update() -> Command;
 }

 /// Converts an instance of [`ArgMatches`] to a user-defined container.
 ///
 /// Derived as part of [`Parser`], [`Args`], and [`Subcommand`].
 pub trait FromArgMatches: Sized {
     /// Instantiate `Self` from [`ArgMatches`], parsing the arguments as needed.
     ///
     /// Motivation: If our application had two CLI options, `--name
     /// <STRING>` and the flag `--debug`, we may create a struct as follows:
     ///
     #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
     #[cfg_attr(feature = "derive", doc = " ```no_run")]
     /// struct Context {
     ///     name: String,
     ///     debug: bool
     /// }
     /// ```
     ///
     /// We then need to convert the `ArgMatches` that `clap` generated into our struct.
     /// `from_arg_matches` serves as the equivalent of:
     ///
     #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
     #[cfg_attr(feature = "derive", doc = " ```no_run")]
     /// # use clap::ArgMatches;
     /// # struct Context {
     /// #   name: String,
     /// #   debug: bool
     /// # }
     /// impl From<ArgMatches> for Context {
     ///    fn from(m: ArgMatches) -> Self {
     ///        Context {
     ///            name: m.get_one::<String>("name").unwrap().clone(),
     ///            debug: *m.get_one::<bool>("debug").expect("defaulted by clap"),
     ///        }
     ///    }
     /// }
     /// ```
     fn from_arg_matches(matches: &ArgMatches) -> Result<Self, Error>;

     /// Instantiate `Self` from [`ArgMatches`], parsing the arguments as needed.
     ///
     /// Motivation: If our application had two CLI options, `--name
     /// <STRING>` and the flag `--debug`, we may create a struct as follows:
     ///
     #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
     #[cfg_attr(feature = "derive", doc = " ```no_run")]
     /// struct Context {
     ///     name: String,
     ///     debug: bool
     /// }
     /// ```
     ///
     /// We then need to convert the `ArgMatches` that `clap` generated into our struct.
     /// `from_arg_matches_mut` serves as the equivalent of:
     ///
     #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
     #[cfg_attr(feature = "derive", doc = " ```no_run")]
     /// # use clap::ArgMatches;
     /// # struct Context {
     /// #   name: String,
     /// #   debug: bool
     /// # }
     /// impl From<ArgMatches> for Context {
     ///    fn from(m: ArgMatches) -> Self {
     ///        Context {
     ///            name: m.get_one::<String>("name").unwrap().to_string(),
     ///            debug: *m.get_one::<bool>("debug").expect("defaulted by clap"),
     ///        }
     ///    }
     /// }
     /// ```
     fn from_arg_matches_mut(matches: &mut ArgMatches) -> Result<Self, Error> {
         Self::from_arg_matches(matches)
     }

     /// Assign values from `ArgMatches` to `self`.
     fn update_from_arg_matches(&mut self, matches: &ArgMatches) -> Result<(), Error>;

     /// Assign values from `ArgMatches` to `self`.
     fn update_from_arg_matches_mut(&mut self, matches: &mut ArgMatches) -> Result<(), Error> {
         self.update_from_arg_matches(matches)
     }
 }

 /// Parse a set of arguments into a user-defined container.
 ///
 /// Implementing this trait lets a parent container delegate argument parsing behavior to `Self`.
 /// with:
 /// - `#[command(flatten)] args: ChildArgs`: Attribute can only be used with struct fields that impl
 ///   `Args`.
 /// - `Variant(ChildArgs)`: No attribute is used with enum variants that impl `Args`.
 ///
 /// See the [derive reference](crate::_derive) for attributes and best practices.
 ///
 /// **NOTE:** Deriving requires the [`derive` feature flag][crate::_features]
 ///
 /// # Example
 ///
 #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
 #[cfg_attr(feature = "derive", doc = " ```")]
 /// #[derive(clap::Parser)]
 /// struct Args {
 ///     #[command(flatten)]
 ///     logging: LogArgs,
 /// }
 ///
 /// #[derive(clap::Args)]
 /// struct LogArgs {
 ///     #[arg(long, short = 'v', action = clap::ArgAction::Count)]
 ///     verbose: i8,
 /// }
 /// ```
 pub trait Args: FromArgMatches + Sized {
     /// Report the [`ArgGroup::id`][crate::ArgGroup::id] for this set of arguments
     fn group_id() -> Option<crate::Id> {
         None
     }
     /// Append to [`Command`] so it can instantiate `Self`.
     ///
     /// See also [`CommandFactory`].
     fn augment_args(cmd: Command) -> Command;
     /// Append to [`Command`] so it can update `self`.
     ///
     /// This is used to implement `#[command(flatten)]`
     ///
     /// See also [`CommandFactory`].
     fn augment_args_for_update(cmd: Command) -> Command;
 }

 /// Parse a sub-command into a user-defined enum.
 ///
 /// Implementing this trait lets a parent container delegate subcommand behavior to `Self`.
 /// with:
 /// - `#[command(subcommand)] field: SubCmd`: Attribute can be used with either struct fields or enum
 ///   variants that impl `Subcommand`.
 /// - `#[command(flatten)] Variant(SubCmd)`: Attribute can only be used with enum variants that impl
 ///   `Subcommand`.
 ///
 /// See the [derive reference](crate::_derive) for attributes and best practices.
 ///
 /// **NOTE:** Deriving requires the [`derive` feature flag][crate::_features]
 ///
 /// # Example
 ///
 #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
 #[cfg_attr(feature = "derive", doc = " ```")]
 /// #[derive(clap::Parser)]
 /// struct Args {
 ///     #[command(subcommand)]
 ///     action: Action,
 /// }
 ///
 /// #[derive(clap::Subcommand)]
 /// enum Action {
 ///     Add,
 ///     Remove,
 /// }
 /// ```
 pub trait Subcommand: FromArgMatches + Sized {
     /// Append to [`Command`] so it can instantiate `Self`.
     ///
     /// See also [`CommandFactory`].
     fn augment_subcommands(cmd: Command) -> Command;
     /// Append to [`Command`] so it can update `self`.
     ///
     /// This is used to implement `#[command(flatten)]`
     ///
     /// See also [`CommandFactory`].
     fn augment_subcommands_for_update(cmd: Command) -> Command;
     /// Test whether `Self` can parse a specific subcommand
     fn has_subcommand(name: &str) -> bool;
 }

 /// Parse arguments into enums.
 ///
 /// When deriving [`Parser`], a field whose type implements `ValueEnum` can have the attribute
 /// `#[arg(value_enum)]` which will
 /// - Call [EnumValueParser`][crate::builder::EnumValueParser]`
 /// - Allowing using the `#[arg(default_value_t)]` attribute without implementing `Display`.
 ///
 /// See the [derive reference](crate::_derive) for attributes and best practices.
 ///
 /// **NOTE:** Deriving requires the [`derive` feature flag][crate::_features]
 ///
 /// # Example
 ///
 #[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
 #[cfg_attr(feature = "derive", doc = " ```")]
 /// #[derive(clap::Parser)]
 /// struct Args {
 ///     #[arg(value_enum)]
 ///     level: Level,
 /// }
 ///
 /// #[derive(clap::ValueEnum, Clone)]
 /// enum Level {
 ///     Debug,
 ///     Info,
 ///     Warning,
 ///     Error,
 /// }
 /// ```
 pub trait ValueEnum: Sized + Clone {
     /// All possible argument values, in display order.
     fn value_variants<'a>() -> &'a [Self];

     /// Parse an argument into `Self`.
     fn from_str(input: &str, ignore_case: bool) -> Result<Self, String> {
         Self::value_variants()
             .iter()
             .find(|v| {
                 v.to_possible_value()
                     .expect("ValueEnum::value_variants contains only values with a corresponding ValueEnum::to_possible_value")
                     .matches(input, ignore_case)
             })
             .cloned()
             .ok_or_else(|| format!("Invalid variant: {}", input))
     }

     /// The canonical argument value.
     ///
     /// The value is `None` for skipped variants.
     fn to_possible_value(&self) -> Option<PossibleValue>;
 }

 impl<T: Parser> Parser for Box<T> {
     fn parse() -> Self {
         Box::new(<T as Parser>::parse())
     }

     fn try_parse() -> Result<Self, Error> {
         <T as Parser>::try_parse().map(Box::new)
     }

     fn parse_from<I, It>(itr: I) -> Self
     where
         I: IntoIterator<Item = It>,
         It: Into<OsString> + Clone,
     {
         Box::new(<T as Parser>::parse_from(itr))
     }

     fn try_parse_from<I, It>(itr: I) -> Result<Self, Error>
     where
         I: IntoIterator<Item = It>,
         It: Into<OsString> + Clone,
     {
         <T as Parser>::try_parse_from(itr).map(Box::new)
     }
 }

 impl<T: CommandFactory> CommandFactory for Box<T> {
     fn command<'help>() -> Command {
         <T as CommandFactory>::command()
     }
     fn command_for_update<'help>() -> Command {
         <T as CommandFactory>::command_for_update()
     }
 }

 impl<T: FromArgMatches> FromArgMatches for Box<T> {
     fn from_arg_matches(matches: &ArgMatches) -> Result<Self, Error> {
         <T as FromArgMatches>::from_arg_matches(matches).map(Box::new)
     }
     fn from_arg_matches_mut(matches: &mut ArgMatches) -> Result<Self, Error> {
         <T as FromArgMatches>::from_arg_matches_mut(matches).map(Box::new)
     }
     fn update_from_arg_matches(&mut self, matches: &ArgMatches) -> Result<(), Error> {
         <T as FromArgMatches>::update_from_arg_matches(self, matches)
     }
     fn update_from_arg_matches_mut(&mut self, matches: &mut ArgMatches) -> Result<(), Error> {
         <T as FromArgMatches>::update_from_arg_matches_mut(self, matches)
     }
 }

 impl<T: Args> Args for Box<T> {
     fn augment_args(cmd: Command) -> Command {
         <T as Args>::augment_args(cmd)
     }
     fn augment_args_for_update(cmd: Command) -> Command {
         <T as Args>::augment_args_for_update(cmd)
     }
 }

 impl<T: Subcommand> Subcommand for Box<T> {
     fn augment_subcommands(cmd: Command) -> Command {
         <T as Subcommand>::augment_subcommands(cmd)
     }
     fn augment_subcommands_for_update(cmd: Command) -> Command {
         <T as Subcommand>::augment_subcommands_for_update(cmd)
     }
     fn has_subcommand(name: &str) -> bool {
         <T as Subcommand>::has_subcommand(name)
     }
 }

 fn format_error<I: CommandFactory>(err: crate::Error) -> crate::Error {
     let mut cmd = I::command();
     err.format(&mut cmd)
 }
	//! This module contains traits that are usable with the `#[derive(...)].`
	//! macros in [`clap_derive`].

	use crate::builder::PossibleValue;
	use crate::{ArgMatches, Command, Error};

	use std::ffi::OsString;

	/// Parse command-line arguments into `Self`.
	///
	/// The primary one-stop-shop trait used to create an instance of a `clap`
	/// [`Command`], conduct the parsing, and turn the resulting [`ArgMatches`] back
	/// into concrete instance of the user struct.
	///
	/// This trait is primarily a convenience on top of [`FromArgMatches`] +
	/// [`CommandFactory`] which uses those two underlying traits to build the two
	/// fundamental functions `parse` which uses the `std::env::args_os` iterator,
	/// and `parse_from` which allows the consumer to supply the iterator (along
	/// with fallible options for each).
	///
	/// See also [`Subcommand`] and [`Args`].
	///
	/// See the [derive reference](crate::_derive) for attributes and best practices.
	///
	/// NOTE: Deriving requires the [`derive` feature flag][crate::_features]
	///
	/// # Examples
	///
	/// The following example creates a `Context` struct that would be used
	/// throughout the application representing the normalized values coming from
	/// the CLI.
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```")]
	/// /// My super CLI
	/// #[derive(clap::Parser)]
	/// #[command(name = "demo")]
	/// struct Context {
	/// /// More verbose output
	/// #[arg(long)]
	/// verbose: bool,
	/// /// An optional name
	/// #[arg(short, long)]
	/// name: Option<String>,
	/// }
	/// ```
	///
	/// The equivalent [`Command`] struct + `From` implementation:
	///
	/// ```rust
	/// # use clap::{Command, Arg, ArgMatches, ArgAction};
	/// Command::new("demo")
	/// .about("My super CLI")
	/// .arg(Arg::new("verbose")
	/// .long("verbose")
	/// .action(ArgAction::SetTrue)
	/// .help("More verbose output"))
	/// .arg(Arg::new("name")
	/// .long("name")
	/// .short('n')
	/// .help("An optional name")
	/// .action(ArgAction::Set));
	///
	/// struct Context {
	/// verbose: bool,
	/// name: Option<String>,
	/// }
	///
	/// impl From<ArgMatches> for Context {
	/// fn from(m: ArgMatches) -> Self {
	/// Context {
	/// verbose: *m.get_one::<bool>("verbose").expect("defaulted_by_clap"),
	/// name: m.get_one::<String>("name").cloned(),
	/// }
	/// }
	/// }
	/// ```
	///
	pub trait Parser: FromArgMatches + CommandFactory + Sized {
	/// Parse from `std::env::args_os()`, exit on error
	fn parse() -> Self {
	let mut matches = <Self as CommandFactory>::command().get_matches();
	let res = <Self as FromArgMatches>::from_arg_matches_mut(&mut matches)
	.map_err(format_error::<Self>);
	match res {
	Ok(s) => s,
	Err(e) => {
	// Since this is more of a development-time error, we aren't doing as fancy of a quit
	// as `get_matches`
	e.exit()
	}
	}
	}

	/// Parse from `std::env::args_os()`, return Err on error.
	fn try_parse() -> Result<Self, Error> {
	let mut matches = ok!(<Self as CommandFactory>::command().try_get_matches());
	<Self as FromArgMatches>::from_arg_matches_mut(&mut matches).map_err(format_error::<Self>)
	}

	/// Parse from iterator, exit on error
	fn parse_from<I, T>(itr: I) -> Self
	where
	I: IntoIterator<Item = T>,
	T: Into<OsString> + Clone,
	{
	let mut matches = <Self as CommandFactory>::command().get_matches_from(itr);
	let res = <Self as FromArgMatches>::from_arg_matches_mut(&mut matches)
	.map_err(format_error::<Self>);
	match res {
	Ok(s) => s,
	Err(e) => {
	// Since this is more of a development-time error, we aren't doing as fancy of a quit
	// as `get_matches_from`
	e.exit()
	}
	}
	}

	/// Parse from iterator, return Err on error.
	fn try_parse_from<I, T>(itr: I) -> Result<Self, Error>
	where
	I: IntoIterator<Item = T>,
	T: Into<OsString> + Clone,
	{
	let mut matches = ok!(<Self as CommandFactory>::command().try_get_matches_from(itr));
	<Self as FromArgMatches>::from_arg_matches_mut(&mut matches).map_err(format_error::<Self>)
	}

	/// Update from iterator, exit on error
	fn update_from<I, T>(&mut self, itr: I)
	where
	I: IntoIterator<Item = T>,
	T: Into<OsString> + Clone,
	{
	let mut matches = <Self as CommandFactory>::command_for_update().get_matches_from(itr);
	let res = <Self as FromArgMatches>::update_from_arg_matches_mut(self, &mut matches)
	.map_err(format_error::<Self>);
	if let Err(e) = res {
	// Since this is more of a development-time error, we aren't doing as fancy of a quit
	// as `get_matches_from`
	e.exit()
	}
	}

	/// Update from iterator, return Err on error.
	fn try_update_from<I, T>(&mut self, itr: I) -> Result<(), Error>
	where
	I: IntoIterator<Item = T>,
	T: Into<OsString> + Clone,
	{
	let mut matches =
	ok!(<Self as CommandFactory>::command_for_update().try_get_matches_from(itr));
	<Self as FromArgMatches>::update_from_arg_matches_mut(self, &mut matches)
	.map_err(format_error::<Self>)
	}
	}

	/// Create a [`Command`] relevant for a user-defined container.
	///
	/// Derived as part of [`Parser`].
	pub trait CommandFactory: Sized {
	/// Build a [`Command`] that can instantiate `Self`.
	///
	/// See [`FromArgMatches::from_arg_matches_mut`] for instantiating `Self`.
	fn command() -> Command;
	/// Build a [`Command`] that can update `self`.
	///
	/// See [`FromArgMatches::update_from_arg_matches_mut`] for updating `self`.
	fn command_for_update() -> Command;
	}

	/// Converts an instance of [`ArgMatches`] to a user-defined container.
	///
	/// Derived as part of [`Parser`], [`Args`], and [`Subcommand`].
	pub trait FromArgMatches: Sized {
	/// Instantiate `Self` from [`ArgMatches`], parsing the arguments as needed.
	///
	/// Motivation: If our application had two CLI options, `--name
	/// <STRING>` and the flag `--debug`, we may create a struct as follows:
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```no_run")]
	/// struct Context {
	/// name: String,
	/// debug: bool
	/// }
	/// ```
	///
	/// We then need to convert the `ArgMatches` that `clap` generated into our struct.
	/// `from_arg_matches` serves as the equivalent of:
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```no_run")]
	/// # use clap::ArgMatches;
	/// # struct Context {
	/// # name: String,
	/// # debug: bool
	/// # }
	/// impl From<ArgMatches> for Context {
	/// fn from(m: ArgMatches) -> Self {
	/// Context {
	/// name: m.get_one::<String>("name").unwrap().clone(),
	/// debug: *m.get_one::<bool>("debug").expect("defaulted by clap"),
	/// }
	/// }
	/// }
	/// ```
	fn from_arg_matches(matches: &ArgMatches) -> Result<Self, Error>;

	/// Instantiate `Self` from [`ArgMatches`], parsing the arguments as needed.
	///
	/// Motivation: If our application had two CLI options, `--name
	/// <STRING>` and the flag `--debug`, we may create a struct as follows:
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```no_run")]
	/// struct Context {
	/// name: String,
	/// debug: bool
	/// }
	/// ```
	///
	/// We then need to convert the `ArgMatches` that `clap` generated into our struct.
	/// `from_arg_matches_mut` serves as the equivalent of:
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```no_run")]
	/// # use clap::ArgMatches;
	/// # struct Context {
	/// # name: String,
	/// # debug: bool
	/// # }
	/// impl From<ArgMatches> for Context {
	/// fn from(m: ArgMatches) -> Self {
	/// Context {
	/// name: m.get_one::<String>("name").unwrap().to_string(),
	/// debug: *m.get_one::<bool>("debug").expect("defaulted by clap"),
	/// }
	/// }
	/// }
	/// ```
	fn from_arg_matches_mut(matches: &mut ArgMatches) -> Result<Self, Error> {
	Self::from_arg_matches(matches)
	}

	/// Assign values from `ArgMatches` to `self`.
	fn update_from_arg_matches(&mut self, matches: &ArgMatches) -> Result<(), Error>;

	/// Assign values from `ArgMatches` to `self`.
	fn update_from_arg_matches_mut(&mut self, matches: &mut ArgMatches) -> Result<(), Error> {
	self.update_from_arg_matches(matches)
	}
	}

	/// Parse a set of arguments into a user-defined container.
	///
	/// Implementing this trait lets a parent container delegate argument parsing behavior to `Self`.
	/// with:
	/// - `#[command(flatten)] args: ChildArgs`: Attribute can only be used with struct fields that impl
	/// `Args`.
	/// - `Variant(ChildArgs)`: No attribute is used with enum variants that impl `Args`.
	///
	/// See the [derive reference](crate::_derive) for attributes and best practices.
	///
	/// NOTE: Deriving requires the [`derive` feature flag][crate::_features]
	///
	/// # Example
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```")]
	/// #[derive(clap::Parser)]
	/// struct Args {
	/// #[command(flatten)]
	/// logging: LogArgs,
	/// }
	///
	/// #[derive(clap::Args)]
	/// struct LogArgs {
	/// #[arg(long, short = 'v', action = clap::ArgAction::Count)]
	/// verbose: i8,
	/// }
	/// ```
	pub trait Args: FromArgMatches + Sized {
	/// Report the [`ArgGroup::id`][crate::ArgGroup::id] for this set of arguments
	fn group_id() -> Option<crate::Id> {
	None
	}
	/// Append to [`Command`] so it can instantiate `Self`.
	///
	/// See also [`CommandFactory`].
	fn augment_args(cmd: Command) -> Command;
	/// Append to [`Command`] so it can update `self`.
	///
	/// This is used to implement `#[command(flatten)]`
	///
	/// See also [`CommandFactory`].
	fn augment_args_for_update(cmd: Command) -> Command;
	}

	/// Parse a sub-command into a user-defined enum.
	///
	/// Implementing this trait lets a parent container delegate subcommand behavior to `Self`.
	/// with:
	/// - `#[command(subcommand)] field: SubCmd`: Attribute can be used with either struct fields or enum
	/// variants that impl `Subcommand`.
	/// - `#[command(flatten)] Variant(SubCmd)`: Attribute can only be used with enum variants that impl
	/// `Subcommand`.
	///
	/// See the [derive reference](crate::_derive) for attributes and best practices.
	///
	/// NOTE: Deriving requires the [`derive` feature flag][crate::_features]
	///
	/// # Example
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```")]
	/// #[derive(clap::Parser)]
	/// struct Args {
	/// #[command(subcommand)]
	/// action: Action,
	/// }
	///
	/// #[derive(clap::Subcommand)]
	/// enum Action {
	/// Add,
	/// Remove,
	/// }
	/// ```
	pub trait Subcommand: FromArgMatches + Sized {
	/// Append to [`Command`] so it can instantiate `Self`.
	///
	/// See also [`CommandFactory`].
	fn augment_subcommands(cmd: Command) -> Command;
	/// Append to [`Command`] so it can update `self`.
	///
	/// This is used to implement `#[command(flatten)]`
	///
	/// See also [`CommandFactory`].
	fn augment_subcommands_for_update(cmd: Command) -> Command;
	/// Test whether `Self` can parse a specific subcommand
	fn has_subcommand(name: &str) -> bool;
	}

	/// Parse arguments into enums.
	///
	/// When deriving [`Parser`], a field whose type implements `ValueEnum` can have the attribute
	/// `#[arg(value_enum)]` which will
	/// - Call [EnumValueParser`][crate::builder::EnumValueParser]`
	/// - Allowing using the `#[arg(default_value_t)]` attribute without implementing `Display`.
	///
	/// See the [derive reference](crate::_derive) for attributes and best practices.
	///
	/// NOTE: Deriving requires the [`derive` feature flag][crate::_features]
	///
	/// # Example
	///
	#[cfg_attr(not(feature = "derive"), doc = " ```ignore")]
	#[cfg_attr(feature = "derive", doc = " ```")]
	/// #[derive(clap::Parser)]
	/// struct Args {
	/// #[arg(value_enum)]
	/// level: Level,
	/// }
	///
	/// #[derive(clap::ValueEnum, Clone)]
	/// enum Level {
	/// Debug,
	/// Info,
	/// Warning,
	/// Error,
	/// }
	/// ```
	pub trait ValueEnum: Sized + Clone {
	/// All possible argument values, in display order.
	fn value_variants<'a>() -> &'a [Self];

	/// Parse an argument into `Self`.
	fn from_str(input: &str, ignore_case: bool) -> Result<Self, String> {
	Self::value_variants()
	.iter()
	.find(\|v\| {
	v.to_possible_value()
	.expect("ValueEnum::value_variants contains only values with a corresponding ValueEnum::to_possible_value")
	.matches(input, ignore_case)
	})
	.cloned()
	.ok_or_else(\|\| format!("Invalid variant: {}", input))
	}

	/// The canonical argument value.
	///
	/// The value is `None` for skipped variants.
	fn to_possible_value(&self) -> Option<PossibleValue>;
	}

	impl<T: Parser> Parser for Box<T> {
	fn parse() -> Self {
	Box::new(<T as Parser>::parse())
	}

	fn try_parse() -> Result<Self, Error> {
	<T as Parser>::try_parse().map(Box::new)
	}

	fn parse_from<I, It>(itr: I) -> Self
	where
	I: IntoIterator<Item = It>,
	It: Into<OsString> + Clone,
	{
	Box::new(<T as Parser>::parse_from(itr))
	}

	fn try_parse_from<I, It>(itr: I) -> Result<Self, Error>
	where
	I: IntoIterator<Item = It>,
	It: Into<OsString> + Clone,
	{
	<T as Parser>::try_parse_from(itr).map(Box::new)
	}
	}

	impl<T: CommandFactory> CommandFactory for Box<T> {
	fn command<'help>() -> Command {
	<T as CommandFactory>::command()
	}
	fn command_for_update<'help>() -> Command {
	<T as CommandFactory>::command_for_update()
	}
	}

	impl<T: FromArgMatches> FromArgMatches for Box<T> {
	fn from_arg_matches(matches: &ArgMatches) -> Result<Self, Error> {
	<T as FromArgMatches>::from_arg_matches(matches).map(Box::new)
	}
	fn from_arg_matches_mut(matches: &mut ArgMatches) -> Result<Self, Error> {
	<T as FromArgMatches>::from_arg_matches_mut(matches).map(Box::new)
	}
	fn update_from_arg_matches(&mut self, matches: &ArgMatches) -> Result<(), Error> {
	<T as FromArgMatches>::update_from_arg_matches(self, matches)
	}
	fn update_from_arg_matches_mut(&mut self, matches: &mut ArgMatches) -> Result<(), Error> {
	<T as FromArgMatches>::update_from_arg_matches_mut(self, matches)
	}
	}

	impl<T: Args> Args for Box<T> {
	fn augment_args(cmd: Command) -> Command {
	<T as Args>::augment_args(cmd)
	}
	fn augment_args_for_update(cmd: Command) -> Command {
	<T as Args>::augment_args_for_update(cmd)
	}
	}

	impl<T: Subcommand> Subcommand for Box<T> {
	fn augment_subcommands(cmd: Command) -> Command {
	<T as Subcommand>::augment_subcommands(cmd)
	}
	fn augment_subcommands_for_update(cmd: Command) -> Command {
	<T as Subcommand>::augment_subcommands_for_update(cmd)
	}
	fn has_subcommand(name: &str) -> bool {
	<T as Subcommand>::has_subcommand(name)
	}
	}

	fn format_error<I: CommandFactory>(err: crate::Error) -> crate::Error {
	let mut cmd = I::command();
	err.format(&mut cmd)
	}