#![allow(deprecated)] // Std use std::{ borrow::Cow, cmp::{Ord, Ordering}, error::Error, ffi::OsStr, fmt::{self, Display, Formatter}, str, sync::{Arc, Mutex}, }; #[cfg(feature = "env")] use std::{env, ffi::OsString}; #[cfg(feature = "yaml")] use yaml_rust::Yaml; // Internal use crate::builder::usage_parser::UsageParser; use crate::builder::ArgPredicate; use crate::util::{Id, Key}; use crate::ArgAction; use crate::PossibleValue; use crate::ValueHint; use crate::INTERNAL_ERROR_MSG; use crate::{ArgFlags, ArgSettings}; #[cfg(feature = "regex")] use crate::builder::RegexRef; /// The abstract representation of a command line argument. Used to set all the options and /// relationships that define a valid argument for the program. /// /// There are two methods for constructing [`Arg`]s, using the builder pattern and setting options /// manually, or using a usage string which is far less verbose but has fewer options. You can also /// use a combination of the two methods to achieve the best of both worlds. /// /// - [Basic API][crate::Arg#basic-api] /// - [Value Handling][crate::Arg#value-handling] /// - [Help][crate::Arg#help-1] /// - [Advanced Argument Relations][crate::Arg#advanced-argument-relations] /// - [Reflection][crate::Arg#reflection] /// /// # Examples /// /// ```rust /// # use clap::{Arg, arg}; /// // Using the traditional builder pattern and setting each option manually /// let cfg = Arg::new("config") /// .short('c') /// .long("config") /// .takes_value(true) /// .value_name("FILE") /// .help("Provides a config file to myprog"); /// // Using a usage string (setting a similar argument to the one above) /// let input = arg!(-i --input "Provides an input file to the program"); /// ``` #[allow(missing_debug_implementations)] #[derive(Default, Clone)] pub struct Arg<'help> { pub(crate) id: Id, pub(crate) provider: ArgProvider, pub(crate) name: &'help str, pub(crate) help: Option<&'help str>, pub(crate) long_help: Option<&'help str>, pub(crate) action: Option, pub(crate) value_parser: Option, pub(crate) blacklist: Vec, pub(crate) settings: ArgFlags, pub(crate) overrides: Vec, pub(crate) groups: Vec, pub(crate) requires: Vec<(ArgPredicate<'help>, Id)>, pub(crate) r_ifs: Vec<(Id, &'help str)>, pub(crate) r_ifs_all: Vec<(Id, &'help str)>, pub(crate) r_unless: Vec, pub(crate) r_unless_all: Vec, pub(crate) short: Option, pub(crate) long: Option<&'help str>, pub(crate) aliases: Vec<(&'help str, bool)>, // (name, visible) pub(crate) short_aliases: Vec<(char, bool)>, // (name, visible) pub(crate) disp_ord: DisplayOrder, pub(crate) possible_vals: Vec>, pub(crate) val_names: Vec<&'help str>, pub(crate) num_vals: Option, pub(crate) max_occurs: Option, pub(crate) max_vals: Option, pub(crate) min_vals: Option, pub(crate) validator: Option>>>, pub(crate) validator_os: Option>>>, pub(crate) val_delim: Option, pub(crate) default_vals: Vec<&'help OsStr>, pub(crate) default_vals_ifs: Vec<(Id, ArgPredicate<'help>, Option<&'help OsStr>)>, pub(crate) default_missing_vals: Vec<&'help OsStr>, #[cfg(feature = "env")] pub(crate) env: Option<(&'help OsStr, Option)>, pub(crate) terminator: Option<&'help str>, pub(crate) index: Option, pub(crate) help_heading: Option>, pub(crate) value_hint: Option, } /// # Basic API impl<'help> Arg<'help> { /// Create a new [`Arg`] with a unique name. /// /// The name is used to check whether or not the argument was used at /// runtime, get values, set relationships with other args, etc.. /// /// **NOTE:** In the case of arguments that take values (i.e. [`Arg::takes_value(true)`]) /// and positional arguments (i.e. those without a preceding `-` or `--`) the name will also /// be displayed when the user prints the usage/help information of the program. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("config") /// # ; /// ``` /// [`Arg::takes_value(true)`]: Arg::takes_value() pub fn new>(n: S) -> Self { Arg::default().name(n) } /// Set the identifier used for referencing this argument in the clap API. /// /// See [`Arg::new`] for more details. #[must_use] pub fn id>(mut self, n: S) -> Self { let name = n.into(); self.id = Id::from(&*name); self.name = name; self } /// Deprecated, replaced with [`Arg::id`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.1.0", note = "Replaced with `Arg::id`") )] pub fn name>(self, n: S) -> Self { self.id(n) } /// Sets the short version of the argument without the preceding `-`. /// /// By default `V` and `h` are used by the auto-generated `version` and `help` arguments, /// respectively. You may use the uppercase `V` or lowercase `h` for your own arguments, in /// which case `clap` simply will not assign those to the auto-generated /// `version` or `help` arguments. /// /// # Examples /// /// When calling `short`, use a single valid UTF-8 character which will allow using the /// argument via a single hyphen (`-`) such as `-c`: /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("config") /// .short('c') /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "-c", "file.toml" /// ]); /// /// assert_eq!(m.get_one::("config").map(String::as_str), Some("file.toml")); /// ``` #[inline] #[must_use] pub fn short(mut self, s: char) -> Self { assert!(s != '-', "short option name cannot be `-`"); self.short = Some(s); self } /// Sets the long version of the argument without the preceding `--`. /// /// By default `version` and `help` are used by the auto-generated `version` and `help` /// arguments, respectively. You may use the word `version` or `help` for the long form of your /// own arguments, in which case `clap` simply will not assign those to the auto-generated /// `version` or `help` arguments. /// /// **NOTE:** Any leading `-` characters will be stripped /// /// # Examples /// /// To set `long` use a word containing valid UTF-8. If you supply a double leading /// `--` such as `--config` they will be stripped. Hyphens in the middle of the word, however, /// will *not* be stripped (i.e. `config-file` is allowed). /// /// Setting `long` allows using the argument via a double hyphen (`--`) such as `--config` /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--config", "file.toml" /// ]); /// /// assert_eq!(m.get_one::("cfg").map(String::as_str), Some("file.toml")); /// ``` #[inline] #[must_use] pub fn long(mut self, l: &'help str) -> Self { #[cfg(feature = "unstable-v4")] { self.long = Some(l); } #[cfg(not(feature = "unstable-v4"))] { self.long = Some(l.trim_start_matches(|c| c == '-')); } self } /// Add an alias, which functions as a hidden long flag. /// /// This is more efficient, and easier than creating multiple hidden arguments as one only /// needs to check for the existence of this command, and not all variants. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .long("test") /// .alias("alias") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--alias", "cool" /// ]); /// assert!(m.contains_id("test")); /// assert_eq!(m.value_of("test"), Some("cool")); /// ``` #[must_use] pub fn alias>(mut self, name: S) -> Self { self.aliases.push((name.into(), false)); self } /// Add an alias, which functions as a hidden short flag. /// /// This is more efficient, and easier than creating multiple hidden arguments as one only /// needs to check for the existence of this command, and not all variants. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .short('t') /// .short_alias('e') /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "-e", "cool" /// ]); /// assert!(m.contains_id("test")); /// assert_eq!(m.value_of("test"), Some("cool")); /// ``` #[must_use] pub fn short_alias(mut self, name: char) -> Self { assert!(name != '-', "short alias name cannot be `-`"); self.short_aliases.push((name, false)); self } /// Add aliases, which function as hidden long flags. /// /// This is more efficient, and easier than creating multiple hidden subcommands as one only /// needs to check for the existence of this command, and not all variants. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .long("test") /// .aliases(&["do-stuff", "do-tests", "tests"]) /// .action(ArgAction::SetTrue) /// .help("the file to add") /// .required(false)) /// .get_matches_from(vec![ /// "prog", "--do-tests" /// ]); /// assert_eq!(*m.get_one::("test").expect("defaulted by clap"), true); /// ``` #[must_use] pub fn aliases(mut self, names: &[&'help str]) -> Self { self.aliases.extend(names.iter().map(|&x| (x, false))); self } /// Add aliases, which functions as a hidden short flag. /// /// This is more efficient, and easier than creating multiple hidden subcommands as one only /// needs to check for the existence of this command, and not all variants. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .short('t') /// .short_aliases(&['e', 's']) /// .action(ArgAction::SetTrue) /// .help("the file to add") /// .required(false)) /// .get_matches_from(vec![ /// "prog", "-s" /// ]); /// assert_eq!(*m.get_one::("test").expect("defaulted by clap"), true); /// ``` #[must_use] pub fn short_aliases(mut self, names: &[char]) -> Self { for s in names { assert!(s != &'-', "short alias name cannot be `-`"); self.short_aliases.push((*s, false)); } self } /// Add an alias, which functions as a visible long flag. /// /// Like [`Arg::alias`], except that they are visible inside the help message. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .visible_alias("something-awesome") /// .long("test") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--something-awesome", "coffee" /// ]); /// assert!(m.contains_id("test")); /// assert_eq!(m.value_of("test"), Some("coffee")); /// ``` /// [`Command::alias`]: Arg::alias() #[must_use] pub fn visible_alias>(mut self, name: S) -> Self { self.aliases.push((name.into(), true)); self } /// Add an alias, which functions as a visible short flag. /// /// Like [`Arg::short_alias`], except that they are visible inside the help message. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .long("test") /// .visible_short_alias('t') /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "-t", "coffee" /// ]); /// assert!(m.contains_id("test")); /// assert_eq!(m.value_of("test"), Some("coffee")); /// ``` #[must_use] pub fn visible_short_alias(mut self, name: char) -> Self { assert!(name != '-', "short alias name cannot be `-`"); self.short_aliases.push((name, true)); self } /// Add aliases, which function as visible long flags. /// /// Like [`Arg::aliases`], except that they are visible inside the help message. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .long("test") /// .action(ArgAction::SetTrue) /// .visible_aliases(&["something", "awesome", "cool"])) /// .get_matches_from(vec![ /// "prog", "--awesome" /// ]); /// assert_eq!(*m.get_one::("test").expect("defaulted by clap"), true); /// ``` /// [`Command::aliases`]: Arg::aliases() #[must_use] pub fn visible_aliases(mut self, names: &[&'help str]) -> Self { self.aliases.extend(names.iter().map(|n| (*n, true))); self } /// Add aliases, which function as visible short flags. /// /// Like [`Arg::short_aliases`], except that they are visible inside the help message. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("test") /// .long("test") /// .action(ArgAction::SetTrue) /// .visible_short_aliases(&['t', 'e'])) /// .get_matches_from(vec![ /// "prog", "-t" /// ]); /// assert_eq!(*m.get_one::("test").expect("defaulted by clap"), true); /// ``` #[must_use] pub fn visible_short_aliases(mut self, names: &[char]) -> Self { for n in names { assert!(n != &'-', "short alias name cannot be `-`"); self.short_aliases.push((*n, true)); } self } /// Specifies the index of a positional argument **starting at** 1. /// /// **NOTE:** The index refers to position according to **other positional argument**. It does /// not define position in the argument list as a whole. /// /// **NOTE:** You can optionally leave off the `index` method, and the index will be /// assigned in order of evaluation. Utilizing the `index` method allows for setting /// indexes out of order /// /// **NOTE:** This is only meant to be used for positional arguments and shouldn't to be used /// with [`Arg::short`] or [`Arg::long`]. /// /// **NOTE:** When utilized with [`Arg::multiple_values(true)`], only the **last** positional argument /// may be defined as multiple (i.e. with the highest index) /// /// # Panics /// /// [`Command`] will [`panic!`] if indexes are skipped (such as defining `index(1)` and `index(3)` /// but not `index(2)`, or a positional argument is defined as multiple and is not the highest /// index /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("config") /// .index(1) /// # ; /// ``` /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("mode") /// .index(1)) /// .arg(Arg::new("debug") /// .long("debug")) /// .get_matches_from(vec![ /// "prog", "--debug", "fast" /// ]); /// /// assert!(m.contains_id("mode")); /// assert_eq!(m.value_of("mode"), Some("fast")); // notice index(1) means "first positional" /// // *not* first argument /// ``` /// [`Arg::short`]: Arg::short() /// [`Arg::long`]: Arg::long() /// [`Arg::multiple_values(true)`]: Arg::multiple_values() /// [`panic!`]: https://doc.rust-lang.org/std/macro.panic!.html /// [`Command`]: crate::Command #[inline] #[must_use] pub fn index(mut self, idx: usize) -> Self { self.index = Some(idx); self } /// This arg is the last, or final, positional argument (i.e. has the highest /// index) and is *only* able to be accessed via the `--` syntax (i.e. `$ prog args -- /// last_arg`). /// /// Even, if no other arguments are left to parse, if the user omits the `--` syntax /// they will receive an [`UnknownArgument`] error. Setting an argument to `.last(true)` also /// allows one to access this arg early using the `--` syntax. Accessing an arg early, even with /// the `--` syntax is otherwise not possible. /// /// **NOTE:** This will change the usage string to look like `$ prog [OPTIONS] [-- ]` if /// `ARG` is marked as `.last(true)`. /// /// **NOTE:** This setting will imply [`crate::Command::dont_collapse_args_in_usage`] because failing /// to set this can make the usage string very confusing. /// /// **NOTE**: This setting only applies to positional arguments, and has no effect on OPTIONS /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// **CAUTION:** Using this setting *and* having child subcommands is not /// recommended with the exception of *also* using /// [`crate::Command::args_conflicts_with_subcommands`] /// (or [`crate::Command::subcommand_negates_reqs`] if the argument marked `Last` is also /// marked [`Arg::required`]) /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("args") /// .takes_value(true) /// .last(true) /// # ; /// ``` /// /// Setting `last` ensures the arg has the highest [index] of all positional args /// and requires that the `--` syntax be used to access it early. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("first")) /// .arg(Arg::new("second")) /// .arg(Arg::new("third") /// .takes_value(true) /// .last(true)) /// .try_get_matches_from(vec![ /// "prog", "one", "--", "three" /// ]); /// /// assert!(res.is_ok()); /// let m = res.unwrap(); /// assert_eq!(m.value_of("third"), Some("three")); /// assert!(m.value_of("second").is_none()); /// ``` /// /// Even if the positional argument marked `Last` is the only argument left to parse, /// failing to use the `--` syntax results in an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("first")) /// .arg(Arg::new("second")) /// .arg(Arg::new("third") /// .takes_value(true) /// .last(true)) /// .try_get_matches_from(vec![ /// "prog", "one", "two", "three" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::UnknownArgument); /// ``` /// [index]: Arg::index() /// [`UnknownArgument`]: crate::ErrorKind::UnknownArgument #[inline] #[must_use] pub fn last(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::Last) } else { self.unset_setting(ArgSettings::Last) } } /// Specifies that the argument must be present. /// /// Required by default means it is required, when no other conflicting rules or overrides have /// been evaluated. Conflicting rules take precedence over being required. /// /// **Pro tip:** Flags (i.e. not positional, or arguments that take values) shouldn't be /// required by default. This is because if a flag were to be required, it should simply be /// implied. No additional information is required from user. Flags by their very nature are /// simply boolean on/off switches. The only time a user *should* be required to use a flag /// is if the operation is destructive in nature, and the user is essentially proving to you, /// "Yes, I know what I'm doing." /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required(true) /// # ; /// ``` /// /// Setting required requires that the argument be used at runtime. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required(true) /// .takes_value(true) /// .long("config")) /// .try_get_matches_from(vec![ /// "prog", "--config", "file.conf", /// ]); /// /// assert!(res.is_ok()); /// ``` /// /// Setting required and then *not* supplying that argument at runtime is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required(true) /// .takes_value(true) /// .long("config")) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` #[inline] #[must_use] pub fn required(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::Required) } else { self.unset_setting(ArgSettings::Required) } } /// Sets an argument that is required when this one is present /// /// i.e. when using this argument, the following argument *must* be present. /// /// **NOTE:** [Conflicting] rules and [override] rules take precedence over being required /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .requires("input") /// # ; /// ``` /// /// Setting [`Arg::requires(name)`] requires that the argument be used at runtime if the /// defining argument is used. If the defining argument isn't used, the other argument isn't /// required /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires("input") /// .long("config")) /// .arg(Arg::new("input")) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_ok()); // We didn't use cfg, so input wasn't required /// ``` /// /// Setting [`Arg::requires(name)`] and *not* supplying that argument is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires("input") /// .long("config")) /// .arg(Arg::new("input")) /// .try_get_matches_from(vec![ /// "prog", "--config", "file.conf" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [`Arg::requires(name)`]: Arg::requires() /// [Conflicting]: Arg::conflicts_with() /// [override]: Arg::overrides_with() #[must_use] pub fn requires(mut self, arg_id: T) -> Self { self.requires.push((ArgPredicate::IsPresent, arg_id.into())); self } /// This argument must be passed alone; it conflicts with all other arguments. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .exclusive(true) /// # ; /// ``` /// /// Setting an exclusive argument and having any other arguments present at runtime /// is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("exclusive") /// .takes_value(true) /// .exclusive(true) /// .long("exclusive")) /// .arg(Arg::new("debug") /// .long("debug")) /// .arg(Arg::new("input")) /// .try_get_matches_from(vec![ /// "prog", "--exclusive", "file.conf", "file.txt" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::ArgumentConflict); /// ``` #[inline] #[must_use] pub fn exclusive(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::Exclusive) } else { self.unset_setting(ArgSettings::Exclusive) } } /// Specifies that an argument can be matched to all child [`Subcommand`]s. /// /// **NOTE:** Global arguments *only* propagate down, **not** up (to parent commands), however /// their values once a user uses them will be propagated back up to parents. In effect, this /// means one should *define* all global arguments at the top level, however it doesn't matter /// where the user *uses* the global argument. /// /// # Examples /// /// Assume an application with two subcommands, and you'd like to define a /// `--verbose` flag that can be called on any of the subcommands and parent, but you don't /// want to clutter the source with three duplicate [`Arg`] definitions. /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("verb") /// .long("verbose") /// .short('v') /// .action(ArgAction::SetTrue) /// .global(true)) /// .subcommand(Command::new("test")) /// .subcommand(Command::new("do-stuff")) /// .get_matches_from(vec![ /// "prog", "do-stuff", "--verbose" /// ]); /// /// assert_eq!(m.subcommand_name(), Some("do-stuff")); /// let sub_m = m.subcommand_matches("do-stuff").unwrap(); /// assert_eq!(*sub_m.get_one::("verb").expect("defaulted by clap"), true); /// ``` /// /// [`Subcommand`]: crate::Subcommand #[inline] #[must_use] pub fn global(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::Global) } else { self.unset_setting(ArgSettings::Global) } } /// Deprecated, replaced with [`Arg::action`] ([Issue #3772](https://github.com/clap-rs/clap/issues/3772)) #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "Replaced with `Arg::action` (Issue #3772)") )] pub fn multiple_occurrences(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::MultipleOccurrences) } else { self.unset_setting(ArgSettings::MultipleOccurrences) } } /// Deprecated, for flags this is replaced with `action(ArgAction::Count).value_parser(value_parser!(u8).range(..max))` #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "For flags, replaced with `action(ArgAction::Count).value_parser(value_parser!(u8).range(..max))`" ) )] pub fn max_occurrences(mut self, qty: usize) -> Self { self.max_occurs = Some(qty); if qty > 1 { self.multiple_occurrences(true) } else { self } } /// Check if the [`ArgSettings`] variant is currently set on the argument. /// /// [`ArgSettings`]: crate::ArgSettings #[inline] pub fn is_set(&self, s: ArgSettings) -> bool { self.settings.is_set(s) } /// Apply a setting to the argument. /// /// See [`ArgSettings`] for a full list of possibilities and examples. /// /// # Examples /// /// ```no_run /// # use clap::{Arg, ArgSettings}; /// Arg::new("config") /// .setting(ArgSettings::Required) /// .setting(ArgSettings::TakesValue) /// # ; /// ``` /// /// ```no_run /// # use clap::{Arg, ArgSettings}; /// Arg::new("config") /// .setting(ArgSettings::Required | ArgSettings::TakesValue) /// # ; /// ``` #[inline] #[must_use] pub fn setting(mut self, setting: F) -> Self where F: Into, { self.settings.insert(setting.into()); self } /// Remove a setting from the argument. /// /// See [`ArgSettings`] for a full list of possibilities and examples. /// /// # Examples /// /// ```no_run /// # use clap::{Arg, ArgSettings}; /// Arg::new("config") /// .unset_setting(ArgSettings::Required) /// .unset_setting(ArgSettings::TakesValue) /// # ; /// ``` /// /// ```no_run /// # use clap::{Arg, ArgSettings}; /// Arg::new("config") /// .unset_setting(ArgSettings::Required | ArgSettings::TakesValue) /// # ; /// ``` #[inline] #[must_use] pub fn unset_setting(mut self, setting: F) -> Self where F: Into, { self.settings.remove(setting.into()); self } } /// # Value Handling impl<'help> Arg<'help> { /// Specifies that the argument takes a value at run time. /// /// **NOTE:** values for arguments may be specified in any of the following methods /// /// - Using a space such as `-o value` or `--option value` /// - Using an equals and no space such as `-o=value` or `--option=value` /// - Use a short and no space such as `-ovalue` /// /// **NOTE:** By default, args which allow [multiple values] are delimited by commas, meaning /// `--option=val1,val2,val3` is three values for the `--option` argument. If you wish to /// change the delimiter to another character you can use [`Arg::value_delimiter(char)`], /// alternatively you can turn delimiting values **OFF** by using /// [`Arg::use_value_delimiter(false)`][Arg::use_value_delimiter] /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("mode") /// .long("mode") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--mode", "fast" /// ]); /// /// assert!(m.contains_id("mode")); /// assert_eq!(m.value_of("mode"), Some("fast")); /// ``` /// [`Arg::value_delimiter(char)`]: Arg::value_delimiter() /// [multiple values]: Arg::multiple_values #[inline] #[must_use] pub fn takes_value(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::TakesValue) } else { self.unset_setting(ArgSettings::TakesValue) } } /// Specify the behavior when parsing an argument /// /// # Examples /// /// ```rust /// # use clap::Command; /// # use clap::Arg; /// let cmd = Command::new("mycmd") /// .arg( /// Arg::new("flag") /// .long("flag") /// .action(clap::ArgAction::Set) /// ); /// /// let matches = cmd.try_get_matches_from(["mycmd", "--flag", "value"]).unwrap(); /// assert!(matches.contains_id("flag")); /// assert_eq!(matches.occurrences_of("flag"), 0); /// assert_eq!( /// matches.get_many::("flag").unwrap_or_default().map(|v| v.as_str()).collect::>(), /// vec!["value"] /// ); /// ``` #[inline] #[must_use] pub fn action(mut self, action: ArgAction) -> Self { self.action = Some(action); self } /// Specify the type of the argument. /// /// This allows parsing and validating a value before storing it into /// [`ArgMatches`][crate::ArgMatches]. /// /// See also /// - [`value_parser!`][crate::value_parser!] for auto-selecting a value parser for a given type /// - [`BoolishValueParser`][crate::builder::BoolishValueParser], and [`FalseyValueParser`][crate::builder::FalseyValueParser] for alternative `bool` implementations /// - [`NonEmptyStringValueParser`][crate::builder::NonEmptyStringValueParser] for basic validation for strings /// - [`RangedI64ValueParser`][crate::builder::RangedI64ValueParser] and [`RangedU64ValueParser`][crate::builder::RangedU64ValueParser] for numeric ranges /// - [`EnumValueParser`][crate::builder::EnumValueParser] and [`PossibleValuesParser`][crate::builder::PossibleValuesParser] for static enumerated values /// - or any other [`TypedValueParser`][crate::builder::TypedValueParser] implementation /// /// ```rust /// let mut cmd = clap::Command::new("raw") /// .arg( /// clap::Arg::new("color") /// .long("color") /// .value_parser(["always", "auto", "never"]) /// .default_value("auto") /// ) /// .arg( /// clap::Arg::new("hostname") /// .long("hostname") /// .value_parser(clap::builder::NonEmptyStringValueParser::new()) /// .takes_value(true) /// .required(true) /// ) /// .arg( /// clap::Arg::new("port") /// .long("port") /// .value_parser(clap::value_parser!(u16).range(3000..)) /// .takes_value(true) /// .required(true) /// ); /// /// let m = cmd.try_get_matches_from_mut( /// ["cmd", "--hostname", "rust-lang.org", "--port", "3001"] /// ).unwrap(); /// /// let color: &String = m.get_one("color") /// .expect("default"); /// assert_eq!(color, "auto"); /// /// let hostname: &String = m.get_one("hostname") /// .expect("required"); /// assert_eq!(hostname, "rust-lang.org"); /// /// let port: u16 = *m.get_one("port") /// .expect("required"); /// assert_eq!(port, 3001); /// ``` pub fn value_parser(mut self, parser: impl Into) -> Self { self.value_parser = Some(parser.into()); self } /// Specifies that the argument may have an unknown number of values /// /// Without any other settings, this argument may appear only *once*. /// /// For example, `--opt val1 val2` is allowed, but `--opt val1 val2 --opt val3` is not. /// /// **NOTE:** Setting this requires [`Arg::takes_value`]. /// /// **WARNING:** /// /// Setting `multiple_values` for an argument that takes a value, but with no other details can /// be dangerous in some circumstances. Because multiple values are allowed, /// `--option val1 val2 val3` is perfectly valid. Be careful when designing a CLI where /// positional arguments are *also* expected as `clap` will continue parsing *values* until one /// of the following happens: /// /// - It reaches the [maximum number of values] /// - It reaches a [specific number of values] /// - It finds another flag or option (i.e. something that starts with a `-`) /// - It reaches a [value terminator][Arg::value_terminator] is reached /// /// Alternatively, [require a delimiter between values][Arg::require_delimiter]. /// /// **WARNING:** /// /// When using args with `multiple_values` and [`subcommands`], one needs to consider the /// possibility of an argument value being the same as a valid subcommand. By default `clap` will /// parse the argument in question as a value *only if* a value is possible at that moment. /// Otherwise it will be parsed as a subcommand. In effect, this means using `multiple_values` with no /// additional parameters and a value that coincides with a subcommand name, the subcommand /// cannot be called unless another argument is passed between them. /// /// As an example, consider a CLI with an option `--ui-paths=...` and subcommand `signer` /// /// The following would be parsed as values to `--ui-paths`. /// /// ```text /// $ program --ui-paths path1 path2 signer /// ``` /// /// This is because `--ui-paths` accepts multiple values. `clap` will continue parsing values /// until another argument is reached and it knows `--ui-paths` is done parsing. /// /// By adding additional parameters to `--ui-paths` we can solve this issue. Consider adding /// [`Arg::number_of_values(1)`] or using *only* [`ArgAction::Append`]. The following are all /// valid, and `signer` is parsed as a subcommand in the first case, but a value in the second /// case. /// /// ```text /// $ program --ui-paths path1 signer /// $ program --ui-paths path1 --ui-paths signer signer /// ``` /// /// # Examples /// /// An example with options /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .multiple_values(true) /// .short('F')) /// .get_matches_from(vec![ /// "prog", "-F", "file1", "file2", "file3" /// ]); /// /// assert!(m.contains_id("file")); /// let files: Vec<_> = m.values_of("file").unwrap().collect(); /// assert_eq!(files, ["file1", "file2", "file3"]); /// ``` /// /// Although `multiple_values` has been specified, we cannot use the argument more than once. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .multiple_values(true) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1", "-F", "file2", "-F", "file3" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::UnexpectedMultipleUsage) /// ``` /// /// A common mistake is to define an option which allows multiple values, and a positional /// argument. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .multiple_values(true) /// .short('F')) /// .arg(Arg::new("word")) /// .get_matches_from(vec![ /// "prog", "-F", "file1", "file2", "file3", "word" /// ]); /// /// assert!(m.contains_id("file")); /// let files: Vec<_> = m.values_of("file").unwrap().collect(); /// assert_eq!(files, ["file1", "file2", "file3", "word"]); // wait...what?! /// assert!(!m.contains_id("word")); // but we clearly used word! /// ``` /// /// The problem is `clap` doesn't know when to stop parsing values for "files". This is further /// compounded by if we'd said `word -F file1 file2` it would have worked fine, so it would /// appear to only fail sometimes...not good! /// /// A solution for the example above is to limit how many values with a [maximum], or [specific] /// number, or to say [`ArgAction::Append`] is ok, but multiple values is not. /// /// ```rust /// # use clap::{Command, Arg, ArgAction}; /// let m = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .action(ArgAction::Append) /// .short('F')) /// .arg(Arg::new("word")) /// .get_matches_from(vec![ /// "prog", "-F", "file1", "-F", "file2", "-F", "file3", "word" /// ]); /// /// assert!(m.contains_id("file")); /// let files: Vec<_> = m.values_of("file").unwrap().collect(); /// assert_eq!(files, ["file1", "file2", "file3"]); /// assert!(m.contains_id("word")); /// assert_eq!(m.value_of("word"), Some("word")); /// ``` /// /// As a final example, let's fix the above error and get a pretty message to the user :) /// /// ```rust /// # use clap::{Command, Arg, ErrorKind, ArgAction}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .action(ArgAction::Append) /// .short('F')) /// .arg(Arg::new("word")) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1", "file2", "file3", "word" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::UnknownArgument); /// ``` /// /// [`subcommands`]: crate::Command::subcommand() /// [`Arg::number_of_values(1)`]: Arg::number_of_values() /// [maximum number of values]: Arg::max_values() /// [specific number of values]: Arg::number_of_values() /// [maximum]: Arg::max_values() /// [specific]: Arg::number_of_values() #[inline] #[must_use] pub fn multiple_values(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::MultipleValues) } else { self.unset_setting(ArgSettings::MultipleValues) } } /// The number of values allowed for this argument. /// /// For example, if you had a /// `-f ` argument where you wanted exactly 3 'files' you would set /// `.number_of_values(3)`, and this argument wouldn't be satisfied unless the user provided /// 3 and only 3 values. /// /// **NOTE:** Does *not* require [`Arg::multiple_occurrences(true)`] to be set. Setting /// [`Arg::multiple_occurrences(true)`] would allow `-f -f ` where /// as *not* setting it would only allow one occurrence of this argument. /// /// **NOTE:** implicitly sets [`Arg::takes_value(true)`] and [`Arg::multiple_values(true)`]. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("file") /// .short('f') /// .number_of_values(3); /// ``` /// /// Not supplying the correct number of values is an error /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .number_of_values(2) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::WrongNumberOfValues); /// ``` /// [`Arg::multiple_occurrences(true)`]: Arg::multiple_occurrences() #[inline] #[must_use] pub fn number_of_values(mut self, qty: usize) -> Self { self.num_vals = Some(qty); self.takes_value(true).multiple_values(true) } /// The *maximum* number of values are for this argument. /// /// For example, if you had a /// `-f ` argument where you wanted up to 3 'files' you would set `.max_values(3)`, and /// this argument would be satisfied if the user provided, 1, 2, or 3 values. /// /// **NOTE:** This does *not* implicitly set [`Arg::multiple_occurrences(true)`]. This is because /// `-o val -o val` is multiple occurrences but a single value and `-o val1 val2` is a single /// occurrence with multiple values. For positional arguments this **does** set /// [`Arg::multiple_occurrences(true)`] because there is no way to determine the difference between multiple /// occurrences and multiple values. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("file") /// .short('f') /// .max_values(3); /// ``` /// /// Supplying less than the maximum number of values is allowed /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .max_values(3) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1", "file2" /// ]); /// /// assert!(res.is_ok()); /// let m = res.unwrap(); /// let files: Vec<_> = m.values_of("file").unwrap().collect(); /// assert_eq!(files, ["file1", "file2"]); /// ``` /// /// Supplying more than the maximum number of values is an error /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .max_values(2) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1", "file2", "file3" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::UnknownArgument); /// ``` /// [`Arg::multiple_occurrences(true)`]: Arg::multiple_occurrences() #[inline] #[must_use] pub fn max_values(mut self, qty: usize) -> Self { self.max_vals = Some(qty); self.takes_value(true).multiple_values(true) } /// The *minimum* number of values for this argument. /// /// For example, if you had a /// `-f ` argument where you wanted at least 2 'files' you would set /// `.min_values(2)`, and this argument would be satisfied if the user provided, 2 or more /// values. /// /// **NOTE:** This does not implicitly set [`Arg::multiple_occurrences(true)`]. This is because /// `-o val -o val` is multiple occurrences but a single value and `-o val1 val2` is a single /// occurrence with multiple values. For positional arguments this **does** set /// [`Arg::multiple_occurrences(true)`] because there is no way to determine the difference between multiple /// occurrences and multiple values. /// /// **NOTE:** Passing a non-zero value is not the same as specifying [`Arg::required(true)`]. /// This is due to min and max validation only being performed for present arguments, /// marking them as required will thus perform validation and a min value of 1 /// is unnecessary, ignored if not required. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("file") /// .short('f') /// .min_values(3); /// ``` /// /// Supplying more than the minimum number of values is allowed /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .min_values(2) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1", "file2", "file3" /// ]); /// /// assert!(res.is_ok()); /// let m = res.unwrap(); /// let files: Vec<_> = m.values_of("file").unwrap().collect(); /// assert_eq!(files, ["file1", "file2", "file3"]); /// ``` /// /// Supplying less than the minimum number of values is an error /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("file") /// .takes_value(true) /// .min_values(2) /// .short('F')) /// .try_get_matches_from(vec![ /// "prog", "-F", "file1" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::TooFewValues); /// ``` /// [`Arg::multiple_occurrences(true)`]: Arg::multiple_occurrences() /// [`Arg::required(true)`]: Arg::required() #[inline] #[must_use] pub fn min_values(mut self, qty: usize) -> Self { self.min_vals = Some(qty); self.takes_value(true).multiple_values(true) } /// Placeholder for the argument's value in the help message / usage. /// /// This name is cosmetic only; the name is **not** used to access arguments. /// This setting can be very helpful when describing the type of input the user should be /// using, such as `FILE`, `INTERFACE`, etc. Although not required, it's somewhat convention to /// use all capital letters for the value name. /// /// **NOTE:** implicitly sets [`Arg::takes_value(true)`] /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("cfg") /// .long("config") /// .value_name("FILE") /// # ; /// ``` /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("config") /// .long("config") /// .value_name("FILE") /// .help("Some help text")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// Running the above program produces the following output /// /// ```text /// valnames /// /// USAGE: /// valnames [OPTIONS] /// /// OPTIONS: /// --config Some help text /// -h, --help Print help information /// -V, --version Print version information /// ``` /// [option]: Arg::takes_value() /// [positional]: Arg::index() /// [`Arg::takes_value(true)`]: Arg::takes_value() #[inline] #[must_use] pub fn value_name(self, name: &'help str) -> Self { self.value_names(&[name]) } /// Placeholders for the argument's values in the help message / usage. /// /// These names are cosmetic only, used for help and usage strings only. The names are **not** /// used to access arguments. The values of the arguments are accessed in numeric order (i.e. /// if you specify two names `one` and `two` `one` will be the first matched value, `two` will /// be the second). /// /// This setting can be very helpful when describing the type of input the user should be /// using, such as `FILE`, `INTERFACE`, etc. Although not required, it's somewhat convention to /// use all capital letters for the value name. /// /// **Pro Tip:** It may help to use [`Arg::next_line_help(true)`] if there are long, or /// multiple value names in order to not throw off the help text alignment of all options. /// /// **NOTE:** implicitly sets [`Arg::takes_value(true)`] and [`Arg::multiple_values(true)`]. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("speed") /// .short('s') /// .value_names(&["fast", "slow"]); /// ``` /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("io") /// .long("io-files") /// .value_names(&["INFILE", "OUTFILE"])) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// Running the above program produces the following output /// /// ```text /// valnames /// /// USAGE: /// valnames [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// --io-files Some help text /// -V, --version Print version information /// ``` /// [`Arg::next_line_help(true)`]: Arg::next_line_help() /// [`Arg::number_of_values`]: Arg::number_of_values() /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::multiple_values(true)`]: Arg::multiple_values() #[must_use] pub fn value_names(mut self, names: &[&'help str]) -> Self { self.val_names = names.to_vec(); self.takes_value(true) } /// Provide the shell a hint about how to complete this argument. /// /// See [`ValueHint`][crate::ValueHint] for more information. /// /// **NOTE:** implicitly sets [`Arg::takes_value(true)`]. /// /// For example, to take a username as argument: /// /// ``` /// # use clap::{Arg, ValueHint}; /// Arg::new("user") /// .short('u') /// .long("user") /// .value_hint(ValueHint::Username); /// ``` /// /// To take a full command line and its arguments (for example, when writing a command wrapper): /// /// ``` /// # use clap::{Command, Arg, ValueHint}; /// Command::new("prog") /// .trailing_var_arg(true) /// .arg( /// Arg::new("command") /// .takes_value(true) /// .multiple_values(true) /// .value_hint(ValueHint::CommandWithArguments) /// ); /// ``` #[must_use] pub fn value_hint(mut self, value_hint: ValueHint) -> Self { self.value_hint = Some(value_hint); self.takes_value(true) } /// Deprecated, replaced with [`Arg::value_parser(...)`] #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "Replaced with `Arg::value_parser(...)`") )] pub fn validator(mut self, mut f: F) -> Self where F: FnMut(&str) -> Result + Send + 'help, E: Into>, { self.validator = Some(Arc::new(Mutex::new(move |s: &str| { f(s).map(|_| ()).map_err(|e| e.into()) }))); self } /// Deprecated, replaced with [`Arg::value_parser(...)`] #[must_use] #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "Replaced with `Arg::value_parser(...)`") )] pub fn validator_os(mut self, mut f: F) -> Self where F: FnMut(&OsStr) -> Result + Send + 'help, E: Into>, { self.validator_os = Some(Arc::new(Mutex::new(move |s: &OsStr| { f(s).map(|_| ()).map_err(|e| e.into()) }))); self } /// Deprecated in [Issue #3743](https://github.com/clap-rs/clap/issues/3743), replaced with [`Arg::value_parser(...)`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Deprecated in Issue #3743; eplaced with `Arg::value_parser(...)`" ) )] #[cfg(feature = "regex")] #[must_use] pub fn validator_regex( self, regex: impl Into>, err_message: &'help str, ) -> Self { let regex = regex.into(); self.validator(move |s: &str| { if regex.is_match(s) { Ok(()) } else { Err(err_message) } }) } /// Deprecated, replaced with [`Arg::value_parser(PossibleValuesParser::new(...))`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Replaced with `Arg::value_parser(PossibleValuesParser::new(...)).takes_value(true)`" ) )] #[must_use] pub fn possible_value(mut self, value: T) -> Self where T: Into>, { self.possible_vals.push(value.into()); self.takes_value(true) } /// Deprecated, replaced with [`Arg::value_parser(PossibleValuesParser::new(...))`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Replaced with `Arg::value_parser(PossibleValuesParser::new(...)).takes_value(true)`" ) )] #[must_use] pub fn possible_values(mut self, values: I) -> Self where I: IntoIterator, T: Into>, { self.possible_vals .extend(values.into_iter().map(|value| value.into())); self.takes_value(true) } /// Match values against [`Arg::possible_values`] without matching case. /// /// When other arguments are conditionally required based on the /// value of a case-insensitive argument, the equality check done /// by [`Arg::required_if_eq`], [`Arg::required_if_eq_any`], or /// [`Arg::required_if_eq_all`] is case-insensitive. /// /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// **NOTE:** To do unicode case folding, enable the `unicode` feature flag. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("pv") /// .arg(Arg::new("option") /// .long("option") /// .takes_value(true) /// .ignore_case(true) /// .value_parser(["test123"])) /// .get_matches_from(vec![ /// "pv", "--option", "TeSt123", /// ]); /// /// assert!(m.value_of("option").unwrap().eq_ignore_ascii_case("test123")); /// ``` /// /// This setting also works when multiple values can be defined: /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("pv") /// .arg(Arg::new("option") /// .short('o') /// .long("option") /// .takes_value(true) /// .ignore_case(true) /// .multiple_values(true) /// .value_parser(["test123", "test321"])) /// .get_matches_from(vec![ /// "pv", "--option", "TeSt123", "teST123", "tESt321" /// ]); /// /// let matched_vals = m.values_of("option").unwrap().collect::>(); /// assert_eq!(&*matched_vals, &["TeSt123", "teST123", "tESt321"]); /// ``` #[inline] #[must_use] pub fn ignore_case(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::IgnoreCase) } else { self.unset_setting(ArgSettings::IgnoreCase) } } /// Allows values which start with a leading hyphen (`-`) /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// **WARNING**: Take caution when using this setting combined with /// [`Arg::multiple_values`], as this becomes ambiguous `$ prog --arg -- -- val`. All /// three `--, --, val` will be values when the user may have thought the second `--` would /// constitute the normal, "Only positional args follow" idiom. To fix this, consider using /// [`Arg::multiple_occurrences`] which only allows a single value at a time. /// /// **WARNING**: When building your CLIs, consider the effects of allowing leading hyphens and /// the user passing in a value that matches a valid short. For example, `prog -opt -F` where /// `-F` is supposed to be a value, yet `-F` is *also* a valid short for another arg. /// Care should be taken when designing these args. This is compounded by the ability to "stack" /// short args. I.e. if `-val` is supposed to be a value, but `-v`, `-a`, and `-l` are all valid /// shorts. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("pat") /// .takes_value(true) /// .allow_hyphen_values(true) /// .long("pattern")) /// .get_matches_from(vec![ /// "prog", "--pattern", "-file" /// ]); /// /// assert_eq!(m.value_of("pat"), Some("-file")); /// ``` /// /// Not setting `Arg::allow_hyphen_values(true)` and supplying a value which starts with a /// hyphen is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("pat") /// .takes_value(true) /// .long("pattern")) /// .try_get_matches_from(vec![ /// "prog", "--pattern", "-file" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::UnknownArgument); /// ``` /// [`Arg::number_of_values(1)`]: Arg::number_of_values() #[inline] #[must_use] pub fn allow_hyphen_values(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::AllowHyphenValues) } else { self.unset_setting(ArgSettings::AllowHyphenValues) } } /// Deprecated, replaced with [`Arg::value_parser(...)`] with either [`ValueParser::os_string()`][crate::builder::ValueParser::os_string] /// or [`ValueParser::path_buf()`][crate::builder::ValueParser::path_buf] #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Replaced with `Arg::value_parser(...)` with either `ValueParser::os_string()` or `ValueParser::path_buf()`" ) )] pub fn allow_invalid_utf8(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::AllowInvalidUtf8) } else { self.unset_setting(ArgSettings::AllowInvalidUtf8) } } /// Deprecated, replaced with [`Arg::value_parser(NonEmptyStringValueParser::new())`] #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Replaced with `Arg::value_parser(NonEmptyStringValueParser::new())`" ) )] pub fn forbid_empty_values(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::ForbidEmptyValues) } else { self.unset_setting(ArgSettings::ForbidEmptyValues) } } /// Requires that options use the `--option=val` syntax /// /// i.e. an equals between the option and associated value. /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// # Examples /// /// Setting `require_equals` requires that the option have an equals sign between /// it and the associated value. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .require_equals(true) /// .long("config")) /// .try_get_matches_from(vec![ /// "prog", "--config=file.conf" /// ]); /// /// assert!(res.is_ok()); /// ``` /// /// Setting `require_equals` and *not* supplying the equals will cause an /// error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .require_equals(true) /// .long("config")) /// .try_get_matches_from(vec![ /// "prog", "--config", "file.conf" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::NoEquals); /// ``` #[inline] #[must_use] pub fn require_equals(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::RequireEquals) } else { self.unset_setting(ArgSettings::RequireEquals) } } /// Specifies that an argument should allow grouping of multiple values via a /// delimiter. /// /// i.e. should `--option=val1,val2,val3` be parsed as three values (`val1`, `val2`, /// and `val3`) or as a single value (`val1,val2,val3`). Defaults to using `,` (comma) as the /// value delimiter for all arguments that accept values (options and positional arguments) /// /// **NOTE:** When this setting is used, it will default [`Arg::value_delimiter`] /// to the comma `,`. /// /// **NOTE:** Implicitly sets [`Arg::takes_value`] /// /// # Examples /// /// The following example shows the default behavior. /// /// ```rust /// # use clap::{Command, Arg}; /// let delims = Command::new("prog") /// .arg(Arg::new("option") /// .long("option") /// .use_value_delimiter(true) /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--option=val1,val2,val3", /// ]); /// /// assert!(delims.contains_id("option")); /// assert_eq!(delims.values_of("option").unwrap().collect::>(), ["val1", "val2", "val3"]); /// ``` /// The next example shows the difference when turning delimiters off. This is the default /// behavior /// /// ```rust /// # use clap::{Command, Arg}; /// let nodelims = Command::new("prog") /// .arg(Arg::new("option") /// .long("option") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--option=val1,val2,val3", /// ]); /// /// assert!(nodelims.contains_id("option")); /// assert_eq!(nodelims.value_of("option").unwrap(), "val1,val2,val3"); /// ``` /// [`Arg::value_delimiter`]: Arg::value_delimiter() #[inline] #[must_use] pub fn use_value_delimiter(mut self, yes: bool) -> Self { if yes { if self.val_delim.is_none() { self.val_delim = Some(','); } self.takes_value(true) .setting(ArgSettings::UseValueDelimiter) } else { self.val_delim = None; self.unset_setting(ArgSettings::UseValueDelimiter) } } /// Deprecated, replaced with [`Arg::use_value_delimiter`] #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated(since = "3.1.0", note = "Replaced with `Arg::use_value_delimiter`") )] pub fn use_delimiter(self, yes: bool) -> Self { self.use_value_delimiter(yes) } /// Separator between the arguments values, defaults to `,` (comma). /// /// **NOTE:** implicitly sets [`Arg::use_value_delimiter(true)`] /// /// **NOTE:** implicitly sets [`Arg::takes_value(true)`] /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("config") /// .short('c') /// .long("config") /// .value_delimiter(';')) /// .get_matches_from(vec![ /// "prog", "--config=val1;val2;val3" /// ]); /// /// assert_eq!(m.values_of("config").unwrap().collect::>(), ["val1", "val2", "val3"]) /// ``` /// [`Arg::use_value_delimiter(true)`]: Arg::use_value_delimiter() /// [`Arg::takes_value(true)`]: Arg::takes_value() #[inline] #[must_use] pub fn value_delimiter(mut self, d: char) -> Self { self.val_delim = Some(d); self.takes_value(true).use_value_delimiter(true) } /// Specifies that *multiple values* may only be set using the delimiter. /// /// This means if an option is encountered, and no delimiter is found, it is assumed that no /// additional values for that option follow. This is unlike the default, where it is generally /// assumed that more values will follow regardless of whether or not a delimiter is used. /// /// **NOTE:** The default is `false`. /// /// **NOTE:** Setting this requires [`Arg::use_value_delimiter`] and /// [`Arg::takes_value`] /// /// **NOTE:** It's a good idea to inform the user that use of a delimiter is required, either /// through help text or other means. /// /// # Examples /// /// These examples demonstrate what happens when `require_delimiter(true)` is used. Notice /// everything works in this first example, as we use a delimiter, as expected. /// /// ```rust /// # use clap::{Command, Arg}; /// let delims = Command::new("prog") /// .arg(Arg::new("opt") /// .short('o') /// .takes_value(true) /// .use_value_delimiter(true) /// .require_delimiter(true) /// .multiple_values(true)) /// .get_matches_from(vec![ /// "prog", "-o", "val1,val2,val3", /// ]); /// /// assert!(delims.contains_id("opt")); /// assert_eq!(delims.values_of("opt").unwrap().collect::>(), ["val1", "val2", "val3"]); /// ``` /// /// In this next example, we will *not* use a delimiter. Notice it's now an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("opt") /// .short('o') /// .takes_value(true) /// .use_value_delimiter(true) /// .require_delimiter(true)) /// .try_get_matches_from(vec![ /// "prog", "-o", "val1", "val2", "val3", /// ]); /// /// assert!(res.is_err()); /// let err = res.unwrap_err(); /// assert_eq!(err.kind(), ErrorKind::UnknownArgument); /// ``` /// /// What's happening is `-o` is getting `val1`, and because delimiters are required yet none /// were present, it stops parsing `-o`. At this point it reaches `val2` and because no /// positional arguments have been defined, it's an error of an unexpected argument. /// /// In this final example, we contrast the above with `clap`'s default behavior where the above /// is *not* an error. /// /// ```rust /// # use clap::{Command, Arg}; /// let delims = Command::new("prog") /// .arg(Arg::new("opt") /// .short('o') /// .takes_value(true) /// .multiple_values(true)) /// .get_matches_from(vec![ /// "prog", "-o", "val1", "val2", "val3", /// ]); /// /// assert!(delims.contains_id("opt")); /// assert_eq!(delims.values_of("opt").unwrap().collect::>(), ["val1", "val2", "val3"]); /// ``` #[inline] #[must_use] pub fn require_value_delimiter(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::RequireDelimiter) } else { self.unset_setting(ArgSettings::RequireDelimiter) } } /// Deprecated, replaced with [`Arg::require_value_delimiter`] #[inline] #[must_use] #[cfg_attr( feature = "deprecated", deprecated(since = "3.1.0", note = "Replaced with `Arg::require_value_delimiter`") )] pub fn require_delimiter(self, yes: bool) -> Self { self.require_value_delimiter(yes) } /// Sentinel to **stop** parsing multiple values of a give argument. /// /// By default when /// one sets [`multiple_values(true)`] on an argument, clap will continue parsing values for that /// argument until it reaches another valid argument, or one of the other more specific settings /// for multiple values is used (such as [`min_values`], [`max_values`] or /// [`number_of_values`]). /// /// **NOTE:** This setting only applies to [options] and [positional arguments] /// /// **NOTE:** When the terminator is passed in on the command line, it is **not** stored as one /// of the values /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("vals") /// .takes_value(true) /// .multiple_values(true) /// .value_terminator(";") /// # ; /// ``` /// /// The following example uses two arguments, a sequence of commands, and the location in which /// to perform them /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cmds") /// .takes_value(true) /// .multiple_values(true) /// .allow_hyphen_values(true) /// .value_terminator(";")) /// .arg(Arg::new("location")) /// .get_matches_from(vec![ /// "prog", "find", "-type", "f", "-name", "special", ";", "/home/clap" /// ]); /// let cmds: Vec<_> = m.values_of("cmds").unwrap().collect(); /// assert_eq!(&cmds, &["find", "-type", "f", "-name", "special"]); /// assert_eq!(m.value_of("location"), Some("/home/clap")); /// ``` /// [options]: Arg::takes_value() /// [positional arguments]: Arg::index() /// [`multiple_values(true)`]: Arg::multiple_values() /// [`min_values`]: Arg::min_values() /// [`number_of_values`]: Arg::number_of_values() /// [`max_values`]: Arg::max_values() #[inline] #[must_use] pub fn value_terminator(mut self, term: &'help str) -> Self { self.terminator = Some(term); self.takes_value(true) } /// Consume all following arguments. /// /// Do not be parse them individually, but rather pass them in entirety. /// /// It is worth noting that setting this requires all values to come after a `--` to indicate /// they should all be captured. For example: /// /// ```text /// --foo something -- -v -v -v -b -b -b --baz -q -u -x /// ``` /// /// Will result in everything after `--` to be considered one raw argument. This behavior /// may not be exactly what you are expecting and using [`crate::Command::trailing_var_arg`] /// may be more appropriate. /// /// **NOTE:** Implicitly sets [`Arg::takes_value(true)`] [`Arg::multiple_values(true)`], /// [`Arg::allow_hyphen_values(true)`], and [`Arg::last(true)`] when set to `true`. /// /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::multiple_values(true)`]: Arg::multiple_values() /// [`Arg::allow_hyphen_values(true)`]: Arg::allow_hyphen_values() /// [`Arg::last(true)`]: Arg::last() #[inline] #[must_use] pub fn raw(self, yes: bool) -> Self { self.takes_value(yes) .multiple_values(yes) .allow_hyphen_values(yes) .last(yes) } /// Value for the argument when not present. /// /// **NOTE:** If the user *does not* use this argument at runtime, [`ArgMatches::occurrences_of`] /// will return `0` even though the [`ArgMatches::value_of`] will return the default specified. /// /// **NOTE:** If the user *does not* use this argument at runtime [`ArgMatches::contains_id`] will /// still return `true`. If you wish to determine whether the argument was used at runtime or /// not, consider [`ArgMatches::value_source`][crate::ArgMatches::value_source]. /// /// **NOTE:** This setting is perfectly compatible with [`Arg::default_value_if`] but slightly /// different. `Arg::default_value` *only* takes effect when the user has not provided this arg /// at runtime. `Arg::default_value_if` however only takes effect when the user has not provided /// a value at runtime **and** these other conditions are met as well. If you have set /// `Arg::default_value` and `Arg::default_value_if`, and the user **did not** provide this arg /// at runtime, nor were the conditions met for `Arg::default_value_if`, the `Arg::default_value` /// will be applied. /// /// **NOTE:** This implicitly sets [`Arg::takes_value(true)`]. /// /// # Examples /// /// First we use the default value without providing any value at runtime. /// /// ```rust /// # use clap::{Command, Arg, ValueSource}; /// let m = Command::new("prog") /// .arg(Arg::new("opt") /// .long("myopt") /// .default_value("myval")) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.value_of("opt"), Some("myval")); /// assert!(m.contains_id("opt")); /// assert_eq!(m.value_source("opt"), Some(ValueSource::DefaultValue)); /// ``` /// /// Next we provide a value at runtime to override the default. /// /// ```rust /// # use clap::{Command, Arg, ValueSource}; /// let m = Command::new("prog") /// .arg(Arg::new("opt") /// .long("myopt") /// .default_value("myval")) /// .get_matches_from(vec![ /// "prog", "--myopt=non_default" /// ]); /// /// assert_eq!(m.value_of("opt"), Some("non_default")); /// assert!(m.contains_id("opt")); /// assert_eq!(m.value_source("opt"), Some(ValueSource::CommandLine)); /// ``` /// [`ArgMatches::occurrences_of`]: crate::ArgMatches::occurrences_of() /// [`ArgMatches::value_of`]: crate::ArgMatches::value_of() /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`ArgMatches::contains_id`]: crate::ArgMatches::contains_id() /// [`Arg::default_value_if`]: Arg::default_value_if() #[inline] #[must_use] pub fn default_value(self, val: &'help str) -> Self { self.default_values_os(&[OsStr::new(val)]) } /// Value for the argument when not present. /// /// See [`Arg::default_value`]. /// /// [`Arg::default_value`]: Arg::default_value() /// [`OsStr`]: std::ffi::OsStr #[inline] #[must_use] pub fn default_value_os(self, val: &'help OsStr) -> Self { self.default_values_os(&[val]) } /// Value for the argument when not present. /// /// See [`Arg::default_value`]. /// /// [`Arg::default_value`]: Arg::default_value() #[inline] #[must_use] pub fn default_values(self, vals: &[&'help str]) -> Self { let vals_vec: Vec<_> = vals.iter().map(|val| OsStr::new(*val)).collect(); self.default_values_os(&vals_vec[..]) } /// Value for the argument when not present. /// /// See [`Arg::default_values`]. /// /// [`Arg::default_values`]: Arg::default_values() /// [`OsStr`]: std::ffi::OsStr #[inline] #[must_use] pub fn default_values_os(mut self, vals: &[&'help OsStr]) -> Self { self.default_vals = vals.to_vec(); self.takes_value(true) } /// Value for the argument when the flag is present but no value is specified. /// /// This configuration option is often used to give the user a shortcut and allow them to /// efficiently specify an option argument without requiring an explicitly value. The `--color` /// argument is a common example. By, supplying an default, such as `default_missing_value("always")`, /// the user can quickly just add `--color` to the command line to produce the desired color output. /// /// **NOTE:** using this configuration option requires the use of the `.min_values(0)` and the /// `.require_equals(true)` configuration option. These are required in order to unambiguously /// determine what, if any, value was supplied for the argument. /// /// # Examples /// /// For POSIX style `--color`: /// ```rust /// # use clap::{Command, Arg, ValueSource}; /// fn cli() -> Command<'static> { /// Command::new("prog") /// .arg(Arg::new("color").long("color") /// .value_name("WHEN") /// .value_parser(["always", "auto", "never"]) /// .default_value("auto") /// .min_values(0) /// .require_equals(true) /// .default_missing_value("always") /// .help("Specify WHEN to colorize output.") /// ) /// } /// /// // first, we'll provide no arguments /// let m = cli().get_matches_from(vec![ /// "prog" /// ]); /// assert_eq!(m.value_of("color"), Some("auto")); /// assert_eq!(m.value_source("color"), Some(ValueSource::DefaultValue)); /// /// // next, we'll provide a runtime value to override the default (as usually done). /// let m = cli().get_matches_from(vec![ /// "prog", "--color=never" /// ]); /// assert_eq!(m.value_of("color"), Some("never")); /// assert_eq!(m.value_source("color"), Some(ValueSource::CommandLine)); /// /// // finally, we will use the shortcut and only provide the argument without a value. /// let m = cli().get_matches_from(vec![ /// "prog", "--color" /// ]); /// assert_eq!(m.value_of("color"), Some("always")); /// assert_eq!(m.value_source("color"), Some(ValueSource::CommandLine)); /// ``` /// /// For bool literals: /// ```rust /// # use clap::{Command, Arg, ValueSource, value_parser}; /// fn cli() -> Command<'static> { /// Command::new("prog") /// .arg(Arg::new("create").long("create") /// .value_name("BOOL") /// .value_parser(value_parser!(bool)) /// .min_values(0) /// .require_equals(true) /// .default_missing_value("true") /// ) /// } /// /// // first, we'll provide no arguments /// let m = cli().get_matches_from(vec![ /// "prog" /// ]); /// assert_eq!(m.get_one::("create").copied(), None); /// /// // next, we'll provide a runtime value to override the default (as usually done). /// let m = cli().get_matches_from(vec![ /// "prog", "--create=false" /// ]); /// assert_eq!(m.get_one::("create").copied(), Some(false)); /// assert_eq!(m.value_source("create"), Some(ValueSource::CommandLine)); /// /// // finally, we will use the shortcut and only provide the argument without a value. /// let m = cli().get_matches_from(vec![ /// "prog", "--create" /// ]); /// assert_eq!(m.get_one::("create").copied(), Some(true)); /// assert_eq!(m.value_source("create"), Some(ValueSource::CommandLine)); /// ``` /// /// [`ArgMatches::value_of`]: ArgMatches::value_of() /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::default_value`]: Arg::default_value() #[inline] #[must_use] pub fn default_missing_value(self, val: &'help str) -> Self { self.default_missing_values_os(&[OsStr::new(val)]) } /// Value for the argument when the flag is present but no value is specified. /// /// See [`Arg::default_missing_value`]. /// /// [`Arg::default_missing_value`]: Arg::default_missing_value() /// [`OsStr`]: std::ffi::OsStr #[inline] #[must_use] pub fn default_missing_value_os(self, val: &'help OsStr) -> Self { self.default_missing_values_os(&[val]) } /// Value for the argument when the flag is present but no value is specified. /// /// See [`Arg::default_missing_value`]. /// /// [`Arg::default_missing_value`]: Arg::default_missing_value() #[inline] #[must_use] pub fn default_missing_values(self, vals: &[&'help str]) -> Self { let vals_vec: Vec<_> = vals.iter().map(|val| OsStr::new(*val)).collect(); self.default_missing_values_os(&vals_vec[..]) } /// Value for the argument when the flag is present but no value is specified. /// /// See [`Arg::default_missing_values`]. /// /// [`Arg::default_missing_values`]: Arg::default_missing_values() /// [`OsStr`]: std::ffi::OsStr #[inline] #[must_use] pub fn default_missing_values_os(mut self, vals: &[&'help OsStr]) -> Self { self.default_missing_vals = vals.to_vec(); self.takes_value(true) } /// Read from `name` environment variable when argument is not present. /// /// If it is not present in the environment, then default /// rules will apply. /// /// If user sets the argument in the environment: /// - When [`Arg::takes_value(true)`] is not set, the flag is considered raised. /// - When [`Arg::takes_value(true)`] is set, [`ArgMatches::value_of`] will /// return value of the environment variable. /// /// If user doesn't set the argument in the environment: /// - When [`Arg::takes_value(true)`] is not set, the flag is considered off. /// - When [`Arg::takes_value(true)`] is set, [`ArgMatches::value_of`] will /// return the default specified. /// /// # Examples /// /// In this example, we show the variable coming from the environment: /// /// ```rust /// # use std::env; /// # use clap::{Command, Arg}; /// /// env::set_var("MY_FLAG", "env"); /// /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag") /// .env("MY_FLAG") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.value_of("flag"), Some("env")); /// ``` /// /// In this example, because [`Arg::takes_value(false)`] (by default), /// `prog` is a flag that accepts an optional, case-insensitive boolean literal. /// A `false` literal is `n`, `no`, `f`, `false`, `off` or `0`. /// An absent environment variable will also be considered as `false`. /// Anything else will considered as `true`. /// /// ```rust /// # use std::env; /// # use clap::{Command, Arg}; /// /// env::set_var("TRUE_FLAG", "true"); /// env::set_var("FALSE_FLAG", "0"); /// /// let m = Command::new("prog") /// .arg(Arg::new("true_flag") /// .long("true_flag") /// .env("TRUE_FLAG")) /// .arg(Arg::new("false_flag") /// .long("false_flag") /// .env("FALSE_FLAG")) /// .arg(Arg::new("absent_flag") /// .long("absent_flag") /// .env("ABSENT_FLAG")) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(m.is_present("true_flag")); /// assert_eq!(m.value_of("true_flag"), None); /// assert!(!m.is_present("false_flag")); /// assert!(!m.is_present("absent_flag")); /// ``` /// /// In this example, we show the variable coming from an option on the CLI: /// /// ```rust /// # use std::env; /// # use clap::{Command, Arg}; /// /// env::set_var("MY_FLAG", "env"); /// /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag") /// .env("MY_FLAG") /// .takes_value(true)) /// .get_matches_from(vec![ /// "prog", "--flag", "opt" /// ]); /// /// assert_eq!(m.value_of("flag"), Some("opt")); /// ``` /// /// In this example, we show the variable coming from the environment even with the /// presence of a default: /// /// ```rust /// # use std::env; /// # use clap::{Command, Arg}; /// /// env::set_var("MY_FLAG", "env"); /// /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag") /// .env("MY_FLAG") /// .takes_value(true) /// .default_value("default")) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.value_of("flag"), Some("env")); /// ``` /// /// In this example, we show the use of multiple values in a single environment variable: /// /// ```rust /// # use std::env; /// # use clap::{Command, Arg}; /// /// env::set_var("MY_FLAG_MULTI", "env1,env2"); /// /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag") /// .env("MY_FLAG_MULTI") /// .takes_value(true) /// .multiple_values(true) /// .use_value_delimiter(true)) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.values_of("flag").unwrap().collect::>(), vec!["env1", "env2"]); /// ``` /// [`ArgMatches::value_of`]: crate::ArgMatches::value_of() /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::use_value_delimiter(true)`]: Arg::use_value_delimiter() #[cfg(feature = "env")] #[inline] #[must_use] pub fn env(self, name: &'help str) -> Self { self.env_os(OsStr::new(name)) } /// Read from `name` environment variable when argument is not present. /// /// See [`Arg::env`]. #[cfg(feature = "env")] #[inline] #[must_use] pub fn env_os(mut self, name: &'help OsStr) -> Self { self.env = Some((name, env::var_os(name))); self } } /// # Help impl<'help> Arg<'help> { /// Sets the description of the argument for short help (`-h`). /// /// Typically, this is a short (one line) description of the arg. /// /// If [`Arg::long_help`] is not specified, this message will be displayed for `--help`. /// /// **NOTE:** Only `Arg::help` is used in completion script generation in order to be concise /// /// # Examples /// /// Any valid UTF-8 is allowed in the help text. The one exception is when one wishes to /// include a newline in the help text and have the following text be properly aligned with all /// the other help text. /// /// Setting `help` displays a short message to the side of the argument when the user passes /// `-h` or `--help` (by default). /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays /// /// ```notrust /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// --config Some help text describing the --config arg /// -h, --help Print help information /// -V, --version Print version information /// ``` /// [`Arg::long_help`]: Arg::long_help() #[inline] #[must_use] pub fn help(mut self, h: impl Into>) -> Self { self.help = h.into(); self } /// Sets the description of the argument for long help (`--help`). /// /// Typically this a more detailed (multi-line) message /// that describes the arg. /// /// If [`Arg::help`] is not specified, this message will be displayed for `-h`. /// /// **NOTE:** Only [`Arg::help`] is used in completion script generation in order to be concise /// /// # Examples /// /// Any valid UTF-8 is allowed in the help text. The one exception is when one wishes to /// include a newline in the help text and have the following text be properly aligned with all /// the other help text. /// /// Setting `help` displays a short message to the side of the argument when the user passes /// `-h` or `--help` (by default). /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .long_help( /// "The config file used by the myprog must be in JSON format /// with only valid keys and may not contain other nonsense /// that cannot be read by this program. Obviously I'm going on /// and on, so I'll stop now.")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays /// /// ```text /// prog /// /// USAGE: /// prog [OPTIONS] /// /// OPTIONS: /// --config /// The config file used by the myprog must be in JSON format /// with only valid keys and may not contain other nonsense /// that cannot be read by this program. Obviously I'm going on /// and on, so I'll stop now. /// /// -h, --help /// Print help information /// /// -V, --version /// Print version information /// ``` /// [`Arg::help`]: Arg::help() #[inline] #[must_use] pub fn long_help(mut self, h: impl Into>) -> Self { self.long_help = h.into(); self } /// Allows custom ordering of args within the help message. /// /// Args with a lower value will be displayed first in the help message. This is helpful when /// one would like to emphasise frequently used args, or prioritize those towards the top of /// the list. Args with duplicate display orders will be displayed in alphabetical order. /// /// **NOTE:** The default is 999 for all arguments. /// /// **NOTE:** This setting is ignored for [positional arguments] which are always displayed in /// [index] order. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("a") // Typically args are grouped alphabetically by name. /// // Args without a display_order have a value of 999 and are /// // displayed alphabetically with all other 999 valued args. /// .long("long-option") /// .short('o') /// .takes_value(true) /// .help("Some help and text")) /// .arg(Arg::new("b") /// .long("other-option") /// .short('O') /// .takes_value(true) /// .display_order(1) // In order to force this arg to appear *first* /// // all we have to do is give it a value lower than 999. /// // Any other args with a value of 1 will be displayed /// // alphabetically with this one...then 2 values, then 3, etc. /// .help("I should be first!")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays the following help message /// /// ```text /// cust-ord /// /// USAGE: /// cust-ord [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// -V, --version Print version information /// -O, --other-option I should be first! /// -o, --long-option Some help and text /// ``` /// [positional arguments]: Arg::index() /// [index]: Arg::index() #[inline] #[must_use] pub fn display_order(mut self, ord: usize) -> Self { self.disp_ord.set_explicit(ord); self } /// Override the [current] help section. /// /// [current]: crate::Command::help_heading #[inline] #[must_use] pub fn help_heading(mut self, heading: O) -> Self where O: Into>, { self.help_heading = Some(heading.into()); self } /// Render the [help][Arg::help] on the line after the argument. /// /// This can be helpful for arguments with very long or complex help messages. /// This can also be helpful for arguments with very long flag names, or many/long value names. /// /// **NOTE:** To apply this setting to all arguments and subcommands, consider using /// [`crate::Command::next_line_help`] /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("opt") /// .long("long-option-flag") /// .short('o') /// .takes_value(true) /// .next_line_help(true) /// .value_names(&["value1", "value2"]) /// .help("Some really long help and complex\n\ /// help that makes more sense to be\n\ /// on a line after the option")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays the following help message /// /// ```text /// nlh /// /// USAGE: /// nlh [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// -V, --version Print version information /// -o, --long-option-flag /// Some really long help and complex /// help that makes more sense to be /// on a line after the option /// ``` #[inline] #[must_use] pub fn next_line_help(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::NextLineHelp) } else { self.unset_setting(ArgSettings::NextLineHelp) } } /// Do not display the argument in help message. /// /// **NOTE:** This does **not** hide the argument from usage strings on error /// /// # Examples /// /// Setting `Hidden` will hide the argument when displaying help text /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .hide(true) /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays /// /// ```text /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// -V, --version Print version information /// ``` #[inline] #[must_use] pub fn hide(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::Hidden) } else { self.unset_setting(ArgSettings::Hidden) } } /// Do not display the [possible values][crate::builder::ValueParser::possible_values] in the help message. /// /// This is useful for args with many values, or ones which are explained elsewhere in the /// help text. /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// To set this for all arguments, see /// [`Command::hide_possible_values`][crate::Command::hide_possible_values]. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("mode") /// .long("mode") /// .value_parser(["fast", "slow"]) /// .takes_value(true) /// .hide_possible_values(true)); /// ``` /// If we were to run the above program with `--help` the `[values: fast, slow]` portion of /// the help text would be omitted. #[inline] #[must_use] pub fn hide_possible_values(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HidePossibleValues) } else { self.unset_setting(ArgSettings::HidePossibleValues) } } /// Do not display the default value of the argument in the help message. /// /// This is useful when default behavior of an arg is explained elsewhere in the help text. /// /// **NOTE:** Setting this requires [`Arg::takes_value`] /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("connect") /// .arg(Arg::new("host") /// .long("host") /// .default_value("localhost") /// .takes_value(true) /// .hide_default_value(true)); /// /// ``` /// /// If we were to run the above program with `--help` the `[default: localhost]` portion of /// the help text would be omitted. #[inline] #[must_use] pub fn hide_default_value(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HideDefaultValue) } else { self.unset_setting(ArgSettings::HideDefaultValue) } } /// Do not display in help the environment variable name. /// /// This is useful when the variable option is explained elsewhere in the help text. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("mode") /// .long("mode") /// .env("MODE") /// .takes_value(true) /// .hide_env(true)); /// ``` /// /// If we were to run the above program with `--help` the `[env: MODE]` portion of the help /// text would be omitted. #[cfg(feature = "env")] #[inline] #[must_use] pub fn hide_env(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HideEnv) } else { self.unset_setting(ArgSettings::HideEnv) } } /// Do not display in help any values inside the associated ENV variables for the argument. /// /// This is useful when ENV vars contain sensitive values. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("connect") /// .arg(Arg::new("host") /// .long("host") /// .env("CONNECT") /// .takes_value(true) /// .hide_env_values(true)); /// /// ``` /// /// If we were to run the above program with `$ CONNECT=super_secret connect --help` the /// `[default: CONNECT=super_secret]` portion of the help text would be omitted. #[cfg(feature = "env")] #[inline] #[must_use] pub fn hide_env_values(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HideEnvValues) } else { self.unset_setting(ArgSettings::HideEnvValues) } } /// Hides an argument from short help (`-h`). /// /// **NOTE:** This does **not** hide the argument from usage strings on error /// /// **NOTE:** Setting this option will cause next-line-help output style to be used /// when long help (`--help`) is called. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("debug") /// .hide_short_help(true); /// ``` /// /// Setting `hide_short_help(true)` will hide the argument when displaying short help text /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .hide_short_help(true) /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "-h" /// ]); /// ``` /// /// The above example displays /// /// ```text /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// -V, --version Print version information /// ``` /// /// However, when --help is called /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .hide_short_help(true) /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// Then the following would be displayed /// /// ```text /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// --config Some help text describing the --config arg /// -h, --help Print help information /// -V, --version Print version information /// ``` #[inline] #[must_use] pub fn hide_short_help(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HiddenShortHelp) } else { self.unset_setting(ArgSettings::HiddenShortHelp) } } /// Hides an argument from long help (`--help`). /// /// **NOTE:** This does **not** hide the argument from usage strings on error /// /// **NOTE:** Setting this option will cause next-line-help output style to be used /// when long help (`--help`) is called. /// /// # Examples /// /// Setting `hide_long_help(true)` will hide the argument when displaying long help text /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .hide_long_help(true) /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "--help" /// ]); /// ``` /// /// The above example displays /// /// ```text /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// -h, --help Print help information /// -V, --version Print version information /// ``` /// /// However, when -h is called /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("cfg") /// .long("config") /// .hide_long_help(true) /// .help("Some help text describing the --config arg")) /// .get_matches_from(vec![ /// "prog", "-h" /// ]); /// ``` /// /// Then the following would be displayed /// /// ```text /// helptest /// /// USAGE: /// helptest [OPTIONS] /// /// OPTIONS: /// --config Some help text describing the --config arg /// -h, --help Print help information /// -V, --version Print version information /// ``` #[inline] #[must_use] pub fn hide_long_help(self, yes: bool) -> Self { if yes { self.setting(ArgSettings::HiddenLongHelp) } else { self.unset_setting(ArgSettings::HiddenLongHelp) } } } /// # Advanced Argument Relations impl<'help> Arg<'help> { /// The name of the [`ArgGroup`] the argument belongs to. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("debug") /// .long("debug") /// .group("mode") /// # ; /// ``` /// /// Multiple arguments can be a member of a single group and then the group checked as if it /// was one of said arguments. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("debug") /// .long("debug") /// .group("mode")) /// .arg(Arg::new("verbose") /// .long("verbose") /// .group("mode")) /// .get_matches_from(vec![ /// "prog", "--debug" /// ]); /// assert!(m.contains_id("mode")); /// ``` /// /// [`ArgGroup`]: crate::ArgGroup #[must_use] pub fn group(mut self, group_id: T) -> Self { self.groups.push(group_id.into()); self } /// The names of [`ArgGroup`]'s the argument belongs to. /// /// # Examples /// /// ```rust /// # use clap::{Command, Arg}; /// Arg::new("debug") /// .long("debug") /// .groups(&["mode", "verbosity"]) /// # ; /// ``` /// /// Arguments can be members of multiple groups and then the group checked as if it /// was one of said arguments. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("debug") /// .long("debug") /// .groups(&["mode", "verbosity"])) /// .arg(Arg::new("verbose") /// .long("verbose") /// .groups(&["mode", "verbosity"])) /// .get_matches_from(vec![ /// "prog", "--debug" /// ]); /// assert!(m.contains_id("mode")); /// assert!(m.contains_id("verbosity")); /// ``` /// /// [`ArgGroup`]: crate::ArgGroup #[must_use] pub fn groups(mut self, group_ids: &[T]) -> Self { self.groups.extend(group_ids.iter().map(Id::from)); self } /// Specifies the value of the argument if `arg` has been used at runtime. /// /// If `val` is set to `None`, `arg` only needs to be present. If `val` is set to `"some-val"` /// then `arg` must be present at runtime **and** have the value `val`. /// /// If `default` is set to `None`, `default_value` will be removed. /// /// **NOTE:** This setting is perfectly compatible with [`Arg::default_value`] but slightly /// different. `Arg::default_value` *only* takes effect when the user has not provided this arg /// at runtime. This setting however only takes effect when the user has not provided a value at /// runtime **and** these other conditions are met as well. If you have set `Arg::default_value` /// and `Arg::default_value_if`, and the user **did not** provide this arg at runtime, nor were /// the conditions met for `Arg::default_value_if`, the `Arg::default_value` will be applied. /// /// **NOTE:** This implicitly sets [`Arg::takes_value(true)`]. /// /// # Examples /// /// First we use the default value only if another arg is present at runtime. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("other") /// .long("other") /// .default_value_if("flag", None, Some("default"))) /// .get_matches_from(vec![ /// "prog", "--flag" /// ]); /// /// assert_eq!(m.value_of("other"), Some("default")); /// ``` /// /// Next we run the same test, but without providing `--flag`. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("other") /// .long("other") /// .default_value_if("flag", None, Some("default"))) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.value_of("other"), None); /// ``` /// /// Now lets only use the default value if `--opt` contains the value `special`. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("opt") /// .takes_value(true) /// .long("opt")) /// .arg(Arg::new("other") /// .long("other") /// .default_value_if("opt", Some("special"), Some("default"))) /// .get_matches_from(vec![ /// "prog", "--opt", "special" /// ]); /// /// assert_eq!(m.value_of("other"), Some("default")); /// ``` /// /// We can run the same test and provide any value *other than* `special` and we won't get a /// default value. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("opt") /// .takes_value(true) /// .long("opt")) /// .arg(Arg::new("other") /// .long("other") /// .default_value_if("opt", Some("special"), Some("default"))) /// .get_matches_from(vec![ /// "prog", "--opt", "hahaha" /// ]); /// /// assert_eq!(m.value_of("other"), None); /// ``` /// /// If we want to unset the default value for an Arg based on the presence or /// value of some other Arg. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("other") /// .long("other") /// .default_value("default") /// .default_value_if("flag", None, None)) /// .get_matches_from(vec![ /// "prog", "--flag" /// ]); /// /// assert_eq!(m.value_of("other"), None); /// ``` /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::default_value`]: Arg::default_value() #[must_use] pub fn default_value_if( self, arg_id: T, val: Option<&'help str>, default: Option<&'help str>, ) -> Self { self.default_value_if_os(arg_id, val.map(OsStr::new), default.map(OsStr::new)) } /// Provides a conditional default value in the exact same manner as [`Arg::default_value_if`] /// only using [`OsStr`]s instead. /// /// [`Arg::default_value_if`]: Arg::default_value_if() /// [`OsStr`]: std::ffi::OsStr #[must_use] pub fn default_value_if_os( mut self, arg_id: T, val: Option<&'help OsStr>, default: Option<&'help OsStr>, ) -> Self { self.default_vals_ifs .push((arg_id.into(), val.into(), default)); self.takes_value(true) } /// Specifies multiple values and conditions in the same manner as [`Arg::default_value_if`]. /// /// The method takes a slice of tuples in the `(arg, Option, default)` format. /// /// **NOTE**: The conditions are stored in order and evaluated in the same order. I.e. the first /// if multiple conditions are true, the first one found will be applied and the ultimate value. /// /// # Examples /// /// First we use the default value only if another arg is present at runtime. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("opt") /// .long("opt") /// .takes_value(true)) /// .arg(Arg::new("other") /// .long("other") /// .default_value_ifs(&[ /// ("flag", None, Some("default")), /// ("opt", Some("channal"), Some("chan")), /// ])) /// .get_matches_from(vec![ /// "prog", "--opt", "channal" /// ]); /// /// assert_eq!(m.value_of("other"), Some("chan")); /// ``` /// /// Next we run the same test, but without providing `--flag`. /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("other") /// .long("other") /// .default_value_ifs(&[ /// ("flag", None, Some("default")), /// ("opt", Some("channal"), Some("chan")), /// ])) /// .get_matches_from(vec![ /// "prog" /// ]); /// /// assert_eq!(m.value_of("other"), None); /// ``` /// /// We can also see that these values are applied in order, and if more than one condition is /// true, only the first evaluated "wins" /// /// ```rust /// # use clap::{Command, Arg}; /// let m = Command::new("prog") /// .arg(Arg::new("flag") /// .long("flag")) /// .arg(Arg::new("opt") /// .long("opt") /// .takes_value(true)) /// .arg(Arg::new("other") /// .long("other") /// .default_value_ifs(&[ /// ("flag", None, Some("default")), /// ("opt", Some("channal"), Some("chan")), /// ])) /// .get_matches_from(vec![ /// "prog", "--opt", "channal", "--flag" /// ]); /// /// assert_eq!(m.value_of("other"), Some("default")); /// ``` /// [`Arg::takes_value(true)`]: Arg::takes_value() /// [`Arg::default_value_if`]: Arg::default_value_if() #[must_use] pub fn default_value_ifs( mut self, ifs: &[(T, Option<&'help str>, Option<&'help str>)], ) -> Self { for (arg, val, default) in ifs { self = self.default_value_if_os(arg, val.map(OsStr::new), default.map(OsStr::new)); } self } /// Provides multiple conditional default values in the exact same manner as /// [`Arg::default_value_ifs`] only using [`OsStr`]s instead. /// /// [`Arg::default_value_ifs`]: Arg::default_value_ifs() /// [`OsStr`]: std::ffi::OsStr #[must_use] pub fn default_value_ifs_os( mut self, ifs: &[(T, Option<&'help OsStr>, Option<&'help OsStr>)], ) -> Self { for (arg, val, default) in ifs { self = self.default_value_if_os(arg, *val, *default); } self } /// Set this arg as [required] as long as the specified argument is not present at runtime. /// /// **Pro Tip:** Using `Arg::required_unless_present` implies [`Arg::required`] and is therefore not /// mandatory to also set. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_unless_present("debug") /// # ; /// ``` /// /// In the following example, the required argument is *not* provided, /// but it's not an error because the `unless` arg has been supplied. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present("dbg") /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .try_get_matches_from(vec![ /// "prog", "--debug" /// ]); /// /// assert!(res.is_ok()); /// ``` /// /// Setting `Arg::required_unless_present(name)` and *not* supplying `name` or this arg is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present("dbg") /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [required]: Arg::required() #[must_use] pub fn required_unless_present(mut self, arg_id: T) -> Self { self.r_unless.push(arg_id.into()); self } /// Sets this arg as [required] unless *all* of the specified arguments are present at runtime. /// /// In other words, parsing will succeed only if user either /// * supplies the `self` arg. /// * supplies *all* of the `names` arguments. /// /// **NOTE:** If you wish for this argument to only be required unless *any of* these args are /// present see [`Arg::required_unless_present_any`] /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_unless_present_all(&["cfg", "dbg"]) /// # ; /// ``` /// /// In the following example, the required argument is *not* provided, but it's not an error /// because *all* of the `names` args have been supplied. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present_all(&["dbg", "infile"]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .arg(Arg::new("infile") /// .short('i') /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--debug", "-i", "file" /// ]); /// /// assert!(res.is_ok()); /// ``` /// /// Setting [`Arg::required_unless_present_all(names)`] and *not* supplying /// either *all* of `unless` args or the `self` arg is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present_all(&["dbg", "infile"]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .arg(Arg::new("infile") /// .short('i') /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [required]: Arg::required() /// [`Arg::required_unless_present_any`]: Arg::required_unless_present_any() /// [`Arg::required_unless_present_all(names)`]: Arg::required_unless_present_all() #[must_use] pub fn required_unless_present_all(mut self, names: I) -> Self where I: IntoIterator, T: Key, { self.r_unless_all.extend(names.into_iter().map(Id::from)); self } /// Sets this arg as [required] unless *any* of the specified arguments are present at runtime. /// /// In other words, parsing will succeed only if user either /// * supplies the `self` arg. /// * supplies *one or more* of the `unless` arguments. /// /// **NOTE:** If you wish for this argument to be required unless *all of* these args are /// present see [`Arg::required_unless_present_all`] /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_unless_present_any(&["cfg", "dbg"]) /// # ; /// ``` /// /// Setting [`Arg::required_unless_present_any(names)`] requires that the argument be used at runtime /// *unless* *at least one of* the args in `names` are present. In the following example, the /// required argument is *not* provided, but it's not an error because one the `unless` args /// have been supplied. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present_any(&["dbg", "infile"]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .arg(Arg::new("infile") /// .short('i') /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--debug" /// ]); /// /// assert!(res.is_ok()); /// ``` /// /// Setting [`Arg::required_unless_present_any(names)`] and *not* supplying *at least one of* `names` /// or this arg is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_unless_present_any(&["dbg", "infile"]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("dbg") /// .long("debug")) /// .arg(Arg::new("infile") /// .short('i') /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [required]: Arg::required() /// [`Arg::required_unless_present_any(names)`]: Arg::required_unless_present_any() /// [`Arg::required_unless_present_all`]: Arg::required_unless_present_all() #[must_use] pub fn required_unless_present_any(mut self, names: I) -> Self where I: IntoIterator, T: Key, { self.r_unless.extend(names.into_iter().map(Id::from)); self } /// This argument is [required] only if the specified `arg` is present at runtime and its value /// equals `val`. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_if_eq("other_arg", "value") /// # ; /// ``` /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .required_if_eq("other", "special") /// .long("config")) /// .arg(Arg::new("other") /// .long("other") /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--other", "not-special" /// ]); /// /// assert!(res.is_ok()); // We didn't use --other=special, so "cfg" wasn't required /// /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .required_if_eq("other", "special") /// .long("config")) /// .arg(Arg::new("other") /// .long("other") /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--other", "special" /// ]); /// /// // We did use --other=special so "cfg" had become required but was missing. /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .required_if_eq("other", "special") /// .long("config")) /// .arg(Arg::new("other") /// .long("other") /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--other", "SPECIAL" /// ]); /// /// // By default, the comparison is case-sensitive, so "cfg" wasn't required /// assert!(res.is_ok()); /// /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .required_if_eq("other", "special") /// .long("config")) /// .arg(Arg::new("other") /// .long("other") /// .ignore_case(true) /// .takes_value(true)) /// .try_get_matches_from(vec![ /// "prog", "--other", "SPECIAL" /// ]); /// /// // However, case-insensitive comparisons can be enabled. This typically occurs when using Arg::possible_values(). /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [`Arg::requires(name)`]: Arg::requires() /// [Conflicting]: Arg::conflicts_with() /// [required]: Arg::required() #[must_use] pub fn required_if_eq(mut self, arg_id: T, val: &'help str) -> Self { self.r_ifs.push((arg_id.into(), val)); self } /// Specify this argument is [required] based on multiple conditions. /// /// The conditions are set up in a `(arg, val)` style tuple. The requirement will only become /// valid if one of the specified `arg`'s value equals its corresponding `val`. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_if_eq_any(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// # ; /// ``` /// /// Setting `Arg::required_if_eq_any(&[(arg, val)])` makes this arg required if any of the `arg`s /// are used at runtime and it's corresponding value is equal to `val`. If the `arg`'s value is /// anything other than `val`, this argument isn't required. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_if_eq_any(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("extra") /// .takes_value(true) /// .long("extra")) /// .arg(Arg::new("option") /// .takes_value(true) /// .long("option")) /// .try_get_matches_from(vec![ /// "prog", "--option", "other" /// ]); /// /// assert!(res.is_ok()); // We didn't use --option=spec, or --extra=val so "cfg" isn't required /// ``` /// /// Setting `Arg::required_if_eq_any(&[(arg, val)])` and having any of the `arg`s used with its /// value of `val` but *not* using this arg is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_if_eq_any(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("extra") /// .takes_value(true) /// .long("extra")) /// .arg(Arg::new("option") /// .takes_value(true) /// .long("option")) /// .try_get_matches_from(vec![ /// "prog", "--option", "spec" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [`Arg::requires(name)`]: Arg::requires() /// [Conflicting]: Arg::conflicts_with() /// [required]: Arg::required() #[must_use] pub fn required_if_eq_any(mut self, ifs: &[(T, &'help str)]) -> Self { self.r_ifs .extend(ifs.iter().map(|(id, val)| (Id::from_ref(id), *val))); self } /// Specify this argument is [required] based on multiple conditions. /// /// The conditions are set up in a `(arg, val)` style tuple. The requirement will only become /// valid if every one of the specified `arg`'s value equals its corresponding `val`. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .required_if_eq_all(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// # ; /// ``` /// /// Setting `Arg::required_if_eq_all(&[(arg, val)])` makes this arg required if all of the `arg`s /// are used at runtime and every value is equal to its corresponding `val`. If the `arg`'s value is /// anything other than `val`, this argument isn't required. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_if_eq_all(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("extra") /// .takes_value(true) /// .long("extra")) /// .arg(Arg::new("option") /// .takes_value(true) /// .long("option")) /// .try_get_matches_from(vec![ /// "prog", "--option", "spec" /// ]); /// /// assert!(res.is_ok()); // We didn't use --option=spec --extra=val so "cfg" isn't required /// ``` /// /// Setting `Arg::required_if_eq_all(&[(arg, val)])` and having all of the `arg`s used with its /// value of `val` but *not* using this arg is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .required_if_eq_all(&[ /// ("extra", "val"), /// ("option", "spec") /// ]) /// .takes_value(true) /// .long("config")) /// .arg(Arg::new("extra") /// .takes_value(true) /// .long("extra")) /// .arg(Arg::new("option") /// .takes_value(true) /// .long("option")) /// .try_get_matches_from(vec![ /// "prog", "--extra", "val", "--option", "spec" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [required]: Arg::required() #[must_use] pub fn required_if_eq_all(mut self, ifs: &[(T, &'help str)]) -> Self { self.r_ifs_all .extend(ifs.iter().map(|(id, val)| (Id::from_ref(id), *val))); self } /// Require another argument if this arg was present at runtime and its value equals to `val`. /// /// This method takes `value, another_arg` pair. At runtime, clap will check /// if this arg (`self`) is present and its value equals to `val`. /// If it does, `another_arg` will be marked as required. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .requires_if("val", "arg") /// # ; /// ``` /// /// Setting `Arg::requires_if(val, arg)` requires that the `arg` be used at runtime if the /// defining argument's value is equal to `val`. If the defining argument is anything other than /// `val`, the other argument isn't required. /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires_if("my.cfg", "other") /// .long("config")) /// .arg(Arg::new("other")) /// .try_get_matches_from(vec![ /// "prog", "--config", "some.cfg" /// ]); /// /// assert!(res.is_ok()); // We didn't use --config=my.cfg, so other wasn't required /// ``` /// /// Setting `Arg::requires_if(val, arg)` and setting the value to `val` but *not* supplying /// `arg` is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires_if("my.cfg", "input") /// .long("config")) /// .arg(Arg::new("input")) /// .try_get_matches_from(vec![ /// "prog", "--config", "my.cfg" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [`Arg::requires(name)`]: Arg::requires() /// [Conflicting]: Arg::conflicts_with() /// [override]: Arg::overrides_with() #[must_use] pub fn requires_if(mut self, val: &'help str, arg_id: T) -> Self { self.requires .push((ArgPredicate::Equals(OsStr::new(val)), arg_id.into())); self } /// Allows multiple conditional requirements. /// /// The requirement will only become valid if this arg's value equals `val`. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .requires_ifs(&[ /// ("val", "arg"), /// ("other_val", "arg2"), /// ]) /// # ; /// ``` /// /// Setting `Arg::requires_ifs(&["val", "arg"])` requires that the `arg` be used at runtime if the /// defining argument's value is equal to `val`. If the defining argument's value is anything other /// than `val`, `arg` isn't required. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires_ifs(&[ /// ("special.conf", "opt"), /// ("other.conf", "other"), /// ]) /// .long("config")) /// .arg(Arg::new("opt") /// .long("option") /// .takes_value(true)) /// .arg(Arg::new("other")) /// .try_get_matches_from(vec![ /// "prog", "--config", "special.conf" /// ]); /// /// assert!(res.is_err()); // We used --config=special.conf so --option is required /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [`Arg::requires(name)`]: Arg::requires() /// [Conflicting]: Arg::conflicts_with() /// [override]: Arg::overrides_with() #[must_use] pub fn requires_ifs(mut self, ifs: &[(&'help str, T)]) -> Self { self.requires.extend( ifs.iter() .map(|(val, arg)| (ArgPredicate::Equals(OsStr::new(*val)), Id::from(arg))), ); self } /// Require these arguments names when this one is presen /// /// i.e. when using this argument, the following arguments *must* be present. /// /// **NOTE:** [Conflicting] rules and [override] rules take precedence over being required /// by default. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .requires_all(&["input", "output"]) /// # ; /// ``` /// /// Setting `Arg::requires_all(&[arg, arg2])` requires that all the arguments be used at /// runtime if the defining argument is used. If the defining argument isn't used, the other /// argument isn't required /// /// ```rust /// # use clap::{Command, Arg}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires("input") /// .long("config")) /// .arg(Arg::new("input")) /// .arg(Arg::new("output")) /// .try_get_matches_from(vec![ /// "prog" /// ]); /// /// assert!(res.is_ok()); // We didn't use cfg, so input and output weren't required /// ``` /// /// Setting `Arg::requires_all(&[arg, arg2])` and *not* supplying all the arguments is an /// error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .requires_all(&["input", "output"]) /// .long("config")) /// .arg(Arg::new("input")) /// .arg(Arg::new("output")) /// .try_get_matches_from(vec![ /// "prog", "--config", "file.conf", "in.txt" /// ]); /// /// assert!(res.is_err()); /// // We didn't use output /// assert_eq!(res.unwrap_err().kind(), ErrorKind::MissingRequiredArgument); /// ``` /// [Conflicting]: Arg::conflicts_with() /// [override]: Arg::overrides_with() #[must_use] pub fn requires_all(mut self, names: &[T]) -> Self { self.requires .extend(names.iter().map(|s| (ArgPredicate::IsPresent, s.into()))); self } /// This argument is mutually exclusive with the specified argument. /// /// **NOTE:** Conflicting rules take precedence over being required by default. Conflict rules /// only need to be set for one of the two arguments, they do not need to be set for each. /// /// **NOTE:** Defining a conflict is two-way, but does *not* need to defined for both arguments /// (i.e. if A conflicts with B, defining A.conflicts_with(B) is sufficient. You do not /// need to also do B.conflicts_with(A)) /// /// **NOTE:** [`Arg::conflicts_with_all(names)`] allows specifying an argument which conflicts with more than one argument. /// /// **NOTE** [`Arg::exclusive(true)`] allows specifying an argument which conflicts with every other argument. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .conflicts_with("debug") /// # ; /// ``` /// /// Setting conflicting argument, and having both arguments present at runtime is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .conflicts_with("debug") /// .long("config")) /// .arg(Arg::new("debug") /// .long("debug")) /// .try_get_matches_from(vec![ /// "prog", "--debug", "--config", "file.conf" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::ArgumentConflict); /// ``` /// /// [`Arg::conflicts_with_all(names)`]: Arg::conflicts_with_all() /// [`Arg::exclusive(true)`]: Arg::exclusive() #[must_use] pub fn conflicts_with(mut self, arg_id: T) -> Self { self.blacklist.push(arg_id.into()); self } /// This argument is mutually exclusive with the specified arguments. /// /// See [`Arg::conflicts_with`]. /// /// **NOTE:** Conflicting rules take precedence over being required by default. Conflict rules /// only need to be set for one of the two arguments, they do not need to be set for each. /// /// **NOTE:** Defining a conflict is two-way, but does *not* need to defined for both arguments /// (i.e. if A conflicts with B, defining A.conflicts_with(B) is sufficient. You do not need /// need to also do B.conflicts_with(A)) /// /// **NOTE:** [`Arg::exclusive(true)`] allows specifying an argument which conflicts with every other argument. /// /// # Examples /// /// ```rust /// # use clap::Arg; /// Arg::new("config") /// .conflicts_with_all(&["debug", "input"]) /// # ; /// ``` /// /// Setting conflicting argument, and having any of the arguments present at runtime with a /// conflicting argument is an error. /// /// ```rust /// # use clap::{Command, Arg, ErrorKind}; /// let res = Command::new("prog") /// .arg(Arg::new("cfg") /// .takes_value(true) /// .conflicts_with_all(&["debug", "input"]) /// .long("config")) /// .arg(Arg::new("debug") /// .long("debug")) /// .arg(Arg::new("input")) /// .try_get_matches_from(vec![ /// "prog", "--config", "file.conf", "file.txt" /// ]); /// /// assert!(res.is_err()); /// assert_eq!(res.unwrap_err().kind(), ErrorKind::ArgumentConflict); /// ``` /// [`Arg::conflicts_with`]: Arg::conflicts_with() /// [`Arg::exclusive(true)`]: Arg::exclusive() #[must_use] pub fn conflicts_with_all(mut self, names: &[&str]) -> Self { self.blacklist.extend(names.iter().copied().map(Id::from)); self } /// Sets an overridable argument. /// /// i.e. this argument and the following argument /// will override each other in POSIX style (whichever argument was specified at runtime /// **last** "wins") /// /// **NOTE:** When an argument is overridden it is essentially as if it never was used, any /// conflicts, requirements, etc. are evaluated **after** all "overrides" have been removed /// /// **NOTE:** Overriding an argument implies they [conflict][Arg::conflicts_with`]. /// /// **WARNING:** Positional arguments and options which accept /// [`Arg::multiple_occurrences`] cannot override themselves (or we /// would never be able to advance to the next positional). If a positional /// argument or option with one of the [`Arg::multiple_occurrences`] /// settings lists itself as an override, it is simply ignored. /// /// # Examples /// /// ```rust /// # use clap::{Command, arg}; /// let m = Command::new("prog") /// .arg(arg!(-f --flag "some flag") /// .conflicts_with("debug")) /// .arg(arg!(-d --debug "other flag")) /// .arg(arg!(-c --color "third flag") /// .overrides_with("flag")) /// .get_matches_from(vec![ /// "prog", "-f", "-d", "-c"]); /// // ^~~~~~~~~~~~^~~~~ flag is overridden by color /// /// assert!(m.is_present("color")); /// assert!(m.is_present("debug")); // even though flag conflicts with debug, it's as if flag /// // was never used because it was overridden with color /// assert!(!m.is_present("flag")); /// ``` /// Care must be taken when using this setting, and having an arg override with itself. This /// is common practice when supporting things like shell aliases, config files, etc. /// However, when combined with multiple values, it can get dicy. /// Here is how clap handles such situations: /// /// When a flag overrides itself, it's as if the flag was only ever used once (essentially /// preventing a "Unexpected multiple usage" error): /// /// ```rust /// # use clap::{Command, arg}; /// let m = Command::new("posix") /// .arg(arg!(--flag "some flag").overrides_with("flag")) /// .get_matches_from(vec!["posix", "--flag", "--flag"]); /// assert!(m.is_present("flag")); /// ``` /// /// Making an arg [`Arg::multiple_occurrences`] and override itself /// is essentially meaningless. Therefore clap ignores an override of self /// if it's a flag and it already accepts multiple occurrences. /// /// ``` /// # use clap::{Command, arg}; /// let m = Command::new("posix") /// .arg(arg!(--flag ... "some flag").overrides_with("flag")) /// .get_matches_from(vec!["", "--flag", "--flag", "--flag", "--flag"]); /// assert!(m.is_present("flag")); /// ``` /// /// Now notice with options (which *do not* set /// [`Arg::multiple_occurrences`]), it's as if only the last /// occurrence happened. /// /// ``` /// # use clap::{Command, arg}; /// let m = Command::new("posix") /// .arg(arg!(--opt "some option").overrides_with("opt")) /// .get_matches_from(vec!["", "--opt=some", "--opt=other"]); /// assert!(m.is_present("opt")); /// assert_eq!(m.value_of("opt"), Some("other")); /// ``` /// /// This will also work when [`Arg::multiple_values`] is enabled: /// /// ``` /// # use clap::{Command, Arg}; /// let m = Command::new("posix") /// .arg( /// Arg::new("opt") /// .long("opt") /// .takes_value(true) /// .multiple_values(true) /// .overrides_with("opt") /// ) /// .get_matches_from(vec!["", "--opt", "1", "2", "--opt", "3", "4", "5"]); /// assert!(m.is_present("opt")); /// assert_eq!(m.values_of("opt").unwrap().collect::>(), &["3", "4", "5"]); /// ``` /// /// Just like flags, options with [`Arg::multiple_occurrences`] set /// will ignore the "override self" setting. /// /// ``` /// # use clap::{Command, arg}; /// let m = Command::new("posix") /// .arg(arg!(--opt ... "some option") /// .multiple_values(true) /// .overrides_with("opt")) /// .get_matches_from(vec!["", "--opt", "first", "over", "--opt", "other", "val"]); /// assert!(m.is_present("opt")); /// assert_eq!(m.values_of("opt").unwrap().collect::>(), &["first", "over", "other", "val"]); /// ``` #[must_use] pub fn overrides_with(mut self, arg_id: T) -> Self { self.overrides.push(arg_id.into()); self } /// Sets multiple mutually overridable arguments by name. /// /// i.e. this argument and the following argument will override each other in POSIX style /// (whichever argument was specified at runtime **last** "wins") /// /// **NOTE:** When an argument is overridden it is essentially as if it never was used, any /// conflicts, requirements, etc. are evaluated **after** all "overrides" have been removed /// /// **NOTE:** Overriding an argument implies they [conflict][Arg::conflicts_with_all`]. /// /// # Examples /// /// ```rust /// # use clap::{Command, arg}; /// let m = Command::new("prog") /// .arg(arg!(-f --flag "some flag") /// .conflicts_with("color")) /// .arg(arg!(-d --debug "other flag")) /// .arg(arg!(-c --color "third flag") /// .overrides_with_all(&["flag", "debug"])) /// .get_matches_from(vec![ /// "prog", "-f", "-d", "-c"]); /// // ^~~~~~^~~~~~~~~ flag and debug are overridden by color /// /// assert!(m.is_present("color")); // even though flag conflicts with color, it's as if flag /// // and debug were never used because they were overridden /// // with color /// assert!(!m.is_present("debug")); /// assert!(!m.is_present("flag")); /// ``` #[must_use] pub fn overrides_with_all(mut self, names: &[T]) -> Self { self.overrides.extend(names.iter().map(Id::from)); self } } /// # Reflection impl<'help> Arg<'help> { /// Get the name of the argument #[inline] pub fn get_id(&self) -> &'help str { self.name } /// Deprecated, replaced with [`Arg::get_id`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.1.0", note = "Replaced with `Arg::get_id`") )] pub fn get_name(&self) -> &'help str { self.get_id() } /// Get the help specified for this argument, if any #[inline] pub fn get_help(&self) -> Option<&'help str> { self.help } /// Get the long help specified for this argument, if any /// /// # Examples /// /// ```rust /// # use clap::Arg; /// let arg = Arg::new("foo").long_help("long help"); /// assert_eq!(Some("long help"), arg.get_long_help()); /// ``` /// #[inline] pub fn get_long_help(&self) -> Option<&'help str> { self.long_help } /// Get the help heading specified for this argument, if any #[inline] pub fn get_help_heading(&self) -> Option<&'help str> { self.help_heading.unwrap_or_default() } /// Get the short option name for this argument, if any #[inline] pub fn get_short(&self) -> Option { self.short } /// Get visible short aliases for this argument, if any #[inline] pub fn get_visible_short_aliases(&self) -> Option> { if self.short_aliases.is_empty() { None } else { Some( self.short_aliases .iter() .filter_map(|(c, v)| if *v { Some(c) } else { None }) .copied() .collect(), ) } } /// Get *all* short aliases for this argument, if any, both visible and hidden. #[inline] pub fn get_all_short_aliases(&self) -> Option> { if self.short_aliases.is_empty() { None } else { Some(self.short_aliases.iter().map(|(s, _)| s).copied().collect()) } } /// Get the short option name and its visible aliases, if any #[inline] pub fn get_short_and_visible_aliases(&self) -> Option> { let mut shorts = match self.short { Some(short) => vec![short], None => return None, }; if let Some(aliases) = self.get_visible_short_aliases() { shorts.extend(aliases); } Some(shorts) } /// Get the long option name for this argument, if any #[inline] pub fn get_long(&self) -> Option<&'help str> { self.long } /// Get visible aliases for this argument, if any #[inline] pub fn get_visible_aliases(&self) -> Option> { if self.aliases.is_empty() { None } else { Some( self.aliases .iter() .filter_map(|(s, v)| if *v { Some(s) } else { None }) .copied() .collect(), ) } } /// Get *all* aliases for this argument, if any, both visible and hidden. #[inline] pub fn get_all_aliases(&self) -> Option> { if self.aliases.is_empty() { None } else { Some(self.aliases.iter().map(|(s, _)| s).copied().collect()) } } /// Get the long option name and its visible aliases, if any #[inline] pub fn get_long_and_visible_aliases(&self) -> Option> { let mut longs = match self.long { Some(long) => vec![long], None => return None, }; if let Some(aliases) = self.get_visible_aliases() { longs.extend(aliases); } Some(longs) } /// Deprecated, replaced with [`Arg::get_value_parser().possible_values()`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.2.0", note = "Replaced with `Arg::get_value_parser().possible_values()`" ) )] pub fn get_possible_values(&self) -> Option<&[PossibleValue<'help>]> { if self.possible_vals.is_empty() { None } else { Some(&self.possible_vals) } } pub(crate) fn get_possible_values2(&self) -> Vec> { #![allow(deprecated)] if !self.is_takes_value_set() { vec![] } else if let Some(pvs) = self.get_possible_values() { // Check old first in case the user explicitly set possible values and the derive inferred // a `ValueParser` with some. pvs.to_vec() } else { self.get_value_parser() .possible_values() .map(|pvs| pvs.collect()) .unwrap_or_default() } } /// Get the names of values for this argument. #[inline] pub fn get_value_names(&self) -> Option<&[&'help str]> { if self.val_names.is_empty() { None } else { Some(&self.val_names) } } /// Get the number of values for this argument. #[inline] pub fn get_num_vals(&self) -> Option { self.num_vals } /// Get the delimiter between multiple values #[inline] pub fn get_value_delimiter(&self) -> Option { self.val_delim } /// Get the index of this argument, if any #[inline] pub fn get_index(&self) -> Option { self.index } /// Get the value hint of this argument pub fn get_value_hint(&self) -> ValueHint { self.value_hint.unwrap_or_else(|| { if self.is_takes_value_set() { let type_id = self.get_value_parser().type_id(); if type_id == crate::parser::AnyValueId::of::() { ValueHint::AnyPath } else { ValueHint::default() } } else { ValueHint::default() } }) } /// Deprecated, replaced with [`Arg::is_global_set`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.1.0", note = "Replaced with `Arg::is_global_set`") )] pub fn get_global(&self) -> bool { self.is_global_set() } /// Get the environment variable name specified for this argument, if any /// /// # Examples /// /// ```rust /// # use std::ffi::OsStr; /// # use clap::Arg; /// let arg = Arg::new("foo").env("ENVIRONMENT"); /// assert_eq!(Some(OsStr::new("ENVIRONMENT")), arg.get_env()); /// ``` #[cfg(feature = "env")] pub fn get_env(&self) -> Option<&OsStr> { self.env.as_ref().map(|x| x.0) } /// Get the default values specified for this argument, if any /// /// # Examples /// /// ```rust /// # use clap::Arg; /// let arg = Arg::new("foo").default_value("default value"); /// assert_eq!(&["default value"], arg.get_default_values()); /// ``` pub fn get_default_values(&self) -> &[&OsStr] { &self.default_vals } /// Checks whether this argument is a positional or not. /// /// # Examples /// /// ``` /// # use clap::Arg; /// let arg = Arg::new("foo"); /// assert_eq!(true, arg.is_positional()); /// /// let arg = Arg::new("foo").long("foo"); /// assert_eq!(false, arg.is_positional()); /// ``` pub fn is_positional(&self) -> bool { self.long.is_none() && self.short.is_none() } /// Reports whether [`Arg::required`] is set pub fn is_required_set(&self) -> bool { self.is_set(ArgSettings::Required) } /// Report whether [`Arg::multiple_values`] is set pub fn is_multiple_values_set(&self) -> bool { self.is_set(ArgSettings::MultipleValues) } /// [`Arg::multiple_occurrences`] is going away ([Issue #3772](https://github.com/clap-rs/clap/issues/3772)) #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "`multiple_occurrences` away (Issue #3772)") )] pub fn is_multiple_occurrences_set(&self) -> bool { self.is_set(ArgSettings::MultipleOccurrences) } /// Report whether [`Arg::is_takes_value_set`] is set pub fn is_takes_value_set(&self) -> bool { self.is_set(ArgSettings::TakesValue) } /// Report whether [`Arg::allow_hyphen_values`] is set pub fn is_allow_hyphen_values_set(&self) -> bool { self.is_set(ArgSettings::AllowHyphenValues) } /// Deprecated, replaced with [`Arg::get_value_parser()`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "Replaced with `Arg::get_value_parser()`") )] pub fn is_forbid_empty_values_set(&self) -> bool { self.is_set(ArgSettings::ForbidEmptyValues) } /// Deprecated, replaced with [`Arg::get_value_parser()` #[cfg_attr( feature = "deprecated", deprecated(since = "3.2.0", note = "Replaced with `Arg::get_value_parser()`") )] pub fn is_allow_invalid_utf8_set(&self) -> bool { self.is_set(ArgSettings::AllowInvalidUtf8) } /// Behavior when parsing the argument pub fn get_action(&self) -> &super::ArgAction { const DEFAULT: super::ArgAction = super::ArgAction::StoreValue; self.action.as_ref().unwrap_or(&DEFAULT) } /// Configured parser for argument values /// /// # Example /// /// ```rust /// let cmd = clap::Command::new("raw") /// .arg( /// clap::Arg::new("port") /// .value_parser(clap::value_parser!(usize)) /// ); /// let value_parser = cmd.get_arguments() /// .find(|a| a.get_id() == "port").unwrap() /// .get_value_parser(); /// println!("{:?}", value_parser); /// ``` pub fn get_value_parser(&self) -> &super::ValueParser { if let Some(value_parser) = self.value_parser.as_ref() { value_parser } else if self.is_allow_invalid_utf8_set() { static DEFAULT: super::ValueParser = super::ValueParser::os_string(); &DEFAULT } else { static DEFAULT: super::ValueParser = super::ValueParser::string(); &DEFAULT } } /// Report whether [`Arg::global`] is set pub fn is_global_set(&self) -> bool { self.is_set(ArgSettings::Global) } /// Report whether [`Arg::next_line_help`] is set pub fn is_next_line_help_set(&self) -> bool { self.is_set(ArgSettings::NextLineHelp) } /// Report whether [`Arg::hide`] is set pub fn is_hide_set(&self) -> bool { self.is_set(ArgSettings::Hidden) } /// Report whether [`Arg::hide_default_value`] is set pub fn is_hide_default_value_set(&self) -> bool { self.is_set(ArgSettings::HideDefaultValue) } /// Report whether [`Arg::hide_possible_values`] is set pub fn is_hide_possible_values_set(&self) -> bool { self.is_set(ArgSettings::HidePossibleValues) } /// Report whether [`Arg::hide_env`] is set #[cfg(feature = "env")] pub fn is_hide_env_set(&self) -> bool { self.is_set(ArgSettings::HideEnv) } /// Report whether [`Arg::hide_env_values`] is set #[cfg(feature = "env")] pub fn is_hide_env_values_set(&self) -> bool { self.is_set(ArgSettings::HideEnvValues) } /// Report whether [`Arg::hide_short_help`] is set pub fn is_hide_short_help_set(&self) -> bool { self.is_set(ArgSettings::HiddenShortHelp) } /// Report whether [`Arg::hide_long_help`] is set pub fn is_hide_long_help_set(&self) -> bool { self.is_set(ArgSettings::HiddenLongHelp) } /// Report whether [`Arg::use_value_delimiter`] is set pub fn is_use_value_delimiter_set(&self) -> bool { self.is_set(ArgSettings::UseValueDelimiter) } /// Report whether [`Arg::require_value_delimiter`] is set pub fn is_require_value_delimiter_set(&self) -> bool { self.is_set(ArgSettings::RequireDelimiter) } /// Report whether [`Arg::require_equals`] is set pub fn is_require_equals_set(&self) -> bool { self.is_set(ArgSettings::RequireEquals) } /// Reports whether [`Arg::exclusive`] is set pub fn is_exclusive_set(&self) -> bool { self.is_set(ArgSettings::Exclusive) } /// Reports whether [`Arg::last`] is set pub fn is_last_set(&self) -> bool { self.is_set(ArgSettings::Last) } /// Reports whether [`Arg::ignore_case`] is set pub fn is_ignore_case_set(&self) -> bool { self.is_set(ArgSettings::IgnoreCase) } } /// # Deprecated impl<'help> Arg<'help> { /// Deprecated, replaced with [`Arg::new`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::new`") )] #[doc(hidden)] pub fn with_name>(n: S) -> Self { Self::new(n) } /// Deprecated in [Issue #3087](https://github.com/clap-rs/clap/issues/3087), maybe [`clap::Parser`][crate::Parser] would fit your use case? #[cfg(feature = "yaml")] #[cfg_attr( feature = "deprecated", deprecated( since = "3.0.0", note = "Deprecated in Issue #3087, maybe clap::Parser would fit your use case?" ) )] #[doc(hidden)] pub fn from_yaml(y: &'help Yaml) -> Self { #![allow(deprecated)] let yaml_file_hash = y.as_hash().expect("YAML file must be a hash"); // We WANT this to panic on error...so expect() is good. let (name_yaml, yaml) = yaml_file_hash .iter() .next() .expect("There must be one arg in the YAML file"); let name_str = name_yaml.as_str().expect("Arg name must be a string"); let mut a = Arg::new(name_str); for (k, v) in yaml.as_hash().expect("Arg must be a hash") { a = match k.as_str().expect("Arg fields must be strings") { "short" => yaml_to_char!(a, v, short), "long" => yaml_to_str!(a, v, long), "aliases" => yaml_vec_or_str!(a, v, alias), "help" => yaml_to_str!(a, v, help), "long_help" => yaml_to_str!(a, v, long_help), "required" => yaml_to_bool!(a, v, required), "required_if" => yaml_tuple2!(a, v, required_if_eq), "required_ifs" => yaml_tuple2!(a, v, required_if_eq), "takes_value" => yaml_to_bool!(a, v, takes_value), "index" => yaml_to_usize!(a, v, index), "global" => yaml_to_bool!(a, v, global), "multiple" => yaml_to_bool!(a, v, multiple), "hidden" => yaml_to_bool!(a, v, hide), "next_line_help" => yaml_to_bool!(a, v, next_line_help), "group" => yaml_to_str!(a, v, group), "number_of_values" => yaml_to_usize!(a, v, number_of_values), "max_values" => yaml_to_usize!(a, v, max_values), "min_values" => yaml_to_usize!(a, v, min_values), "value_name" => yaml_to_str!(a, v, value_name), "use_delimiter" => yaml_to_bool!(a, v, use_delimiter), "allow_hyphen_values" => yaml_to_bool!(a, v, allow_hyphen_values), "last" => yaml_to_bool!(a, v, last), "require_delimiter" => yaml_to_bool!(a, v, require_delimiter), "value_delimiter" => yaml_to_char!(a, v, value_delimiter), "required_unless" => yaml_to_str!(a, v, required_unless_present), "display_order" => yaml_to_usize!(a, v, display_order), "default_value" => yaml_to_str!(a, v, default_value), "default_value_if" => yaml_tuple3!(a, v, default_value_if), "default_value_ifs" => yaml_tuple3!(a, v, default_value_if), #[cfg(feature = "env")] "env" => yaml_to_str!(a, v, env), "value_names" => yaml_vec_or_str!(a, v, value_name), "groups" => yaml_vec_or_str!(a, v, group), "requires" => yaml_vec_or_str!(a, v, requires), "requires_if" => yaml_tuple2!(a, v, requires_if), "requires_ifs" => yaml_tuple2!(a, v, requires_if), "conflicts_with" => yaml_vec_or_str!(a, v, conflicts_with), "overrides_with" => yaml_to_str!(a, v, overrides_with), "possible_values" => yaml_vec_or_str!(a, v, possible_value), "case_insensitive" => yaml_to_bool!(a, v, ignore_case), "required_unless_one" => yaml_vec!(a, v, required_unless_present_any), "required_unless_all" => yaml_vec!(a, v, required_unless_present_all), s => { panic!( "Unknown setting '{}' in YAML file for arg '{}'", s, name_str ) } } } a } /// Deprecated in [Issue #3086](https://github.com/clap-rs/clap/issues/3086), see [`arg!`][crate::arg!]. #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Deprecated in Issue #3086, see `clap::arg!") )] #[doc(hidden)] pub fn from_usage(u: &'help str) -> Self { UsageParser::from_usage(u).parse() } /// Deprecated, replaced with [`Arg::required_unless_present`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::required_unless_present`") )] #[doc(hidden)] #[must_use] pub fn required_unless(self, arg_id: T) -> Self { self.required_unless_present(arg_id) } /// Deprecated, replaced with [`Arg::required_unless_present_all`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.0.0", note = "Replaced with `Arg::required_unless_present_all`" ) )] #[doc(hidden)] #[must_use] pub fn required_unless_all(self, names: I) -> Self where I: IntoIterator, T: Key, { self.required_unless_present_all(names) } /// Deprecated, replaced with [`Arg::required_unless_present_any`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.0.0", note = "Replaced with `Arg::required_unless_present_any`" ) )] #[doc(hidden)] #[must_use] pub fn required_unless_one(self, names: I) -> Self where I: IntoIterator, T: Key, { self.required_unless_present_any(names) } /// Deprecated, replaced with [`Arg::required_if_eq`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::required_if_eq`") )] #[doc(hidden)] #[must_use] pub fn required_if(self, arg_id: T, val: &'help str) -> Self { self.required_if_eq(arg_id, val) } /// Deprecated, replaced with [`Arg::required_if_eq_any`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::required_if_eq_any`") )] #[doc(hidden)] #[must_use] pub fn required_ifs(self, ifs: &[(T, &'help str)]) -> Self { self.required_if_eq_any(ifs) } /// Deprecated, replaced with [`Arg::hide`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::hide`") )] #[doc(hidden)] #[inline] #[must_use] pub fn hidden(self, yes: bool) -> Self { self.hide(yes) } /// Deprecated, replaced with [`Arg::ignore_case`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::ignore_case`") )] #[doc(hidden)] #[inline] #[must_use] pub fn case_insensitive(self, yes: bool) -> Self { self.ignore_case(yes) } /// Deprecated, replaced with [`Arg::forbid_empty_values`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::forbid_empty_values`") )] #[doc(hidden)] #[must_use] pub fn empty_values(self, yes: bool) -> Self { self.forbid_empty_values(!yes) } /// Deprecated, replaced with [`Arg::multiple_occurrences`] (most likely what you want) and /// [`Arg::multiple_values`] #[cfg_attr( feature = "deprecated", deprecated( since = "3.0.0", note = "Split into `Arg::multiple_occurrences` (most likely what you want) and `Arg::multiple_values`" ) )] #[doc(hidden)] #[must_use] pub fn multiple(self, yes: bool) -> Self { self.multiple_occurrences(yes).multiple_values(yes) } /// Deprecated, replaced with [`Arg::hide_short_help`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::hide_short_help`") )] #[doc(hidden)] #[inline] #[must_use] pub fn hidden_short_help(self, yes: bool) -> Self { self.hide_short_help(yes) } /// Deprecated, replaced with [`Arg::hide_long_help`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::hide_long_help`") )] #[doc(hidden)] #[inline] #[must_use] pub fn hidden_long_help(self, yes: bool) -> Self { self.hide_long_help(yes) } /// Deprecated, replaced with [`Arg::setting`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::setting`") )] #[doc(hidden)] #[must_use] pub fn set(self, s: ArgSettings) -> Self { self.setting(s) } /// Deprecated, replaced with [`Arg::unset_setting`] #[cfg_attr( feature = "deprecated", deprecated(since = "3.0.0", note = "Replaced with `Arg::unset_setting`") )] #[doc(hidden)] #[must_use] pub fn unset(self, s: ArgSettings) -> Self { self.unset_setting(s) } } /// # Internally used only impl<'help> Arg<'help> { pub(crate) fn _build(&mut self) { if self.is_positional() { self.settings.set(ArgSettings::TakesValue); } if let Some(action) = self.action.as_ref() { if let Some(default_value) = action.default_value() { if self.default_vals.is_empty() { self.default_vals = vec![default_value]; } } if action.takes_values() { self.settings.set(ArgSettings::TakesValue); } else { self.settings.unset(ArgSettings::TakesValue); } match action { ArgAction::StoreValue | ArgAction::IncOccurrence | ArgAction::Help | ArgAction::Version => {} ArgAction::Set | ArgAction::Append | ArgAction::SetTrue | ArgAction::SetFalse | ArgAction::Count => { if !self.is_positional() { self.settings.set(ArgSettings::MultipleOccurrences); } } } } if self.value_parser.is_none() { if let Some(default) = self.action.as_ref().and_then(|a| a.default_value_parser()) { self.value_parser = Some(default); } else if self.is_allow_invalid_utf8_set() { self.value_parser = Some(super::ValueParser::os_string()); } else { self.value_parser = Some(super::ValueParser::string()); } } if (self.is_use_value_delimiter_set() || self.is_require_value_delimiter_set()) && self.val_delim.is_none() { self.val_delim = Some(','); } let val_names_len = self.val_names.len(); if val_names_len > 1 { self.settings.set(ArgSettings::MultipleValues); if self.num_vals.is_none() { self.num_vals = Some(val_names_len); } } let self_id = self.id.clone(); if self.is_positional() || self.is_multiple_occurrences_set() { // Remove self-overrides where they don't make sense. // // We can evaluate switching this to a debug assert at a later time (though it will // require changing propagation of `AllArgsOverrideSelf`). Being conservative for now // due to where we are at in the release. self.overrides.retain(|e| *e != self_id); } } pub(crate) fn generated(mut self) -> Self { self.provider = ArgProvider::Generated; self } pub(crate) fn longest_filter(&self) -> bool { self.is_takes_value_set() || self.long.is_some() || self.short.is_none() } // Used for positionals when printing pub(crate) fn multiple_str(&self) -> &str { let mult_vals = self.val_names.len() > 1; if (self.is_multiple_values_set() || self.is_multiple_occurrences_set()) && !mult_vals { "..." } else { "" } } // Used for positionals when printing pub(crate) fn name_no_brackets(&self) -> Cow { debug!("Arg::name_no_brackets:{}", self.name); let delim = if self.is_require_value_delimiter_set() { self.val_delim.expect(INTERNAL_ERROR_MSG) } else { ' ' } .to_string(); if !self.val_names.is_empty() { debug!("Arg::name_no_brackets: val_names={:#?}", self.val_names); if self.val_names.len() > 1 { Cow::Owned( self.val_names .iter() .map(|n| format!("<{}>", n)) .collect::>() .join(&*delim), ) } else { Cow::Borrowed(self.val_names.get(0).expect(INTERNAL_ERROR_MSG)) } } else { debug!("Arg::name_no_brackets: just name"); Cow::Borrowed(self.name) } } /// Either multiple values or occurrences pub(crate) fn is_multiple(&self) -> bool { self.is_multiple_values_set() | self.is_multiple_occurrences_set() } pub(crate) fn get_display_order(&self) -> usize { self.disp_ord.get_explicit() } } impl<'help> From<&'_ Arg<'help>> for Arg<'help> { fn from(a: &Arg<'help>) -> Self { a.clone() } } impl<'help> PartialEq for Arg<'help> { fn eq(&self, other: &Arg<'help>) -> bool { self.name == other.name } } impl<'help> PartialOrd for Arg<'help> { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl<'help> Ord for Arg<'help> { fn cmp(&self, other: &Arg) -> Ordering { self.name.cmp(other.name) } } impl<'help> Eq for Arg<'help> {} impl<'help> Display for Arg<'help> { fn fmt(&self, f: &mut Formatter) -> fmt::Result { // Write the name such --long or -l if let Some(l) = self.long { write!(f, "--{}", l)?; } else if let Some(s) = self.short { write!(f, "-{}", s)?; } let mut need_closing_bracket = false; if !self.is_positional() && self.is_takes_value_set() { let is_optional_val = self.min_vals == Some(0); let sep = if self.is_require_equals_set() { if is_optional_val { need_closing_bracket = true; "[=" } else { "=" } } else if is_optional_val { need_closing_bracket = true; " [" } else { " " }; f.write_str(sep)?; } if self.is_takes_value_set() || self.is_positional() { display_arg_val(self, |s, _| f.write_str(s))?; } if need_closing_bracket { f.write_str("]")?; } Ok(()) } } impl<'help> fmt::Debug for Arg<'help> { fn fmt(&self, f: &mut Formatter) -> Result<(), fmt::Error> { let mut ds = f.debug_struct("Arg"); #[allow(unused_mut)] let mut ds = ds .field("id", &self.id) .field("provider", &self.provider) .field("name", &self.name) .field("help", &self.help) .field("long_help", &self.long_help) .field("action", &self.action) .field("value_parser", &self.value_parser) .field("blacklist", &self.blacklist) .field("settings", &self.settings) .field("overrides", &self.overrides) .field("groups", &self.groups) .field("requires", &self.requires) .field("r_ifs", &self.r_ifs) .field("r_unless", &self.r_unless) .field("short", &self.short) .field("long", &self.long) .field("aliases", &self.aliases) .field("short_aliases", &self.short_aliases) .field("disp_ord", &self.disp_ord) .field("possible_vals", &self.possible_vals) .field("val_names", &self.val_names) .field("num_vals", &self.num_vals) .field("max_vals", &self.max_vals) .field("min_vals", &self.min_vals) .field( "validator", &self.validator.as_ref().map_or("None", |_| "Some(FnMut)"), ) .field( "validator_os", &self.validator_os.as_ref().map_or("None", |_| "Some(FnMut)"), ) .field("val_delim", &self.val_delim) .field("default_vals", &self.default_vals) .field("default_vals_ifs", &self.default_vals_ifs) .field("terminator", &self.terminator) .field("index", &self.index) .field("help_heading", &self.help_heading) .field("value_hint", &self.value_hint) .field("default_missing_vals", &self.default_missing_vals); #[cfg(feature = "env")] { ds = ds.field("env", &self.env); } ds.finish() } } type Validator<'a> = dyn FnMut(&str) -> Result<(), Box> + Send + 'a; type ValidatorOs<'a> = dyn FnMut(&OsStr) -> Result<(), Box> + Send + 'a; #[derive(Debug, Clone, Eq, PartialEq)] pub(crate) enum ArgProvider { Generated, GeneratedMutated, User, } impl Default for ArgProvider { fn default() -> Self { ArgProvider::User } } /// Write the values such as pub(crate) fn display_arg_val(arg: &Arg, mut write: F) -> Result<(), E> where F: FnMut(&str, bool) -> Result, { let mult_val = arg.is_multiple_values_set(); let mult_occ = arg.is_multiple_occurrences_set(); let delim = if arg.is_require_value_delimiter_set() { arg.val_delim.expect(INTERNAL_ERROR_MSG) } else { ' ' } .to_string(); if !arg.val_names.is_empty() { // If have val_name. match (arg.val_names.len(), arg.num_vals) { (1, Some(num_vals)) => { // If single value name with multiple num_of_vals, display all // the values with the single value name. let arg_name = format!("<{}>", arg.val_names.get(0).unwrap()); for n in 1..=num_vals { write(&arg_name, true)?; if n != num_vals { write(&delim, false)?; } } } (num_val_names, _) => { // If multiple value names, display them sequentially(ignore num of vals). let mut it = arg.val_names.iter().peekable(); while let Some(val) = it.next() { write(&format!("<{}>", val), true)?; if it.peek().is_some() { write(&delim, false)?; } } if (num_val_names == 1 && mult_val) || (arg.is_positional() && mult_occ) || num_val_names < arg.num_vals.unwrap_or(0) { write("...", true)?; } } } } else if let Some(num_vals) = arg.num_vals { // If number_of_values is specified, display the value multiple times. let arg_name = format!("<{}>", arg.name); for n in 1..=num_vals { write(&arg_name, true)?; if n != num_vals { write(&delim, false)?; } } } else if arg.is_positional() { // Value of positional argument with no num_vals and val_names. write(&format!("<{}>", arg.name), true)?; if mult_val || mult_occ { write("...", true)?; } } else { // value of flag argument with no num_vals and val_names. write(&format!("<{}>", arg.name), true)?; if mult_val { write("...", true)?; } } Ok(()) } #[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord)] pub(crate) enum DisplayOrder { None, Implicit(usize), Explicit(usize), } impl DisplayOrder { pub(crate) fn set_explicit(&mut self, explicit: usize) { *self = Self::Explicit(explicit) } pub(crate) fn set_implicit(&mut self, implicit: usize) { *self = (*self).max(Self::Implicit(implicit)) } pub(crate) fn make_explicit(&mut self) { match *self { Self::None | Self::Explicit(_) => {} Self::Implicit(disp) => self.set_explicit(disp), } } pub(crate) fn get_explicit(self) -> usize { match self { Self::None | Self::Implicit(_) => 999, Self::Explicit(disp) => disp, } } } impl Default for DisplayOrder { fn default() -> Self { Self::None } } // Flags #[cfg(test)] mod test { use super::Arg; #[test] fn flag_display() { let mut f = Arg::new("flg").multiple_occurrences(true); f.long = Some("flag"); assert_eq!(f.to_string(), "--flag"); let mut f2 = Arg::new("flg"); f2.short = Some('f'); assert_eq!(f2.to_string(), "-f"); } #[test] fn flag_display_single_alias() { let mut f = Arg::new("flg"); f.long = Some("flag"); f.aliases = vec![("als", true)]; assert_eq!(f.to_string(), "--flag") } #[test] fn flag_display_multiple_aliases() { let mut f = Arg::new("flg"); f.short = Some('f'); f.aliases = vec![ ("alias_not_visible", false), ("f2", true), ("f3", true), ("f4", true), ]; assert_eq!(f.to_string(), "-f"); } #[test] fn flag_display_single_short_alias() { let mut f = Arg::new("flg"); f.short = Some('a'); f.short_aliases = vec![('b', true)]; assert_eq!(f.to_string(), "-a") } #[test] fn flag_display_multiple_short_aliases() { let mut f = Arg::new("flg"); f.short = Some('a'); f.short_aliases = vec![('b', false), ('c', true), ('d', true), ('e', true)]; assert_eq!(f.to_string(), "-a"); } // Options #[test] fn option_display_multiple_occurrences() { let o = Arg::new("opt") .long("option") .takes_value(true) .multiple_occurrences(true); assert_eq!(o.to_string(), "--option "); } #[test] fn option_display_multiple_values() { let o = Arg::new("opt") .long("option") .takes_value(true) .multiple_values(true); assert_eq!(o.to_string(), "--option ..."); } #[test] fn option_display2() { let o2 = Arg::new("opt").short('o').value_names(&["file", "name"]); assert_eq!(o2.to_string(), "-o "); } #[test] fn option_display3() { let o2 = Arg::new("opt") .short('o') .takes_value(true) .multiple_values(true) .value_names(&["file", "name"]); assert_eq!(o2.to_string(), "-o "); } #[test] fn option_display_single_alias() { let o = Arg::new("opt") .takes_value(true) .long("option") .visible_alias("als"); assert_eq!(o.to_string(), "--option "); } #[test] fn option_display_multiple_aliases() { let o = Arg::new("opt") .long("option") .takes_value(true) .visible_aliases(&["als2", "als3", "als4"]) .alias("als_not_visible"); assert_eq!(o.to_string(), "--option "); } #[test] fn option_display_single_short_alias() { let o = Arg::new("opt") .takes_value(true) .short('a') .visible_short_alias('b'); assert_eq!(o.to_string(), "-a "); } #[test] fn option_display_multiple_short_aliases() { let o = Arg::new("opt") .short('a') .takes_value(true) .visible_short_aliases(&['b', 'c', 'd']) .short_alias('e'); assert_eq!(o.to_string(), "-a "); } // Positionals #[test] fn positional_display_multiple_values() { let p = Arg::new("pos") .index(1) .takes_value(true) .multiple_values(true); assert_eq!(p.to_string(), "..."); } #[test] fn positional_display_multiple_occurrences() { let p = Arg::new("pos") .index(1) .takes_value(true) .multiple_occurrences(true); assert_eq!(p.to_string(), "..."); } #[test] fn positional_display_required() { let p2 = Arg::new("pos").index(1).required(true); assert_eq!(p2.to_string(), ""); } #[test] fn positional_display_val_names() { let p2 = Arg::new("pos").index(1).value_names(&["file1", "file2"]); assert_eq!(p2.to_string(), " "); } #[test] fn positional_display_val_names_req() { let p2 = Arg::new("pos") .index(1) .required(true) .value_names(&["file1", "file2"]); assert_eq!(p2.to_string(), " "); } }