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// Std
use std::any::Any;
use std::ffi::{OsStr, OsString};
use std::fmt::Debug;
use std::iter::{Cloned, Flatten, Map};
use std::slice::Iter;
// Internal
#[cfg(debug_assertions)]
use crate::builder::Str;
use crate::parser::MatchedArg;
use crate::parser::MatchesError;
use crate::parser::ValueSource;
use crate::util::AnyValue;
use crate::util::AnyValueId;
use crate::util::FlatMap;
use crate::util::Id;
use crate::INTERNAL_ERROR_MSG;
/// Container for parse results.
///
/// Used to get information about the arguments that were supplied to the program at runtime by
/// the user. New instances of this struct are obtained by using the [`Command::get_matches`] family of
/// methods.
///
/// # Examples
///
/// ```no_run
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// # use clap::parser::ValueSource;
/// let matches = Command::new("MyApp")
/// .arg(Arg::new("out")
/// .long("output")
/// .required(true)
/// .action(ArgAction::Set)
/// .default_value("-"))
/// .arg(Arg::new("cfg")
/// .short('c')
/// .action(ArgAction::Set))
/// .get_matches(); // builds the instance of ArgMatches
///
/// // to get information about the "cfg" argument we created, such as the value supplied we use
/// // various ArgMatches methods, such as [ArgMatches::get_one]
/// if let Some(c) = matches.get_one::<String>("cfg") {
/// println!("Value for -c: {c}");
/// }
///
/// // The ArgMatches::get_one method returns an Option because the user may not have supplied
/// // that argument at runtime. But if we specified that the argument was "required" as we did
/// // with the "out" argument, we can safely unwrap because `clap` verifies that was actually
/// // used at runtime.
/// println!("Value for --output: {}", matches.get_one::<String>("out").unwrap());
///
/// // You can check the presence of an argument's values
/// if matches.contains_id("out") {
/// // However, if you want to know where the value came from
/// if matches.value_source("out").expect("checked contains_id") == ValueSource::CommandLine {
/// println!("`out` set by user");
/// } else {
/// println!("`out` is defaulted");
/// }
/// }
/// ```
/// [`Command::get_matches`]: crate::Command::get_matches()
#[derive(Debug, Clone, Default, PartialEq, Eq)]
pub struct ArgMatches {
#[cfg(debug_assertions)]
pub(crate) valid_args: Vec<Id>,
#[cfg(debug_assertions)]
pub(crate) valid_subcommands: Vec<Str>,
pub(crate) args: FlatMap<Id, MatchedArg>,
pub(crate) subcommand: Option<Box<SubCommand>>,
}
/// # Arguments
impl ArgMatches {
/// Gets the value of a specific option or positional argument.
///
/// i.e. an argument that [takes an additional value][crate::Arg::num_args] at runtime.
///
/// Returns an error if the wrong type was used.
///
/// Returns `None` if the option wasn't present.
///
/// <div class="warning">
///
/// *NOTE:* This will always return `Some(value)` if [`default_value`] has been set.
/// [`ArgMatches::value_source`] can be used to check if a value is present at runtime.
///
/// </div>
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_get_one`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, value_parser, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("port")
/// .value_parser(value_parser!(usize))
/// .action(ArgAction::Set)
/// .required(true))
/// .get_matches_from(vec!["myapp", "2020"]);
///
/// let port: usize = *m
/// .get_one("port")
/// .expect("`port`is required");
/// assert_eq!(port, 2020);
/// ```
/// [positional]: crate::Arg::index()
/// [`default_value`]: crate::Arg::default_value()
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_one<T: Any + Clone + Send + Sync + 'static>(&self, id: &str) -> Option<&T> {
MatchesError::unwrap(id, self.try_get_one(id))
}
/// Gets the value of a specific [`ArgAction::Count`][crate::ArgAction::Count] flag
///
/// # Panic
///
/// If the argument's action is not [`ArgAction::Count`][crate::ArgAction::Count]
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::Command;
/// # use clap::Arg;
/// let cmd = Command::new("mycmd")
/// .arg(
/// Arg::new("flag")
/// .long("flag")
/// .action(clap::ArgAction::Count)
/// );
///
/// let matches = cmd.clone().try_get_matches_from(["mycmd", "--flag", "--flag"]).unwrap();
/// assert_eq!(
/// matches.get_count("flag"),
/// 2
/// );
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_count(&self, id: &str) -> u8 {
*self.get_one::<u8>(id).unwrap_or_else(|| {
panic!("arg `{id}`'s `ArgAction` should be `Count` which should provide a default")
})
}
/// Gets the value of a specific [`ArgAction::SetTrue`][crate::ArgAction::SetTrue] or [`ArgAction::SetFalse`][crate::ArgAction::SetFalse] flag
///
/// # Panic
///
/// If the argument's action is not [`ArgAction::SetTrue`][crate::ArgAction::SetTrue] or [`ArgAction::SetFalse`][crate::ArgAction::SetFalse]
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::Command;
/// # use clap::Arg;
/// let cmd = Command::new("mycmd")
/// .arg(
/// Arg::new("flag")
/// .long("flag")
/// .action(clap::ArgAction::SetTrue)
/// );
///
/// let matches = cmd.clone().try_get_matches_from(["mycmd", "--flag"]).unwrap();
/// assert!(matches.contains_id("flag"));
/// assert_eq!(
/// matches.get_flag("flag"),
/// true
/// );
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_flag(&self, id: &str) -> bool {
*self
.get_one::<bool>(id)
.unwrap_or_else(|| {
panic!(
"arg `{id}`'s `ArgAction` should be one of `SetTrue`, `SetFalse` which should provide a default"
)
})
}
/// Iterate over values of a specific option or positional argument.
///
/// i.e. an argument that takes multiple values at runtime.
///
/// Returns an error if the wrong type was used.
///
/// Returns `None` if the option wasn't present.
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_get_many`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, value_parser, ArgAction};
/// let m = Command::new("myprog")
/// .arg(Arg::new("ports")
/// .action(ArgAction::Append)
/// .value_parser(value_parser!(usize))
/// .short('p')
/// .required(true))
/// .get_matches_from(vec![
/// "myprog", "-p", "22", "-p", "80", "-p", "2020"
/// ]);
/// let vals: Vec<usize> = m.get_many("ports")
/// .expect("`port`is required")
/// .copied()
/// .collect();
/// assert_eq!(vals, [22, 80, 2020]);
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_many<T: Any + Clone + Send + Sync + 'static>(
&self,
id: &str,
) -> Option<ValuesRef<'_, T>> {
MatchesError::unwrap(id, self.try_get_many(id))
}
/// Iterate over the values passed to each occurrence of an option.
///
/// Each item is itself an iterator containing the arguments passed to a single occurrence
/// of the option.
///
/// If the option doesn't support multiple occurrences, or there was only a single occurrence,
/// the iterator will only contain a single item.
///
/// Returns `None` if the option wasn't present.
///
/// # Panics
///
/// If the argument definition and access mismatch (debug builds). To handle this case programmatically, see
/// [`ArgMatches::try_get_occurrences`].
///
/// # Examples
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command,Arg, ArgAction, value_parser};
/// let m = Command::new("myprog")
/// .arg(Arg::new("x")
/// .short('x')
/// .num_args(2)
/// .action(ArgAction::Append)
/// .value_parser(value_parser!(String)))
/// .get_matches_from(vec![
/// "myprog", "-x", "a", "b", "-x", "c", "d"]);
/// let vals: Vec<Vec<&String>> = m.get_occurrences("x").unwrap().map(Iterator::collect).collect();
/// assert_eq!(vals, [["a", "b"], ["c", "d"]]);
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_occurrences<T: Any + Clone + Send + Sync + 'static>(
&self,
id: &str,
) -> Option<OccurrencesRef<'_, T>> {
MatchesError::unwrap(id, self.try_get_occurrences(id))
}
/// Iterate over the original argument values.
///
/// An `OsStr` on Unix-like systems is any series of bytes, regardless of whether or not they
/// contain valid UTF-8. Since [`String`]s in Rust are guaranteed to be valid UTF-8, a valid
/// filename on a Unix system as an argument value may contain invalid UTF-8.
///
/// Returns `None` if the option wasn't present.
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_get_raw`].
///
/// # Examples
///
/// ```rust
/// # #[cfg(unix)] {
/// # use clap_builder as clap;
/// # use clap::{Command, arg, value_parser};
/// # use std::ffi::{OsStr,OsString};
/// # use std::os::unix::ffi::{OsStrExt,OsStringExt};
/// use std::path::PathBuf;
///
/// let m = Command::new("utf8")
/// .arg(arg!(<arg> ... "some arg").value_parser(value_parser!(PathBuf)))
/// .get_matches_from(vec![OsString::from("myprog"),
/// // "Hi"
/// OsString::from_vec(vec![b'H', b'i']),
/// // "{0xe9}!"
/// OsString::from_vec(vec![0xe9, b'!'])]);
///
/// let mut itr = m.get_raw("arg")
/// .expect("`port`is required")
/// .into_iter();
/// assert_eq!(itr.next(), Some(OsStr::new("Hi")));
/// assert_eq!(itr.next(), Some(OsStr::from_bytes(&[0xe9, b'!'])));
/// assert_eq!(itr.next(), None);
/// # }
/// ```
/// [`Iterator`]: std::iter::Iterator
/// [`OsSt`]: std::ffi::OsStr
/// [values]: OsValues
/// [`String`]: std::string::String
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_raw(&self, id: &str) -> Option<RawValues<'_>> {
MatchesError::unwrap(id, self.try_get_raw(id))
}
/// Iterate over the original values for each occurrence of an option.
///
/// Similar to [`ArgMatches::get_occurrences`] but returns raw values.
///
/// An `OsStr` on Unix-like systems is any series of bytes, regardless of whether or not they
/// contain valid UTF-8. Since [`String`]s in Rust are guaranteed to be valid UTF-8, a valid
/// filename on a Unix system as an argument value may contain invalid UTF-8.
///
/// Returns `None` if the option wasn't present.
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_get_raw_occurrences`].
///
/// # Examples
///
/// ```rust
/// # #[cfg(unix)] {
/// # use clap_builder as clap;
/// # use clap::{Command, arg, value_parser, ArgAction, Arg};
/// # use std::ffi::{OsStr,OsString};
/// # use std::os::unix::ffi::{OsStrExt,OsStringExt};
/// use std::path::PathBuf;
///
/// let m = Command::new("myprog")
/// .arg(Arg::new("x")
/// .short('x')
/// .num_args(2)
/// .action(ArgAction::Append)
/// .value_parser(value_parser!(PathBuf)))
/// .get_matches_from(vec![OsString::from("myprog"),
/// OsString::from("-x"),
/// OsString::from("a"), OsString::from("b"),
/// OsString::from("-x"),
/// OsString::from("c"),
/// // "{0xe9}!"
/// OsString::from_vec(vec![0xe9, b'!'])]);
/// let mut itr = m.get_raw_occurrences("x")
/// .expect("`-x`is required")
/// .map(Iterator::collect::<Vec<_>>);
/// assert_eq!(itr.next(), Some(vec![OsStr::new("a"), OsStr::new("b")]));
/// assert_eq!(itr.next(), Some(vec![OsStr::new("c"), OsStr::from_bytes(&[0xe9, b'!'])]));
/// assert_eq!(itr.next(), None);
/// # }
/// ```
/// [`Iterator`]: std::iter::Iterator
/// [`OsStr`]: std::ffi::OsStr
/// [values]: OsValues
/// [`String`]: std::string::String
#[cfg_attr(debug_assertions, track_caller)]
pub fn get_raw_occurrences(&self, id: &str) -> Option<RawOccurrences<'_>> {
MatchesError::unwrap(id, self.try_get_raw_occurrences(id))
}
/// Returns the value of a specific option or positional argument.
///
/// i.e. an argument that [takes an additional value][crate::Arg::num_args] at runtime.
///
/// Returns an error if the wrong type was used. No item will have been removed.
///
/// Returns `None` if the option wasn't present.
///
/// <div class="warning">
///
/// *NOTE:* This will always return `Some(value)` if [`default_value`] has been set.
/// [`ArgMatches::value_source`] can be used to check if a value is present at runtime.
///
/// </div>
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_remove_one`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, value_parser, ArgAction};
/// let mut m = Command::new("myprog")
/// .arg(Arg::new("file")
/// .required(true)
/// .action(ArgAction::Set))
/// .get_matches_from(vec![
/// "myprog", "file.txt",
/// ]);
/// let vals: String = m.remove_one("file")
/// .expect("`file`is required");
/// assert_eq!(vals, "file.txt");
/// ```
/// [positional]: crate::Arg::index()
/// [`default_value`]: crate::Arg::default_value()
#[cfg_attr(debug_assertions, track_caller)]
pub fn remove_one<T: Any + Clone + Send + Sync + 'static>(&mut self, id: &str) -> Option<T> {
MatchesError::unwrap(id, self.try_remove_one(id))
}
/// Return values of a specific option or positional argument.
///
/// i.e. an argument that takes multiple values at runtime.
///
/// Returns an error if the wrong type was used. No item will have been removed.
///
/// Returns `None` if the option wasn't present.
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_remove_many`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, value_parser, ArgAction};
/// let mut m = Command::new("myprog")
/// .arg(Arg::new("file")
/// .action(ArgAction::Append)
/// .num_args(1..)
/// .required(true))
/// .get_matches_from(vec![
/// "myprog", "file1.txt", "file2.txt", "file3.txt", "file4.txt",
/// ]);
/// let vals: Vec<String> = m.remove_many("file")
/// .expect("`file`is required")
/// .collect();
/// assert_eq!(vals, ["file1.txt", "file2.txt", "file3.txt", "file4.txt"]);
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn remove_many<T: Any + Clone + Send + Sync + 'static>(
&mut self,
id: &str,
) -> Option<Values<T>> {
MatchesError::unwrap(id, self.try_remove_many(id))
}
/// Return values for each occurrence of an option.
///
/// Each item is itself an iterator containing the arguments passed to a single occurrence of
/// the option.
///
/// If the option doesn't support multiple occurrences, or there was only a single occurrence,
/// the iterator will only contain a single item.
///
/// Returns `None` if the option wasn't present.
///
/// # Panic
///
/// If the argument definition and access mismatch. To handle this case programmatically, see
/// [`ArgMatches::try_remove_occurrences`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, value_parser, ArgAction};
/// let mut m = Command::new("myprog")
/// .arg(Arg::new("x")
/// .short('x')
/// .num_args(2)
/// .action(ArgAction::Append)
/// .value_parser(value_parser!(String)))
/// .get_matches_from(vec![
/// "myprog", "-x", "a", "b", "-x", "c", "d"]);
/// let vals: Vec<Vec<String>> = m.remove_occurrences("x").unwrap().map(Iterator::collect).collect();
/// assert_eq!(vals, [["a", "b"], ["c", "d"]]);
/// ```
#[cfg_attr(debug_assertions, track_caller)]
pub fn remove_occurrences<T: Any + Clone + Send + Sync + 'static>(
&mut self,
id: &str,
) -> Option<Occurrences<T>> {
MatchesError::unwrap(id, self.try_remove_occurrences(id))
}
/// Check if values are present for the argument or group id
///
/// <div class="warning">
///
/// *NOTE:* This will always return `true` if [`default_value`] has been set.
/// [`ArgMatches::value_source`] can be used to check if a value is present at runtime.
///
/// </div>
///
/// # Panics
///
/// If `id` is not a valid argument or group name (debug builds). To handle this case programmatically, see
/// [`ArgMatches::try_contains_id`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myprog")
/// .arg(Arg::new("debug")
/// .short('d')
/// .action(ArgAction::SetTrue))
/// .get_matches_from(vec![
/// "myprog", "-d"
/// ]);
///
/// assert!(m.contains_id("debug"));
/// ```
///
/// [`default_value`]: crate::Arg::default_value()
pub fn contains_id(&self, id: &str) -> bool {
MatchesError::unwrap(id, self.try_contains_id(id))
}
/// Iterate over [`Arg`][crate::Arg] and [`ArgGroup`][crate::ArgGroup] [`Id`]s via [`ArgMatches::ids`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, arg, value_parser};
///
/// let m = Command::new("myprog")
/// .arg(arg!(--color <when>)
/// .value_parser(["auto", "always", "never"]))
/// .arg(arg!(--config <path>)
/// .value_parser(value_parser!(std::path::PathBuf)))
/// .get_matches_from(["myprog", "--config=config.toml", "--color=auto"]);
/// assert_eq!(m.ids().len(), 2);
/// assert_eq!(
/// m.ids()
/// .map(|id| id.as_str())
/// .collect::<Vec<_>>(),
/// ["config", "color"]
/// );
/// ```
pub fn ids(&self) -> IdsRef<'_> {
IdsRef {
iter: self.args.keys(),
}
}
/// Check if any args were present on the command line
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let mut cmd = Command::new("myapp")
/// .arg(Arg::new("output")
/// .action(ArgAction::Set));
///
/// let m = cmd
/// .try_get_matches_from_mut(vec!["myapp", "something"])
/// .unwrap();
/// assert!(m.args_present());
///
/// let m = cmd
/// .try_get_matches_from_mut(vec!["myapp"])
/// .unwrap();
/// assert!(! m.args_present());
pub fn args_present(&self) -> bool {
!self.args.is_empty()
}
/// Report where argument value came from
///
/// # Panics
///
/// If `id` is not a valid argument or group id (debug builds).
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// # use clap::parser::ValueSource;
/// let m = Command::new("myprog")
/// .arg(Arg::new("debug")
/// .short('d')
/// .action(ArgAction::SetTrue))
/// .get_matches_from(vec![
/// "myprog", "-d"
/// ]);
///
/// assert_eq!(m.value_source("debug"), Some(ValueSource::CommandLine));
/// ```
///
/// [`default_value`]: crate::Arg::default_value()
#[cfg_attr(debug_assertions, track_caller)]
pub fn value_source(&self, id: &str) -> Option<ValueSource> {
let value = self.get_arg(id);
value.and_then(MatchedArg::source)
}
/// The first index of that an argument showed up.
///
/// Indices are similar to argv indices, but are not exactly 1:1.
///
/// For flags (i.e. those arguments which don't have an associated value), indices refer
/// to occurrence of the switch, such as `-f`, or `--flag`. However, for options the indices
/// refer to the *values* `-o val` would therefore not represent two distinct indices, only the
/// index for `val` would be recorded. This is by design.
///
/// Besides the flag/option discrepancy, the primary difference between an argv index and clap
/// index, is that clap continues counting once all arguments have properly separated, whereas
/// an argv index does not.
///
/// The examples should clear this up.
///
/// <div class="warning">
///
/// *NOTE:* If an argument is allowed multiple times, this method will only give the *first*
/// index. See [`ArgMatches::indices_of`].
///
/// </div>
///
/// # Panics
///
/// If `id` is not a valid argument or group id (debug builds).
///
/// # Examples
///
/// The argv indices are listed in the comments below. See how they correspond to the clap
/// indices. Note that if it's not listed in a clap index, this is because it's not saved in
/// in an `ArgMatches` struct for querying.
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("flag")
/// .short('f')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set))
/// .get_matches_from(vec!["myapp", "-f", "-o", "val"]);
/// // ARGV indices: ^0 ^1 ^2 ^3
/// // clap indices: ^1 ^3
///
/// assert_eq!(m.index_of("flag"), Some(1));
/// assert_eq!(m.index_of("option"), Some(3));
/// ```
///
/// Now notice, if we use one of the other styles of options:
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("flag")
/// .short('f')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set))
/// .get_matches_from(vec!["myapp", "-f", "-o=val"]);
/// // ARGV indices: ^0 ^1 ^2
/// // clap indices: ^1 ^3
///
/// assert_eq!(m.index_of("flag"), Some(1));
/// assert_eq!(m.index_of("option"), Some(3));
/// ```
///
/// Things become much more complicated, or clear if we look at a more complex combination of
/// flags. Let's also throw in the final option style for good measure.
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("flag")
/// .short('f')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("flag2")
/// .short('F')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("flag3")
/// .short('z')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set))
/// .get_matches_from(vec!["myapp", "-fzF", "-oval"]);
/// // ARGV indices: ^0 ^1 ^2
/// // clap indices: ^1,2,3 ^5
/// //
/// // clap sees the above as 'myapp -f -z -F -o val'
/// // ^0 ^1 ^2 ^3 ^4 ^5
/// assert_eq!(m.index_of("flag"), Some(1));
/// assert_eq!(m.index_of("flag2"), Some(3));
/// assert_eq!(m.index_of("flag3"), Some(2));
/// assert_eq!(m.index_of("option"), Some(5));
/// ```
///
/// One final combination of flags/options to see how they combine:
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("flag")
/// .short('f')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("flag2")
/// .short('F')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("flag3")
/// .short('z')
/// .action(ArgAction::SetTrue))
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set))
/// .get_matches_from(vec!["myapp", "-fzFoval"]);
/// // ARGV indices: ^0 ^1
/// // clap indices: ^1,2,3^5
/// //
/// // clap sees the above as 'myapp -f -z -F -o val'
/// // ^0 ^1 ^2 ^3 ^4 ^5
/// assert_eq!(m.index_of("flag"), Some(1));
/// assert_eq!(m.index_of("flag2"), Some(3));
/// assert_eq!(m.index_of("flag3"), Some(2));
/// assert_eq!(m.index_of("option"), Some(5));
/// ```
///
/// The last part to mention is when values are sent in multiple groups with a [delimiter].
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg};
/// let m = Command::new("myapp")
/// .arg(Arg::new("option")
/// .short('o')
/// .value_delimiter(',')
/// .num_args(1..))
/// .get_matches_from(vec!["myapp", "-o=val1,val2,val3"]);
/// // ARGV indices: ^0 ^1
/// // clap indices: ^2 ^3 ^4
/// //
/// // clap sees the above as 'myapp -o val1 val2 val3'
/// // ^0 ^1 ^2 ^3 ^4
/// assert_eq!(m.index_of("option"), Some(2));
/// assert_eq!(m.indices_of("option").unwrap().collect::<Vec<_>>(), &[2, 3, 4]);
/// ```
/// [delimiter]: crate::Arg::value_delimiter()
#[cfg_attr(debug_assertions, track_caller)]
pub fn index_of(&self, id: &str) -> Option<usize> {
let arg = some!(self.get_arg(id));
let i = some!(arg.get_index(0));
Some(i)
}
/// All indices an argument appeared at when parsing.
///
/// Indices are similar to argv indices, but are not exactly 1:1.
///
/// For flags (i.e. those arguments which don't have an associated value), indices refer
/// to occurrence of the switch, such as `-f`, or `--flag`. However, for options the indices
/// refer to the *values* `-o val` would therefore not represent two distinct indices, only the
/// index for `val` would be recorded. This is by design.
///
/// <div class="warning">
///
/// *NOTE:* For more information about how clap indices compared to argv indices, see
/// [`ArgMatches::index_of`]
///
/// </div>
///
/// # Panics
///
/// If `id` is not a valid argument or group id (debug builds).
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg};
/// let m = Command::new("myapp")
/// .arg(Arg::new("option")
/// .short('o')
/// .value_delimiter(','))
/// .get_matches_from(vec!["myapp", "-o=val1,val2,val3"]);
/// // ARGV indices: ^0 ^1
/// // clap indices: ^2 ^3 ^4
/// //
/// // clap sees the above as 'myapp -o val1 val2 val3'
/// // ^0 ^1 ^2 ^3 ^4
/// assert_eq!(m.indices_of("option").unwrap().collect::<Vec<_>>(), &[2, 3, 4]);
/// ```
///
/// Another quick example is when flags and options are used together
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set)
/// .action(ArgAction::Append))
/// .arg(Arg::new("flag")
/// .short('f')
/// .action(ArgAction::Count))
/// .get_matches_from(vec!["myapp", "-o", "val1", "-f", "-o", "val2", "-f"]);
/// // ARGV indices: ^0 ^1 ^2 ^3 ^4 ^5 ^6
/// // clap indices: ^2 ^3 ^5 ^6
///
/// assert_eq!(m.indices_of("option").unwrap().collect::<Vec<_>>(), &[2, 5]);
/// assert_eq!(m.indices_of("flag").unwrap().collect::<Vec<_>>(), &[6]);
/// ```
///
/// One final example, which is an odd case; if we *don't* use value delimiter as we did with
/// the first example above instead of `val1`, `val2` and `val3` all being distinc values, they
/// would all be a single value of `val1,val2,val3`, in which case they'd only receive a single
/// index.
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("option")
/// .short('o')
/// .action(ArgAction::Set)
/// .num_args(1..))
/// .get_matches_from(vec!["myapp", "-o=val1,val2,val3"]);
/// // ARGV indices: ^0 ^1
/// // clap indices: ^2
/// //
/// // clap sees the above as 'myapp -o "val1,val2,val3"'
/// // ^0 ^1 ^2
/// assert_eq!(m.indices_of("option").unwrap().collect::<Vec<_>>(), &[2]);
/// ```
/// [`ArgMatches::index_of`]: ArgMatches::index_of()
/// [delimiter]: Arg::value_delimiter()
#[cfg_attr(debug_assertions, track_caller)]
pub fn indices_of(&self, id: &str) -> Option<Indices<'_>> {
let arg = some!(self.get_arg(id));
let i = Indices {
iter: arg.indices(),
len: arg.num_vals(),
};
Some(i)
}
}
/// # Subcommands
impl ArgMatches {
/// The name and `ArgMatches` of the current [subcommand].
///
/// Subcommand values are put in a child [`ArgMatches`]
///
/// Returns `None` if the subcommand wasn't present at runtime,
///
/// # Examples
///
/// ```no_run
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, };
/// let app_m = Command::new("git")
/// .subcommand(Command::new("clone"))
/// .subcommand(Command::new("push"))
/// .subcommand(Command::new("commit"))
/// .get_matches();
///
/// match app_m.subcommand() {
/// Some(("clone", sub_m)) => {}, // clone was used
/// Some(("push", sub_m)) => {}, // push was used
/// Some(("commit", sub_m)) => {}, // commit was used
/// _ => {}, // Either no subcommand or one not tested for...
/// }
/// ```
///
/// Another useful scenario is when you want to support third party, or external, subcommands.
/// In these cases you can't know the subcommand name ahead of time, so use a variable instead
/// with pattern matching!
///
/// ```rust
/// # use clap_builder as clap;
/// # use std::ffi::OsString;
/// # use std::ffi::OsStr;
/// # use clap::Command;
/// // Assume there is an external subcommand named "subcmd"
/// let app_m = Command::new("myprog")
/// .allow_external_subcommands(true)
/// .get_matches_from(vec![
/// "myprog", "subcmd", "--option", "value", "-fff", "--flag"
/// ]);
///
/// // All trailing arguments will be stored under the subcommand's sub-matches using an empty
/// // string argument name
/// match app_m.subcommand() {
/// Some((external, sub_m)) => {
/// let ext_args: Vec<&OsStr> = sub_m.get_many::<OsString>("")
/// .unwrap().map(|s| s.as_os_str()).collect();
/// assert_eq!(external, "subcmd");
/// assert_eq!(ext_args, ["--option", "value", "-fff", "--flag"]);
/// },
/// _ => {},
/// }
/// ```
/// [subcommand]: crate::Command::subcommand
#[inline]
pub fn subcommand(&self) -> Option<(&str, &ArgMatches)> {
self.subcommand.as_ref().map(|sc| (&*sc.name, &sc.matches))
}
/// Return the name and `ArgMatches` of the current [subcommand].
///
/// Subcommand values are put in a child [`ArgMatches`]
///
/// Returns `None` if the subcommand wasn't present at runtime,
///
/// # Examples
///
/// ```no_run
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, };
/// let mut app_m = Command::new("git")
/// .subcommand(Command::new("clone"))
/// .subcommand(Command::new("push"))
/// .subcommand(Command::new("commit"))
/// .subcommand_required(true)
/// .get_matches();
///
/// let (name, sub_m) = app_m.remove_subcommand().expect("required");
/// match (name.as_str(), sub_m) {
/// ("clone", sub_m) => {}, // clone was used
/// ("push", sub_m) => {}, // push was used
/// ("commit", sub_m) => {}, // commit was used
/// (name, _) => unimplemented!("{name}"),
/// }
/// ```
///
/// Another useful scenario is when you want to support third party, or external, subcommands.
/// In these cases you can't know the subcommand name ahead of time, so use a variable instead
/// with pattern matching!
///
/// ```rust
/// # use clap_builder as clap;
/// # use std::ffi::OsString;
/// # use clap::Command;
/// // Assume there is an external subcommand named "subcmd"
/// let mut app_m = Command::new("myprog")
/// .allow_external_subcommands(true)
/// .get_matches_from(vec![
/// "myprog", "subcmd", "--option", "value", "-fff", "--flag"
/// ]);
///
/// // All trailing arguments will be stored under the subcommand's sub-matches using an empty
/// // string argument name
/// match app_m.remove_subcommand() {
/// Some((external, mut sub_m)) => {
/// let ext_args: Vec<OsString> = sub_m.remove_many("")
/// .expect("`file`is required")
/// .collect();
/// assert_eq!(external, "subcmd");
/// assert_eq!(ext_args, ["--option", "value", "-fff", "--flag"]);
/// },
/// _ => {},
/// }
/// ```
/// [subcommand]: crate::Command::subcommand
pub fn remove_subcommand(&mut self) -> Option<(String, ArgMatches)> {
self.subcommand.take().map(|sc| (sc.name, sc.matches))
}
/// The `ArgMatches` for the current [subcommand].
///
/// Subcommand values are put in a child [`ArgMatches`]
///
/// Returns `None` if the subcommand wasn't present at runtime,
///
/// # Panics
///
/// If `id` is not a valid subcommand (debug builds).
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let app_m = Command::new("myprog")
/// .arg(Arg::new("debug")
/// .short('d')
/// .action(ArgAction::SetTrue)
/// )
/// .subcommand(Command::new("test")
/// .arg(Arg::new("opt")
/// .long("option")
/// .action(ArgAction::Set)))
/// .get_matches_from(vec![
/// "myprog", "-d", "test", "--option", "val"
/// ]);
///
/// // Both parent commands, and child subcommands can have arguments present at the same times
/// assert!(app_m.get_flag("debug"));
///
/// // Get the subcommand's ArgMatches instance
/// if let Some(sub_m) = app_m.subcommand_matches("test") {
/// // Use the struct like normal
/// assert_eq!(sub_m.get_one::<String>("opt").map(|s| s.as_str()), Some("val"));
/// }
/// ```
///
/// [subcommand]: crate::Command::subcommand
/// [`Command`]: crate::Command
pub fn subcommand_matches(&self, name: &str) -> Option<&ArgMatches> {
self.get_subcommand(name).map(|sc| &sc.matches)
}
/// The name of the current [subcommand].
///
/// Returns `None` if the subcommand wasn't present at runtime,
///
/// # Examples
///
/// ```no_run
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, };
/// let app_m = Command::new("git")
/// .subcommand(Command::new("clone"))
/// .subcommand(Command::new("push"))
/// .subcommand(Command::new("commit"))
/// .get_matches();
///
/// match app_m.subcommand_name() {
/// Some("clone") => {}, // clone was used
/// Some("push") => {}, // push was used
/// Some("commit") => {}, // commit was used
/// _ => {}, // Either no subcommand or one not tested for...
/// }
/// ```
/// [subcommand]: crate::Command::subcommand
/// [`Command`]: crate::Command
#[inline]
pub fn subcommand_name(&self) -> Option<&str> {
self.subcommand.as_ref().map(|sc| &*sc.name)
}
/// Check if a subcommand can be queried
///
/// By default, `ArgMatches` functions assert on undefined `Id`s to help catch programmer
/// mistakes. In some context, this doesn't work, so users can use this function to check
/// before they do a query on `ArgMatches`.
#[inline]
#[doc(hidden)]
pub fn is_valid_subcommand(&self, _name: &str) -> bool {
#[cfg(debug_assertions)]
{
_name.is_empty() || self.valid_subcommands.iter().any(|s| *s == _name)
}
#[cfg(not(debug_assertions))]
{
true
}
}
}
/// # Advanced
impl ArgMatches {
/// Non-panicking version of [`ArgMatches::get_one`]
pub fn try_get_one<T: Any + Clone + Send + Sync + 'static>(
&self,
id: &str,
) -> Result<Option<&T>, MatchesError> {
let arg = ok!(self.try_get_arg_t::<T>(id));
let value = match arg.and_then(|a| a.first()) {
Some(value) => value,
None => {
return Ok(None);
}
};
Ok(value
.downcast_ref::<T>()
.map(Some)
.expect(INTERNAL_ERROR_MSG)) // enforced by `try_get_arg_t`
}
/// Non-panicking version of [`ArgMatches::get_many`]
pub fn try_get_many<T: Any + Clone + Send + Sync + 'static>(
&self,
id: &str,
) -> Result<Option<ValuesRef<'_, T>>, MatchesError> {
let arg = match ok!(self.try_get_arg_t::<T>(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let len = arg.num_vals();
let values = arg.vals_flatten();
let values = ValuesRef {
// enforced by `try_get_arg_t`
iter: values.map(unwrap_downcast_ref),
len,
};
Ok(Some(values))
}
/// Non-panicking version of [`ArgMatches::get_occurrences`]
pub fn try_get_occurrences<T: Any + Clone + Send + Sync + 'static>(
&self,
id: &str,
) -> Result<Option<OccurrencesRef<'_, T>>, MatchesError> {
let arg = match ok!(self.try_get_arg_t::<T>(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let values = arg.vals();
Ok(Some(OccurrencesRef {
iter: values.map(|g| OccurrenceValuesRef {
iter: g.iter().map(unwrap_downcast_ref),
}),
}))
}
/// Non-panicking version of [`ArgMatches::get_raw`]
pub fn try_get_raw(&self, id: &str) -> Result<Option<RawValues<'_>>, MatchesError> {
let arg = match ok!(self.try_get_arg(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let len = arg.num_vals();
let values = arg.raw_vals_flatten();
let values = RawValues {
iter: values.map(OsString::as_os_str),
len,
};
Ok(Some(values))
}
/// Non-panicking version of [`ArgMatches::get_raw_occurrences`]
pub fn try_get_raw_occurrences(
&self,
id: &str,
) -> Result<Option<RawOccurrences<'_>>, MatchesError> {
let arg = match ok!(self.try_get_arg(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let values = arg.raw_vals();
let occurrences = RawOccurrences {
iter: values.map(|g| RawOccurrenceValues {
iter: g.iter().map(OsString::as_os_str),
}),
};
Ok(Some(occurrences))
}
/// Non-panicking version of [`ArgMatches::remove_one`]
pub fn try_remove_one<T: Any + Clone + Send + Sync + 'static>(
&mut self,
id: &str,
) -> Result<Option<T>, MatchesError> {
match ok!(self.try_remove_arg_t::<T>(id)) {
Some(values) => Ok(values
.into_vals_flatten()
// enforced by `try_get_arg_t`
.map(unwrap_downcast_into)
.next()),
None => Ok(None),
}
}
/// Non-panicking version of [`ArgMatches::remove_many`]
pub fn try_remove_many<T: Any + Clone + Send + Sync + 'static>(
&mut self,
id: &str,
) -> Result<Option<Values<T>>, MatchesError> {
let arg = match ok!(self.try_remove_arg_t::<T>(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let len = arg.num_vals();
let values = arg.into_vals_flatten();
let values = Values {
// enforced by `try_get_arg_t`
iter: values.map(unwrap_downcast_into),
len,
};
Ok(Some(values))
}
/// Non-panicking version of [`ArgMatches::remove_occurrences`]
pub fn try_remove_occurrences<T: Any + Clone + Send + Sync + 'static>(
&mut self,
id: &str,
) -> Result<Option<Occurrences<T>>, MatchesError> {
let arg = match ok!(self.try_remove_arg_t::<T>(id)) {
Some(arg) => arg,
None => return Ok(None),
};
let values = arg.into_vals();
let occurrences = Occurrences {
iter: values.into_iter().map(|g| OccurrenceValues {
iter: g.into_iter().map(unwrap_downcast_into),
}),
};
Ok(Some(occurrences))
}
/// Non-panicking version of [`ArgMatches::contains_id`]
pub fn try_contains_id(&self, id: &str) -> Result<bool, MatchesError> {
ok!(self.verify_arg(id));
let presence = self.args.contains_key(id);
Ok(presence)
}
}
// Private methods
impl ArgMatches {
#[inline]
fn try_get_arg(&self, arg: &str) -> Result<Option<&MatchedArg>, MatchesError> {
ok!(self.verify_arg(arg));
Ok(self.args.get(arg))
}
#[inline]
fn try_get_arg_t<T: Any + Send + Sync + 'static>(
&self,
arg: &str,
) -> Result<Option<&MatchedArg>, MatchesError> {
let arg = match ok!(self.try_get_arg(arg)) {
Some(arg) => arg,
None => {
return Ok(None);
}
};
ok!(self.verify_arg_t::<T>(arg));
Ok(Some(arg))
}
#[inline]
fn try_remove_arg_t<T: Any + Send + Sync + 'static>(
&mut self,
arg: &str,
) -> Result<Option<MatchedArg>, MatchesError> {
ok!(self.verify_arg(arg));
let (id, matched) = match self.args.remove_entry(arg) {
Some((id, matched)) => (id, matched),
None => {
return Ok(None);
}
};
let expected = AnyValueId::of::<T>();
let actual = matched.infer_type_id(expected);
if actual == expected {
Ok(Some(matched))
} else {
self.args.insert(id, matched);
Err(MatchesError::Downcast { actual, expected })
}
}
fn verify_arg_t<T: Any + Send + Sync + 'static>(
&self,
arg: &MatchedArg,
) -> Result<(), MatchesError> {
let expected = AnyValueId::of::<T>();
let actual = arg.infer_type_id(expected);
if expected == actual {
Ok(())
} else {
Err(MatchesError::Downcast { actual, expected })
}
}
#[inline]
fn verify_arg(&self, _arg: &str) -> Result<(), MatchesError> {
#[cfg(debug_assertions)]
{
if _arg == Id::EXTERNAL || self.valid_args.iter().any(|s| *s == _arg) {
} else {
debug!(
"`{:?}` is not an id of an argument or a group.\n\
Make sure you're using the name of the argument itself \
and not the name of short or long flags.",
_arg
);
return Err(MatchesError::UnknownArgument {});
}
}
Ok(())
}
#[inline]
#[cfg_attr(debug_assertions, track_caller)]
fn get_arg<'s>(&'s self, arg: &str) -> Option<&'s MatchedArg> {
#[cfg(debug_assertions)]
{
if arg == Id::EXTERNAL || self.valid_args.iter().any(|s| *s == arg) {
} else {
panic!(
"`{arg:?}` is not an id of an argument or a group.\n\
Make sure you're using the name of the argument itself \
and not the name of short or long flags."
);
}
}
self.args.get(arg)
}
#[inline]
#[cfg_attr(debug_assertions, track_caller)]
fn get_subcommand(&self, name: &str) -> Option<&SubCommand> {
#[cfg(debug_assertions)]
{
if name.is_empty() || self.valid_subcommands.iter().any(|s| *s == name) {
} else {
panic!("`{name}` is not a name of a subcommand.");
}
}
if let Some(ref sc) = self.subcommand {
if sc.name == name {
return Some(sc);
}
}
None
}
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub(crate) struct SubCommand {
pub(crate) name: String,
pub(crate) matches: ArgMatches,
}
/// Iterate over [`Arg`][crate::Arg] and [`ArgGroup`][crate::ArgGroup] [`Id`]s via [`ArgMatches::ids`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, arg, value_parser};
///
/// let m = Command::new("myprog")
/// .arg(arg!(--color <when>)
/// .value_parser(["auto", "always", "never"]))
/// .arg(arg!(--config <path>)
/// .value_parser(value_parser!(std::path::PathBuf)))
/// .get_matches_from(["myprog", "--config=config.toml", "--color=auto"]);
/// assert_eq!(
/// m.ids()
/// .map(|id| id.as_str())
/// .collect::<Vec<_>>(),
/// ["config", "color"]
/// );
/// ```
#[derive(Clone, Debug)]
pub struct IdsRef<'a> {
iter: Iter<'a, Id>,
}
impl<'a> Iterator for IdsRef<'a> {
type Item = &'a Id;
fn next(&mut self) -> Option<&'a Id> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a> DoubleEndedIterator for IdsRef<'a> {
fn next_back(&mut self) -> Option<&'a Id> {
self.iter.next_back()
}
}
impl<'a> ExactSizeIterator for IdsRef<'a> {}
/// Iterate over multiple values for an argument via [`ArgMatches::remove_many`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let mut m = Command::new("myapp")
/// .arg(Arg::new("output")
/// .short('o')
/// .action(ArgAction::Append))
/// .get_matches_from(vec!["myapp", "-o", "val1", "-o", "val2"]);
///
/// let mut values = m.remove_many::<String>("output")
/// .unwrap();
///
/// assert_eq!(values.next(), Some(String::from("val1")));
/// assert_eq!(values.next(), Some(String::from("val2")));
/// assert_eq!(values.next(), None);
/// ```
#[derive(Clone, Debug)]
pub struct Values<T> {
#[allow(clippy::type_complexity)]
iter: Map<Flatten<std::vec::IntoIter<Vec<AnyValue>>>, fn(AnyValue) -> T>,
len: usize,
}
impl<T> Iterator for Values<T> {
type Item = T;
fn next(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next() {
self.len -= 1;
Some(next)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.len, Some(self.len))
}
}
impl<T> DoubleEndedIterator for Values<T> {
fn next_back(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next_back() {
self.len -= 1;
Some(next)
} else {
None
}
}
}
impl<T> ExactSizeIterator for Values<T> {}
/// Creates an empty iterator.
impl<T> Default for Values<T> {
fn default() -> Self {
let empty: Vec<Vec<AnyValue>> = Default::default();
Values {
iter: empty.into_iter().flatten().map(|_| unreachable!()),
len: 0,
}
}
}
/// Iterate over multiple values for an argument via [`ArgMatches::get_many`].
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("output")
/// .short('o')
/// .action(ArgAction::Append))
/// .get_matches_from(vec!["myapp", "-o", "val1", "-o", "val2"]);
///
/// let mut values = m.get_many::<String>("output")
/// .unwrap()
/// .map(|s| s.as_str());
///
/// assert_eq!(values.next(), Some("val1"));
/// assert_eq!(values.next(), Some("val2"));
/// assert_eq!(values.next(), None);
/// ```
#[derive(Clone, Debug)]
pub struct ValuesRef<'a, T> {
#[allow(clippy::type_complexity)]
iter: Map<Flatten<Iter<'a, Vec<AnyValue>>>, fn(&AnyValue) -> &T>,
len: usize,
}
impl<'a, T: 'a> Iterator for ValuesRef<'a, T> {
type Item = &'a T;
fn next(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next() {
self.len -= 1;
Some(next)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.len, Some(self.len))
}
}
impl<'a, T: 'a> DoubleEndedIterator for ValuesRef<'a, T> {
fn next_back(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next_back() {
self.len -= 1;
Some(next)
} else {
None
}
}
}
impl<'a, T: 'a> ExactSizeIterator for ValuesRef<'a, T> {}
/// Creates an empty iterator.
impl<'a, T: 'a> Default for ValuesRef<'a, T> {
fn default() -> Self {
static EMPTY: [Vec<AnyValue>; 0] = [];
ValuesRef {
iter: EMPTY[..].iter().flatten().map(|_| unreachable!()),
len: 0,
}
}
}
/// Iterate over raw argument values via [`ArgMatches::get_raw`].
///
/// # Examples
///
/// ```rust
/// # #[cfg(unix)] {
/// # use clap_builder as clap;
/// # use clap::{Command, arg, value_parser};
/// use std::ffi::OsString;
/// use std::os::unix::ffi::{OsStrExt,OsStringExt};
///
/// let m = Command::new("utf8")
/// .arg(arg!(<arg> "some arg")
/// .value_parser(value_parser!(OsString)))
/// .get_matches_from(vec![OsString::from("myprog"),
/// // "Hi {0xe9}!"
/// OsString::from_vec(vec![b'H', b'i', b' ', 0xe9, b'!'])]);
/// assert_eq!(
/// &*m.get_raw("arg")
/// .unwrap()
/// .next().unwrap()
/// .as_bytes(),
/// [b'H', b'i', b' ', 0xe9, b'!']
/// );
/// # }
/// ```
#[derive(Clone, Debug)]
pub struct RawValues<'a> {
#[allow(clippy::type_complexity)]
iter: Map<Flatten<Iter<'a, Vec<OsString>>>, fn(&OsString) -> &OsStr>,
len: usize,
}
impl<'a> Iterator for RawValues<'a> {
type Item = &'a OsStr;
fn next(&mut self) -> Option<&'a OsStr> {
if let Some(next) = self.iter.next() {
self.len -= 1;
Some(next)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.len, Some(self.len))
}
}
impl<'a> DoubleEndedIterator for RawValues<'a> {
fn next_back(&mut self) -> Option<&'a OsStr> {
if let Some(next) = self.iter.next_back() {
self.len -= 1;
Some(next)
} else {
None
}
}
}
impl<'a> ExactSizeIterator for RawValues<'a> {}
/// Creates an empty iterator.
impl Default for RawValues<'_> {
fn default() -> Self {
static EMPTY: [Vec<OsString>; 0] = [];
RawValues {
iter: EMPTY[..].iter().flatten().map(|_| unreachable!()),
len: 0,
}
}
}
// The following were taken and adapted from vec_map source
// repo: https://github.com/contain-rs/vec-map
// commit: be5e1fa3c26e351761b33010ddbdaf5f05dbcc33
// license: MIT - Copyright (c) 2015 The Rust Project Developers
#[derive(Clone, Debug)]
#[deprecated(since = "4.1.0", note = "Use Occurrences instead")]
pub(crate) struct GroupedValues<'a> {
#[allow(clippy::type_complexity)]
iter: Map<Iter<'a, Vec<AnyValue>>, fn(&Vec<AnyValue>) -> Vec<&str>>,
len: usize,
}
#[allow(deprecated)]
impl<'a> Iterator for GroupedValues<'a> {
type Item = Vec<&'a str>;
fn next(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next() {
self.len -= 1;
Some(next)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.len, Some(self.len))
}
}
#[allow(deprecated)]
impl<'a> DoubleEndedIterator for GroupedValues<'a> {
fn next_back(&mut self) -> Option<Self::Item> {
if let Some(next) = self.iter.next_back() {
self.len -= 1;
Some(next)
} else {
None
}
}
}
#[allow(deprecated)]
impl<'a> ExactSizeIterator for GroupedValues<'a> {}
/// Creates an empty iterator. Used for `unwrap_or_default()`.
#[allow(deprecated)]
impl<'a> Default for GroupedValues<'a> {
fn default() -> Self {
static EMPTY: [Vec<AnyValue>; 0] = [];
GroupedValues {
iter: EMPTY[..].iter().map(|_| unreachable!()),
len: 0,
}
}
}
#[derive(Clone, Debug)]
pub struct Occurrences<T> {
#[allow(clippy::type_complexity)]
iter: Map<std::vec::IntoIter<Vec<AnyValue>>, fn(Vec<AnyValue>) -> OccurrenceValues<T>>,
}
impl<T> Iterator for Occurrences<T> {
type Item = OccurrenceValues<T>;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<T> DoubleEndedIterator for Occurrences<T> {
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<T> ExactSizeIterator for Occurrences<T> {}
impl<T> Default for Occurrences<T> {
fn default() -> Self {
let empty: Vec<Vec<AnyValue>> = Default::default();
Occurrences {
iter: empty.into_iter().map(|_| unreachable!()),
}
}
}
#[derive(Clone, Debug)]
pub struct OccurrenceValues<T> {
#[allow(clippy::type_complexity)]
iter: Map<std::vec::IntoIter<AnyValue>, fn(AnyValue) -> T>,
}
impl<T> Iterator for OccurrenceValues<T> {
type Item = T;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<T> DoubleEndedIterator for OccurrenceValues<T> {
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<T> ExactSizeIterator for OccurrenceValues<T> {}
#[derive(Clone, Debug)]
pub struct OccurrencesRef<'a, T> {
#[allow(clippy::type_complexity)]
iter: Map<Iter<'a, Vec<AnyValue>>, fn(&Vec<AnyValue>) -> OccurrenceValuesRef<'_, T>>,
}
impl<'a, T> Iterator for OccurrencesRef<'a, T>
where
Self: 'a,
{
type Item = OccurrenceValuesRef<'a, T>;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a, T> DoubleEndedIterator for OccurrencesRef<'a, T>
where
Self: 'a,
{
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<'a, T> ExactSizeIterator for OccurrencesRef<'a, T> where Self: 'a {}
impl<'a, T> Default for OccurrencesRef<'a, T> {
fn default() -> Self {
static EMPTY: [Vec<AnyValue>; 0] = [];
OccurrencesRef {
iter: EMPTY[..].iter().map(|_| unreachable!()),
}
}
}
#[derive(Clone, Debug)]
pub struct OccurrenceValuesRef<'a, T> {
#[allow(clippy::type_complexity)]
iter: Map<Iter<'a, AnyValue>, fn(&AnyValue) -> &T>,
}
impl<'a, T> Iterator for OccurrenceValuesRef<'a, T>
where
Self: 'a,
{
type Item = &'a T;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a, T> DoubleEndedIterator for OccurrenceValuesRef<'a, T>
where
Self: 'a,
{
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<'a, T> ExactSizeIterator for OccurrenceValuesRef<'a, T> where Self: 'a {}
#[derive(Clone, Debug)]
pub struct RawOccurrences<'a> {
#[allow(clippy::type_complexity)]
iter: Map<Iter<'a, Vec<OsString>>, fn(&Vec<OsString>) -> RawOccurrenceValues<'_>>,
}
impl<'a> Iterator for RawOccurrences<'a> {
type Item = RawOccurrenceValues<'a>;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a> DoubleEndedIterator for RawOccurrences<'a> {
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<'a> ExactSizeIterator for RawOccurrences<'a> {}
impl<'a> Default for RawOccurrences<'a> {
fn default() -> Self {
static EMPTY: [Vec<OsString>; 0] = [];
RawOccurrences {
iter: EMPTY[..].iter().map(|_| unreachable!()),
}
}
}
#[derive(Clone, Debug)]
pub struct RawOccurrenceValues<'a> {
#[allow(clippy::type_complexity)]
iter: Map<Iter<'a, OsString>, fn(&OsString) -> &OsStr>,
}
impl<'a> Iterator for RawOccurrenceValues<'a>
where
Self: 'a,
{
type Item = &'a OsStr;
fn next(&mut self) -> Option<Self::Item> {
self.iter.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl<'a> DoubleEndedIterator for RawOccurrenceValues<'a>
where
Self: 'a,
{
fn next_back(&mut self) -> Option<Self::Item> {
self.iter.next_back()
}
}
impl<'a> ExactSizeIterator for RawOccurrenceValues<'a> {}
/// Iterate over indices for where an argument appeared when parsing, via [`ArgMatches::indices_of`]
///
/// # Examples
///
/// ```rust
/// # use clap_builder as clap;
/// # use clap::{Command, Arg, ArgAction};
/// let m = Command::new("myapp")
/// .arg(Arg::new("output")
/// .short('o')
/// .num_args(1..)
/// .action(ArgAction::Set))
/// .get_matches_from(vec!["myapp", "-o", "val1", "val2"]);
///
/// let mut indices = m.indices_of("output").unwrap();
///
/// assert_eq!(indices.next(), Some(2));
/// assert_eq!(indices.next(), Some(3));
/// assert_eq!(indices.next(), None);
/// ```
/// [`ArgMatches::indices_of`]: ArgMatches::indices_of()
#[derive(Clone, Debug)]
pub struct Indices<'a> {
iter: Cloned<Iter<'a, usize>>,
len: usize,
}
impl<'a> Iterator for Indices<'a> {
type Item = usize;
fn next(&mut self) -> Option<usize> {
if let Some(next) = self.iter.next() {
self.len -= 1;
Some(next)
} else {
None
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.len, Some(self.len))
}
}
impl<'a> DoubleEndedIterator for Indices<'a> {
fn next_back(&mut self) -> Option<usize> {
if let Some(next) = self.iter.next_back() {
self.len -= 1;
Some(next)
} else {
None
}
}
}
impl<'a> ExactSizeIterator for Indices<'a> {}
/// Creates an empty iterator.
impl<'a> Default for Indices<'a> {
fn default() -> Self {
static EMPTY: [usize; 0] = [];
// This is never called because the iterator is empty:
Indices {
iter: EMPTY[..].iter().cloned(),
len: 0,
}
}
}
#[track_caller]
fn unwrap_downcast_ref<T: Any + Clone + Send + Sync + 'static>(value: &AnyValue) -> &T {
value.downcast_ref().expect(INTERNAL_ERROR_MSG)
}
#[track_caller]
fn unwrap_downcast_into<T: Any + Clone + Send + Sync + 'static>(value: AnyValue) -> T {
value.downcast_into().expect(INTERNAL_ERROR_MSG)
}
#[cfg(test)]
mod tests {
use super::*;
use crate::ArgAction;
#[test]
fn check_auto_traits() {
static_assertions::assert_impl_all!(ArgMatches: Send, Sync, Unpin);
}
#[test]
fn test_default_raw_values() {
let mut values: RawValues<'_> = Default::default();
assert_eq!(values.next(), None);
}
#[test]
fn test_default_indices() {
let mut indices: Indices<'_> = Indices::default();
assert_eq!(indices.next(), None);
}
#[test]
fn test_default_indices_with_shorter_lifetime() {
let matches = ArgMatches::default();
let mut indices = matches.indices_of("").unwrap_or_default();
assert_eq!(indices.next(), None);
}
#[test]
fn values_exact_size() {
let l = crate::Command::new("test")
.arg(
crate::Arg::new("POTATO")
.action(ArgAction::Set)
.num_args(1..)
.required(true),
)
.try_get_matches_from(["test", "one"])
.unwrap()
.get_many::<String>("POTATO")
.expect("present")
.count();
assert_eq!(l, 1);
}
#[test]
fn os_values_exact_size() {
let l = crate::Command::new("test")
.arg(
crate::Arg::new("POTATO")
.action(ArgAction::Set)
.num_args(1..)
.value_parser(crate::builder::ValueParser::os_string())
.required(true),
)
.try_get_matches_from(["test", "one"])
.unwrap()
.get_many::<OsString>("POTATO")
.expect("present")
.count();
assert_eq!(l, 1);
}
#[test]
fn indices_exact_size() {
let l = crate::Command::new("test")
.arg(
crate::Arg::new("POTATO")
.action(ArgAction::Set)
.num_args(1..)
.required(true),
)
.try_get_matches_from(["test", "one"])
.unwrap()
.indices_of("POTATO")
.expect("present")
.len();
assert_eq!(l, 1);
}
#[test]
fn rev_iter() {
let mut matches = crate::Command::new("myprog")
.arg(crate::Arg::new("a").short('a').action(ArgAction::Append))
.arg(crate::Arg::new("b").short('b').action(ArgAction::Append))
.try_get_matches_from(vec!["myprog", "-a1", "-b1", "-b3"])
.unwrap();
let a_index = matches
.indices_of("a")
.expect("missing aopt indices")
.collect::<Vec<_>>();
dbg!(&a_index);
let a_value = matches
.remove_many::<String>("a")
.expect("missing aopt values");
dbg!(&a_value);
let a = a_index.into_iter().zip(a_value).rev().collect::<Vec<_>>();
dbg!(a);
let b_index = matches
.indices_of("b")
.expect("missing aopt indices")
.collect::<Vec<_>>();
dbg!(&b_index);
let b_value = matches
.remove_many::<String>("b")
.expect("missing aopt values");
dbg!(&b_value);
let b = b_index.into_iter().zip(b_value).rev().collect::<Vec<_>>();
dbg!(b);
}
}