diff options
Diffstat (limited to 'vendor/clap_builder/src/parser')
| -rw-r--r-- | vendor/clap_builder/src/parser/arg_matcher.rs | 248 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/error.rs | 61 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/features/mod.rs | 1 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/features/suggestions.rs | 167 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/matches/any_value.rs | 112 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/matches/arg_matches.rs | 1951 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/matches/matched_arg.rs | 225 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/matches/mod.rs | 16 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/matches/value_source.rs | 17 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/mod.rs | 27 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/parser.rs | 1620 | ||||
| -rw-r--r-- | vendor/clap_builder/src/parser/validator.rs | 562 |
12 files changed, 5007 insertions, 0 deletions
diff --git a/vendor/clap_builder/src/parser/arg_matcher.rs b/vendor/clap_builder/src/parser/arg_matcher.rs new file mode 100644 index 000000000..d584689cd --- /dev/null +++ b/vendor/clap_builder/src/parser/arg_matcher.rs @@ -0,0 +1,248 @@ +// Std +use std::ffi::OsString; +use std::mem; +use std::ops::Deref; + +// Internal +use crate::builder::{Arg, ArgPredicate, Command}; +use crate::parser::AnyValue; +use crate::parser::Identifier; +use crate::parser::PendingArg; +use crate::parser::{ArgMatches, MatchedArg, SubCommand, ValueSource}; +use crate::util::FlatMap; +use crate::util::Id; +use crate::INTERNAL_ERROR_MSG; + +#[derive(Debug, Default)] +pub(crate) struct ArgMatcher { + matches: ArgMatches, + pending: Option<PendingArg>, +} + +impl ArgMatcher { + pub(crate) fn new(_cmd: &Command) -> Self { + ArgMatcher { + matches: ArgMatches { + #[cfg(debug_assertions)] + valid_args: { + let args = _cmd.get_arguments().map(|a| a.get_id().clone()); + let groups = _cmd.get_groups().map(|g| g.get_id().clone()); + args.chain(groups).collect() + }, + #[cfg(debug_assertions)] + valid_subcommands: _cmd + .get_subcommands() + .map(|sc| sc.get_name_str().clone()) + .collect(), + ..Default::default() + }, + pending: None, + } + } + + pub(crate) fn into_inner(self) -> ArgMatches { + self.matches + } + + pub(crate) fn propagate_globals(&mut self, global_arg_vec: &[Id]) { + debug!( + "ArgMatcher::get_global_values: global_arg_vec={:?}", + global_arg_vec + ); + let mut vals_map = FlatMap::new(); + self.fill_in_global_values(global_arg_vec, &mut vals_map); + } + + fn fill_in_global_values( + &mut self, + global_arg_vec: &[Id], + vals_map: &mut FlatMap<Id, MatchedArg>, + ) { + for global_arg in global_arg_vec { + if let Some(ma) = self.get(global_arg) { + // We have to check if the parent's global arg wasn't used but still exists + // such as from a default value. + // + // For example, `myprog subcommand --global-arg=value` where `--global-arg` defines + // a default value of `other` myprog would have an existing MatchedArg for + // `--global-arg` where the value is `other` + let to_update = if let Some(parent_ma) = vals_map.get(global_arg) { + if parent_ma.source() > ma.source() { + parent_ma + } else { + ma + } + } else { + ma + } + .clone(); + vals_map.insert(global_arg.clone(), to_update); + } + } + if let Some(ref mut sc) = self.matches.subcommand { + let mut am = ArgMatcher { + matches: mem::take(&mut sc.matches), + pending: None, + }; + am.fill_in_global_values(global_arg_vec, vals_map); + mem::swap(&mut am.matches, &mut sc.matches); + } + + for (name, matched_arg) in vals_map.iter_mut() { + self.matches.args.insert(name.clone(), matched_arg.clone()); + } + } + + pub(crate) fn get(&self, arg: &Id) -> Option<&MatchedArg> { + self.matches.args.get(arg) + } + + pub(crate) fn get_mut(&mut self, arg: &Id) -> Option<&mut MatchedArg> { + self.matches.args.get_mut(arg) + } + + pub(crate) fn remove(&mut self, arg: &Id) -> bool { + self.matches.args.remove(arg).is_some() + } + + pub(crate) fn contains(&self, arg: &Id) -> bool { + self.matches.args.contains_key(arg) + } + + pub(crate) fn arg_ids(&self) -> std::slice::Iter<'_, Id> { + self.matches.args.keys() + } + + pub(crate) fn args(&self) -> crate::util::flat_map::Iter<'_, Id, MatchedArg> { + self.matches.args.iter() + } + + pub(crate) fn entry(&mut self, arg: Id) -> crate::util::Entry<Id, MatchedArg> { + self.matches.args.entry(arg) + } + + pub(crate) fn subcommand(&mut self, sc: SubCommand) { + self.matches.subcommand = Some(Box::new(sc)); + } + + pub(crate) fn subcommand_name(&self) -> Option<&str> { + self.matches.subcommand_name() + } + + pub(crate) fn check_explicit(&self, arg: &Id, predicate: &ArgPredicate) -> bool { + self.get(arg).map_or(false, |a| a.check_explicit(predicate)) + } + + pub(crate) fn start_custom_arg(&mut self, arg: &Arg, source: ValueSource) { + let id = arg.get_id().clone(); + debug!( + "ArgMatcher::start_custom_arg: id={:?}, source={:?}", + id, source + ); + let ma = self.entry(id).or_insert(MatchedArg::new_arg(arg)); + debug_assert_eq!(ma.type_id(), Some(arg.get_value_parser().type_id())); + ma.set_source(source); + ma.new_val_group(); + } + + pub(crate) fn start_custom_group(&mut self, id: Id, source: ValueSource) { + debug!( + "ArgMatcher::start_custom_arg: id={:?}, source={:?}", + id, source + ); + let ma = self.entry(id).or_insert(MatchedArg::new_group()); + debug_assert_eq!(ma.type_id(), None); + ma.set_source(source); + ma.new_val_group(); + } + + pub(crate) fn start_occurrence_of_external(&mut self, cmd: &crate::Command) { + let id = Id::from_static_ref(Id::EXTERNAL); + debug!("ArgMatcher::start_occurrence_of_external: id={:?}", id,); + let ma = self.entry(id).or_insert(MatchedArg::new_external(cmd)); + debug_assert_eq!( + ma.type_id(), + Some( + cmd.get_external_subcommand_value_parser() + .expect(INTERNAL_ERROR_MSG) + .type_id() + ) + ); + ma.set_source(ValueSource::CommandLine); + ma.new_val_group(); + } + + pub(crate) fn add_val_to(&mut self, arg: &Id, val: AnyValue, raw_val: OsString) { + let ma = self.get_mut(arg).expect(INTERNAL_ERROR_MSG); + ma.append_val(val, raw_val); + } + + pub(crate) fn add_index_to(&mut self, arg: &Id, idx: usize) { + let ma = self.get_mut(arg).expect(INTERNAL_ERROR_MSG); + ma.push_index(idx); + } + + pub(crate) fn needs_more_vals(&self, o: &Arg) -> bool { + let num_pending = self + .pending + .as_ref() + .and_then(|p| (p.id == *o.get_id()).then_some(p.raw_vals.len())) + .unwrap_or(0); + debug!( + "ArgMatcher::needs_more_vals: o={}, pending={}", + o.get_id(), + num_pending + ); + let expected = o.get_num_args().expect(INTERNAL_ERROR_MSG); + debug!( + "ArgMatcher::needs_more_vals: expected={}, actual={}", + expected, num_pending + ); + expected.accepts_more(num_pending) + } + + pub(crate) fn pending_arg_id(&self) -> Option<&Id> { + self.pending.as_ref().map(|p| &p.id) + } + + pub(crate) fn pending_values_mut( + &mut self, + id: &Id, + ident: Option<Identifier>, + trailing_values: bool, + ) -> &mut Vec<OsString> { + let pending = self.pending.get_or_insert_with(|| PendingArg { + id: id.clone(), + ident, + raw_vals: Default::default(), + trailing_idx: None, + }); + debug_assert_eq!(pending.id, *id, "{INTERNAL_ERROR_MSG}"); + if ident.is_some() { + debug_assert_eq!(pending.ident, ident, "{INTERNAL_ERROR_MSG}"); + } + if trailing_values { + pending.trailing_idx.get_or_insert(pending.raw_vals.len()); + } + &mut pending.raw_vals + } + + pub(crate) fn start_trailing(&mut self) { + if let Some(pending) = &mut self.pending { + // Allow asserting its started on subsequent calls + pending.trailing_idx.get_or_insert(pending.raw_vals.len()); + } + } + + pub(crate) fn take_pending(&mut self) -> Option<PendingArg> { + self.pending.take() + } +} + +impl Deref for ArgMatcher { + type Target = ArgMatches; + + fn deref(&self) -> &Self::Target { + &self.matches + } +} diff --git a/vendor/clap_builder/src/parser/error.rs b/vendor/clap_builder/src/parser/error.rs new file mode 100644 index 000000000..66b2bc79e --- /dev/null +++ b/vendor/clap_builder/src/parser/error.rs @@ -0,0 +1,61 @@ +/// Violation of [`ArgMatches`][crate::ArgMatches] assumptions +#[derive(Clone, Debug)] +#[allow(missing_copy_implementations)] // We might add non-Copy types in the future +#[non_exhaustive] +pub enum MatchesError { + /// Failed to downcast `AnyValue` to the specified type + #[non_exhaustive] + Downcast { + /// Type for value stored in [`ArgMatches`][crate::ArgMatches] + actual: super::AnyValueId, + /// The target type to downcast to + expected: super::AnyValueId, + }, + /// Argument not defined in [`Command`][crate::Command] + #[non_exhaustive] + UnknownArgument { + // Missing `id` but blocked on a public id type which will hopefully come with `unstable-v4` + }, +} + +impl MatchesError { + #[cfg_attr(debug_assertions, track_caller)] + pub(crate) fn unwrap<T>(id: &str, r: Result<T, MatchesError>) -> T { + let err = match r { + Ok(t) => { + return t; + } + Err(err) => err, + }; + panic!("Mismatch between definition and access of `{id}`. {err}",) + } +} + +impl std::error::Error for MatchesError {} + +impl std::fmt::Display for MatchesError { + fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { + match self { + Self::Downcast { actual, expected } => { + writeln!( + f, + "Could not downcast to {expected:?}, need to downcast to {actual:?}" + ) + } + Self::UnknownArgument {} => { + writeln!(f, "Unknown argument or group id. Make sure you are using the argument id and not the short or long flags") + } + } + } +} + +#[test] +fn check_auto_traits() { + static_assertions::assert_impl_all!( + MatchesError: Send, + Sync, + std::panic::RefUnwindSafe, + std::panic::UnwindSafe, + Unpin + ); +} diff --git a/vendor/clap_builder/src/parser/features/mod.rs b/vendor/clap_builder/src/parser/features/mod.rs new file mode 100644 index 000000000..bdeb766ec --- /dev/null +++ b/vendor/clap_builder/src/parser/features/mod.rs @@ -0,0 +1 @@ +pub(crate) mod suggestions; diff --git a/vendor/clap_builder/src/parser/features/suggestions.rs b/vendor/clap_builder/src/parser/features/suggestions.rs new file mode 100644 index 000000000..b8bb7adfa --- /dev/null +++ b/vendor/clap_builder/src/parser/features/suggestions.rs @@ -0,0 +1,167 @@ +#[cfg(feature = "suggestions")] +use std::cmp::Ordering; + +// Internal +use crate::builder::Command; + +/// Find strings from an iterable of `possible_values` similar to a given value `v` +/// Returns a Vec of all possible values that exceed a similarity threshold +/// sorted by ascending similarity, most similar comes last +#[cfg(feature = "suggestions")] +pub(crate) fn did_you_mean<T, I>(v: &str, possible_values: I) -> Vec<String> +where + T: AsRef<str>, + I: IntoIterator<Item = T>, +{ + let mut candidates: Vec<(f64, String)> = possible_values + .into_iter() + // GH #4660: using `jaro` because `jaro_winkler` implementation in `strsim-rs` is wrong + // causing strings with common prefix >=10 to be considered perfectly similar + .map(|pv| (strsim::jaro(v, pv.as_ref()), pv.as_ref().to_owned())) + // Confidence of 0.7 so that bar -> baz is suggested + .filter(|(confidence, _)| *confidence > 0.7) + .collect(); + candidates.sort_by(|a, b| a.0.partial_cmp(&b.0).unwrap_or(Ordering::Equal)); + candidates.into_iter().map(|(_, pv)| pv).collect() +} + +#[cfg(not(feature = "suggestions"))] +pub(crate) fn did_you_mean<T, I>(_: &str, _: I) -> Vec<String> +where + T: AsRef<str>, + I: IntoIterator<Item = T>, +{ + Vec::new() +} + +/// Returns a suffix that can be empty, or is the standard 'did you mean' phrase +pub(crate) fn did_you_mean_flag<'a, 'help, I, T>( + arg: &str, + remaining_args: &[&std::ffi::OsStr], + longs: I, + subcommands: impl IntoIterator<Item = &'a mut Command>, +) -> Option<(String, Option<String>)> +where + 'help: 'a, + T: AsRef<str>, + I: IntoIterator<Item = T>, +{ + use crate::mkeymap::KeyType; + + match did_you_mean(arg, longs).pop() { + Some(candidate) => Some((candidate, None)), + None => subcommands + .into_iter() + .filter_map(|subcommand| { + subcommand._build_self(false); + + let longs = subcommand.get_keymap().keys().filter_map(|a| { + if let KeyType::Long(v) = a { + Some(v.to_string_lossy().into_owned()) + } else { + None + } + }); + + let subcommand_name = subcommand.get_name(); + + let candidate = some!(did_you_mean(arg, longs).pop()); + let score = some!(remaining_args.iter().position(|x| subcommand_name == *x)); + Some((score, (candidate, Some(subcommand_name.to_string())))) + }) + .min_by_key(|(x, _)| *x) + .map(|(_, suggestion)| suggestion), + } +} + +#[cfg(all(test, feature = "suggestions"))] +mod test { + use super::*; + + #[test] + fn missing_letter() { + let p_vals = ["test", "possible", "values"]; + assert_eq!(did_you_mean("tst", p_vals.iter()), vec!["test"]); + } + + #[test] + fn ambiguous() { + let p_vals = ["test", "temp", "possible", "values"]; + assert_eq!(did_you_mean("te", p_vals.iter()), vec!["test", "temp"]); + } + + #[test] + fn unrelated() { + let p_vals = ["test", "possible", "values"]; + assert_eq!( + did_you_mean("hahaahahah", p_vals.iter()), + Vec::<String>::new() + ); + } + + #[test] + fn best_fit() { + let p_vals = [ + "test", + "possible", + "values", + "alignmentStart", + "alignmentScore", + ]; + assert_eq!( + did_you_mean("alignmentScorr", p_vals.iter()), + vec!["alignmentStart", "alignmentScore"] + ); + } + + #[test] + fn best_fit_long_common_prefix_issue_4660() { + let p_vals = ["alignmentScore", "alignmentStart"]; + assert_eq!( + did_you_mean("alignmentScorr", p_vals.iter()), + vec!["alignmentStart", "alignmentScore"] + ); + } + + #[test] + fn flag_missing_letter() { + let p_vals = ["test", "possible", "values"]; + assert_eq!( + did_you_mean_flag("tst", &[], p_vals.iter(), []), + Some(("test".to_owned(), None)) + ); + } + + #[test] + fn flag_ambiguous() { + let p_vals = ["test", "temp", "possible", "values"]; + assert_eq!( + did_you_mean_flag("te", &[], p_vals.iter(), []), + Some(("temp".to_owned(), None)) + ); + } + + #[test] + fn flag_unrelated() { + let p_vals = ["test", "possible", "values"]; + assert_eq!( + did_you_mean_flag("hahaahahah", &[], p_vals.iter(), []), + None + ); + } + + #[test] + fn flag_best_fit() { + let p_vals = [ + "test", + "possible", + "values", + "alignmentStart", + "alignmentScore", + ]; + assert_eq!( + did_you_mean_flag("alignmentScorr", &[], p_vals.iter(), []), + Some(("alignmentScore".to_owned(), None)) + ); + } +} diff --git a/vendor/clap_builder/src/parser/matches/any_value.rs b/vendor/clap_builder/src/parser/matches/any_value.rs new file mode 100644 index 000000000..dc7a3e953 --- /dev/null +++ b/vendor/clap_builder/src/parser/matches/any_value.rs @@ -0,0 +1,112 @@ +#[derive(Clone)] +pub(crate) struct AnyValue { + inner: std::sync::Arc<dyn std::any::Any + Send + Sync + 'static>, + // While we can extract `TypeId` from `inner`, the debug repr is of a number, so let's track + // the type_name in debug builds. + id: AnyValueId, +} + +impl AnyValue { + pub(crate) fn new<V: std::any::Any + Clone + Send + Sync + 'static>(inner: V) -> Self { + let id = AnyValueId::of::<V>(); + let inner = std::sync::Arc::new(inner); + Self { inner, id } + } + + pub(crate) fn downcast_ref<T: std::any::Any + Clone + Send + Sync + 'static>( + &self, + ) -> Option<&T> { + self.inner.downcast_ref::<T>() + } + + pub(crate) fn downcast_into<T: std::any::Any + Clone + Send + Sync>(self) -> Result<T, Self> { + let id = self.id; + let value = + ok!(std::sync::Arc::downcast::<T>(self.inner).map_err(|inner| Self { inner, id })); + let value = std::sync::Arc::try_unwrap(value).unwrap_or_else(|arc| (*arc).clone()); + Ok(value) + } + + pub(crate) fn type_id(&self) -> AnyValueId { + self.id + } +} + +impl std::fmt::Debug for AnyValue { + fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> { + f.debug_struct("AnyValue").field("inner", &self.id).finish() + } +} + +#[derive(Copy, Clone)] +pub struct AnyValueId { + type_id: std::any::TypeId, + #[cfg(debug_assertions)] + type_name: &'static str, +} + +impl AnyValueId { + pub(crate) fn of<A: ?Sized + 'static>() -> Self { + Self { + type_id: std::any::TypeId::of::<A>(), + #[cfg(debug_assertions)] + type_name: std::any::type_name::<A>(), + } + } +} + +impl PartialEq for AnyValueId { + fn eq(&self, other: &Self) -> bool { + self.type_id == other.type_id + } +} + +impl Eq for AnyValueId {} + +impl PartialOrd for AnyValueId { + fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> { + self.type_id.partial_cmp(&other.type_id) + } +} + +impl Ord for AnyValueId { + fn cmp(&self, other: &Self) -> std::cmp::Ordering { + self.type_id.cmp(&other.type_id) + } +} + +impl std::hash::Hash for AnyValueId { + fn hash<H: std::hash::Hasher>(&self, state: &mut H) { + self.type_id.hash(state); + } +} + +impl std::fmt::Debug for AnyValueId { + fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> { + #[cfg(not(debug_assertions))] + { + self.type_id.fmt(f) + } + #[cfg(debug_assertions)] + { + f.debug_struct(self.type_name).finish() + } + } +} + +impl<'a, A: ?Sized + 'static> From<&'a A> for AnyValueId { + fn from(_: &'a A) -> Self { + Self::of::<A>() + } +} + +#[cfg(test)] +mod test { + #[test] + #[cfg(debug_assertions)] + fn debug_impl() { + use super::*; + + assert_eq!(format!("{:?}", AnyValue::new(5)), "AnyValue { inner: i32 }"); + } +} diff --git a/vendor/clap_builder/src/parser/matches/arg_matches.rs b/vendor/clap_builder/src/parser/matches/arg_matches.rs new file mode 100644 index 000000000..306ce9ed2 --- /dev/null +++ b/vendor/clap_builder/src/parser/matches/arg_matches.rs @@ -0,0 +1,1951 @@ +// 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::AnyValue; +use crate::parser::AnyValueId; +use crate::parser::MatchedArg; +use crate::parser::MatchesError; +use crate::parser::ValueSource; +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. + /// + /// *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. + /// + /// # 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 `{}`'s `ArgAction` should be `Count` which should provide a default", + id + ) + }) + } + + /// 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 `{}`'s `ArgAction` should be one of `SetTrue`, `SetFalse` which should provide a default", + id + ) + }) + } + + /// 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. 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. + /// + /// *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. + /// + /// # 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 + /// + /// *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. + /// + /// # Panics + /// + /// If `id` is not a valid argument or group name. 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`][crate::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. + /// + /// # 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. + /// + /// *NOTE:* If an argument is allowed multiple times, this method will only give the *first* + /// index. See [`ArgMatches::indices_of`]. + /// + /// # Panics + /// + /// If `id` is not a valid argument or group id. + /// + /// # 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. + /// + /// *NOTE:* For more information about how clap indices compared to argv indices, see + /// [`ArgMatches::index_of`] + /// + /// # Panics + /// + /// If `id` is not a valid argument or group id. + /// + /// # 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. + /// + /// # 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`][crate::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: std::slice::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> { + self.iter.next() + } + 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> { + self.iter.next_back() + } +} + +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> { + self.iter.next() + } + 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> { + self.iter.next_back() + } +} + +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> { + self.iter.next() + } + 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> { + self.iter.next_back() + } +} + +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 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> { + self.iter.next() + } + 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> { + self.iter.next_back() + } +} + +#[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> { + self.iter.next() + } + 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> { + self.iter.next_back() + } +} + +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::<std::ffi::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); + } +} diff --git a/vendor/clap_builder/src/parser/matches/matched_arg.rs b/vendor/clap_builder/src/parser/matches/matched_arg.rs new file mode 100644 index 000000000..901990cfb --- /dev/null +++ b/vendor/clap_builder/src/parser/matches/matched_arg.rs @@ -0,0 +1,225 @@ +// Std +use std::{ + ffi::{OsStr, OsString}, + iter::{Cloned, Flatten}, + slice::Iter, +}; + +use crate::builder::ArgPredicate; +use crate::parser::AnyValue; +use crate::parser::AnyValueId; +use crate::parser::ValueSource; +use crate::util::eq_ignore_case; +use crate::INTERNAL_ERROR_MSG; + +#[derive(Debug, Clone)] +pub(crate) struct MatchedArg { + source: Option<ValueSource>, + indices: Vec<usize>, + type_id: Option<AnyValueId>, + vals: Vec<Vec<AnyValue>>, + raw_vals: Vec<Vec<OsString>>, + ignore_case: bool, +} + +impl MatchedArg { + pub(crate) fn new_arg(arg: &crate::Arg) -> Self { + let ignore_case = arg.is_ignore_case_set(); + Self { + source: None, + indices: Vec::new(), + type_id: Some(arg.get_value_parser().type_id()), + vals: Vec::new(), + raw_vals: Vec::new(), + ignore_case, + } + } + + pub(crate) fn new_group() -> Self { + let ignore_case = false; + Self { + source: None, + indices: Vec::new(), + type_id: None, + vals: Vec::new(), + raw_vals: Vec::new(), + ignore_case, + } + } + + pub(crate) fn new_external(cmd: &crate::Command) -> Self { + let ignore_case = false; + Self { + source: None, + indices: Vec::new(), + type_id: Some( + cmd.get_external_subcommand_value_parser() + .expect(INTERNAL_ERROR_MSG) + .type_id(), + ), + vals: Vec::new(), + raw_vals: Vec::new(), + ignore_case, + } + } + + pub(crate) fn indices(&self) -> Cloned<Iter<'_, usize>> { + self.indices.iter().cloned() + } + + pub(crate) fn get_index(&self, index: usize) -> Option<usize> { + self.indices.get(index).cloned() + } + + pub(crate) fn push_index(&mut self, index: usize) { + self.indices.push(index) + } + + pub(crate) fn vals(&self) -> Iter<Vec<AnyValue>> { + self.vals.iter() + } + + pub(crate) fn into_vals(self) -> Vec<Vec<AnyValue>> { + self.vals + } + + pub(crate) fn vals_flatten(&self) -> Flatten<Iter<Vec<AnyValue>>> { + self.vals.iter().flatten() + } + + pub(crate) fn into_vals_flatten(self) -> Flatten<std::vec::IntoIter<Vec<AnyValue>>> { + self.vals.into_iter().flatten() + } + + pub(crate) fn raw_vals(&self) -> Iter<Vec<OsString>> { + self.raw_vals.iter() + } + + pub(crate) fn raw_vals_flatten(&self) -> Flatten<Iter<Vec<OsString>>> { + self.raw_vals.iter().flatten() + } + + pub(crate) fn first(&self) -> Option<&AnyValue> { + self.vals_flatten().next() + } + + #[cfg(test)] + pub(crate) fn first_raw(&self) -> Option<&OsString> { + self.raw_vals_flatten().next() + } + + pub(crate) fn new_val_group(&mut self) { + self.vals.push(vec![]); + self.raw_vals.push(vec![]); + } + + pub(crate) fn append_val(&mut self, val: AnyValue, raw_val: OsString) { + // We assume there is always a group created before. + self.vals.last_mut().expect(INTERNAL_ERROR_MSG).push(val); + self.raw_vals + .last_mut() + .expect(INTERNAL_ERROR_MSG) + .push(raw_val); + } + + pub(crate) fn num_vals(&self) -> usize { + self.vals.iter().map(|v| v.len()).sum() + } + + // Will be used later + #[allow(dead_code)] + pub(crate) fn num_vals_last_group(&self) -> usize { + self.vals.last().map(|x| x.len()).unwrap_or(0) + } + + pub(crate) fn all_val_groups_empty(&self) -> bool { + self.vals.iter().flatten().count() == 0 + } + + pub(crate) fn check_explicit(&self, predicate: &ArgPredicate) -> bool { + if self.source.map(|s| !s.is_explicit()).unwrap_or(false) { + return false; + } + + match predicate { + ArgPredicate::Equals(val) => self.raw_vals_flatten().any(|v| { + if self.ignore_case { + // If `v` isn't utf8, it can't match `val`, so `OsStr::to_str` should be fine + eq_ignore_case(&v.to_string_lossy(), &val.to_string_lossy()) + } else { + OsString::as_os_str(v) == OsStr::new(val) + } + }), + ArgPredicate::IsPresent => true, + } + } + + pub(crate) fn source(&self) -> Option<ValueSource> { + self.source + } + + pub(crate) fn set_source(&mut self, source: ValueSource) { + if let Some(existing) = self.source { + self.source = Some(existing.max(source)); + } else { + self.source = Some(source) + } + } + + pub(crate) fn type_id(&self) -> Option<AnyValueId> { + self.type_id + } + + pub(crate) fn infer_type_id(&self, expected: AnyValueId) -> AnyValueId { + self.type_id() + .or_else(|| { + self.vals_flatten() + .map(|v| v.type_id()) + .find(|actual| *actual != expected) + }) + .unwrap_or(expected) + } +} + +impl PartialEq for MatchedArg { + fn eq(&self, other: &MatchedArg) -> bool { + let MatchedArg { + source: self_source, + indices: self_indices, + type_id: self_type_id, + vals: _, + raw_vals: self_raw_vals, + ignore_case: self_ignore_case, + } = self; + let MatchedArg { + source: other_source, + indices: other_indices, + type_id: other_type_id, + vals: _, + raw_vals: other_raw_vals, + ignore_case: other_ignore_case, + } = other; + self_source == other_source + && self_indices == other_indices + && self_type_id == other_type_id + && self_raw_vals == other_raw_vals + && self_ignore_case == other_ignore_case + } +} + +impl Eq for MatchedArg {} + +#[cfg(test)] +mod tests { + use super::*; + + #[test] + fn test_grouped_vals_first() { + let mut m = MatchedArg::new_group(); + m.new_val_group(); + m.new_val_group(); + m.append_val(AnyValue::new(String::from("bbb")), "bbb".into()); + m.append_val(AnyValue::new(String::from("ccc")), "ccc".into()); + assert_eq!(m.first_raw(), Some(&OsString::from("bbb"))); + } +} diff --git a/vendor/clap_builder/src/parser/matches/mod.rs b/vendor/clap_builder/src/parser/matches/mod.rs new file mode 100644 index 000000000..0e3474fb3 --- /dev/null +++ b/vendor/clap_builder/src/parser/matches/mod.rs @@ -0,0 +1,16 @@ +mod any_value; +mod arg_matches; +mod matched_arg; +mod value_source; + +pub use any_value::AnyValueId; +pub use arg_matches::IdsRef; +pub use arg_matches::RawValues; +pub use arg_matches::Values; +pub use arg_matches::ValuesRef; +pub use arg_matches::{ArgMatches, Indices}; +pub use value_source::ValueSource; + +pub(crate) use any_value::AnyValue; +pub(crate) use arg_matches::SubCommand; +pub(crate) use matched_arg::MatchedArg; diff --git a/vendor/clap_builder/src/parser/matches/value_source.rs b/vendor/clap_builder/src/parser/matches/value_source.rs new file mode 100644 index 000000000..db45d9c0f --- /dev/null +++ b/vendor/clap_builder/src/parser/matches/value_source.rs @@ -0,0 +1,17 @@ +/// Origin of the argument's value +#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)] +#[non_exhaustive] +pub enum ValueSource { + /// Value came [`Arg::default_value`][crate::Arg::default_value] + DefaultValue, + /// Value came [`Arg::env`][crate::Arg::env] + EnvVariable, + /// Value was passed in on the command-line + CommandLine, +} + +impl ValueSource { + pub(crate) fn is_explicit(self) -> bool { + self != Self::DefaultValue + } +} diff --git a/vendor/clap_builder/src/parser/mod.rs b/vendor/clap_builder/src/parser/mod.rs new file mode 100644 index 000000000..c99e74f95 --- /dev/null +++ b/vendor/clap_builder/src/parser/mod.rs @@ -0,0 +1,27 @@ +//! [`Command`][crate::Command] line argument parser + +mod arg_matcher; +mod error; +mod matches; +#[allow(clippy::module_inception)] +mod parser; +mod validator; + +pub(crate) mod features; + +pub(crate) use self::arg_matcher::ArgMatcher; +pub(crate) use self::matches::AnyValue; +pub(crate) use self::matches::AnyValueId; +pub(crate) use self::matches::{MatchedArg, SubCommand}; +pub(crate) use self::parser::Identifier; +pub(crate) use self::parser::PendingArg; +pub(crate) use self::parser::{ParseState, Parser}; +pub(crate) use self::validator::get_possible_values_cli; +pub(crate) use self::validator::Validator; + +pub use self::matches::IdsRef; +pub use self::matches::RawValues; +pub use self::matches::Values; +pub use self::matches::ValuesRef; +pub use self::matches::{ArgMatches, Indices, ValueSource}; +pub use error::MatchesError; diff --git a/vendor/clap_builder/src/parser/parser.rs b/vendor/clap_builder/src/parser/parser.rs new file mode 100644 index 000000000..c29100485 --- /dev/null +++ b/vendor/clap_builder/src/parser/parser.rs @@ -0,0 +1,1620 @@ +// Std +use std::{ + cell::Cell, + ffi::{OsStr, OsString}, +}; + +use clap_lex::OsStrExt as _; + +// Internal +use crate::builder::{Arg, Command}; +use crate::error::Error as ClapError; +use crate::error::Result as ClapResult; +use crate::mkeymap::KeyType; +use crate::output::Usage; +use crate::parser::features::suggestions; +use crate::parser::AnyValue; +use crate::parser::{ArgMatcher, SubCommand}; +use crate::parser::{Validator, ValueSource}; +use crate::util::Id; +use crate::ArgAction; +use crate::INTERNAL_ERROR_MSG; + +pub(crate) struct Parser<'cmd> { + cmd: &'cmd mut Command, + cur_idx: Cell<usize>, + /// Index of the previous flag subcommand in a group of flags. + flag_subcmd_at: Option<usize>, + /// Counter indicating the number of items to skip + /// when revisiting the group of flags which includes the flag subcommand. + flag_subcmd_skip: usize, +} + +// Initializing Methods +impl<'cmd> Parser<'cmd> { + pub(crate) fn new(cmd: &'cmd mut Command) -> Self { + Parser { + cmd, + cur_idx: Cell::new(0), + flag_subcmd_at: None, + flag_subcmd_skip: 0, + } + } +} + +// Parsing Methods +impl<'cmd> Parser<'cmd> { + // The actual parsing function + #[allow(clippy::cognitive_complexity)] + pub(crate) fn get_matches_with( + &mut self, + matcher: &mut ArgMatcher, + raw_args: &mut clap_lex::RawArgs, + mut args_cursor: clap_lex::ArgCursor, + ) -> ClapResult<()> { + debug!("Parser::get_matches_with"); + // Verify all positional assertions pass + + let mut subcmd_name: Option<String> = None; + let mut keep_state = false; + let mut parse_state = ParseState::ValuesDone; + let mut pos_counter = 1; + + // Already met any valid arg(then we shouldn't expect subcommands after it). + let mut valid_arg_found = false; + // If the user already passed '--'. Meaning only positional args follow. + let mut trailing_values = false; + + // Count of positional args + let positional_count = self + .cmd + .get_keymap() + .keys() + .filter(|x| x.is_position()) + .count(); + // If any arg sets .last(true) + let contains_last = self.cmd.get_arguments().any(|x| x.is_last_set()); + + while let Some(arg_os) = raw_args.next(&mut args_cursor) { + debug!( + "Parser::get_matches_with: Begin parsing '{:?}'", + arg_os.to_value_os(), + ); + + // Has the user already passed '--'? Meaning only positional args follow + if !trailing_values { + if self.cmd.is_subcommand_precedence_over_arg_set() + || !matches!(parse_state, ParseState::Opt(_) | ParseState::Pos(_)) + { + // Does the arg match a subcommand name, or any of its aliases (if defined) + let sc_name = self.possible_subcommand(arg_os.to_value(), valid_arg_found); + debug!("Parser::get_matches_with: sc={:?}", sc_name); + if let Some(sc_name) = sc_name { + if sc_name == "help" && !self.cmd.is_disable_help_subcommand_set() { + ok!(self.parse_help_subcommand(raw_args.remaining(&mut args_cursor))); + unreachable!("`parse_help_subcommand` always errors"); + } else { + subcmd_name = Some(sc_name.to_owned()); + } + break; + } + } + + if arg_os.is_escape() { + if matches!(&parse_state, ParseState::Opt(opt) | ParseState::Pos(opt) if + self.cmd[opt].is_allow_hyphen_values_set()) + { + // ParseResult::MaybeHyphenValue, do nothing + } else { + debug!("Parser::get_matches_with: setting TrailingVals=true"); + trailing_values = true; + matcher.start_trailing(); + continue; + } + } else if let Some((long_arg, long_value)) = arg_os.to_long() { + let parse_result = ok!(self.parse_long_arg( + matcher, + long_arg, + long_value, + &parse_state, + pos_counter, + &mut valid_arg_found, + )); + debug!( + "Parser::get_matches_with: After parse_long_arg {:?}", + parse_result + ); + match parse_result { + ParseResult::NoArg => { + unreachable!("`to_long` always has the flag specified") + } + ParseResult::ValuesDone => { + parse_state = ParseState::ValuesDone; + continue; + } + ParseResult::Opt(id) => { + parse_state = ParseState::Opt(id); + continue; + } + ParseResult::FlagSubCommand(name) => { + debug!( + "Parser::get_matches_with: FlagSubCommand found in long arg {:?}", + &name + ); + subcmd_name = Some(name); + break; + } + ParseResult::EqualsNotProvided { arg } => { + let _ = self.resolve_pending(matcher); + return Err(ClapError::no_equals( + self.cmd, + arg, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + ParseResult::NoMatchingArg { arg } => { + let _ = self.resolve_pending(matcher); + let remaining_args: Vec<_> = + raw_args.remaining(&mut args_cursor).collect(); + return Err(self.did_you_mean_error( + &arg, + matcher, + &remaining_args, + trailing_values, + )); + } + ParseResult::UnneededAttachedValue { rest, used, arg } => { + let _ = self.resolve_pending(matcher); + return Err(ClapError::too_many_values( + self.cmd, + rest, + arg, + Usage::new(self.cmd).create_usage_with_title(&used), + )); + } + ParseResult::MaybeHyphenValue => { + // Maybe a hyphen value, do nothing. + } + ParseResult::AttachedValueNotConsumed => { + unreachable!() + } + } + } else if let Some(short_arg) = arg_os.to_short() { + // Arg looks like a short flag, and not a possible number + + // Try to parse short args like normal, if allow_hyphen_values or + // AllowNegativeNumbers is set, parse_short_arg will *not* throw + // an error, and instead return Ok(None) + let parse_result = ok!(self.parse_short_arg( + matcher, + short_arg, + &parse_state, + pos_counter, + &mut valid_arg_found, + )); + // If it's None, we then check if one of those two AppSettings was set + debug!( + "Parser::get_matches_with: After parse_short_arg {:?}", + parse_result + ); + match parse_result { + ParseResult::NoArg => { + // Is a single dash `-`, try positional. + } + ParseResult::ValuesDone => { + parse_state = ParseState::ValuesDone; + continue; + } + ParseResult::Opt(id) => { + parse_state = ParseState::Opt(id); + continue; + } + ParseResult::FlagSubCommand(name) => { + // If there are more short flags to be processed, we should keep the state, and later + // revisit the current group of short flags skipping the subcommand. + keep_state = self + .flag_subcmd_at + .map(|at| { + raw_args + .seek(&mut args_cursor, clap_lex::SeekFrom::Current(-1)); + // Since we are now saving the current state, the number of flags to skip during state recovery should + // be the current index (`cur_idx`) minus ONE UNIT TO THE LEFT of the starting position. + self.flag_subcmd_skip = self.cur_idx.get() - at + 1; + }) + .is_some(); + + debug!( + "Parser::get_matches_with:FlagSubCommandShort: subcmd_name={}, keep_state={}, flag_subcmd_skip={}", + name, + keep_state, + self.flag_subcmd_skip + ); + + subcmd_name = Some(name); + break; + } + ParseResult::EqualsNotProvided { arg } => { + let _ = self.resolve_pending(matcher); + return Err(ClapError::no_equals( + self.cmd, + arg, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + ParseResult::NoMatchingArg { arg } => { + let _ = self.resolve_pending(matcher); + // We already know it looks like a flag + let suggested_trailing_arg = + !trailing_values && self.cmd.has_positionals(); + return Err(ClapError::unknown_argument( + self.cmd, + arg, + None, + suggested_trailing_arg, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + ParseResult::MaybeHyphenValue => { + // Maybe a hyphen value, do nothing. + } + ParseResult::UnneededAttachedValue { .. } + | ParseResult::AttachedValueNotConsumed => unreachable!(), + } + } + + if let ParseState::Opt(id) = &parse_state { + // Assume this is a value of a previous arg. + + // get the option so we can check the settings + let arg = &self.cmd[id]; + let parse_result = if let Some(parse_result) = + self.check_terminator(arg, arg_os.to_value_os()) + { + parse_result + } else { + let trailing_values = false; + let arg_values = matcher.pending_values_mut(id, None, trailing_values); + arg_values.push(arg_os.to_value_os().to_owned()); + if matcher.needs_more_vals(arg) { + ParseResult::Opt(arg.get_id().clone()) + } else { + ParseResult::ValuesDone + } + }; + parse_state = match parse_result { + ParseResult::Opt(id) => ParseState::Opt(id), + ParseResult::ValuesDone => ParseState::ValuesDone, + _ => unreachable!(), + }; + // get the next value from the iterator + continue; + } + } + + // Correct pos_counter. + pos_counter = { + let is_second_to_last = pos_counter + 1 == positional_count; + + // The last positional argument, or second to last positional + // argument may be set to .multiple_values(true) or `.multiple_occurrences(true)` + let low_index_mults = is_second_to_last + && self.cmd.get_positionals().any(|a| { + a.is_multiple() && (positional_count != a.get_index().unwrap_or(0)) + }) + && self + .cmd + .get_positionals() + .last() + .map_or(false, |p_name| !p_name.is_last_set()); + + let missing_pos = self.cmd.is_allow_missing_positional_set() + && is_second_to_last + && !trailing_values; + + debug!( + "Parser::get_matches_with: Positional counter...{}", + pos_counter + ); + debug!( + "Parser::get_matches_with: Low index multiples...{:?}", + low_index_mults + ); + + if low_index_mults || missing_pos { + let skip_current = if let Some(n) = raw_args.peek(&args_cursor) { + if let Some(arg) = self + .cmd + .get_positionals() + .find(|a| a.get_index() == Some(pos_counter)) + { + // If next value looks like a new_arg or it's a + // subcommand, skip positional argument under current + // pos_counter(which means current value cannot be a + // positional argument with a value next to it), assume + // current value matches the next arg. + self.is_new_arg(&n, arg) + || self + .possible_subcommand(n.to_value(), valid_arg_found) + .is_some() + } else { + true + } + } else { + true + }; + + if skip_current { + debug!("Parser::get_matches_with: Bumping the positional counter..."); + pos_counter + 1 + } else { + pos_counter + } + } else if trailing_values + && (self.cmd.is_allow_missing_positional_set() || contains_last) + { + // Came to -- and one positional has .last(true) set, so we go immediately + // to the last (highest index) positional + debug!("Parser::get_matches_with: .last(true) and --, setting last pos"); + positional_count + } else { + pos_counter + } + }; + + if let Some(arg) = self.cmd.get_keymap().get(&pos_counter) { + if arg.is_last_set() && !trailing_values { + let _ = self.resolve_pending(matcher); + // Its already considered a positional, we don't need to suggest turning it + // into one + let suggested_trailing_arg = false; + return Err(ClapError::unknown_argument( + self.cmd, + arg_os.display().to_string(), + None, + suggested_trailing_arg, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + + if arg.is_trailing_var_arg_set() { + trailing_values = true; + } + + if matcher.pending_arg_id() != Some(arg.get_id()) || !arg.is_multiple_values_set() { + ok!(self.resolve_pending(matcher)); + } + if let Some(_parse_result) = self.check_terminator(arg, arg_os.to_value_os()) { + debug!( + "Parser::get_matches_with: ignoring terminator result {:?}", + _parse_result + ); + } else { + let arg_values = matcher.pending_values_mut( + arg.get_id(), + Some(Identifier::Index), + trailing_values, + ); + arg_values.push(arg_os.to_value_os().to_owned()); + } + + // Only increment the positional counter if it doesn't allow multiples + if !arg.is_multiple() { + pos_counter += 1; + parse_state = ParseState::ValuesDone; + } else { + parse_state = ParseState::Pos(arg.get_id().clone()); + } + valid_arg_found = true; + } else if let Some(external_parser) = + self.cmd.get_external_subcommand_value_parser().cloned() + { + // Get external subcommand name + let sc_name = match arg_os.to_value() { + Ok(s) => s.to_owned(), + Err(_) => { + let _ = self.resolve_pending(matcher); + return Err(ClapError::invalid_utf8( + self.cmd, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + }; + + // Collect the external subcommand args + let mut sc_m = ArgMatcher::new(self.cmd); + sc_m.start_occurrence_of_external(self.cmd); + + for raw_val in raw_args.remaining(&mut args_cursor) { + let val = ok!(external_parser.parse_ref(self.cmd, None, raw_val)); + let external_id = Id::from_static_ref(Id::EXTERNAL); + sc_m.add_val_to(&external_id, val, raw_val.to_os_string()); + } + + matcher.subcommand(SubCommand { + name: sc_name, + matches: sc_m.into_inner(), + }); + + ok!(self.resolve_pending(matcher)); + #[cfg(feature = "env")] + ok!(self.add_env(matcher)); + ok!(self.add_defaults(matcher)); + return Validator::new(self.cmd).validate(parse_state, matcher); + } else { + // Start error processing + let _ = self.resolve_pending(matcher); + return Err(self.match_arg_error(&arg_os, valid_arg_found, trailing_values)); + } + } + + if let Some(ref pos_sc_name) = subcmd_name { + let sc_name = self + .cmd + .find_subcommand(pos_sc_name) + .expect(INTERNAL_ERROR_MSG) + .get_name() + .to_owned(); + ok!(self.parse_subcommand(&sc_name, matcher, raw_args, args_cursor, keep_state)); + } + + ok!(self.resolve_pending(matcher)); + #[cfg(feature = "env")] + ok!(self.add_env(matcher)); + ok!(self.add_defaults(matcher)); + Validator::new(self.cmd).validate(parse_state, matcher) + } + + fn match_arg_error( + &self, + arg_os: &clap_lex::ParsedArg<'_>, + valid_arg_found: bool, + trailing_values: bool, + ) -> ClapError { + // If argument follows a `--` + if trailing_values { + // If the arg matches a subcommand name, or any of its aliases (if defined) + if self + .possible_subcommand(arg_os.to_value(), valid_arg_found) + .is_some() + { + return ClapError::unnecessary_double_dash( + self.cmd, + arg_os.display().to_string(), + Usage::new(self.cmd).create_usage_with_title(&[]), + ); + } + } + + if !(self.cmd.is_args_conflicts_with_subcommands_set() && valid_arg_found) { + let candidates = suggestions::did_you_mean( + &arg_os.display().to_string(), + self.cmd.all_subcommand_names(), + ); + // If the argument looks like a subcommand. + if !candidates.is_empty() { + return ClapError::invalid_subcommand( + self.cmd, + arg_os.display().to_string(), + candidates, + self.cmd + .get_bin_name() + .unwrap_or_else(|| self.cmd.get_name()) + .to_owned(), + Usage::new(self.cmd).create_usage_with_title(&[]), + ); + } + + // If the argument must be a subcommand. + if self.cmd.has_subcommands() + && (!self.cmd.has_positionals() || self.cmd.is_infer_subcommands_set()) + { + return ClapError::unrecognized_subcommand( + self.cmd, + arg_os.display().to_string(), + Usage::new(self.cmd).create_usage_with_title(&[]), + ); + } + } + + let suggested_trailing_arg = !trailing_values + && self.cmd.has_positionals() + && (arg_os.is_long() || arg_os.is_short()); + ClapError::unknown_argument( + self.cmd, + arg_os.display().to_string(), + None, + suggested_trailing_arg, + Usage::new(self.cmd).create_usage_with_title(&[]), + ) + } + + // Checks if the arg matches a subcommand name, or any of its aliases (if defined) + fn possible_subcommand( + &self, + arg: Result<&str, &OsStr>, + valid_arg_found: bool, + ) -> Option<&str> { + debug!("Parser::possible_subcommand: arg={:?}", arg); + let arg = some!(arg.ok()); + + if !(self.cmd.is_args_conflicts_with_subcommands_set() && valid_arg_found) { + if self.cmd.is_infer_subcommands_set() { + // For subcommand `test`, we accepts it's prefix: `t`, `te`, + // `tes` and `test`. + let v = self + .cmd + .all_subcommand_names() + .filter(|s| s.starts_with(arg)) + .collect::<Vec<_>>(); + + if v.len() == 1 { + return Some(v[0]); + } + + // If there is any ambiguity, fallback to non-infer subcommand + // search. + } + if let Some(sc) = self.cmd.find_subcommand(arg) { + return Some(sc.get_name()); + } + } + None + } + + // Checks if the arg matches a long flag subcommand name, or any of its aliases (if defined) + fn possible_long_flag_subcommand(&self, arg: &str) -> Option<&str> { + debug!("Parser::possible_long_flag_subcommand: arg={:?}", arg); + if self.cmd.is_infer_subcommands_set() { + let options = self + .cmd + .get_subcommands() + .fold(Vec::new(), |mut options, sc| { + if let Some(long) = sc.get_long_flag() { + if long.starts_with(arg) { + options.push(long); + } + options.extend(sc.get_all_aliases().filter(|alias| alias.starts_with(arg))) + } + options + }); + if options.len() == 1 { + return Some(options[0]); + } + + for sc in options { + if sc == arg { + return Some(sc); + } + } + } else if let Some(sc_name) = self.cmd.find_long_subcmd(arg) { + return Some(sc_name); + } + None + } + + fn parse_help_subcommand( + &self, + cmds: impl Iterator<Item = &'cmd OsStr>, + ) -> ClapResult<std::convert::Infallible> { + debug!("Parser::parse_help_subcommand"); + + let mut cmd = self.cmd.clone(); + let sc = { + let mut sc = &mut cmd; + + for cmd in cmds { + sc = if let Some(sc_name) = + sc.find_subcommand(cmd).map(|sc| sc.get_name().to_owned()) + { + sc._build_subcommand(&sc_name).unwrap() + } else { + return Err(ClapError::unrecognized_subcommand( + sc, + cmd.to_string_lossy().into_owned(), + Usage::new(sc).create_usage_with_title(&[]), + )); + }; + } + + sc + }; + let parser = Parser::new(sc); + + Err(parser.help_err(true)) + } + + fn is_new_arg(&self, next: &clap_lex::ParsedArg<'_>, current_positional: &Arg) -> bool { + #![allow(clippy::needless_bool)] // Prefer consistent if/else-if ladder + + debug!( + "Parser::is_new_arg: {:?}:{}", + next.to_value_os(), + current_positional.get_id() + ); + + if self.cmd[current_positional.get_id()].is_allow_hyphen_values_set() + || (self.cmd[current_positional.get_id()].is_allow_negative_numbers_set() + && next.is_number()) + { + // If allow hyphen, this isn't a new arg. + debug!("Parser::is_new_arg: Allow hyphen"); + false + } else if next.is_long() { + // If this is a long flag, this is a new arg. + debug!("Parser::is_new_arg: --<something> found"); + true + } else if next.is_short() { + // If this is a short flag, this is a new arg. But a singe '-' by + // itself is a value and typically means "stdin" on unix systems. + debug!("Parser::is_new_arg: -<something> found"); + true + } else { + // Nothing special, this is a value. + debug!("Parser::is_new_arg: value"); + false + } + } + + fn parse_subcommand( + &mut self, + sc_name: &str, + matcher: &mut ArgMatcher, + raw_args: &mut clap_lex::RawArgs, + args_cursor: clap_lex::ArgCursor, + keep_state: bool, + ) -> ClapResult<()> { + debug!("Parser::parse_subcommand"); + + let partial_parsing_enabled = self.cmd.is_ignore_errors_set(); + + if let Some(sc) = self.cmd._build_subcommand(sc_name) { + let mut sc_matcher = ArgMatcher::new(sc); + + debug!( + "Parser::parse_subcommand: About to parse sc={}", + sc.get_name() + ); + + { + let mut p = Parser::new(sc); + // HACK: maintain indexes between parsers + // FlagSubCommand short arg needs to revisit the current short args, but skip the subcommand itself + if keep_state { + p.cur_idx.set(self.cur_idx.get()); + p.flag_subcmd_at = self.flag_subcmd_at; + p.flag_subcmd_skip = self.flag_subcmd_skip; + } + if let Err(error) = p.get_matches_with(&mut sc_matcher, raw_args, args_cursor) { + if partial_parsing_enabled { + debug!( + "Parser::parse_subcommand: ignored error in subcommand {}: {:?}", + sc_name, error + ); + } else { + return Err(error); + } + } + } + matcher.subcommand(SubCommand { + name: sc.get_name().to_owned(), + matches: sc_matcher.into_inner(), + }); + } + Ok(()) + } + + fn parse_long_arg( + &mut self, + matcher: &mut ArgMatcher, + long_arg: Result<&str, &OsStr>, + long_value: Option<&OsStr>, + parse_state: &ParseState, + pos_counter: usize, + valid_arg_found: &mut bool, + ) -> ClapResult<ParseResult> { + // maybe here lifetime should be 'a + debug!("Parser::parse_long_arg"); + + #[allow(clippy::blocks_in_if_conditions)] + if matches!(parse_state, ParseState::Opt(opt) | ParseState::Pos(opt) if + self.cmd[opt].is_allow_hyphen_values_set()) + { + debug!("Parser::parse_long_arg: prior arg accepts hyphenated values",); + return Ok(ParseResult::MaybeHyphenValue); + } + + debug!("Parser::parse_long_arg: Does it contain '='..."); + let long_arg = match long_arg { + Ok(long_arg) => long_arg, + Err(long_arg_os) => { + return Ok(ParseResult::NoMatchingArg { + arg: long_arg_os.to_string_lossy().into_owned(), + }) + } + }; + if long_arg.is_empty() { + debug_assert!( + long_value.is_some(), + "`--` should be filtered out before this point" + ); + } + + let arg = if let Some(arg) = self.cmd.get_keymap().get(long_arg) { + debug!("Parser::parse_long_arg: Found valid arg or flag '{}'", arg); + Some((long_arg, arg)) + } else if self.cmd.is_infer_long_args_set() { + self.cmd.get_arguments().find_map(|a| { + if let Some(long) = a.get_long() { + if long.starts_with(long_arg) { + return Some((long, a)); + } + } + a.aliases + .iter() + .find_map(|(alias, _)| alias.starts_with(long_arg).then(|| (alias.as_str(), a))) + }) + } else { + None + }; + + if let Some((_long_arg, arg)) = arg { + let ident = Identifier::Long; + *valid_arg_found = true; + if arg.is_takes_value_set() { + debug!( + "Parser::parse_long_arg({:?}): Found an arg with value '{:?}'", + long_arg, &long_value + ); + let has_eq = long_value.is_some(); + self.parse_opt_value(ident, long_value, arg, matcher, has_eq) + } else if let Some(rest) = long_value { + let required = self.cmd.required_graph(); + debug!( + "Parser::parse_long_arg({:?}): Got invalid literal `{:?}`", + long_arg, rest + ); + let mut used: Vec<Id> = matcher + .arg_ids() + .filter(|arg_id| { + matcher.check_explicit(arg_id, &crate::builder::ArgPredicate::IsPresent) + }) + .filter(|&n| { + self.cmd.find(n).map_or(true, |a| { + !(a.is_hide_set() || required.contains(a.get_id())) + }) + }) + .cloned() + .collect(); + used.push(arg.get_id().clone()); + + Ok(ParseResult::UnneededAttachedValue { + rest: rest.to_string_lossy().into_owned(), + used, + arg: arg.to_string(), + }) + } else { + debug!("Parser::parse_long_arg({:?}): Presence validated", long_arg); + let trailing_idx = None; + self.react( + Some(ident), + ValueSource::CommandLine, + arg, + vec![], + trailing_idx, + matcher, + ) + } + } else if let Some(sc_name) = self.possible_long_flag_subcommand(long_arg) { + Ok(ParseResult::FlagSubCommand(sc_name.to_string())) + } else if self + .cmd + .get_keymap() + .get(&pos_counter) + .map_or(false, |arg| { + arg.is_allow_hyphen_values_set() && !arg.is_last_set() + }) + { + debug!( + "Parser::parse_long_args: positional at {} allows hyphens", + pos_counter + ); + Ok(ParseResult::MaybeHyphenValue) + } else { + Ok(ParseResult::NoMatchingArg { + arg: long_arg.to_owned(), + }) + } + } + + fn parse_short_arg( + &mut self, + matcher: &mut ArgMatcher, + mut short_arg: clap_lex::ShortFlags<'_>, + parse_state: &ParseState, + // change this to possible pos_arg when removing the usage of &mut Parser. + pos_counter: usize, + valid_arg_found: &mut bool, + ) -> ClapResult<ParseResult> { + debug!("Parser::parse_short_arg: short_arg={:?}", short_arg); + + #[allow(clippy::blocks_in_if_conditions)] + if matches!(parse_state, ParseState::Opt(opt) | ParseState::Pos(opt) + if self.cmd[opt].is_allow_hyphen_values_set() || (self.cmd[opt].is_allow_negative_numbers_set() && short_arg.is_number())) + { + debug!("Parser::parse_short_args: prior arg accepts hyphenated values",); + return Ok(ParseResult::MaybeHyphenValue); + } else if self + .cmd + .get_keymap() + .get(&pos_counter) + .map_or(false, |arg| arg.is_allow_negative_numbers_set()) + && short_arg.is_number() + { + debug!("Parser::parse_short_arg: negative number"); + return Ok(ParseResult::MaybeHyphenValue); + } else if self + .cmd + .get_keymap() + .get(&pos_counter) + .map_or(false, |arg| { + arg.is_allow_hyphen_values_set() && !arg.is_last_set() + }) + && short_arg + .clone() + .any(|c| !c.map(|c| self.cmd.contains_short(c)).unwrap_or_default()) + { + debug!( + "Parser::parse_short_args: positional at {} allows hyphens", + pos_counter + ); + return Ok(ParseResult::MaybeHyphenValue); + } + + let mut ret = ParseResult::NoArg; + + let skip = self.flag_subcmd_skip; + self.flag_subcmd_skip = 0; + let res = short_arg.advance_by(skip); + debug_assert_eq!( + res, + Ok(()), + "tracking of `flag_subcmd_skip` is off for `{short_arg:?}`" + ); + while let Some(c) = short_arg.next_flag() { + let c = match c { + Ok(c) => c, + Err(rest) => { + return Ok(ParseResult::NoMatchingArg { + arg: format!("-{}", rest.to_string_lossy()), + }); + } + }; + debug!("Parser::parse_short_arg:iter:{}", c); + + // Check for matching short options, and return the name if there is no trailing + // concatenated value: -oval + // Option: -o + // Value: val + if let Some(arg) = self.cmd.get_keymap().get(&c) { + let ident = Identifier::Short; + debug!( + "Parser::parse_short_arg:iter:{}: Found valid opt or flag", + c + ); + *valid_arg_found = true; + if !arg.is_takes_value_set() { + let arg_values = Vec::new(); + let trailing_idx = None; + ret = ok!(self.react( + Some(ident), + ValueSource::CommandLine, + arg, + arg_values, + trailing_idx, + matcher, + )); + continue; + } + + // Check for trailing concatenated value + // + // Cloning the iterator, so we rollback if it isn't there. + let val = short_arg.clone().next_value_os().unwrap_or_default(); + debug!( + "Parser::parse_short_arg:iter:{}: val={:?}, short_arg={:?}", + c, val, short_arg + ); + let val = Some(val).filter(|v| !v.is_empty()); + + // Default to "we're expecting a value later". + // + // If attached value is not consumed, we may have more short + // flags to parse, continue. + // + // e.g. `-xvf`, when require_equals && x.min_vals == 0, we don't + // consume the `vf`, even if it's provided as value. + let (val, has_eq) = if let Some(val) = val.and_then(|v| v.strip_prefix("=")) { + (Some(val), true) + } else { + (val, false) + }; + match ok!(self.parse_opt_value(ident, val, arg, matcher, has_eq)) { + ParseResult::AttachedValueNotConsumed => continue, + x => return Ok(x), + } + } + + return if let Some(sc_name) = self.cmd.find_short_subcmd(c) { + debug!("Parser::parse_short_arg:iter:{}: subcommand={}", c, sc_name); + // Make sure indices get updated before reading `self.cur_idx` + ok!(self.resolve_pending(matcher)); + self.cur_idx.set(self.cur_idx.get() + 1); + debug!("Parser::parse_short_arg: cur_idx:={}", self.cur_idx.get()); + + let name = sc_name.to_string(); + // Get the index of the previously saved flag subcommand in the group of flags (if exists). + // If it is a new flag subcommand, then the formentioned index should be the current one + // (ie. `cur_idx`), and should be registered. + let cur_idx = self.cur_idx.get(); + self.flag_subcmd_at.get_or_insert(cur_idx); + let done_short_args = short_arg.is_empty(); + if done_short_args { + self.flag_subcmd_at = None; + } + Ok(ParseResult::FlagSubCommand(name)) + } else { + Ok(ParseResult::NoMatchingArg { + arg: format!("-{c}"), + }) + }; + } + Ok(ret) + } + + fn parse_opt_value( + &self, + ident: Identifier, + attached_value: Option<&OsStr>, + arg: &Arg, + matcher: &mut ArgMatcher, + has_eq: bool, + ) -> ClapResult<ParseResult> { + debug!( + "Parser::parse_opt_value; arg={}, val={:?}, has_eq={:?}", + arg.get_id(), + attached_value, + has_eq + ); + debug!("Parser::parse_opt_value; arg.settings={:?}", arg.settings); + + debug!("Parser::parse_opt_value; Checking for val..."); + // require_equals is set, but no '=' is provided, try throwing error. + if arg.is_require_equals_set() && !has_eq { + if arg.get_min_vals() == 0 { + debug!("Requires equals, but min_vals == 0"); + let arg_values = Vec::new(); + let trailing_idx = None; + let react_result = ok!(self.react( + Some(ident), + ValueSource::CommandLine, + arg, + arg_values, + trailing_idx, + matcher, + )); + debug_assert_eq!(react_result, ParseResult::ValuesDone); + if attached_value.is_some() { + Ok(ParseResult::AttachedValueNotConsumed) + } else { + Ok(ParseResult::ValuesDone) + } + } else { + debug!("Requires equals but not provided. Error."); + Ok(ParseResult::EqualsNotProvided { + arg: arg.to_string(), + }) + } + } else if let Some(v) = attached_value { + let arg_values = vec![v.to_owned()]; + let trailing_idx = None; + let react_result = ok!(self.react( + Some(ident), + ValueSource::CommandLine, + arg, + arg_values, + trailing_idx, + matcher, + )); + debug_assert_eq!(react_result, ParseResult::ValuesDone); + // Attached are always done + Ok(ParseResult::ValuesDone) + } else { + debug!("Parser::parse_opt_value: More arg vals required..."); + ok!(self.resolve_pending(matcher)); + let trailing_values = false; + matcher.pending_values_mut(arg.get_id(), Some(ident), trailing_values); + Ok(ParseResult::Opt(arg.get_id().clone())) + } + } + + fn check_terminator(&self, arg: &Arg, val: &OsStr) -> Option<ParseResult> { + if Some(val) == arg.terminator.as_ref().map(|s| OsStr::new(s.as_str())) { + debug!("Parser::check_terminator: terminator={:?}", arg.terminator); + Some(ParseResult::ValuesDone) + } else { + None + } + } + + fn push_arg_values( + &self, + arg: &Arg, + raw_vals: Vec<OsString>, + matcher: &mut ArgMatcher, + ) -> ClapResult<()> { + debug!("Parser::push_arg_values: {:?}", raw_vals); + + for raw_val in raw_vals { + // update the current index because each value is a distinct index to clap + self.cur_idx.set(self.cur_idx.get() + 1); + debug!( + "Parser::add_single_val_to_arg: cur_idx:={}", + self.cur_idx.get() + ); + let value_parser = arg.get_value_parser(); + let val = ok!(value_parser.parse_ref(self.cmd, Some(arg), &raw_val)); + + matcher.add_val_to(arg.get_id(), val, raw_val); + matcher.add_index_to(arg.get_id(), self.cur_idx.get()); + } + + Ok(()) + } + + fn resolve_pending(&self, matcher: &mut ArgMatcher) -> ClapResult<()> { + let pending = match matcher.take_pending() { + Some(pending) => pending, + None => { + return Ok(()); + } + }; + + debug!("Parser::resolve_pending: id={:?}", pending.id); + let arg = self.cmd.find(&pending.id).expect(INTERNAL_ERROR_MSG); + let _ = ok!(self.react( + pending.ident, + ValueSource::CommandLine, + arg, + pending.raw_vals, + pending.trailing_idx, + matcher, + )); + + Ok(()) + } + + fn react( + &self, + ident: Option<Identifier>, + source: ValueSource, + arg: &Arg, + mut raw_vals: Vec<OsString>, + mut trailing_idx: Option<usize>, + matcher: &mut ArgMatcher, + ) -> ClapResult<ParseResult> { + ok!(self.resolve_pending(matcher)); + + debug!( + "Parser::react action={:?}, identifier={:?}, source={:?}", + arg.get_action(), + ident, + source + ); + + // Process before `default_missing_values` to avoid it counting as values from the command + // line + if source == ValueSource::CommandLine { + ok!(self.verify_num_args(arg, &raw_vals)); + } + + if raw_vals.is_empty() { + // We assume this case is valid: require equals, but min_vals == 0. + if !arg.default_missing_vals.is_empty() { + debug!("Parser::react: has default_missing_vals"); + trailing_idx = None; + raw_vals.extend( + arg.default_missing_vals + .iter() + .map(|s| s.as_os_str().to_owned()), + ); + } + } + + if let Some(val_delim) = arg.get_value_delimiter() { + if self.cmd.is_dont_delimit_trailing_values_set() && trailing_idx == Some(0) { + // Nothing to do + } else { + let mut val_delim_buffer = [0; 4]; + let val_delim = val_delim.encode_utf8(&mut val_delim_buffer); + let mut split_raw_vals = Vec::with_capacity(raw_vals.len()); + for (i, raw_val) in raw_vals.into_iter().enumerate() { + if !raw_val.contains(val_delim) + || (self.cmd.is_dont_delimit_trailing_values_set() + && trailing_idx == Some(i)) + { + split_raw_vals.push(raw_val); + } else { + split_raw_vals.extend(raw_val.split(val_delim).map(|x| x.to_owned())); + } + } + raw_vals = split_raw_vals + } + } + + match arg.get_action() { + ArgAction::Set => { + if source == ValueSource::CommandLine + && matches!(ident, Some(Identifier::Short) | Some(Identifier::Long)) + { + // Record flag's index + self.cur_idx.set(self.cur_idx.get() + 1); + debug!("Parser::react: cur_idx:={}", self.cur_idx.get()); + } + if matcher.remove(arg.get_id()) + && !(self.cmd.is_args_override_self() || arg.overrides.contains(arg.get_id())) + { + return Err(ClapError::argument_conflict( + self.cmd, + arg.to_string(), + vec![arg.to_string()], + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + self.start_custom_arg(matcher, arg, source); + ok!(self.push_arg_values(arg, raw_vals, matcher)); + if cfg!(debug_assertions) && matcher.needs_more_vals(arg) { + debug!( + "Parser::react not enough values passed in, leaving it to the validator to complain", + ); + } + Ok(ParseResult::ValuesDone) + } + ArgAction::Append => { + if source == ValueSource::CommandLine + && matches!(ident, Some(Identifier::Short) | Some(Identifier::Long)) + { + // Record flag's index + self.cur_idx.set(self.cur_idx.get() + 1); + debug!("Parser::react: cur_idx:={}", self.cur_idx.get()); + } + self.start_custom_arg(matcher, arg, source); + ok!(self.push_arg_values(arg, raw_vals, matcher)); + if cfg!(debug_assertions) && matcher.needs_more_vals(arg) { + debug!( + "Parser::react not enough values passed in, leaving it to the validator to complain", + ); + } + Ok(ParseResult::ValuesDone) + } + ArgAction::SetTrue => { + let raw_vals = if raw_vals.is_empty() { + vec![OsString::from("true")] + } else { + raw_vals + }; + + if matcher.remove(arg.get_id()) + && !(self.cmd.is_args_override_self() || arg.overrides.contains(arg.get_id())) + { + return Err(ClapError::argument_conflict( + self.cmd, + arg.to_string(), + vec![arg.to_string()], + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + self.start_custom_arg(matcher, arg, source); + ok!(self.push_arg_values(arg, raw_vals, matcher)); + Ok(ParseResult::ValuesDone) + } + ArgAction::SetFalse => { + let raw_vals = if raw_vals.is_empty() { + vec![OsString::from("false")] + } else { + raw_vals + }; + + if matcher.remove(arg.get_id()) + && !(self.cmd.is_args_override_self() || arg.overrides.contains(arg.get_id())) + { + return Err(ClapError::argument_conflict( + self.cmd, + arg.to_string(), + vec![arg.to_string()], + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + self.start_custom_arg(matcher, arg, source); + ok!(self.push_arg_values(arg, raw_vals, matcher)); + Ok(ParseResult::ValuesDone) + } + ArgAction::Count => { + let raw_vals = if raw_vals.is_empty() { + let existing_value = *matcher + .get_one::<crate::builder::CountType>(arg.get_id().as_str()) + .unwrap_or(&0); + let next_value = existing_value.saturating_add(1); + vec![OsString::from(next_value.to_string())] + } else { + raw_vals + }; + + matcher.remove(arg.get_id()); + self.start_custom_arg(matcher, arg, source); + ok!(self.push_arg_values(arg, raw_vals, matcher)); + Ok(ParseResult::ValuesDone) + } + ArgAction::Help => { + let use_long = match ident { + Some(Identifier::Long) => true, + Some(Identifier::Short) => false, + Some(Identifier::Index) => true, + None => true, + }; + debug!("Help: use_long={}", use_long); + Err(self.help_err(use_long)) + } + ArgAction::Version => { + let use_long = match ident { + Some(Identifier::Long) => true, + Some(Identifier::Short) => false, + Some(Identifier::Index) => true, + None => true, + }; + debug!("Version: use_long={}", use_long); + Err(self.version_err(use_long)) + } + } + } + + fn verify_num_args(&self, arg: &Arg, raw_vals: &[OsString]) -> ClapResult<()> { + if self.cmd.is_ignore_errors_set() { + return Ok(()); + } + + let actual = raw_vals.len(); + let expected = arg.get_num_args().expect(INTERNAL_ERROR_MSG); + + if 0 < expected.min_values() && actual == 0 { + // Issue 665 (https://github.com/clap-rs/clap/issues/665) + // Issue 1105 (https://github.com/clap-rs/clap/issues/1105) + return Err(ClapError::empty_value( + self.cmd, + &super::get_possible_values_cli(arg) + .iter() + .filter(|pv| !pv.is_hide_set()) + .map(|n| n.get_name().to_owned()) + .collect::<Vec<_>>(), + arg.to_string(), + )); + } else if let Some(expected) = expected.num_values() { + if expected != actual { + debug!("Validator::validate_arg_num_vals: Sending error WrongNumberOfValues"); + return Err(ClapError::wrong_number_of_values( + self.cmd, + arg.to_string(), + expected, + actual, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + } else if actual < expected.min_values() { + return Err(ClapError::too_few_values( + self.cmd, + arg.to_string(), + expected.min_values(), + actual, + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } else if expected.max_values() < actual { + debug!("Validator::validate_arg_num_vals: Sending error TooManyValues"); + return Err(ClapError::too_many_values( + self.cmd, + raw_vals + .last() + .expect(INTERNAL_ERROR_MSG) + .to_string_lossy() + .into_owned(), + arg.to_string(), + Usage::new(self.cmd).create_usage_with_title(&[]), + )); + } + + Ok(()) + } + + fn remove_overrides(&self, arg: &Arg, matcher: &mut ArgMatcher) { + debug!("Parser::remove_overrides: id={:?}", arg.id); + for override_id in &arg.overrides { + debug!("Parser::remove_overrides:iter:{:?}: removing", override_id); + matcher.remove(override_id); + } + + // Override anything that can override us + let mut transitive = Vec::new(); + for arg_id in matcher.arg_ids() { + if let Some(overrider) = self.cmd.find(arg_id) { + if overrider.overrides.contains(arg.get_id()) { + transitive.push(overrider.get_id()); + } + } + } + for overrider_id in transitive { + debug!("Parser::remove_overrides:iter:{:?}: removing", overrider_id); + matcher.remove(overrider_id); + } + } + + #[cfg(feature = "env")] + fn add_env(&mut self, matcher: &mut ArgMatcher) -> ClapResult<()> { + debug!("Parser::add_env"); + + for arg in self.cmd.get_arguments() { + // Use env only if the arg was absent among command line args, + // early return if this is not the case. + if matcher.contains(&arg.id) { + debug!("Parser::add_env: Skipping existing arg `{}`", arg); + continue; + } + + debug!("Parser::add_env: Checking arg `{}`", arg); + if let Some((_, Some(ref val))) = arg.env { + debug!("Parser::add_env: Found an opt with value={:?}", val); + let arg_values = vec![val.to_owned()]; + let trailing_idx = None; + let _ = ok!(self.react( + None, + ValueSource::EnvVariable, + arg, + arg_values, + trailing_idx, + matcher, + )); + } + } + + Ok(()) + } + + fn add_defaults(&self, matcher: &mut ArgMatcher) -> ClapResult<()> { + debug!("Parser::add_defaults"); + + for arg in self.cmd.get_arguments() { + debug!("Parser::add_defaults:iter:{}:", arg.get_id()); + ok!(self.add_default_value(arg, matcher)); + } + + Ok(()) + } + + fn add_default_value(&self, arg: &Arg, matcher: &mut ArgMatcher) -> ClapResult<()> { + if !arg.default_vals_ifs.is_empty() { + debug!("Parser::add_default_value: has conditional defaults"); + if !matcher.contains(arg.get_id()) { + for (id, val, default) in arg.default_vals_ifs.iter() { + let add = if let Some(a) = matcher.get(id) { + match val { + crate::builder::ArgPredicate::Equals(v) => { + a.raw_vals_flatten().any(|value| v == value) + } + crate::builder::ArgPredicate::IsPresent => true, + } + } else { + false + }; + + if add { + if let Some(default) = default { + let arg_values = vec![default.to_os_string()]; + let trailing_idx = None; + let _ = ok!(self.react( + None, + ValueSource::DefaultValue, + arg, + arg_values, + trailing_idx, + matcher, + )); + } + return Ok(()); + } + } + } + } else { + debug!("Parser::add_default_value: doesn't have conditional defaults"); + } + + if !arg.default_vals.is_empty() { + debug!( + "Parser::add_default_value:iter:{}: has default vals", + arg.get_id() + ); + if matcher.contains(arg.get_id()) { + debug!("Parser::add_default_value:iter:{}: was used", arg.get_id()); + // do nothing + } else { + debug!( + "Parser::add_default_value:iter:{}: wasn't used", + arg.get_id() + ); + let arg_values: Vec<_> = arg + .default_vals + .iter() + .map(crate::builder::OsStr::to_os_string) + .collect(); + let trailing_idx = None; + let _ = ok!(self.react( + None, + ValueSource::DefaultValue, + arg, + arg_values, + trailing_idx, + matcher, + )); + } + } else { + debug!( + "Parser::add_default_value:iter:{}: doesn't have default vals", + arg.get_id() + ); + + // do nothing + } + + Ok(()) + } + + fn start_custom_arg(&self, matcher: &mut ArgMatcher, arg: &Arg, source: ValueSource) { + if source == ValueSource::CommandLine { + // With each new occurrence, remove overrides from prior occurrences + self.remove_overrides(arg, matcher); + } + matcher.start_custom_arg(arg, source); + if source.is_explicit() { + for group in self.cmd.groups_for_arg(arg.get_id()) { + matcher.start_custom_group(group.clone(), source); + matcher.add_val_to( + &group, + AnyValue::new(arg.get_id().clone()), + OsString::from(arg.get_id().as_str()), + ); + } + } + } +} + +// Error, Help, and Version Methods +impl<'cmd> Parser<'cmd> { + /// Is only used for the long flag(which is the only one needs fuzzy searching) + fn did_you_mean_error( + &mut self, + arg: &str, + matcher: &mut ArgMatcher, + remaining_args: &[&OsStr], + trailing_values: bool, + ) -> ClapError { + debug!("Parser::did_you_mean_error: arg={}", arg); + // Didn't match a flag or option + let longs = self + .cmd + .get_keymap() + .keys() + .filter_map(|x| match x { + KeyType::Long(l) => Some(l.to_string_lossy().into_owned()), + _ => None, + }) + .collect::<Vec<_>>(); + debug!("Parser::did_you_mean_error: longs={:?}", longs); + + let did_you_mean = suggestions::did_you_mean_flag( + arg, + remaining_args, + longs.iter().map(|x| &x[..]), + self.cmd.get_subcommands_mut(), + ); + + // Add the arg to the matches to build a proper usage string + if let Some((name, _)) = did_you_mean.as_ref() { + if let Some(arg) = self.cmd.get_keymap().get(&name.as_ref()) { + self.start_custom_arg(matcher, arg, ValueSource::CommandLine); + } + } + + let required = self.cmd.required_graph(); + let used: Vec<Id> = matcher + .arg_ids() + .filter(|arg_id| { + matcher.check_explicit(arg_id, &crate::builder::ArgPredicate::IsPresent) + }) + .filter(|n| self.cmd.find(n).map_or(true, |a| !a.is_hide_set())) + .cloned() + .collect(); + + // `did_you_mean` is a lot more likely and should cause us to skip the `--` suggestion + // + // In theory, this is only called for `--long`s, so we don't need to check + let suggested_trailing_arg = + did_you_mean.is_none() && !trailing_values && self.cmd.has_positionals(); + ClapError::unknown_argument( + self.cmd, + format!("--{arg}"), + did_you_mean, + suggested_trailing_arg, + Usage::new(self.cmd) + .required(&required) + .create_usage_with_title(&used), + ) + } + + fn help_err(&self, use_long: bool) -> ClapError { + let styled = self.cmd.write_help_err(use_long); + ClapError::display_help(self.cmd, styled) + } + + fn version_err(&self, use_long: bool) -> ClapError { + let styled = self.cmd.write_version_err(use_long); + ClapError::display_version(self.cmd, styled) + } +} + +#[derive(Debug, PartialEq, Eq)] +pub(crate) enum ParseState { + ValuesDone, + Opt(Id), + Pos(Id), +} + +/// Recoverable Parsing results. +#[derive(Debug, PartialEq, Clone)] +#[must_use] +enum ParseResult { + FlagSubCommand(String), + Opt(Id), + ValuesDone, + /// Value attached to the short flag is not consumed(e.g. 'u' for `-cu` is + /// not consumed). + AttachedValueNotConsumed, + /// This long flag doesn't need a value but is provided one. + UnneededAttachedValue { + rest: String, + used: Vec<Id>, + arg: String, + }, + /// This flag might be an hyphen Value. + MaybeHyphenValue, + /// Equals required but not provided. + EqualsNotProvided { + arg: String, + }, + /// Failed to match a Arg. + NoMatchingArg { + arg: String, + }, + /// No argument found e.g. parser is given `-` when parsing a flag. + NoArg, +} + +#[derive(Clone, Debug, PartialEq, Eq)] +pub(crate) struct PendingArg { + pub(crate) id: Id, + pub(crate) ident: Option<Identifier>, + pub(crate) raw_vals: Vec<OsString>, + pub(crate) trailing_idx: Option<usize>, +} + +#[derive(Copy, Clone, Debug, PartialEq, Eq)] +pub(crate) enum Identifier { + Short, + Long, + Index, +} diff --git a/vendor/clap_builder/src/parser/validator.rs b/vendor/clap_builder/src/parser/validator.rs new file mode 100644 index 000000000..49d28a34f --- /dev/null +++ b/vendor/clap_builder/src/parser/validator.rs @@ -0,0 +1,562 @@ +// Internal +use crate::builder::StyledStr; +use crate::builder::{Arg, ArgGroup, ArgPredicate, Command, PossibleValue}; +use crate::error::{Error, Result as ClapResult}; +use crate::output::Usage; +use crate::parser::{ArgMatcher, ParseState}; +use crate::util::ChildGraph; +use crate::util::FlatMap; +use crate::util::FlatSet; +use crate::util::Id; +use crate::INTERNAL_ERROR_MSG; + +pub(crate) struct Validator<'cmd> { + cmd: &'cmd Command, + required: ChildGraph<Id>, +} + +impl<'cmd> Validator<'cmd> { + pub(crate) fn new(cmd: &'cmd Command) -> Self { + let required = cmd.required_graph(); + Validator { cmd, required } + } + + pub(crate) fn validate( + &mut self, + parse_state: ParseState, + matcher: &mut ArgMatcher, + ) -> ClapResult<()> { + debug!("Validator::validate"); + let conflicts = Conflicts::with_args(self.cmd, matcher); + let has_subcmd = matcher.subcommand_name().is_some(); + + if let ParseState::Opt(a) = parse_state { + debug!("Validator::validate: needs_val_of={:?}", a); + + let o = &self.cmd[&a]; + let should_err = if let Some(v) = matcher.args.get(o.get_id()) { + v.all_val_groups_empty() && o.get_min_vals() != 0 + } else { + true + }; + if should_err { + return Err(Error::empty_value( + self.cmd, + &get_possible_values_cli(o) + .iter() + .filter(|pv| !pv.is_hide_set()) + .map(|n| n.get_name().to_owned()) + .collect::<Vec<_>>(), + o.to_string(), + )); + } + } + + if !has_subcmd && self.cmd.is_arg_required_else_help_set() { + let num_user_values = matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .count(); + if num_user_values == 0 { + let message = self.cmd.write_help_err(false); + return Err(Error::display_help_error(self.cmd, message)); + } + } + if !has_subcmd && self.cmd.is_subcommand_required_set() { + let bn = self + .cmd + .get_bin_name() + .unwrap_or_else(|| self.cmd.get_name()); + return Err(Error::missing_subcommand( + self.cmd, + bn.to_string(), + self.cmd + .all_subcommand_names() + .map(|s| s.to_owned()) + .collect::<Vec<_>>(), + Usage::new(self.cmd) + .required(&self.required) + .create_usage_with_title(&[]), + )); + } + + ok!(self.validate_conflicts(matcher, &conflicts)); + if !(self.cmd.is_subcommand_negates_reqs_set() && has_subcmd) { + ok!(self.validate_required(matcher, &conflicts)); + } + + Ok(()) + } + + fn validate_conflicts( + &mut self, + matcher: &ArgMatcher, + conflicts: &Conflicts, + ) -> ClapResult<()> { + debug!("Validator::validate_conflicts"); + + ok!(self.validate_exclusive(matcher)); + + for (arg_id, _) in matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .filter(|(arg_id, _)| self.cmd.find(arg_id).is_some()) + { + debug!("Validator::validate_conflicts::iter: id={:?}", arg_id); + let conflicts = conflicts.gather_conflicts(self.cmd, arg_id); + ok!(self.build_conflict_err(arg_id, &conflicts, matcher)); + } + + Ok(()) + } + + fn validate_exclusive(&self, matcher: &ArgMatcher) -> ClapResult<()> { + debug!("Validator::validate_exclusive"); + let args_count = matcher + .args() + .filter(|(arg_id, matched)| { + matched.check_explicit(&crate::builder::ArgPredicate::IsPresent) + // Avoid including our own groups by checking none of them. If a group is present, the + // args for the group will be. + && self.cmd.find(arg_id).is_some() + }) + .count(); + if args_count <= 1 { + // Nothing present to conflict with + return Ok(()); + } + + matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&crate::builder::ArgPredicate::IsPresent)) + .filter_map(|(id, _)| { + debug!("Validator::validate_exclusive:iter:{:?}", id); + self.cmd + .find(id) + // Find `arg`s which are exclusive but also appear with other args. + .filter(|&arg| arg.is_exclusive_set() && args_count > 1) + }) + // Throw an error for the first conflict found. + .try_for_each(|arg| { + Err(Error::argument_conflict( + self.cmd, + arg.to_string(), + Vec::new(), + Usage::new(self.cmd) + .required(&self.required) + .create_usage_with_title(&[]), + )) + }) + } + + fn build_conflict_err( + &self, + name: &Id, + conflict_ids: &[Id], + matcher: &ArgMatcher, + ) -> ClapResult<()> { + if conflict_ids.is_empty() { + return Ok(()); + } + + debug!("Validator::build_conflict_err: name={:?}", name); + let mut seen = FlatSet::new(); + let conflicts = conflict_ids + .iter() + .flat_map(|c_id| { + if self.cmd.find_group(c_id).is_some() { + self.cmd.unroll_args_in_group(c_id) + } else { + vec![c_id.clone()] + } + }) + .filter_map(|c_id| { + seen.insert(c_id.clone()).then(|| { + let c_arg = self.cmd.find(&c_id).expect(INTERNAL_ERROR_MSG); + c_arg.to_string() + }) + }) + .collect(); + + let former_arg = self.cmd.find(name).expect(INTERNAL_ERROR_MSG); + let usg = self.build_conflict_err_usage(matcher, conflict_ids); + Err(Error::argument_conflict( + self.cmd, + former_arg.to_string(), + conflicts, + usg, + )) + } + + fn build_conflict_err_usage( + &self, + matcher: &ArgMatcher, + conflicting_keys: &[Id], + ) -> Option<StyledStr> { + let used_filtered: Vec<Id> = matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .map(|(n, _)| n) + .filter(|n| { + // Filter out the args we don't want to specify. + self.cmd.find(n).map_or(false, |a| !a.is_hide_set()) + }) + .filter(|key| !conflicting_keys.contains(key)) + .cloned() + .collect(); + let required: Vec<Id> = used_filtered + .iter() + .filter_map(|key| self.cmd.find(key)) + .flat_map(|arg| arg.requires.iter().map(|item| &item.1)) + .filter(|key| !used_filtered.contains(key) && !conflicting_keys.contains(key)) + .chain(used_filtered.iter()) + .cloned() + .collect(); + Usage::new(self.cmd) + .required(&self.required) + .create_usage_with_title(&required) + } + + fn gather_requires(&mut self, matcher: &ArgMatcher) { + debug!("Validator::gather_requires"); + for (name, matched) in matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + { + debug!("Validator::gather_requires:iter:{:?}", name); + if let Some(arg) = self.cmd.find(name) { + let is_relevant = |(val, req_arg): &(ArgPredicate, Id)| -> Option<Id> { + let required = matched.check_explicit(val); + required.then(|| req_arg.clone()) + }; + + for req in self.cmd.unroll_arg_requires(is_relevant, arg.get_id()) { + self.required.insert(req); + } + } else if let Some(g) = self.cmd.find_group(name) { + debug!("Validator::gather_requires:iter:{:?}:group", name); + for r in &g.requires { + self.required.insert(r.clone()); + } + } + } + } + + fn validate_required(&mut self, matcher: &ArgMatcher, conflicts: &Conflicts) -> ClapResult<()> { + debug!("Validator::validate_required: required={:?}", self.required); + self.gather_requires(matcher); + + let mut missing_required = Vec::new(); + let mut highest_index = 0; + + let is_exclusive_present = matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .any(|(id, _)| { + self.cmd + .find(id) + .map(|arg| arg.is_exclusive_set()) + .unwrap_or_default() + }); + debug!( + "Validator::validate_required: is_exclusive_present={}", + is_exclusive_present + ); + + for arg_or_group in self + .required + .iter() + .filter(|r| !matcher.check_explicit(r, &ArgPredicate::IsPresent)) + { + debug!("Validator::validate_required:iter:aog={:?}", arg_or_group); + if let Some(arg) = self.cmd.find(arg_or_group) { + debug!("Validator::validate_required:iter: This is an arg"); + if !is_exclusive_present && !self.is_missing_required_ok(arg, conflicts) { + debug!( + "Validator::validate_required:iter: Missing {:?}", + arg.get_id() + ); + missing_required.push(arg.get_id().clone()); + if !arg.is_last_set() { + highest_index = highest_index.max(arg.get_index().unwrap_or(0)); + } + } + } else if let Some(group) = self.cmd.find_group(arg_or_group) { + debug!("Validator::validate_required:iter: This is a group"); + if !self + .cmd + .unroll_args_in_group(&group.id) + .iter() + .any(|a| matcher.check_explicit(a, &ArgPredicate::IsPresent)) + { + debug!( + "Validator::validate_required:iter: Missing {:?}", + group.get_id() + ); + missing_required.push(group.get_id().clone()); + } + } + } + + // Validate the conditionally required args + for a in self + .cmd + .get_arguments() + .filter(|a| !matcher.check_explicit(a.get_id(), &ArgPredicate::IsPresent)) + { + let mut required = false; + + for (other, val) in &a.r_ifs { + if matcher.check_explicit(other, &ArgPredicate::Equals(val.into())) { + debug!( + "Validator::validate_required:iter: Missing {:?}", + a.get_id() + ); + required = true; + } + } + + let match_all = a.r_ifs_all.iter().all(|(other, val)| { + matcher.check_explicit(other, &ArgPredicate::Equals(val.into())) + }); + if match_all && !a.r_ifs_all.is_empty() { + debug!( + "Validator::validate_required:iter: Missing {:?}", + a.get_id() + ); + required = true; + } + + if (!a.r_unless.is_empty() || !a.r_unless_all.is_empty()) + && self.fails_arg_required_unless(a, matcher) + { + debug!( + "Validator::validate_required:iter: Missing {:?}", + a.get_id() + ); + required = true; + } + + if required { + missing_required.push(a.get_id().clone()); + if !a.is_last_set() { + highest_index = highest_index.max(a.get_index().unwrap_or(0)); + } + } + } + + // For display purposes, include all of the preceding positional arguments + if !self.cmd.is_allow_missing_positional_set() { + for pos in self + .cmd + .get_positionals() + .filter(|a| !matcher.check_explicit(a.get_id(), &ArgPredicate::IsPresent)) + { + if pos.get_index() < Some(highest_index) { + debug!( + "Validator::validate_required:iter: Missing {:?}", + pos.get_id() + ); + missing_required.push(pos.get_id().clone()); + } + } + } + + if !missing_required.is_empty() { + ok!(self.missing_required_error(matcher, missing_required)); + } + + Ok(()) + } + + fn is_missing_required_ok(&self, a: &Arg, conflicts: &Conflicts) -> bool { + debug!("Validator::is_missing_required_ok: {}", a.get_id()); + if !conflicts.gather_conflicts(self.cmd, a.get_id()).is_empty() { + debug!("Validator::is_missing_required_ok: true (self)"); + return true; + } + for group_id in self.cmd.groups_for_arg(a.get_id()) { + if !conflicts.gather_conflicts(self.cmd, &group_id).is_empty() { + debug!("Validator::is_missing_required_ok: true ({})", group_id); + return true; + } + } + false + } + + // Failing a required unless means, the arg's "unless" wasn't present, and neither were they + fn fails_arg_required_unless(&self, a: &Arg, matcher: &ArgMatcher) -> bool { + debug!("Validator::fails_arg_required_unless: a={:?}", a.get_id()); + let exists = |id| matcher.check_explicit(id, &ArgPredicate::IsPresent); + + (a.r_unless_all.is_empty() || !a.r_unless_all.iter().all(exists)) + && !a.r_unless.iter().any(exists) + } + + // `req_args`: an arg to include in the error even if not used + fn missing_required_error( + &self, + matcher: &ArgMatcher, + raw_req_args: Vec<Id>, + ) -> ClapResult<()> { + debug!("Validator::missing_required_error; incl={:?}", raw_req_args); + debug!( + "Validator::missing_required_error: reqs={:?}", + self.required + ); + + let usg = Usage::new(self.cmd).required(&self.required); + + let req_args = { + #[cfg(feature = "usage")] + { + usg.get_required_usage_from(&raw_req_args, Some(matcher), true) + .into_iter() + .map(|s| s.to_string()) + .collect::<Vec<_>>() + } + + #[cfg(not(feature = "usage"))] + { + raw_req_args + .iter() + .map(|id| { + if let Some(arg) = self.cmd.find(id) { + arg.to_string() + } else if let Some(_group) = self.cmd.find_group(id) { + self.cmd.format_group(id).to_string() + } else { + debug_assert!(false, "id={:?} is unknown", id); + "".to_owned() + } + }) + .collect::<Vec<_>>() + } + }; + + debug!( + "Validator::missing_required_error: req_args={:#?}", + req_args + ); + + let used: Vec<Id> = matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .map(|(n, _)| n) + .filter(|n| { + // Filter out the args we don't want to specify. + self.cmd.find(n).map_or(false, |a| !a.is_hide_set()) + }) + .cloned() + .chain(raw_req_args) + .collect(); + + Err(Error::missing_required_argument( + self.cmd, + req_args, + usg.create_usage_with_title(&used), + )) + } +} + +#[derive(Default, Clone, Debug)] +struct Conflicts { + potential: FlatMap<Id, Vec<Id>>, +} + +impl Conflicts { + fn with_args(cmd: &Command, matcher: &ArgMatcher) -> Self { + let mut potential = FlatMap::new(); + potential.extend_unchecked( + matcher + .args() + .filter(|(_, matched)| matched.check_explicit(&ArgPredicate::IsPresent)) + .map(|(id, _)| { + let conf = gather_direct_conflicts(cmd, id); + (id.clone(), conf) + }), + ); + Self { potential } + } + + fn gather_conflicts(&self, cmd: &Command, arg_id: &Id) -> Vec<Id> { + debug!("Conflicts::gather_conflicts: arg={:?}", arg_id); + let mut conflicts = Vec::new(); + + let arg_id_conflicts_storage; + let arg_id_conflicts = if let Some(arg_id_conflicts) = self.get_direct_conflicts(arg_id) { + arg_id_conflicts + } else { + // `is_missing_required_ok` is a case where we check not-present args for conflicts + arg_id_conflicts_storage = gather_direct_conflicts(cmd, arg_id); + &arg_id_conflicts_storage + }; + for (other_arg_id, other_arg_id_conflicts) in self.potential.iter() { + if arg_id == other_arg_id { + continue; + } + + if arg_id_conflicts.contains(other_arg_id) { + conflicts.push(other_arg_id.clone()); + } + if other_arg_id_conflicts.contains(arg_id) { + conflicts.push(other_arg_id.clone()); + } + } + + debug!("Conflicts::gather_conflicts: conflicts={:?}", conflicts); + conflicts + } + + fn get_direct_conflicts(&self, arg_id: &Id) -> Option<&[Id]> { + self.potential.get(arg_id).map(Vec::as_slice) + } +} + +fn gather_direct_conflicts(cmd: &Command, id: &Id) -> Vec<Id> { + let conf = if let Some(arg) = cmd.find(id) { + gather_arg_direct_conflicts(cmd, arg) + } else if let Some(group) = cmd.find_group(id) { + gather_group_direct_conflicts(group) + } else { + debug_assert!(false, "id={id:?} is unknown"); + Vec::new() + }; + debug!("Conflicts::gather_direct_conflicts id={id:?}, conflicts={conf:?}",); + conf +} + +fn gather_arg_direct_conflicts(cmd: &Command, arg: &Arg) -> Vec<Id> { + let mut conf = arg.blacklist.clone(); + for group_id in cmd.groups_for_arg(arg.get_id()) { + let group = cmd.find_group(&group_id).expect(INTERNAL_ERROR_MSG); + conf.extend(group.conflicts.iter().cloned()); + if !group.multiple { + for member_id in &group.args { + if member_id != arg.get_id() { + conf.push(member_id.clone()); + } + } + } + } + + // Overrides are implicitly conflicts + conf.extend(arg.overrides.iter().cloned()); + + conf +} + +fn gather_group_direct_conflicts(group: &ArgGroup) -> Vec<Id> { + group.conflicts.clone() +} + +pub(crate) fn get_possible_values_cli(a: &Arg) -> Vec<PossibleValue> { + if !a.is_takes_value_set() { + vec![] + } else { + a.get_value_parser() + .possible_values() + .map(|pvs| pvs.collect()) + .unwrap_or_default() + } +} |