3.2.23/src/parser/arg_matcher.rs - platform/external/rust/crates/clap - Git at Google

 // Std
 use std::collections::HashMap;
 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::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.id.clone());
                     let groups = _cmd.get_groups().map(|g| g.id.clone());
                     args.chain(groups).collect()
                 },
                 #[cfg(debug_assertions)]
                 valid_subcommands: _cmd.get_subcommands().map(|sc| sc.get_id()).collect(),
                 // HACK: Allow an external subcommand's ArgMatches be a stand-in for any ArgMatches
                 // since users can't detect it and avoid the asserts.
                 //
                 // See clap-rs/clap#3263
                 #[cfg(debug_assertions)]
                 #[cfg(not(feature = "unstable-v4"))]
                 disable_asserts: _cmd.is_allow_external_subcommands_set(),
                 #[cfg(debug_assertions)]
                 #[cfg(feature = "unstable-v4")]
                 disable_asserts: false,
                 ..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 = HashMap::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 HashMap<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) {
         self.matches.args.swap_remove(arg);
     }

     pub(crate) fn contains(&self, arg: &Id) -> bool {
         self.matches.args.contains_key(arg)
     }

     pub(crate) fn arg_ids(&self) -> indexmap::map::Keys<Id, MatchedArg> {
         self.matches.args.keys()
     }

     pub(crate) fn entry(&mut self, arg: &Id) -> indexmap::map::Entry<Id, MatchedArg> {
         self.matches.args.entry(arg.clone())
     }

     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 iter(&self) -> indexmap::map::Iter<Id, MatchedArg> {
         self.matches.args.iter()
     }

     pub(crate) fn check_explicit<'a>(&self, arg: &Id, predicate: ArgPredicate<'a>) -> 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.id;
         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_arg(&mut self, arg: &Arg) {
         let id = &arg.id;
         debug!("ArgMatcher::start_occurrence_of_arg: id={:?}", id);
         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(ValueSource::CommandLine);
         #[allow(deprecated)]
         ma.inc_occurrences();
         ma.new_val_group();
     }

     pub(crate) fn start_occurrence_of_group(&mut self, id: &Id) {
         debug!("ArgMatcher::start_occurrence_of_group: id={:?}", id);
         let ma = self.entry(id).or_insert(MatchedArg::new_group());
         debug_assert_eq!(ma.type_id(), None);
         ma.set_source(ValueSource::CommandLine);
         #[allow(deprecated)]
         ma.inc_occurrences();
         ma.new_val_group();
     }

     pub(crate) fn start_occurrence_of_external(&mut self, cmd: &crate::Command) {
         let id = &Id::empty_hash();
         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);
         #[allow(deprecated)]
         ma.inc_occurrences();
         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_resolved = self.get(&o.id).map(|ma| ma.num_vals()).unwrap_or(0);
         let num_pending = self
             .pending
             .as_ref()
             .and_then(|p| (p.id == o.id).then(|| p.raw_vals.len()))
             .unwrap_or(0);
         let current_num = num_resolved + num_pending;
         debug!(
             "ArgMatcher::needs_more_vals: o={}, resolved={}, pending={}",
             o.name, num_resolved, num_pending
         );
         if current_num == 0 {
             true
         } else if let Some(num) = o.num_vals {
             debug!("ArgMatcher::needs_more_vals: num_vals...{}", num);
             #[allow(deprecated)]
             if o.is_multiple_occurrences_set() {
                 (current_num % num) != 0
             } else {
                 num != current_num
             }
         } else if let Some(num) = o.max_vals {
             debug!("ArgMatcher::needs_more_vals: max_vals...{}", num);
             current_num < num
         } else if o.min_vals.is_some() {
             debug!("ArgMatcher::needs_more_vals: min_vals...true");
             true
         } else {
             o.is_multiple_values_set()
         }
     }

     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>,
     ) -> &mut Vec<OsString> {
         let pending = self.pending.get_or_insert_with(|| PendingArg {
             id: id.clone(),
             ident,
             raw_vals: Default::default(),
         });
         debug_assert_eq!(pending.id, *id, "{}", INTERNAL_ERROR_MSG);
         if ident.is_some() {
             debug_assert_eq!(pending.ident, ident, "{}", INTERNAL_ERROR_MSG);
         }
         &mut pending.raw_vals
     }

     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
     }
 }
	// Std
	use std::collections::HashMap;
	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::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.id.clone());
	let groups = _cmd.get_groups().map(\|g\| g.id.clone());
	args.chain(groups).collect()
	},
	#[cfg(debug_assertions)]
	valid_subcommands: _cmd.get_subcommands().map(\|sc\| sc.get_id()).collect(),
	// HACK: Allow an external subcommand's ArgMatches be a stand-in for any ArgMatches
	// since users can't detect it and avoid the asserts.
	//
	// See clap-rs/clap#3263
	#[cfg(debug_assertions)]
	#[cfg(not(feature = "unstable-v4"))]
	disable_asserts: _cmd.is_allow_external_subcommands_set(),
	#[cfg(debug_assertions)]
	#[cfg(feature = "unstable-v4")]
	disable_asserts: false,
	..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 = HashMap::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 HashMap<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) {
	self.matches.args.swap_remove(arg);
	}

	pub(crate) fn contains(&self, arg: &Id) -> bool {
	self.matches.args.contains_key(arg)
	}

	pub(crate) fn arg_ids(&self) -> indexmap::map::Keys<Id, MatchedArg> {
	self.matches.args.keys()
	}

	pub(crate) fn entry(&mut self, arg: &Id) -> indexmap::map::Entry<Id, MatchedArg> {
	self.matches.args.entry(arg.clone())
	}

	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 iter(&self) -> indexmap::map::Iter<Id, MatchedArg> {
	self.matches.args.iter()
	}

	pub(crate) fn check_explicit<'a>(&self, arg: &Id, predicate: ArgPredicate<'a>) -> 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.id;
	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_arg(&mut self, arg: &Arg) {
	let id = &arg.id;
	debug!("ArgMatcher::start_occurrence_of_arg: id={:?}", id);
	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(ValueSource::CommandLine);
	#[allow(deprecated)]
	ma.inc_occurrences();
	ma.new_val_group();
	}

	pub(crate) fn start_occurrence_of_group(&mut self, id: &Id) {
	debug!("ArgMatcher::start_occurrence_of_group: id={:?}", id);
	let ma = self.entry(id).or_insert(MatchedArg::new_group());
	debug_assert_eq!(ma.type_id(), None);
	ma.set_source(ValueSource::CommandLine);
	#[allow(deprecated)]
	ma.inc_occurrences();
	ma.new_val_group();
	}

	pub(crate) fn start_occurrence_of_external(&mut self, cmd: &crate::Command) {
	let id = &Id::empty_hash();
	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);
	#[allow(deprecated)]
	ma.inc_occurrences();
	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_resolved = self.get(&o.id).map(\|ma\| ma.num_vals()).unwrap_or(0);
	let num_pending = self
	.pending
	.as_ref()
	.and_then(\|p\| (p.id == o.id).then(\|\| p.raw_vals.len()))
	.unwrap_or(0);
	let current_num = num_resolved + num_pending;
	debug!(
	"ArgMatcher::needs_more_vals: o={}, resolved={}, pending={}",
	o.name, num_resolved, num_pending
	);
	if current_num == 0 {
	true
	} else if let Some(num) = o.num_vals {
	debug!("ArgMatcher::needs_more_vals: num_vals...{}", num);
	#[allow(deprecated)]
	if o.is_multiple_occurrences_set() {
	(current_num % num) != 0
	} else {
	num != current_num
	}
	} else if let Some(num) = o.max_vals {
	debug!("ArgMatcher::needs_more_vals: max_vals...{}", num);
	current_num < num
	} else if o.min_vals.is_some() {
	debug!("ArgMatcher::needs_more_vals: min_vals...true");
	true
	} else {
	o.is_multiple_values_set()
	}
	}

	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>,
	) -> &mut Vec<OsString> {
	let pending = self.pending.get_or_insert_with(\|\| PendingArg {
	id: id.clone(),
	ident,
	raw_vals: Default::default(),
	});
	debug_assert_eq!(pending.id, *id, "{}", INTERNAL_ERROR_MSG);
	if ident.is_some() {
	debug_assert_eq!(pending.ident, ident, "{}", INTERNAL_ERROR_MSG);
	}
	&mut pending.raw_vals
	}

	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
	}
	}