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// Std
use std::collections::hash_map::{Entry, Iter};
use std::collections::HashMap;
use std::ffi::OsStr;
use std::ops::Deref;
use std::mem;
// Internal
use args::{ArgMatches, MatchedArg, SubCommand};
use args::AnyArg;
use args::settings::ArgSettings;
#[doc(hidden)]
#[allow(missing_debug_implementations)]
pub struct ArgMatcher<'a>(pub ArgMatches<'a>);
impl<'a> Default for ArgMatcher<'a> {
fn default() -> Self { ArgMatcher(ArgMatches::default()) }
}
impl<'a> ArgMatcher<'a> {
pub fn new() -> Self { ArgMatcher::default() }
pub fn process_arg_overrides<'b>(&mut self, a: Option<&AnyArg<'a, 'b>>, overrides: &mut Vec<(&'b str, &'a str)>, required: &mut Vec<&'a str>, check_all: bool) {
debugln!("ArgMatcher::process_arg_overrides:{:?};", a.map_or(None, |a| Some(a.name())));
if let Some(aa) = a {
let mut self_done = false;
if let Some(a_overrides) = aa.overrides() {
for overr in a_overrides {
debugln!("ArgMatcher::process_arg_overrides:iter:{};", overr);
if overr == &aa.name() {
self_done = true;
self.handle_self_overrides(a);
} else if self.is_present(overr) {
debugln!("ArgMatcher::process_arg_overrides:iter:{}: removing from matches;", overr);
self.remove(overr);
for i in (0 .. required.len()).rev() {
if &required[i] == overr {
debugln!("ArgMatcher::process_arg_overrides:iter:{}: removing required;", overr);
required.swap_remove(i);
break;
}
}
overrides.push((overr, aa.name()));
} else {
overrides.push((overr, aa.name()));
}
}
}
if check_all && !self_done {
self.handle_self_overrides(a);
}
}
}
pub fn handle_self_overrides<'b>(&mut self, a: Option<&AnyArg<'a, 'b>>) {
debugln!("ArgMatcher::handle_self_overrides:{:?};", a.map_or(None, |a| Some(a.name())));
if let Some(aa) = a {
if !aa.has_switch() || aa.is_set(ArgSettings::Multiple) {
// positional args can't override self or else we would never advance to the next
// Also flags with --multiple set are ignored otherwise we could never have more
// than one
return;
}
if let Some(ma) = self.get_mut(aa.name()) {
if ma.vals.len() > 1 {
// swap_remove(0) would be O(1) but does not preserve order, which
// we need
ma.vals.remove(0);
ma.occurs = 1;
} else if !aa.takes_value() && ma.occurs > 1 {
ma.occurs = 1;
}
}
}
}
pub fn is_present(&self, name: &str) -> bool {
self.0.is_present(name)
}
pub fn propagate_globals(&mut self, global_arg_vec: &[&'a str]) {
debugln!( "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: &[&'a str],
vals_map: &mut HashMap<&'a str, 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`, however the occurs will be 0.
let to_update = if let Some(parent_ma) = vals_map.get(global_arg) {
if parent_ma.occurs > 0 && ma.occurs == 0 {
parent_ma.clone()
} else {
ma.clone()
}
} else {
ma.clone()
};
vals_map.insert(global_arg, to_update);
}
}
if let Some(ref mut sc) = self.0.subcommand {
let mut am = ArgMatcher(mem::replace(&mut sc.matches, ArgMatches::new()));
am.fill_in_global_values(global_arg_vec, vals_map);
mem::swap(&mut am.0, &mut sc.matches);
}
for (name, matched_arg) in vals_map.into_iter() {
self.0.args.insert(name, matched_arg.clone());
}
}
pub fn get_mut(&mut self, arg: &str) -> Option<&mut MatchedArg> { self.0.args.get_mut(arg) }
pub fn get(&self, arg: &str) -> Option<&MatchedArg> { self.0.args.get(arg) }
pub fn remove(&mut self, arg: &str) { self.0.args.remove(arg); }
pub fn remove_all(&mut self, args: &[&str]) {
for &arg in args {
self.0.args.remove(arg);
}
}
pub fn insert(&mut self, name: &'a str) { self.0.args.insert(name, MatchedArg::new()); }
pub fn contains(&self, arg: &str) -> bool { self.0.args.contains_key(arg) }
pub fn is_empty(&self) -> bool { self.0.args.is_empty() }
pub fn usage(&mut self, usage: String) { self.0.usage = Some(usage); }
pub fn arg_names(&'a self) -> Vec<&'a str> { self.0.args.keys().map(Deref::deref).collect() }
pub fn entry(&mut self, arg: &'a str) -> Entry<&'a str, MatchedArg> { self.0.args.entry(arg) }
pub fn subcommand(&mut self, sc: SubCommand<'a>) { self.0.subcommand = Some(Box::new(sc)); }
pub fn subcommand_name(&self) -> Option<&str> { self.0.subcommand_name() }
pub fn iter(&self) -> Iter<&str, MatchedArg> { self.0.args.iter() }
pub fn inc_occurrence_of(&mut self, arg: &'a str) {
debugln!("ArgMatcher::inc_occurrence_of: arg={}", arg);
if let Some(a) = self.get_mut(arg) {
a.occurs += 1;
return;
}
debugln!("ArgMatcher::inc_occurrence_of: first instance");
self.insert(arg);
}
pub fn inc_occurrences_of(&mut self, args: &[&'a str]) {
debugln!("ArgMatcher::inc_occurrences_of: args={:?}", args);
for arg in args {
self.inc_occurrence_of(arg);
}
}
pub fn add_val_to(&mut self, arg: &'a str, val: &OsStr) {
let ma = self.entry(arg).or_insert(MatchedArg {
occurs: 0,
indices: Vec::with_capacity(1),
vals: Vec::with_capacity(1),
});
ma.vals.push(val.to_owned());
}
pub fn add_index_to(&mut self, arg: &'a str, idx: usize) {
let ma = self.entry(arg).or_insert(MatchedArg {
occurs: 0,
indices: Vec::with_capacity(1),
vals: Vec::new(),
});
ma.indices.push(idx);
}
pub fn needs_more_vals<'b, A>(&self, o: &A) -> bool
where
A: AnyArg<'a, 'b>,
{
debugln!("ArgMatcher::needs_more_vals: o={}", o.name());
if let Some(ma) = self.get(o.name()) {
if let Some(num) = o.num_vals() {
debugln!("ArgMatcher::needs_more_vals: num_vals...{}", num);
return if o.is_set(ArgSettings::Multiple) {
((ma.vals.len() as u64) % num) != 0
} else {
num != (ma.vals.len() as u64)
};
} else if let Some(num) = o.max_vals() {
debugln!("ArgMatcher::needs_more_vals: max_vals...{}", num);
return !((ma.vals.len() as u64) > num);
} else if o.min_vals().is_some() {
debugln!("ArgMatcher::needs_more_vals: min_vals...true");
return true;
}
return o.is_set(ArgSettings::Multiple);
}
true
}
}
impl<'a> Into<ArgMatches<'a>> for ArgMatcher<'a> {
fn into(self) -> ArgMatches<'a> { self.0 }
}
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