use std::iter::Iterator; use std::ops::Index; use crate::builder::OsStr; use crate::Arg; use crate::INTERNAL_ERROR_MSG; #[derive(PartialEq, Eq, Debug, Clone)] pub(crate) struct Key { key: KeyType, index: usize, } #[derive(Default, PartialEq, Eq, Debug, Clone)] pub(crate) struct MKeyMap { /// All of the arguments. args: Vec, // Cache part: /// Will be set after `_build()`. keys: Vec, } #[derive(Debug, PartialEq, Eq, Hash, Clone)] pub(crate) enum KeyType { Short(char), Long(OsStr), Position(usize), } impl KeyType { pub(crate) fn is_position(&self) -> bool { matches!(self, KeyType::Position(_)) } } impl PartialEq for KeyType { fn eq(&self, rhs: &usize) -> bool { match self { KeyType::Position(x) => x == rhs, _ => false, } } } impl PartialEq<&str> for KeyType { fn eq(&self, rhs: &&str) -> bool { match self { KeyType::Long(l) => l == rhs, _ => false, } } } impl PartialEq for KeyType { fn eq(&self, rhs: &str) -> bool { match self { KeyType::Long(l) => l == rhs, _ => false, } } } impl PartialEq for KeyType { fn eq(&self, rhs: &OsStr) -> bool { match self { KeyType::Long(l) => l == rhs, _ => false, } } } impl PartialEq for KeyType { fn eq(&self, rhs: &char) -> bool { match self { KeyType::Short(c) => c == rhs, _ => false, } } } impl MKeyMap { /// If any arg has corresponding key in this map, we can search the key with /// u64(for positional argument), char(for short flag), &str and OsString /// (for long flag) pub(crate) fn contains(&self, key: K) -> bool where KeyType: PartialEq, { self.keys.iter().any(|x| x.key == key) } /// Push an argument in the map. pub(crate) fn push(&mut self, new_arg: Arg) { self.args.push(new_arg); } /// Find the arg have corresponding key in this map, we can search the key /// with u64(for positional argument), char(for short flag), &str and /// OsString (for long flag) pub(crate) fn get(&self, key: &K) -> Option<&Arg> where KeyType: PartialEq, { self.keys .iter() .find(|k| &k.key == key) .map(|k| &self.args[k.index]) } /// Return iterators of all keys. pub(crate) fn keys(&self) -> impl Iterator { self.keys.iter().map(|x| &x.key) } /// Return iterators of all args. pub(crate) fn args(&self) -> impl Iterator { self.args.iter() } /// Return mutable iterators of all args. pub(crate) fn args_mut(&mut self) -> impl Iterator { self.args.iter_mut() } /// Mutate every argument. pub(crate) fn mut_args(&mut self, f: F) where F: FnMut(Arg) -> Arg, { let mut args = std::mem::take(&mut self.args); self.args.extend(args.drain(..).map(f)); } /// We need a lazy build here since some we may change args after creating /// the map, you can checkout who uses `args_mut`. pub(crate) fn _build(&mut self) { // There will be at least as many keys as args, so that is a good starting point self.keys.reserve(self.args.len()); for (i, arg) in self.args.iter().enumerate() { append_keys(&mut self.keys, arg, i); } } /// Remove an arg in the graph by Id, usually used by `mut_arg`. Return /// `Some(arg)` if removed. pub(crate) fn remove_by_name(&mut self, name: &str) -> Option { self.args .iter() .position(|arg| arg.id == name) // since it's a cold function, using this wouldn't hurt much .map(|i| self.args.remove(i)) } } impl Index<&'_ KeyType> for MKeyMap { type Output = Arg; fn index(&self, key: &KeyType) -> &Self::Output { self.get(key).expect(INTERNAL_ERROR_MSG) } } /// Generate key types for an specific Arg. fn append_keys(keys: &mut Vec, arg: &Arg, index: usize) { if let Some(pos_index) = arg.index { let key = KeyType::Position(pos_index); keys.push(Key { key, index }); } else { if let Some(short) = arg.short { let key = KeyType::Short(short); keys.push(Key { key, index }); } if let Some(long) = arg.long.clone() { let key = KeyType::Long(long.into()); keys.push(Key { key, index }); } for (short, _) in arg.short_aliases.iter() { let key = KeyType::Short(*short); keys.push(Key { key, index }); } for (long, _) in arg.aliases.iter() { let key = KeyType::Long(long.into()); keys.push(Key { key, index }); } } }