use std::collections::HashMap; #[derive(Debug)] pub struct Register { name: char, values: Vec, } impl Register { pub const fn new(name: char) -> Self { Self { name, values: Vec::new(), } } pub fn new_with_values(name: char, values: Vec) -> Self { Self { name, values } } pub const fn name(&self) -> char { self.name } pub fn read(&self) -> &[String] { &self.values } pub fn write(&mut self, values: Vec) { self.values = values; } pub fn push(&mut self, value: String) { self.values.push(value); } } /// Currently just wraps a `HashMap` of `Register`s #[derive(Debug, Default)] pub struct Registers { inner: HashMap, } impl Registers { pub fn get(&self, name: char) -> Option<&Register> { self.inner.get(&name) } pub fn read(&self, name: char) -> Option<&[String]> { self.get(name).map(|reg| reg.read()) } pub fn write(&mut self, name: char, values: Vec) { if name != '_' { self.inner .insert(name, Register::new_with_values(name, values)); } } pub fn push(&mut self, name: char, value: String) { if name != '_' { if let Some(r) = self.inner.get_mut(&name) { r.push(value); } else { self.write(name, vec![value]); } } } pub fn first(&self, name: char) -> Option<&String> { self.read(name).and_then(|entries| entries.first()) } pub fn last(&self, name: char) -> Option<&String> { self.read(name).and_then(|entries| entries.last()) } pub fn inner(&self) -> &HashMap { &self.inner } }