just/src/list.rs

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// `Self` cannot be used where type takes generic arguments
#![allow(clippy::use_self)]
use crate::common::*;
pub struct List<T: Display, I: Iterator<Item = T> + Clone> {
conjunction: &'static str,
values: I,
}
impl<T: Display, I: Iterator<Item = T> + Clone> List<T, I> {
pub fn or<II: IntoIterator<Item = T, IntoIter = I>>(values: II) -> List<T, I> {
List {
conjunction: "or",
values: values.into_iter(),
}
}
pub fn and<II: IntoIterator<Item = T, IntoIter = I>>(values: II) -> List<T, I> {
List {
conjunction: "and",
values: values.into_iter(),
}
}
pub fn or_ticked<II: IntoIterator<Item = T, IntoIter = I>>(
values: II,
) -> List<Enclosure<T>, impl Iterator<Item = Enclosure<T>> + Clone> {
List::or(values.into_iter().map(Enclosure::tick))
}
pub fn and_ticked<II: IntoIterator<Item = T, IntoIter = I>>(
values: II,
) -> List<Enclosure<T>, impl Iterator<Item = Enclosure<T>> + Clone> {
List::and(values.into_iter().map(Enclosure::tick))
}
}
impl<T: Display, I: Iterator<Item = T> + Clone> Display for List<T, I> {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
let mut values = self.values.clone().fuse();
if let Some(first) = values.next() {
write!(f, "{}", first)?;
} else {
return Ok(());
}
let second = values.next();
if second.is_none() {
return Ok(());
}
let third = values.next();
if let (Some(second), None) = (second.as_ref(), third.as_ref()) {
write!(f, " {} {}", self.conjunction, second)?;
return Ok(());
}
let mut current = second;
let mut next = third;
loop {
match (current, next) {
(Some(c), Some(n)) => {
write!(f, ", {}", c)?;
current = Some(n);
next = values.next();
}
(Some(c), None) => {
write!(f, ", {} {}", self.conjunction, c)?;
return Ok(());
}
_ => unreachable!("Iterator was fused, but returned Some after None"),
}
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn or() {
assert_eq!("1", List::or(&[1]).to_string());
assert_eq!("1 or 2", List::or(&[1, 2]).to_string());
assert_eq!("1, 2, or 3", List::or(&[1, 2, 3]).to_string());
assert_eq!("1, 2, 3, or 4", List::or(&[1, 2, 3, 4]).to_string());
}
#[test]
fn and() {
assert_eq!("1", List::and(&[1]).to_string());
assert_eq!("1 and 2", List::and(&[1, 2]).to_string());
assert_eq!("1, 2, and 3", List::and(&[1, 2, 3]).to_string());
assert_eq!("1, 2, 3, and 4", List::and(&[1, 2, 3, 4]).to_string());
}
#[test]
fn or_ticked() {
assert_eq!("`1`", List::or_ticked(&[1]).to_string());
assert_eq!("`1` or `2`", List::or_ticked(&[1, 2]).to_string());
assert_eq!("`1`, `2`, or `3`", List::or_ticked(&[1, 2, 3]).to_string());
assert_eq!(
"`1`, `2`, `3`, or `4`",
List::or_ticked(&[1, 2, 3, 4]).to_string()
);
}
#[test]
fn and_ticked() {
assert_eq!("`1`", List::and_ticked(&[1]).to_string());
assert_eq!("`1` and `2`", List::and_ticked(&[1, 2]).to_string());
assert_eq!(
"`1`, `2`, and `3`",
List::and_ticked(&[1, 2, 3]).to_string()
);
assert_eq!(
"`1`, `2`, `3`, and `4`",
List::and_ticked(&[1, 2, 3, 4]).to_string()
);
}
}