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use std::cmp::Ordering;
use std::iter::{once, Chain, Once};
use std::ops::RangeInclusive;
/// Version strings can be broken up into Parts.
/// One Part represents either a string of digits or characters.
/// '.' and '_' represent deviders between parts and are not included in any part.
#[derive(PartialEq, Eq, Clone, Debug)]
pub enum VersionPart<'a> {
Word(&'a str),
Number(&'a str),
}
impl PartialOrd for VersionPart<'_> {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
Some(self.cmp(other))
}
}
impl Ord for VersionPart<'_> {
fn cmp(&self, other: &Self) -> Ordering {
match (self, other) {
(VersionPart::Number(s1), VersionPart::Number(s2)) => {
// Note: C++ Nix uses `int`, but probably doesn't make a difference
// We trust that the splitting was done correctly and parsing will work
let n1: u64 = s1.parse().unwrap();
let n2: u64 = s2.parse().unwrap();
n1.cmp(&n2)
}
// `pre` looses unless the other part is also a `pre`
(VersionPart::Word("pre"), VersionPart::Word("pre")) => Ordering::Equal,
(VersionPart::Word("pre"), _) => Ordering::Less,
(_, VersionPart::Word("pre")) => Ordering::Greater,
// Number wins against Word
(VersionPart::Number(_), VersionPart::Word(_)) => Ordering::Greater,
(VersionPart::Word(_), VersionPart::Number(_)) => Ordering::Less,
(VersionPart::Word(w1), VersionPart::Word(w2)) => w1.cmp(w2),
}
}
}
/// Type used to hold information about a VersionPart during creation
enum InternalPart {
Number { range: RangeInclusive<usize> },
Word { range: RangeInclusive<usize> },
Break,
}
/// An iterator which yields the parts of a version string.
///
/// This can then be directly used to compare two versions
pub struct VersionPartsIter<'a> {
cached_part: InternalPart,
iter: std::str::CharIndices<'a>,
version: &'a str,
}
impl<'a> VersionPartsIter<'a> {
pub fn new(version: &'a str) -> Self {
Self {
cached_part: InternalPart::Break,
iter: version.char_indices(),
version,
}
}
/// Create an iterator that yields all version parts followed by an additional
/// `VersionPart::Word("")` part (i.e. you can think of this as
/// `builtins.splitVersion version ++ [ "" ]`). This is necessary, because
/// Nix's `compareVersions` is not entirely lexicographical: If we have two
/// equal versions, but one is longer, the longer one is only considered
/// greater if the first additional part of the longer version is not `pre`,
/// e.g. `2.3 > 2.3pre`. It is otherwise lexicographical, so peculiar behavior
/// like `2.3 < 2.3.0pre` ensues. Luckily for us, this means that we can
/// lexicographically compare two version strings, _if_ we append an extra
/// component to both versions.
pub fn new_for_cmp(version: &'a str) -> Chain<Self, Once<VersionPart>> {
Self::new(version).chain(once(VersionPart::Word("")))
}
}
impl<'a> Iterator for VersionPartsIter<'a> {
type Item = VersionPart<'a>;
fn next(&mut self) -> Option<Self::Item> {
let char = self.iter.next();
if char.is_none() {
let cached_part = std::mem::replace(&mut self.cached_part, InternalPart::Break);
match cached_part {
InternalPart::Break => return None,
InternalPart::Number { range } => {
return Some(VersionPart::Number(&self.version[range]))
}
InternalPart::Word { range } => {
return Some(VersionPart::Word(&self.version[range]))
}
}
}
let (pos, char) = char.unwrap();
match char {
// Divider encountered
'.' | '-' => {
let cached_part = std::mem::replace(&mut self.cached_part, InternalPart::Break);
match cached_part {
InternalPart::Number { range } => {
Some(VersionPart::Number(&self.version[range]))
}
InternalPart::Word { range } => Some(VersionPart::Word(&self.version[range])),
InternalPart::Break => self.next(),
}
}
// digit encountered
_ if char.is_ascii_digit() => {
let cached_part = std::mem::replace(
&mut self.cached_part,
InternalPart::Number { range: pos..=pos },
);
match cached_part {
InternalPart::Number { range } => {
self.cached_part = InternalPart::Number {
range: *range.start()..=*range.end() + 1,
};
self.next()
}
InternalPart::Word { range } => Some(VersionPart::Word(&self.version[range])),
InternalPart::Break => self.next(),
}
}
// char encountered
_ => {
let mut cached_part = InternalPart::Word { range: pos..=pos };
std::mem::swap(&mut cached_part, &mut self.cached_part);
match cached_part {
InternalPart::Word { range } => {
self.cached_part = InternalPart::Word {
range: *range.start()..=*range.end() + char.len_utf8(),
};
self.next()
}
InternalPart::Number { range } => {
Some(VersionPart::Number(&self.version[range]))
}
InternalPart::Break => self.next(),
}
}
}
}
}
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