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// Natord: Natural ordering for Rust.
// Copyright (c) 2014-2015, Kang Seonghoon.
// See README.md and LICENSE.txt for details.
/*!
# Natord 1.0.9
Natural ordering for Rust. (also known as `rust-natord`)
This allows for the comparison like this:
~~~~ {.rust}
let mut files = vec!("rfc2086.txt", "rfc822.txt", "rfc1.txt");
files.sort_by(|&a, &b| natord::compare(a, b));
assert_eq!(files, ["rfc1.txt", "rfc822.txt", "rfc2086.txt"]);
~~~~
There are multiple natural ordering algorithms available.
This version of natural ordering is inspired by
[Martin Pool's `strnatcmp.c`](http://sourcefrog.net/projects/natsort/).
*/
#![crate_name = "natord"]
#![crate_type = "lib"]
use std::cmp::Ordering;
use std::cmp::Ordering::{Less, Equal, Greater};
/// Compares two iterators of "characters" possibly containing "digits".
/// The natural ordering can be customized with the following parameters:
///
/// * `skip` returns true if the "character" does not affect the comparison,
/// other than splitting two consecutive digits.
/// * `cmp` compares two "characters", assuming that they are not "digits".
/// * `to_digit` converts a "character" into a "digit" if possible. The digit of zero is special.
pub fn compare_iter<T, L, R, Skip, Cmp, ToDigit>(left: L, right: R, mut skip: Skip, mut cmp: Cmp,
mut to_digit: ToDigit) -> Ordering
where L: Iterator<Item=T>,
R: Iterator<Item=T>,
Skip: for<'a> FnMut(&'a T) -> bool,
Cmp: for<'a> FnMut(&'a T, &'a T) -> Ordering,
ToDigit: for<'a> FnMut(&'a T) -> Option<isize> {
let mut left = left.fuse();
let mut right = right.fuse();
let mut l;
let mut r;
let mut ll;
let mut rr;
macro_rules! read_left {
() => ({
l = left.next();
ll = l.as_ref().and_then(|v| to_digit(v));
})
}
macro_rules! read_right {
() => ({
r = right.next();
rr = r.as_ref().and_then(|v| to_digit(v));
})
}
macro_rules! return_unless_equal {
($ord:expr) => (
match $ord {
Equal => {}
lastcmp => return lastcmp,
}
)
}
read_left!();
read_right!();
'nondigits: loop {
// skip preceding whitespaces
while l.as_ref().map_or(false, |c| skip(c)) { read_left!(); }
while r.as_ref().map_or(false, |c| skip(c)) { read_right!(); }
match (l, r) {
(Some(l_), Some(r_)) => match (ll, rr) {
(Some(ll_), Some(rr_)) => {
if ll_ == 0 || rr_ == 0 {
// left-aligned matching. (`015` < `12`)
return_unless_equal!(ll_.cmp(&rr_));
'digits_left: loop {
read_left!();
read_right!();
match (ll, rr) {
(Some(ll_), Some(rr_)) => return_unless_equal!(ll_.cmp(&rr_)),
(Some(_), None) => return Greater,
(None, Some(_)) => return Less,
(None, None) => break 'digits_left,
}
}
} else {
// right-aligned matching. (`15` < `123`)
let mut lastcmp = ll_.cmp(&rr_);
'digits_right: loop {
read_left!();
read_right!();
match (ll, rr) {
(Some(ll_), Some(rr_)) => {
// `lastcmp` is only used when there are the same number of
// digits, so we only update it.
if lastcmp == Equal { lastcmp = ll_.cmp(&rr_); }
}
(Some(_), None) => return Greater,
(None, Some(_)) => return Less,
(None, None) => break 'digits_right,
}
}
return_unless_equal!(lastcmp);
}
continue 'nondigits; // do not read from the iterators again
},
(_, _) => return_unless_equal!(cmp(&l_, &r_)),
},
(Some(_), None) => return Greater,
(None, Some(_)) => return Less,
(None, None) => return Equal,
}
read_left!();
read_right!();
}
}
/// Compares two strings case-sensitively.
/// It skips any Unicode whitespaces and handles a series of decimal digits.
pub fn compare(left: &str, right: &str) -> Ordering {
compare_iter(left.chars(), right.chars(),
|&c| c.is_whitespace(),
|&l, &r| l.cmp(&r),
|&c| c.to_digit(10).map(|v| v as isize))
}
/// Compares two strings case-insensitively.
/// It skips any Unicode whitespaces and handles a series of decimal digits.
pub fn compare_ignore_case(left: &str, right: &str) -> Ordering {
// XXX what we really want is a case folding!
// Unicode case folding can be done iteratively, but currently we don't have them in stdlib.
let left_iter = left.chars().flat_map(|c| c.to_lowercase());
let right_iter = right.chars().flat_map(|c| c.to_lowercase());
compare_iter(left_iter, right_iter,
|&c| c.is_whitespace(),
|&l, &r| l.cmp(&r),
|&c| c.to_digit(10).map(|v| v as isize))
}
#[cfg(test)]
mod tests {
use super::compare;
use std::cmp::Ordering;
use std::cmp::Ordering::{Less, Equal, Greater};
fn check_total_order(strs: &[&str]) {
fn ordering_to_op(ord: Ordering) -> &'static str {
match ord {
Greater => ">",
Equal => "=",
Less => "<",
}
}
for (i, &x) in strs.iter().enumerate() {
for (j, &y) in strs.iter().enumerate() {
assert!(compare(x, y) == i.cmp(&j),
"expected x {} y, returned x {} y (where x = `{}`, y = `{}`)",
ordering_to_op(i.cmp(&j)), ordering_to_op(compare(x, y)), x, y);
}
}
}
#[test]
fn test_numeric() {
check_total_order(&["a", "a0", "a1", "a1a", "a1b", "a2", "a10", "a20"]);
}
#[test]
fn test_multiple_parts() {
check_total_order(&["x2-g8", "x2-y7", "x2-y8", "x8-y8"]);
}
#[test]
fn test_leading_zeroes() {
check_total_order(&["1.001", "1.002", "1.010", "1.02", "1.1", "1.3"]);
}
#[test]
fn test_longer() {
check_total_order(&[
"1-02",
"1-2",
"1-20",
"10-20",
"fred",
"jane",
"pic1",
"pic2",
"pic2a",
"pic3",
"pic4",
"pic4 alpha",
"pic 4 else",
"pic4 last",
"pic5",
"pic5.07",
"pic5.08",
"pic5.13",
"pic5.113",
"pic 5 something",
"pic 6",
"pic 7",
"pic100",
"pic100a",
"pic120",
"pic121",
"pic2000",
"tom",
"x2-g8",
"x2-y7",
"x2-y8",
"x8-y8",
]);
}
}