fish-shell/src/util.rs

300 lines
11 KiB
Rust
Raw Normal View History

//! Generic utilities library.
2023-08-09 06:16:04 +08:00
use crate::wchar::prelude::*;
2023-02-05 07:45:25 +08:00
use std::cmp::Ordering;
use std::time;
/// Compares two wide character strings with an (arguably) intuitive ordering. This function tries
/// to order strings in a way which is intuitive to humans with regards to sorting strings
/// containing numbers.
///
/// Most sorting functions would sort the strings 'file1.txt' 'file5.txt' and 'file12.txt' as:
///
/// file1.txt
/// file12.txt
/// file5.txt
///
/// This function regards any sequence of digits as a single entity when performing comparisons, so
/// the output is instead:
///
/// file1.txt
/// file5.txt
/// file12.txt
///
/// Which most people would find more intuitive.
///
/// This won't return the optimum results for numbers in bases higher than ten, such as hexadecimal,
/// but at least a stable sort order will result.
///
/// This function performs a two-tiered sort, where difference in case and in number of leading
/// zeroes in numbers only have effect if no other differences between strings are found. This way,
/// a 'file1' and 'File1' will not be considered identical, and hence their internal sort order is
/// not arbitrary, but the names 'file1', 'File2' and 'file3' will still be sorted in the order
/// given above.
pub fn wcsfilecmp(a: &wstr, b: &wstr) -> Ordering {
let mut retval = Ordering::Equal;
let mut ai = 0;
let mut bi = 0;
while ai < a.len() && bi < b.len() {
let ac = a.as_char_slice()[ai];
let bc = b.as_char_slice()[bi];
if ac.is_ascii_digit() && bc.is_ascii_digit() {
let (ad, bd);
(retval, ad, bd) = wcsfilecmp_leading_digits(&a[ai..], &b[bi..]);
ai += ad;
bi += bd;
if retval != Ordering::Equal || ai == a.len() || bi == b.len() {
break;
}
continue;
}
// Fast path: Skip towupper.
if ac == bc {
ai += 1;
bi += 1;
continue;
}
// Sort dashes after Z - see #5634
let mut acl = if ac == '-' { '[' } else { ac };
let mut bcl = if bc == '-' { '[' } else { bc };
// TODO Compare the tail (enabled by Rust's Unicode support).
acl = acl.to_uppercase().next().unwrap();
bcl = bcl.to_uppercase().next().unwrap();
2023-02-05 07:45:25 +08:00
match acl.cmp(&bcl) {
Ordering::Equal => {
ai += 1;
bi += 1;
}
o => {
retval = o;
2023-02-05 07:45:25 +08:00
break;
}
}
}
if retval != Ordering::Equal {
return retval; // we already know the strings aren't logically equal
}
if ai == a.len() {
if bi == b.len() {
// The strings are logically equal. They may or may not be the same length depending on
// whether numbers were present but that doesn't matter. Disambiguate strings that
// differ by letter case or length. We don't bother optimizing the case where the file
// names are literally identical because that won't occur given how this function is
// used. And even if it were to occur (due to being reused in some other context) it
// would be so rare that it isn't worth optimizing for.
a.cmp(b)
} else {
Ordering::Less // string a is a prefix of b and b is longer
}
} else {
assert!(bi == b.len());
Ordering::Greater // string b is a prefix of a and a is longer
}
}
/// wcsfilecmp, but frozen in time for glob usage.
pub fn wcsfilecmp_glob(a: &wstr, b: &wstr) -> Ordering {
let mut retval = Ordering::Equal;
let mut ai = 0;
let mut bi = 0;
while ai < a.len() && bi < b.len() {
let ac = a.as_char_slice()[ai];
let bc = b.as_char_slice()[bi];
if ac.is_ascii_digit() && bc.is_ascii_digit() {
let (ad, bd);
(retval, ad, bd) = wcsfilecmp_leading_digits(&a[ai..], &b[bi..]);
ai += ad;
bi += bd;
// If we know the strings aren't logically equal or we've reached the end of one or both
// strings we can stop iterating over the chars in each string.
if retval != Ordering::Equal || ai == a.len() || bi == b.len() {
break;
}
continue;
}
// Fast path: Skip towlower.
if ac == bc {
ai += 1;
bi += 1;
continue;
}
// TODO Compare the tail (enabled by Rust's Unicode support).
let acl = ac.to_lowercase().next().unwrap();
let bcl = bc.to_lowercase().next().unwrap();
2023-02-05 07:45:25 +08:00
match acl.cmp(&bcl) {
Ordering::Equal => {
ai += 1;
bi += 1;
}
o => {
retval = o;
2023-02-05 07:45:25 +08:00
break;
}
}
}
if retval != Ordering::Equal {
return retval; // we already know the strings aren't logically equal
}
if ai == a.len() {
if bi == b.len() {
// The strings are logically equal. They may or may not be the same length depending on
// whether numbers were present but that doesn't matter. Disambiguate strings that
// differ by letter case or length. We don't bother optimizing the case where the file
// names are literally identical because that won't occur given how this function is
// used. And even if it were to occur (due to being reused in some other context) it
// would be so rare that it isn't worth optimizing for.
a.cmp(b)
} else {
Ordering::Less // string a is a prefix of b and b is longer
}
} else {
assert!(bi == b.len());
Ordering::Greater // string b is a prefix of a and a is longer
}
}
/// Get the current time in microseconds since Jan 1, 1970.
pub fn get_time() -> i64 {
match time::SystemTime::now().duration_since(time::UNIX_EPOCH) {
Ok(difference) => difference.as_micros() as i64,
Err(until_epoch) => -(until_epoch.duration().as_micros() as i64),
}
}
// Compare the strings to see if they begin with an integer that can be compared and return the
// result of that comparison.
fn wcsfilecmp_leading_digits(a: &wstr, b: &wstr) -> (Ordering, usize, usize) {
// Ignore leading 0s.
let mut ai = a.as_char_slice().iter().take_while(|c| **c == '0').count();
let mut bi = b.as_char_slice().iter().take_while(|c| **c == '0').count();
let mut ret = Ordering::Equal;
loop {
let ac = a.as_char_slice().get(ai).unwrap_or(&'\0');
let bc = b.as_char_slice().get(bi).unwrap_or(&'\0');
if ac.is_ascii_digit() && bc.is_ascii_digit() {
// We keep the cmp value for the
// first differing digit.
//
// If the numbers have the same length, that's the value.
2023-02-05 18:58:33 +08:00
if ret == Ordering::Equal {
// Comparing the string value is the same as numerical
// for wchar_t digits!
ret = ac.cmp(bc);
}
} else {
// We don't have negative numbers and we only allow ints,
// and we have already skipped leading zeroes,
// so the longer number is larger automatically.
if ac.is_ascii_digit() {
ret = Ordering::Greater;
}
if bc.is_ascii_digit() {
ret = Ordering::Less;
}
break;
}
ai += 1;
bi += 1;
}
// For historical reasons, we skip trailing whitespace
// like fish_wcstol does!
// This is used in sorting globs, and that's supposed to be stable.
ai += a
.as_char_slice()
.iter()
.skip(ai)
.take_while(|c| c.is_whitespace())
.count();
bi += b
.as_char_slice()
.iter()
.skip(bi)
.take_while(|c| c.is_whitespace())
.count();
(ret, ai, bi)
}
/// Finds `needle` in a `haystack` and returns the index of the first matching element, if any.
///
/// # Examples
///
/// ```
/// use fish::util::find_subslice;
/// let haystack = b"ABC ABCDAB ABCDABCDABDE";
///
/// assert_eq!(find_subslice(b"ABCDABD", haystack), Some(15));
/// assert_eq!(find_subslice(b"ABCDE", haystack), None);
/// ```
pub fn find_subslice<T: PartialEq>(
needle: impl AsRef<[T]>,
haystack: impl AsRef<[T]>,
) -> Option<usize> {
let needle = needle.as_ref();
if needle.is_empty() {
return Some(0);
}
let haystack = haystack.as_ref();
haystack.windows(needle.len()).position(|w| w == needle)
}
/// Verify the behavior of the `wcsfilecmp()` function.
#[test]
fn test_wcsfilecmp() {
macro_rules! validate {
($str1:expr, $str2:expr, $expected_rc:expr) => {
assert_eq!(wcsfilecmp(L!($str1), L!($str2)), $expected_rc)
};
}
// Not using L as suffix because the macro munges error locations.
validate!("", "", Ordering::Equal);
validate!("", "def", Ordering::Less);
validate!("abc", "", Ordering::Greater);
validate!("abc", "def", Ordering::Less);
validate!("abc", "DEF", Ordering::Less);
validate!("DEF", "abc", Ordering::Greater);
validate!("abc", "abc", Ordering::Equal);
validate!("ABC", "ABC", Ordering::Equal);
validate!("AbC", "abc", Ordering::Less);
validate!("AbC", "ABC", Ordering::Greater);
validate!("def", "abc", Ordering::Greater);
validate!("1ghi", "1gHi", Ordering::Greater);
validate!("1ghi", "2ghi", Ordering::Less);
validate!("1ghi", "01ghi", Ordering::Greater);
validate!("1ghi", "02ghi", Ordering::Less);
validate!("01ghi", "1ghi", Ordering::Less);
validate!("1ghi", "002ghi", Ordering::Less);
validate!("002ghi", "1ghi", Ordering::Greater);
validate!("abc01def", "abc1def", Ordering::Less);
validate!("abc1def", "abc01def", Ordering::Greater);
validate!("abc12", "abc5", Ordering::Greater);
validate!("51abc", "050abc", Ordering::Greater);
validate!("abc5", "abc12", Ordering::Less);
validate!("5abc", "12ABC", Ordering::Less);
validate!("abc0789", "abc789", Ordering::Less);
validate!("abc0xA789", "abc0xA0789", Ordering::Greater);
validate!("abc002", "abc2", Ordering::Less);
validate!("abc002g", "abc002", Ordering::Greater);
validate!("abc002g", "abc02g", Ordering::Less);
validate!("abc002.txt", "abc02.txt", Ordering::Less);
validate!("abc005", "abc012", Ordering::Less);
validate!("abc02", "abc002", Ordering::Greater);
validate!("abc002.txt", "abc02.txt", Ordering::Less);
validate!("GHI1abc2.txt", "ghi1abc2.txt", Ordering::Less);
validate!("a0", "a00", Ordering::Less);
validate!("a00b", "a0b", Ordering::Less);
validate!("a0b", "a00b", Ordering::Greater);
validate!("a-b", "azb", Ordering::Greater);
}