##// END OF EJS Templates
templates: add filter to reverse list...
templates: add filter to reverse list The filter supports only lists because for lists, it’s straightforward to implement. Reversing text doesn’t seem very useful and is hard to implement. Reversing the bytes would break multi-bytes encodings. Reversing the code points would break characters consisting of multiple code points. Reversing graphemes is non-trivial without using a library not included in the standard library.

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main.rs
300 lines | 10.0 KiB | application/rls-services+xml | RustLexer
use clap::{ArgGroup, Parser};
use itertools::Itertools;
use regex::bytes::Regex;
use similar::ChangeTag;
use std::cmp::{max, min, Ordering};
use std::collections::HashSet;
use std::ffi::OsString;
use std::ops::Range;
use std::path::PathBuf;
fn find_unchanged_ranges(
old_bytes: &[u8],
new_bytes: &[u8],
) -> Vec<(Range<usize>, Range<usize>)> {
let diff = similar::TextDiff::configure()
.algorithm(similar::Algorithm::Patience)
.diff_lines(old_bytes, new_bytes);
let mut new_unchanged_ranges = vec![];
let mut old_index = 0;
let mut new_index = 0;
for diff in diff.iter_all_changes() {
match diff.tag() {
ChangeTag::Equal => {
new_unchanged_ranges.push((
old_index..old_index + diff.value().len(),
new_index..new_index + diff.value().len(),
));
old_index += diff.value().len();
new_index += diff.value().len();
}
ChangeTag::Delete => {
old_index += diff.value().len();
}
ChangeTag::Insert => {
new_index += diff.value().len();
}
}
}
new_unchanged_ranges
}
/// Returns a list of all the lines in the input (including trailing newlines),
/// but only if they all match the regex and they are sorted.
fn get_lines<'input>(
input: &'input [u8],
regex: &Regex,
) -> Option<Vec<&'input [u8]>> {
let lines = input.split_inclusive(|x| *x == b'\n').collect_vec();
let mut previous_line = "".as_bytes();
for line in &lines {
if *line < previous_line {
return None;
}
if !regex.is_match(line) {
return None;
}
previous_line = line;
}
Some(lines)
}
fn resolve_conflict(
base_slice: &[u8],
local_slice: &[u8],
other_slice: &[u8],
regex: &Regex,
) -> Option<Vec<u8>> {
let base_lines = get_lines(base_slice, regex)?;
let local_lines = get_lines(local_slice, regex)?;
let other_lines = get_lines(other_slice, regex)?;
let base_lines_set: HashSet<_> = base_lines.iter().copied().collect();
let local_lines_set: HashSet<_> = local_lines.iter().copied().collect();
let other_lines_set: HashSet<_> = other_lines.iter().copied().collect();
let mut result = local_lines_set;
for to_add in other_lines_set.difference(&base_lines_set) {
result.insert(to_add);
}
for to_remove in base_lines_set.difference(&other_lines_set) {
result.remove(to_remove);
}
Some(result.into_iter().sorted().collect_vec().concat())
}
fn resolve(
base_bytes: &[u8],
local_bytes: &[u8],
other_bytes: &[u8],
regex: &Regex,
) -> (Vec<u8>, Vec<u8>, Vec<u8>) {
// Find unchanged ranges between the base and the two sides. We do that by
// initially considering the whole base unchanged. Then we compare each
// side with the base and intersect the unchanged ranges we find with
// what we had before.
let unchanged_ranges = vec![UnchangedRange {
base_range: 0..base_bytes.len(),
offsets: vec![],
}];
let unchanged_ranges = intersect_regions(
unchanged_ranges,
&find_unchanged_ranges(base_bytes, local_bytes),
);
let mut unchanged_ranges = intersect_regions(
unchanged_ranges,
&find_unchanged_ranges(base_bytes, other_bytes),
);
// Add an empty UnchangedRange at the end to make it easier to find change
// ranges. That way there's a changed range before each UnchangedRange.
unchanged_ranges.push(UnchangedRange {
base_range: base_bytes.len()..base_bytes.len(),
offsets: vec![
local_bytes.len().wrapping_sub(base_bytes.len()) as isize,
other_bytes.len().wrapping_sub(base_bytes.len()) as isize,
],
});
let mut new_base_bytes: Vec<u8> = vec![];
let mut new_local_bytes: Vec<u8> = vec![];
let mut new_other_bytes: Vec<u8> = vec![];
let mut previous = UnchangedRange {
base_range: 0..0,
offsets: vec![0, 0],
};
for current in unchanged_ranges {
let base_slice =
&base_bytes[previous.base_range.end..current.base_range.start];
let local_slice = &local_bytes[previous.end(0)..current.start(0)];
let other_slice = &other_bytes[previous.end(1)..current.start(1)];
if let Some(resolution) =
resolve_conflict(base_slice, local_slice, other_slice, regex)
{
new_base_bytes.extend(&resolution);
new_local_bytes.extend(&resolution);
new_other_bytes.extend(&resolution);
} else {
new_base_bytes.extend(base_slice);
new_local_bytes.extend(local_slice);
new_other_bytes.extend(other_slice);
}
new_base_bytes.extend(&base_bytes[current.base_range.clone()]);
new_local_bytes.extend(&local_bytes[current.start(0)..current.end(0)]);
new_other_bytes.extend(&other_bytes[current.start(1)..current.end(1)]);
previous = current;
}
(new_base_bytes, new_local_bytes, new_other_bytes)
}
/// A tool that performs a 3-way merge, resolving conflicts in sorted lists and
/// leaving other conflicts unchanged. This is useful with Mercurial's support
/// for partial merge tools (configured in `[partial-merge-tools]`).
#[derive(Parser, Debug)]
#[clap(version, about, long_about = None)]
#[clap(group(ArgGroup::new("match").required(true).args(&["pattern", "python-imports"])))]
struct Args {
/// Path to the file's content in the "local" side
local: OsString,
/// Path to the file's content in the base
base: OsString,
/// Path to the file's content in the "other" side
other: OsString,
/// Regular expression to use
#[clap(long, short)]
pattern: Option<String>,
/// Use built-in regular expression for Python imports
#[clap(long)]
python_imports: bool,
}
fn get_regex(args: &Args) -> Regex {
let pattern = if args.python_imports {
r"import \w+(\.\w+)*( +#.*)?\n|from (\w+(\.\w+)* import \w+( as \w+)?(, \w+( as \w+)?)*( +#.*)?)"
} else if let Some(pattern) = &args.pattern {
pattern
} else {
".*"
};
let pattern = format!(r"{}\r?\n?", pattern);
regex::bytes::Regex::new(&pattern).unwrap()
}
fn main() {
let args: Args = Args::parse();
let base_path = PathBuf::from(&args.base);
let local_path = PathBuf::from(&args.local);
let other_path = PathBuf::from(&args.other);
let base_bytes = std::fs::read(&base_path).unwrap();
let local_bytes = std::fs::read(&local_path).unwrap();
let other_bytes = std::fs::read(&other_path).unwrap();
let regex = get_regex(&args);
let (new_base_bytes, new_local_bytes, new_other_bytes) =
resolve(&base_bytes, &local_bytes, &other_bytes, &regex);
// Write out the result if anything changed
if new_base_bytes != base_bytes {
std::fs::write(&base_path, new_base_bytes).unwrap();
}
if new_local_bytes != local_bytes {
std::fs::write(&local_path, new_local_bytes).unwrap();
}
if new_other_bytes != other_bytes {
std::fs::write(&other_path, new_other_bytes).unwrap();
}
}
fn checked_add(base: usize, offset: isize) -> usize {
if offset < 0 {
base.checked_sub(offset.checked_abs().unwrap() as usize)
.unwrap()
} else {
base.checked_add(offset as usize).unwrap()
}
}
// The remainder of the file is copied from
// https://github.com/martinvonz/jj/blob/main/lib/src/diff.rs
#[derive(Clone, PartialEq, Eq, Debug)]
struct UnchangedRange {
base_range: Range<usize>,
offsets: Vec<isize>,
}
impl UnchangedRange {
fn start(&self, side: usize) -> usize {
checked_add(self.base_range.start, self.offsets[side])
}
fn end(&self, side: usize) -> usize {
checked_add(self.base_range.end, self.offsets[side])
}
}
impl PartialOrd for UnchangedRange {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
Some(self.cmp(other))
}
}
impl Ord for UnchangedRange {
fn cmp(&self, other: &Self) -> Ordering {
self.base_range
.start
.cmp(&other.base_range.start)
.then_with(|| self.base_range.end.cmp(&other.base_range.end))
}
}
/// Takes the current regions and intersects it with the new unchanged ranges
/// from a 2-way diff. The result is a map of unchanged regions with one more
/// offset in the map's values.
fn intersect_regions(
current_ranges: Vec<UnchangedRange>,
new_unchanged_ranges: &[(Range<usize>, Range<usize>)],
) -> Vec<UnchangedRange> {
let mut result = vec![];
let mut current_ranges_iter = current_ranges.into_iter().peekable();
for (new_base_range, other_range) in new_unchanged_ranges.iter() {
assert_eq!(new_base_range.len(), other_range.len());
while let Some(UnchangedRange {
base_range,
offsets,
}) = current_ranges_iter.peek()
{
// No need to look further if we're past the new range.
if base_range.start >= new_base_range.end {
break;
}
// Discard any current unchanged regions that don't match between
// the base and the new input.
if base_range.end <= new_base_range.start {
current_ranges_iter.next();
continue;
}
let new_start = max(base_range.start, new_base_range.start);
let new_end = min(base_range.end, new_base_range.end);
let mut new_offsets = offsets.clone();
new_offsets
.push(other_range.start.wrapping_sub(new_base_range.start)
as isize);
result.push(UnchangedRange {
base_range: new_start..new_end,
offsets: new_offsets,
});
if base_range.end >= new_base_range.end {
// Break without consuming the item; there may be other new
// ranges that overlap with it.
break;
}
current_ranges_iter.next();
}
}
result
}