Mercurial > hg
view rust/hg-core/src/utils.rs @ 50197:c493cb859158
bundlerepo: move the handling of bundl1 in its own method
This should make the overall flow simpler to follow.
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Thu, 23 Feb 2023 19:04:44 +0100 |
parents | f5b168979626 |
children | a6b8b1ab9116 |
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// utils module // // Copyright 2019 Raphaël Gomès <rgomes@octobus.net> // // This software may be used and distributed according to the terms of the // GNU General Public License version 2 or any later version. //! Contains useful functions, traits, structs, etc. for use in core. use crate::errors::{HgError, IoErrorContext}; use crate::utils::hg_path::HgPath; use im_rc::ordmap::DiffItem; use im_rc::ordmap::OrdMap; use std::cell::Cell; use std::fmt; use std::{io::Write, ops::Deref}; pub mod files; pub mod hg_path; pub mod path_auditor; /// Useful until rust/issues/56345 is stable /// /// # Examples /// /// ``` /// use crate::hg::utils::find_slice_in_slice; /// /// let haystack = b"This is the haystack".to_vec(); /// assert_eq!(find_slice_in_slice(&haystack, b"the"), Some(8)); /// assert_eq!(find_slice_in_slice(&haystack, b"not here"), None); /// ``` pub fn find_slice_in_slice<T>(slice: &[T], needle: &[T]) -> Option<usize> where for<'a> &'a [T]: PartialEq, { slice .windows(needle.len()) .position(|window| window == needle) } /// Replaces the `from` slice with the `to` slice inside the `buf` slice. /// /// # Examples /// /// ``` /// use crate::hg::utils::replace_slice; /// let mut line = b"I hate writing tests!".to_vec(); /// replace_slice(&mut line, b"hate", b"love"); /// assert_eq!( /// line, /// b"I love writing tests!".to_vec() /// ); /// ``` pub fn replace_slice<T>(buf: &mut [T], from: &[T], to: &[T]) where T: Clone + PartialEq, { if buf.len() < from.len() || from.len() != to.len() { return; } for i in 0..=buf.len() - from.len() { if buf[i..].starts_with(from) { buf[i..(i + from.len())].clone_from_slice(to); } } } pub trait SliceExt { fn trim_end(&self) -> &Self; fn trim_start(&self) -> &Self; fn trim_end_matches(&self, f: impl FnMut(u8) -> bool) -> &Self; fn trim_start_matches(&self, f: impl FnMut(u8) -> bool) -> &Self; fn trim(&self) -> &Self; fn drop_prefix(&self, needle: &Self) -> Option<&Self>; fn split_2(&self, separator: u8) -> Option<(&[u8], &[u8])>; fn split_2_by_slice(&self, separator: &[u8]) -> Option<(&[u8], &[u8])>; } impl SliceExt for [u8] { fn trim_end(&self) -> &[u8] { self.trim_end_matches(|byte| byte.is_ascii_whitespace()) } fn trim_start(&self) -> &[u8] { self.trim_start_matches(|byte| byte.is_ascii_whitespace()) } fn trim_end_matches(&self, mut f: impl FnMut(u8) -> bool) -> &Self { if let Some(last) = self.iter().rposition(|&byte| !f(byte)) { &self[..=last] } else { &[] } } fn trim_start_matches(&self, mut f: impl FnMut(u8) -> bool) -> &Self { if let Some(first) = self.iter().position(|&byte| !f(byte)) { &self[first..] } else { &[] } } /// ``` /// use hg::utils::SliceExt; /// assert_eq!( /// b" to trim ".trim(), /// b"to trim" /// ); /// assert_eq!( /// b"to trim ".trim(), /// b"to trim" /// ); /// assert_eq!( /// b" to trim".trim(), /// b"to trim" /// ); /// ``` fn trim(&self) -> &[u8] { self.trim_start().trim_end() } fn drop_prefix(&self, needle: &Self) -> Option<&Self> { if self.starts_with(needle) { Some(&self[needle.len()..]) } else { None } } fn split_2(&self, separator: u8) -> Option<(&[u8], &[u8])> { let mut iter = self.splitn(2, |&byte| byte == separator); let a = iter.next()?; let b = iter.next()?; Some((a, b)) } fn split_2_by_slice(&self, separator: &[u8]) -> Option<(&[u8], &[u8])> { find_slice_in_slice(self, separator) .map(|pos| (&self[..pos], &self[pos + separator.len()..])) } } pub trait Escaped { /// Return bytes escaped for display to the user fn escaped_bytes(&self) -> Vec<u8>; } impl Escaped for u8 { fn escaped_bytes(&self) -> Vec<u8> { let mut acc = vec![]; match self { c @ b'\'' | c @ b'\\' => { acc.push(b'\\'); acc.push(*c); } b'\t' => { acc.extend(br"\\t"); } b'\n' => { acc.extend(br"\\n"); } b'\r' => { acc.extend(br"\\r"); } c if (*c < b' ' || *c >= 127) => { write!(acc, "\\x{:x}", self).unwrap(); } c => { acc.push(*c); } } acc } } impl<'a, T: Escaped> Escaped for &'a [T] { fn escaped_bytes(&self) -> Vec<u8> { self.iter().flat_map(Escaped::escaped_bytes).collect() } } impl<T: Escaped> Escaped for Vec<T> { fn escaped_bytes(&self) -> Vec<u8> { self.deref().escaped_bytes() } } impl<'a> Escaped for &'a HgPath { fn escaped_bytes(&self) -> Vec<u8> { self.as_bytes().escaped_bytes() } } #[cfg(unix)] pub fn shell_quote(value: &[u8]) -> Vec<u8> { if value.iter().all(|&byte| { matches!( byte, b'a'..=b'z' | b'A'..=b'Z' | b'0'..=b'9' | b'.' | b'_' | b'/' | b'+' | b'-' ) }) { value.to_owned() } else { let mut quoted = Vec::with_capacity(value.len() + 2); quoted.push(b'\''); for &byte in value { if byte == b'\'' { quoted.push(b'\\'); } quoted.push(byte); } quoted.push(b'\''); quoted } } pub fn current_dir() -> Result<std::path::PathBuf, HgError> { std::env::current_dir().map_err(|error| HgError::IoError { error, context: IoErrorContext::CurrentDir, }) } pub fn current_exe() -> Result<std::path::PathBuf, HgError> { std::env::current_exe().map_err(|error| HgError::IoError { error, context: IoErrorContext::CurrentExe, }) } /// Expand `$FOO` and `${FOO}` environment variables in the given byte string pub fn expand_vars(s: &[u8]) -> std::borrow::Cow<[u8]> { lazy_static::lazy_static! { /// https://github.com/python/cpython/blob/3.9/Lib/posixpath.py#L301 /// The `x` makes whitespace ignored. /// `-u` disables the Unicode flag, which makes `\w` like Python with the ASCII flag. static ref VAR_RE: regex::bytes::Regex = regex::bytes::Regex::new(r"(?x-u) \$ (?: (\w+) | \{ ([^}]*) \} ) ").unwrap(); } VAR_RE.replace_all(s, |captures: ®ex::bytes::Captures| { let var_name = files::get_os_str_from_bytes( captures .get(1) .or_else(|| captures.get(2)) .expect("either side of `|` must participate in match") .as_bytes(), ); std::env::var_os(var_name) .map(files::get_bytes_from_os_str) .unwrap_or_else(|| { // Referencing an environment variable that does not exist. // Leave the $FOO reference as-is. captures[0].to_owned() }) }) } #[test] fn test_expand_vars() { // Modifying process-global state in a test isn’t great, // but hopefully this won’t collide with anything. std::env::set_var("TEST_EXPAND_VAR", "1"); assert_eq!( expand_vars(b"before/$TEST_EXPAND_VAR/after"), &b"before/1/after"[..] ); assert_eq!( expand_vars(b"before${TEST_EXPAND_VAR}${TEST_EXPAND_VAR}${TEST_EXPAND_VAR}after"), &b"before111after"[..] ); let s = b"before $SOME_LONG_NAME_THAT_WE_ASSUME_IS_NOT_AN_ACTUAL_ENV_VAR after"; assert_eq!(expand_vars(s), &s[..]); } pub(crate) enum MergeResult<V> { Left, Right, New(V), } /// Return the union of the two given maps, /// calling `merge(key, left_value, right_value)` to resolve keys that exist in /// both. /// /// CC https://github.com/bodil/im-rs/issues/166 pub(crate) fn ordmap_union_with_merge<K, V>( left: OrdMap<K, V>, right: OrdMap<K, V>, mut merge: impl FnMut(&K, &V, &V) -> MergeResult<V>, ) -> OrdMap<K, V> where K: Clone + Ord, V: Clone + PartialEq, { if left.ptr_eq(&right) { // One of the two maps is an unmodified clone of the other left } else if left.len() / 2 > right.len() { // When two maps have different sizes, // their size difference is a lower bound on // how many keys of the larger map are not also in the smaller map. // This in turn is a lower bound on the number of differences in // `OrdMap::diff` and the "amount of work" that would be done // by `ordmap_union_with_merge_by_diff`. // // Here `left` is more than twice the size of `right`, // so the number of differences is more than the total size of // `right`. Therefore an algorithm based on iterating `right` // is more efficient. // // This helps a lot when a tiny (or empty) map is merged // with a large one. ordmap_union_with_merge_by_iter(left, right, merge) } else if left.len() < right.len() / 2 { // Same as above but with `left` and `right` swapped ordmap_union_with_merge_by_iter(right, left, |key, a, b| { // Also swapped in `merge` arguments: match merge(key, b, a) { MergeResult::New(v) => MergeResult::New(v), // … and swap back in `merge` result: MergeResult::Left => MergeResult::Right, MergeResult::Right => MergeResult::Left, } }) } else { // For maps of similar size, use the algorithm based on `OrdMap::diff` ordmap_union_with_merge_by_diff(left, right, merge) } } /// Efficient if `right` is much smaller than `left` fn ordmap_union_with_merge_by_iter<K, V>( mut left: OrdMap<K, V>, right: OrdMap<K, V>, mut merge: impl FnMut(&K, &V, &V) -> MergeResult<V>, ) -> OrdMap<K, V> where K: Clone + Ord, V: Clone, { for (key, right_value) in right { match left.get(&key) { None => { left.insert(key, right_value); } Some(left_value) => match merge(&key, left_value, &right_value) { MergeResult::Left => {} MergeResult::Right => { left.insert(key, right_value); } MergeResult::New(new_value) => { left.insert(key, new_value); } }, } } left } /// Fallback when both maps are of similar size fn ordmap_union_with_merge_by_diff<K, V>( mut left: OrdMap<K, V>, mut right: OrdMap<K, V>, mut merge: impl FnMut(&K, &V, &V) -> MergeResult<V>, ) -> OrdMap<K, V> where K: Clone + Ord, V: Clone + PartialEq, { // (key, value) pairs that would need to be inserted in either map // in order to turn it into the union. // // TODO: if/when https://github.com/bodil/im-rs/pull/168 is accepted, // change these from `Vec<(K, V)>` to `Vec<(&K, Cow<V>)>` // with `left_updates` only borrowing from `right` and `right_updates` from // `left`, and with `Cow::Owned` used for `MergeResult::New`. // // This would allow moving all `.clone()` calls to after we’ve decided // which of `right_updates` or `left_updates` to use // (value ones becoming `Cow::into_owned`), // and avoid making clones we don’t end up using. let mut left_updates = Vec::new(); let mut right_updates = Vec::new(); for difference in left.diff(&right) { match difference { DiffItem::Add(key, value) => { left_updates.push((key.clone(), value.clone())) } DiffItem::Remove(key, value) => { right_updates.push((key.clone(), value.clone())) } DiffItem::Update { old: (key, left_value), new: (_, right_value), } => match merge(key, left_value, right_value) { MergeResult::Left => { right_updates.push((key.clone(), left_value.clone())) } MergeResult::Right => { left_updates.push((key.clone(), right_value.clone())) } MergeResult::New(new_value) => { left_updates.push((key.clone(), new_value.clone())); right_updates.push((key.clone(), new_value)) } }, } } if left_updates.len() < right_updates.len() { for (key, value) in left_updates { left.insert(key, value); } left } else { for (key, value) in right_updates { right.insert(key, value); } right } } /// Join items of the iterable with the given separator, similar to Python’s /// `separator.join(iter)`. /// /// Formatting the return value consumes the iterator. /// Formatting it again will produce an empty string. pub fn join_display( iter: impl IntoIterator<Item = impl fmt::Display>, separator: impl fmt::Display, ) -> impl fmt::Display { JoinDisplay { iter: Cell::new(Some(iter.into_iter())), separator, } } struct JoinDisplay<I, S> { iter: Cell<Option<I>>, separator: S, } impl<I, T, S> fmt::Display for JoinDisplay<I, S> where I: Iterator<Item = T>, T: fmt::Display, S: fmt::Display, { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { if let Some(mut iter) = self.iter.take() { if let Some(first) = iter.next() { first.fmt(f)?; } for value in iter { self.separator.fmt(f)?; value.fmt(f)?; } } Ok(()) } } /// Like `Iterator::filter_map`, but over a fallible iterator of `Result`s. /// /// The callback is only called for incoming `Ok` values. Errors are passed /// through as-is. In order to let it use the `?` operator the callback is /// expected to return a `Result` of `Option`, instead of an `Option` of /// `Result`. pub fn filter_map_results<'a, I, F, A, B, E>( iter: I, f: F, ) -> impl Iterator<Item = Result<B, E>> + 'a where I: Iterator<Item = Result<A, E>> + 'a, F: Fn(A) -> Result<Option<B>, E> + 'a, { iter.filter_map(move |result| match result { Ok(node) => f(node).transpose(), Err(e) => Some(Err(e)), }) }