##// END OF EJS Templates
contrib: install Python 2.7.17 and 3.7.5 in Windows environment...
contrib: install Python 2.7.17 and 3.7.5 in Windows environment These are the latest Python versions and we should use them.

File last commit:

r43565:99394e6c default
r43619:8676a8b2 stable
Show More
status.rs
248 lines | 8.4 KiB | application/rls-services+xml | RustLexer
// status.rs
//
// 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.
//! Rust implementation of dirstate.status (dirstate.py).
//! It is currently missing a lot of functionality compared to the Python one
//! and will only be triggered in narrow cases.
use crate::utils::files::HgMetadata;
use crate::utils::hg_path::{hg_path_to_path_buf, HgPath, HgPathBuf};
use crate::{DirstateEntry, DirstateMap, EntryState};
use rayon::prelude::*;
use std::collections::HashMap;
use std::fs::Metadata;
use std::path::Path;
/// Get stat data about the files explicitly specified by match.
/// TODO subrepos
fn walk_explicit(
files: &[impl AsRef<HgPath> + Sync],
dmap: &DirstateMap,
root_dir: impl AsRef<Path> + Sync,
) -> std::io::Result<HashMap<HgPathBuf, Option<HgMetadata>>> {
let mut results = HashMap::new();
// A tuple of the normalized filename and the `Result` of the call to
// `symlink_metadata` for separate handling.
type WalkTuple<'a> = (&'a HgPath, std::io::Result<Metadata>);
let stats_res: std::io::Result<Vec<WalkTuple>> = files
.par_iter()
.map(|filename| {
// TODO normalization
let normalized = filename.as_ref();
let target_filename =
root_dir.as_ref().join(hg_path_to_path_buf(normalized)?);
Ok((normalized, target_filename.symlink_metadata()))
})
.collect();
for res in stats_res? {
match res {
(normalized, Ok(stat)) => {
if stat.is_file() {
results.insert(
normalized.to_owned(),
Some(HgMetadata::from_metadata(stat)),
);
} else {
if dmap.contains_key(normalized) {
results.insert(normalized.to_owned(), None);
}
}
}
(normalized, Err(_)) => {
if dmap.contains_key(normalized) {
results.insert(normalized.to_owned(), None);
}
}
};
}
Ok(results)
}
// Stat all entries in the `DirstateMap` and return their new metadata.
pub fn stat_dmap_entries(
dmap: &DirstateMap,
results: &HashMap<HgPathBuf, Option<HgMetadata>>,
root_dir: impl AsRef<Path> + Sync,
) -> std::io::Result<Vec<(HgPathBuf, Option<HgMetadata>)>> {
dmap.par_iter()
.filter_map(
// Getting file metadata is costly, so we don't do it if the
// file is already present in the results, hence `filter_map`
|(filename, _)| -> Option<
std::io::Result<(HgPathBuf, Option<HgMetadata>)>
> {
if results.contains_key(filename) {
return None;
}
let meta = match hg_path_to_path_buf(filename) {
Ok(p) => root_dir.as_ref().join(p).symlink_metadata(),
Err(e) => return Some(Err(e.into())),
};
Some(match meta {
Ok(ref m)
if !(m.file_type().is_file()
|| m.file_type().is_symlink()) =>
{
Ok((filename.to_owned(), None))
}
Ok(m) => Ok((
filename.to_owned(),
Some(HgMetadata::from_metadata(m)),
)),
Err(ref e)
if e.kind() == std::io::ErrorKind::NotFound
|| e.raw_os_error() == Some(20) =>
{
// Rust does not yet have an `ErrorKind` for
// `NotADirectory` (errno 20)
// It happens if the dirstate contains `foo/bar` and
// foo is not a directory
Ok((filename.to_owned(), None))
}
Err(e) => Err(e),
})
},
)
.collect()
}
pub struct StatusResult {
pub modified: Vec<HgPathBuf>,
pub added: Vec<HgPathBuf>,
pub removed: Vec<HgPathBuf>,
pub deleted: Vec<HgPathBuf>,
pub clean: Vec<HgPathBuf>,
// TODO ignored
// TODO unknown
}
fn build_response(
dmap: &DirstateMap,
list_clean: bool,
last_normal_time: i64,
check_exec: bool,
results: HashMap<HgPathBuf, Option<HgMetadata>>,
) -> (Vec<HgPathBuf>, StatusResult) {
let mut lookup = vec![];
let mut modified = vec![];
let mut added = vec![];
let mut removed = vec![];
let mut deleted = vec![];
let mut clean = vec![];
for (filename, metadata_option) in results.into_iter() {
let DirstateEntry {
state,
mode,
mtime,
size,
} = match dmap.get(&filename) {
None => {
continue;
}
Some(e) => *e,
};
match metadata_option {
None => {
match state {
EntryState::Normal
| EntryState::Merged
| EntryState::Added => deleted.push(filename),
EntryState::Removed => removed.push(filename),
_ => {}
};
}
Some(HgMetadata {
st_mode,
st_size,
st_mtime,
..
}) => {
match state {
EntryState::Normal => {
// Dates and times that are outside the 31-bit signed
// range are compared modulo 2^31. This should prevent
// it from behaving badly with very large files or
// corrupt dates while still having a high probability
// of detecting changes. (issue2608)
let range_mask = 0x7fffffff;
let size_changed = (size != st_size as i32)
&& size != (st_size as i32 & range_mask);
let mode_changed = (mode ^ st_mode as i32) & 0o100
!= 0o000
&& check_exec;
if size >= 0
&& (size_changed || mode_changed)
|| size == -2 // other parent
|| dmap.copy_map.contains_key(&filename)
{
modified.push(filename);
} else if mtime != st_mtime as i32
&& mtime != (st_mtime as i32 & range_mask)
{
lookup.push(filename);
} else if st_mtime == last_normal_time {
// the file may have just been marked as normal and
// it may have changed in the same second without
// changing its size. This can happen if we quickly
// do multiple commits. Force lookup, so we don't
// miss such a racy file change.
lookup.push(filename);
} else if list_clean {
clean.push(filename);
}
}
EntryState::Merged => modified.push(filename),
EntryState::Added => added.push(filename),
EntryState::Removed => removed.push(filename),
EntryState::Unknown => {}
}
}
}
}
(
lookup,
StatusResult {
modified,
added,
removed,
deleted,
clean,
},
)
}
pub fn status(
dmap: &DirstateMap,
root_dir: impl AsRef<Path> + Sync + Copy,
files: &[impl AsRef<HgPath> + Sync],
list_clean: bool,
last_normal_time: i64,
check_exec: bool,
) -> std::io::Result<(Vec<HgPathBuf>, StatusResult)> {
let mut results = walk_explicit(files, &dmap, root_dir)?;
results.extend(stat_dmap_entries(&dmap, &results, root_dir)?);
Ok(build_response(
&dmap,
list_clean,
last_normal_time,
check_exec,
results,
))
}