match: add `filepath:` pattern to match an exact filepath relative to the root
It's useful in certain automated workflows to make sure we recurse in
directories whose name conflicts with files in other revisions.
In addition it makes it possible to avoid building a potentially costly regex,
improving performance when the set of files to match explicitly is large.
The benchmark below are run in the following configuration :
# data-env-vars.name = mozilla-central-2018-08-01-zstd-sparse-revlog
# benchmark.name = files
# benchmark.variants.rev = tip
# benchmark.variants.files = all-list-filepath-sorted
# bin-env-vars.hg.flavor = no-rust
It also includes timings using the re2 engine (through the `google-re2` module)
to show how much can be saved by just using a better regexp engine.
Pattern time (seconds) time using re2
-----------------------------------------------------------
just "." 0.4 0.4
list of "filepath:…" 1.3 1.3
list of "path:…" 25.7 3.9
list of patterns 29.7 10.4
As you can see, Without re2, using "filepath:" instead of "path:" is a huge
win. With re2, it is still about three times faster to not have to build the
regex.
// matchers.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.
//! Structs and types for matching files and directories.
use crate::{
dirstate::dirs_multiset::DirsChildrenMultiset,
filepatterns::{
build_single_regex, filter_subincludes, get_patterns_from_file,
PatternFileWarning, PatternResult,
},
utils::{
files::find_dirs,
hg_path::{HgPath, HgPathBuf},
Escaped,
},
DirsMultiset, DirstateMapError, FastHashMap, IgnorePattern, PatternError,
PatternSyntax,
};
use crate::dirstate::status::IgnoreFnType;
use crate::filepatterns::normalize_path_bytes;
use std::borrow::ToOwned;
use std::collections::HashSet;
use std::fmt::{Display, Error, Formatter};
use std::ops::Deref;
use std::path::{Path, PathBuf};
#[derive(Debug, PartialEq)]
pub enum VisitChildrenSet {
/// Don't visit anything
Empty,
/// Only visit this directory
This,
/// Visit this directory and these subdirectories
/// TODO Should we implement a `NonEmptyHashSet`?
Set(HashSet<HgPathBuf>),
/// Visit this directory and all subdirectories
Recursive,
}
pub trait Matcher: core::fmt::Debug {
/// Explicitly listed files
fn file_set(&self) -> Option<&HashSet<HgPathBuf>>;
/// Returns whether `filename` is in `file_set`
fn exact_match(&self, filename: &HgPath) -> bool;
/// Returns whether `filename` is matched by this matcher
fn matches(&self, filename: &HgPath) -> bool;
/// Decides whether a directory should be visited based on whether it
/// has potential matches in it or one of its subdirectories, and
/// potentially lists which subdirectories of that directory should be
/// visited. This is based on the match's primary, included, and excluded
/// patterns.
///
/// # Example
///
/// Assume matchers `['path:foo/bar', 'rootfilesin:qux']`, we would
/// return the following values (assuming the implementation of
/// visit_children_set is capable of recognizing this; some implementations
/// are not).
///
/// ```text
/// ```ignore
/// '' -> {'foo', 'qux'}
/// 'baz' -> set()
/// 'foo' -> {'bar'}
/// // Ideally this would be `Recursive`, but since the prefix nature of
/// // matchers is applied to the entire matcher, we have to downgrade this
/// // to `This` due to the (yet to be implemented in Rust) non-prefix
/// // `RootFilesIn'-kind matcher being mixed in.
/// 'foo/bar' -> 'this'
/// 'qux' -> 'this'
/// ```
/// # Important
///
/// Most matchers do not know if they're representing files or
/// directories. They see `['path:dir/f']` and don't know whether `f` is a
/// file or a directory, so `visit_children_set('dir')` for most matchers
/// will return `HashSet{ HgPath { "f" } }`, but if the matcher knows it's
/// a file (like the yet to be implemented in Rust `ExactMatcher` does),
/// it may return `VisitChildrenSet::This`.
/// Do not rely on the return being a `HashSet` indicating that there are
/// no files in this dir to investigate (or equivalently that if there are
/// files to investigate in 'dir' that it will always return
/// `VisitChildrenSet::This`).
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet;
/// Matcher will match everything and `files_set()` will be empty:
/// optimization might be possible.
fn matches_everything(&self) -> bool;
/// Matcher will match exactly the files in `files_set()`: optimization
/// might be possible.
fn is_exact(&self) -> bool;
}
/// Matches everything.
///```
/// use hg::{ matchers::{Matcher, AlwaysMatcher}, utils::hg_path::HgPath };
///
/// let matcher = AlwaysMatcher;
///
/// assert_eq!(matcher.matches(HgPath::new(b"whatever")), true);
/// assert_eq!(matcher.matches(HgPath::new(b"b.txt")), true);
/// assert_eq!(matcher.matches(HgPath::new(b"main.c")), true);
/// assert_eq!(matcher.matches(HgPath::new(br"re:.*\.c$")), true);
/// ```
#[derive(Debug)]
pub struct AlwaysMatcher;
impl Matcher for AlwaysMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
None
}
fn exact_match(&self, _filename: &HgPath) -> bool {
false
}
fn matches(&self, _filename: &HgPath) -> bool {
true
}
fn visit_children_set(&self, _directory: &HgPath) -> VisitChildrenSet {
VisitChildrenSet::Recursive
}
fn matches_everything(&self) -> bool {
true
}
fn is_exact(&self) -> bool {
false
}
}
/// Matches nothing.
#[derive(Debug)]
pub struct NeverMatcher;
impl Matcher for NeverMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
None
}
fn exact_match(&self, _filename: &HgPath) -> bool {
false
}
fn matches(&self, _filename: &HgPath) -> bool {
false
}
fn visit_children_set(&self, _directory: &HgPath) -> VisitChildrenSet {
VisitChildrenSet::Empty
}
fn matches_everything(&self) -> bool {
false
}
fn is_exact(&self) -> bool {
true
}
}
/// Matches the input files exactly. They are interpreted as paths, not
/// patterns.
///
///```
/// use hg::{ matchers::{Matcher, FileMatcher}, utils::hg_path::{HgPath, HgPathBuf} };
///
/// let files = vec![HgPathBuf::from_bytes(b"a.txt"), HgPathBuf::from_bytes(br"re:.*\.c$")];
/// let matcher = FileMatcher::new(files).unwrap();
///
/// assert_eq!(matcher.matches(HgPath::new(b"a.txt")), true);
/// assert_eq!(matcher.matches(HgPath::new(b"b.txt")), false);
/// assert_eq!(matcher.matches(HgPath::new(b"main.c")), false);
/// assert_eq!(matcher.matches(HgPath::new(br"re:.*\.c$")), true);
/// ```
#[derive(Debug)]
pub struct FileMatcher {
files: HashSet<HgPathBuf>,
dirs: DirsMultiset,
}
impl FileMatcher {
pub fn new(files: Vec<HgPathBuf>) -> Result<Self, DirstateMapError> {
let dirs = DirsMultiset::from_manifest(&files)?;
Ok(Self {
files: HashSet::from_iter(files.into_iter()),
dirs,
})
}
fn inner_matches(&self, filename: &HgPath) -> bool {
self.files.contains(filename.as_ref())
}
}
impl Matcher for FileMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
Some(&self.files)
}
fn exact_match(&self, filename: &HgPath) -> bool {
self.inner_matches(filename)
}
fn matches(&self, filename: &HgPath) -> bool {
self.inner_matches(filename)
}
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet {
if self.files.is_empty() || !self.dirs.contains(&directory) {
return VisitChildrenSet::Empty;
}
let mut candidates: HashSet<HgPathBuf> =
self.dirs.iter().cloned().collect();
candidates.extend(self.files.iter().cloned());
candidates.remove(HgPath::new(b""));
if !directory.as_ref().is_empty() {
let directory = [directory.as_ref().as_bytes(), b"/"].concat();
candidates = candidates
.iter()
.filter_map(|c| {
if c.as_bytes().starts_with(&directory) {
Some(HgPathBuf::from_bytes(
&c.as_bytes()[directory.len()..],
))
} else {
None
}
})
.collect();
}
// `self.dirs` includes all of the directories, recursively, so if
// we're attempting to match 'foo/bar/baz.txt', it'll have '', 'foo',
// 'foo/bar' in it. Thus we can safely ignore a candidate that has a
// '/' in it, indicating it's for a subdir-of-a-subdir; the immediate
// subdir will be in there without a slash.
VisitChildrenSet::Set(
candidates
.into_iter()
.filter_map(|c| {
if c.bytes().all(|b| *b != b'/') {
Some(c)
} else {
None
}
})
.collect(),
)
}
fn matches_everything(&self) -> bool {
false
}
fn is_exact(&self) -> bool {
true
}
}
/// Matches files that are included in the ignore rules.
/// ```
/// use hg::{
/// matchers::{IncludeMatcher, Matcher},
/// IgnorePattern,
/// PatternSyntax,
/// utils::hg_path::HgPath
/// };
/// use std::path::Path;
/// ///
/// let ignore_patterns =
/// vec![IgnorePattern::new(PatternSyntax::RootGlob, b"this*", Path::new(""))];
/// let matcher = IncludeMatcher::new(ignore_patterns).unwrap();
/// ///
/// assert_eq!(matcher.matches(HgPath::new(b"testing")), false);
/// assert_eq!(matcher.matches(HgPath::new(b"this should work")), true);
/// assert_eq!(matcher.matches(HgPath::new(b"this also")), true);
/// assert_eq!(matcher.matches(HgPath::new(b"but not this")), false);
/// ```
pub struct IncludeMatcher<'a> {
patterns: Vec<u8>,
match_fn: IgnoreFnType<'a>,
/// Whether all the patterns match a prefix (i.e. recursively)
prefix: bool,
roots: HashSet<HgPathBuf>,
dirs: HashSet<HgPathBuf>,
parents: HashSet<HgPathBuf>,
}
impl core::fmt::Debug for IncludeMatcher<'_> {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
f.debug_struct("IncludeMatcher")
.field("patterns", &String::from_utf8_lossy(&self.patterns))
.field("prefix", &self.prefix)
.field("roots", &self.roots)
.field("dirs", &self.dirs)
.field("parents", &self.parents)
.finish()
}
}
impl<'a> Matcher for IncludeMatcher<'a> {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
None
}
fn exact_match(&self, _filename: &HgPath) -> bool {
false
}
fn matches(&self, filename: &HgPath) -> bool {
(self.match_fn)(filename)
}
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet {
let dir = directory;
if self.prefix && self.roots.contains(dir) {
return VisitChildrenSet::Recursive;
}
if self.roots.contains(HgPath::new(b""))
|| self.roots.contains(dir)
|| self.dirs.contains(dir)
|| find_dirs(dir).any(|parent_dir| self.roots.contains(parent_dir))
{
return VisitChildrenSet::This;
}
if self.parents.contains(dir.as_ref()) {
let multiset = self.get_all_parents_children();
if let Some(children) = multiset.get(dir) {
return VisitChildrenSet::Set(
children.iter().map(HgPathBuf::from).collect(),
);
}
}
VisitChildrenSet::Empty
}
fn matches_everything(&self) -> bool {
false
}
fn is_exact(&self) -> bool {
false
}
}
/// The union of multiple matchers. Will match if any of the matchers match.
#[derive(Debug)]
pub struct UnionMatcher {
matchers: Vec<Box<dyn Matcher + Sync>>,
}
impl Matcher for UnionMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
None
}
fn exact_match(&self, _filename: &HgPath) -> bool {
false
}
fn matches(&self, filename: &HgPath) -> bool {
self.matchers.iter().any(|m| m.matches(filename))
}
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet {
let mut result = HashSet::new();
let mut this = false;
for matcher in self.matchers.iter() {
let visit = matcher.visit_children_set(directory);
match visit {
VisitChildrenSet::Empty => continue,
VisitChildrenSet::This => {
this = true;
// Don't break, we might have an 'all' in here.
continue;
}
VisitChildrenSet::Set(set) => {
result.extend(set);
}
VisitChildrenSet::Recursive => {
return visit;
}
}
}
if this {
return VisitChildrenSet::This;
}
if result.is_empty() {
VisitChildrenSet::Empty
} else {
VisitChildrenSet::Set(result)
}
}
fn matches_everything(&self) -> bool {
// TODO Maybe if all are AlwaysMatcher?
false
}
fn is_exact(&self) -> bool {
false
}
}
impl UnionMatcher {
pub fn new(matchers: Vec<Box<dyn Matcher + Sync>>) -> Self {
Self { matchers }
}
}
#[derive(Debug)]
pub struct IntersectionMatcher {
m1: Box<dyn Matcher + Sync>,
m2: Box<dyn Matcher + Sync>,
files: Option<HashSet<HgPathBuf>>,
}
impl Matcher for IntersectionMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
self.files.as_ref()
}
fn exact_match(&self, filename: &HgPath) -> bool {
self.files.as_ref().map_or(false, |f| f.contains(filename))
}
fn matches(&self, filename: &HgPath) -> bool {
self.m1.matches(filename) && self.m2.matches(filename)
}
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet {
let m1_set = self.m1.visit_children_set(directory);
if m1_set == VisitChildrenSet::Empty {
return VisitChildrenSet::Empty;
}
let m2_set = self.m2.visit_children_set(directory);
if m2_set == VisitChildrenSet::Empty {
return VisitChildrenSet::Empty;
}
if m1_set == VisitChildrenSet::Recursive {
return m2_set;
} else if m2_set == VisitChildrenSet::Recursive {
return m1_set;
}
match (&m1_set, &m2_set) {
(VisitChildrenSet::Recursive, _) => m2_set,
(_, VisitChildrenSet::Recursive) => m1_set,
(VisitChildrenSet::This, _) | (_, VisitChildrenSet::This) => {
VisitChildrenSet::This
}
(VisitChildrenSet::Set(m1), VisitChildrenSet::Set(m2)) => {
let set: HashSet<_> = m1.intersection(m2).cloned().collect();
if set.is_empty() {
VisitChildrenSet::Empty
} else {
VisitChildrenSet::Set(set)
}
}
_ => unreachable!(),
}
}
fn matches_everything(&self) -> bool {
self.m1.matches_everything() && self.m2.matches_everything()
}
fn is_exact(&self) -> bool {
self.m1.is_exact() || self.m2.is_exact()
}
}
impl IntersectionMatcher {
pub fn new(
mut m1: Box<dyn Matcher + Sync>,
mut m2: Box<dyn Matcher + Sync>,
) -> Self {
let files = if m1.is_exact() || m2.is_exact() {
if !m1.is_exact() {
std::mem::swap(&mut m1, &mut m2);
}
m1.file_set().map(|m1_files| {
m1_files.iter().cloned().filter(|f| m2.matches(f)).collect()
})
} else {
None
};
Self { m1, m2, files }
}
}
#[derive(Debug)]
pub struct DifferenceMatcher {
base: Box<dyn Matcher + Sync>,
excluded: Box<dyn Matcher + Sync>,
files: Option<HashSet<HgPathBuf>>,
}
impl Matcher for DifferenceMatcher {
fn file_set(&self) -> Option<&HashSet<HgPathBuf>> {
self.files.as_ref()
}
fn exact_match(&self, filename: &HgPath) -> bool {
self.files.as_ref().map_or(false, |f| f.contains(filename))
}
fn matches(&self, filename: &HgPath) -> bool {
self.base.matches(filename) && !self.excluded.matches(filename)
}
fn visit_children_set(&self, directory: &HgPath) -> VisitChildrenSet {
let excluded_set = self.excluded.visit_children_set(directory);
if excluded_set == VisitChildrenSet::Recursive {
return VisitChildrenSet::Empty;
}
let base_set = self.base.visit_children_set(directory);
// Possible values for base: 'recursive', 'this', set(...), set()
// Possible values for excluded: 'this', set(...), set()
// If excluded has nothing under here that we care about, return base,
// even if it's 'recursive'.
if excluded_set == VisitChildrenSet::Empty {
return base_set;
}
match base_set {
VisitChildrenSet::This | VisitChildrenSet::Recursive => {
// Never return 'recursive' here if excluded_set is any kind of
// non-empty (either 'this' or set(foo)), since excluded might
// return set() for a subdirectory.
VisitChildrenSet::This
}
set => {
// Possible values for base: set(...), set()
// Possible values for excluded: 'this', set(...)
// We ignore excluded set results. They're possibly incorrect:
// base = path:dir/subdir
// excluded=rootfilesin:dir,
// visit_children_set(''):
// base returns {'dir'}, excluded returns {'dir'}, if we
// subtracted we'd return set(), which is *not* correct, we
// still need to visit 'dir'!
set
}
}
}
fn matches_everything(&self) -> bool {
false
}
fn is_exact(&self) -> bool {
self.base.is_exact()
}
}
impl DifferenceMatcher {
pub fn new(
base: Box<dyn Matcher + Sync>,
excluded: Box<dyn Matcher + Sync>,
) -> Self {
let base_is_exact = base.is_exact();
let base_files = base.file_set().map(ToOwned::to_owned);
let mut new = Self {
base,
excluded,
files: None,
};
if base_is_exact {
new.files = base_files.map(|files| {
files.iter().cloned().filter(|f| new.matches(f)).collect()
});
}
new
}
}
/// Wraps [`regex::bytes::Regex`] to improve performance in multithreaded
/// contexts.
///
/// The `status` algorithm makes heavy use of threads, and calling `is_match`
/// from many threads at once is prone to contention, probably within the
/// scratch space needed as the regex DFA is built lazily.
///
/// We are in the process of raising the issue upstream, but for now
/// the workaround used here is to store the `Regex` in a lazily populated
/// thread-local variable, sharing the initial read-only compilation, but
/// not the lazy dfa scratch space mentioned above.
///
/// This reduces the contention observed with 16+ threads, but does not
/// completely remove it. Hopefully this can be addressed upstream.
struct RegexMatcher {
/// Compiled at the start of the status algorithm, used as a base for
/// cloning in each thread-local `self.local`, thus sharing the expensive
/// first compilation.
base: regex::bytes::Regex,
/// Thread-local variable that holds the `Regex` that is actually queried
/// from each thread.
local: thread_local::ThreadLocal<regex::bytes::Regex>,
}
impl RegexMatcher {
/// Returns whether the path matches the stored `Regex`.
pub fn is_match(&self, path: &HgPath) -> bool {
self.local
.get_or(|| self.base.clone())
.is_match(path.as_bytes())
}
}
/// Returns a function that matches an `HgPath` against the given regex
/// pattern.
///
/// This can fail when the pattern is invalid or not supported by the
/// underlying engine (the `regex` crate), for instance anything with
/// back-references.
#[logging_timer::time("trace")]
fn re_matcher(pattern: &[u8]) -> PatternResult<RegexMatcher> {
use std::io::Write;
// The `regex` crate adds `.*` to the start and end of expressions if there
// are no anchors, so add the start anchor.
let mut escaped_bytes = vec![b'^', b'(', b'?', b':'];
for byte in pattern {
if *byte > 127 {
write!(escaped_bytes, "\\x{:x}", *byte).unwrap();
} else {
escaped_bytes.push(*byte);
}
}
escaped_bytes.push(b')');
// Avoid the cost of UTF8 checking
//
// # Safety
// This is safe because we escaped all non-ASCII bytes.
let pattern_string = unsafe { String::from_utf8_unchecked(escaped_bytes) };
let re = regex::bytes::RegexBuilder::new(&pattern_string)
.unicode(false)
// Big repos with big `.hgignore` will hit the default limit and
// incur a significant performance hit. One repo's `hg status` hit
// multiple *minutes*.
.dfa_size_limit(50 * (1 << 20))
.build()
.map_err(|e| PatternError::UnsupportedSyntax(e.to_string()))?;
Ok(RegexMatcher {
base: re,
local: Default::default(),
})
}
/// Returns the regex pattern and a function that matches an `HgPath` against
/// said regex formed by the given ignore patterns.
fn build_regex_match<'a, 'b>(
ignore_patterns: &'a [IgnorePattern],
) -> PatternResult<(Vec<u8>, IgnoreFnType<'b>)> {
let mut regexps = vec![];
let mut exact_set = HashSet::new();
for pattern in ignore_patterns {
if let Some(re) = build_single_regex(pattern)? {
regexps.push(re);
} else {
let exact = normalize_path_bytes(&pattern.pattern);
exact_set.insert(HgPathBuf::from_bytes(&exact));
}
}
let full_regex = regexps.join(&b'|');
// An empty pattern would cause the regex engine to incorrectly match the
// (empty) root directory
let func = if !(regexps.is_empty()) {
let matcher = re_matcher(&full_regex)?;
let func = move |filename: &HgPath| {
exact_set.contains(filename) || matcher.is_match(filename)
};
Box::new(func) as IgnoreFnType
} else {
let func = move |filename: &HgPath| exact_set.contains(filename);
Box::new(func) as IgnoreFnType
};
Ok((full_regex, func))
}
/// Returns roots and directories corresponding to each pattern.
///
/// This calculates the roots and directories exactly matching the patterns and
/// returns a tuple of (roots, dirs). It does not return other directories
/// which may also need to be considered, like the parent directories.
fn roots_and_dirs(
ignore_patterns: &[IgnorePattern],
) -> (Vec<HgPathBuf>, Vec<HgPathBuf>) {
let mut roots = Vec::new();
let mut dirs = Vec::new();
for ignore_pattern in ignore_patterns {
let IgnorePattern {
syntax, pattern, ..
} = ignore_pattern;
match syntax {
PatternSyntax::RootGlob | PatternSyntax::Glob => {
let mut root = HgPathBuf::new();
for p in pattern.split(|c| *c == b'/') {
if p.iter()
.any(|c| matches!(*c, b'[' | b'{' | b'*' | b'?'))
{
break;
}
root.push(HgPathBuf::from_bytes(p).as_ref());
}
roots.push(root);
}
PatternSyntax::Path
| PatternSyntax::RelPath
| PatternSyntax::FilePath => {
let pat = HgPath::new(if pattern == b"." {
&[] as &[u8]
} else {
pattern
});
roots.push(pat.to_owned());
}
PatternSyntax::RootFiles => {
let pat = if pattern == b"." {
&[] as &[u8]
} else {
pattern
};
dirs.push(HgPathBuf::from_bytes(pat));
}
_ => {
roots.push(HgPathBuf::new());
}
}
}
(roots, dirs)
}
/// Paths extracted from patterns
#[derive(Debug, PartialEq)]
struct RootsDirsAndParents {
/// Directories to match recursively
pub roots: HashSet<HgPathBuf>,
/// Directories to match non-recursively
pub dirs: HashSet<HgPathBuf>,
/// Implicitly required directories to go to items in either roots or dirs
pub parents: HashSet<HgPathBuf>,
}
/// Extract roots, dirs and parents from patterns.
fn roots_dirs_and_parents(
ignore_patterns: &[IgnorePattern],
) -> PatternResult<RootsDirsAndParents> {
let (roots, dirs) = roots_and_dirs(ignore_patterns);
let mut parents = HashSet::new();
parents.extend(
DirsMultiset::from_manifest(&dirs)
.map_err(|e| match e {
DirstateMapError::InvalidPath(e) => e,
_ => unreachable!(),
})?
.iter()
.map(ToOwned::to_owned),
);
parents.extend(
DirsMultiset::from_manifest(&roots)
.map_err(|e| match e {
DirstateMapError::InvalidPath(e) => e,
_ => unreachable!(),
})?
.iter()
.map(ToOwned::to_owned),
);
Ok(RootsDirsAndParents {
roots: HashSet::from_iter(roots),
dirs: HashSet::from_iter(dirs),
parents,
})
}
/// Returns a function that checks whether a given file (in the general sense)
/// should be matched.
fn build_match<'a>(
ignore_patterns: Vec<IgnorePattern>,
) -> PatternResult<(Vec<u8>, IgnoreFnType<'a>)> {
let mut match_funcs: Vec<IgnoreFnType<'a>> = vec![];
// For debugging and printing
let mut patterns = vec![];
let (subincludes, ignore_patterns) = filter_subincludes(ignore_patterns)?;
if !subincludes.is_empty() {
// Build prefix-based matcher functions for subincludes
let mut submatchers = FastHashMap::default();
let mut prefixes = vec![];
for sub_include in subincludes {
let matcher = IncludeMatcher::new(sub_include.included_patterns)?;
let match_fn =
Box::new(move |path: &HgPath| matcher.matches(path));
prefixes.push(sub_include.prefix.clone());
submatchers.insert(sub_include.prefix.clone(), match_fn);
}
let match_subinclude = move |filename: &HgPath| {
for prefix in prefixes.iter() {
if let Some(rel) = filename.relative_to(prefix) {
if (submatchers[prefix])(rel) {
return true;
}
}
}
false
};
match_funcs.push(Box::new(match_subinclude));
}
if !ignore_patterns.is_empty() {
// Either do dumb matching if all patterns are rootfiles, or match
// with a regex.
if ignore_patterns
.iter()
.all(|k| k.syntax == PatternSyntax::RootFiles)
{
let dirs: HashSet<_> = ignore_patterns
.iter()
.map(|k| k.pattern.to_owned())
.collect();
let mut dirs_vec: Vec<_> = dirs.iter().cloned().collect();
let match_func = move |path: &HgPath| -> bool {
let path = path.as_bytes();
let i = path.iter().rfind(|a| **a == b'/');
let dir = if let Some(i) = i {
&path[..*i as usize]
} else {
b"."
};
dirs.contains(dir.deref())
};
match_funcs.push(Box::new(match_func));
patterns.extend(b"rootfilesin: ");
dirs_vec.sort();
patterns.extend(dirs_vec.escaped_bytes());
} else {
let (new_re, match_func) = build_regex_match(&ignore_patterns)?;
patterns = new_re;
match_funcs.push(match_func)
}
}
Ok(if match_funcs.len() == 1 {
(patterns, match_funcs.remove(0))
} else {
(
patterns,
Box::new(move |f: &HgPath| -> bool {
match_funcs.iter().any(|match_func| match_func(f))
}),
)
})
}
/// Parses all "ignore" files with their recursive includes and returns a
/// function that checks whether a given file (in the general sense) should be
/// ignored.
pub fn get_ignore_matcher<'a>(
mut all_pattern_files: Vec<PathBuf>,
root_dir: &Path,
inspect_pattern_bytes: &mut impl FnMut(&Path, &[u8]),
) -> PatternResult<(IncludeMatcher<'a>, Vec<PatternFileWarning>)> {
let mut all_patterns = vec![];
let mut all_warnings = vec![];
// Sort to make the ordering of calls to `inspect_pattern_bytes`
// deterministic even if the ordering of `all_pattern_files` is not (such
// as when a iteration order of a Python dict or Rust HashMap is involved).
// Sort by "string" representation instead of the default by component
// (with a Rust-specific definition of a component)
all_pattern_files
.sort_unstable_by(|a, b| a.as_os_str().cmp(b.as_os_str()));
for pattern_file in &all_pattern_files {
let (patterns, warnings) = get_patterns_from_file(
pattern_file,
root_dir,
inspect_pattern_bytes,
)?;
all_patterns.extend(patterns.to_owned());
all_warnings.extend(warnings);
}
let matcher = IncludeMatcher::new(all_patterns)?;
Ok((matcher, all_warnings))
}
/// Parses all "ignore" files with their recursive includes and returns a
/// function that checks whether a given file (in the general sense) should be
/// ignored.
pub fn get_ignore_function<'a>(
all_pattern_files: Vec<PathBuf>,
root_dir: &Path,
inspect_pattern_bytes: &mut impl FnMut(&Path, &[u8]),
) -> PatternResult<(IgnoreFnType<'a>, Vec<PatternFileWarning>)> {
let res =
get_ignore_matcher(all_pattern_files, root_dir, inspect_pattern_bytes);
res.map(|(matcher, all_warnings)| {
let res: IgnoreFnType<'a> =
Box::new(move |path: &HgPath| matcher.matches(path));
(res, all_warnings)
})
}
impl<'a> IncludeMatcher<'a> {
pub fn new(ignore_patterns: Vec<IgnorePattern>) -> PatternResult<Self> {
let RootsDirsAndParents {
roots,
dirs,
parents,
} = roots_dirs_and_parents(&ignore_patterns)?;
let prefix = ignore_patterns.iter().all(|k| {
matches!(k.syntax, PatternSyntax::Path | PatternSyntax::RelPath)
});
let (patterns, match_fn) = build_match(ignore_patterns)?;
Ok(Self {
patterns,
match_fn,
prefix,
roots,
dirs,
parents,
})
}
fn get_all_parents_children(&self) -> DirsChildrenMultiset {
// TODO cache
let thing = self
.dirs
.iter()
.chain(self.roots.iter())
.chain(self.parents.iter());
DirsChildrenMultiset::new(thing, Some(&self.parents))
}
pub fn debug_get_patterns(&self) -> &[u8] {
self.patterns.as_ref()
}
}
impl<'a> Display for IncludeMatcher<'a> {
fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error> {
// XXX What about exact matches?
// I'm not sure it's worth it to clone the HashSet and keep it
// around just in case someone wants to display the matcher, plus
// it's going to be unreadable after a few entries, but we need to
// inform in this display that exact matches are being used and are
// (on purpose) missing from the `includes`.
write!(
f,
"IncludeMatcher(includes='{}')",
String::from_utf8_lossy(&self.patterns.escaped_bytes())
)
}
}
#[cfg(test)]
mod tests {
use super::*;
use pretty_assertions::assert_eq;
use std::path::Path;
#[test]
fn test_roots_and_dirs() {
let pats = vec![
IgnorePattern::new(PatternSyntax::Glob, b"g/h/*", Path::new("")),
IgnorePattern::new(PatternSyntax::Glob, b"g/h", Path::new("")),
IgnorePattern::new(PatternSyntax::Glob, b"g*", Path::new("")),
];
let (roots, dirs) = roots_and_dirs(&pats);
assert_eq!(
roots,
vec!(
HgPathBuf::from_bytes(b"g/h"),
HgPathBuf::from_bytes(b"g/h"),
HgPathBuf::new()
),
);
assert_eq!(dirs, vec!());
}
#[test]
fn test_roots_dirs_and_parents() {
let pats = vec![
IgnorePattern::new(PatternSyntax::Glob, b"g/h/*", Path::new("")),
IgnorePattern::new(PatternSyntax::Glob, b"g/h", Path::new("")),
IgnorePattern::new(PatternSyntax::Glob, b"g*", Path::new("")),
];
let mut roots = HashSet::new();
roots.insert(HgPathBuf::from_bytes(b"g/h"));
roots.insert(HgPathBuf::new());
let dirs = HashSet::new();
let mut parents = HashSet::new();
parents.insert(HgPathBuf::new());
parents.insert(HgPathBuf::from_bytes(b"g"));
assert_eq!(
roots_dirs_and_parents(&pats).unwrap(),
RootsDirsAndParents {
roots,
dirs,
parents
}
);
}
#[test]
fn test_filematcher_visit_children_set() {
// Visitchildrenset
let files = vec![HgPathBuf::from_bytes(b"dir/subdir/foo.txt")];
let matcher = FileMatcher::new(files).unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"foo.txt"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/foo.txt")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
}
#[test]
fn test_filematcher_visit_children_set_files_and_dirs() {
let files = vec![
HgPathBuf::from_bytes(b"rootfile.txt"),
HgPathBuf::from_bytes(b"a/file1.txt"),
HgPathBuf::from_bytes(b"a/b/file2.txt"),
// No file in a/b/c
HgPathBuf::from_bytes(b"a/b/c/d/file4.txt"),
];
let matcher = FileMatcher::new(files).unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"a"));
set.insert(HgPathBuf::from_bytes(b"rootfile.txt"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"b"));
set.insert(HgPathBuf::from_bytes(b"file1.txt"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"a")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"c"));
set.insert(HgPathBuf::from_bytes(b"file2.txt"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"a/b")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"d"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"a/b/c")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"file4.txt"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"a/b/c/d")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"a/b/c/d/e")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
}
#[test]
fn test_includematcher() {
// VisitchildrensetPrefix
let matcher = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Recursive
);
// OPT: This should probably be 'all' if its parent is?
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
// VisitchildrensetRootfilesin
let matcher = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RootFiles,
b"dir/subdir",
Path::new(""),
)])
.unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
// VisitchildrensetGlob
let matcher = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::Glob,
b"dir/z*",
Path::new(""),
)])
.unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::This
);
// OPT: these should probably be set().
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
// VisitchildrensetFilePath
let matcher = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::FilePath,
b"dir/z",
Path::new(""),
)])
.unwrap();
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"z"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
// OPT: these should probably be set().
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
// Test multiple patterns
let matcher = IncludeMatcher::new(vec![
IgnorePattern::new(PatternSyntax::RelPath, b"foo", Path::new("")),
IgnorePattern::new(PatternSyntax::Glob, b"g*", Path::new("")),
])
.unwrap();
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::This
);
// Test multiple patterns
let matcher = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::Glob,
b"**/*.exe",
Path::new(""),
)])
.unwrap();
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::This
);
}
#[test]
fn test_unionmatcher() {
// Path + Rootfiles
let m1 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap();
let m2 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RootFiles,
b"dir",
Path::new(""),
)])
.unwrap();
let matcher = UnionMatcher::new(vec![Box::new(m1), Box::new(m2)]);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Recursive
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
// OPT: These next two could be 'all' instead of 'this'.
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
// Path + unrelated Path
let m1 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap();
let m2 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"folder",
Path::new(""),
)])
.unwrap();
let matcher = UnionMatcher::new(vec![Box::new(m1), Box::new(m2)]);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"folder"));
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Recursive
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Recursive
);
// OPT: These next two could be 'all' instead of 'this'.
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
// Path + subpath
let m1 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir/x",
Path::new(""),
)])
.unwrap();
let m2 = IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap();
let matcher = UnionMatcher::new(vec![Box::new(m1), Box::new(m2)]);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Recursive
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Recursive
);
// OPT: this should probably be 'all' not 'this'.
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::This
);
}
#[test]
fn test_intersectionmatcher() {
// Include path + Include rootfiles
let m1 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap(),
);
let m2 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RootFiles,
b"dir",
Path::new(""),
)])
.unwrap(),
);
let matcher = IntersectionMatcher::new(m1, m2);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
// Non intersecting paths
let m1 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap(),
);
let m2 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"folder",
Path::new(""),
)])
.unwrap(),
);
let matcher = IntersectionMatcher::new(m1, m2);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
// Nested paths
let m1 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir/x",
Path::new(""),
)])
.unwrap(),
);
let m2 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new(""),
)])
.unwrap(),
);
let matcher = IntersectionMatcher::new(m1, m2);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"x"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::Empty
);
// OPT: this should probably be 'all' not 'this'.
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
// Diverging paths
let m1 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir/x",
Path::new(""),
)])
.unwrap(),
);
let m2 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir/z",
Path::new(""),
)])
.unwrap(),
);
let matcher = IntersectionMatcher::new(m1, m2);
// OPT: these next two could probably be Empty as well.
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
// OPT: these next two could probably be Empty as well.
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::Empty
);
}
#[test]
fn test_differencematcher() {
// Two alwaysmatchers should function like a nevermatcher
let m1 = AlwaysMatcher;
let m2 = AlwaysMatcher;
let matcher = DifferenceMatcher::new(Box::new(m1), Box::new(m2));
for case in &[
&b""[..],
b"dir",
b"dir/subdir",
b"dir/subdir/z",
b"dir/foo",
b"dir/subdir/x",
b"folder",
] {
assert_eq!(
matcher.visit_children_set(HgPath::new(case)),
VisitChildrenSet::Empty
);
}
// One always and one never should behave the same as an always
let m1 = AlwaysMatcher;
let m2 = NeverMatcher;
let matcher = DifferenceMatcher::new(Box::new(m1), Box::new(m2));
for case in &[
&b""[..],
b"dir",
b"dir/subdir",
b"dir/subdir/z",
b"dir/foo",
b"dir/subdir/x",
b"folder",
] {
assert_eq!(
matcher.visit_children_set(HgPath::new(case)),
VisitChildrenSet::Recursive
);
}
// Two include matchers
let m1 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RelPath,
b"dir/subdir",
Path::new("/repo"),
)])
.unwrap(),
);
let m2 = Box::new(
IncludeMatcher::new(vec![IgnorePattern::new(
PatternSyntax::RootFiles,
b"dir",
Path::new("/repo"),
)])
.unwrap(),
);
let matcher = DifferenceMatcher::new(m1, m2);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"dir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"")),
VisitChildrenSet::Set(set)
);
let mut set = HashSet::new();
set.insert(HgPathBuf::from_bytes(b"subdir"));
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir")),
VisitChildrenSet::Set(set)
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir")),
VisitChildrenSet::Recursive
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/foo")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"folder")),
VisitChildrenSet::Empty
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/z")),
VisitChildrenSet::This
);
assert_eq!(
matcher.visit_children_set(HgPath::new(b"dir/subdir/x")),
VisitChildrenSet::This
);
}
}