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|
/*!
The globset crate provides cross platform single glob and glob set matching.
Glob set matching is the process of matching one or more glob patterns against
a single candidate path simultaneously, and returning all of the globs that
matched. For example, given this set of globs:
```ignore
*.rs
src/lib.rs
src/**/foo.rs
```
and a path `src/bar/baz/foo.rs`, then the set would report the first and third
globs as matching.
# Example: one glob
This example shows how to match a single glob against a single file path.
```
# fn example() -> Result<(), globset::Error> {
use globset::Glob;
let glob = Glob::new("*.rs")?.compile_matcher();
assert!(glob.is_match("foo.rs"));
assert!(glob.is_match("foo/bar.rs"));
assert!(!glob.is_match("Cargo.toml"));
# Ok(()) } example().unwrap();
```
# Example: configuring a glob matcher
This example shows how to use a `GlobBuilder` to configure aspects of match
semantics. In this example, we prevent wildcards from matching path separators.
```
# fn example() -> Result<(), globset::Error> {
use globset::GlobBuilder;
let glob = GlobBuilder::new("*.rs")
.literal_separator(true).build()?.compile_matcher();
assert!(glob.is_match("foo.rs"));
assert!(!glob.is_match("foo/bar.rs")); // no longer matches
assert!(!glob.is_match("Cargo.toml"));
# Ok(()) } example().unwrap();
```
# Example: match multiple globs at once
This example shows how to match multiple glob patterns at once.
```
# fn example() -> Result<(), globset::Error> {
use globset::{Glob, GlobSetBuilder};
let mut builder = GlobSetBuilder::new();
// A GlobBuilder can be used to configure each glob's match semantics
// independently.
builder.add(Glob::new("*.rs")?);
builder.add(Glob::new("src/lib.rs")?);
builder.add(Glob::new("src/**/foo.rs")?);
let set = builder.build()?;
assert_eq!(set.matches("src/bar/baz/foo.rs"), vec![0, 2]);
# Ok(()) } example().unwrap();
```
# Syntax
Standard Unix-style glob syntax is supported:
* `?` matches any single character. (If the `literal_separator` option is
enabled, then `?` can never match a path separator.)
* `*` matches zero or more characters. (If the `literal_separator` option is
enabled, then `*` can never match a path separator.)
* `**` recursively matches directories but are only legal in three situations.
First, if the glob starts with <code>\*\*/</code>, then it matches
all directories. For example, <code>\*\*/foo</code> matches `foo`
and `bar/foo` but not `foo/bar`. Secondly, if the glob ends with
<code>/\*\*</code>, then it matches all sub-entries. For example,
<code>foo/\*\*</code> matches `foo/a` and `foo/a/b`, but not `foo`.
Thirdly, if the glob contains <code>/\*\*/</code> anywhere within
the pattern, then it matches zero or more directories. Using `**` anywhere
else is illegal (N.B. the glob `**` is allowed and means "match everything").
* `{a,b}` matches `a` or `b` where `a` and `b` are arbitrary glob patterns.
(N.B. Nesting `{...}` is not currently allowed.)
* `[ab]` matches `a` or `b` where `a` and `b` are characters. Use
`[!ab]` to match any character except for `a` and `b`.
* Metacharacters such as `*` and `?` can be escaped with character class
notation. e.g., `[*]` matches `*`.
* When backslash escapes are enabled, a backslash (`\`) will escape all meta
characters in a glob. If it precedes a non-meta character, then the slash is
ignored. A `\\` will match a literal `\\`. Note that this mode is only
enabled on Unix platforms by default, but can be enabled on any platform
via the `backslash_escape` setting on `Glob`.
A `GlobBuilder` can be used to prevent wildcards from matching path separators,
or to enable case insensitive matching.
*/
#![deny(missing_docs)]
use std::borrow::Cow;
use std::collections::{BTreeMap, HashMap};
use std::error::Error as StdError;
use std::fmt;
use std::hash;
use std::path::Path;
use std::str;
use aho_corasick::AhoCorasick;
use bstr::{ByteSlice, ByteVec, B};
use regex::bytes::{Regex, RegexBuilder, RegexSet};
use crate::glob::MatchStrategy;
pub use crate::glob::{Glob, GlobBuilder, GlobMatcher};
use crate::pathutil::{file_name, file_name_ext, normalize_path};
mod glob;
mod pathutil;
#[cfg(feature = "serde1")]
mod serde_impl;
#[cfg(feature = "log")]
macro_rules! debug {
($($token:tt)*) => (::log::debug!($($token)*);)
}
#[cfg(not(feature = "log"))]
macro_rules! debug {
($($token:tt)*) => {};
}
/// Represents an error that can occur when parsing a glob pattern.
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct Error {
/// The original glob provided by the caller.
glob: Option<String>,
/// The kind of error.
kind: ErrorKind,
}
/// The kind of error that can occur when parsing a glob pattern.
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum ErrorKind {
/// **DEPRECATED**.
///
/// This error used to occur for consistency with git's glob specification,
/// but the specification now accepts all uses of `**`. When `**` does not
/// appear adjacent to a path separator or at the beginning/end of a glob,
/// it is now treated as two consecutive `*` patterns. As such, this error
/// is no longer used.
InvalidRecursive,
/// Occurs when a character class (e.g., `[abc]`) is not closed.
UnclosedClass,
/// Occurs when a range in a character (e.g., `[a-z]`) is invalid. For
/// example, if the range starts with a lexicographically larger character
/// than it ends with.
InvalidRange(char, char),
/// Occurs when a `}` is found without a matching `{`.
UnopenedAlternates,
/// Occurs when a `{` is found without a matching `}`.
UnclosedAlternates,
/// Occurs when an alternating group is nested inside another alternating
/// group, e.g., `{{a,b},{c,d}}`.
NestedAlternates,
/// Occurs when an unescaped '\' is found at the end of a glob.
DanglingEscape,
/// An error associated with parsing or compiling a regex.
Regex(String),
/// Hints that destructuring should not be exhaustive.
///
/// This enum may grow additional variants, so this makes sure clients
/// don't count on exhaustive matching. (Otherwise, adding a new variant
/// could break existing code.)
#[doc(hidden)]
__Nonexhaustive,
}
impl StdError for Error {
fn description(&self) -> &str {
self.kind.description()
}
}
impl Error {
/// Return the glob that caused this error, if one exists.
pub fn glob(&self) -> Option<&str> {
self.glob.as_ref().map(|s| &**s)
}
/// Return the kind of this error.
pub fn kind(&self) -> &ErrorKind {
&self.kind
}
}
impl ErrorKind {
fn description(&self) -> &str {
match *self {
ErrorKind::InvalidRecursive => {
"invalid use of **; must be one path component"
}
ErrorKind::UnclosedClass => {
"unclosed character class; missing ']'"
}
ErrorKind::InvalidRange(_, _) => "invalid character range",
ErrorKind::UnopenedAlternates => {
"unopened alternate group; missing '{' \
(maybe escape '}' with '[}]'?)"
}
ErrorKind::UnclosedAlternates => {
"unclosed alternate group; missing '}' \
(maybe escape '{' with '[{]'?)"
}
ErrorKind::NestedAlternates => {
"nested alternate groups are not allowed"
}
ErrorKind::DanglingEscape => "dangling '\\'",
ErrorKind::Regex(ref err) => err,
ErrorKind::__Nonexhaustive => unreachable!(),
}
}
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self.glob {
None => self.kind.fmt(f),
Some(ref glob) => {
write!(f, "error parsing glob '{}': {}", glob, self.kind)
}
}
}
}
impl fmt::Display for ErrorKind {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
ErrorKind::InvalidRecursive
| ErrorKind::UnclosedClass
| ErrorKind::UnopenedAlternates
| ErrorKind::UnclosedAlternates
| ErrorKind::NestedAlternates
| ErrorKind::DanglingEscape
| ErrorKind::Regex(_) => write!(f, "{}", self.description()),
ErrorKind::InvalidRange(s, e) => {
write!(f, "invalid range; '{}' > '{}'", s, e)
}
ErrorKind::__Nonexhaustive => unreachable!(),
}
}
}
fn new_regex(pat: &str) -> Result<Regex, Error> {
RegexBuilder::new(pat)
.dot_matches_new_line(true)
.size_limit(10 * (1 << 20))
.dfa_size_limit(10 * (1 << 20))
.build()
.map_err(|err| Error {
glob: Some(pat.to_string()),
kind: ErrorKind::Regex(err.to_string()),
})
}
fn new_regex_set<I, S>(pats: I) -> Result<RegexSet, Error>
where
S: AsRef<str>,
I: IntoIterator<Item = S>,
{
RegexSet::new(pats).map_err(|err| Error {
glob: None,
kind: ErrorKind::Regex(err.to_string()),
})
}
type Fnv = hash::BuildHasherDefault<fnv::FnvHasher>;
/// GlobSet represents a group of globs that can be matched together in a
/// single pass.
#[derive(Clone, Debug)]
pub struct GlobSet {
len: usize,
strats: Vec<GlobSetMatchStrategy>,
}
impl GlobSet {
/// Create an empty `GlobSet`. An empty set matches nothing.
#[inline]
pub fn empty() -> GlobSet {
GlobSet { len: 0, strats: vec![] }
}
/// Returns true if this set is empty, and therefore matches nothing.
#[inline]
pub fn is_empty(&self) -> bool {
self.len == 0
}
/// Returns the number of globs in this set.
#[inline]
pub fn len(&self) -> usize {
self.len
}
/// Returns true if any glob in this set matches the path given.
pub fn is_match<P: AsRef<Path>>(&self, path: P) -> bool {
self.is_match_candidate(&Candidate::new(path.as_ref()))
}
/// Returns true if any glob in this set matches the path given.
///
/// This takes a Candidate as input, which can be used to amortize the
/// cost of preparing a path for matching.
pub fn is_match_candidate(&self, path: &Candidate<'_>) -> bool {
if self.is_empty() {
return false;
}
for strat in &self.strats {
if strat.is_match(path) {
return true;
}
}
false
}
/// Returns the sequence number of every glob pattern that matches the
/// given path.
pub fn matches<P: AsRef<Path>>(&self, path: P) -> Vec<usize> {
self.matches_candidate(&Candidate::new(path.as_ref()))
}
/// Returns the sequence number of every glob pattern that matches the
/// given path.
///
/// This takes a Candidate as input, which can be used to amortize the
/// cost of preparing a path for matching.
pub fn matches_candidate(&self, path: &Candidate<'_>) -> Vec<usize> {
let mut into = vec![];
if self.is_empty() {
return into;
}
self.matches_candidate_into(path, &mut into);
into
}
/// Adds the sequence number of every glob pattern that matches the given
/// path to the vec given.
///
/// `into` is cleared before matching begins, and contains the set of
/// sequence numbers (in ascending order) after matching ends. If no globs
/// were matched, then `into` will be empty.
pub fn matches_into<P: AsRef<Path>>(
&self,
path: P,
into: &mut Vec<usize>,
) {
self.matches_candidate_into(&Candidate::new(path.as_ref()), into);
}
/// Adds the sequence number of every glob pattern that matches the given
/// path to the vec given.
///
/// `into` is cleared before matching begins, and contains the set of
/// sequence numbers (in ascending order) after matching ends. If no globs
/// were matched, then `into` will be empty.
///
/// This takes a Candidate as input, which can be used to amortize the
/// cost of preparing a path for matching.
pub fn matches_candidate_into(
&self,
path: &Candidate<'_>,
into: &mut Vec<usize>,
) {
into.clear();
if self.is_empty() {
return;
}
for strat in &self.strats {
strat.matches_into(path, into);
}
into.sort();
into.dedup();
}
fn new(pats: &[Glob]) -> Result<GlobSet, Error> {
if pats.is_empty() {
return Ok(GlobSet { len: 0, strats: vec![] });
}
let mut lits = LiteralStrategy::new();
let mut base_lits = BasenameLiteralStrategy::new();
let mut exts = ExtensionStrategy::new();
let mut prefixes = MultiStrategyBuilder::new();
let mut suffixes = MultiStrategyBuilder::new();
let mut required_exts = RequiredExtensionStrategyBuilder::new();
let mut regexes = MultiStrategyBuilder::new();
for (i, p) in pats.iter().enumerate() {
match MatchStrategy::new(p) {
MatchStrategy::Literal(lit) => {
lits.add(i, lit);
}
MatchStrategy::BasenameLiteral(lit) => {
base_lits.add(i, lit);
}
MatchStrategy::Extension(ext) => {
exts.add(i, ext);
}
MatchStrategy::Prefix(prefix) => {
prefixes.add(i, prefix);
}
MatchStrategy::Suffix { suffix, component } => {
if component {
lits.add(i, suffix[1..].to_string());
}
suffixes.add(i, suffix);
}
MatchStrategy::RequiredExtension(ext) => {
required_exts.add(i, ext, p.regex().to_owned());
}
MatchStrategy::Regex => {
debug!("glob converted to regex: {:?}", p);
regexes.add(i, p.regex().to_owned());
}
}
}
debug!(
"built glob set; {} literals, {} basenames, {} extensions, \
{} prefixes, {} suffixes, {} required extensions, {} regexes",
lits.0.len(),
base_lits.0.len(),
exts.0.len(),
prefixes.literals.len(),
suffixes.literals.len(),
required_exts.0.len(),
regexes.literals.len()
);
Ok(GlobSet {
len: pats.len(),
strats: vec![
GlobSetMatchStrategy::Extension(exts),
GlobSetMatchStrategy::BasenameLiteral(base_lits),
GlobSetMatchStrategy::Literal(lits),
GlobSetMatchStrategy::Suffix(suffixes.suffix()),
GlobSetMatchStrategy::Prefix(prefixes.prefix()),
GlobSetMatchStrategy::RequiredExtension(
required_exts.build()?,
),
GlobSetMatchStrategy::Regex(regexes.regex_set()?),
],
})
}
}
impl Default for GlobSet {
/// Create a default empty GlobSet.
fn default() -> Self {
GlobSet::empty()
}
}
/// GlobSetBuilder builds a group of patterns that can be used to
/// simultaneously match a file path.
#[derive(Clone, Debug)]
pub struct GlobSetBuilder {
pats: Vec<Glob>,
}
impl GlobSetBuilder {
/// Create a new GlobSetBuilder. A GlobSetBuilder can be used to add new
/// patterns. Once all patterns have been added, `build` should be called
/// to produce a `GlobSet`, which can then be used for matching.
pub fn new() -> GlobSetBuilder {
GlobSetBuilder { pats: vec![] }
}
/// Builds a new matcher from all of the glob patterns added so far.
///
/// Once a matcher is built, no new patterns can be added to it.
pub fn build(&self) -> Result<GlobSet, Error> {
GlobSet::new(&self.pats)
}
/// Add a new pattern to this set.
pub fn add(&mut self, pat: Glob) -> &mut GlobSetBuilder {
self.pats.push(pat);
self
}
}
/// A candidate path for matching.
///
/// All glob matching in this crate operates on `Candidate` values.
/// Constructing candidates has a very small cost associated with it, so
/// callers may find it beneficial to amortize that cost when matching a single
/// path against multiple globs or sets of globs.
#[derive(Clone, Debug)]
pub struct Candidate<'a> {
path: Cow<'a, [u8]>,
basename: Cow<'a, [u8]>,
ext: Cow<'a, [u8]>,
}
impl<'a> Candidate<'a> {
/// Create a new candidate for matching from the given path.
pub fn new<P: AsRef<Path> + ?Sized>(path: &'a P) -> Candidate<'a> {
let path = normalize_path(Vec::from_path_lossy(path.as_ref()));
let basename = file_name(&path).unwrap_or(Cow::Borrowed(B("")));
let ext = file_name_ext(&basename).unwrap_or(Cow::Borrowed(B("")));
Candidate { path: path, basename: basename, ext: ext }
}
fn path_prefix(&self, max: usize) -> &[u8] {
if self.path.len() <= max {
&*self.path
} else {
&self.path[..max]
}
}
fn path_suffix(&self, max: usize) -> &[u8] {
if self.path.len() <= max {
&*self.path
} else {
&self.path[self.path.len() - max..]
}
}
}
#[derive(Clone, Debug)]
enum GlobSetMatchStrategy {
Literal(LiteralStrategy),
BasenameLiteral(BasenameLiteralStrategy),
Extension(ExtensionStrategy),
Prefix(PrefixStrategy),
Suffix(SuffixStrategy),
RequiredExtension(RequiredExtensionStrategy),
Regex(RegexSetStrategy),
}
impl GlobSetMatchStrategy {
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
use self::GlobSetMatchStrategy::*;
match *self {
Literal(ref s) => s.is_match(candidate),
BasenameLiteral(ref s) => s.is_match(candidate),
Extension(ref s) => s.is_match(candidate),
Prefix(ref s) => s.is_match(candidate),
Suffix(ref s) => s.is_match(candidate),
RequiredExtension(ref s) => s.is_match(candidate),
Regex(ref s) => s.is_match(candidate),
}
}
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
use self::GlobSetMatchStrategy::*;
match *self {
Literal(ref s) => s.matches_into(candidate, matches),
BasenameLiteral(ref s) => s.matches_into(candidate, matches),
Extension(ref s) => s.matches_into(candidate, matches),
Prefix(ref s) => s.matches_into(candidate, matches),
Suffix(ref s) => s.matches_into(candidate, matches),
RequiredExtension(ref s) => s.matches_into(candidate, matches),
Regex(ref s) => s.matches_into(candidate, matches),
}
}
}
#[derive(Clone, Debug)]
struct LiteralStrategy(BTreeMap<Vec<u8>, Vec<usize>>);
impl LiteralStrategy {
fn new() -> LiteralStrategy {
LiteralStrategy(BTreeMap::new())
}
fn add(&mut self, global_index: usize, lit: String) {
self.0.entry(lit.into_bytes()).or_insert(vec![]).push(global_index);
}
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
self.0.contains_key(candidate.path.as_bytes())
}
#[inline(never)]
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
if let Some(hits) = self.0.get(candidate.path.as_bytes()) {
matches.extend(hits);
}
}
}
#[derive(Clone, Debug)]
struct BasenameLiteralStrategy(BTreeMap<Vec<u8>, Vec<usize>>);
impl BasenameLiteralStrategy {
fn new() -> BasenameLiteralStrategy {
BasenameLiteralStrategy(BTreeMap::new())
}
fn add(&mut self, global_index: usize, lit: String) {
self.0.entry(lit.into_bytes()).or_insert(vec![]).push(global_index);
}
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
if candidate.basename.is_empty() {
return false;
}
self.0.contains_key(candidate.basename.as_bytes())
}
#[inline(never)]
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
if candidate.basename.is_empty() {
return;
}
if let Some(hits) = self.0.get(candidate.basename.as_bytes()) {
matches.extend(hits);
}
}
}
#[derive(Clone, Debug)]
struct ExtensionStrategy(HashMap<Vec<u8>, Vec<usize>, Fnv>);
impl ExtensionStrategy {
fn new() -> ExtensionStrategy {
ExtensionStrategy(HashMap::with_hasher(Fnv::default()))
}
fn add(&mut self, global_index: usize, ext: String) {
self.0.entry(ext.into_bytes()).or_insert(vec![]).push(global_index);
}
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
if candidate.ext.is_empty() {
return false;
}
self.0.contains_key(candidate.ext.as_bytes())
}
#[inline(never)]
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
if candidate.ext.is_empty() {
return;
}
if let Some(hits) = self.0.get(candidate.ext.as_bytes()) {
matches.extend(hits);
}
}
}
#[derive(Clone, Debug)]
struct PrefixStrategy {
matcher: AhoCorasick,
map: Vec<usize>,
longest: usize,
}
impl PrefixStrategy {
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
let path = candidate.path_prefix(self.longest);
for m in self.matcher.find_overlapping_iter(path) {
if m.start() == 0 {
return true;
}
}
false
}
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
let path = candidate.path_prefix(self.longest);
for m in self.matcher.find_overlapping_iter(path) {
if m.start() == 0 {
matches.push(self.map[m.pattern()]);
}
}
}
}
#[derive(Clone, Debug)]
struct SuffixStrategy {
matcher: AhoCorasick,
map: Vec<usize>,
longest: usize,
}
impl SuffixStrategy {
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
let path = candidate.path_suffix(self.longest);
for m in self.matcher.find_overlapping_iter(path) {
if m.end() == path.len() {
return true;
}
}
false
}
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
let path = candidate.path_suffix(self.longest);
for m in self.matcher.find_overlapping_iter(path) {
if m.end() == path.len() {
matches.push(self.map[m.pattern()]);
}
}
}
}
#[derive(Clone, Debug)]
struct RequiredExtensionStrategy(HashMap<Vec<u8>, Vec<(usize, Regex)>, Fnv>);
impl RequiredExtensionStrategy {
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
if candidate.ext.is_empty() {
return false;
}
match self.0.get(candidate.ext.as_bytes()) {
None => false,
Some(regexes) => {
for &(_, ref re) in regexes {
if re.is_match(candidate.path.as_bytes()) {
return true;
}
}
false
}
}
}
#[inline(never)]
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
if candidate.ext.is_empty() {
return;
}
if let Some(regexes) = self.0.get(candidate.ext.as_bytes()) {
for &(global_index, ref re) in regexes {
if re.is_match(candidate.path.as_bytes()) {
matches.push(global_index);
}
}
}
}
}
#[derive(Clone, Debug)]
struct RegexSetStrategy {
matcher: RegexSet,
map: Vec<usize>,
}
impl RegexSetStrategy {
fn is_match(&self, candidate: &Candidate<'_>) -> bool {
self.matcher.is_match(candidate.path.as_bytes())
}
fn matches_into(
&self,
candidate: &Candidate<'_>,
matches: &mut Vec<usize>,
) {
for i in self.matcher.matches(candidate.path.as_bytes()) {
matches.push(self.map[i]);
}
}
}
#[derive(Clone, Debug)]
struct MultiStrategyBuilder {
literals: Vec<String>,
map: Vec<usize>,
longest: usize,
}
impl MultiStrategyBuilder {
fn new() -> MultiStrategyBuilder {
MultiStrategyBuilder { literals: vec![], map: vec![], longest: 0 }
}
fn add(&mut self, global_index: usize, literal: String) {
if literal.len() > self.longest {
self.longest = literal.len();
}
self.map.push(global_index);
self.literals.push(literal);
}
fn prefix(self) -> PrefixStrategy {
PrefixStrategy {
matcher: AhoCorasick::new_auto_configured(&self.literals),
map: self.map,
longest: self.longest,
}
}
fn suffix(self) -> SuffixStrategy {
SuffixStrategy {
matcher: AhoCorasick::new_auto_configured(&self.literals),
map: self.map,
longest: self.longest,
}
}
fn regex_set(self) -> Result<RegexSetStrategy, Error> {
Ok(RegexSetStrategy {
matcher: new_regex_set(self.literals)?,
map: self.map,
})
}
}
#[derive(Clone, Debug)]
struct RequiredExtensionStrategyBuilder(
HashMap<Vec<u8>, Vec<(usize, String)>>,
);
impl RequiredExtensionStrategyBuilder {
fn new() -> RequiredExtensionStrategyBuilder {
RequiredExtensionStrategyBuilder(HashMap::new())
}
fn add(&mut self, global_index: usize, ext: String, regex: String) {
self.0
.entry(ext.into_bytes())
.or_insert(vec![])
.push((global_index, regex));
}
fn build(self) -> Result<RequiredExtensionStrategy, Error> {
let mut exts = HashMap::with_hasher(Fnv::default());
for (ext, regexes) in self.0.into_iter() {
exts.insert(ext.clone(), vec![]);
for (global_index, regex) in regexes {
let compiled = new_regex(®ex)?;
exts.get_mut(&ext).unwrap().push((global_index, compiled));
}
}
Ok(RequiredExtensionStrategy(exts))
}
}
#[cfg(test)]
mod tests {
use super::{GlobSet, GlobSetBuilder};
use crate::glob::Glob;
#[test]
fn set_works() {
let mut builder = GlobSetBuilder::new();
builder.add(Glob::new("src/**/*.rs").unwrap());
builder.add(Glob::new("*.c").unwrap());
builder.add(Glob::new("src/lib.rs").unwrap());
let set = builder.build().unwrap();
assert!(set.is_match("foo.c"));
assert!(set.is_match("src/foo.c"));
assert!(!set.is_match("foo.rs"));
assert!(!set.is_match("tests/foo.rs"));
assert!(set.is_match("src/foo.rs"));
assert!(set.is_match("src/grep/src/main.rs"));
let matches = set.matches("src/lib.rs");
assert_eq!(2, matches.len());
assert_eq!(0, matches[0]);
assert_eq!(2, matches[1]);
}
#[test]
fn empty_set_works() {
let set = GlobSetBuilder::new().build().unwrap();
assert!(!set.is_match(""));
assert!(!set.is_match("a"));
}
#[test]
fn default_set_is_empty_works() {
let set: GlobSet = Default::default();
assert!(!set.is_match(""));
assert!(!set.is_match("a"));
}
}
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