upstream/mercurial-mirror Files · rust/hg-core/src/filepatterns.rs

py3: source-transform only call-sites of iteritems(), not definitions...

py3: source-transform only call-sites of iteritems(), not definitions branchmap.branchcache, among other classes, defines a iteritems(). That currently gets replaced by items() by the source transformer. That makes it harder for extensions to work with both py2 and py3, since they have to call either items() or iteritems() on branchcache. Let's not replace definitions of iteritems() (and itervalues()) and only replace the call-sites. We need to also add an items() alias to branchcache (etc) so our transformer call-sites will find it. Differential Revision: https://phab.mercurial-scm.org/D6641

Yuya Nishihara - - Load All Authors

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             filepatterns.rs
        
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      use crate::{LineNumber, PatternError, PatternFileError};

      use regex::bytes::Regex;

      use std::collections::HashMap;

      use std::fs::File;

      use std::io::Read;

      use std::vec::Vec;

      use utils::files::get_path_from_bytes;

      use utils::{replace_slice, SliceExt};

      lazy_static! {

          static ref RE_ESCAPE: Vec<Vec<u8>> = {

              let mut v: Vec<Vec<u8>> = (0..=255).map(|byte| vec![byte]).collect();

              let to_escape = b"()[]{}?*+-|^$\\.&~# \t\n\r\x0b\x0c";

              for byte in to_escape {

                  v[*byte as usize].insert(0, b'\\');

              }

              v

          };

      }

      /// These are matched in order

      const GLOB_REPLACEMENTS: &[(&[u8], &[u8])] =

          &[(b"*/", b"(?:.*/)?"), (b"*", b".*"), (b"", b"[^/]*")];

      #[derive(Debug, Copy, Clone, PartialEq, Eq)]

      pub enum PatternSyntax {

          Regexp,

          /// Glob that matches at the front of the path

          RootGlob,

          /// Glob that matches at any suffix of the path (still anchored at slashes)

          Glob,

          Path,

          RelPath,

          RelGlob,

          RelRegexp,

          RootFiles,

      }

      /// Transforms a glob pattern into a regex

      fn glob_to_re(pat: &[u8]) -> Vec<u8> {

          let mut input = pat;

          let mut res: Vec<u8> = vec![];

          let mut group_depth = 0;

          while let Some((c, rest)) = input.split_first() {

              input = rest;

              match c {

                  b'*' => {

                      for (source, repl) in GLOB_REPLACEMENTS {

                          if input.starts_with(source) {

                              input = &input[source.len()..];

                              res.extend(*repl);

                              break;

                          }

                      }

                  }

                  b'?' => res.extend(b"."),

                  b'[' => {

                      match input.iter().skip(1).position(|b| *b == b']') {

                          None => res.extend(b"\\["),

                          Some(end) => {

                              // Account for the one we skipped

                              let end = end + 1;

                              res.extend(b"[");

                              for (i, b) in input[..end].iter().enumerate() {

                                  if *b == b'!' && i == 0 {

                                      res.extend(b"^")

                                  } else if *b == b'^' && i == 0 {

                                      res.extend(b"\\^")

                                  } else if *b == b'\\' {

                                      res.extend(b"\\\\")

                                  } else {

                                      res.push(*b)

                                  }

                              }

                              res.extend(b"]");

                              input = &input[end + 1..];

                          }

                      }

                  }

                  b'{' => {

                      group_depth += 1;

                      res.extend(b"(?:")

                  }

                  b'}' if group_depth > 0 => {

                      group_depth -= 1;

                      res.extend(b")");

                  }

                  b',' if group_depth > 0 => res.extend(b"|"),

                  b'\\' => {

                      let c = {

                          if let Some((c, rest)) = input.split_first() {

                              input = rest;

                              c

                          } else {

                              c

                          }

                      };

                      res.extend(&RE_ESCAPE[*c as usize])

                  }

                  _ => res.extend(&RE_ESCAPE[*c as usize]),

              }

          }

          res

      }

      fn escape_pattern(pattern: &[u8]) -> Vec<u8> {

          pattern

              .iter()

              .flat_map(|c| RE_ESCAPE[*c as usize].clone())

              .collect()

      }

      fn parse_pattern_syntax(kind: &[u8]) -> Result<PatternSyntax, PatternError> {

          match kind {

              b"re" => Ok(PatternSyntax::Regexp),

              b"path" => Ok(PatternSyntax::Path),

              b"relpath" => Ok(PatternSyntax::RelPath),

              b"rootfilesin" => Ok(PatternSyntax::RootFiles),

              b"relglob" => Ok(PatternSyntax::RelGlob),

              b"relre" => Ok(PatternSyntax::RelRegexp),

              b"glob" => Ok(PatternSyntax::Glob),

              b"rootglob" => Ok(PatternSyntax::RootGlob),

              _ => Err(PatternError::UnsupportedSyntax(

                  String::from_utf8_lossy(kind).to_string(),

              )),

          }

      }

      /// Builds the regex that corresponds to the given pattern.

      /// If within a `syntax: regexp` context, returns the pattern,

      /// otherwise, returns the corresponding regex.

      fn _build_single_regex(

          syntax: PatternSyntax,

          pattern: &[u8],

          globsuffix: &[u8],

      ) -> Vec<u8> {

          if pattern.is_empty() {

              return vec![];

          }

          match syntax {

              PatternSyntax::Regexp => pattern.to_owned(),

              PatternSyntax::RelRegexp => {

                  if pattern[0] == b'^' {

                      return pattern.to_owned();

                  }

                  let mut res = b".*".to_vec();

                  res.extend(pattern);

                  res

              }

              PatternSyntax::Path | PatternSyntax::RelPath => {

                  if pattern == b"." {

                      return vec![];

                  }

                  let mut pattern = escape_pattern(pattern);

                  pattern.extend(b"(?:/|$)");

                  pattern

              }

              PatternSyntax::RootFiles => {

                  let mut res = if pattern == b"." {

                      vec![]

                  } else {

                      // Pattern is a directory name.

                      let mut as_vec: Vec<u8> = escape_pattern(pattern);

                      as_vec.push(b'/');

                      as_vec

                  };

                  // Anything after the pattern must be a non-directory.

                  res.extend(b"[^/]+$");

                  res

              }

              PatternSyntax::Glob

              | PatternSyntax::RelGlob

              | PatternSyntax::RootGlob => {

                  let mut res: Vec<u8> = vec![];

                  if syntax == PatternSyntax::RelGlob {

                      res.extend(b"(?:|.*/)");

                  }

                  res.extend(glob_to_re(pattern));

                  res.extend(globsuffix.iter());

                  res

              }

          }

      }

      const GLOB_SPECIAL_CHARACTERS: [u8; 7] =

          [b'*', b'?', b'[', b']', b'{', b'}', b'\\'];

      /// Wrapper function to `_build_single_regex` that short-circuits 'exact' globs

      /// that don't need to be transformed into a regex.

      pub fn build_single_regex(

          kind: &[u8],

          pat: &[u8],

          globsuffix: &[u8],

      ) -> Result<Vec<u8>, PatternError> {

          let enum_kind = parse_pattern_syntax(kind)?;

          if enum_kind == PatternSyntax::RootGlob

              && !pat.iter().any(|b| GLOB_SPECIAL_CHARACTERS.contains(b))

          {

              let mut escaped = escape_pattern(pat);

              escaped.extend(b"(?:/|$)");

              Ok(escaped)

          } else {

              Ok(_build_single_regex(enum_kind, pat, globsuffix))

          }

      }

      lazy_static! {

          static ref SYNTAXES: HashMap<&'static [u8], &'static [u8]> = {

              let mut m = HashMap::new();

              m.insert(b"re".as_ref(), b"relre:".as_ref());

              m.insert(b"regexp".as_ref(), b"relre:".as_ref());

              m.insert(b"glob".as_ref(), b"relglob:".as_ref());

              m.insert(b"rootglob".as_ref(), b"rootglob:".as_ref());

              m.insert(b"include".as_ref(), b"include".as_ref());

              m.insert(b"subinclude".as_ref(), b"subinclude".as_ref());

              m

          };

      }

      pub type PatternTuple = (Vec<u8>, LineNumber, Vec<u8>);

      type WarningTuple = (String, String);

      pub fn parse_pattern_file_contents(

          lines: &[u8],

          file_path: &[u8],

          warn: bool,

      ) -> (Vec<PatternTuple>, Vec<WarningTuple>) {

          let comment_regex = Regex::new(r"((?:^|[^\\])(?:\\\\)*)#.*").unwrap();

          let mut inputs: Vec<PatternTuple> = vec![];

          let mut warnings: Vec<WarningTuple> = vec![];

          let mut current_syntax = b"relre:".as_ref();

          for (line_number, mut line) in lines.split(|c| *c == b'\n').enumerate() {

              let line_number = line_number + 1;

              if line.contains(&('#' as u8)) {

                  if let Some(cap) = comment_regex.captures(line) {

                      line = &line[..cap.get(1).unwrap().end()]

                  }

                  let mut line = line.to_owned();

                  replace_slice(&mut line, br"\#", b"#");

              }

              let mut line = line.trim_end();

              if line.is_empty() {

                  continue;

              }

              if line.starts_with(b"syntax:") {

                  let syntax = line[b"syntax:".len()..].trim();

                  if let Some(rel_syntax) = SYNTAXES.get(syntax) {

                      current_syntax = rel_syntax;

                  } else if warn {

                      warnings.push((

                          String::from_utf8_lossy(file_path).to_string(),

                          String::from_utf8_lossy(syntax).to_string(),

                      ));

                  }

                  continue;

              }

              let mut line_syntax: &[u8] = &current_syntax;

              for (s, rels) in SYNTAXES.iter() {

                  if line.starts_with(rels) {

                      line_syntax = rels;

                      line = &line[rels.len()..];

                      break;

                  } else if line.starts_with(&[s, b":".as_ref()].concat()) {

                      line_syntax = rels;

                      line = &line[s.len() + 1..];

                      break;

                  }

              }

              inputs.push((

                  [line_syntax, line].concat(),

                  line_number,

                  line.to_owned(),

              ));

          }

          (inputs, warnings)

      }

      pub fn read_pattern_file(

          file_path: &[u8],

          warn: bool,

      ) -> Result<(Vec<PatternTuple>, Vec<WarningTuple>), PatternFileError> {

          let mut f = File::open(get_path_from_bytes(file_path))?;

          let mut contents = Vec::new();

          f.read_to_end(&mut contents)?;

          Ok(parse_pattern_file_contents(&contents, file_path, warn))

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          #[test]

          fn escape_pattern_test() {

              let untouched = br#"!"%',/0123456789:;<=>@ABCDEFGHIJKLMNOPQRSTUVWXYZ_`abcdefghijklmnopqrstuvwxyz"#;

              assert_eq!(escape_pattern(untouched), untouched.to_vec());

              // All escape codes

              assert_eq!(

                  escape_pattern(br#"()[]{}?*+-|^$\\.&~# \t\n\r\v\f"#),

                  br#"\(\)\[\]\{\}\?\*\+\-\|\^\$\\\\\.\&\~\#\ \\t\\n\\r\\v\\f"#

                      .to_vec()

              );

          }

          #[test]

          fn glob_test() {

              assert_eq!(glob_to_re(br#"?"#), br#"."#);

              assert_eq!(glob_to_re(br#"*"#), br#"[^/]*"#);

              assert_eq!(glob_to_re(br#"**"#), br#".*"#);

              assert_eq!(glob_to_re(br#"**/a"#), br#"(?:.*/)?a"#);

              assert_eq!(glob_to_re(br#"a/**/b"#), br#"a/(?:.*/)?b"#);

              assert_eq!(glob_to_re(br#"[a*?!^][^b][!c]"#), br#"[a*?!^][\^b][^c]"#);

              assert_eq!(glob_to_re(br#"{a,b}"#), br#"(?:a|b)"#);

              assert_eq!(glob_to_re(br#".\*\?"#), br#"\.\*\?"#);

          }

          #[test]

          fn test_parse_pattern_file_contents() {

              let lines = b"syntax: glob\n*.elc";

              assert_eq!(

                  vec![(b"relglob:*.elc".to_vec(), 2, b"*.elc".to_vec())],

                  parse_pattern_file_contents(lines, b"file_path", false).0,

              );

              let lines = b"syntax: include\nsyntax: glob";

              assert_eq!(

                  parse_pattern_file_contents(lines, b"file_path", false).0,

                  vec![]

              );

              let lines = b"glob:**.o";

              assert_eq!(

                  parse_pattern_file_contents(lines, b"file_path", false).0,

                  vec![(b"relglob:**.o".to_vec(), 1, b"**.o".to_vec())]

              );

          }

          #[test]

          fn test_build_single_regex_shortcut() {

              assert_eq!(

                  br"(?:/|$)".to_vec(),

                  build_single_regex(b"rootglob", b"", b"").unwrap()

              );

              assert_eq!(

                  br"whatever(?:/|$)".to_vec(),

                  build_single_regex(b"rootglob", b"whatever", b"").unwrap()

              );

              assert_eq!(

                  br"[^/]*\.o".to_vec(),

                  build_single_regex(b"rootglob", b"*.o", b"").unwrap()

              );

          }

      }

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				use crate::{LineNumber, PatternError, PatternFileError};
				use regex::bytes::Regex;
				use std::collections::HashMap;
				use std::fs::File;
				use std::io::Read;
				use std::vec::Vec;
				use utils::files::get_path_from_bytes;
				use utils::{replace_slice, SliceExt};

				lazy_static! {
				static ref RE_ESCAPE: Vec<Vec<u8>> = {
				let mut v: Vec<Vec<u8>> = (0..=255).map(\|byte\| vec![byte]).collect();
				let to_escape = b"()[]{}?*+-\|^$\\.&~# \t\n\r\x0b\x0c";
				for byte in to_escape {
				v[*byte as usize].insert(0, b'\\');
				}
				v
				};
				}

				/// These are matched in order
				const GLOB_REPLACEMENTS: &[(&[u8], &[u8])] =
				&[(b"/", b"(?:./)?"), (b"", b"."), (b"", b"[^/]*")];

				#[derive(Debug, Copy, Clone, PartialEq, Eq)]
				pub enum PatternSyntax {
				Regexp,
				/// Glob that matches at the front of the path
				RootGlob,
				/// Glob that matches at any suffix of the path (still anchored at slashes)
				Glob,
				Path,
				RelPath,
				RelGlob,
				RelRegexp,
				RootFiles,
				}

				/// Transforms a glob pattern into a regex
				fn glob_to_re(pat: &[u8]) -> Vec<u8> {
				let mut input = pat;
				let mut res: Vec<u8> = vec![];
				let mut group_depth = 0;

				while let Some((c, rest)) = input.split_first() {
				input = rest;

				match c {
				b'*' => {
				for (source, repl) in GLOB_REPLACEMENTS {
				if input.starts_with(source) {
				input = &input[source.len()..];
				res.extend(*repl);
				break;
				}
				}
				}
				b'?' => res.extend(b"."),
				b'[' => {
				match input.iter().skip(1).position(\|b\| *b == b']') {
				None => res.extend(b"\\["),
				Some(end) => {
				// Account for the one we skipped
				let end = end + 1;

				res.extend(b"[");

				for (i, b) in input[..end].iter().enumerate() {
				if *b == b'!' && i == 0 {
				res.extend(b"^")
				} else if *b == b'^' && i == 0 {
				res.extend(b"\\^")
				} else if *b == b'\\' {
				res.extend(b"\\\\")
				} else {
				res.push(*b)
				}
				}
				res.extend(b"]");
				input = &input[end + 1..];
				}
				}
				}
				b'{' => {
				group_depth += 1;
				res.extend(b"(?:")
				}
				b'}' if group_depth > 0 => {
				group_depth -= 1;
				res.extend(b")");
				}
				b',' if group_depth > 0 => res.extend(b"\|"),
				b'\\' => {
				let c = {
				if let Some((c, rest)) = input.split_first() {
				input = rest;
				c
				} else {
				c
				}
				};
				res.extend(&RE_ESCAPE[*c as usize])
				}
				_ => res.extend(&RE_ESCAPE[*c as usize]),
				}
				}
				res
				}

				fn escape_pattern(pattern: &[u8]) -> Vec<u8> {
				pattern
				.iter()
				.flat_map(\|c\| RE_ESCAPE[*c as usize].clone())
				.collect()
				}

				fn parse_pattern_syntax(kind: &[u8]) -> Result<PatternSyntax, PatternError> {
				match kind {
				b"re" => Ok(PatternSyntax::Regexp),
				b"path" => Ok(PatternSyntax::Path),
				b"relpath" => Ok(PatternSyntax::RelPath),
				b"rootfilesin" => Ok(PatternSyntax::RootFiles),
				b"relglob" => Ok(PatternSyntax::RelGlob),
				b"relre" => Ok(PatternSyntax::RelRegexp),
				b"glob" => Ok(PatternSyntax::Glob),
				b"rootglob" => Ok(PatternSyntax::RootGlob),
				_ => Err(PatternError::UnsupportedSyntax(
				String::from_utf8_lossy(kind).to_string(),
				)),
				}
				}

				/// Builds the regex that corresponds to the given pattern.
				/// If within a `syntax: regexp` context, returns the pattern,
				/// otherwise, returns the corresponding regex.
				fn _build_single_regex(
				syntax: PatternSyntax,
				pattern: &[u8],
				globsuffix: &[u8],
				) -> Vec<u8> {
				if pattern.is_empty() {
				return vec![];
				}
				match syntax {
				PatternSyntax::Regexp => pattern.to_owned(),
				PatternSyntax::RelRegexp => {
				if pattern[0] == b'^' {
				return pattern.to_owned();
				}
				let mut res = b".*".to_vec();
				res.extend(pattern);
				res
				}
				PatternSyntax::Path \| PatternSyntax::RelPath => {
				if pattern == b"." {
				return vec![];
				}
				let mut pattern = escape_pattern(pattern);
				pattern.extend(b"(?:/\|$)");
				pattern
				}
				PatternSyntax::RootFiles => {
				let mut res = if pattern == b"." {
				vec![]
				} else {
				// Pattern is a directory name.
				let mut as_vec: Vec<u8> = escape_pattern(pattern);
				as_vec.push(b'/');
				as_vec
				};

				// Anything after the pattern must be a non-directory.
				res.extend(b"[^/]+$");
				res
				}
				PatternSyntax::Glob
				\| PatternSyntax::RelGlob
				\| PatternSyntax::RootGlob => {
				let mut res: Vec<u8> = vec![];
				if syntax == PatternSyntax::RelGlob {
				res.extend(b"(?:\|.*/)");
				}

				res.extend(glob_to_re(pattern));
				res.extend(globsuffix.iter());
				res
				}
				}
				}

				const GLOB_SPECIAL_CHARACTERS: [u8; 7] =
				[b'*', b'?', b'[', b']', b'{', b'}', b'\\'];

				/// Wrapper function to `_build_single_regex` that short-circuits 'exact' globs
				/// that don't need to be transformed into a regex.
				pub fn build_single_regex(
				kind: &[u8],
				pat: &[u8],
				globsuffix: &[u8],
				) -> Result<Vec<u8>, PatternError> {
				let enum_kind = parse_pattern_syntax(kind)?;
				if enum_kind == PatternSyntax::RootGlob
				&& !pat.iter().any(\|b\| GLOB_SPECIAL_CHARACTERS.contains(b))
				{
				let mut escaped = escape_pattern(pat);
				escaped.extend(b"(?:/\|$)");
				Ok(escaped)
				} else {
				Ok(_build_single_regex(enum_kind, pat, globsuffix))
				}
				}

				lazy_static! {
				static ref SYNTAXES: HashMap<&'static [u8], &'static [u8]> = {
				let mut m = HashMap::new();

				m.insert(b"re".as_ref(), b"relre:".as_ref());
				m.insert(b"regexp".as_ref(), b"relre:".as_ref());
				m.insert(b"glob".as_ref(), b"relglob:".as_ref());
				m.insert(b"rootglob".as_ref(), b"rootglob:".as_ref());
				m.insert(b"include".as_ref(), b"include".as_ref());
				m.insert(b"subinclude".as_ref(), b"subinclude".as_ref());
				m
				};
				}

				pub type PatternTuple = (Vec<u8>, LineNumber, Vec<u8>);
				type WarningTuple = (String, String);

				pub fn parse_pattern_file_contents(
				lines: &[u8],
				file_path: &[u8],
				warn: bool,
				) -> (Vec<PatternTuple>, Vec<WarningTuple>) {
				let comment_regex = Regex::new(r"((?:^\|[^\\])(?:\\\\))#.").unwrap();
				let mut inputs: Vec<PatternTuple> = vec![];
				let mut warnings: Vec<WarningTuple> = vec![];

				let mut current_syntax = b"relre:".as_ref();

				for (line_number, mut line) in lines.split(\|c\| *c == b'\n').enumerate() {
				let line_number = line_number + 1;

				if line.contains(&('#' as u8)) {
				if let Some(cap) = comment_regex.captures(line) {
				line = &line[..cap.get(1).unwrap().end()]
				}
				let mut line = line.to_owned();
				replace_slice(&mut line, br"\#", b"#");
				}

				let mut line = line.trim_end();

				if line.is_empty() {
				continue;
				}

				if line.starts_with(b"syntax:") {
				let syntax = line[b"syntax:".len()..].trim();

				if let Some(rel_syntax) = SYNTAXES.get(syntax) {
				current_syntax = rel_syntax;
				} else if warn {
				warnings.push((
				String::from_utf8_lossy(file_path).to_string(),
				String::from_utf8_lossy(syntax).to_string(),
				));
				}
				continue;
				}

				let mut line_syntax: &[u8] = &current_syntax;

				for (s, rels) in SYNTAXES.iter() {
				if line.starts_with(rels) {
				line_syntax = rels;
				line = &line[rels.len()..];
				break;
				} else if line.starts_with(&[s, b":".as_ref()].concat()) {
				line_syntax = rels;
				line = &line[s.len() + 1..];
				break;
				}
				}

				inputs.push((
				[line_syntax, line].concat(),
				line_number,
				line.to_owned(),
				));
				}
				(inputs, warnings)
				}

				pub fn read_pattern_file(
				file_path: &[u8],
				warn: bool,
				) -> Result<(Vec<PatternTuple>, Vec<WarningTuple>), PatternFileError> {
				let mut f = File::open(get_path_from_bytes(file_path))?;
				let mut contents = Vec::new();

				f.read_to_end(&mut contents)?;

				Ok(parse_pattern_file_contents(&contents, file_path, warn))
				}

				#[cfg(test)]
				mod tests {
				use super::*;

				#[test]
				fn escape_pattern_test() {
				let untouched = br#"!"%',/0123456789:;<=>@ABCDEFGHIJKLMNOPQRSTUVWXYZ_`abcdefghijklmnopqrstuvwxyz"#;
				assert_eq!(escape_pattern(untouched), untouched.to_vec());
				// All escape codes
				assert_eq!(
				escape_pattern(br#"()[]{}?*+-\|^$\\.&~# \t\n\r\v\f"#),
				br#"\(\)\[\]\{\}\?\*\+\-\\|\^\$\\\\\.\&\~\#\ \\t\\n\\r\\v\\f"#
				.to_vec()
				);
				}

				#[test]
				fn glob_test() {
				assert_eq!(glob_to_re(br#"?"#), br#"."#);
				assert_eq!(glob_to_re(br#""#), br#"[^/]"#);
				assert_eq!(glob_to_re(br#"*"#), br#"."#);
				assert_eq!(glob_to_re(br#"*/a"#), br#"(?:./)?a"#);
				assert_eq!(glob_to_re(br#"a/*/b"#), br#"a/(?:./)?b"#);
				assert_eq!(glob_to_re(br#"[a?!^][^b][!c]"#), br#"[a?!^][\^b][^c]"#);
				assert_eq!(glob_to_re(br#"{a,b}"#), br#"(?:a\|b)"#);
				assert_eq!(glob_to_re(br#".\\?"#), br#"\.\\?"#);
				}

				#[test]
				fn test_parse_pattern_file_contents() {
				let lines = b"syntax: glob\n*.elc";

				assert_eq!(
				vec![(b"relglob:.elc".to_vec(), 2, b".elc".to_vec())],
				parse_pattern_file_contents(lines, b"file_path", false).0,
				);

				let lines = b"syntax: include\nsyntax: glob";

				assert_eq!(
				parse_pattern_file_contents(lines, b"file_path", false).0,
				vec![]
				);
				let lines = b"glob:**.o";
				assert_eq!(
				parse_pattern_file_contents(lines, b"file_path", false).0,
				vec![(b"relglob:.o".to_vec(), 1, b".o".to_vec())]
				);
				}

				#[test]
				fn test_build_single_regex_shortcut() {
				assert_eq!(
				br"(?:/\|$)".to_vec(),
				build_single_regex(b"rootglob", b"", b"").unwrap()
				);
				assert_eq!(
				br"whatever(?:/\|$)".to_vec(),
				build_single_regex(b"rootglob", b"whatever", b"").unwrap()
				);
				assert_eq!(
				br"[^/]*\.o".to_vec(),
				build_single_regex(b"rootglob", b"*.o", b"").unwrap()
				);
				}
				}