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

copies: compute the exact set of revision to walk...

copies: compute the exact set of revision to walk This change make the code clearer by removing the revision queue. It comes without very noticeable performance impact. However the simpler code will be easier to update in later changesets. revision: large amount; added files: large amount; rename small amount; 9ba6ab77fd29 before: ! wall 1.430082 comb 1.430000 user 1.390000 sys 0.040000 (median of 10) after: ! wall 1.405192 comb 1.410000 user 1.390000 sys 0.020000 (median of 10) revision: large amount; added files: small amount; rename small amount; f650a9b140d2 before: ! wall 1.971366 comb 1.970000 user 1.950000 sys 0.020000 (median of 10) after: ! wall 1.892541 comb 1.890000 user 1.870000 sys 0.020000 (median of 10) revision: large amount; added files: large amount; rename large amount; d9fa043f30c0 before: ! wall 0.252594 comb 0.250000 user 0.240000 sys 0.010000 (median of 38) after: ! wall 0.240075 comb 0.240000 user 0.240000 sys 0.000000 (median of 40) revision: small amount; added files: large amount; rename large amount; a83dc6a2d56f before: ! wall 0.013100 comb 0.010000 user 0.010000 sys 0.000000 (median of 226) after: ! wall 0.013247 comb 0.010000 user 0.010000 sys 0.000000 (median of 223) revision: small amount; added files: large amount; rename small amount; 169138063d63 before: ! wall 0.001633 comb 0.000000 user 0.000000 sys 0.000000 (median of 1000) after: ! wall 0.001670 comb 0.000000 user 0.000000 sys 0.000000 (median of 1000) revision: small amount; added files: small amount; rename small amount; 964879152e2e before: ! wall 0.000078 comb 0.000000 user 0.000000 sys 0.000000 (median of 11984) after: ! wall 0.000119 comb 0.000000 user 0.000000 sys 0.000000 (median of 7982) revision: medium amount; added files: large amount; rename medium amount; 2c68e87c3efe before: ! wall 0.207093 comb 0.210000 user 0.210000 sys 0.000000 (median of 47) after: ! wall 0.201551 comb 0.200000 user 0.200000 sys 0.000000 (median of 48) revision: medium amount; added files: medium amount; rename small amount; d7746d32bf9d before: ! wall 0.038462 comb 0.040000 user 0.040000 sys 0.000000 (median of 100) after: ! wall 0.036578 comb 0.030000 user 0.030000 sys 0.000000 (median of 100) Differential Revision: https://phab.mercurial-scm.org/D7076

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      // hg_path.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.

      use std::borrow::Borrow;

      use std::ffi::{OsStr, OsString};

      use std::ops::Deref;

      use std::path::{Path, PathBuf};

      #[derive(Debug, Eq, PartialEq)]

      pub enum HgPathError {

          /// Bytes from the invalid `HgPath`

          LeadingSlash(Vec<u8>),

          /// Bytes and index of the second slash

          ConsecutiveSlashes(Vec<u8>, usize),

          /// Bytes and index of the null byte

          ContainsNullByte(Vec<u8>, usize),

          /// Bytes

          DecodeError(Vec<u8>),

      }

      impl ToString for HgPathError {

          fn to_string(&self) -> String {

              match self {

                  HgPathError::LeadingSlash(bytes) => {

                      format!("Invalid HgPath '{:?}': has a leading slash.", bytes)

                  }

                  HgPathError::ConsecutiveSlashes(bytes, pos) => format!(

                      "Invalid HgPath '{:?}': consecutive slahes at pos {}.",

                      bytes, pos

                  ),

                  HgPathError::ContainsNullByte(bytes, pos) => format!(

                      "Invalid HgPath '{:?}': contains null byte at pos {}.",

                      bytes, pos

                  ),

                  HgPathError::DecodeError(bytes) => {

                      format!("Invalid HgPath '{:?}': could not be decoded.", bytes)

                  }

              }

          }

      }

      impl From<HgPathError> for std::io::Error {

          fn from(e: HgPathError) -> Self {

              std::io::Error::new(std::io::ErrorKind::InvalidData, e.to_string())

          }

      }

      /// This is a repository-relative path (or canonical path):

      ///     - no null characters

      ///     - `/` separates directories

      ///     - no consecutive slashes

      ///     - no leading slash,

      ///     - no `.` nor `..` of special meaning

      ///     - stored in repository and shared across platforms

      ///

      /// Note: there is no guarantee of any `HgPath` being well-formed at any point

      /// in its lifetime for performance reasons and to ease ergonomics. It is

      /// however checked using the `check_state` method before any file-system

      /// operation.

      ///

      /// This allows us to be encoding-transparent as much as possible, until really

      /// needed; `HgPath` can be transformed into a platform-specific path (`OsStr`

      /// or `Path`) whenever more complex operations are needed:

      /// On Unix, it's just byte-to-byte conversion. On Windows, it has to be

      /// decoded from MBCS to WTF-8. If WindowsUTF8Plan is implemented, the source

      /// character encoding will be determined on a per-repository basis.

      //

      // FIXME: (adapted from a comment in the stdlib)

      // `HgPath::new()` current implementation relies on `Slice` being

      // layout-compatible with `[u8]`.

      // When attribute privacy is implemented, `Slice` should be annotated as

      // `#[repr(transparent)]`.

      // Anyway, `Slice` representation and layout are considered implementation

      // detail, are not documented and must not be relied upon.

      #[derive(Eq, Ord, PartialEq, PartialOrd, Debug, Hash)]

      pub struct HgPath {

          inner: [u8],

      }

      impl HgPath {

          pub fn new<S: AsRef<[u8]> + ?Sized>(s: &S) -> &Self {

              unsafe { &*(s.as_ref() as *const [u8] as *const Self) }

          }

          pub fn is_empty(&self) -> bool {

              self.inner.is_empty()

          }

          pub fn len(&self) -> usize {

              self.inner.len()

          }

          fn to_hg_path_buf(&self) -> HgPathBuf {

              HgPathBuf {

                  inner: self.inner.to_owned(),

              }

          }

          pub fn bytes(&self) -> std::slice::Iter<u8> {

              self.inner.iter()

          }

          pub fn to_ascii_uppercase(&self) -> HgPathBuf {

              HgPathBuf::from(self.inner.to_ascii_uppercase())

          }

          pub fn to_ascii_lowercase(&self) -> HgPathBuf {

              HgPathBuf::from(self.inner.to_ascii_lowercase())

          }

          pub fn as_bytes(&self) -> &[u8] {

              &self.inner

          }

          pub fn contains(&self, other: u8) -> bool {

              self.inner.contains(&other)

          }

          pub fn join<T: ?Sized + AsRef<HgPath>>(&self, other: &T) -> HgPathBuf {

              let mut inner = self.inner.to_owned();

              if inner.len() != 0 && inner.last() != Some(&b'/') {

                  inner.push(b'/');

              }

              inner.extend(other.as_ref().bytes());

              HgPathBuf::from_bytes(&inner)

          }

          /// Checks for errors in the path, short-circuiting at the first one.

          /// This generates fine-grained errors useful for debugging.

          /// To simply check if the path is valid during tests, use `is_valid`.

          pub fn check_state(&self) -> Result<(), HgPathError> {

              if self.len() == 0 {

                  return Ok(());

              }

              let bytes = self.as_bytes();

              let mut previous_byte = None;

              if bytes[0] == b'/' {

                  return Err(HgPathError::LeadingSlash(bytes.to_vec()));

              }

              for (index, byte) in bytes.iter().enumerate() {

                  match byte {

                      0 => {

                          return Err(HgPathError::ContainsNullByte(

                              bytes.to_vec(),

                              index,

                          ))

                      }

                      b'/' => {

                          if previous_byte.is_some() && previous_byte == Some(b'/') {

                              return Err(HgPathError::ConsecutiveSlashes(

                                  bytes.to_vec(),

                                  index,

                              ));

                          }

                      }

                      _ => (),

                  };

                  previous_byte = Some(*byte);

              }

              Ok(())

          }

          #[cfg(test)]

          /// Only usable during tests to force developers to handle invalid states

          fn is_valid(&self) -> bool {

              self.check_state().is_ok()

          }

      }

      #[derive(Eq, Ord, Clone, PartialEq, PartialOrd, Debug, Hash)]

      pub struct HgPathBuf {

          inner: Vec<u8>,

      }

      impl HgPathBuf {

          pub fn new() -> Self {

              Self { inner: Vec::new() }

          }

          pub fn push(&mut self, byte: u8) {

              self.inner.push(byte);

          }

          pub fn from_bytes(s: &[u8]) -> HgPathBuf {

              HgPath::new(s).to_owned()

          }

          pub fn into_vec(self) -> Vec<u8> {

              self.inner

          }

          pub fn as_ref(&self) -> &[u8] {

              self.inner.as_ref()

          }

      }

      impl Deref for HgPathBuf {

          type Target = HgPath;

          #[inline]

          fn deref(&self) -> &HgPath {

              &HgPath::new(&self.inner)

          }

      }

      impl From<Vec<u8>> for HgPathBuf {

          fn from(vec: Vec<u8>) -> Self {

              Self { inner: vec }

          }

      }

      impl<T: ?Sized + AsRef<HgPath>> From<&T> for HgPathBuf {

          fn from(s: &T) -> HgPathBuf {

              s.as_ref().to_owned()

          }

      }

      impl Into<Vec<u8>> for HgPathBuf {

          fn into(self) -> Vec<u8> {

              self.inner

          }

      }

      impl Borrow<HgPath> for HgPathBuf {

          fn borrow(&self) -> &HgPath {

              &HgPath::new(self.as_bytes())

          }

      }

      impl ToOwned for HgPath {

          type Owned = HgPathBuf;

          fn to_owned(&self) -> HgPathBuf {

              self.to_hg_path_buf()

          }

      }

      impl AsRef<HgPath> for HgPath {

          fn as_ref(&self) -> &HgPath {

              self

          }

      }

      impl AsRef<HgPath> for HgPathBuf {

          fn as_ref(&self) -> &HgPath {

              self

          }

      }

      impl Extend<u8> for HgPathBuf {

          fn extend<T: IntoIterator<Item = u8>>(&mut self, iter: T) {

              self.inner.extend(iter);

          }

      }

      /// TODO: Once https://www.mercurial-scm.org/wiki/WindowsUTF8Plan is

      /// implemented, these conversion utils will have to work differently depending

      /// on the repository encoding: either `UTF-8` or `MBCS`.

      pub fn hg_path_to_os_string<P: AsRef<HgPath>>(

          hg_path: P,

      ) -> Result<OsString, HgPathError> {

          hg_path.as_ref().check_state()?;

          let os_str;

          #[cfg(unix)]

          {

              use std::os::unix::ffi::OsStrExt;

              os_str = std::ffi::OsStr::from_bytes(&hg_path.as_ref().as_bytes());

          }

          // TODO Handle other platforms

          // TODO: convert from WTF8 to Windows MBCS (ANSI encoding).

          Ok(os_str.to_os_string())

      }

      pub fn hg_path_to_path_buf<P: AsRef<HgPath>>(

          hg_path: P,

      ) -> Result<PathBuf, HgPathError> {

          Ok(Path::new(&hg_path_to_os_string(hg_path)?).to_path_buf())

      }

      pub fn os_string_to_hg_path_buf<S: AsRef<OsStr>>(

          os_string: S,

      ) -> Result<HgPathBuf, HgPathError> {

          let buf;

          #[cfg(unix)]

          {

              use std::os::unix::ffi::OsStrExt;

              buf = HgPathBuf::from_bytes(&os_string.as_ref().as_bytes());

          }

          // TODO Handle other platforms

          // TODO: convert from WTF8 to Windows MBCS (ANSI encoding).

          buf.check_state()?;

          Ok(buf)

      }

      pub fn path_to_hg_path_buf<P: AsRef<Path>>(

          path: P,

      ) -> Result<HgPathBuf, HgPathError> {

          let buf;

          let os_str = path.as_ref().as_os_str();

          #[cfg(unix)]

          {

              use std::os::unix::ffi::OsStrExt;

              buf = HgPathBuf::from_bytes(&os_str.as_bytes());

          }

          // TODO Handle other platforms

          // TODO: convert from WTF8 to Windows MBCS (ANSI encoding).

          buf.check_state()?;

          Ok(buf)

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          #[test]

          fn test_path_states() {

              assert_eq!(

                  Err(HgPathError::LeadingSlash(b"/".to_vec())),

                  HgPath::new(b"/").check_state()

              );

              assert_eq!(

                  Err(HgPathError::ConsecutiveSlashes(b"a/b//c".to_vec(), 4)),

                  HgPath::new(b"a/b//c").check_state()

              );

              assert_eq!(

                  Err(HgPathError::ContainsNullByte(b"a/b/\0c".to_vec(), 4)),

                  HgPath::new(b"a/b/\0c").check_state()

              );

              // TODO test HgPathError::DecodeError for the Windows implementation.

              assert_eq!(true, HgPath::new(b"").is_valid());

              assert_eq!(true, HgPath::new(b"a/b/c").is_valid());

              // Backslashes in paths are not significant, but allowed

              assert_eq!(true, HgPath::new(br"a\b/c").is_valid());

              // Dots in paths are not significant, but allowed

              assert_eq!(true, HgPath::new(b"a/b/../c/").is_valid());

              assert_eq!(true, HgPath::new(b"./a/b/../c/").is_valid());

          }

          #[test]

          fn test_iter() {

              let path = HgPath::new(b"a");

              let mut iter = path.bytes();

              assert_eq!(Some(&b'a'), iter.next());

              assert_eq!(None, iter.next_back());

              assert_eq!(None, iter.next());

              let path = HgPath::new(b"a");

              let mut iter = path.bytes();

              assert_eq!(Some(&b'a'), iter.next_back());

              assert_eq!(None, iter.next_back());

              assert_eq!(None, iter.next());

              let path = HgPath::new(b"abc");

              let mut iter = path.bytes();

              assert_eq!(Some(&b'a'), iter.next());

              assert_eq!(Some(&b'c'), iter.next_back());

              assert_eq!(Some(&b'b'), iter.next_back());

              assert_eq!(None, iter.next_back());

              assert_eq!(None, iter.next());

              let path = HgPath::new(b"abc");

              let mut iter = path.bytes();

              assert_eq!(Some(&b'a'), iter.next());

              assert_eq!(Some(&b'b'), iter.next());

              assert_eq!(Some(&b'c'), iter.next());

              assert_eq!(None, iter.next_back());

              assert_eq!(None, iter.next());

              let path = HgPath::new(b"abc");

              let iter = path.bytes();

              let mut vec = Vec::new();

              vec.extend(iter);

              assert_eq!(vec![b'a', b'b', b'c'], vec);

              let path = HgPath::new(b"abc");

              let mut iter = path.bytes();

              assert_eq!(Some(2), iter.rposition(|c| *c == b'c'));

              let path = HgPath::new(b"abc");

              let mut iter = path.bytes();

              assert_eq!(None, iter.rposition(|c| *c == b'd'));

          }

          #[test]

          fn test_join() {

              let path = HgPathBuf::from_bytes(b"a").join(HgPath::new(b"b"));

              assert_eq!(b"a/b", path.as_bytes());

              let path = HgPathBuf::from_bytes(b"a/").join(HgPath::new(b"b/c"));

              assert_eq!(b"a/b/c", path.as_bytes());

              // No leading slash if empty before join

              let path = HgPathBuf::new().join(HgPath::new(b"b/c"));

              assert_eq!(b"b/c", path.as_bytes());

              // The leading slash is an invalid representation of an `HgPath`, but

              // it can happen. This creates another invalid representation of

              // consecutive bytes.

              // TODO What should be done in this case? Should we silently remove

              // the extra slash? Should we change the signature to a problematic

              // `Result<HgPathBuf, HgPathError>`, or should we just keep it so and

              // let the error happen upon filesystem interaction?

              let path = HgPathBuf::from_bytes(b"a/").join(HgPath::new(b"/b"));

              assert_eq!(b"a//b", path.as_bytes());

              let path = HgPathBuf::from_bytes(b"a").join(HgPath::new(b"/b"));

              assert_eq!(b"a//b", path.as_bytes());

          }

      }

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				// hg_path.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.

				use std::borrow::Borrow;
				use std::ffi::{OsStr, OsString};
				use std::ops::Deref;
				use std::path::{Path, PathBuf};

				#[derive(Debug, Eq, PartialEq)]
				pub enum HgPathError {
				/// Bytes from the invalid `HgPath`
				LeadingSlash(Vec<u8>),
				/// Bytes and index of the second slash
				ConsecutiveSlashes(Vec<u8>, usize),
				/// Bytes and index of the null byte
				ContainsNullByte(Vec<u8>, usize),
				/// Bytes
				DecodeError(Vec<u8>),
				}

				impl ToString for HgPathError {
				fn to_string(&self) -> String {
				match self {
				HgPathError::LeadingSlash(bytes) => {
				format!("Invalid HgPath '{:?}': has a leading slash.", bytes)
				}
				HgPathError::ConsecutiveSlashes(bytes, pos) => format!(
				"Invalid HgPath '{:?}': consecutive slahes at pos {}.",
				bytes, pos
				),
				HgPathError::ContainsNullByte(bytes, pos) => format!(
				"Invalid HgPath '{:?}': contains null byte at pos {}.",
				bytes, pos
				),
				HgPathError::DecodeError(bytes) => {
				format!("Invalid HgPath '{:?}': could not be decoded.", bytes)
				}
				}
				}
				}

				impl From<HgPathError> for std::io::Error {
				fn from(e: HgPathError) -> Self {
				std::io::Error::new(std::io::ErrorKind::InvalidData, e.to_string())
				}
				}

				/// This is a repository-relative path (or canonical path):
				/// - no null characters
				/// - `/` separates directories
				/// - no consecutive slashes
				/// - no leading slash,
				/// - no `.` nor `..` of special meaning
				/// - stored in repository and shared across platforms
				///
				/// Note: there is no guarantee of any `HgPath` being well-formed at any point
				/// in its lifetime for performance reasons and to ease ergonomics. It is
				/// however checked using the `check_state` method before any file-system
				/// operation.
				///
				/// This allows us to be encoding-transparent as much as possible, until really
				/// needed; `HgPath` can be transformed into a platform-specific path (`OsStr`
				/// or `Path`) whenever more complex operations are needed:
				/// On Unix, it's just byte-to-byte conversion. On Windows, it has to be
				/// decoded from MBCS to WTF-8. If WindowsUTF8Plan is implemented, the source
				/// character encoding will be determined on a per-repository basis.
				//
				// FIXME: (adapted from a comment in the stdlib)
				// `HgPath::new()` current implementation relies on `Slice` being
				// layout-compatible with `[u8]`.
				// When attribute privacy is implemented, `Slice` should be annotated as
				// `#[repr(transparent)]`.
				// Anyway, `Slice` representation and layout are considered implementation
				// detail, are not documented and must not be relied upon.
				#[derive(Eq, Ord, PartialEq, PartialOrd, Debug, Hash)]
				pub struct HgPath {
				inner: [u8],
				}

				impl HgPath {
				pub fn new<S: AsRef<[u8]> + ?Sized>(s: &S) -> &Self {
				unsafe { &(s.as_ref() as const [u8] as *const Self) }
				}
				pub fn is_empty(&self) -> bool {
				self.inner.is_empty()
				}
				pub fn len(&self) -> usize {
				self.inner.len()
				}
				fn to_hg_path_buf(&self) -> HgPathBuf {
				HgPathBuf {
				inner: self.inner.to_owned(),
				}
				}
				pub fn bytes(&self) -> std::slice::Iter<u8> {
				self.inner.iter()
				}
				pub fn to_ascii_uppercase(&self) -> HgPathBuf {
				HgPathBuf::from(self.inner.to_ascii_uppercase())
				}
				pub fn to_ascii_lowercase(&self) -> HgPathBuf {
				HgPathBuf::from(self.inner.to_ascii_lowercase())
				}
				pub fn as_bytes(&self) -> &[u8] {
				&self.inner
				}
				pub fn contains(&self, other: u8) -> bool {
				self.inner.contains(&other)
				}
				pub fn join<T: ?Sized + AsRef<HgPath>>(&self, other: &T) -> HgPathBuf {
				let mut inner = self.inner.to_owned();
				if inner.len() != 0 && inner.last() != Some(&b'/') {
				inner.push(b'/');
				}
				inner.extend(other.as_ref().bytes());
				HgPathBuf::from_bytes(&inner)
				}
				/// Checks for errors in the path, short-circuiting at the first one.
				/// This generates fine-grained errors useful for debugging.
				/// To simply check if the path is valid during tests, use `is_valid`.
				pub fn check_state(&self) -> Result<(), HgPathError> {
				if self.len() == 0 {
				return Ok(());
				}
				let bytes = self.as_bytes();
				let mut previous_byte = None;

				if bytes[0] == b'/' {
				return Err(HgPathError::LeadingSlash(bytes.to_vec()));
				}
				for (index, byte) in bytes.iter().enumerate() {
				match byte {
				0 => {
				return Err(HgPathError::ContainsNullByte(
				bytes.to_vec(),
				index,
				))
				}
				b'/' => {
				if previous_byte.is_some() && previous_byte == Some(b'/') {
				return Err(HgPathError::ConsecutiveSlashes(
				bytes.to_vec(),
				index,
				));
				}
				}
				_ => (),
				};
				previous_byte = Some(*byte);
				}
				Ok(())
				}

				#[cfg(test)]
				/// Only usable during tests to force developers to handle invalid states
				fn is_valid(&self) -> bool {
				self.check_state().is_ok()
				}
				}

				#[derive(Eq, Ord, Clone, PartialEq, PartialOrd, Debug, Hash)]
				pub struct HgPathBuf {
				inner: Vec<u8>,
				}

				impl HgPathBuf {
				pub fn new() -> Self {
				Self { inner: Vec::new() }
				}
				pub fn push(&mut self, byte: u8) {
				self.inner.push(byte);
				}
				pub fn from_bytes(s: &[u8]) -> HgPathBuf {
				HgPath::new(s).to_owned()
				}
				pub fn into_vec(self) -> Vec<u8> {
				self.inner
				}
				pub fn as_ref(&self) -> &[u8] {
				self.inner.as_ref()
				}
				}

				impl Deref for HgPathBuf {
				type Target = HgPath;

				#[inline]
				fn deref(&self) -> &HgPath {
				&HgPath::new(&self.inner)
				}
				}

				impl From<Vec<u8>> for HgPathBuf {
				fn from(vec: Vec<u8>) -> Self {
				Self { inner: vec }
				}
				}

				impl<T: ?Sized + AsRef<HgPath>> From<&T> for HgPathBuf {
				fn from(s: &T) -> HgPathBuf {
				s.as_ref().to_owned()
				}
				}

				impl Into<Vec<u8>> for HgPathBuf {
				fn into(self) -> Vec<u8> {
				self.inner
				}
				}

				impl Borrow<HgPath> for HgPathBuf {
				fn borrow(&self) -> &HgPath {
				&HgPath::new(self.as_bytes())
				}
				}

				impl ToOwned for HgPath {
				type Owned = HgPathBuf;

				fn to_owned(&self) -> HgPathBuf {
				self.to_hg_path_buf()
				}
				}

				impl AsRef<HgPath> for HgPath {
				fn as_ref(&self) -> &HgPath {
				self
				}
				}

				impl AsRef<HgPath> for HgPathBuf {
				fn as_ref(&self) -> &HgPath {
				self
				}
				}

				impl Extend<u8> for HgPathBuf {
				fn extend<T: IntoIterator<Item = u8>>(&mut self, iter: T) {
				self.inner.extend(iter);
				}
				}

				/// TODO: Once https://www.mercurial-scm.org/wiki/WindowsUTF8Plan is
				/// implemented, these conversion utils will have to work differently depending
				/// on the repository encoding: either `UTF-8` or `MBCS`.

				pub fn hg_path_to_os_string<P: AsRef<HgPath>>(
				hg_path: P,
				) -> Result<OsString, HgPathError> {
				hg_path.as_ref().check_state()?;
				let os_str;
				#[cfg(unix)]
				{
				use std::os::unix::ffi::OsStrExt;
				os_str = std::ffi::OsStr::from_bytes(&hg_path.as_ref().as_bytes());
				}
				// TODO Handle other platforms
				// TODO: convert from WTF8 to Windows MBCS (ANSI encoding).
				Ok(os_str.to_os_string())
				}

				pub fn hg_path_to_path_buf<P: AsRef<HgPath>>(
				hg_path: P,
				) -> Result<PathBuf, HgPathError> {
				Ok(Path::new(&hg_path_to_os_string(hg_path)?).to_path_buf())
				}

				pub fn os_string_to_hg_path_buf<S: AsRef<OsStr>>(
				os_string: S,
				) -> Result<HgPathBuf, HgPathError> {
				let buf;
				#[cfg(unix)]
				{
				use std::os::unix::ffi::OsStrExt;
				buf = HgPathBuf::from_bytes(&os_string.as_ref().as_bytes());
				}
				// TODO Handle other platforms
				// TODO: convert from WTF8 to Windows MBCS (ANSI encoding).

				buf.check_state()?;
				Ok(buf)
				}

				pub fn path_to_hg_path_buf<P: AsRef<Path>>(
				path: P,
				) -> Result<HgPathBuf, HgPathError> {
				let buf;
				let os_str = path.as_ref().as_os_str();
				#[cfg(unix)]
				{
				use std::os::unix::ffi::OsStrExt;
				buf = HgPathBuf::from_bytes(&os_str.as_bytes());
				}
				// TODO Handle other platforms
				// TODO: convert from WTF8 to Windows MBCS (ANSI encoding).

				buf.check_state()?;
				Ok(buf)
				}

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

				#[test]
				fn test_path_states() {
				assert_eq!(
				Err(HgPathError::LeadingSlash(b"/".to_vec())),
				HgPath::new(b"/").check_state()
				);
				assert_eq!(
				Err(HgPathError::ConsecutiveSlashes(b"a/b//c".to_vec(), 4)),
				HgPath::new(b"a/b//c").check_state()
				);
				assert_eq!(
				Err(HgPathError::ContainsNullByte(b"a/b/\0c".to_vec(), 4)),
				HgPath::new(b"a/b/\0c").check_state()
				);
				// TODO test HgPathError::DecodeError for the Windows implementation.
				assert_eq!(true, HgPath::new(b"").is_valid());
				assert_eq!(true, HgPath::new(b"a/b/c").is_valid());
				// Backslashes in paths are not significant, but allowed
				assert_eq!(true, HgPath::new(br"a\b/c").is_valid());
				// Dots in paths are not significant, but allowed
				assert_eq!(true, HgPath::new(b"a/b/../c/").is_valid());
				assert_eq!(true, HgPath::new(b"./a/b/../c/").is_valid());
				}

				#[test]
				fn test_iter() {
				let path = HgPath::new(b"a");
				let mut iter = path.bytes();
				assert_eq!(Some(&b'a'), iter.next());
				assert_eq!(None, iter.next_back());
				assert_eq!(None, iter.next());

				let path = HgPath::new(b"a");
				let mut iter = path.bytes();
				assert_eq!(Some(&b'a'), iter.next_back());
				assert_eq!(None, iter.next_back());
				assert_eq!(None, iter.next());

				let path = HgPath::new(b"abc");
				let mut iter = path.bytes();
				assert_eq!(Some(&b'a'), iter.next());
				assert_eq!(Some(&b'c'), iter.next_back());
				assert_eq!(Some(&b'b'), iter.next_back());
				assert_eq!(None, iter.next_back());
				assert_eq!(None, iter.next());

				let path = HgPath::new(b"abc");
				let mut iter = path.bytes();
				assert_eq!(Some(&b'a'), iter.next());
				assert_eq!(Some(&b'b'), iter.next());
				assert_eq!(Some(&b'c'), iter.next());
				assert_eq!(None, iter.next_back());
				assert_eq!(None, iter.next());

				let path = HgPath::new(b"abc");
				let iter = path.bytes();
				let mut vec = Vec::new();
				vec.extend(iter);
				assert_eq!(vec![b'a', b'b', b'c'], vec);

				let path = HgPath::new(b"abc");
				let mut iter = path.bytes();
				assert_eq!(Some(2), iter.rposition(\|c\| *c == b'c'));

				let path = HgPath::new(b"abc");
				let mut iter = path.bytes();
				assert_eq!(None, iter.rposition(\|c\| *c == b'd'));
				}

				#[test]
				fn test_join() {
				let path = HgPathBuf::from_bytes(b"a").join(HgPath::new(b"b"));
				assert_eq!(b"a/b", path.as_bytes());

				let path = HgPathBuf::from_bytes(b"a/").join(HgPath::new(b"b/c"));
				assert_eq!(b"a/b/c", path.as_bytes());

				// No leading slash if empty before join
				let path = HgPathBuf::new().join(HgPath::new(b"b/c"));
				assert_eq!(b"b/c", path.as_bytes());

				// The leading slash is an invalid representation of an `HgPath`, but
				// it can happen. This creates another invalid representation of
				// consecutive bytes.
				// TODO What should be done in this case? Should we silently remove
				// the extra slash? Should we change the signature to a problematic
				// `Result<HgPathBuf, HgPathError>`, or should we just keep it so and
				// let the error happen upon filesystem interaction?
				let path = HgPathBuf::from_bytes(b"a/").join(HgPath::new(b"/b"));
				assert_eq!(b"a//b", path.as_bytes());
				let path = HgPathBuf::from_bytes(b"a").join(HgPath::new(b"/b"));
				assert_eq!(b"a//b", path.as_bytes());
				}
				}