third_party/rust_crates/ask2patch/walkdir/src/dent.rs - fuchsia - Git at Google

 use std::ffi::OsStr;
 use std::fmt;
 use std::fs::{self, FileType};
 use std::path::{Path, PathBuf};

 use crate::error::Error;
 use crate::Result;

 /// A directory entry.
 ///
 /// This is the type of value that is yielded from the iterators defined in
 /// this crate.
 ///
 /// On Unix systems, this type implements the [`DirEntryExt`] trait, which
 /// provides efficient access to the inode number of the directory entry.
 ///
 /// # Differences with `std::fs::DirEntry`
 ///
 /// This type mostly mirrors the type by the same name in [`std::fs`]. There
 /// are some differences however:
 ///
 /// * All recursive directory iterators must inspect the entry's type.
 /// Therefore, the value is stored and its access is guaranteed to be cheap and
 /// successful.
 /// * [`path`] and [`file_name`] return borrowed variants.
 /// * If [`follow_links`] was enabled on the originating iterator, then all
 /// operations except for [`path`] operate on the link target. Otherwise, all
 /// operations operate on the symbolic link.
 ///
 /// [`std::fs`]: https://doc.rust-lang.org/stable/std/fs/index.html
 /// [`path`]: #method.path
 /// [`file_name`]: #method.file_name
 /// [`follow_links`]: struct.WalkDir.html#method.follow_links
 /// [`DirEntryExt`]: trait.DirEntryExt.html
 pub struct DirEntry {
     /// The path as reported by the [`fs::ReadDir`] iterator (even if it's a
     /// symbolic link).
     ///
     /// [`fs::ReadDir`]: https://doc.rust-lang.org/stable/std/fs/struct.ReadDir.html
     path: PathBuf,
     /// The file type. Necessary for recursive iteration, so store it.
     ty: FileType,
     /// Is set when this entry was created from a symbolic link and the user
     /// expects the iterator to follow symbolic links.
     follow_link: bool,
     /// The depth at which this entry was generated relative to the root.
     depth: usize,
     /// The underlying inode number (Unix only).
     #[cfg(unix)]
     ino: u64,
     /// The underlying metadata (Windows only). We store this on Windows
     /// because this comes for free while reading a directory.
     ///
     /// We use this to determine whether an entry is a directory or not, which
     /// works around a bug in Rust's standard library:
     /// https://github.com/rust-lang/rust/issues/46484
     #[cfg(windows)]
     metadata: fs::Metadata,
 }

 impl DirEntry {
     /// The full path that this entry represents.
     ///
     /// The full path is created by joining the parents of this entry up to the
     /// root initially given to [`WalkDir::new`] with the file name of this
     /// entry.
     ///
     /// Note that this *always* returns the path reported by the underlying
     /// directory entry, even when symbolic links are followed. To get the
     /// target path, use [`path_is_symlink`] to (cheaply) check if this entry
     /// corresponds to a symbolic link, and [`std::fs::read_link`] to resolve
     /// the target.
     ///
     /// [`WalkDir::new`]: struct.WalkDir.html#method.new
     /// [`path_is_symlink`]: struct.DirEntry.html#method.path_is_symlink
     /// [`std::fs::read_link`]: https://doc.rust-lang.org/stable/std/fs/fn.read_link.html
     pub fn path(&self) -> &Path {
         &self.path
     }

     /// The full path that this entry represents.
     ///
     /// Analogous to [`path`], but moves ownership of the path.
     ///
     /// [`path`]: struct.DirEntry.html#method.path
     pub fn into_path(self) -> PathBuf {
         self.path
     }

     /// Returns `true` if and only if this entry was created from a symbolic
     /// link. This is unaffected by the [`follow_links`] setting.
     ///
     /// When `true`, the value returned by the [`path`] method is a
     /// symbolic link name. To get the full target path, you must call
     /// [`std::fs::read_link(entry.path())`].
     ///
     /// [`path`]: struct.DirEntry.html#method.path
     /// [`follow_links`]: struct.WalkDir.html#method.follow_links
     /// [`std::fs::read_link(entry.path())`]: https://doc.rust-lang.org/stable/std/fs/fn.read_link.html
     pub fn path_is_symlink(&self) -> bool {
         self.ty.is_symlink() || self.follow_link
     }

     /// Return the metadata for the file that this entry points to.
     ///
     /// This will follow symbolic links if and only if the [`WalkDir`] value
     /// has [`follow_links`] enabled.
     ///
     /// # Platform behavior
     ///
     /// This always calls [`std::fs::symlink_metadata`].
     ///
     /// If this entry is a symbolic link and [`follow_links`] is enabled, then
     /// [`std::fs::metadata`] is called instead.
     ///
     /// # Errors
     ///
     /// Similar to [`std::fs::metadata`], returns errors for path values that
     /// the program does not have permissions to access or if the path does not
     /// exist.
     ///
     /// [`WalkDir`]: struct.WalkDir.html
     /// [`follow_links`]: struct.WalkDir.html#method.follow_links
     /// [`std::fs::metadata`]: https://doc.rust-lang.org/std/fs/fn.metadata.html
     /// [`std::fs::symlink_metadata`]: https://doc.rust-lang.org/stable/std/fs/fn.symlink_metadata.html
     pub fn metadata(&self) -> Result<fs::Metadata> {
         self.metadata_internal()
     }

     #[cfg(windows)]
     fn metadata_internal(&self) -> Result<fs::Metadata> {
         if self.follow_link {
             fs::metadata(&self.path)
         } else {
             Ok(self.metadata.clone())
         }
         .map_err(|err| Error::from_entry(self, err))
     }

     #[cfg(not(windows))]
     fn metadata_internal(&self) -> Result<fs::Metadata> {
         if self.follow_link {
             fs::metadata(&self.path)
         } else {
             fs::symlink_metadata(&self.path)
         }
         .map_err(|err| Error::from_entry(self, err))
     }

     /// Return the file type for the file that this entry points to.
     ///
     /// If this is a symbolic link and [`follow_links`] is `true`, then this
     /// returns the type of the target.
     ///
     /// This never makes any system calls.
     ///
     /// [`follow_links`]: struct.WalkDir.html#method.follow_links
     pub fn file_type(&self) -> fs::FileType {
         self.ty
     }

     /// Return the file name of this entry.
     ///
     /// If this entry has no file name (e.g., `/`), then the full path is
     /// returned.
     pub fn file_name(&self) -> &OsStr {
         self.path.file_name().unwrap_or_else(|| self.path.as_os_str())
     }

     /// Returns the depth at which this entry was created relative to the root.
     ///
     /// The smallest depth is `0` and always corresponds to the path given
     /// to the `new` function on `WalkDir`. Its direct descendents have depth
     /// `1`, and their descendents have depth `2`, and so on.
     pub fn depth(&self) -> usize {
         self.depth
     }

     /// Returns true if and only if this entry points to a directory.
     ///
     /// This works around a bug in Rust's standard library:
     /// https://github.com/rust-lang/rust/issues/46484
     #[cfg(windows)]
     pub(crate) fn is_dir(&self) -> bool {
         use std::os::windows::fs::MetadataExt;
         use winapi::um::winnt::FILE_ATTRIBUTE_DIRECTORY;
         self.metadata.file_attributes() & FILE_ATTRIBUTE_DIRECTORY != 0
     }

     /// Returns true if and only if this entry points to a directory.
     #[cfg(not(windows))]
     pub(crate) fn is_dir(&self) -> bool {
         self.ty.is_dir()
     }

     #[cfg(windows)]
     pub(crate) fn from_entry(
         depth: usize,
         ent: &fs::DirEntry,
     ) -> Result<DirEntry> {
         let path = ent.path();
         let ty = ent
             .file_type()
             .map_err(|err| Error::from_path(depth, path.clone(), err))?;
         let md = ent
             .metadata()
             .map_err(|err| Error::from_path(depth, path.clone(), err))?;
         Ok(DirEntry {
             path: path,
             ty: ty,
             follow_link: false,
             depth: depth,
             metadata: md,
         })
     }

     #[cfg(unix)]
     pub(crate) fn from_entry(
         depth: usize,
         ent: &fs::DirEntry,
     ) -> Result<DirEntry> {
         use std::os::unix::fs::DirEntryExt;

         let ty = ent
             .file_type()
             .map_err(|err| Error::from_path(depth, ent.path(), err))?;
         Ok(DirEntry {
             path: ent.path(),
             ty: ty,
             follow_link: false,
             depth: depth,
             ino: ent.ino(),
         })
     }

     #[cfg(not(any(unix, windows)))]
     pub(crate) fn from_entry(
         depth: usize,
         ent: &fs::DirEntry,
     ) -> Result<DirEntry> {
         let ty = ent
             .file_type()
             .map_err(|err| Error::from_path(depth, ent.path(), err))?;
         Ok(DirEntry {
             path: ent.path(),
             ty: ty,
             follow_link: false,
             depth: depth,
         })
     }

     #[cfg(windows)]
     pub(crate) fn from_path(
         depth: usize,
         pb: PathBuf,
         follow: bool,
     ) -> Result<DirEntry> {
         let md = if follow {
             fs::metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         } else {
             fs::symlink_metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         };
         Ok(DirEntry {
             path: pb,
             ty: md.file_type(),
             follow_link: follow,
             depth: depth,
             metadata: md,
         })
     }

     #[cfg(unix)]
     pub(crate) fn from_path(
         depth: usize,
         pb: PathBuf,
         follow: bool,
     ) -> Result<DirEntry> {
         use std::os::unix::fs::MetadataExt;

         let md = if follow {
             fs::metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         } else {
             fs::symlink_metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         };
         Ok(DirEntry {
             path: pb,
             ty: md.file_type(),
             follow_link: follow,
             depth: depth,
             ino: md.ino(),
         })
     }

     #[cfg(not(any(unix, windows)))]
     pub(crate) fn from_path(
         depth: usize,
         pb: PathBuf,
         follow: bool,
     ) -> Result<DirEntry> {
         let md = if follow {
             fs::metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         } else {
             fs::symlink_metadata(&pb)
                 .map_err(|err| Error::from_path(depth, pb.clone(), err))?
         };
         Ok(DirEntry {
             path: pb,
             ty: md.file_type(),
             follow_link: follow,
             depth: depth,
         })
     }
 }

 impl Clone for DirEntry {
     #[cfg(windows)]
     fn clone(&self) -> DirEntry {
         DirEntry {
             path: self.path.clone(),
             ty: self.ty,
             follow_link: self.follow_link,
             depth: self.depth,
             metadata: self.metadata.clone(),
         }
     }

     #[cfg(unix)]
     fn clone(&self) -> DirEntry {
         DirEntry {
             path: self.path.clone(),
             ty: self.ty,
             follow_link: self.follow_link,
             depth: self.depth,
             ino: self.ino,
         }
     }

     #[cfg(not(any(unix, windows)))]
     fn clone(&self) -> DirEntry {
         DirEntry {
             path: self.path.clone(),
             ty: self.ty,
             follow_link: self.follow_link,
             depth: self.depth,
         }
     }
 }

 impl fmt::Debug for DirEntry {
     fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
         write!(f, "DirEntry({:?})", self.path)
     }
 }

 /// Unix-specific extension methods for `walkdir::DirEntry`
 #[cfg(unix)]
 pub trait DirEntryExt {
     /// Returns the underlying `d_ino` field in the contained `dirent`
     /// structure.
     fn ino(&self) -> u64;
 }

 #[cfg(unix)]
 impl DirEntryExt for DirEntry {
     /// Returns the underlying `d_ino` field in the contained `dirent`
     /// structure.
     fn ino(&self) -> u64 {
         self.ino
     }
 }
	use std::ffi::OsStr;
	use std::fmt;
	use std::fs::{self, FileType};
	use std::path::{Path, PathBuf};

	use crate::error::Error;
	use crate::Result;

	/// A directory entry.
	///
	/// This is the type of value that is yielded from the iterators defined in
	/// this crate.
	///
	/// On Unix systems, this type implements the [`DirEntryExt`] trait, which
	/// provides efficient access to the inode number of the directory entry.
	///
	/// # Differences with `std::fs::DirEntry`
	///
	/// This type mostly mirrors the type by the same name in [`std::fs`]. There
	/// are some differences however:
	///
	/// * All recursive directory iterators must inspect the entry's type.
	/// Therefore, the value is stored and its access is guaranteed to be cheap and
	/// successful.
	/// * [`path`] and [`file_name`] return borrowed variants.
	/// * If [`follow_links`] was enabled on the originating iterator, then all
	/// operations except for [`path`] operate on the link target. Otherwise, all
	/// operations operate on the symbolic link.
	///
	/// [`std::fs`]: https://doc.rust-lang.org/stable/std/fs/index.html
	/// [`path`]: #method.path
	/// [`file_name`]: #method.file_name
	/// [`follow_links`]: struct.WalkDir.html#method.follow_links
	/// [`DirEntryExt`]: trait.DirEntryExt.html
	pub struct DirEntry {
	/// The path as reported by the [`fs::ReadDir`] iterator (even if it's a
	/// symbolic link).
	///
	/// [`fs::ReadDir`]: https://doc.rust-lang.org/stable/std/fs/struct.ReadDir.html
	path: PathBuf,
	/// The file type. Necessary for recursive iteration, so store it.
	ty: FileType,
	/// Is set when this entry was created from a symbolic link and the user
	/// expects the iterator to follow symbolic links.
	follow_link: bool,
	/// The depth at which this entry was generated relative to the root.
	depth: usize,
	/// The underlying inode number (Unix only).
	#[cfg(unix)]
	ino: u64,
	/// The underlying metadata (Windows only). We store this on Windows
	/// because this comes for free while reading a directory.
	///
	/// We use this to determine whether an entry is a directory or not, which
	/// works around a bug in Rust's standard library:
	/// https://github.com/rust-lang/rust/issues/46484
	#[cfg(windows)]
	metadata: fs::Metadata,
	}

	impl DirEntry {
	/// The full path that this entry represents.
	///
	/// The full path is created by joining the parents of this entry up to the
	/// root initially given to [`WalkDir::new`] with the file name of this
	/// entry.
	///
	/// Note that this always returns the path reported by the underlying
	/// directory entry, even when symbolic links are followed. To get the
	/// target path, use [`path_is_symlink`] to (cheaply) check if this entry
	/// corresponds to a symbolic link, and [`std::fs::read_link`] to resolve
	/// the target.
	///
	/// [`WalkDir::new`]: struct.WalkDir.html#method.new
	/// [`path_is_symlink`]: struct.DirEntry.html#method.path_is_symlink
	/// [`std::fs::read_link`]: https://doc.rust-lang.org/stable/std/fs/fn.read_link.html
	pub fn path(&self) -> &Path {
	&self.path
	}

	/// The full path that this entry represents.
	///
	/// Analogous to [`path`], but moves ownership of the path.
	///
	/// [`path`]: struct.DirEntry.html#method.path
	pub fn into_path(self) -> PathBuf {
	self.path
	}

	/// Returns `true` if and only if this entry was created from a symbolic
	/// link. This is unaffected by the [`follow_links`] setting.
	///
	/// When `true`, the value returned by the [`path`] method is a
	/// symbolic link name. To get the full target path, you must call
	/// [`std::fs::read_link(entry.path())`].
	///
	/// [`path`]: struct.DirEntry.html#method.path
	/// [`follow_links`]: struct.WalkDir.html#method.follow_links
	/// [`std::fs::read_link(entry.path())`]: https://doc.rust-lang.org/stable/std/fs/fn.read_link.html
	pub fn path_is_symlink(&self) -> bool {
	self.ty.is_symlink() \|\| self.follow_link
	}

	/// Return the metadata for the file that this entry points to.
	///
	/// This will follow symbolic links if and only if the [`WalkDir`] value
	/// has [`follow_links`] enabled.
	///
	/// # Platform behavior
	///
	/// This always calls [`std::fs::symlink_metadata`].
	///
	/// If this entry is a symbolic link and [`follow_links`] is enabled, then
	/// [`std::fs::metadata`] is called instead.
	///
	/// # Errors
	///
	/// Similar to [`std::fs::metadata`], returns errors for path values that
	/// the program does not have permissions to access or if the path does not
	/// exist.
	///
	/// [`WalkDir`]: struct.WalkDir.html
	/// [`follow_links`]: struct.WalkDir.html#method.follow_links
	/// [`std::fs::metadata`]: https://doc.rust-lang.org/std/fs/fn.metadata.html
	/// [`std::fs::symlink_metadata`]: https://doc.rust-lang.org/stable/std/fs/fn.symlink_metadata.html
	pub fn metadata(&self) -> Result<fs::Metadata> {
	self.metadata_internal()
	}

	#[cfg(windows)]
	fn metadata_internal(&self) -> Result<fs::Metadata> {
	if self.follow_link {
	fs::metadata(&self.path)
	} else {
	Ok(self.metadata.clone())
	}
	.map_err(\|err\| Error::from_entry(self, err))
	}

	#[cfg(not(windows))]
	fn metadata_internal(&self) -> Result<fs::Metadata> {
	if self.follow_link {
	fs::metadata(&self.path)
	} else {
	fs::symlink_metadata(&self.path)
	}
	.map_err(\|err\| Error::from_entry(self, err))
	}

	/// Return the file type for the file that this entry points to.
	///
	/// If this is a symbolic link and [`follow_links`] is `true`, then this
	/// returns the type of the target.
	///
	/// This never makes any system calls.
	///
	/// [`follow_links`]: struct.WalkDir.html#method.follow_links
	pub fn file_type(&self) -> fs::FileType {
	self.ty
	}

	/// Return the file name of this entry.
	///
	/// If this entry has no file name (e.g., `/`), then the full path is
	/// returned.
	pub fn file_name(&self) -> &OsStr {
	self.path.file_name().unwrap_or_else(\|\| self.path.as_os_str())
	}

	/// Returns the depth at which this entry was created relative to the root.
	///
	/// The smallest depth is `0` and always corresponds to the path given
	/// to the `new` function on `WalkDir`. Its direct descendents have depth
	/// `1`, and their descendents have depth `2`, and so on.
	pub fn depth(&self) -> usize {
	self.depth
	}

	/// Returns true if and only if this entry points to a directory.
	///
	/// This works around a bug in Rust's standard library:
	/// https://github.com/rust-lang/rust/issues/46484
	#[cfg(windows)]
	pub(crate) fn is_dir(&self) -> bool {
	use std::os::windows::fs::MetadataExt;
	use winapi::um::winnt::FILE_ATTRIBUTE_DIRECTORY;
	self.metadata.file_attributes() & FILE_ATTRIBUTE_DIRECTORY != 0
	}

	/// Returns true if and only if this entry points to a directory.
	#[cfg(not(windows))]
	pub(crate) fn is_dir(&self) -> bool {
	self.ty.is_dir()
	}

	#[cfg(windows)]
	pub(crate) fn from_entry(
	depth: usize,
	ent: &fs::DirEntry,
	) -> Result<DirEntry> {
	let path = ent.path();
	let ty = ent
	.file_type()
	.map_err(\|err\| Error::from_path(depth, path.clone(), err))?;
	let md = ent
	.metadata()
	.map_err(\|err\| Error::from_path(depth, path.clone(), err))?;
	Ok(DirEntry {
	path: path,
	ty: ty,
	follow_link: false,
	depth: depth,
	metadata: md,
	})
	}

	#[cfg(unix)]
	pub(crate) fn from_entry(
	depth: usize,
	ent: &fs::DirEntry,
	) -> Result<DirEntry> {
	use std::os::unix::fs::DirEntryExt;

	let ty = ent
	.file_type()
	.map_err(\|err\| Error::from_path(depth, ent.path(), err))?;
	Ok(DirEntry {
	path: ent.path(),
	ty: ty,
	follow_link: false,
	depth: depth,
	ino: ent.ino(),
	})
	}

	#[cfg(not(any(unix, windows)))]
	pub(crate) fn from_entry(
	depth: usize,
	ent: &fs::DirEntry,
	) -> Result<DirEntry> {
	let ty = ent
	.file_type()
	.map_err(\|err\| Error::from_path(depth, ent.path(), err))?;
	Ok(DirEntry {
	path: ent.path(),
	ty: ty,
	follow_link: false,
	depth: depth,
	})
	}

	#[cfg(windows)]
	pub(crate) fn from_path(
	depth: usize,
	pb: PathBuf,
	follow: bool,
	) -> Result<DirEntry> {
	let md = if follow {
	fs::metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	} else {
	fs::symlink_metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	};
	Ok(DirEntry {
	path: pb,
	ty: md.file_type(),
	follow_link: follow,
	depth: depth,
	metadata: md,
	})
	}

	#[cfg(unix)]
	pub(crate) fn from_path(
	depth: usize,
	pb: PathBuf,
	follow: bool,
	) -> Result<DirEntry> {
	use std::os::unix::fs::MetadataExt;

	let md = if follow {
	fs::metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	} else {
	fs::symlink_metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	};
	Ok(DirEntry {
	path: pb,
	ty: md.file_type(),
	follow_link: follow,
	depth: depth,
	ino: md.ino(),
	})
	}

	#[cfg(not(any(unix, windows)))]
	pub(crate) fn from_path(
	depth: usize,
	pb: PathBuf,
	follow: bool,
	) -> Result<DirEntry> {
	let md = if follow {
	fs::metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	} else {
	fs::symlink_metadata(&pb)
	.map_err(\|err\| Error::from_path(depth, pb.clone(), err))?
	};
	Ok(DirEntry {
	path: pb,
	ty: md.file_type(),
	follow_link: follow,
	depth: depth,
	})
	}
	}

	impl Clone for DirEntry {
	#[cfg(windows)]
	fn clone(&self) -> DirEntry {
	DirEntry {
	path: self.path.clone(),
	ty: self.ty,
	follow_link: self.follow_link,
	depth: self.depth,
	metadata: self.metadata.clone(),
	}
	}

	#[cfg(unix)]
	fn clone(&self) -> DirEntry {
	DirEntry {
	path: self.path.clone(),
	ty: self.ty,
	follow_link: self.follow_link,
	depth: self.depth,
	ino: self.ino,
	}
	}

	#[cfg(not(any(unix, windows)))]
	fn clone(&self) -> DirEntry {
	DirEntry {
	path: self.path.clone(),
	ty: self.ty,
	follow_link: self.follow_link,
	depth: self.depth,
	}
	}
	}

	impl fmt::Debug for DirEntry {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	write!(f, "DirEntry({:?})", self.path)
	}
	}

	/// Unix-specific extension methods for `walkdir::DirEntry`
	#[cfg(unix)]
	pub trait DirEntryExt {
	/// Returns the underlying `d_ino` field in the contained `dirent`
	/// structure.
	fn ino(&self) -> u64;
	}

	#[cfg(unix)]
	impl DirEntryExt for DirEntry {
	/// Returns the underlying `d_ino` field in the contained `dirent`
	/// structure.
	fn ino(&self) -> u64 {
	self.ino
	}
	}