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

tests: allow the true command to be provided by coreutils...

tests: allow the true command to be provided by coreutils The `true` command is sometimes provided as a symbolic link to the `coreutils` single binary. This is the case on NixOS, on which the test was failing because the symbolic link fully resolves to the latter name, equally valid but not previously accepted by the test's golden output. Differential Revision: https://phab.mercurial-scm.org/D11740

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             path_with_basename.rs
        
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             / rust / hg-core / src / dirstate_tree / path_with_basename.rs
          
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        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
      use crate::utils::hg_path::HgPath;

        Simon Sapin
    
dirstate-tree: Borrow paths from the "on disk" bytes...

              r47896
            
      use std::borrow::{Borrow, Cow};

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
      /// Wraps `HgPath` or `HgPathBuf` to make it behave "as" its last path

      /// component, a.k.a. its base name (as in Python’s `os.path.basename`), but

      /// also allow recovering the full path.

      ///

      /// "Behaving as" means that equality and comparison consider only the base

      /// name, and `std::borrow::Borrow` is implemented to return only the base

      /// name. This allows using the base name as a map key while still being able

      /// to recover the full path, in a single memory allocation.

      #[derive(Debug)]

      pub struct WithBasename<T> {

          full_path: T,

          /// The position after the last slash separator in `full_path`, or `0`

          /// if there is no slash.

          base_name_start: usize,

      }

      impl<T> WithBasename<T> {

          pub fn full_path(&self) -> &T {

              &self.full_path

          }

      }

        Simon Sapin
    
dirstate-v2: Change the on-disk format to be tree-shaped...

              r48058
            
      fn find_base_name_start(full_path: &HgPath) -> usize {

          if let Some(last_slash_position) =

              full_path.as_bytes().iter().rposition(|&byte| byte == b'/')

          {

              last_slash_position + 1

          } else {

              0

          }

      }

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
      impl<T: AsRef<HgPath>> WithBasename<T> {

          pub fn new(full_path: T) -> Self {

        Simon Sapin
    
dirstate-v2: Change the on-disk format to be tree-shaped...

              r48058
            
              Self {

                  base_name_start: find_base_name_start(full_path.as_ref()),

                  full_path,

              }

          }

          pub fn from_raw_parts(full_path: T, base_name_start: usize) -> Self {

              debug_assert_eq!(

                  base_name_start,

                  find_base_name_start(full_path.as_ref())

              );

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
              Self {

                  base_name_start,

                  full_path,

              }

          }

          pub fn base_name(&self) -> &HgPath {

              HgPath::new(

                  &self.full_path.as_ref().as_bytes()[self.base_name_start..],

              )

          }

        Simon Sapin
    
dirstate-v2: Change the on-disk format to be tree-shaped...

              r48058
            
          pub fn base_name_start(&self) -> usize {

              self.base_name_start

          }

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
      }

      impl<T: AsRef<HgPath>> Borrow<HgPath> for WithBasename<T> {

          fn borrow(&self) -> &HgPath {

              self.base_name()

          }

      }

        Simon Sapin
    
dirstate-tree: Use HashMap instead of BTreeMap...

              r47889
            
      impl<T: AsRef<HgPath>> std::hash::Hash for WithBasename<T> {

          fn hash<H: std::hash::Hasher>(&self, hasher: &mut H) {

              self.base_name().hash(hasher)

          }

      }

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
      impl<T: AsRef<HgPath> + PartialEq> PartialEq for WithBasename<T> {

          fn eq(&self, other: &Self) -> bool {

              self.base_name() == other.base_name()

          }

      }

      impl<T: AsRef<HgPath> + Eq> Eq for WithBasename<T> {}

      impl<T: AsRef<HgPath> + PartialOrd> PartialOrd for WithBasename<T> {

          fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {

              self.base_name().partial_cmp(other.base_name())

          }

      }

      impl<T: AsRef<HgPath> + Ord> Ord for WithBasename<T> {

          fn cmp(&self, other: &Self) -> std::cmp::Ordering {

              self.base_name().cmp(other.base_name())

          }

      }

        Simon Sapin
    
dirstate-tree: Borrow paths from the "on disk" bytes...

              r47896
            
      impl<'a> WithBasename<&'a HgPath> {

          pub fn to_cow_borrowed(self) -> WithBasename<Cow<'a, HgPath>> {

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
              WithBasename {

        Simon Sapin
    
dirstate-tree: Borrow paths from the "on disk" bytes...

              r47896
            
                  full_path: Cow::Borrowed(self.full_path),

                  base_name_start: self.base_name_start,

              }

          }

          pub fn to_cow_owned<'b>(self) -> WithBasename<Cow<'b, HgPath>> {

              WithBasename {

                  full_path: Cow::Owned(self.full_path.to_owned()),

        Simon Sapin
    
dirstate-tree: Add `WithBasename` wrapper for `HgPath`...

              r47866
            
                  base_name_start: self.base_name_start,

              }

          }

      }

      impl<'a> WithBasename<&'a HgPath> {

          /// Returns an iterator of `WithBasename<&HgPath>` for the ancestor

          /// directory paths of the given `path`, as well as `path` itself.

          ///

          /// For example, the full paths of inclusive ancestors of "a/b/c" are "a",

          /// "a/b", and "a/b/c" in that order.

          pub fn inclusive_ancestors_of(

              path: &'a HgPath,

          ) -> impl Iterator<Item = WithBasename<&'a HgPath>> {

              let mut slash_positions =

                  path.as_bytes().iter().enumerate().filter_map(|(i, &byte)| {

                      if byte == b'/' {

                          Some(i)

                      } else {

                          None

                      }

                  });

              let mut opt_next_component_start = Some(0);

              std::iter::from_fn(move || {

                  opt_next_component_start.take().map(|next_component_start| {

                      if let Some(slash_pos) = slash_positions.next() {

                          opt_next_component_start = Some(slash_pos + 1);

                          Self {

                              full_path: HgPath::new(&path.as_bytes()[..slash_pos]),

                              base_name_start: next_component_start,

                          }

                      } else {

                          // Not setting `opt_next_component_start` here: there will

                          // be no iteration after this one because `.take()` set it

                          // to `None`.

                          Self {

                              full_path: path,

                              base_name_start: next_component_start,

                          }

                      }

                  })

              })

          }

      }

      #[test]

      fn test() {

          let a = WithBasename::new(HgPath::new("a").to_owned());

          assert_eq!(&**a.full_path(), HgPath::new(b"a"));

          assert_eq!(a.base_name(), HgPath::new(b"a"));

          let cba = WithBasename::new(HgPath::new("c/b/a").to_owned());

          assert_eq!(&**cba.full_path(), HgPath::new(b"c/b/a"));

          assert_eq!(cba.base_name(), HgPath::new(b"a"));

          assert_eq!(a, cba);

          let borrowed: &HgPath = cba.borrow();

          assert_eq!(borrowed, HgPath::new("a"));

      }

      #[test]

      fn test_inclusive_ancestors() {

          let mut iter = WithBasename::inclusive_ancestors_of(HgPath::new("a/bb/c"));

          let next = iter.next().unwrap();

          assert_eq!(*next.full_path(), HgPath::new("a"));

          assert_eq!(next.base_name(), HgPath::new("a"));

          let next = iter.next().unwrap();

          assert_eq!(*next.full_path(), HgPath::new("a/bb"));

          assert_eq!(next.base_name(), HgPath::new("bb"));

          let next = iter.next().unwrap();

          assert_eq!(*next.full_path(), HgPath::new("a/bb/c"));

          assert_eq!(next.base_name(), HgPath::new("c"));

          assert!(iter.next().is_none());

      }

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Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	use crate::utils::hg_path::HgPath;
Simon Sapin dirstate-tree: Borrow paths from the "on disk" bytes...	r47896	use std::borrow::{Borrow, Cow};
Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866
		/// Wraps `HgPath` or `HgPathBuf` to make it behave "as" its last path
		/// component, a.k.a. its base name (as in Python’s `os.path.basename`), but
		/// also allow recovering the full path.
		///
		/// "Behaving as" means that equality and comparison consider only the base
		/// name, and `std::borrow::Borrow` is implemented to return only the base
		/// name. This allows using the base name as a map key while still being able
		/// to recover the full path, in a single memory allocation.
		#[derive(Debug)]
		pub struct WithBasename<T> {
		full_path: T,

		/// The position after the last slash separator in `full_path`, or `0`
		/// if there is no slash.
		base_name_start: usize,
		}

		impl<T> WithBasename<T> {
		pub fn full_path(&self) -> &T {
		&self.full_path
		}
		}

Simon Sapin dirstate-v2: Change the on-disk format to be tree-shaped...	r48058	fn find_base_name_start(full_path: &HgPath) -> usize {
		if let Some(last_slash_position) =
		full_path.as_bytes().iter().rposition(\|&byte\| byte == b'/')
		{
		last_slash_position + 1
		} else {
		0
		}
		}

Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	impl<T: AsRef<HgPath>> WithBasename<T> {
		pub fn new(full_path: T) -> Self {
Simon Sapin dirstate-v2: Change the on-disk format to be tree-shaped...	r48058	Self {
		base_name_start: find_base_name_start(full_path.as_ref()),
		full_path,
		}
		}

		pub fn from_raw_parts(full_path: T, base_name_start: usize) -> Self {
		debug_assert_eq!(
		base_name_start,
		find_base_name_start(full_path.as_ref())
		);
Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	Self {
		base_name_start,
		full_path,
		}
		}

		pub fn base_name(&self) -> &HgPath {
		HgPath::new(
		&self.full_path.as_ref().as_bytes()[self.base_name_start..],
		)
		}
Simon Sapin dirstate-v2: Change the on-disk format to be tree-shaped...	r48058
		pub fn base_name_start(&self) -> usize {
		self.base_name_start
		}
Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	}

		impl<T: AsRef<HgPath>> Borrow<HgPath> for WithBasename<T> {
		fn borrow(&self) -> &HgPath {
		self.base_name()
		}
		}

Simon Sapin dirstate-tree: Use HashMap instead of BTreeMap...	r47889	impl<T: AsRef<HgPath>> std::hash::Hash for WithBasename<T> {
		fn hash<H: std::hash::Hasher>(&self, hasher: &mut H) {
		self.base_name().hash(hasher)
		}
		}

Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	impl<T: AsRef<HgPath> + PartialEq> PartialEq for WithBasename<T> {
		fn eq(&self, other: &Self) -> bool {
		self.base_name() == other.base_name()
		}
		}

		impl<T: AsRef<HgPath> + Eq> Eq for WithBasename<T> {}

		impl<T: AsRef<HgPath> + PartialOrd> PartialOrd for WithBasename<T> {
		fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
		self.base_name().partial_cmp(other.base_name())
		}
		}

		impl<T: AsRef<HgPath> + Ord> Ord for WithBasename<T> {
		fn cmp(&self, other: &Self) -> std::cmp::Ordering {
		self.base_name().cmp(other.base_name())
		}
		}

Simon Sapin dirstate-tree: Borrow paths from the "on disk" bytes...	r47896	impl<'a> WithBasename<&'a HgPath> {
		pub fn to_cow_borrowed(self) -> WithBasename<Cow<'a, HgPath>> {
Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	WithBasename {
Simon Sapin dirstate-tree: Borrow paths from the "on disk" bytes...	r47896	full_path: Cow::Borrowed(self.full_path),
		base_name_start: self.base_name_start,
		}
		}

		pub fn to_cow_owned<'b>(self) -> WithBasename<Cow<'b, HgPath>> {
		WithBasename {
		full_path: Cow::Owned(self.full_path.to_owned()),
Simon Sapin dirstate-tree: Add `WithBasename` wrapper for `HgPath`...	r47866	base_name_start: self.base_name_start,
		}
		}
		}

		impl<'a> WithBasename<&'a HgPath> {
		/// Returns an iterator of `WithBasename<&HgPath>` for the ancestor
		/// directory paths of the given `path`, as well as `path` itself.
		///
		/// For example, the full paths of inclusive ancestors of "a/b/c" are "a",
		/// "a/b", and "a/b/c" in that order.
		pub fn inclusive_ancestors_of(
		path: &'a HgPath,
		) -> impl Iterator<Item = WithBasename<&'a HgPath>> {
		let mut slash_positions =
		path.as_bytes().iter().enumerate().filter_map(\|(i, &byte)\| {
		if byte == b'/' {
		Some(i)
		} else {
		None
		}
		});
		let mut opt_next_component_start = Some(0);
		std::iter::from_fn(move \|\| {
		opt_next_component_start.take().map(\|next_component_start\| {
		if let Some(slash_pos) = slash_positions.next() {
		opt_next_component_start = Some(slash_pos + 1);
		Self {
		full_path: HgPath::new(&path.as_bytes()[..slash_pos]),
		base_name_start: next_component_start,
		}
		} else {
		// Not setting `opt_next_component_start` here: there will
		// be no iteration after this one because `.take()` set it
		// to `None`.
		Self {
		full_path: path,
		base_name_start: next_component_start,
		}
		}
		})
		})
		}
		}

		#[test]
		fn test() {
		let a = WithBasename::new(HgPath::new("a").to_owned());
		assert_eq!(&**a.full_path(), HgPath::new(b"a"));
		assert_eq!(a.base_name(), HgPath::new(b"a"));

		let cba = WithBasename::new(HgPath::new("c/b/a").to_owned());
		assert_eq!(&**cba.full_path(), HgPath::new(b"c/b/a"));
		assert_eq!(cba.base_name(), HgPath::new(b"a"));

		assert_eq!(a, cba);
		let borrowed: &HgPath = cba.borrow();
		assert_eq!(borrowed, HgPath::new("a"));
		}

		#[test]
		fn test_inclusive_ancestors() {
		let mut iter = WithBasename::inclusive_ancestors_of(HgPath::new("a/bb/c"));

		let next = iter.next().unwrap();
		assert_eq!(*next.full_path(), HgPath::new("a"));
		assert_eq!(next.base_name(), HgPath::new("a"));

		let next = iter.next().unwrap();
		assert_eq!(*next.full_path(), HgPath::new("a/bb"));
		assert_eq!(next.base_name(), HgPath::new("bb"));

		let next = iter.next().unwrap();
		assert_eq!(*next.full_path(), HgPath::new("a/bb/c"));
		assert_eq!(next.base_name(), HgPath::new("c"));

		assert!(iter.next().is_none());
		}