vendor/gix-fs-0.16.1/src/stack.rs - toolchain/rustc - Git at Google

 use std::{
     ffi::OsStr,
     path::{Component, Path, PathBuf},
 };

 use bstr::{BStr, BString, ByteSlice};

 use crate::Stack;

 ///
 pub mod to_normal_path_components {
     use std::path::PathBuf;

     /// The error used in [`ToNormalPathComponents::to_normal_path_components()`](super::ToNormalPathComponents::to_normal_path_components()).
     #[derive(Debug, thiserror::Error)]
     #[allow(missing_docs)]
     pub enum Error {
         #[error("Input path \"{path}\" contains relative or absolute components", path = .0.display())]
         NotANormalComponent(PathBuf),
         #[error("Could not convert to UTF8 or from UTF8 due to ill-formed input")]
         IllegalUtf8,
     }
 }

 /// Obtain an iterator over `OsStr`-components which are normal, none-relative and not absolute.
 pub trait ToNormalPathComponents {
     /// Return an iterator over the normal components of a path, without the separator.
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>>;
 }

 impl ToNormalPathComponents for &Path {
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
         self.components().map(|c| component_to_os_str(c, self))
     }
 }

 impl ToNormalPathComponents for PathBuf {
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
         self.components().map(|c| component_to_os_str(c, self))
     }
 }

 fn component_to_os_str<'a>(
     component: Component<'a>,
     path_with_component: &Path,
 ) -> Result<&'a OsStr, to_normal_path_components::Error> {
     match component {
         Component::Normal(os_str) => Ok(os_str),
         _ => Err(to_normal_path_components::Error::NotANormalComponent(
             path_with_component.to_owned(),
         )),
     }
 }

 impl ToNormalPathComponents for &BStr {
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
         self.split(|b| *b == b'/')
             .filter_map(|c| bytes_component_to_os_str(c, self))
     }
 }

 impl ToNormalPathComponents for &str {
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
         self.split('/')
             .filter_map(|c| bytes_component_to_os_str(c.as_bytes(), (*self).into()))
     }
 }

 impl ToNormalPathComponents for &BString {
     fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
         self.split(|b| *b == b'/')
             .filter_map(|c| bytes_component_to_os_str(c, self.as_bstr()))
     }
 }

 fn bytes_component_to_os_str<'a>(
     component: &'a [u8],
     path: &BStr,
 ) -> Option<Result<&'a OsStr, to_normal_path_components::Error>> {
     if component.is_empty() {
         return None;
     }
     let component = match gix_path::try_from_byte_slice(component.as_bstr())
         .map_err(|_| to_normal_path_components::Error::IllegalUtf8)
     {
         Ok(c) => c,
         Err(err) => return Some(Err(err)),
     };
     let component = component.components().next()?;
     Some(component_to_os_str(
         component,
         gix_path::try_from_byte_slice(path.as_ref()).ok()?,
     ))
 }

 /// Access
 impl Stack {
     /// Returns the top-level path of the stack.
     pub fn root(&self) -> &Path {
         &self.root
     }

     /// Returns the absolute path the currently set path.
     pub fn current(&self) -> &Path {
         &self.current
     }

     /// Returns the currently set path relative to the [`root()`][Stack::root()].
     pub fn current_relative(&self) -> &Path {
         &self.current_relative
     }
 }

 /// A delegate for use in a [`Stack`].
 pub trait Delegate {
     /// Called whenever we push a directory on top of the stack, and after the respective call to [`push()`](Self::push).
     ///
     /// It is only called if the currently acted on path is a directory in itself, which is determined by knowing
     /// that it's not the last component of the path.
     /// Use [`Stack::current()`] to see the directory.
     fn push_directory(&mut self, stack: &Stack) -> std::io::Result<()>;

     /// Called after any component was pushed, with the path available at [`Stack::current()`].
     ///
     /// `is_last_component` is `true` if the path is completely built, which typically means it's not a directory.
     fn push(&mut self, is_last_component: bool, stack: &Stack) -> std::io::Result<()>;

     /// Called right after a directory-component was popped off the stack.
     ///
     /// Use it to pop information off internal data structures. Note that no equivalent call exists for popping
     /// the file-component.
     fn pop_directory(&mut self);
 }

 impl Stack {
     /// Create a new instance with `root` being the base for all future paths we handle, assuming it to be valid which includes
     /// symbolic links to be included in it as well.
     pub fn new(root: PathBuf) -> Self {
         Stack {
             current: root.clone(),
             current_relative: PathBuf::with_capacity(128),
             valid_components: 0,
             root,
             current_is_directory: true,
         }
     }

     /// Set the current stack to point to the `relative` path and call `push_comp()` each time a new path component is popped
     /// along with the stacks state for inspection to perform an operation that produces some data.
     ///
     /// The full path to `relative` will be returned along with the data returned by `push_comp`.
     /// Note that this only works correctly for the delegate's `push_directory()` and `pop_directory()` methods if
     /// `relative` paths are terminal, so point to their designated file or directory.
     /// The path is also expected to be normalized, and should not contain extra separators, and must not contain `..`
     /// or have leading or trailing slashes (or additionally backslashes on Windows).
     pub fn make_relative_path_current(
         &mut self,
         relative: impl ToNormalPathComponents,
         delegate: &mut dyn Delegate,
     ) -> std::io::Result<()> {
         let mut components = relative.to_normal_path_components().peekable();
         if self.valid_components != 0 && components.peek().is_none() {
             return Err(std::io::Error::other("empty inputs are not allowed"));
         }
         if self.valid_components == 0 {
             delegate.push_directory(self)?;
         }

         let mut existing_components = self.current_relative.components();
         let mut matching_components = 0;
         while let (Some(existing_comp), Some(new_comp)) = (existing_components.next(), components.peek()) {
             match new_comp {
                 Ok(new_comp) => {
                     if existing_comp.as_os_str() == *new_comp {
                         components.next();
                         matching_components += 1;
                     } else {
                         break;
                     }
                 }
                 Err(err) => return Err(std::io::Error::other(format!("{err}"))),
             }
         }

         for _ in 0..self.valid_components - matching_components {
             self.current.pop();
             self.current_relative.pop();
             if self.current_is_directory {
                 delegate.pop_directory();
             }
             self.current_is_directory = true;
         }
         self.valid_components = matching_components;

         if !self.current_is_directory && components.peek().is_some() {
             delegate.push_directory(self)?;
         }

         while let Some(comp) = components.next() {
             let comp = comp.map_err(std::io::Error::other)?;
             let is_last_component = components.peek().is_none();
             self.current_is_directory = !is_last_component;
             self.current.push(comp);
             self.current_relative.push(comp);
             self.valid_components += 1;
             let res = delegate.push(is_last_component, self);
             if self.current_is_directory {
                 delegate.push_directory(self)?;
             }

             if let Err(err) = res {
                 self.current.pop();
                 self.current_relative.pop();
                 self.valid_components -= 1;
                 return Err(err);
             }
         }
         Ok(())
     }
 }
	use std::{
	ffi::OsStr,
	path::{Component, Path, PathBuf},
	};

	use bstr::{BStr, BString, ByteSlice};

	use crate::Stack;

	///
	pub mod to_normal_path_components {
	use std::path::PathBuf;

	/// The error used in [`ToNormalPathComponents::to_normal_path_components()`](super::ToNormalPathComponents::to_normal_path_components()).
	#[derive(Debug, thiserror::Error)]
	#[allow(missing_docs)]
	pub enum Error {
	#[error("Input path \"{path}\" contains relative or absolute components", path = .0.display())]
	NotANormalComponent(PathBuf),
	#[error("Could not convert to UTF8 or from UTF8 due to ill-formed input")]
	IllegalUtf8,
	}
	}

	/// Obtain an iterator over `OsStr`-components which are normal, none-relative and not absolute.
	pub trait ToNormalPathComponents {
	/// Return an iterator over the normal components of a path, without the separator.
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>>;
	}

	impl ToNormalPathComponents for &Path {
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
	self.components().map(\|c\| component_to_os_str(c, self))
	}
	}

	impl ToNormalPathComponents for PathBuf {
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
	self.components().map(\|c\| component_to_os_str(c, self))
	}
	}

	fn component_to_os_str<'a>(
	component: Component<'a>,
	path_with_component: &Path,
	) -> Result<&'a OsStr, to_normal_path_components::Error> {
	match component {
	Component::Normal(os_str) => Ok(os_str),
	_ => Err(to_normal_path_components::Error::NotANormalComponent(
	path_with_component.to_owned(),
	)),
	}
	}

	impl ToNormalPathComponents for &BStr {
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
	self.split(\|b\| *b == b'/')
	.filter_map(\|c\| bytes_component_to_os_str(c, self))
	}
	}

	impl ToNormalPathComponents for &str {
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
	self.split('/')
	.filter_map(\|c\| bytes_component_to_os_str(c.as_bytes(), (*self).into()))
	}
	}

	impl ToNormalPathComponents for &BString {
	fn to_normal_path_components(&self) -> impl Iterator<Item = Result<&OsStr, to_normal_path_components::Error>> {
	self.split(\|b\| *b == b'/')
	.filter_map(\|c\| bytes_component_to_os_str(c, self.as_bstr()))
	}
	}

	fn bytes_component_to_os_str<'a>(
	component: &'a [u8],
	path: &BStr,
	) -> Option<Result<&'a OsStr, to_normal_path_components::Error>> {
	if component.is_empty() {
	return None;
	}
	let component = match gix_path::try_from_byte_slice(component.as_bstr())
	.map_err(\|_\| to_normal_path_components::Error::IllegalUtf8)
	{
	Ok(c) => c,
	Err(err) => return Some(Err(err)),
	};
	let component = component.components().next()?;
	Some(component_to_os_str(
	component,
	gix_path::try_from_byte_slice(path.as_ref()).ok()?,
	))
	}

	/// Access
	impl Stack {
	/// Returns the top-level path of the stack.
	pub fn root(&self) -> &Path {
	&self.root
	}

	/// Returns the absolute path the currently set path.
	pub fn current(&self) -> &Path {
	&self.current
	}

	/// Returns the currently set path relative to the [`root()`][Stack::root()].
	pub fn current_relative(&self) -> &Path {
	&self.current_relative
	}
	}

	/// A delegate for use in a [`Stack`].
	pub trait Delegate {
	/// Called whenever we push a directory on top of the stack, and after the respective call to [`push()`](Self::push).
	///
	/// It is only called if the currently acted on path is a directory in itself, which is determined by knowing
	/// that it's not the last component of the path.
	/// Use [`Stack::current()`] to see the directory.
	fn push_directory(&mut self, stack: &Stack) -> std::io::Result<()>;

	/// Called after any component was pushed, with the path available at [`Stack::current()`].
	///
	/// `is_last_component` is `true` if the path is completely built, which typically means it's not a directory.
	fn push(&mut self, is_last_component: bool, stack: &Stack) -> std::io::Result<()>;

	/// Called right after a directory-component was popped off the stack.
	///
	/// Use it to pop information off internal data structures. Note that no equivalent call exists for popping
	/// the file-component.
	fn pop_directory(&mut self);
	}

	impl Stack {
	/// Create a new instance with `root` being the base for all future paths we handle, assuming it to be valid which includes
	/// symbolic links to be included in it as well.
	pub fn new(root: PathBuf) -> Self {
	Stack {
	current: root.clone(),
	current_relative: PathBuf::with_capacity(128),
	valid_components: 0,
	root,
	current_is_directory: true,
	}
	}

	/// Set the current stack to point to the `relative` path and call `push_comp()` each time a new path component is popped
	/// along with the stacks state for inspection to perform an operation that produces some data.
	///
	/// The full path to `relative` will be returned along with the data returned by `push_comp`.
	/// Note that this only works correctly for the delegate's `push_directory()` and `pop_directory()` methods if
	/// `relative` paths are terminal, so point to their designated file or directory.
	/// The path is also expected to be normalized, and should not contain extra separators, and must not contain `..`
	/// or have leading or trailing slashes (or additionally backslashes on Windows).
	pub fn make_relative_path_current(
	&mut self,
	relative: impl ToNormalPathComponents,
	delegate: &mut dyn Delegate,
	) -> std::io::Result<()> {
	let mut components = relative.to_normal_path_components().peekable();
	if self.valid_components != 0 && components.peek().is_none() {
	return Err(std::io::Error::other("empty inputs are not allowed"));
	}
	if self.valid_components == 0 {
	delegate.push_directory(self)?;
	}

	let mut existing_components = self.current_relative.components();
	let mut matching_components = 0;
	while let (Some(existing_comp), Some(new_comp)) = (existing_components.next(), components.peek()) {
	match new_comp {
	Ok(new_comp) => {
	if existing_comp.as_os_str() == *new_comp {
	components.next();
	matching_components += 1;
	} else {
	break;
	}
	}
	Err(err) => return Err(std::io::Error::other(format!("{err}"))),
	}
	}

	for _ in 0..self.valid_components - matching_components {
	self.current.pop();
	self.current_relative.pop();
	if self.current_is_directory {
	delegate.pop_directory();
	}
	self.current_is_directory = true;
	}
	self.valid_components = matching_components;

	if !self.current_is_directory && components.peek().is_some() {
	delegate.push_directory(self)?;
	}

	while let Some(comp) = components.next() {
	let comp = comp.map_err(std::io::Error::other)?;
	let is_last_component = components.peek().is_none();
	self.current_is_directory = !is_last_component;
	self.current.push(comp);
	self.current_relative.push(comp);
	self.valid_components += 1;
	let res = delegate.push(is_last_component, self);
	if self.current_is_directory {
	delegate.push_directory(self)?;
	}

	if let Err(err) = res {
	self.current.pop();
	self.current_relative.pop();
	self.valid_components -= 1;
	return Err(err);
	}
	}
	Ok(())
	}
	}