//! Thin wrappers around `std::path`, distinguishing between absolute and //! relative paths. use std::{ borrow::Borrow, convert::{TryFrom, TryInto}, ops, path::{Component, Path, PathBuf}, }; /// Wrapper around an absolute [`PathBuf`]. #[derive(Debug, Clone, Ord, PartialOrd, Eq, PartialEq, Hash)] pub struct AbsPathBuf(PathBuf); impl From for PathBuf { fn from(AbsPathBuf(path_buf): AbsPathBuf) -> PathBuf { path_buf } } impl ops::Deref for AbsPathBuf { type Target = AbsPath; fn deref(&self) -> &AbsPath { self.as_path() } } impl AsRef for AbsPathBuf { fn as_ref(&self) -> &Path { self.0.as_path() } } impl AsRef for AbsPathBuf { fn as_ref(&self) -> &AbsPath { self.as_path() } } impl Borrow for AbsPathBuf { fn borrow(&self) -> &AbsPath { self.as_path() } } impl TryFrom for AbsPathBuf { type Error = PathBuf; fn try_from(path_buf: PathBuf) -> Result { if !path_buf.is_absolute() { return Err(path_buf); } Ok(AbsPathBuf(path_buf)) } } impl TryFrom<&str> for AbsPathBuf { type Error = PathBuf; fn try_from(path: &str) -> Result { AbsPathBuf::try_from(PathBuf::from(path)) } } impl PartialEq for AbsPathBuf { fn eq(&self, other: &AbsPath) -> bool { self.as_path() == other } } impl AbsPathBuf { /// Wrap the given absolute path in `AbsPathBuf` /// /// # Panics /// /// Panics if `path` is not absolute. pub fn assert(path: PathBuf) -> AbsPathBuf { AbsPathBuf::try_from(path) .unwrap_or_else(|path| panic!("expected absolute path, got {}", path.display())) } /// Coerces to a `AbsPath` slice. /// /// Equivalent of [`PathBuf::as_path`] for `AbsPathBuf`. pub fn as_path(&self) -> &AbsPath { AbsPath::assert(self.0.as_path()) } /// Equivalent of [`PathBuf::pop`] for `AbsPathBuf`. /// /// Note that this won't remove the root component, so `self` will still be /// absolute. pub fn pop(&mut self) -> bool { self.0.pop() } } /// Wrapper around an absolute [`Path`]. #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] #[repr(transparent)] pub struct AbsPath(Path); impl ops::Deref for AbsPath { type Target = Path; fn deref(&self) -> &Path { &self.0 } } impl AsRef for AbsPath { fn as_ref(&self) -> &Path { &self.0 } } impl<'a> TryFrom<&'a Path> for &'a AbsPath { type Error = &'a Path; fn try_from(path: &'a Path) -> Result<&'a AbsPath, &'a Path> { if !path.is_absolute() { return Err(path); } Ok(AbsPath::assert(path)) } } impl AbsPath { /// Wrap the given absolute path in `AbsPath` /// /// # Panics /// /// Panics if `path` is not absolute. pub fn assert(path: &Path) -> &AbsPath { assert!(path.is_absolute()); unsafe { &*(path as *const Path as *const AbsPath) } } /// Equivalent of [`Path::parent`] for `AbsPath`. pub fn parent(&self) -> Option<&AbsPath> { self.0.parent().map(AbsPath::assert) } /// Equivalent of [`Path::join`] for `AbsPath`. pub fn join(&self, path: impl AsRef) -> AbsPathBuf { self.as_ref().join(path).try_into().unwrap() } /// Normalize the given path: /// - Removes repeated separators: `/a//b` becomes `/a/b` /// - Removes occurrences of `.` and resolves `..`. /// - Removes trailing slashes: `/a/b/` becomes `/a/b`. /// /// # Example /// ``` /// # use paths::AbsPathBuf; /// let abs_path_buf = AbsPathBuf::assert("/a/../../b/.//c//".into()); /// let normalized = abs_path_buf.normalize(); /// assert_eq!(normalized, AbsPathBuf::assert("/b/c".into())); /// ``` pub fn normalize(&self) -> AbsPathBuf { AbsPathBuf(normalize_path(&self.0)) } /// Equivalent of [`Path::to_path_buf`] for `AbsPath`. pub fn to_path_buf(&self) -> AbsPathBuf { AbsPathBuf::try_from(self.0.to_path_buf()).unwrap() } /// Equivalent of [`Path::strip_prefix`] for `AbsPath`. /// /// Returns a relative path. pub fn strip_prefix(&self, base: &AbsPath) -> Option<&RelPath> { self.0.strip_prefix(base).ok().map(RelPath::new_unchecked) } } /// Wrapper around a relative [`PathBuf`]. #[derive(Debug, Clone, Ord, PartialOrd, Eq, PartialEq, Hash)] pub struct RelPathBuf(PathBuf); impl From for PathBuf { fn from(RelPathBuf(path_buf): RelPathBuf) -> PathBuf { path_buf } } impl ops::Deref for RelPathBuf { type Target = RelPath; fn deref(&self) -> &RelPath { self.as_path() } } impl AsRef for RelPathBuf { fn as_ref(&self) -> &Path { self.0.as_path() } } impl TryFrom for RelPathBuf { type Error = PathBuf; fn try_from(path_buf: PathBuf) -> Result { if !path_buf.is_relative() { return Err(path_buf); } Ok(RelPathBuf(path_buf)) } } impl TryFrom<&str> for RelPathBuf { type Error = PathBuf; fn try_from(path: &str) -> Result { RelPathBuf::try_from(PathBuf::from(path)) } } impl RelPathBuf { /// Coerces to a `RelPath` slice. /// /// Equivalent of [`PathBuf::as_path`] for `RelPathBuf`. pub fn as_path(&self) -> &RelPath { RelPath::new_unchecked(self.0.as_path()) } } /// Wrapper around a relative [`Path`]. #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] #[repr(transparent)] pub struct RelPath(Path); impl ops::Deref for RelPath { type Target = Path; fn deref(&self) -> &Path { &self.0 } } impl AsRef for RelPath { fn as_ref(&self) -> &Path { &self.0 } } impl RelPath { /// Creates a new `RelPath` from `path`, without checking if it is relative. pub fn new_unchecked(path: &Path) -> &RelPath { unsafe { &*(path as *const Path as *const RelPath) } } } /// Taken from fn normalize_path(path: &Path) -> PathBuf { let mut components = path.components().peekable(); let mut ret = if let Some(c @ Component::Prefix(..)) = components.peek().cloned() { components.next(); PathBuf::from(c.as_os_str()) } else { PathBuf::new() }; for component in components { match component { Component::Prefix(..) => unreachable!(), Component::RootDir => { ret.push(component.as_os_str()); } Component::CurDir => {} Component::ParentDir => { ret.pop(); } Component::Normal(c) => { ret.push(c); } } } ret }