//! Abstract-ish representation of paths for VFS. use std::fmt; use paths::{AbsPath, AbsPathBuf, RelPath}; /// Path in [`Vfs`]. /// /// Long-term, we want to support files which do not reside in the file-system, /// so we treat `VfsPath`s as opaque identifiers. /// /// [`Vfs`]: crate::Vfs #[derive(Clone, Ord, PartialOrd, Eq, PartialEq, Hash)] pub struct VfsPath(VfsPathRepr); impl VfsPath { /// Creates an "in-memory" path from `/`-separated string. /// /// This is most useful for testing, to avoid windows/linux differences /// /// # Panics /// /// Panics if `path` does not start with `'/'`. pub fn new_virtual_path(path: String) -> VfsPath { assert!(path.starts_with('/')); VfsPath(VfsPathRepr::VirtualPath(VirtualPath(path))) } /// Create a path from string. Input should be a string representation of /// an absolute path inside filesystem pub fn new_real_path(path: String) -> VfsPath { VfsPath::from(AbsPathBuf::assert(path.into())) } /// Returns the `AbsPath` representation of `self` if `self` is on the file system. pub fn as_path(&self) -> Option<&AbsPath> { match &self.0 { VfsPathRepr::PathBuf(it) => Some(it.as_path()), VfsPathRepr::VirtualPath(_) => None, } } /// Creates a new `VfsPath` with `path` adjoined to `self`. pub fn join(&self, path: &str) -> Option { match &self.0 { VfsPathRepr::PathBuf(it) => { let res = it.join(path).normalize(); Some(VfsPath(VfsPathRepr::PathBuf(res))) } VfsPathRepr::VirtualPath(it) => { let res = it.join(path)?; Some(VfsPath(VfsPathRepr::VirtualPath(res))) } } } /// Remove the last component of `self` if there is one. /// /// If `self` has no component, returns `false`; else returns `true`. /// /// # Example /// /// ``` /// # use vfs::{AbsPathBuf, VfsPath}; /// let mut path = VfsPath::from(AbsPathBuf::assert("/foo/bar".into())); /// assert!(path.pop()); /// assert_eq!(path, VfsPath::from(AbsPathBuf::assert("/foo".into()))); /// assert!(path.pop()); /// assert_eq!(path, VfsPath::from(AbsPathBuf::assert("/".into()))); /// assert!(!path.pop()); /// ``` pub fn pop(&mut self) -> bool { match &mut self.0 { VfsPathRepr::PathBuf(it) => it.pop(), VfsPathRepr::VirtualPath(it) => it.pop(), } } /// Returns `true` if `other` is a prefix of `self`. pub fn starts_with(&self, other: &VfsPath) -> bool { match (&self.0, &other.0) { (VfsPathRepr::PathBuf(lhs), VfsPathRepr::PathBuf(rhs)) => lhs.starts_with(rhs), (VfsPathRepr::VirtualPath(lhs), VfsPathRepr::VirtualPath(rhs)) => lhs.starts_with(rhs), (VfsPathRepr::PathBuf(_) | VfsPathRepr::VirtualPath(_), _) => false, } } pub fn strip_prefix(&self, other: &VfsPath) -> Option<&RelPath> { match (&self.0, &other.0) { (VfsPathRepr::PathBuf(lhs), VfsPathRepr::PathBuf(rhs)) => lhs.strip_prefix(rhs), (VfsPathRepr::VirtualPath(lhs), VfsPathRepr::VirtualPath(rhs)) => lhs.strip_prefix(rhs), (VfsPathRepr::PathBuf(_) | VfsPathRepr::VirtualPath(_), _) => None, } } /// Returns the `VfsPath` without its final component, if there is one. /// /// Returns [`None`] if the path is a root or prefix. pub fn parent(&self) -> Option { let mut parent = self.clone(); if parent.pop() { Some(parent) } else { None } } /// Returns `self`'s base name and file extension. pub fn name_and_extension(&self) -> Option<(&str, Option<&str>)> { match &self.0 { VfsPathRepr::PathBuf(p) => p.name_and_extension(), VfsPathRepr::VirtualPath(p) => p.name_and_extension(), } } /// **Don't make this `pub`** /// /// Encode the path in the given buffer. /// /// The encoding will be `0` if [`AbsPathBuf`], `1` if [`VirtualPath`], followed /// by `self`'s representation. /// /// Note that this encoding is dependent on the operating system. pub(crate) fn encode(&self, buf: &mut Vec) { let tag = match &self.0 { VfsPathRepr::PathBuf(_) => 0, VfsPathRepr::VirtualPath(_) => 1, }; buf.push(tag); match &self.0 { VfsPathRepr::PathBuf(path) => { #[cfg(windows)] { use windows_paths::Encode; let path: &std::path::Path = path.as_ref(); let components = path.components(); let mut add_sep = false; for component in components { if add_sep { windows_paths::SEP.encode(buf); } let len_before = buf.len(); match component { std::path::Component::Prefix(prefix) => { // kind() returns a normalized and comparable path prefix. prefix.kind().encode(buf); } std::path::Component::RootDir => { if !add_sep { component.as_os_str().encode(buf); } } _ => component.as_os_str().encode(buf), } // some components may be encoded empty add_sep = len_before != buf.len(); } } #[cfg(unix)] { use std::os::unix::ffi::OsStrExt; buf.extend(path.as_os_str().as_bytes()); } #[cfg(not(any(windows, unix)))] { buf.extend(path.as_os_str().to_string_lossy().as_bytes()); } } VfsPathRepr::VirtualPath(VirtualPath(s)) => buf.extend(s.as_bytes()), } } } #[cfg(windows)] mod windows_paths { pub(crate) trait Encode { fn encode(&self, buf: &mut Vec); } impl Encode for std::ffi::OsStr { fn encode(&self, buf: &mut Vec) { use std::os::windows::ffi::OsStrExt; for wchar in self.encode_wide() { buf.extend(wchar.to_le_bytes().iter().copied()); } } } impl Encode for u8 { fn encode(&self, buf: &mut Vec) { let wide = *self as u16; buf.extend(wide.to_le_bytes().iter().copied()) } } impl Encode for &str { fn encode(&self, buf: &mut Vec) { debug_assert!(self.is_ascii()); for b in self.as_bytes() { b.encode(buf) } } } pub(crate) const SEP: &str = "\\"; const VERBATIM: &str = "\\\\?\\"; const UNC: &str = "UNC"; const DEVICE: &str = "\\\\.\\"; const COLON: &str = ":"; impl Encode for std::path::Prefix<'_> { fn encode(&self, buf: &mut Vec) { match self { std::path::Prefix::Verbatim(c) => { VERBATIM.encode(buf); c.encode(buf); } std::path::Prefix::VerbatimUNC(server, share) => { VERBATIM.encode(buf); UNC.encode(buf); SEP.encode(buf); server.encode(buf); SEP.encode(buf); share.encode(buf); } std::path::Prefix::VerbatimDisk(d) => { VERBATIM.encode(buf); d.encode(buf); COLON.encode(buf); } std::path::Prefix::DeviceNS(device) => { DEVICE.encode(buf); device.encode(buf); } std::path::Prefix::UNC(server, share) => { SEP.encode(buf); SEP.encode(buf); server.encode(buf); SEP.encode(buf); share.encode(buf); } std::path::Prefix::Disk(d) => { d.encode(buf); COLON.encode(buf); } } } } #[test] fn paths_encoding() { // drive letter casing agnostic test_eq("C:/x.rs", "c:/x.rs"); // separator agnostic test_eq("C:/x/y.rs", "C:\\x\\y.rs"); fn test_eq(a: &str, b: &str) { let mut b1 = Vec::new(); let mut b2 = Vec::new(); vfs(a).encode(&mut b1); vfs(b).encode(&mut b2); assert_eq!(b1, b2); } } #[test] fn test_sep_root_dir_encoding() { let mut buf = Vec::new(); vfs("C:/x/y").encode(&mut buf); assert_eq!(&buf, &[0, 67, 0, 58, 0, 92, 0, 120, 0, 92, 0, 121, 0]) } #[cfg(test)] fn vfs(str: &str) -> super::VfsPath { use super::{AbsPathBuf, VfsPath}; VfsPath::from(AbsPathBuf::try_from(str).unwrap()) } } /// Internal, private representation of [`VfsPath`]. #[derive(Clone, Ord, PartialOrd, Eq, PartialEq, Hash)] enum VfsPathRepr { PathBuf(AbsPathBuf), VirtualPath(VirtualPath), } impl From for VfsPath { fn from(v: AbsPathBuf) -> Self { VfsPath(VfsPathRepr::PathBuf(v.normalize())) } } impl fmt::Display for VfsPath { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match &self.0 { VfsPathRepr::PathBuf(it) => it.fmt(f), VfsPathRepr::VirtualPath(VirtualPath(it)) => it.fmt(f), } } } impl fmt::Debug for VfsPath { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fmt::Debug::fmt(&self.0, f) } } impl fmt::Debug for VfsPathRepr { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match &self { VfsPathRepr::PathBuf(it) => it.fmt(f), VfsPathRepr::VirtualPath(VirtualPath(it)) => it.fmt(f), } } } /// `/`-separated virtual path. /// /// This is used to describe files that do not reside on the file system. #[derive(Debug, Clone, Ord, PartialOrd, Eq, PartialEq, Hash)] struct VirtualPath(String); impl VirtualPath { /// Returns `true` if `other` is a prefix of `self` (as strings). fn starts_with(&self, other: &VirtualPath) -> bool { self.0.starts_with(&other.0) } fn strip_prefix(&self, base: &VirtualPath) -> Option<&RelPath> { <_ as AsRef>::as_ref(&self.0) .strip_prefix(&base.0) .ok() .map(RelPath::new_unchecked) } /// Remove the last component of `self`. /// /// This will find the last `'/'` in `self`, and remove everything after it, /// including the `'/'`. /// /// If `self` contains no `'/'`, returns `false`; else returns `true`. /// /// # Example /// /// ```rust,ignore /// let mut path = VirtualPath("/foo/bar".to_string()); /// path.pop(); /// assert_eq!(path.0, "/foo"); /// path.pop(); /// assert_eq!(path.0, ""); /// ``` fn pop(&mut self) -> bool { let pos = match self.0.rfind('/') { Some(pos) => pos, None => return false, }; self.0 = self.0[..pos].to_string(); true } /// Append the given *relative* path `path` to `self`. /// /// This will resolve any leading `"../"` in `path` before appending it. /// /// Returns [`None`] if `path` has more leading `"../"` than the number of /// components in `self`. /// /// # Notes /// /// In practice, appending here means `self/path` as strings. fn join(&self, mut path: &str) -> Option { let mut res = self.clone(); while path.starts_with("../") { if !res.pop() { return None; } path = &path["../".len()..]; } path = path.trim_start_matches("./"); res.0 = format!("{}/{path}", res.0); Some(res) } /// Returns `self`'s base name and file extension. /// /// # Returns /// - `None` if `self` ends with `"//"`. /// - `Some((name, None))` if `self`'s base contains no `.`, or only one `.` at /// the start. /// - `Some((name, Some(extension))` else. /// /// # Note /// The extension will not contains `.`. This means `"/foo/bar.baz.rs"` will /// return `Some(("bar.baz", Some("rs"))`. fn name_and_extension(&self) -> Option<(&str, Option<&str>)> { let file_path = if self.0.ends_with('/') { &self.0[..&self.0.len() - 1] } else { &self.0 }; let file_name = match file_path.rfind('/') { Some(position) => &file_path[position + 1..], None => file_path, }; if file_name.is_empty() { None } else { let mut file_stem_and_extension = file_name.rsplitn(2, '.'); let extension = file_stem_and_extension.next(); let file_stem = file_stem_and_extension.next(); match (file_stem, extension) { (None, None) => None, (None | Some(""), Some(_)) => Some((file_name, None)), (Some(file_stem), extension) => Some((file_stem, extension)), } } } } #[cfg(test)] mod tests;