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use std::ffi::OsStr; use crate::path::{Ancestors, Components, Display, Iter, PathBuf, StripPrefixError}; use crate::{fs, io}; /// This struct is an async version of [`std::path::Path`]. /// /// [`std::path::Path`]: https://doc.rust-lang.org/std/path/struct.Path.html #[derive(Debug, PartialEq)] pub struct Path { inner: std::path::Path, } impl Path { /// Directly wraps a string slice as a `Path` slice. /// /// This is a cost-free conversion. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// Path::new("foo.txt"); /// ``` /// /// You can create `Path`s from `String`s, or even other `Path`s: /// /// ``` /// use async_std::path::Path; /// /// let string = String::from("foo.txt"); /// let from_string = Path::new(&string); /// let from_path = Path::new(&from_string); /// assert_eq!(from_string, from_path); /// ``` pub fn new<S: AsRef<OsStr> + ?Sized>(s: &S) -> &Path { unsafe { &*(std::path::Path::new(s) as *const std::path::Path as *const Path) } } /// Yields the underlying [`OsStr`] slice. /// /// [`OsStr`]: https://doc.rust-lang.org/std/ffi/struct.OsStr.html pub fn as_os_str(&self) -> &OsStr { self.inner.as_os_str() } /// Yields a [`&str`] slice if the `Path` is valid unicode. /// /// This conversion may entail doing a check for UTF-8 validity. /// Note that validation is performed because non-UTF-8 strings are /// perfectly valid for some OS. /// /// [`&str`]: https://doc.rust-lang.org/std/primitive.str.html /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("foo.txt"); /// assert_eq!(path.to_str(), Some("foo.txt")); /// ``` pub fn to_str(&self) -> Option<&str> { self.inner.to_str() } /// Converts a `Path` to a [`Cow<str>`]. /// /// Any non-Unicode sequences are replaced with /// [`U+FFFD REPLACEMENT CHARACTER`][U+FFFD]. /// /// [`Cow<str>`]: https://doc.rust-lang.org/std/borrow/enum.Cow.html /// [U+FFFD]: https://doc.rust-lang.org/std/char/constant.REPLACEMENT_CHARACTER.html /// /// # Examples /// /// Calling `to_string_lossy` on a `Path` with valid unicode: /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("foo.txt"); /// assert_eq!(path.to_string_lossy(), "foo.txt"); /// ``` /// /// Had `path` contained invalid unicode, the `to_string_lossy` call might /// have returned `"fo�.txt"`. pub fn to_string_lossy(&self) -> std::borrow::Cow<'_, str> { self.inner.to_string_lossy() } /// Converts a `Path` to an owned [`PathBuf`]. /// /// [`PathBuf`]: struct.PathBuf.html /// /// # Examples /// /// ``` /// use async_std::path::{Path, PathBuf}; /// /// let path_buf = Path::new("foo.txt").to_path_buf(); /// assert_eq!(path_buf, PathBuf::from("foo.txt")); /// ``` pub fn to_path_buf(&self) -> PathBuf { PathBuf::from(self.inner.to_path_buf()) } /// Returns `true` if the `Path` is absolute, i.e., if it is independent of /// the current directory. /// /// * On Unix, a path is absolute if it starts with the root, so /// `is_absolute` and [`has_root`] are equivalent. /// /// * On Windows, a path is absolute if it has a prefix and starts with the /// root: `c:\windows` is absolute, while `c:temp` and `\temp` are not. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// assert!(!Path::new("foo.txt").is_absolute()); /// ``` /// /// [`has_root`]: #method.has_root pub fn is_absolute(&self) -> bool { self.inner.is_absolute() } /// Returns `true` if the `Path` is relative, i.e., not absolute. /// /// See [`is_absolute`]'s documentation for more details. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// assert!(Path::new("foo.txt").is_relative()); /// ``` /// /// [`is_absolute`]: #method.is_absolute pub fn is_relative(&self) -> bool { self.inner.is_relative() } /// Returns `true` if the `Path` has a root. /// /// * On Unix, a path has a root if it begins with `/`. /// /// * On Windows, a path has a root if it: /// * has no prefix and begins with a separator, e.g., `\windows` /// * has a prefix followed by a separator, e.g., `c:\windows` but not `c:windows` /// * has any non-disk prefix, e.g., `\\server\share` /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// assert!(Path::new("/etc/passwd").has_root()); /// ``` pub fn has_root(&self) -> bool { self.inner.has_root() } /// Returns the `Path` without its final component, if there is one. /// /// Returns [`None`] if the path terminates in a root or prefix. /// /// [`None`]: https://doc.rust-lang.org/std/option/enum.Option.html#variant.None /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("/foo/bar"); /// let parent = path.parent().unwrap(); /// assert_eq!(parent, Path::new("/foo")); /// /// let grand_parent = parent.parent().unwrap(); /// assert_eq!(grand_parent, Path::new("/")); /// assert_eq!(grand_parent.parent(), None); /// ``` pub fn parent(&self) -> Option<&Path> { self.inner.parent().map(|p| p.into()) } /// Produces an iterator over `Path` and its ancestors. /// /// The iterator will yield the `Path` that is returned if the [`parent`] method is used zero /// or more times. That means, the iterator will yield `&self`, `&self.parent().unwrap()`, /// `&self.parent().unwrap().parent().unwrap()` and so on. If the [`parent`] method returns /// [`None`], the iterator will do likewise. The iterator will always yield at least one value, /// namely `&self`. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let mut ancestors = Path::new("/foo/bar").ancestors(); /// assert_eq!(ancestors.next(), Some(Path::new("/foo/bar").into())); /// assert_eq!(ancestors.next(), Some(Path::new("/foo").into())); /// assert_eq!(ancestors.next(), Some(Path::new("/").into())); /// assert_eq!(ancestors.next(), None); /// ``` /// /// [`None`]: https://doc.rust-lang.org/std/option/enum.Option.html /// [`parent`]: struct.Path.html#method.parent pub fn ancestors(&self) -> Ancestors<'_> { Ancestors { next: Some(&self) } } /// Returns the final component of the `Path`, if there is one. /// /// If the path is a normal file, this is the file name. If it's the path of a directory, this /// is the directory name. /// /// Returns [`None`] if the path terminates in `..`. /// /// [`None`]: https://doc.rust-lang.org/std/option/enum.Option.html#variant.None /// /// # Examples /// /// ``` /// use async_std::path::Path; /// use std::ffi::OsStr; /// /// assert_eq!(Some(OsStr::new("bin")), Path::new("/usr/bin/").file_name()); /// assert_eq!(Some(OsStr::new("foo.txt")), Path::new("tmp/foo.txt").file_name()); /// assert_eq!(Some(OsStr::new("foo.txt")), Path::new("foo.txt/.").file_name()); /// assert_eq!(Some(OsStr::new("foo.txt")), Path::new("foo.txt/.//").file_name()); /// assert_eq!(None, Path::new("foo.txt/..").file_name()); /// assert_eq!(None, Path::new("/").file_name()); /// ``` pub fn file_name(&self) -> Option<&OsStr> { self.inner.file_name() } /// Returns a path that, when joined onto `base`, yields `self`. /// /// # Errors /// /// If `base` is not a prefix of `self` (i.e., [`starts_with`] /// returns `false`), returns [`Err`]. /// /// [`starts_with`]: #method.starts_with /// [`Err`]: https://doc.rust-lang.org/std/result/enum.Result.html#variant.Err /// /// # Examples /// /// ``` /// use async_std::path::{Path, PathBuf}; /// /// let path = Path::new("/test/haha/foo.txt"); /// /// assert_eq!(path.strip_prefix("/"), Ok(Path::new("test/haha/foo.txt"))); /// assert_eq!(path.strip_prefix("/test"), Ok(Path::new("haha/foo.txt"))); /// assert_eq!(path.strip_prefix("/test/"), Ok(Path::new("haha/foo.txt"))); /// assert_eq!(path.strip_prefix("/test/haha/foo.txt"), Ok(Path::new(""))); /// assert_eq!(path.strip_prefix("/test/haha/foo.txt/"), Ok(Path::new(""))); /// assert_eq!(path.strip_prefix("test").is_ok(), false); /// assert_eq!(path.strip_prefix("/haha").is_ok(), false); /// /// let prefix = PathBuf::from("/test/"); /// assert_eq!(path.strip_prefix(prefix), Ok(Path::new("haha/foo.txt"))); /// ``` pub fn strip_prefix<P>(&self, base: P) -> Result<&Path, StripPrefixError> where P: AsRef<Path>, { Ok(self.inner.strip_prefix(base.as_ref())?.into()) } /// Determines whether `base` is a prefix of `self`. /// /// Only considers whole path components to match. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("/etc/passwd"); /// /// assert!(path.starts_with("/etc")); /// assert!(path.starts_with("/etc/")); /// assert!(path.starts_with("/etc/passwd")); /// assert!(path.starts_with("/etc/passwd/")); /// /// assert!(!path.starts_with("/e")); /// ``` pub fn starts_with<P: AsRef<Path>>(&self, base: P) -> bool { self.inner.starts_with(base.as_ref()) } /// Determines whether `child` is a suffix of `self`. /// /// Only considers whole path components to match. /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("/etc/passwd"); /// /// assert!(path.ends_with("passwd")); /// ``` pub fn ends_with<P: AsRef<Path>>(&self, child: P) -> bool { self.inner.ends_with(child.as_ref()) } /// Extracts the stem (non-extension) portion of [`self.file_name`]. /// /// [`self.file_name`]: struct.Path.html#method.file_name /// /// The stem is: /// /// * [`None`], if there is no file name; /// * The entire file name if there is no embedded `.`; /// * The entire file name if the file name begins with `.` and has no other `.`s within; /// * Otherwise, the portion of the file name before the final `.` /// /// [`None`]: https://doc.rust-lang.org/std/option/enum.Option.html#variant.None /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("foo.rs"); /// /// assert_eq!("foo", path.file_stem().unwrap()); /// ``` pub fn file_stem(&self) -> Option<&OsStr> { self.inner.file_stem() } /// Extracts the extension of [`self.file_name`], if possible. /// /// The extension is: /// /// * [`None`], if there is no file name; /// * [`None`], if there is no embedded `.`; /// * [`None`], if the file name begins with `.` and has no other `.`s within; /// * Otherwise, the portion of the file name after the final `.` /// /// [`self.file_name`]: struct.Path.html#method.file_name /// [`None`]: https://doc.rust-lang.org/std/option/enum.Option.html#variant.None /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("foo.rs"); /// /// assert_eq!("rs", path.extension().unwrap()); /// ``` pub fn extension(&self) -> Option<&OsStr> { self.inner.extension() } /// Creates an owned [`PathBuf`] with `path` adjoined to `self`. /// /// See [`PathBuf::push`] for more details on what it means to adjoin a path. /// /// [`PathBuf`]: struct.PathBuf.html /// [`PathBuf::push`]: struct.PathBuf.html#method.push /// /// # Examples /// /// ``` /// use async_std::path::{Path, PathBuf}; /// /// assert_eq!(Path::new("/etc").join("passwd"), PathBuf::from("/etc/passwd")); /// ``` pub fn join<P: AsRef<Path>>(&self, path: P) -> PathBuf { self.inner.join(path.as_ref()).into() } /// Creates an owned [`PathBuf`] like `self` but with the given file name. /// /// See [`PathBuf::set_file_name`] for more details. /// /// [`PathBuf`]: struct.PathBuf.html /// [`PathBuf::set_file_name`]: struct.PathBuf.html#method.set_file_name /// /// # Examples /// /// ``` /// use async_std::path::{Path, PathBuf}; /// /// let path = Path::new("/tmp/foo.txt"); /// assert_eq!(path.with_file_name("bar.txt"), PathBuf::from("/tmp/bar.txt")); /// /// let path = Path::new("/tmp"); /// assert_eq!(path.with_file_name("var"), PathBuf::from("/var")); /// ``` pub fn with_file_name<S: AsRef<OsStr>>(&self, file_name: S) -> PathBuf { self.inner.with_file_name(file_name).into() } /// Creates an owned [`PathBuf`] like `self` but with the given extension. /// /// See [`PathBuf::set_extension`] for more details. /// /// [`PathBuf`]: struct.PathBuf.html /// [`PathBuf::set_extension`]: struct.PathBuf.html#method.set_extension /// /// # Examples /// /// ``` /// use async_std::path::{Path, PathBuf}; /// /// let path = Path::new("foo.rs"); /// assert_eq!(path.with_extension("txt"), PathBuf::from("foo.txt")); /// ``` pub fn with_extension<S: AsRef<OsStr>>(&self, extension: S) -> PathBuf { self.inner.with_extension(extension).into() } /// Produces an iterator over the [`Component`]s of the path. /// /// When parsing the path, there is a small amount of normalization: /// /// * Repeated separators are ignored, so `a/b` and `a//b` both have /// `a` and `b` as components. /// /// * Occurrences of `.` are normalized away, except if they are at the /// beginning of the path. For example, `a/./b`, `a/b/`, `a/b/.` and /// `a/b` all have `a` and `b` as components, but `./a/b` starts with /// an additional [`CurDir`] component. /// /// * A trailing slash is normalized away, `/a/b` and `/a/b/` are equivalent. /// /// Note that no other normalization takes place; in particular, `a/c` /// and `a/b/../c` are distinct, to account for the possibility that `b` /// is a symbolic link (so its parent isn't `a`). /// /// # Examples /// /// ``` /// use async_std::path::{Path, Component}; /// use std::ffi::OsStr; /// /// let mut components = Path::new("/tmp/foo.txt").components(); /// /// assert_eq!(components.next(), Some(Component::RootDir)); /// assert_eq!(components.next(), Some(Component::Normal(OsStr::new("tmp")))); /// assert_eq!(components.next(), Some(Component::Normal(OsStr::new("foo.txt")))); /// assert_eq!(components.next(), None) /// ``` /// /// [`Component`]: enum.Component.html /// [`CurDir`]: enum.Component.html#variant.CurDir pub fn components(&self) -> Components<'_> { self.inner.components() } /// Produces an iterator over the path's components viewed as [`OsStr`] /// slices. /// /// For more information about the particulars of how the path is separated /// into components, see [`components`]. /// /// [`components`]: #method.components /// [`OsStr`]: https://doc.rust-lang.org/std/ffi/struct.OsStr.html /// /// # Examples /// /// ``` /// use async_std::path::{self, Path}; /// use std::ffi::OsStr; /// /// let mut it = Path::new("/tmp/foo.txt").iter(); /// assert_eq!(it.next(), Some(OsStr::new(&path::MAIN_SEPARATOR.to_string()))); /// assert_eq!(it.next(), Some(OsStr::new("tmp"))); /// assert_eq!(it.next(), Some(OsStr::new("foo.txt"))); /// assert_eq!(it.next(), None) /// ``` pub fn iter(&self) -> Iter<'_> { self.inner.iter() } /// Returns an object that implements [`Display`] for safely printing paths /// that may contain non-Unicode data. /// /// [`Display`]: https://doc.rust-lang.org/std/fmt/trait.Display.html /// /// # Examples /// /// ``` /// use async_std::path::Path; /// /// let path = Path::new("/tmp/foo.rs"); /// /// println!("{}", path.display()); /// ``` pub fn display(&self) -> Display<'_> { self.inner.display() } /// Queries the file system to get information about a file, directory, etc. /// /// This function will traverse symbolic links to query information about the /// destination file. /// /// This is an alias to [`fs::metadata`]. /// /// [`fs::metadata`]: ../fs/fn.metadata.html /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// /// let path = Path::new("/Minas/tirith"); /// let metadata = path.metadata().await.expect("metadata call failed"); /// println!("{:?}", metadata.file_type()); /// # /// # Ok(()) }) } /// ``` pub async fn metadata(&self) -> io::Result<fs::Metadata> { fs::metadata(self).await } /// Queries the metadata about a file without following symlinks. /// /// This is an alias to [`fs::symlink_metadata`]. /// /// [`fs::symlink_metadata`]: ../fs/fn.symlink_metadata.html /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// /// let path = Path::new("/Minas/tirith"); /// let metadata = path.symlink_metadata().await.expect("symlink_metadata call failed"); /// println!("{:?}", metadata.file_type()); /// # /// # Ok(()) }) } /// ``` pub async fn symlink_metadata(&self) -> io::Result<fs::Metadata> { fs::symlink_metadata(self).await } /// Returns the canonical, absolute form of the path with all intermediate /// components normalized and symbolic links resolved. /// /// This is an alias to [`fs::canonicalize`]. /// /// [`fs::canonicalize`]: ../fs/fn.canonicalize.html /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::{Path, PathBuf}; /// /// let path = Path::new("/foo/test/../test/bar.rs"); /// assert_eq!(path.canonicalize().await.unwrap(), PathBuf::from("/foo/test/bar.rs")); /// # /// # Ok(()) }) } /// ``` pub async fn canonicalize(&self) -> io::Result<PathBuf> { fs::canonicalize(self).await } /// Reads a symbolic link, returning the file that the link points to. /// /// This is an alias to [`fs::read_link`]. /// /// [`fs::read_link`]: ../fs/fn.read_link.html /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// /// let path = Path::new("/laputa/sky_castle.rs"); /// let path_link = path.read_link().await.expect("read_link call failed"); /// # /// # Ok(()) }) } /// ``` pub async fn read_link(&self) -> io::Result<PathBuf> { fs::read_link(self).await } /// Returns an iterator over the entries within a directory. /// /// The iterator will yield instances of [`io::Result`]`<`[`DirEntry`]`>`. New /// errors may be encountered after an iterator is initially constructed. /// /// This is an alias to [`fs::read_dir`]. /// /// [`io::Result`]: ../io/type.Result.html /// [`DirEntry`]: ../fs/struct.DirEntry.html /// [`fs::read_dir`]: ../fs/fn.read_dir.html /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::fs; /// use async_std::path::Path; /// use async_std::prelude::*; /// /// let path = Path::new("/laputa"); /// let mut dir = fs::read_dir(&path).await.expect("read_dir call failed"); /// while let Some(res) = dir.next().await { /// let entry = res?; /// println!("{}", entry.file_name().to_string_lossy()); /// } /// # /// # Ok(()) }) } /// ``` pub async fn read_dir(&self) -> io::Result<fs::ReadDir> { fs::read_dir(self).await } /// Returns `true` if the path points at an existing entity. /// /// This function will traverse symbolic links to query information about the /// destination file. In case of broken symbolic links this will return `false`. /// /// If you cannot access the directory containing the file, e.g., because of a /// permission error, this will return `false`. /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// assert_eq!(Path::new("does_not_exist.txt").exists().await, false); /// # /// # Ok(()) }) } /// ``` /// /// # See Also /// /// This is a convenience function that coerces errors to false. If you want to /// check errors, call [fs::metadata]. /// /// [fs::metadata]: ../fs/fn.metadata.html pub async fn exists(&self) -> bool { fs::metadata(self).await.is_ok() } /// Returns `true` if the path exists on disk and is pointing at a regular file. /// /// This function will traverse symbolic links to query information about the /// destination file. In case of broken symbolic links this will return `false`. /// /// If you cannot access the directory containing the file, e.g., because of a /// permission error, this will return `false`. /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// assert_eq!(Path::new("./is_a_directory/").is_file().await, false); /// assert_eq!(Path::new("a_file.txt").is_file().await, true); /// # /// # Ok(()) }) } /// ``` /// /// # See Also /// /// This is a convenience function that coerces errors to false. If you want to /// check errors, call [fs::metadata] and handle its Result. Then call /// [fs::Metadata::is_file] if it was Ok. /// /// [fs::metadata]: ../fs/fn.metadata.html /// [fs::Metadata::is_file]: ../fs/struct.Metadata.html#method.is_file pub async fn is_file(&self) -> bool { fs::metadata(self) .await .map(|m| m.is_file()) .unwrap_or(false) } /// Returns `true` if the path exists on disk and is pointing at a directory. /// /// This function will traverse symbolic links to query information about the /// destination file. In case of broken symbolic links this will return `false`. /// /// If you cannot access the directory containing the file, e.g., because of a /// permission error, this will return `false`. /// /// # Examples /// /// ```no_run /// # fn main() -> std::io::Result<()> { async_std::task::block_on(async { /// # /// use async_std::path::Path; /// assert_eq!(Path::new("./is_a_directory/").is_dir().await, true); /// assert_eq!(Path::new("a_file.txt").is_dir().await, false); /// # /// # Ok(()) }) } /// ``` /// /// # See Also /// /// This is a convenience function that coerces errors to false. If you want to /// check errors, call [fs::metadata] and handle its Result. Then call /// [fs::Metadata::is_dir] if it was Ok. /// /// [fs::metadata]: ../fs/fn.metadata.html /// [fs::Metadata::is_dir]: ../fs/struct.Metadata.html#method.is_dir pub async fn is_dir(&self) -> bool { fs::metadata(self) .await .map(|m| m.is_dir()) .unwrap_or(false) } /// Converts a [`Box<Path>`][`Box`] into a [`PathBuf`] without copying or /// allocating. /// /// [`Box`]: https://doc.rust-lang.org/std/boxed/struct.Box.html /// [`PathBuf`]: struct.PathBuf.html pub fn into_path_buf(self: Box<Path>) -> PathBuf { let rw = Box::into_raw(self) as *mut std::path::Path; let inner = unsafe { Box::from_raw(rw) }; inner.into_path_buf().into() } } impl<'a> From<&'a std::path::Path> for &'a Path { fn from(path: &'a std::path::Path) -> &'a Path { &Path::new(path.as_os_str()) } } impl<'a> Into<&'a std::path::Path> for &'a Path { fn into(self) -> &'a std::path::Path { std::path::Path::new(&self.inner) } } impl AsRef<std::path::Path> for Path { fn as_ref(&self) -> &std::path::Path { self.into() } } impl AsRef<Path> for std::path::Path { fn as_ref(&self) -> &Path { self.into() } } impl AsRef<Path> for Path { fn as_ref(&self) -> &Path { self } } impl AsRef<OsStr> for Path { fn as_ref(&self) -> &OsStr { self.inner.as_ref() } } impl AsRef<Path> for OsStr { fn as_ref(&self) -> &Path { Path::new(self) } } impl AsRef<Path> for str { fn as_ref(&self) -> &Path { Path::new(self) } } impl AsRef<Path> for String { fn as_ref(&self) -> &Path { Path::new(self) } } impl AsRef<Path> for std::path::PathBuf { fn as_ref(&self) -> &Path { Path::new(self) } } impl std::borrow::ToOwned for Path { type Owned = PathBuf; fn to_owned(&self) -> PathBuf { self.to_path_buf() } }