Path Absolutize
This is a library for extending Path and PathBuf in order to get an absolute path and remove the containing dots.
The difference between absolutize and canonicalize methods is that absolutize does not care about whether the file exists and what the file really is.
Please read the following examples to know the parsing rules.
Examples
There are two methods you can use.
absolutize
Get an absolute path.
The dots in a path will be parsed even if it is already an absolute path (which means the path starts with a MAIN_SEPARATOR on Unix-like systems).
use Path;
use *;
let p = new;
assert_eq!;
use Path;
use *;
let p = new;
assert_eq!;
If a path starts with a single dot, the dot means your program's current working directory (CWD).
use Path;
use env;
use *;
let p = new;
assert_eq!;
If a path starts with a pair of dots, the dots means the parent of the CWD. If the CWD is root, the parent is still root.
use Path;
use env;
use *;
let p = new;
let cwd = current_dir.unwrap;
let cwd_parent = cwd.parent;
match cwd_parent
A path which does not start with a MAIN_SEPARATOR, Single Dot and Double Dots, will act like having a single dot at the start when absolutize method is used.
use Path;
use env;
use *;
let p = new;
assert_eq!;
use Path;
use env;
use *;
let p = new;
let cwd = current_dir.unwrap;
let cwd_parent = cwd.parent;
match cwd_parent
Starting from a given current working directory
With the absolutize_from function, you can provide the current working directory that the relative paths should be resolved from.
use env;
use Path;
use *;
let p = new;
let cwd = current_dir.unwrap;
println!;
absolutize_virtually
Get an absolute path only under a specific directory.
The dots in a path will be parsed even if it is already an absolute path (which means the path starts with a MAIN_SEPARATOR on Unix-like systems).
use Path;
use *;
let p = new;
assert_eq!;
use Path;
use *;
let p = new;
assert_eq!;
Every absolute path should under the virtual root.
use Path;
use ErrorKind;
use *;
let p = new;
assert_eq!;
Every relative path should under the virtual root.
use Path;
use ErrorKind;
use *;
let p = new;
assert_eq!;
use Path;
use ErrorKind;
use *;
let p = new;
assert_eq!;
A path which does not start with a MAIN_SEPARATOR, Single Dot and Double Dots, will be located in the virtual root after the absolutize_virtually method is used.
use Path;
use *;
let p = new;
assert_eq!;
use Path;
use *;
let p = new;
assert_eq!;
Caching
By default, the absolutize method and the absolutize_virtually method create a new PathBuf instance of the CWD every time in their operation. Although it allows us to safely change the CWD at runtime by the program itself (e.g. using the std::env::set_current_dir function) or outside controls (e.g. using gdb to call chdir), we don't need that in most cases.
In order to parse paths with better performance, this crate provides three ways to cache the CWD.
once_cell_cache
Enabling the once_cell_cache feature can let this crate use once_cell to cache the CWD. It's thread-safe and does not need to modify any code, but once the CWD is cached, it cannot be changed anymore at runtime.
[]
= "*"
= ["once_cell_cache"]
lazy_static_cache
Enabling the lazy_static_cache feature can let this crate use lazy_static to cache the CWD. It's thread-safe and does not need to modify any code, but once the CWD is cached, it cannot be changed anymore at runtime.
[]
= "*"
= ["lazy_static_cache"]
unsafe_cache
Enabling the unsafe_cache feature can let this crate use a mutable static variable to cache the CWD. It allows the program to change the CWD at runtime by the program itself, but it's not thread-safe.
You need to use the update_cwd function to initialize the CWD first. The function should also be used to update the CWD after the CWD is changed.
[]
= "*"
= ["unsafe_cache"]
use Path;
use *;
unsafe
let p = new;
println!;
set_current_dir.unwrap;
unsafe
println!;
Benchmark
No-cache
once_cell_cache
lazy_static_cache
unsafe_cache
Crates.io
https://crates.io/crates/path-absolutize
Documentation
https://docs.rs/path-absolutize