[−]Struct astral::thirdparty::walkdir::WalkDir
A builder to create an iterator for recursively walking a directory.
Results are returned in depth first fashion, with directories yielded
before their contents. If contents_first
is true, contents are yielded
before their directories. The order is unspecified but if sort_by
is
given, directory entries are sorted according to this function. Directory
entries .
and ..
are always omitted.
If an error occurs at any point during iteration, then it is returned in place of its corresponding directory entry and iteration continues as normal. If an error occurs while opening a directory for reading, then it is not descended into (but the error is still yielded by the iterator). Iteration may be stopped at any time. When the iterator is destroyed, all resources associated with it are freed.
Usage
This type implements IntoIterator
so that it may be used as the subject
of a for
loop. You may need to call into_iter
explicitly if you want
to use iterator adapters such as filter_entry
.
Idiomatic use of this type should use method chaining to set desired
options. For example, this only shows entries with a depth of 1
, 2
or
3
(relative to foo
):
use walkdir::WalkDir; for entry in WalkDir::new("foo").min_depth(1).max_depth(3) { println!("{}", entry?.path().display()); }
Note that the iterator by default includes the top-most directory. Since
this is the only directory yielded with depth 0
, it is easy to ignore it
with the min_depth
setting:
use walkdir::WalkDir; for entry in WalkDir::new("foo").min_depth(1) { println!("{}", entry?.path().display()); }
This will only return descendents of the foo
directory and not foo
itself.
Loops
This iterator (like most/all recursive directory iterators) assumes that no loops can be made with hard links on your file system. In particular, this would require creating a hard link to a directory such that it creates a loop. On most platforms, this operation is illegal.
Note that when following symbolic/soft links, loops are detected and an error is reported.
Methods
impl WalkDir
pub fn new<P>(root: P) -> WalkDir where
P: AsRef<Path>,
P: AsRef<Path>,
Create a builder for a recursive directory iterator starting at the
file path root
. If root
is a directory, then it is the first item
yielded by the iterator. If root
is a file, then it is the first
and only item yielded by the iterator. If root
is a symlink, then it
is always followed for the purposes of directory traversal. (A root
DirEntry
still obeys its documentation with respect to symlinks and
the follow_links
setting.)
pub fn min_depth(self, depth: usize) -> WalkDir
Set the minimum depth of entries yielded by the iterator.
The smallest depth is 0
and always corresponds to the path given
to the new
function on this type. Its direct descendents have depth
1
, and their descendents have depth 2
, and so on.
pub fn max_depth(self, depth: usize) -> WalkDir
Set the maximum depth of entries yield by the iterator.
The smallest depth is 0
and always corresponds to the path given
to the new
function on this type. Its direct descendents have depth
1
, and their descendents have depth 2
, and so on.
Note that this will not simply filter the entries of the iterator, but it will actually avoid descending into directories when the depth is exceeded.
pub fn follow_links(self, yes: bool) -> WalkDir
Follow symbolic links. By default, this is disabled.
When yes
is true
, symbolic links are followed as if they were
normal directories and files. If a symbolic link is broken or is
involved in a loop, an error is yielded.
When enabled, the yielded DirEntry
values represent the target of
the link while the path corresponds to the link. See the DirEntry
type for more details.
pub fn max_open(self, n: usize) -> WalkDir
Set the maximum number of simultaneously open file descriptors used by the iterator.
n
must be greater than or equal to 1
. If n
is 0
, then it is set
to 1
automatically. If this is not set, then it defaults to some
reasonably low number.
This setting has no impact on the results yielded by the iterator
(even when n
is 1
). Instead, this setting represents a trade off
between scarce resources (file descriptors) and memory. Namely, when
the maximum number of file descriptors is reached and a new directory
needs to be opened to continue iteration, then a previous directory
handle is closed and has its unyielded entries stored in memory. In
practice, this is a satisfying trade off because it scales with respect
to the depth of your file tree. Therefore, low values (even 1
) are
acceptable.
Note that this value does not impact the number of system calls made by an exhausted iterator.
Platform behavior
On Windows, if follow_links
is enabled, then this limit is not
respected. In particular, the maximum number of file descriptors opened
is proportional to the depth of the directory tree traversed.
pub fn sort_by<F>(self, cmp: F) -> WalkDir where
F: FnMut(&DirEntry, &DirEntry) -> Ordering + Send + Sync + 'static,
F: FnMut(&DirEntry, &DirEntry) -> Ordering + Send + Sync + 'static,
Set a function for sorting directory entries.
If a compare function is set, the resulting iterator will return all paths in sorted order. The compare function will be called to compare entries from the same directory.
use std::cmp; use std::ffi::OsString; use walkdir::WalkDir; WalkDir::new("foo").sort_by(|a,b| a.file_name().cmp(b.file_name()));
pub fn contents_first(self, yes: bool) -> WalkDir
Yield a directory's contents before the directory itself. By default, this is disabled.
When yes
is false
(as is the default), the directory is yielded
before its contents are read. This is useful when, e.g. you want to
skip processing of some directories.
When yes
is true
, the iterator yields the contents of a directory
before yielding the directory itself. This is useful when, e.g. you
want to recursively delete a directory.
Example
Assume the following directory tree:
foo/
abc/
qrs
tuv
def/
With contents_first disabled (the default), the following code visits the directory tree in depth-first order:
use walkdir::WalkDir; for entry in WalkDir::new("foo") { let entry = entry.unwrap(); println!("{}", entry.path().display()); } // foo // foo/abc // foo/abc/qrs // foo/abc/tuv // foo/def
With contents_first enabled:
use walkdir::WalkDir; for entry in WalkDir::new("foo").contents_first(true) { let entry = entry.unwrap(); println!("{}", entry.path().display()); } // foo/abc/qrs // foo/abc/tuv // foo/abc // foo/def // foo
pub fn same_file_system(self, yes: bool) -> WalkDir
Do not cross file system boundaries.
When this option is enabled, directory traversal will not descend into directories that are on a different file system from the root path.
Currently, this option is only supported on Unix and Windows. If this option is used on an unsupported platform, then directory traversal will immediately return an error and will not yield any entries.
Trait Implementations
impl Debug for WalkDir
impl IntoIterator for WalkDir
Auto Trait Implementations
Blanket Implementations
impl<T> From for T
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impl<I> IntoIterator for I where
I: Iterator,
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I: Iterator,
type Item = <I as Iterator>::Item
The type of the elements being iterated over.
type IntoIter = I
Which kind of iterator are we turning this into?
fn into_iter(self) -> I
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impl<T, U> Into for T where
U: From<T>,
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U: From<T>,
impl<T, U> TryFrom for T where
U: Into<T>,
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U: Into<T>,
type Error = !
try_from
)The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T> Borrow for T where
T: ?Sized,
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T: ?Sized,
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> BorrowMut for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T, U> TryInto for T where
U: TryFrom<T>,
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U: TryFrom<T>,