pub trait AsMut<T>where
T: ?Sized,{
// Required method
fn as_mut(&mut self) -> &mut T;
}
Expand description
Used to do a cheap mutable-to-mutable reference conversion.
This trait is similar to AsRef
but used for converting between mutable
references. If you need to do a costly conversion it is better to
implement From
with type &mut T
or write a custom function.
Note: This trait must not fail. If the conversion can fail, use a
dedicated method which returns an Option<T>
or a Result<T, E>
.
§Generic Implementations
AsMut
auto-dereferences if the inner type is a mutable reference
(e.g.: foo.as_mut()
will work the same if foo
has type &mut Foo
or &mut &mut Foo
).
Note that due to historic reasons, the above currently does not hold generally for all
mutably dereferenceable types, e.g. foo.as_mut()
will not work the same as
Box::new(foo).as_mut()
. Instead, many smart pointers provide an as_mut
implementation which
simply returns a reference to the pointed-to value (but do not perform a cheap
reference-to-reference conversion for that value). However, AsMut::as_mut
should not be
used for the sole purpose of mutable dereferencing; instead ‘Deref
coercion’ can be used:
let mut x = Box::new(5i32);
// Avoid this:
// let y: &mut i32 = x.as_mut();
// Better just write:
let y: &mut i32 = &mut x;
Types which implement DerefMut
should consider to add an implementation of AsMut<T>
as
follows:
impl<T> AsMut<T> for SomeType
where
<SomeType as Deref>::Target: AsMut<T>,
{
fn as_mut(&mut self) -> &mut T {
self.deref_mut().as_mut()
}
}
§Reflexivity
Ideally, AsMut
would be reflexive, i.e. there would be an impl<T: ?Sized> AsMut<T> for T
with as_mut
simply returning its argument unchanged.
Such a blanket implementation is currently not provided due to technical restrictions of
Rust’s type system (it would be overlapping with another existing blanket implementation for
&mut T where T: AsMut<U>
which allows AsMut
to auto-dereference, see “Generic
Implementations” above).
A trivial implementation of AsMut<T> for T
must be added explicitly for a particular type T
where needed or desired. Note, however, that not all types from std
contain such an
implementation, and those cannot be added by external code due to orphan rules.
§Examples
Using AsMut
as trait bound for a generic function, we can accept all mutable references that
can be converted to type &mut T
. Unlike dereference, which has a single target type,
there can be multiple implementations of AsMut
for a type. In particular, Vec<T>
implements
both AsMut<Vec<T>>
and AsMut<[T]>
.
In the following, the example functions caesar
and null_terminate
provide a generic
interface which work with any type that can be converted by cheap mutable-to-mutable conversion
into a byte slice ([u8]
) or byte vector (Vec<u8>
), respectively.
struct Document {
info: String,
content: Vec<u8>,
}
impl<T: ?Sized> AsMut<T> for Document
where
Vec<u8>: AsMut<T>,
{
fn as_mut(&mut self) -> &mut T {
self.content.as_mut()
}
}
fn caesar<T: AsMut<[u8]>>(data: &mut T, key: u8) {
for byte in data.as_mut() {
*byte = byte.wrapping_add(key);
}
}
fn null_terminate<T: AsMut<Vec<u8>>>(data: &mut T) {
// Using a non-generic inner function, which contains most of the
// functionality, helps to minimize monomorphization overhead.
fn doit(data: &mut Vec<u8>) {
let len = data.len();
if len == 0 || data[len-1] != 0 {
data.push(0);
}
}
doit(data.as_mut());
}
fn main() {
let mut v: Vec<u8> = vec![1, 2, 3];
caesar(&mut v, 5);
assert_eq!(v, [6, 7, 8]);
null_terminate(&mut v);
assert_eq!(v, [6, 7, 8, 0]);
let mut doc = Document {
info: String::from("Example"),
content: vec![17, 19, 8],
};
caesar(&mut doc, 1);
assert_eq!(doc.content, [18, 20, 9]);
null_terminate(&mut doc);
assert_eq!(doc.content, [18, 20, 9, 0]);
}
Note, however, that APIs don’t need to be generic. In many cases taking a &mut [u8]
or
&mut Vec<u8>
, for example, is the better choice (callers need to pass the correct type then).
Required Methods§
Implementors§
impl AsMut<str> for str
impl AsMut<str> for String
impl<A, O> AsMut<BitSlice<<A as BitView>::Store, O>> for BitArray<A, O>where
A: BitViewSized,
O: BitOrder,
impl<L, R> AsMut<str> for Either<L, R>
impl<L, R> AsMut<CStr> for Either<L, R>
Requires crate feature use_std
.
impl<L, R> AsMut<OsStr> for Either<L, R>
Requires crate feature use_std
.
impl<L, R> AsMut<Path> for Either<L, R>
Requires crate feature use_std
.