Trait tracing::stdlib::clone::CloneToUninit
source · pub unsafe trait CloneToUninit {
// Required method
unsafe fn clone_to_uninit(&self, dst: *mut Self);
}
clone_to_uninit
#126799)Expand description
A generalization of Clone
to dynamically-sized types stored in arbitrary containers.
This trait is implemented for all types implementing Clone
, and also slices of all
such types. You may also implement this trait to enable cloning trait objects and custom DSTs
(structures containing dynamically-sized fields).
§Safety
Implementations must ensure that when .clone_to_uninit(dst)
returns normally rather than
panicking, it always leaves *dst
initialized as a valid value of type Self
.
§See also
Clone::clone_from
is a safe function which may be used instead whenSelf
is aSized
and the destination is already initialized; it may be able to reuse allocations owned by the destination.ToOwned
, which allocates a new destination container.
Required Methods§
sourceunsafe fn clone_to_uninit(&self, dst: *mut Self)
🔬This is a nightly-only experimental API. (clone_to_uninit
#126799)
unsafe fn clone_to_uninit(&self, dst: *mut Self)
clone_to_uninit
#126799)Performs copy-assignment from self
to dst
.
This is analogous to std::ptr::write(dst, self.clone())
,
except that self
may be a dynamically-sized type (!Sized
).
Before this function is called, dst
may point to uninitialized memory.
After this function is called, dst
will point to initialized memory; it will be
sound to create a &Self
reference from the pointer.
§Safety
Behavior is undefined if any of the following conditions are violated:
dst
must be valid for writes.dst
must be properly aligned.dst
must have the same pointer metadata (slice length ordyn
vtable) asself
.
§Panics
This function may panic. (For example, it might panic if memory allocation for a clone
of a value owned by self
fails.)
If the call panics, then *dst
should be treated as uninitialized memory; it must not be
read or dropped, because even if it was previously valid, it may have been partially
overwritten.
The caller may also need to take care to deallocate the allocation pointed to by dst
,
if applicable, to avoid a memory leak, and may need to take other precautions to ensure
soundness in the presence of unwinding.
Implementors should avoid leaking values by, upon unwinding, dropping all component values
that might have already been created. (For example, if a [Foo]
of length 3 is being
cloned, and the second of the three calls to Foo::clone()
unwinds, then the first Foo
cloned should be dropped.)