1011 B
1011 B
% Deallocating
Next we should implement Drop so that we don't massively leak tons of resources.
The easiest way is to just call pop
until it yields None, and then deallocate
our buffer. Note that calling pop
is uneeded if T: !Drop
. In theory we can
ask Rust if T needs_drop and omit the calls to pop
. However in practice LLVM
is really good at removing simple side-effect free code like this, so I wouldn't
bother unless you notice it's not being stripped (in this case it is).
We must not call heap::deallocate
when self.cap == 0
, as in this case we haven't
actually allocated any memory.
impl<T> Drop for Vec<T> {
fn drop(&mut self) {
if self.cap != 0 {
while let Some(_) = self.pop() { }
let align = mem::min_align_of::<T>();
let elem_size = mem::size_of::<T>();
let num_bytes = elem_size * self.cap;
unsafe {
heap::deallocate(*self.ptr, num_bytes, align);
}
}
}
}