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# Destructors
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What the language *does* provide is full-blown automatic destructors through the
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`Drop` trait, which provides the following method:
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<!-- ignore: function header -->
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```rust,ignore
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fn drop(&mut self);
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```
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This method gives the type time to somehow finish what it was doing.
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**After `drop` is run, Rust will recursively try to drop all of the fields
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of `self`.**
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This is a convenience feature so that you don't have to write "destructor
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boilerplate" to drop children. If a struct has no special logic for being
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dropped other than dropping its children, then it means `Drop` doesn't need to
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be implemented at all!
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**There is no stable way to prevent this behavior in Rust 1.0.**
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Note that taking `&mut self` means that even if you could suppress recursive
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Drop, Rust will prevent you from e.g. moving fields out of self. For most types,
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this is totally fine.
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For instance, a custom implementation of `Box` might write `Drop` like this:
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```rust
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#![feature(ptr_internals, allocator_api)]
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use std::alloc::{Allocator, Global, GlobalAlloc, Layout};
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use std::mem;
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use std::ptr::{drop_in_place, NonNull, Unique};
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struct Box<T>{ ptr: Unique<T> }
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impl<T> Drop for Box<T> {
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fn drop(&mut self) {
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unsafe {
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drop_in_place(self.ptr.as_ptr());
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let c: NonNull<T> = self.ptr.into();
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Global.deallocate(c.cast(), Layout::new::<T>())
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}
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}
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}
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# fn main() {}
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```
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and this works fine because when Rust goes to drop the `ptr` field it just sees
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a [Unique] that has no actual `Drop` implementation. Similarly nothing can
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use-after-free the `ptr` because when drop exits, it becomes inaccessible.
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However this wouldn't work:
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```rust
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#![feature(allocator_api, ptr_internals)]
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use std::alloc::{Allocator, Global, GlobalAlloc, Layout};
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use std::ptr::{drop_in_place, Unique, NonNull};
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use std::mem;
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struct Box<T>{ ptr: Unique<T> }
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impl<T> Drop for Box<T> {
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fn drop(&mut self) {
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unsafe {
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drop_in_place(self.ptr.as_ptr());
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let c: NonNull<T> = self.ptr.into();
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Global.deallocate(c.cast(), Layout::new::<T>());
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}
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}
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}
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struct SuperBox<T> { my_box: Box<T> }
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impl<T> Drop for SuperBox<T> {
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fn drop(&mut self) {
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unsafe {
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// Hyper-optimized: deallocate the box's contents for it
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// without `drop`ing the contents
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let c: NonNull<T> = self.my_box.ptr.into();
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Global.deallocate(c.cast::<u8>(), Layout::new::<T>());
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}
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}
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}
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# fn main() {}
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```
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After we deallocate the `box`'s ptr in SuperBox's destructor, Rust will
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happily proceed to tell the box to Drop itself and everything will blow up with
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use-after-frees and double-frees.
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Note that the recursive drop behavior applies to all structs and enums
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regardless of whether they implement Drop. Therefore something like
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```rust
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struct Boxy<T> {
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data1: Box<T>,
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data2: Box<T>,
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info: u32,
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}
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```
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will have its data1 and data2's fields destructors whenever it "would" be
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dropped, even though it itself doesn't implement Drop. We say that such a type
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*needs Drop*, even though it is not itself Drop.
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Similarly,
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```rust
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enum Link {
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Next(Box<Link>),
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None,
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}
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```
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will have its inner Box field dropped if and only if an instance stores the
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Next variant.
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In general this works really nicely because you don't need to worry about
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adding/removing drops when you refactor your data layout. Still there's
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certainly many valid use cases for needing to do trickier things with
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destructors.
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The classic safe solution to overriding recursive drop and allowing moving out
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of Self during `drop` is to use an Option:
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```rust
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#![feature(allocator_api, ptr_internals)]
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use std::alloc::{Allocator, GlobalAlloc, Global, Layout};
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use std::ptr::{drop_in_place, Unique, NonNull};
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use std::mem;
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struct Box<T>{ ptr: Unique<T> }
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impl<T> Drop for Box<T> {
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fn drop(&mut self) {
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unsafe {
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drop_in_place(self.ptr.as_ptr());
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let c: NonNull<T> = self.ptr.into();
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Global.deallocate(c.cast(), Layout::new::<T>());
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}
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}
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}
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struct SuperBox<T> { my_box: Option<Box<T>> }
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impl<T> Drop for SuperBox<T> {
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fn drop(&mut self) {
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unsafe {
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// Hyper-optimized: deallocate the box's contents for it
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// without `drop`ing the contents. Need to set the `box`
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// field as `None` to prevent Rust from trying to Drop it.
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let my_box = self.my_box.take().unwrap();
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let c: NonNull<T> = my_box.ptr.into();
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Global.deallocate(c.cast(), Layout::new::<T>());
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mem::forget(my_box);
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}
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}
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}
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# fn main() {}
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```
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However this has fairly odd semantics: you're saying that a field that *should*
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always be Some *may* be None, just because that happens in the destructor. Of
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course this conversely makes a lot of sense: you can call arbitrary methods on
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self during the destructor, and this should prevent you from ever doing so after
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deinitializing the field. Not that it will prevent you from producing any other
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arbitrarily invalid state in there.
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On balance this is an ok choice. Certainly what you should reach for by default.
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However, in the future we expect there to be a first-class way to announce that
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a field shouldn't be automatically dropped.
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[Unique]: phantom-data.html
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