The Drop
Trait
Values which implement Drop
can specify code to run when they go out of scope:
struct Droppable { name: &'static str, } impl Drop for Droppable { fn drop(&mut self) { println!("Dropping {}", self.name); } } fn main() { let a = Droppable { name: "a" }; { let b = Droppable { name: "b" }; { let c = Droppable { name: "c" }; let d = Droppable { name: "d" }; println!("Exiting block B"); } println!("Exiting block A"); } drop(a); println!("Exiting main"); }
This slide should take about 10 minutes.
- Note that
std::mem::drop
is not the same asstd::ops::Drop::drop
. - Values are automatically dropped when they go out of scope.
- When a value is dropped, if it implements
std::ops::Drop
then itsDrop::drop
implementation will be called. - All its fields will then be dropped too, whether or not it implements
Drop
. std::mem::drop
is just an empty function that takes any value. The significance is that it takes ownership of the value, so at the end of its scope it gets dropped. This makes it a convenient way to explicitly drop values earlier than they would otherwise go out of scope.- This can be useful for objects that do some work on
drop
: releasing locks, closing files, etc.
- This can be useful for objects that do some work on
Discussion points:
- Why doesn’t
Drop::drop
takeself
?- Short-answer: If it did,
std::mem::drop
would be called at the end of the block, resulting in another call toDrop::drop
, and a stack overflow!
- Short-answer: If it did,
- Try replacing
drop(a)
witha.drop()
.