I have a struct:
struct MyData {
x: i32
}
I want to asynchronously start a long operation on this struct.
My first attempt was this:
fn foo(&self) { //should return immediately
std::thread::Thread::spawn(move || {
println!("{:?}",self.x); //consider a very long operation
});
}
Clearly the compiler cannot infer an appropriate lifetime due to conflicting requirements
because self
may be on the stack frame and thus cannot be guaranteed to exist by the time the operation is running on a different stack frame.
To solve this, I attempted to make a copy of self
and provide that copy to the new thread:
fn foo(&self) { //should return immediately
let clone = self.clone();
std::thread::Thread::spawn(move || {
println!("{:?}",clone.x); //consider a very long operation
});
}
I think that does not compile because now clone
is on the stack frame which is similar to before. I also tried to do the clone
inside the thread, and that does not compile either, I think for similar reasons.
Then I decided maybe I could use a channel
to push the copied data into the thread, on the theory that perhaps channel
can magically move (copy?) stack-allocated data between threads, which is suggested by this example in the documentation. However the compiler cannot infer a lifetime for this either:
fn foo(&self) { //should return immediately
let (tx, rx) = std::sync::mpsc::channel();
tx.send(self.clone());
std::thread::Thread::spawn(move || {
println!("{:?}",rx.recv().unwrap().x); //consider a very long operation
});
}
Finally, I decided to just copy my struct onto the heap explicitly, and pass an Arc into the thread. But not even here can the compiler figure out a lifetime:
fn foo(&self) { //should return immediately
let arc = std::sync::Arc::new(self.clone());
std::thread::Thread::spawn(move || {
println!("{:?}",arc.clone().x); //consider a very long operation
});
}
Okay borrow checker, I give up. How do I get a copy of self
onto my new thread?