tests/future_shared.rs - platform/external/rust/crates/futures - Git at Google

 use futures::channel::oneshot;
 use futures::executor::{block_on, LocalPool};
 use futures::future::{self, FutureExt, LocalFutureObj, TryFutureExt};
 use futures::task::LocalSpawn;
 use std::cell::{Cell, RefCell};
 use std::rc::Rc;
 use std::task::Poll;
 use std::thread;

 struct CountClone(Rc<Cell<i32>>);

 impl Clone for CountClone {
     fn clone(&self) -> Self {
         self.0.set(self.0.get() + 1);
         Self(self.0.clone())
     }
 }

 fn send_shared_oneshot_and_wait_on_multiple_threads(threads_number: u32) {
     let (tx, rx) = oneshot::channel::<i32>();
     let f = rx.shared();
     let join_handles = (0..threads_number)
         .map(|_| {
             let cloned_future = f.clone();
             thread::spawn(move || {
                 assert_eq!(block_on(cloned_future).unwrap(), 6);
             })
         })
         .collect::<Vec<_>>();

     tx.send(6).unwrap();

     assert_eq!(block_on(f).unwrap(), 6);
     for join_handle in join_handles {
         join_handle.join().unwrap();
     }
 }

 #[test]
 fn one_thread() {
     send_shared_oneshot_and_wait_on_multiple_threads(1);
 }

 #[test]
 fn two_threads() {
     send_shared_oneshot_and_wait_on_multiple_threads(2);
 }

 #[test]
 fn many_threads() {
     send_shared_oneshot_and_wait_on_multiple_threads(1000);
 }

 #[test]
 fn drop_on_one_task_ok() {
     let (tx, rx) = oneshot::channel::<u32>();
     let f1 = rx.shared();
     let f2 = f1.clone();

     let (tx2, rx2) = oneshot::channel::<u32>();

     let t1 = thread::spawn(|| {
         let f = future::try_select(f1.map_err(|_| ()), rx2.map_err(|_| ()));
         drop(block_on(f));
     });

     let (tx3, rx3) = oneshot::channel::<u32>();

     let t2 = thread::spawn(|| {
         let _ = block_on(f2.map_ok(|x| tx3.send(x).unwrap()).map_err(|_| ()));
     });

     tx2.send(11).unwrap(); // cancel `f1`
     t1.join().unwrap();

     tx.send(42).unwrap(); // Should cause `f2` and then `rx3` to get resolved.
     let result = block_on(rx3).unwrap();
     assert_eq!(result, 42);
     t2.join().unwrap();
 }

 #[test]
 fn drop_in_poll() {
     let slot1 = Rc::new(RefCell::new(None));
     let slot2 = slot1.clone();

     let future1 = future::lazy(move |_| {
         slot2.replace(None); // Drop future
         1
     })
     .shared();

     let future2 = LocalFutureObj::new(Box::new(future1.clone()));
     slot1.replace(Some(future2));

     assert_eq!(block_on(future1), 1);
 }

 #[test]
 fn peek() {
     let mut local_pool = LocalPool::new();
     let spawn = &mut local_pool.spawner();

     let (tx0, rx0) = oneshot::channel::<i32>();
     let f1 = rx0.shared();
     let f2 = f1.clone();

     // Repeated calls on the original or clone do not change the outcome.
     for _ in 0..2 {
         assert!(f1.peek().is_none());
         assert!(f2.peek().is_none());
     }

     // Completing the underlying future has no effect, because the value has not been `poll`ed in.
     tx0.send(42).unwrap();
     for _ in 0..2 {
         assert!(f1.peek().is_none());
         assert!(f2.peek().is_none());
     }

     // Once the Shared has been polled, the value is peekable on the clone.
     spawn.spawn_local_obj(LocalFutureObj::new(Box::new(f1.map(|_| ())))).unwrap();
     local_pool.run();
     for _ in 0..2 {
         assert_eq!(*f2.peek().unwrap(), Ok(42));
     }
 }

 #[test]
 fn downgrade() {
     let (tx, rx) = oneshot::channel::<i32>();
     let shared = rx.shared();
     // Since there are outstanding `Shared`s, we can get a `WeakShared`.
     let weak = shared.downgrade().unwrap();
     // It should upgrade fine right now.
     let mut shared2 = weak.upgrade().unwrap();

     tx.send(42).unwrap();
     assert_eq!(block_on(shared).unwrap(), 42);

     // We should still be able to get a new `WeakShared` and upgrade it
     // because `shared2` is outstanding.
     assert!(shared2.downgrade().is_some());
     assert!(weak.upgrade().is_some());

     assert_eq!(block_on(&mut shared2).unwrap(), 42);
     // Now that all `Shared`s have been exhausted, we should not be able
     // to get a new `WeakShared` or upgrade an existing one.
     assert!(weak.upgrade().is_none());
     assert!(shared2.downgrade().is_none());
 }

 #[test]
 fn dont_clone_in_single_owner_shared_future() {
     let counter = CountClone(Rc::new(Cell::new(0)));
     let (tx, rx) = oneshot::channel();

     let rx = rx.shared();

     tx.send(counter).ok().unwrap();

     assert_eq!(block_on(rx).unwrap().0.get(), 0);
 }

 #[test]
 fn dont_do_unnecessary_clones_on_output() {
     let counter = CountClone(Rc::new(Cell::new(0)));
     let (tx, rx) = oneshot::channel();

     let rx = rx.shared();

     tx.send(counter).ok().unwrap();

     assert_eq!(block_on(rx.clone()).unwrap().0.get(), 1);
     assert_eq!(block_on(rx.clone()).unwrap().0.get(), 2);
     assert_eq!(block_on(rx).unwrap().0.get(), 2);
 }

 #[test]
 fn shared_future_that_wakes_itself_until_pending_is_returned() {
     let proceed = Cell::new(false);
     let fut = futures::future::poll_fn(|cx| {
         if proceed.get() {
             Poll::Ready(())
         } else {
             cx.waker().wake_by_ref();
             Poll::Pending
         }
     })
     .shared();

     // The join future can only complete if the second future gets a chance to run after the first
     // has returned pending
     assert_eq!(block_on(futures::future::join(fut, async { proceed.set(true) })), ((), ()));
 }
	use futures::channel::oneshot;
	use futures::executor::{block_on, LocalPool};
	use futures::future::{self, FutureExt, LocalFutureObj, TryFutureExt};
	use futures::task::LocalSpawn;
	use std::cell::{Cell, RefCell};
	use std::rc::Rc;
	use std::task::Poll;
	use std::thread;

	struct CountClone(Rc<Cell<i32>>);

	impl Clone for CountClone {
	fn clone(&self) -> Self {
	self.0.set(self.0.get() + 1);
	Self(self.0.clone())
	}
	}

	fn send_shared_oneshot_and_wait_on_multiple_threads(threads_number: u32) {
	let (tx, rx) = oneshot::channel::<i32>();
	let f = rx.shared();
	let join_handles = (0..threads_number)
	.map(\|_\| {
	let cloned_future = f.clone();
	thread::spawn(move \|\| {
	assert_eq!(block_on(cloned_future).unwrap(), 6);
	})
	})
	.collect::<Vec<_>>();

	tx.send(6).unwrap();

	assert_eq!(block_on(f).unwrap(), 6);
	for join_handle in join_handles {
	join_handle.join().unwrap();
	}
	}

	#[test]
	fn one_thread() {
	send_shared_oneshot_and_wait_on_multiple_threads(1);
	}

	#[test]
	fn two_threads() {
	send_shared_oneshot_and_wait_on_multiple_threads(2);
	}

	#[test]
	fn many_threads() {
	send_shared_oneshot_and_wait_on_multiple_threads(1000);
	}

	#[test]
	fn drop_on_one_task_ok() {
	let (tx, rx) = oneshot::channel::<u32>();
	let f1 = rx.shared();
	let f2 = f1.clone();

	let (tx2, rx2) = oneshot::channel::<u32>();

	let t1 = thread::spawn(\|\| {
	let f = future::try_select(f1.map_err(\|_\| ()), rx2.map_err(\|_\| ()));
	drop(block_on(f));
	});

	let (tx3, rx3) = oneshot::channel::<u32>();

	let t2 = thread::spawn(\|\| {
	let _ = block_on(f2.map_ok(\|x\| tx3.send(x).unwrap()).map_err(\|_\| ()));
	});

	tx2.send(11).unwrap(); // cancel `f1`
	t1.join().unwrap();

	tx.send(42).unwrap(); // Should cause `f2` and then `rx3` to get resolved.
	let result = block_on(rx3).unwrap();
	assert_eq!(result, 42);
	t2.join().unwrap();
	}

	#[test]
	fn drop_in_poll() {
	let slot1 = Rc::new(RefCell::new(None));
	let slot2 = slot1.clone();

	let future1 = future::lazy(move \|_\| {
	slot2.replace(None); // Drop future
	1
	})
	.shared();

	let future2 = LocalFutureObj::new(Box::new(future1.clone()));
	slot1.replace(Some(future2));

	assert_eq!(block_on(future1), 1);
	}

	#[test]
	fn peek() {
	let mut local_pool = LocalPool::new();
	let spawn = &mut local_pool.spawner();

	let (tx0, rx0) = oneshot::channel::<i32>();
	let f1 = rx0.shared();
	let f2 = f1.clone();

	// Repeated calls on the original or clone do not change the outcome.
	for _ in 0..2 {
	assert!(f1.peek().is_none());
	assert!(f2.peek().is_none());
	}

	// Completing the underlying future has no effect, because the value has not been `poll`ed in.
	tx0.send(42).unwrap();
	for _ in 0..2 {
	assert!(f1.peek().is_none());
	assert!(f2.peek().is_none());
	}

	// Once the Shared has been polled, the value is peekable on the clone.
	spawn.spawn_local_obj(LocalFutureObj::new(Box::new(f1.map(\|_\| ())))).unwrap();
	local_pool.run();
	for _ in 0..2 {
	assert_eq!(*f2.peek().unwrap(), Ok(42));
	}
	}

	#[test]
	fn downgrade() {
	let (tx, rx) = oneshot::channel::<i32>();
	let shared = rx.shared();
	// Since there are outstanding `Shared`s, we can get a `WeakShared`.
	let weak = shared.downgrade().unwrap();
	// It should upgrade fine right now.
	let mut shared2 = weak.upgrade().unwrap();

	tx.send(42).unwrap();
	assert_eq!(block_on(shared).unwrap(), 42);

	// We should still be able to get a new `WeakShared` and upgrade it
	// because `shared2` is outstanding.
	assert!(shared2.downgrade().is_some());
	assert!(weak.upgrade().is_some());

	assert_eq!(block_on(&mut shared2).unwrap(), 42);
	// Now that all `Shared`s have been exhausted, we should not be able
	// to get a new `WeakShared` or upgrade an existing one.
	assert!(weak.upgrade().is_none());
	assert!(shared2.downgrade().is_none());
	}

	#[test]
	fn dont_clone_in_single_owner_shared_future() {
	let counter = CountClone(Rc::new(Cell::new(0)));
	let (tx, rx) = oneshot::channel();

	let rx = rx.shared();

	tx.send(counter).ok().unwrap();

	assert_eq!(block_on(rx).unwrap().0.get(), 0);
	}

	#[test]
	fn dont_do_unnecessary_clones_on_output() {
	let counter = CountClone(Rc::new(Cell::new(0)));
	let (tx, rx) = oneshot::channel();

	let rx = rx.shared();

	tx.send(counter).ok().unwrap();

	assert_eq!(block_on(rx.clone()).unwrap().0.get(), 1);
	assert_eq!(block_on(rx.clone()).unwrap().0.get(), 2);
	assert_eq!(block_on(rx).unwrap().0.get(), 2);
	}

	#[test]
	fn shared_future_that_wakes_itself_until_pending_is_returned() {
	let proceed = Cell::new(false);
	let fut = futures::future::poll_fn(\|cx\| {
	if proceed.get() {
	Poll::Ready(())
	} else {
	cx.waker().wake_by_ref();
	Poll::Pending
	}
	})
	.shared();

	// The join future can only complete if the second future gets a chance to run after the first
	// has returned pending
	assert_eq!(block_on(futures::future::join(fut, async { proceed.set(true) })), ((), ()));
	}