vendor/futures/tests/stream_try_stream.rs - toolchain/rustc - Git at Google

 use core::pin::Pin;
 use std::convert::Infallible;

 use futures::{
     stream::{self, repeat, Repeat, StreamExt, TryStreamExt},
     task::Poll,
     Stream,
 };
 use futures_executor::block_on;
 use futures_task::Context;
 use futures_test::task::noop_context;

 #[test]
 fn try_filter_map_after_err() {
     let cx = &mut noop_context();
     let mut s = stream::iter(1..=3)
         .map(Ok)
         .try_filter_map(|v| async move { Err::<Option<()>, _>(v) })
         .filter_map(|r| async move { r.ok() })
         .boxed();
     assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
 }

 #[test]
 fn try_skip_while_after_err() {
     let cx = &mut noop_context();
     let mut s = stream::iter(1..=3)
         .map(Ok)
         .try_skip_while(|_| async move { Err::<_, ()>(()) })
         .filter_map(|r| async move { r.ok() })
         .boxed();
     assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
 }

 #[test]
 fn try_take_while_after_err() {
     let cx = &mut noop_context();
     let mut s = stream::iter(1..=3)
         .map(Ok)
         .try_take_while(|_| async move { Err::<_, ()>(()) })
         .filter_map(|r| async move { r.ok() })
         .boxed();
     assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
 }

 #[test]
 fn try_flatten_unordered() {
     let test_st = stream::iter(1..7)
         .map(|val: u32| {
             if val % 2 == 0 {
                 Ok(stream::unfold((val, 1), |(val, pow)| async move {
                     Some((val.pow(pow), (val, pow + 1)))
                 })
                 .take(3)
                 .map(move |val| if val % 16 != 0 { Ok(val) } else { Err(val) }))
             } else {
                 Err(val)
             }
         })
         .map_ok(Box::pin)
         .try_flatten_unordered(None);

     block_on(async move {
         assert_eq!(
             // All numbers can be divided by 16 and odds must be `Err`
             // For all basic evens we must have powers from 1 to 3
             vec![
                 Err(1),
                 Err(3),
                 Err(5),
                 Ok(2),
                 Ok(4),
                 Ok(6),
                 Ok(4),
                 Err(16),
                 Ok(36),
                 Ok(8),
                 Err(64),
                 Ok(216)
             ],
             test_st.collect::<Vec<_>>().await
         )
     });

     #[derive(Clone, Debug)]
     struct ErrorStream {
         error_after: usize,
         polled: usize,
     }

     impl Stream for ErrorStream {
         type Item = Result<Repeat<Result<(), ()>>, ()>;

         fn poll_next(mut self: Pin<&mut Self>, _: &mut Context) -> Poll<Option<Self::Item>> {
             if self.polled > self.error_after {
                 panic!("Polled after error");
             } else {
                 let out =
                     if self.polled == self.error_after { Err(()) } else { Ok(repeat(Ok(()))) };
                 self.polled += 1;
                 Poll::Ready(Some(out))
             }
         }
     }

     block_on(async move {
         let mut st = ErrorStream { error_after: 3, polled: 0 }.try_flatten_unordered(None);
         let mut ctr = 0;
         while (st.try_next().await).is_ok() {
             ctr += 1;
         }
         assert_eq!(ctr, 0);

         assert_eq!(
             ErrorStream { error_after: 10, polled: 0 }
                 .try_flatten_unordered(None)
                 .inspect_ok(|_| panic!("Unexpected `Ok`"))
                 .try_collect::<Vec<_>>()
                 .await,
             Err(())
         );

         let mut taken = 0;
         assert_eq!(
             ErrorStream { error_after: 10, polled: 0 }
                 .map_ok(|st| st.take(3))
                 .try_flatten_unordered(1)
                 .inspect(|_| taken += 1)
                 .try_fold((), |(), res| async move { Ok(res) })
                 .await,
             Err(())
         );
         assert_eq!(taken, 31);
     })
 }

 async fn is_even(number: u8) -> bool {
     number % 2 == 0
 }

 #[test]
 fn try_all() {
     block_on(async {
         let empty: [Result<u8, Infallible>; 0] = [];
         let st = stream::iter(empty);
         let all = st.try_all(is_even).await;
         assert_eq!(Ok(true), all);

         let st = stream::iter([Ok::<_, Infallible>(2), Ok(4), Ok(6), Ok(8)]);
         let all = st.try_all(is_even).await;
         assert_eq!(Ok(true), all);

         let st = stream::iter([Ok::<_, Infallible>(2), Ok(3), Ok(4)]);
         let all = st.try_all(is_even).await;
         assert_eq!(Ok(false), all);

         let st = stream::iter([Ok(2), Ok(4), Err("err"), Ok(8)]);
         let all = st.try_all(is_even).await;
         assert_eq!(Err("err"), all);
     });
 }

 #[test]
 fn try_any() {
     block_on(async {
         let empty: [Result<u8, Infallible>; 0] = [];
         let st = stream::iter(empty);
         let any = st.try_any(is_even).await;
         assert_eq!(Ok(false), any);

         let st = stream::iter([Ok::<_, Infallible>(1), Ok(2), Ok(3)]);
         let any = st.try_any(is_even).await;
         assert_eq!(Ok(true), any);

         let st = stream::iter([Ok::<_, Infallible>(1), Ok(3), Ok(5)]);
         let any = st.try_any(is_even).await;
         assert_eq!(Ok(false), any);

         let st = stream::iter([Ok(1), Ok(3), Err("err"), Ok(8)]);
         let any = st.try_any(is_even).await;
         assert_eq!(Err("err"), any);
     });
 }
	use core::pin::Pin;
	use std::convert::Infallible;

	use futures::{
	stream::{self, repeat, Repeat, StreamExt, TryStreamExt},
	task::Poll,
	Stream,
	};
	use futures_executor::block_on;
	use futures_task::Context;
	use futures_test::task::noop_context;

	#[test]
	fn try_filter_map_after_err() {
	let cx = &mut noop_context();
	let mut s = stream::iter(1..=3)
	.map(Ok)
	.try_filter_map(\|v\| async move { Err::<Option<()>, _>(v) })
	.filter_map(\|r\| async move { r.ok() })
	.boxed();
	assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
	}

	#[test]
	fn try_skip_while_after_err() {
	let cx = &mut noop_context();
	let mut s = stream::iter(1..=3)
	.map(Ok)
	.try_skip_while(\|_\| async move { Err::<_, ()>(()) })
	.filter_map(\|r\| async move { r.ok() })
	.boxed();
	assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
	}

	#[test]
	fn try_take_while_after_err() {
	let cx = &mut noop_context();
	let mut s = stream::iter(1..=3)
	.map(Ok)
	.try_take_while(\|_\| async move { Err::<_, ()>(()) })
	.filter_map(\|r\| async move { r.ok() })
	.boxed();
	assert_eq!(Poll::Ready(None), s.poll_next_unpin(cx));
	}

	#[test]
	fn try_flatten_unordered() {
	let test_st = stream::iter(1..7)
	.map(\|val: u32\| {
	if val % 2 == 0 {
	Ok(stream::unfold((val, 1), \|(val, pow)\| async move {
	Some((val.pow(pow), (val, pow + 1)))
	})
	.take(3)
	.map(move \|val\| if val % 16 != 0 { Ok(val) } else { Err(val) }))
	} else {
	Err(val)
	}
	})
	.map_ok(Box::pin)
	.try_flatten_unordered(None);

	block_on(async move {
	assert_eq!(
	// All numbers can be divided by 16 and odds must be `Err`
	// For all basic evens we must have powers from 1 to 3
	vec![
	Err(1),
	Err(3),
	Err(5),
	Ok(2),
	Ok(4),
	Ok(6),
	Ok(4),
	Err(16),
	Ok(36),
	Ok(8),
	Err(64),
	Ok(216)
	],
	test_st.collect::<Vec<_>>().await
	)
	});

	#[derive(Clone, Debug)]
	struct ErrorStream {
	error_after: usize,
	polled: usize,
	}

	impl Stream for ErrorStream {
	type Item = Result<Repeat<Result<(), ()>>, ()>;

	fn poll_next(mut self: Pin<&mut Self>, _: &mut Context) -> Poll<Option<Self::Item>> {
	if self.polled > self.error_after {
	panic!("Polled after error");
	} else {
	let out =
	if self.polled == self.error_after { Err(()) } else { Ok(repeat(Ok(()))) };
	self.polled += 1;
	Poll::Ready(Some(out))
	}
	}
	}

	block_on(async move {
	let mut st = ErrorStream { error_after: 3, polled: 0 }.try_flatten_unordered(None);
	let mut ctr = 0;
	while (st.try_next().await).is_ok() {
	ctr += 1;
	}
	assert_eq!(ctr, 0);

	assert_eq!(
	ErrorStream { error_after: 10, polled: 0 }
	.try_flatten_unordered(None)
	.inspect_ok(\|_\| panic!("Unexpected `Ok`"))
	.try_collect::<Vec<_>>()
	.await,
	Err(())
	);

	let mut taken = 0;
	assert_eq!(
	ErrorStream { error_after: 10, polled: 0 }
	.map_ok(\|st\| st.take(3))
	.try_flatten_unordered(1)
	.inspect(\|_\| taken += 1)
	.try_fold((), \|(), res\| async move { Ok(res) })
	.await,
	Err(())
	);
	assert_eq!(taken, 31);
	})
	}

	async fn is_even(number: u8) -> bool {
	number % 2 == 0
	}

	#[test]
	fn try_all() {
	block_on(async {
	let empty: [Result<u8, Infallible>; 0] = [];
	let st = stream::iter(empty);
	let all = st.try_all(is_even).await;
	assert_eq!(Ok(true), all);

	let st = stream::iter([Ok::<_, Infallible>(2), Ok(4), Ok(6), Ok(8)]);
	let all = st.try_all(is_even).await;
	assert_eq!(Ok(true), all);

	let st = stream::iter([Ok::<_, Infallible>(2), Ok(3), Ok(4)]);
	let all = st.try_all(is_even).await;
	assert_eq!(Ok(false), all);

	let st = stream::iter([Ok(2), Ok(4), Err("err"), Ok(8)]);
	let all = st.try_all(is_even).await;
	assert_eq!(Err("err"), all);
	});
	}

	#[test]
	fn try_any() {
	block_on(async {
	let empty: [Result<u8, Infallible>; 0] = [];
	let st = stream::iter(empty);
	let any = st.try_any(is_even).await;
	assert_eq!(Ok(false), any);

	let st = stream::iter([Ok::<_, Infallible>(1), Ok(2), Ok(3)]);
	let any = st.try_any(is_even).await;
	assert_eq!(Ok(true), any);

	let st = stream::iter([Ok::<_, Infallible>(1), Ok(3), Ok(5)]);
	let any = st.try_any(is_even).await;
	assert_eq!(Ok(false), any);

	let st = stream::iter([Ok(1), Ok(3), Err("err"), Ok(8)]);
	let any = st.try_any(is_even).await;
	assert_eq!(Err("err"), any);
	});
	}