[−][src]Function tokio::prelude::stream::unfold
pub fn unfold<T, F, Fut, It>(init: T, f: F) -> Unfold<T, F, Fut> where
F: FnMut(T) -> Option<Fut>,
Fut: IntoFuture<Item = (It, T)>,
Creates a Stream
from a seed and a closure returning a Future
.
This function is the dual for the Stream::fold()
adapter: while
Stream::fold()
reduces a Stream
to one single value, unfold()
creates a
Stream
from a seed value.
unfold()
will call the provided closure with the provided seed, then wait
for the returned Future
to complete with (a, b)
. It will then yield the
value a
, and use b
as the next internal state.
If the closure returns None
instead of Some(Future)
, then the unfold()
will stop producing items and return Ok(Async::Ready(None))
in future
calls to poll()
.
In case of error generated by the returned Future
, the error will be
returned by the Stream
. The Stream
will then yield
Ok(Async::Ready(None))
in future calls to poll()
.
This function can typically be used when wanting to go from the "world of
futures" to the "world of streams": the provided closure can build a
Future
using other library functions working on futures, and unfold()
will turn it into a Stream
by repeating the operation.
Example
use futures::stream::{self, Stream}; use futures::future::{self, Future}; let mut stream = stream::unfold(0, |state| { if state <= 2 { let next_state = state + 1; let yielded = state * 2; let fut = future::ok::<_, u32>((yielded, next_state)); Some(fut) } else { None } }); let result = stream.collect().wait(); assert_eq!(result, Ok(vec![0, 2, 4]));