pub trait Input: Scope {
// Required methods
fn new_input<C: Container>(
&mut self,
) -> (Handle<<Self as ScopeParent>::Timestamp, CapacityContainerBuilder<C>>, StreamCore<Self, C>);
fn new_input_with_builder<CB: ContainerBuilder>(
&mut self,
) -> (Handle<<Self as ScopeParent>::Timestamp, CB>, StreamCore<Self, CB::Container>);
fn input_from<CB: ContainerBuilder>(
&mut self,
handle: &mut Handle<<Self as ScopeParent>::Timestamp, CB>,
) -> StreamCore<Self, CB::Container>;
}
Expand description
Create a new Stream
and Handle
through which to supply input.
Required Methods§
sourcefn new_input<C: Container>(
&mut self,
) -> (Handle<<Self as ScopeParent>::Timestamp, CapacityContainerBuilder<C>>, StreamCore<Self, C>)
fn new_input<C: Container>( &mut self, ) -> (Handle<<Self as ScopeParent>::Timestamp, CapacityContainerBuilder<C>>, StreamCore<Self, C>)
Create a new StreamCore and Handle through which to supply input.
The new_input
method returns a pair (Handle, StreamCore)
where the StreamCore can be used
immediately for timely dataflow construction, and the Handle
is later used to introduce
data into the timely dataflow computation.
The Handle
also provides a means to indicate
to timely dataflow that the input has advanced beyond certain timestamps, allowing timely
to issue progress notifications.
§Examples
use timely::*;
use timely::dataflow::operators::core::{Input, Inspect};
// construct and execute a timely dataflow
timely::execute(Config::thread(), |worker| {
// add an input and base computation off of it
let mut input = worker.dataflow(|scope| {
let (input, stream) = scope.new_input::<Vec<_>>();
stream.inspect(|x| println!("hello {:?}", x));
input
});
// introduce input, advance computation
for round in 0..10 {
input.send(round);
input.advance_to(round + 1);
worker.step();
}
});
sourcefn new_input_with_builder<CB: ContainerBuilder>(
&mut self,
) -> (Handle<<Self as ScopeParent>::Timestamp, CB>, StreamCore<Self, CB::Container>)
fn new_input_with_builder<CB: ContainerBuilder>( &mut self, ) -> (Handle<<Self as ScopeParent>::Timestamp, CB>, StreamCore<Self, CB::Container>)
Create a new StreamCore and Handle through which to supply input.
The new_input
method returns a pair (Handle, StreamCore)
where the StreamCore can be used
immediately for timely dataflow construction, and the Handle
is later used to introduce
data into the timely dataflow computation.
The Handle
also provides a means to indicate
to timely dataflow that the input has advanced beyond certain timestamps, allowing timely
to issue progress notifications.
§Examples
use std::rc::Rc;
use timely::*;
use timely::dataflow::operators::core::{Input, Inspect};
use timely::container::CapacityContainerBuilder;
// construct and execute a timely dataflow
timely::execute(Config::thread(), |worker| {
// add an input and base computation off of it
let mut input = worker.dataflow(|scope| {
let (input, stream) = scope.new_input_with_builder::<CapacityContainerBuilder<Rc<Vec<_>>>>();
stream.inspect(|x| println!("hello {:?}", x));
input
});
// introduce input, advance computation
for round in 0..10 {
input.send_batch(&mut Rc::new(vec![round]));
input.advance_to(round + 1);
worker.step();
}
});
sourcefn input_from<CB: ContainerBuilder>(
&mut self,
handle: &mut Handle<<Self as ScopeParent>::Timestamp, CB>,
) -> StreamCore<Self, CB::Container>
fn input_from<CB: ContainerBuilder>( &mut self, handle: &mut Handle<<Self as ScopeParent>::Timestamp, CB>, ) -> StreamCore<Self, CB::Container>
Create a new stream from a supplied interactive handle.
This method creates a new timely stream whose data are supplied interactively through the handle
argument. Each handle may be used multiple times (or not at all), and will clone data as appropriate
if it as attached to more than one stream.
§Examples
use timely::*;
use timely::dataflow::operators::core::{Input, Inspect};
use timely::dataflow::operators::core::input::Handle;
// construct and execute a timely dataflow
timely::execute(Config::thread(), |worker| {
// add an input and base computation off of it
let mut input = Handle::new();
worker.dataflow(|scope| {
scope.input_from(&mut input)
.container::<Vec<_>>()
.inspect(|x| println!("hello {:?}", x));
});
// introduce input, advance computation
for round in 0..10 {
input.send(round);
input.advance_to(round + 1);
worker.step();
}
});