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Optimize filtered connections from outputs

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This commit is contained in:
Serge Barral 2024-08-07 10:11:53 +02:00
parent 2270a94b8d
commit b5187ded44
4 changed files with 269 additions and 78 deletions
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36
asynchronix/src/ports/output.rs
View File

@ -10,6 +10,7 @@ use crate::simulation::Address;
use crate::util::cached_rw_lock::CachedRwLock;
use broadcaster::{EventBroadcaster, QueryBroadcaster};
use sender::FilterMapReplierSender;
use self::sender::{
EventSinkSender, FilterMapEventSinkSender, FilterMapInputSender, InputSender,
@ -262,6 +263,41 @@ impl<T: Clone + Send + 'static, R: Send + 'static> Requestor<T, R> {
self.broadcaster.write().unwrap().add(sender)
}
/// Adds an auto-converting, filtered connection to a replier port of the
/// model specified by the address.
///
/// Queries and replies are mapped to other types using the closures
/// provided in argument, or ignored if the query closure returns `None`.
///
/// The replier port must be an asynchronous method of a model of type `M`
/// returning a value of the type returned by the reply mapping closure and
/// taking as argument a value of the type returned by the query mapping
/// closure plus, optionally, a context reference.
pub fn filter_map_connect<M, C, D, F, U, Q, S>(
&mut self,
query_filer_map: C,
reply_map: D,
replier: F,
address: impl Into<Address<M>>,
) -> LineId
where
M: Model,
C: Fn(T) -> Option<U> + Send + Sync + 'static,
D: Fn(Q) -> R + Send + Sync + 'static,
F: for<'a> ReplierFn<'a, M, U, Q, S> + Clone,
U: Send + 'static,
Q: Send + 'static,
S: Send + 'static,
{
let sender = Box::new(FilterMapReplierSender::new(
query_filer_map,
reply_map,
replier,
address.into().0,
));
self.broadcaster.write().unwrap().add(sender)
}
/// Removes the connection specified by the `LineId` parameter.
///
/// It is a logic error to specify a line identifier from another

118
asynchronix/src/ports/output/broadcaster.rs
View File

@ -46,13 +46,11 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
self.senders.push((line_id, sender));
self.shared.outputs.push(None);
self.shared.task_set.resize(self.senders.len());
// The storage is alway an empty vector so we just book some capacity.
self.shared
.storage
.as_mut()
.map(|s| s.try_reserve(self.senders.len()).unwrap());
self.shared.storage.as_mut().map(|s| {
let _ = s.try_reserve(self.senders.len());
});
line_id
}
@ -65,7 +63,6 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
if let Some(pos) = self.senders.iter().position(|s| s.0 == id) {
self.senders.swap_remove(pos);
self.shared.outputs.truncate(self.senders.len());
self.shared.task_set.resize(self.senders.len());
return true;
}
@ -77,7 +74,6 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
pub(super) fn clear(&mut self) {
self.senders.clear();
self.shared.outputs.clear();
self.shared.task_set.resize(0);
}
/// Returns the number of connected senders.
@ -85,10 +81,15 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
self.senders.len()
}
/// Efficiently broadcasts a message or a query to multiple addresses.
///
/// This method does not collect the responses from queries.
fn broadcast(&mut self, arg: T) -> BroadcastFuture<'_, R> {
/// Return a list of futures broadcasting an event or query to multiple
/// addresses.
fn futures(
&mut self,
arg: T,
) -> (
&'_ mut Shared<R>,
Vec<RecycledFuture<'_, Result<R, SendError>>>,
) {
let mut futures = recycle_vec(self.shared.storage.take().unwrap_or_default());
// Broadcast the message and collect all futures.
@ -96,15 +97,18 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
while let Some(sender) = iter.next() {
// Move the argument rather than clone it for the last future.
if iter.len() == 0 {
futures.push(sender.1.send(arg));
if let Some(fut) = sender.1.send(arg) {
futures.push(fut);
}
break;
}
futures.push(sender.1.send(arg.clone()));
if let Some(fut) = sender.1.send(arg.clone()) {
futures.push(fut);
}
}
// Generate the global future.
BroadcastFuture::new(&mut self.shared, futures)
(&mut self.shared, futures)
}
}
@ -183,10 +187,22 @@ impl<T: Clone> EventBroadcaster<T> {
match self.inner.senders.as_mut_slice() {
// No sender.
[] => Ok(()),
// One sender.
[sender] => sender.1.send(arg).await.map_err(|_| BroadcastError {}),
// Multiple senders.
_ => self.inner.broadcast(arg).await,
// One sender at most.
[sender] => match sender.1.send(arg) {
None => Ok(()),
Some(fut) => fut.await.map_err(|_| BroadcastError {}),
},
// Possibly multiple senders.
_ => {
let (shared, mut futures) = self.inner.futures(arg);
match futures.as_mut_slice() {
[] => Ok(()),
[fut] => fut.await.map_err(|_| BroadcastError {}),
_ => BroadcastFuture::new(shared, futures).await,
}
}
}
}
}
@ -244,25 +260,49 @@ impl<T: Clone, R> QueryBroadcaster<T, R> {
&mut self,
arg: T,
) -> Result<impl Iterator<Item = R> + '_, BroadcastError> {
match self.inner.senders.as_mut_slice() {
let output_count = match self.inner.senders.as_mut_slice() {
// No sender.
[] => {}
// One sender.
[] => 0,
// One sender at most.
[sender] => {
let output = sender.1.send(arg).await.map_err(|_| BroadcastError {})?;
self.inner.shared.outputs[0] = Some(output);
if let Some(fut) = sender.1.send(arg) {
let output = fut.await.map_err(|_| BroadcastError {})?;
self.inner.shared.outputs[0] = Some(output);
1
} else {
0
}
}
// Possibly multiple senders.
_ => {
let (shared, mut futures) = self.inner.futures(arg);
let output_count = futures.len();
match futures.as_mut_slice() {
[] => {}
[fut] => {
let output = fut.await.map_err(|_| BroadcastError {})?;
shared.outputs[0] = Some(output);
}
_ => {
BroadcastFuture::new(shared, futures).await?;
}
}
output_count
}
// Multiple senders.
_ => self.inner.broadcast(arg).await?,
};
// At this point all outputs should be available so `unwrap` can be
// called on the output of each future.
// At this point all outputs should be available.
let outputs = self
.inner
.shared
.outputs
.iter_mut()
.take(output_count)
.map(|t| t.take().unwrap());
Ok(outputs)
@ -311,7 +351,7 @@ impl<R> Clone for Shared<R> {
Self {
wake_sink,
task_set: TaskSet::with_len(wake_src, self.task_set.len()),
task_set: TaskSet::new(wake_src),
outputs,
storage: None,
}
@ -345,11 +385,11 @@ impl<'a, R> BroadcastFuture<'a, R> {
futures: Vec<RecycledFuture<'a, Result<R, SendError>>>,
) -> Self {
let pending_futures_count = futures.len();
shared.task_set.resize(pending_futures_count);
assert!(shared.outputs.len() == pending_futures_count);
for output in shared.outputs.iter_mut() {
// Drop the previous output if necessary.
for output in shared.outputs.iter_mut().take(pending_futures_count) {
// Empty the output slots to be used. This is necessary in case the
// previous broadcast future was cancelled.
output.take();
}
@ -379,7 +419,11 @@ impl<'a, R> Future for BroadcastFuture<'a, R> {
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = &mut *self;
assert_ne!(this.state, FutureState::Completed);
assert_ne!(
this.state,
FutureState::Completed,
"broadcast future polled after completion"
);
// Poll all sender futures once if this is the first time the broadcast
// future is polled.
@ -681,15 +725,15 @@ mod tests {
fut_storage: Option<RecycleBox<()>>,
}
impl<R: Send> Sender<(), R> for TestEvent<R> {
fn send(&mut self, _arg: ()) -> RecycledFuture<'_, Result<R, SendError>> {
fn send(&mut self, _arg: ()) -> Option<RecycledFuture<'_, Result<R, SendError>>> {
let fut_storage = &mut self.fut_storage;
let receiver = &mut self.receiver;
RecycledFuture::new(fut_storage, async {
Some(RecycledFuture::new(fut_storage, async {
let mut stream = Box::pin(receiver.filter_map(|item| async { item }));
Ok(stream.next().await.unwrap())
})
}))
}
}

190
asynchronix/src/ports/output/sender.rs
View File

@ -1,6 +1,6 @@
use std::error::Error;
use std::fmt;
use std::future::{ready, Future};
use std::future::Future;
use std::marker::PhantomData;
use std::mem::ManuallyDrop;
use std::pin::Pin;
@ -18,7 +18,7 @@ use crate::ports::{EventSinkWriter, InputFn, ReplierFn};
/// replier method.
pub(super) trait Sender<T, R>: DynClone + Send {
/// Asynchronously send the event or request.
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<R, SendError>>;
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<R, SendError>>>;
}
dyn_clone::clone_trait_object!(<T, R> Sender<T, R>);
@ -57,7 +57,7 @@ where
T: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
let func = self.func.clone();
let fut = self.sender.send(move |model, scheduler, recycle_box| {
@ -66,9 +66,9 @@ where
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(&mut self.fut_storage, async move {
Some(RecycledFuture::new(&mut self.fut_storage, async move {
fut.await.map_err(|_| SendError {})
})
}))
}
}
@ -128,7 +128,7 @@ where
U: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
let func = self.func.clone();
let arg = (self.map)(arg);
@ -138,9 +138,9 @@ where
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(&mut self.fut_storage, async move {
Some(RecycledFuture::new(&mut self.fut_storage, async move {
fut.await.map_err(|_| SendError {})
})
}))
}
}
@ -202,23 +202,20 @@ where
U: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
let func = self.func.clone();
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
(self.filter_map)(arg).map(|arg| {
let func = self.func.clone();
match (self.filter_map)(arg) {
Some(arg) => {
let fut = self.sender.send(move |model, scheduler, recycle_box| {
let fut = func.call(model, arg, scheduler);
let fut = self.sender.send(move |model, scheduler, recycle_box| {
let fut = func.call(model, arg, scheduler);
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(&mut self.fut_storage, async move {
fut.await.map_err(|_| SendError {})
})
}
None => RecycledFuture::new(&mut self.fut_storage, ready(Ok(()))),
}
RecycledFuture::new(&mut self.fut_storage, async move {
fut.await.map_err(|_| SendError {})
})
})
}
}
@ -262,14 +259,14 @@ where
T: Send + 'static,
W: EventSinkWriter<T>,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
let writer = &mut self.writer;
RecycledFuture::new(&mut self.fut_storage, async move {
Some(RecycledFuture::new(&mut self.fut_storage, async move {
writer.write(arg);
Ok(())
})
}))
}
}
@ -315,15 +312,15 @@ where
C: Fn(T) -> U + Send + Sync,
W: EventSinkWriter<U>,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
let writer = &mut self.writer;
let arg = (self.map)(arg);
RecycledFuture::new(&mut self.fut_storage, async move {
Some(RecycledFuture::new(&mut self.fut_storage, async move {
writer.write(arg);
Ok(())
})
}))
}
}
@ -374,17 +371,16 @@ where
C: Fn(T) -> Option<U> + Send + Sync,
W: EventSinkWriter<U>,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<(), SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<(), SendError>>> {
let writer = &mut self.writer;
match (self.filter_map)(arg) {
Some(arg) => RecycledFuture::new(&mut self.fut_storage, async move {
(self.filter_map)(arg).map(|arg| {
RecycledFuture::new(&mut self.fut_storage, async move {
writer.write(arg);
Ok(())
}),
None => RecycledFuture::new(&mut self.fut_storage, ready(Ok(()))),
}
})
})
}
}
@ -440,7 +436,7 @@ where
R: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<R, SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<R, SendError>>> {
let func = self.func.clone();
let sender = &mut self.sender;
let reply_receiver = &mut self.receiver;
@ -459,7 +455,7 @@ where
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(fut_storage, async move {
Some(RecycledFuture::new(fut_storage, async move {
// Send the message.
send_fut.await.map_err(|_| SendError {})?;
@ -467,7 +463,7 @@ where
// If an error is received, it most likely means the mailbox was
// dropped before the message was processed.
reply_receiver.recv().await.map_err(|_| SendError {})
})
}))
}
}
@ -538,7 +534,7 @@ where
Q: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> RecycledFuture<'_, Result<R, SendError>> {
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<R, SendError>>> {
let func = self.func.clone();
let arg = (self.query_map)(arg);
let sender = &mut self.sender;
@ -559,7 +555,7 @@ where
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(fut_storage, async move {
Some(RecycledFuture::new(fut_storage, async move {
// Send the message.
send_fut.await.map_err(|_| SendError {})?;
@ -571,7 +567,7 @@ where
.await
.map_err(|_| SendError {})
.map(reply_map)
})
}))
}
}
@ -596,6 +592,120 @@ where
}
}
/// An object that can filter and send mapped requests to a replier port and
/// retrieve mapped responses.
pub(super) struct FilterMapReplierSender<M, C, D, F, T, R, U, Q, S>
where
M: Model,
{
query_filter_map: Arc<C>,
reply_map: Arc<D>,
func: F,
sender: channel::Sender<M>,
receiver: multishot::Receiver<Q>,
fut_storage: Option<RecycleBox<()>>,
_phantom_query_map: PhantomData<fn(T) -> U>,
_phantom_reply_map: PhantomData<fn(Q) -> R>,
_phantom_closure: PhantomData<fn(&mut M, U) -> Q>,
_phantom_closure_marker: PhantomData<S>,
}
impl<M, C, D, F, T, R, U, Q, S> FilterMapReplierSender<M, C, D, F, T, R, U, Q, S>
where
M: Model,
{
pub(super) fn new(
query_filter_map: C,
reply_map: D,
func: F,
sender: channel::Sender<M>,
) -> Self {
Self {
query_filter_map: Arc::new(query_filter_map),
reply_map: Arc::new(reply_map),
func,
sender,
receiver: multishot::Receiver::new(),
fut_storage: None,
_phantom_query_map: PhantomData,
_phantom_reply_map: PhantomData,
_phantom_closure: PhantomData,
_phantom_closure_marker: PhantomData,
}
}
}
impl<M, C, D, F, T, R, U, Q, S> Sender<T, R> for FilterMapReplierSender<M, C, D, F, T, R, U, Q, S>
where
M: Model,
C: Fn(T) -> Option<U> + Send + Sync,
D: Fn(Q) -> R + Send + Sync,
F: for<'a> ReplierFn<'a, M, U, Q, S> + Clone,
T: Send + 'static,
R: Send + 'static,
U: Send + 'static,
Q: Send + 'static,
S: Send,
{
fn send(&mut self, arg: T) -> Option<RecycledFuture<'_, Result<R, SendError>>> {
(self.query_filter_map)(arg).map(|arg| {
let func = self.func.clone();
let sender = &mut self.sender;
let reply_receiver = &mut self.receiver;
let fut_storage = &mut self.fut_storage;
let reply_map = &*self.reply_map;
// The previous future generated by this method should have been polled
// to completion so a new sender should be readily available.
let reply_sender = reply_receiver.sender().unwrap();
let send_fut = sender.send(move |model, scheduler, recycle_box| {
let fut = async move {
let reply = func.call(model, arg, scheduler).await;
reply_sender.send(reply);
};
coerce_box!(RecycleBox::recycle(recycle_box, fut))
});
RecycledFuture::new(fut_storage, async move {
// Send the message.
send_fut.await.map_err(|_| SendError {})?;
// Wait until the message is processed and the reply is sent back.
// If an error is received, it most likely means the mailbox was
// dropped before the message was processed.
reply_receiver
.recv()
.await
.map_err(|_| SendError {})
.map(reply_map)
})
})
}
}
impl<M, C, D, F, T, R, U, Q, S> Clone for FilterMapReplierSender<M, C, D, F, T, R, U, Q, S>
where
M: Model,
F: Clone,
{
fn clone(&self) -> Self {
Self {
query_filter_map: self.query_filter_map.clone(),
reply_map: self.reply_map.clone(),
func: self.func.clone(),
sender: self.sender.clone(),
receiver: multishot::Receiver::new(),
fut_storage: None,
_phantom_query_map: PhantomData,
_phantom_reply_map: PhantomData,
_phantom_closure: PhantomData,
_phantom_closure_marker: PhantomData,
}
}
}
/// Error returned when the mailbox was closed or dropped.
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub(super) struct SendError {}

3
asynchronix/src/ports/source/broadcaster.rs
View File

@ -71,7 +71,8 @@ impl<T: Clone, R> BroadcasterInner<T, R> {
self.senders.len()
}
/// Return a list of futures broadcasting an event or query to multiple addresses.
/// Return a list of futures broadcasting an event or query to multiple
/// addresses.
fn futures(&mut self, arg: T) -> Vec<SenderFutureState<R>> {
let mut future_states = Vec::new();