use crate::{
ogre_std::{
ogre_queues::{
full_sync::full_sync_zero_copy::FullSyncZeroCopy,
meta_publisher::MetaPublisher,
meta_subscriber::MetaSubscriber,
meta_container::MetaContainer,
},
ogre_alloc::{
ogre_unique::OgreUnique,
OgreAllocator,
}
},
streams_manager::StreamsManagerBase,
types::{
ChannelCommon,
ChannelUni,
ChannelProducer,
ChannelConsumer,
FullDuplexUniChannel,
},
mutiny_stream::MutinyStream,
};
use std::{
time::Duration,
fmt::Debug,
task::Waker,
sync::Arc,
};
use std::marker::PhantomData;
use async_trait::async_trait;
pub struct FullSync<'a, ItemType: Debug + Send + Sync,
OgreAllocatorType: OgreAllocator<ItemType> + 'a,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize> {
streams_manager: Arc<StreamsManagerBase<MAX_STREAMS>>,
channel: FullSyncZeroCopy<ItemType, OgreAllocatorType, BUFFER_SIZE>,
_phantom: PhantomData<&'a OgreAllocatorType>,
}
#[async_trait]
impl<'a, ItemType: Debug + Send + Sync,
OgreAllocatorType: OgreAllocator<ItemType> + 'a + Send + Sync,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize>
ChannelCommon<'a, ItemType, OgreUnique<ItemType, OgreAllocatorType>>
for FullSync<'a, ItemType, OgreAllocatorType, BUFFER_SIZE, MAX_STREAMS> {
fn new<IntoString: Into<String>>(streams_manager_name: IntoString) -> Arc<Self> {
Arc::new(Self {
streams_manager: Arc::new(StreamsManagerBase::new(streams_manager_name)),
channel: FullSyncZeroCopy::new(),
_phantom: PhantomData,
})
}
async fn flush(&self, timeout: Duration) -> u32 {
self.streams_manager.flush(timeout, || self.pending_items_count()).await
}
#[inline(always)]
fn is_channel_open(&self) -> bool {
self.streams_manager.is_any_stream_running()
}
async fn gracefully_end_stream(&self, stream_id: u32, timeout: Duration) -> bool {
self.streams_manager.end_stream(stream_id, timeout, || self.pending_items_count()).await
}
async fn gracefully_end_all_streams(&self, timeout: Duration) -> u32 {
self.streams_manager.end_all_streams(timeout, || self.pending_items_count()).await
}
fn cancel_all_streams(&self) {
self.streams_manager.cancel_all_streams();
}
fn running_streams_count(&self) -> u32 {
self.streams_manager.running_streams_count()
}
#[inline(always)]
fn pending_items_count(&self) -> u32 {
self.channel.available_elements_count() as u32
}
#[inline(always)]
fn buffer_size(&self) -> u32 {
BUFFER_SIZE as u32
}
}
impl<'a, ItemType: Debug + Send + Sync,
OgreAllocatorType: OgreAllocator<ItemType> + 'a + Send + Sync,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize>
ChannelUni<'a, ItemType, OgreUnique<ItemType, OgreAllocatorType>>
for FullSync<'a, ItemType, OgreAllocatorType, BUFFER_SIZE, MAX_STREAMS> {
fn create_stream(self: &Arc<Self>)
-> (MutinyStream<'a, ItemType, Self, OgreUnique<ItemType, OgreAllocatorType>>, u32)
where Self: ChannelConsumer<'a, OgreUnique<ItemType, OgreAllocatorType>> {
let stream_id = self.streams_manager.create_stream_id();
(MutinyStream::new(stream_id, self), stream_id)
}
}
impl<'a, ItemType: 'a + Debug + Send + Sync,
OgreAllocatorType: 'a + OgreAllocator<ItemType> + Send + Sync,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize>
ChannelProducer<'a, ItemType, OgreUnique<ItemType, OgreAllocatorType>>
for FullSync<'a, ItemType, OgreAllocatorType, BUFFER_SIZE, MAX_STREAMS> {
#[inline(always)]
fn send(&self, item: ItemType) -> keen_retry::RetryConsumerResult<(), ItemType, ()> {
match self.channel.publish_movable(item) {
(Some(len_after), _none_item) => {
let len_after = len_after.get();
if len_after <= MAX_STREAMS as u32 {
self.streams_manager.wake_stream(len_after-1)
}
keen_retry::RetryResult::Ok { reported_input: (), output: () }
},
(None, some_item) => {
keen_retry::RetryResult::Transient { input: some_item.expect("reactive-mutiny: uni zero-copy full_sync::send() BUG! None `some_item`"), error: () }
},
}
}
#[inline(always)]
fn send_with<F: FnOnce(&mut ItemType)>(&self, setter: F) -> keen_retry::RetryConsumerResult<(), F, ()> {
match self.channel.publish(setter) {
(Some(len_after), _none_setter) => {
let len_after = len_after.get();
if len_after <= MAX_STREAMS as u32 {
self.streams_manager.wake_stream(len_after-1)
}
keen_retry::RetryResult::Ok { reported_input: (), output: () }
},
(None, some_setter) => {
keen_retry::RetryResult::Transient { input: some_setter.expect("reactive-mutiny: uni zero-copy full_sync::send_with() BUG! None `some_setter`"), error: () }
},
}
}
}
impl<'a, ItemType: 'a + Debug + Send + Sync,
OgreAllocatorType: 'a + OgreAllocator<ItemType> + Send + Sync,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize>
ChannelConsumer<'a, OgreUnique<ItemType, OgreAllocatorType>>
for FullSync<'a, ItemType, OgreAllocatorType, BUFFER_SIZE, MAX_STREAMS> {
#[inline(always)]
fn consume(&self, _stream_id: u32) -> Option<OgreUnique<ItemType, OgreAllocatorType>> {
self.channel.consume_leaking().map(|(slot_ref, _slot_id)| OgreUnique::<ItemType, OgreAllocatorType>::from_allocated_ref(slot_ref, &self.channel.allocator))
}
#[inline(always)]
fn keep_stream_running(&self, stream_id: u32) -> bool {
self.streams_manager.keep_stream_running(stream_id)
}
#[inline(always)]
fn register_stream_waker(&self, stream_id: u32, waker: &Waker) {
self.streams_manager.register_stream_waker(stream_id, waker)
}
#[inline(always)]
fn drop_resources(&self, stream_id: u32) {
self.streams_manager.report_stream_dropped(stream_id);
}
}
impl <ItemType: 'static + Debug + Send + Sync,
OgreAllocatorType: OgreAllocator<ItemType> + 'static + Send + Sync,
const BUFFER_SIZE: usize,
const MAX_STREAMS: usize>
FullDuplexUniChannel
for FullSync<'static, ItemType, OgreAllocatorType, BUFFER_SIZE, MAX_STREAMS> {
const MAX_STREAMS: usize = MAX_STREAMS;
const BUFFER_SIZE: usize = BUFFER_SIZE;
type ItemType = ItemType;
type DerivedItemType = OgreUnique<ItemType, OgreAllocatorType>;
fn name(&self) -> &str {
self.streams_manager.name()
}
}