verdnatura-chat/ios/Pods/Flipper-RSocket/yarpl/flowable/AsyncGeneratorShim.h

166 lines
5.9 KiB
C++

// Copyright 2004-present Facebook. All Rights Reserved.
#pragma once
#include <folly/executors/GlobalExecutor.h>
#include <folly/experimental/coro/AsyncGenerator.h>
#include <folly/experimental/coro/Baton.h>
#include <folly/experimental/coro/Task.h>
#include <folly/experimental/coro/WithCancellation.h>
#include <memory>
#include "yarpl/flowable/Flowable.h"
namespace yarpl {
namespace detail {
template <typename T>
class AsyncGeneratorShim {
public:
AsyncGeneratorShim(
folly::coro::AsyncGenerator<T&&>&& generator,
folly::SequencedExecutor* ex)
: generator_(std::move(generator)),
sharedState_(std::make_shared<SharedState>()) {
sharedState_->executor_ = folly::getKeepAliveToken(ex);
}
void subscribe(
std::shared_ptr<yarpl::flowable::Subscriber<T>> subscriber) && {
class Subscription : public yarpl::flowable::Subscription {
public:
explicit Subscription(std::weak_ptr<SharedState> state)
: state_(std::move(state)) {}
void request(int64_t n) override {
if (auto state = state_.lock()) {
state->executor_->add([n, state = std::move(state)]() {
if (state->requested_ == credits::kNoFlowControl ||
n == credits::kNoFlowControl) {
state->requested_ = credits::kNoFlowControl;
} else {
state->requested_ += n;
}
state->baton_.post();
});
}
}
void cancel() override {
if (auto state = state_.lock()) {
state->executor_->add([state = std::move(state)]() {
// requestCancellation will execute registered CancellationCallback
// inline, but CancellationCallback should be run in
// executor_ thread
state->cancelSource_.requestCancellation();
state->baton_.post();
});
}
}
private:
std::weak_ptr<SharedState> state_;
};
sharedState_->executor_->add(
[keepAlive = sharedState_->executor_.copy(),
subscriber,
subscription = std::make_shared<Subscription>(
std::weak_ptr<SharedState>(sharedState_))]() mutable {
subscriber->onSubscribe(std::move(subscription));
});
auto executor = sharedState_->executor_.get();
folly::coro::co_withCancellation(
sharedState_->cancelSource_.getToken(),
folly::coro::co_invoke(
[subscriber = std::move(subscriber),
self = std::move(*this)]() mutable -> folly::coro::Task<void> {
while (true) {
while (self.sharedState_->requested_ == 0 &&
!self.sharedState_->cancelSource_
.isCancellationRequested()) {
co_await self.sharedState_->baton_;
self.sharedState_->baton_.reset();
}
if (self.sharedState_->cancelSource_
.isCancellationRequested()) {
self.sharedState_->executor_->add(
[subscriber = std::move(subscriber)]() {
// destory subscriber on executor_ thread
});
co_return;
}
folly::Try<T> value;
try {
auto item = co_await self.generator_.next();
if (item.has_value()) {
value.emplace(std::move(*item));
}
} catch (const std::exception& ex) {
value.emplaceException(std::current_exception(), ex);
} catch (...) {
value.emplaceException(std::current_exception());
}
if (value.hasValue()) {
self.sharedState_->executor_->add(
[subscriber,
keepAlive = self.sharedState_->executor_.copy(),
value = std::move(value)]() mutable {
subscriber->onNext(std::move(value).value());
});
} else if (value.hasException()) {
self.sharedState_->executor_->add(
[subscriber = std::move(subscriber),
keepAlive = self.sharedState_->executor_.copy(),
value = std::move(value)]() mutable {
subscriber->onError(std::move(value).exception());
});
co_return;
} else {
self.sharedState_->executor_->add(
[subscriber = std::move(subscriber),
keepAlive =
self.sharedState_->executor_.copy()]() mutable {
subscriber->onComplete();
});
co_return;
}
if (self.sharedState_->requested_ != credits::kNoFlowControl) {
self.sharedState_->requested_--;
}
}
}))
.scheduleOn(std::move(executor))
.start();
}
private:
struct SharedState {
SharedState() = default;
explicit SharedState(folly::CancellationSource source)
: cancelSource_(std::move(source)) {}
folly::Executor::KeepAlive<folly::SequencedExecutor> executor_;
int64_t requested_{0};
folly::coro::Baton baton_{0};
folly::CancellationSource cancelSource_;
};
folly::coro::AsyncGenerator<T&&> generator_;
std::shared_ptr<SharedState> sharedState_;
};
} // namespace detail
template <typename T>
std::shared_ptr<yarpl::flowable::Flowable<T>> toFlowable(
folly::coro::AsyncGenerator<T&&> gen,
folly::SequencedExecutor* ex = folly::getEventBase()) {
return yarpl::flowable::internal::flowableFromSubscriber<T>(
[gen = std::move(gen),
ex](std::shared_ptr<yarpl::flowable::Subscriber<T>> subscriber) mutable {
detail::AsyncGeneratorShim<T>(std::move(gen), ex)
.subscribe(std::move(subscriber));
});
}
} // namespace yarpl