vn-verdnaturachat/ios/Pods/Folly/folly/MPMCPipeline.h

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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include <utility>
#include <glog/logging.h>
#include <folly/Portability.h>
#include <folly/detail/MPMCPipelineDetail.h>
namespace folly {
/**
* Helper tag template to use amplification > 1
*/
template <class T, size_t Amp>
class MPMCPipelineStage;
/**
* Multi-Producer, Multi-Consumer pipeline.
*
* A N-stage pipeline is a combination of N+1 MPMC queues (see MPMCQueue.h).
*
* At each stage, you may dequeue the results from the previous stage (possibly
* from multiple threads) and enqueue results to the next stage. Regardless of
* the order of completion, data is delivered to the next stage in the original
* order. Each input is matched with a "ticket" which must be produced
* when enqueueing to the next stage.
*
* A given stage must produce exactly K ("amplification factor", default K=1)
* results for every input. This is enforced by requiring that each ticket
* is used exactly K times.
*
* Usage:
*
* // arguments are queue sizes
* MPMCPipeline<int, std::string, int> pipeline(10, 10, 10);
*
* pipeline.blockingWrite(42);
*
* {
* int val;
* auto ticket = pipeline.blockingReadStage<0>(val);
* pipeline.blockingWriteStage<0>(ticket, folly::to<std::string>(val));
* }
*
* {
* std::string val;
* auto ticket = pipeline.blockingReadStage<1>(val);
* int ival = 0;
* try {
* ival = folly::to<int>(val);
* } catch (...) {
* // We must produce exactly 1 output even on exception!
* }
* pipeline.blockingWriteStage<1>(ticket, ival);
* }
*
* int result;
* pipeline.blockingRead(result);
* // result == 42
*
* To specify amplification factors greater than 1, use
* MPMCPipelineStage<T, amplification> instead of T in the declaration:
*
* MPMCPipeline<int,
* MPMCPipelineStage<std::string, 2>,
* MPMCPipelineStage<int, 4>>
*
* declares a two-stage pipeline: the first stage produces 2 strings
* for each input int, the second stage produces 4 ints for each input string,
* so, overall, the pipeline produces 2*4 = 8 ints for each input int.
*
* Implementation details: we use N+1 MPMCQueue objects; each intermediate
* queue connects two adjacent stages. The MPMCQueue implementation is abused;
* instead of using it as a queue, we insert in the output queue at the
* position determined by the input queue's popTicket_. We guarantee that
* all slots are filled (and therefore the queue doesn't freeze) because
* we require that each step produces exactly K outputs for every input.
*/
template <class In, class... Stages>
class MPMCPipeline {
typedef std::tuple<detail::PipelineStageInfo<Stages>...> StageInfos;
typedef std::tuple<
detail::MPMCPipelineStageImpl<In>,
detail::MPMCPipelineStageImpl<
typename detail::PipelineStageInfo<Stages>::value_type>...>
StageTuple;
static constexpr size_t kAmplification =
detail::AmplificationProduct<StageInfos>::value;
class TicketBaseDebug {
public:
TicketBaseDebug() noexcept : owner_(nullptr), value_(0xdeadbeeffaceb00c) {}
TicketBaseDebug(TicketBaseDebug&& other) noexcept
: owner_(std::exchange(other.owner_, nullptr)),
value_(std::exchange(other.value_, 0xdeadbeeffaceb00c)) {}
explicit TicketBaseDebug(MPMCPipeline* owner, uint64_t value) noexcept
: owner_(owner), value_(value) {}
void check_owner(MPMCPipeline* owner) const {
CHECK(owner == owner_);
}
MPMCPipeline* owner_;
uint64_t value_;
};
class TicketBaseNDebug {
public:
TicketBaseNDebug() = default;
TicketBaseNDebug(TicketBaseNDebug&&) = default;
explicit TicketBaseNDebug(MPMCPipeline*, uint64_t value) noexcept
: value_(value) {}
void check_owner(MPMCPipeline*) const {}
uint64_t value_;
};
using TicketBase =
std::conditional_t<kIsDebug, TicketBaseDebug, TicketBaseNDebug>;
public:
/**
* Ticket, returned by blockingReadStage, must be given back to
* blockingWriteStage. Tickets are not thread-safe.
*/
template <size_t Stage>
class Ticket : TicketBase {
public:
~Ticket() noexcept {
CHECK_EQ(remainingUses_, 0) << "All tickets must be completely used!";
}
Ticket() noexcept : remainingUses_(0) {}
Ticket(Ticket&& other) noexcept
: TicketBase(static_cast<TicketBase&&>(other)),
remainingUses_(std::exchange(other.remainingUses_, 0)) {}
Ticket& operator=(Ticket&& other) noexcept {
if (this != &other) {
this->~Ticket();
new (this) Ticket(std::move(other));
}
return *this;
}
private:
friend class MPMCPipeline;
size_t remainingUses_;
Ticket(MPMCPipeline* owner, size_t amplification, uint64_t value) noexcept
: TicketBase(owner, value * amplification),
remainingUses_(amplification) {}
uint64_t use(MPMCPipeline* owner) {
CHECK_GT(remainingUses_--, 0);
TicketBase::check_owner(owner);
return TicketBase::value_++;
}
};
/**
* Default-construct pipeline. Useful to move-assign later,
* just like MPMCQueue, see MPMCQueue.h for more details.
*/
MPMCPipeline() = default;
/**
* Construct a pipeline with N+1 queue sizes.
*/
template <class... Sizes>
explicit MPMCPipeline(Sizes... sizes) : stages_(sizes...) {}
/**
* Push an element into (the first stage of) the pipeline. Blocking.
*/
template <class... Args>
void blockingWrite(Args&&... args) {
std::get<0>(stages_).blockingWrite(std::forward<Args>(args)...);
}
/**
* Try to push an element into (the first stage of) the pipeline.
* Non-blocking.
*/
template <class... Args>
bool write(Args&&... args) {
return std::get<0>(stages_).write(std::forward<Args>(args)...);
}
/**
* Read an element for stage Stage and obtain a ticket. Blocking.
*/
template <size_t Stage>
Ticket<Stage> blockingReadStage(
typename std::tuple_element<Stage, StageTuple>::type::value_type& elem) {
return Ticket<Stage>(
this,
std::tuple_element<Stage, StageInfos>::type::kAmplification,
std::get<Stage>(stages_).blockingRead(elem));
}
/**
* Try to read an element for stage Stage and obtain a ticket.
* Non-blocking.
*/
template <size_t Stage>
bool readStage(
Ticket<Stage>& ticket,
typename std::tuple_element<Stage, StageTuple>::type::value_type& elem) {
uint64_t tval;
if (!std::get<Stage>(stages_).readAndGetTicket(tval, elem)) {
return false;
}
ticket = Ticket<Stage>(
this,
std::tuple_element<Stage, StageInfos>::type::kAmplification,
tval);
return true;
}
/**
* Complete an element in stage Stage (pushing it for stage Stage+1).
* Blocking.
*/
template <size_t Stage, class... Args>
void blockingWriteStage(Ticket<Stage>& ticket, Args&&... args) {
std::get<Stage + 1>(stages_).blockingWriteWithTicket(
ticket.use(this), std::forward<Args>(args)...);
}
/**
* Pop an element from (the final stage of) the pipeline. Blocking.
*/
void blockingRead(typename std::tuple_element<sizeof...(Stages), StageTuple>::
type::value_type& elem) {
std::get<sizeof...(Stages)>(stages_).blockingRead(elem);
}
/**
* Try to pop an element from (the final stage of) the pipeline.
* Non-blocking.
*/
bool read(typename std::tuple_element<sizeof...(Stages), StageTuple>::type::
value_type& elem) {
return std::get<sizeof...(Stages)>(stages_).read(elem);
}
/**
* Estimate queue size, measured as values from the last stage.
* (so if the pipeline has an amplification factor > 1, pushing an element
* into the first stage will cause sizeGuess() to be == amplification factor)
* Elements "in flight" (currently processed as part of a stage, so not
* in any queue) are also counted.
*/
ssize_t sizeGuess() const noexcept {
return ssize_t(
std::get<0>(stages_).writeCount() * kAmplification -
std::get<sizeof...(Stages)>(stages_).readCount());
}
private:
StageTuple stages_;
};
} // namespace folly