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380 lines
12 KiB
C
380 lines
12 KiB
C
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/*
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This file is part of TON Blockchain Library.
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TON Blockchain Library is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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TON Blockchain Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
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Copyright 2017-2019 Telegram Systems LLP
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*/
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#pragma once
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#include "td/actor/core/Actor.h"
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#include "td/actor/core/ActorSignals.h"
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#include "td/actor/core/SchedulerId.h"
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#include "td/actor/core/SchedulerContext.h"
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#include "td/actor/core/Scheduler.h"
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#include "td/actor/PromiseFuture.h"
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#include "td/utils/Timer.h"
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namespace td {
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namespace actor {
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using core::ActorOptions;
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// Replacement for core::ActorSignals. Easier to use and do not allow internal signals
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class ActorSignals {
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public:
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static ActorSignals pause() {
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return ActorSignals(core::ActorSignals::one(core::ActorSignals::Pause));
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}
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static ActorSignals kill() {
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return ActorSignals(core::ActorSignals::one(core::ActorSignals::Kill));
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}
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static ActorSignals wakeup() {
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return ActorSignals(core::ActorSignals::one(core::ActorSignals::Wakeup));
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}
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friend ActorSignals operator|(ActorSignals a, ActorSignals b) {
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a.raw_.add_signals(b.raw_);
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return a;
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}
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ActorSignals() = default;
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core::ActorSignals raw() const {
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return raw_;
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}
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private:
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ActorSignals(core::ActorSignals raw) : raw_(raw) {
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}
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core::ActorSignals raw_;
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};
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// TODO: proper interface
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using core::Actor;
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using core::SchedulerContext;
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using core::SchedulerId;
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class Scheduler {
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public:
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struct NodeInfo {
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NodeInfo(size_t cpu_threads) : cpu_threads_(cpu_threads) {
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}
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NodeInfo(size_t cpu_threads, size_t io_threads) : cpu_threads_(cpu_threads), io_threads_(io_threads) {
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}
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size_t cpu_threads_;
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size_t io_threads_{1};
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};
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enum Mode { Running, Paused };
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Scheduler(std::vector<NodeInfo> infos, Mode mode = Paused) : infos_(std::move(infos)) {
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init();
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if (mode == Running) {
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start();
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}
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}
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~Scheduler() {
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stop();
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}
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Scheduler(const Scheduler &) = delete;
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Scheduler(Scheduler &&) = delete;
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Scheduler &operator=(const Scheduler &) = delete;
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Scheduler &operator=(Scheduler &&) = delete;
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void start() {
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if (is_started_) {
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return;
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}
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is_started_ = true;
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for (size_t it = 0; it < schedulers_.size(); it++) {
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auto &scheduler = schedulers_[it];
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scheduler->start();
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if (it != 0) {
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auto thread = td::thread([&] {
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while (scheduler->run(10)) {
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}
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});
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thread.set_name(PSLICE() << "#" << it << ":io");
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thread.detach();
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}
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}
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}
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bool run() {
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start();
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while (schedulers_[0]->run(10)) {
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}
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return false;
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}
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bool run(double timeout) {
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start();
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return schedulers_[0]->run(timeout);
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}
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template <class F>
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void run_in_context(F &&f) {
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schedulers_[0]->run_in_context(std::forward<F>(f));
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}
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template <class F>
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void run_in_context_external(F &&f) {
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schedulers_[0]->run_in_context_external(std::forward<F>(f));
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}
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void stop() {
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if (!group_info_) {
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return;
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}
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if (!is_started_) {
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start();
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}
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schedulers_[0]->stop();
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run();
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core::Scheduler::close_scheduler_group(*group_info_);
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group_info_.reset();
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}
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private:
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std::vector<NodeInfo> infos_{td::thread::hardware_concurrency()};
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std::shared_ptr<core::SchedulerGroupInfo> group_info_;
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std::vector<td::unique_ptr<core::Scheduler>> schedulers_;
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bool is_started_{false};
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void init() {
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CHECK(infos_.size() < 256);
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CHECK(!group_info_);
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group_info_ = std::make_shared<core::SchedulerGroupInfo>(infos_.size());
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td::uint8 id = 0;
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for (const auto &info : infos_) {
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schedulers_.emplace_back(td::make_unique<core::Scheduler>(group_info_, core::SchedulerId{id}, info.cpu_threads_));
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id++;
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}
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}
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};
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// Some helper functions. Not part of public interface and not part
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// of namespace core
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namespace detail {
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template <class LambdaT>
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class ActorMessageLambda : public core::ActorMessageImpl {
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public:
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template <class FromLambdaT>
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explicit ActorMessageLambda(FromLambdaT &&lambda) : lambda_(std::forward<FromLambdaT>(lambda)) {
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}
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void run() override {
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//delivery_warning_.reset();
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lambda_();
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}
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private:
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LambdaT lambda_;
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//PerfWarningTimer delivery_warning_{"Long message delivery", 2};
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};
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class ActorMessageCreator {
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public:
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template <class F>
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static auto lambda(F &&f) {
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return core::ActorMessage(std::make_unique<ActorMessageLambda<std::decay_t<F>>>(std::forward<F>(f)));
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}
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static auto hangup() {
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return core::ActorMessage(std::make_unique<core::ActorMessageHangup>());
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}
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static auto hangup_shared() {
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return core::ActorMessage(std::make_unique<core::ActorMessageHangupShared>());
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}
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// Use faster allocation?
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};
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struct ActorRef {
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ActorRef(core::ActorInfo &actor_info, uint64 link_token = core::EmptyLinkToken)
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: actor_info(actor_info), link_token(link_token) {
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}
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core::ActorInfo &actor_info;
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uint64 link_token;
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};
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template <class T>
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T ¤t_actor() {
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return static_cast<T &>(core::ActorExecuteContext::get()->actor());
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}
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inline void send_message(core::ActorInfo &actor_info, core::ActorMessage message) {
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auto scheduler_context_ptr = core::SchedulerContext::get();
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if (scheduler_context_ptr == nullptr) {
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LOG(ERROR) << "send to actor is silently ignored";
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return;
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}
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auto &scheduler_context = *scheduler_context_ptr;
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core::ActorExecutor executor(actor_info, scheduler_context,
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core::ActorExecutor::Options().with_has_poll(scheduler_context.has_poll()));
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executor.send(std::move(message));
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}
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inline void send_message(ActorRef actor_ref, core::ActorMessage message) {
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message.set_link_token(actor_ref.link_token);
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send_message(actor_ref.actor_info, std::move(message));
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}
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inline void send_message_later(core::ActorInfo &actor_info, core::ActorMessage message) {
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auto scheduler_context_ptr = core::SchedulerContext::get();
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if (scheduler_context_ptr == nullptr) {
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LOG(ERROR) << "send to actor is silently ignored";
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return;
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}
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auto &scheduler_context = *scheduler_context_ptr;
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core::ActorExecutor executor(actor_info, scheduler_context,
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core::ActorExecutor::Options().with_has_poll(scheduler_context.has_poll()));
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message.set_big();
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executor.send(std::move(message));
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}
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inline void send_message_later(ActorRef actor_ref, core::ActorMessage message) {
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message.set_link_token(actor_ref.link_token);
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send_message_later(actor_ref.actor_info, std::move(message));
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}
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template <class ExecuteF, class ToMessageF>
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void send_immediate(ActorRef actor_ref, ExecuteF &&execute, ToMessageF &&to_message) {
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auto scheduler_context_ptr = core::SchedulerContext::get();
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if (scheduler_context_ptr == nullptr) {
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LOG(ERROR) << "send to actor is silently ignored";
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return;
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}
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auto &scheduler_context = *scheduler_context_ptr;
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core::ActorExecutor executor(actor_ref.actor_info, scheduler_context,
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core::ActorExecutor::Options().with_has_poll(scheduler_context.has_poll()));
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if (executor.can_send_immediate()) {
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return executor.send_immediate(execute, actor_ref.link_token);
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}
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auto message = to_message();
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message.set_link_token(actor_ref.link_token);
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executor.send(std::move(message));
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}
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template <class F>
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void send_lambda(ActorRef actor_ref, F &&lambda) {
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send_immediate(actor_ref, lambda, [&lambda]() mutable { return ActorMessageCreator::lambda(std::move(lambda)); });
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}
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template <class F>
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void send_lambda_later(ActorRef actor_ref, F &&lambda) {
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send_message_later(actor_ref, ActorMessageCreator::lambda(std::move(lambda)));
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}
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template <class ClosureT>
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void send_closure_impl(ActorRef actor_ref, ClosureT &&closure) {
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using ActorType = typename ClosureT::ActorType;
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send_immediate(
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actor_ref, [&closure]() mutable { closure.run(¤t_actor<ActorType>()); },
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[&closure]() mutable {
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return ActorMessageCreator::lambda(
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[closure = to_delayed_closure(std::move(closure))]() mutable { closure.run(¤t_actor<ActorType>()); });
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});
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}
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template <class... ArgsT>
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void send_closure(ActorRef actor_ref, ArgsT &&... args) {
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send_closure_impl(actor_ref, create_immediate_closure(std::forward<ArgsT>(args)...));
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}
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template <class ClosureT>
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void send_closure_later_impl(ActorRef actor_ref, ClosureT &&closure) {
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using ActorType = typename ClosureT::ActorType;
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send_message_later(actor_ref,
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ActorMessageCreator::lambda([closure = to_delayed_closure(std::move(closure))]() mutable {
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closure.run(¤t_actor<ActorType>());
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}));
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}
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template <class ClosureT, class PromiseT>
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void send_closure_with_promise(ActorRef actor_ref, ClosureT &&closure, PromiseT &&promise) {
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using ActorType = typename ClosureT::ActorType;
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using ResultType = decltype(closure.run(¤t_actor<ActorType>()));
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auto &&promise_i = promise_interface<ResultType>(std::forward<PromiseT>(promise));
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send_immediate(
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actor_ref, [&closure, &promise = promise_i]() mutable { promise(closure.run(¤t_actor<ActorType>())); },
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[&closure, &promise = promise_i]() mutable {
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return ActorMessageCreator::lambda(
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[closure = to_delayed_closure(std::move(closure)), promise = std::move(promise)]() mutable {
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promise(closure.run(¤t_actor<ActorType>()));
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});
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});
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}
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template <class ClosureT, class PromiseT>
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void send_closure_with_promise_later(ActorRef actor_ref, ClosureT &&closure, PromiseT &&promise) {
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using ActorType = typename ClosureT::ActorType;
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using ResultType = decltype(closure.run(¤t_actor<ActorType>()));
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send_message_later(
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actor_ref,
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ActorMessageCreator::lambda([closure = to_delayed_closure(std::move(closure)),
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promise = promise_interface<ResultType>(std::forward<PromiseT>(promise))]() mutable {
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promise(closure.run(¤t_actor<ActorType>()));
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}));
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}
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template <class... ArgsT>
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void send_closure_later(ActorRef actor_ref, ArgsT &&... args) {
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send_closure_later_impl(actor_ref, create_delayed_closure(std::forward<ArgsT>(args)...));
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}
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inline void send_signals(ActorRef actor_ref, ActorSignals signals) {
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auto scheduler_context_ptr = core::SchedulerContext::get();
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if (scheduler_context_ptr == nullptr) {
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LOG(ERROR) << "send to actor is silently ignored";
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return;
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}
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auto &scheduler_context = *scheduler_context_ptr;
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core::ActorExecutor executor(actor_ref.actor_info, scheduler_context,
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core::ActorExecutor::Options().with_has_poll(scheduler_context.has_poll()));
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if (executor.can_send_immediate()) {
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return executor.send_immediate(signals.raw());
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}
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executor.send(signals.raw());
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}
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inline void send_signals_later(ActorRef actor_ref, ActorSignals signals) {
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auto scheduler_context_ptr = core::SchedulerContext::get();
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if (scheduler_context_ptr == nullptr) {
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LOG(ERROR) << "send to actor is silently ignored";
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return;
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}
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auto &scheduler_context = *scheduler_context_ptr;
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core::ActorExecutor executor(actor_ref.actor_info, scheduler_context,
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core::ActorExecutor::Options().with_has_poll(scheduler_context.has_poll()));
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executor.send((signals | ActorSignals::pause()).raw());
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}
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inline void register_actor_info_ptr(core::ActorInfoPtr actor_info_ptr) {
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auto state = actor_info_ptr->state().get_flags_unsafe();
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core::SchedulerContext::get()->add_to_queue(std::move(actor_info_ptr), state.get_scheduler_id(), !state.is_shared());
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}
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template <class T, class... ArgsT>
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core::ActorInfoPtr create_actor(core::ActorOptions &options, ArgsT &&... args) {
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auto *scheduler_context = core::SchedulerContext::get();
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if (!options.has_scheduler()) {
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options.on_scheduler(scheduler_context->get_scheduler_id());
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}
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auto res =
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scheduler_context->get_actor_info_creator().create(std::make_unique<T>(std::forward<ArgsT>(args)...), options);
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register_actor_info_ptr(res);
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return res;
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}
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} // namespace detail
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} // namespace actor
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} // namespace td
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