コード例 #1
0
T fake_consume(std::atomic<T> &val) {
    // XXX: ALPHA or some shit also compilers wtvr
    return val.load(mo_rlx);
}
コード例 #2
0
ファイル: mutex.hpp プロジェクト: cas4ey/signals_library
 inline bool operator !() const
 {
     return !m_value.load();
 }
コード例 #3
0
ファイル: mutex.hpp プロジェクト: cas4ey/signals_library
 inline void operator =(bool _value)
 {
     m_value.store(_value);
 }
コード例 #4
0
		bool is_locked() {
			return locked.load(std::memory_order_acquire);
		}
コード例 #5
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	    void stop()
	    {
		_exit_flag.store(true);
		_cond_var.notify_all();
		join();
	    }
コード例 #6
0
ファイル: commandqueue.hpp プロジェクト: Natman64/d3dgl
 void lock()
 {
     while(mSpinLock.exchange(true) == true)
         SwitchToThread();
 }
コード例 #7
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/** @brief a test-and-test-and-set lock */
class tatas_lock {
	std::atomic<bool> locked; /* TODO can std::atomic_flag be used? */
	public:
		tatas_lock() : locked(false) {};
		tatas_lock(tatas_lock&) = delete; /* TODO? */
		bool try_lock() {
			if(is_locked()) return false;
			return !locked.exchange(true, std::memory_order_acq_rel);
		}
コード例 #8
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	   /** getter for file nature */
	   inline NatureFlag getnature() { return m_filenature.load(std::memory_order_acquire); }
コード例 #9
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namespace folly {

std::atomic<EventBaseManager*> globalManager(nullptr);

EventBaseManager* EventBaseManager::get() {
  EventBaseManager* mgr = globalManager;
  if (mgr) {
    return mgr;
  }

  EventBaseManager* new_mgr = new EventBaseManager;
  bool exchanged = globalManager.compare_exchange_strong(mgr, new_mgr);
  if (!exchanged) {
    delete new_mgr;
    return mgr;
  } else {
    return new_mgr;
  }

}

/*
 * EventBaseManager methods
 */

void EventBaseManager::setEventBase(EventBase *eventBase,
                                     bool takeOwnership) {
  EventBaseInfo *info = localStore_.get();
  if (info != nullptr) {
    throw std::runtime_error("EventBaseManager: cannot set a new EventBase "
                             "for this thread when one already exists");
  }

  info = new EventBaseInfo(eventBase, takeOwnership);
  localStore_.reset(info);
  this->trackEventBase(eventBase);
}

void EventBaseManager::clearEventBase() {
  EventBaseInfo *info = localStore_.get();
  if (info != nullptr) {
    this->untrackEventBase(info->eventBase);
    this->localStore_.reset(nullptr);
  }
}

// XXX should this really be "const"?
EventBase * EventBaseManager::getEventBase() const {
  // have one?
  auto *info = localStore_.get();
  if (! info) {
    info = new EventBaseInfo();
    localStore_.reset(info);

    if (observer_) {
      info->eventBase->setObserver(observer_);
    }

    // start tracking the event base
    // XXX
    // note: ugly cast because this does something mutable
    // even though this method is defined as "const".
    // Simply removing the const causes trouble all over fbcode;
    // lots of services build a const EventBaseManager and errors
    // abound when we make this non-const.
    (const_cast<EventBaseManager *>(this))->trackEventBase(info->eventBase);
  }

  return info->eventBase;
}

} // namespace folly
コード例 #10
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	   /** getter for File state */
	   inline State state() { return m_state.load(std::memory_order_acquire); }
コード例 #11
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	   /** change the file nature */
	   inline void nature(NatureFlag nature = NatureFlag::PHYSICAL){ m_filenature.exchange(nature, std::memory_order_acq_rel); }
コード例 #12
0
ファイル: exclusive_container.hpp プロジェクト: Hzj-jie/osi
 T* get() const
 {
     return v.load(std::memory_order_consume);
 }
コード例 #13
0
void SWRenderer::Init()
{
	s_bScreenshot.store(false);
}
コード例 #14
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void SWRenderer::SetScreenshot(const char *_szFilename)
{
	std::lock_guard<std::mutex> lk(s_criticalScreenshot);
	s_sScreenshotName = _szFilename;
	s_bScreenshot.store(true);
}
コード例 #15
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	AtomWrapper & operator=(const AtomWrapper &other)
	{
		_a.store(other._a.load());
	}
コード例 #16
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ファイル: worker_pool.hpp プロジェクト: pomagma/pomagma
 void schedule (const Task & task)
 {
     POMAGMA_ASSERT(m_accepting.load(), "pool is not accepting work");
     m_queue.push(task);
     m_condition.notify_one();
 }
コード例 #17
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	T operator+=(T val)
	{
		return _a.fetch_add(val);
	}
コード例 #18
0
ファイル: tc-record.cpp プロジェクト: ezoic/hhvm
namespace HPHP { namespace jit { namespace tc {

void recordPerfRelocMap(
    TCA start, TCA end,
    TCA coldStart, TCA coldEnd,
    SrcKey sk, int argNum,
    const GrowableVector<IncomingBranch> &incomingBranchesIn,
    CGMeta& fixups) {
  String info = perfRelocMapInfo(start, end,
                                 coldStart, coldEnd,
                                 sk, argNum,
                                 incomingBranchesIn,
                                 fixups);
  Debug::DebugInfo::Get()->recordRelocMap(start, end, info);
}

void recordRelocationMetaData(SrcKey sk, SrcRec& srcRec, const TransLoc& loc,
                              CGMeta& fixups) {
  if (!RuntimeOption::EvalPerfRelocate) return;

  recordPerfRelocMap(loc.mainStart(), loc.mainEnd(),
                     loc.coldCodeStart(), loc.coldEnd(),
                     sk, -1,
                     srcRec.tailFallbackJumps(),
                     fixups);
}

static Debug::TCRange rangeFrom(const CodeBlock& cb, const TCA addr,
                                bool isAcold) {
  assertx(cb.contains(addr));
  return Debug::TCRange(addr, cb.frontier(), isAcold);
}

void recordGdbTranslation(SrcKey sk, const Func* srcFunc, const CodeBlock& cb,
                          const TCA start, bool exit, bool inPrologue) {
  if (start != cb.frontier()) {
    assertOwnsCodeLock();
    if (!RuntimeOption::EvalJitNoGdb) {
      Debug::DebugInfo::Get()->recordTracelet(
        rangeFrom(cb, start, &cb == &code().cold()),
        srcFunc,
        srcFunc->unit() ? srcFunc->unit()->at(sk.offset()) : nullptr,
        exit, inPrologue
      );
    }
    if (RuntimeOption::EvalPerfPidMap) {
      Debug::DebugInfo::Get()->recordPerfMap(
        rangeFrom(cb, start, &cb == &code().cold()),
        sk,
        srcFunc,
        exit,
        inPrologue
      );
    }
  }
}

void recordBCInstr(uint32_t op, const TCA addr, const TCA end, bool cold) {
  if (addr != end) {
    Debug::DebugInfo::Get()->recordBCInstr(Debug::TCRange(addr, end, cold), op);
  }
}

////////////////////////////////////////////////////////////////////////////////

static std::atomic<bool> s_loggedJitMature{false};

/*
 * If the jit maturity counter is enabled, update it with the current amount of
 * emitted code.
 */
void reportJitMaturity(const CodeCache& code) {
  auto static jitMaturityCounter = ServiceData::createCounter("jit.maturity");

  // Optimized translations are faster than profiling translations, which are
  // faster than the interpreter.  But when optimized translations are
  // generated, some profiling translations will become dead.  We assume the
  // incremental value of an optimized translation over the corresponding
  // profiling translations is comparable to the incremental value of a
  // profiling translation of similar size; thus we don't have to apply
  // different weights to code in different regions.
  auto const codeSize =
    code.hot().used() + code.main().used() + code.prof().used();
  if (jitMaturityCounter) {
    // EvalJitMatureSize is supposed to to be set to approximately 20% of the
    // code that will give us full performance, so recover the "fully mature"
    // size with some math.
    auto const fullSize = RuntimeOption::EvalJitMatureSize * 5;
    auto const after = codeSize >= fullSize ? 100
                                            : (codeSize * 100 / fullSize);
    auto const before = jitMaturityCounter->getValue();
    if (after > before) jitMaturityCounter->setValue(after);
  }

  if (!s_loggedJitMature.load(std::memory_order_relaxed) &&
      StructuredLog::enabled() &&
      codeSize >= RuntimeOption::EvalJitMatureSize &&
      !s_loggedJitMature.exchange(true, std::memory_order_relaxed)) {
    StructuredLogEntry cols;
    cols.setInt("jit_mature_sec", time(nullptr) - HttpServer::StartTime);
    StructuredLog::log("hhvm_warmup", cols);
  }
}

void logTranslation(const TransEnv& env) {
  auto nanos = HPHP::Timer::GetThreadCPUTimeNanos() - env.unit->startNanos();
  StructuredLogEntry cols;
  auto& context = env.unit->context();
  auto kind = show(context.kind);
  cols.setStr("trans_kind", !debug ? kind : kind + "_debug");
  if (context.func) {
    cols.setStr("func", context.func->fullName()->data());
  }
  cols.setInt("jit_sample_rate", RuntimeOption::EvalJitSampleRate);
  // timing info
  cols.setInt("jit_micros", nanos / 1000);
  // hhir stats
  cols.setInt("max_tmps", env.unit->numTmps());
  cols.setInt("max_blocks", env.unit->numBlocks());
  cols.setInt("max_insts", env.unit->numInsts());
  auto hhir_blocks = rpoSortCfg(*env.unit);
  cols.setInt("num_blocks", hhir_blocks.size());
  size_t num_insts = 0;
  for (auto b : hhir_blocks) num_insts += b->instrs().size();
  cols.setInt("num_insts", num_insts);
  // vasm stats
  cols.setInt("max_vreg", env.vunit->next_vr);
  cols.setInt("max_vblocks", env.vunit->blocks.size());
  cols.setInt("max_vcalls", env.vunit->vcallArgs.size());
  size_t max_vinstr = 0;
  for (auto& blk : env.vunit->blocks) max_vinstr += blk.code.size();
  cols.setInt("max_vinstr", max_vinstr);
  cols.setInt("num_vconst", env.vunit->constToReg.size());
  auto vblocks = sortBlocks(*env.vunit);
  size_t num_vinstr[kNumAreas] = {0, 0, 0};
  size_t num_vblocks[kNumAreas] = {0, 0, 0};
  for (auto b : vblocks) {
    const auto& block = env.vunit->blocks[b];
    num_vinstr[(int)block.area_idx] += block.code.size();
    num_vblocks[(int)block.area_idx]++;
  }
  cols.setInt("num_vinstr_main", num_vinstr[(int)AreaIndex::Main]);
  cols.setInt("num_vinstr_cold", num_vinstr[(int)AreaIndex::Cold]);
  cols.setInt("num_vinstr_frozen", num_vinstr[(int)AreaIndex::Frozen]);
  cols.setInt("num_vblocks_main", num_vblocks[(int)AreaIndex::Main]);
  cols.setInt("num_vblocks_cold", num_vblocks[(int)AreaIndex::Cold]);
  cols.setInt("num_vblocks_frozen", num_vblocks[(int)AreaIndex::Frozen]);
  // finish & log
  StructuredLog::log("hhvm_jit", cols);
}

}}}
コード例 #19
0
ファイル: main.cpp プロジェクト: keystonerose/harken
int main() {

    try {

        SDLManager sdl{SDL_INIT_TIMER};
        sdl.setOpenGLVersion(3, 3);
        auto window = sdl.createWindow("Harken", 1024, 768);

        glewExperimental = true;
        const auto glewResult = glewInit();
        if (glewResult != GLEW_OK) {
            throw std::runtime_error{StringBuilder{} << "Could not initialise GLEW. Error: " << glewGetErrorString(glewResult)};
        }

        glClearColor(0.0f, 0.0f, 0.0f, 1.0f);

        VertexArrayObject triangleVAO;
        triangleVAO.bind();

        VertexBufferObject arrayBuffer{GL_ARRAY_BUFFER};
        arrayBuffer.bind();

        GLfloat vertices[3][2] = {
            { 0.0f,  0.433f},
            { 0.5f, -0.433f},
            {-0.5f, -0.433f}
        };

        glBufferData(GL_ARRAY_BUFFER, sizeof(vertices), vertices, GL_STATIC_DRAW);

        const auto vertexShader   = std::make_shared<Shader>(GL_VERTEX_SHADER, "uniform-scale.vert");
        const auto fragmentShader = std::make_shared<Shader>(GL_FRAGMENT_SHADER, "red.frag");

        ShaderProgram shaderProgram{vertexShader, fragmentShader};
        shaderProgram.use();

        glVertexAttribPointer(PositionAttrib, 2, GL_FLOAT, GL_FALSE, 0, 0);
        glEnableVertexAttribArray(PositionAttrib);

        const auto scaleLocation = shaderProgram.uniformLocation("scale");

        SDL_AddTimer(1000 / 60, update, nullptr);

        auto running = true;
        while (running) {

            // TODO: move this into SDLManager

            SDL_Event event;
            while (SDL_PollEvent(&event)) {

                if (event.type == SDL_QUIT) {
                    running = false;
                }
            }

            glUniform1f(scaleLocation, std::sin(scale.load()));
            render(window, triangleVAO);
        }
    }
    catch (const std::exception& ex) {
        std::cout << ex.what() << std::endl;
        return EXIT_FAILURE;
    }

    return EXIT_SUCCESS;
}
コード例 #20
0
void future_function_pointers(Executor& exec)
{
    future_void_f1_count.store(0);
    future_void_f2_count.store(0);
    future_int_f1_count.store(0);
    future_int_f2_count.store(0);

    future<void> f1
        = dataflow(exec,
            &future_void_f1
          , async(&future_void_sf1, shared_future<void>(make_ready_future()))
        );

    f1.wait();

    HPX_TEST_EQ(future_void_f1_count, 2u);
    future_void_f1_count.store(0);

    future<void> f2 = dataflow(exec,
        &future_void_f2
      , async(&future_void_sf1, shared_future<void>(make_ready_future()))
      , async(&future_void_sf1, shared_future<void>(make_ready_future()))
    );

    f2.wait();
    HPX_TEST_EQ(future_void_f1_count, 2u);
    HPX_TEST_EQ(future_void_f2_count, 1u);

    future_void_f1_count.store(0);
    future_void_f2_count.store(0);
    future_int_f1_count.store(0);
    future_int_f2_count.store(0);

    future<int> f3 = dataflow(exec,
        &future_int_f1
      , make_ready_future()
    );

    HPX_TEST_EQ(f3.get(), 1);
    HPX_TEST_EQ(future_int_f1_count, 1u);
    future_int_f1_count.store(0);

    future<int> f4 = dataflow(exec,
        &future_int_f2
      , dataflow(exec, &future_int_f1, make_ready_future())
      , dataflow(exec, &future_int_f1, make_ready_future())
    );

    HPX_TEST_EQ(f4.get(), 2);
    HPX_TEST_EQ(future_int_f1_count, 2u);
    HPX_TEST_EQ(future_int_f2_count, 1u);
    future_int_f1_count.store(0);
    future_int_f2_count.store(0);

    future_int_f_vector_count.store(0);
    std::vector<future<int> > vf;
    for(std::size_t i = 0; i < 10; ++i)
    {
        vf.push_back(dataflow(exec, &future_int_f1, make_ready_future()));
    }
    future<int> f5 = dataflow(exec, &future_int_f_vector, std::ref(vf));

    HPX_TEST_EQ(f5.get(), 10);
}
コード例 #21
0
		void unlock() {
			locked.store(false, std::memory_order_release);
		}
コード例 #22
0
 void operator()(BlockingQueue<int> &queue) {
   for (int i = 0; i < size; ++i) {
     queue.WaitAndPush(product_item.fetch_add(1));
   }
 }
コード例 #23
0
	    ~ThreadPoolExecutor()
	    {
		if (!_exit_flag.load()) {
		    stop();
		}
	    }
コード例 #24
0
	AtomWrapper(const std::atomic<T> &a)
		:_a(a.load())
	{}
コード例 #25
0
ファイル: mutex.hpp プロジェクト: cas4ey/signals_library
 inline operator bool() const
 {
     return m_value.load();
 }
コード例 #26
0
	void store(T val) volatile noexcept
	{
		_a.store(val);
	}
コード例 #27
0
ファイル: mutex.hpp プロジェクト: cas4ey/signals_library
 inline bool operator !=(bool _value) const
 {
     return m_value.load() != _value;
 }
コード例 #28
0
	T load() volatile noexcept
	{
		return _a.load();
	}
コード例 #29
0
ファイル: test_client.cpp プロジェクト: semajrolyat/tas
//-----------------------------------------------------------------------------
int main( int argc, char* argv[] ) {
  // Due to realtime scheduling, et al, must have root access to run.
  if( geteuid() != 0 ) {
    sprintf( spstr, "This program requires root access.  Re-run with sudo.\nExiting\n" );
    printf( "%s", spstr );
    exit( 1 );
  }

  init( argc, argv );

  // last before main loop, arm the timer
  timer.arm( timer_c::PERIODIC, TIMER_PERIOD_NSECS );

  //while( !quit.load( std::memory_order_seq_cst ) ) {
  //while( !quit ) {

  bool preycontroller_idle = true;
  while( !quit.load( std::memory_order_relaxed ) ) {

    int fd;
    notification_t note;
    ssize_t bytes;

    while( !select() );

    if( FD_ISSET( FD_TIMER_TO_COORDINATOR_READ_CHANNEL, &pending_fds ) != 0 ) {
      fd = FD_TIMER_TO_COORDINATOR_READ_CHANNEL;
      if( __read( fd, &note, sizeof(notification_t) ) == -1 ) {
        if( info ) {
          sprintf( spstr, "ERROR : (coordinator.cpp) read_messages() failed calling __read(FD_TIMER_TO_COORDINATOR_READ_CHANNEL,...)\n" );
          info->write( spstr );
        }
      } else {
        if( info ) {
          sprintf( spstr, "read_notifications( note.source=TIMER, caught_timer_events=%d, actual_timer_events=%d\n", ++caught_timer_events, actual_timer_events );
          info->write( spstr );
        }

        if( caught_timer_events >= MAX_TIMER_EVENTS ) {
          //quit.store( 1, std::memory_order_relaxed  );
          //quit.store( 1, std::memory_order_seq_cst  );
          //quit = true;
          //quit++;
          if( info ) {
            info->flush();
          }
          kill( coordinator_pid, SIGTERM );
        }
        if( preycontroller_idle ) {
          //pthread_kill( wakeup_thread, SIGSTOP );
          prey_controller->raise_priority();
          //pthread_kill( wakeup_thread, SIGCONT );
          preycontroller_idle = false;
          sprintf( spstr, "raised_priority: pid=%d, _os_priority=%d)\n", prey_controller->pid, prey_controller->_os_priority );
          info->write( spstr );
        }
      }
    }

    // - check for client specific notifications -
    // prey controller
    if( FD_ISSET( FD_PREYCONTROLLER_TO_COORDINATOR_READ_CHANNEL, &pending_fds ) != 0) {
      fd = FD_PREYCONTROLLER_TO_COORDINATOR_READ_CHANNEL;
      if( __read( fd, &note, sizeof(notification_t) ) == -1 ) {
        if( info ) {
          sprintf( spstr, "ERROR : (coordinator.cpp) read_messages() failed calling __read(FD_PREYCONTROLLER_TO_COORDINATOR_READ_CHANNEL,...)\n" );
          info->write( spstr );
        }
        //printf( "%s\n", spstr );
      } else {
        if( info ) {
          char note_type[8];
          if( note.type == notification_t::IDLE )
            sprintf( note_type, "IDLE" );
          else if( note.type == notification_t::OPEN )
            sprintf( note_type, "OPEN" );
          else if( note.type == notification_t::CLOSE )
            sprintf( note_type, "CLOSE" );
          else if( note.type == notification_t::READ )
            sprintf( note_type, "READ" );
          else if( note.type == notification_t::WRITE )
            sprintf( note_type, "WRITE" );

          sprintf( spstr, "read_notifications( note.source=CLIENT, note.type=%s, client=prey_controller )\n", note_type );
          info->write( spstr );
        }

        if( note.type == notification_t::CLOSE ) {
          prey_controller->invalidated = true;
        } else {
          prey_controller->message_queue.push( note );
        }
      }
    }

    // check block detection first.  If client blocked, needs to be put into 
    // blocking queue.  If falls through, might get put into run queue instead.
    if( FD_ISSET( FD_WAKEUP_TO_COORDINATOR_READ_CHANNEL, &pending_fds) != 0 ) {
      fd = FD_WAKEUP_TO_COORDINATOR_READ_CHANNEL;
      if( __read( fd, &note, sizeof(notification_t) ) == -1 ) {
        if( info ) {
          sprintf( spstr, "ERROR : (coordinator.cpp) read_messages() failed calling __read(FD_WAKEUP_TO_COORDINATOR_READ_CHANNEL,...)\n" );
          info->write( spstr );
        }
      } else {
        if( info ) {
          sprintf( spstr, "read_notifications( note.source=WAKEUP\n" );
          info->write( spstr );
        }

        // reenable block detection notifications
        wakeup_enabled.store( 1, std::memory_order_seq_cst  );
      }
    }

/*
    if( info ) {
      // print the notification for debugging
      char note_type[8];
      char note_source[8];
      if( note.source == notification_t::TIMER )
        sprintf( note_source, "TIMER" );
      else if( note.source == notification_t::WAKEUP )
        sprintf( note_source, "WAKEUP" );
      else if( note.source == notification_t::CLIENT )
        sprintf( note_source, "CLIENT" );
  
      if( note.type == notification_t::IDLE )
        sprintf( note_type, "IDLE" );
      else if( note.type == notification_t::OPEN )
        sprintf( note_type, "OPEN" );
      else if( note.type == notification_t::CLOSE )
        sprintf( note_type, "CLOSE" );
      else if( note.type == notification_t::READ )
        sprintf( note_type, "READ" );
      else if( note.type == notification_t::WRITE )
        sprintf( note_type, "WRITE" );

      sprintf( spstr, "notification: source[%s], type[%s], ts[%llu], period[%llu]\n", note_source, note_type, note.ts, note.period );
      info->write( spstr );
    }
*/
    if( note.source == notification_t::CLIENT ) {
      if( note.type == notification_t::IDLE ) {
        //pthread_kill( wakeup_thread, SIGSTOP );
        prey_controller->lower_priority();
        //pthread_kill( wakeup_thread, SIGCONT );
        preycontroller_idle = true;
        sprintf( spstr, "lowered_priority: pid=%d, _os_priority=%d)\n", prey_controller->pid, prey_controller->_os_priority );
        info->write( spstr );
      } else if( note.type == notification_t::OPEN ) {

      } else if( note.type == notification_t::CLOSE ) {

      } else if( note.type == notification_t::READ ) {
        fd = FD_COORDINATOR_TO_PREYCONTROLLER_WRITE_CHANNEL;
        note.source = notification_t::SERVER;
        note.type = notification_t::READ;      // the instruction to the client

        sprintf( spstr, "server responding with notification: source[SERVER], type[READ]\n" );
        info->write( spstr );

        note.ts = generate_timestamp();
        if( __write( fd, &note, sizeof(notification_t), bytes ) != OS_ERROR_NONE ) {
          // TODO: Handle/Recover
          if( info ) {
          sprintf( spstr, "ERROR : (coordinator.cpp) process_notifications() failed calling __write(FD_COORDINATOR_TO_PREYCONTROLLER_WRITE_CHANNEL,...)\n" );
          info->write( spstr );
          }
        }
      } else if( note.type == notification_t::WRITE ) {

      }
    } else if( note.source == notification_t::TIMER ) {

    } else if( note.source == notification_t::WAKEUP ) {

    }


    info->flush();
  }

  shutdown();

  return 0;
}
コード例 #30
0
ファイル: transaction.hpp プロジェクト: schets/flat_combining
	T *get_from(size_t rind) {
		auto ccount = count.load(std::memory_order_relaxed);
		act_ind = rin % ccount;

	}