runtime/vm/thread_barrier.h - sdk - Git at Google

 // Copyright (c) 2015, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_THREAD_BARRIER_H_
 #define RUNTIME_VM_THREAD_BARRIER_H_

 #include "vm/globals.h"
 #include "vm/lockers.h"
 #include "vm/os_thread.h"

 namespace dart {

 // Thread barrier with:
 // * fixed (at construction) number n of participating threads {T1,T2,T3,...,Tn}
 // * unknown number of rounds.
 // Requirements:
 // * there is some R such that each participating thread makes
 //   R calls to Sync() followed by its one and only call to Exit().
 // Guarantees:
 // * for any two threads Ti and Tj and round number r <= R,
 //   everything done by Ti before its r'th call to Sync() happens before
 //   everything done by Tj after its r'th call to Sync().
 // Note:
 // * it's not required that the thread that constructs the barrier participates.
 //
 // Example usage with 3 threads (1 controller + 2 workers) and 3 rounds:
 //
 // T1:
 // ThreadBarrier barrier(3);
 // Dart::thread_pool()->Run(              T2:
 //     new FooTask(&barrier));            fooSetup();
 // Dart::thread_pool()->Run(              ...                T3:
 //     new BarTask(&barrier));            ...                barSetup();
 // barrier.Sync();                        barrier_->Sync();  barrier_->Sync();
 // /* Both tasks have finished setup */   ...                ...
 // prepareWorkForTasks();                 ...                ...
 // barrier.Sync();                        barrier_->Sync();  barrier_->Sync();
 // /* Idle while tasks are working */     fooWork();         barWork();
 // barrier.Sync();                        barrier_->Sync();  barrier_->Sync();
 // collectResultsFromTasks();             barrier_->Exit();  barrier_->Exit();
 // barrier.Exit();
 //
 // Note that the calls to Sync() "line up" in time, but there is no such
 // guarantee for Exit().
 //
 class ThreadBarrier {
  public:
   explicit ThreadBarrier(intptr_t num_threads,
                          Monitor* monitor,
                          Monitor* done_monitor)
       : num_threads_(num_threads),
         monitor_(monitor),
         remaining_(num_threads),
         parity_(false),
         done_monitor_(done_monitor),
         done_(false) {
     ASSERT(remaining_ > 0);
   }

   void Sync() {
     MonitorLocker ml(monitor_);
     ASSERT(remaining_ > 0);
     if (--remaining_ > 0) {
       // I'm not last to arrive; wait until next round.
       bool old_parity = parity_;
       while (parity_ == old_parity) {
         ml.Wait();
       }
     } else {
       // Last one to arrive initiates the next round.
       remaining_ = num_threads_;
       parity_ = !parity_;
       // Tell everyone else about the new round.
       ml.NotifyAll();
     }
   }

   void Exit() {
     bool last = false;
     {
       MonitorLocker ml(monitor_);
       ASSERT(remaining_ > 0);
       last = (--remaining_ == 0);
     }
     if (last) {
       // Last one to exit sets done_.
       MonitorLocker ml(done_monitor_);
       ASSERT(!done_);
       done_ = true;
       // Tell the destructor in case it's already waiting.
       ml.Notify();
     }
   }

   ~ThreadBarrier() {
     MonitorLocker ml(done_monitor_);
     // Wait for everyone to exit before destroying the monitors.
     while (!done_) {
       ml.Wait();
     }
     ASSERT(remaining_ == 0);
   }

  private:
   const intptr_t num_threads_;

   Monitor* monitor_;
   intptr_t remaining_;
   bool parity_;

   Monitor* done_monitor_;  // TODO(koda): Try to optimize this away.
   bool done_;

   DISALLOW_COPY_AND_ASSIGN(ThreadBarrier);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_THREAD_BARRIER_H_
	// Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_THREAD_BARRIER_H_
	#define RUNTIME_VM_THREAD_BARRIER_H_

	#include "vm/globals.h"
	#include "vm/lockers.h"
	#include "vm/os_thread.h"

	namespace dart {

	// Thread barrier with:
	// * fixed (at construction) number n of participating threads {T1,T2,T3,...,Tn}
	// * unknown number of rounds.
	// Requirements:
	// * there is some R such that each participating thread makes
	// R calls to Sync() followed by its one and only call to Exit().
	// Guarantees:
	// * for any two threads Ti and Tj and round number r <= R,
	// everything done by Ti before its r'th call to Sync() happens before
	// everything done by Tj after its r'th call to Sync().
	// Note:
	// * it's not required that the thread that constructs the barrier participates.
	//
	// Example usage with 3 threads (1 controller + 2 workers) and 3 rounds:
	//
	// T1:
	// ThreadBarrier barrier(3);
	// Dart::thread_pool()->Run( T2:
	// new FooTask(&barrier)); fooSetup();
	// Dart::thread_pool()->Run( ... T3:
	// new BarTask(&barrier)); ... barSetup();
	// barrier.Sync(); barrier_->Sync(); barrier_->Sync();
	// /* Both tasks have finished setup */ ... ...
	// prepareWorkForTasks(); ... ...
	// barrier.Sync(); barrier_->Sync(); barrier_->Sync();
	// /* Idle while tasks are working */ fooWork(); barWork();
	// barrier.Sync(); barrier_->Sync(); barrier_->Sync();
	// collectResultsFromTasks(); barrier_->Exit(); barrier_->Exit();
	// barrier.Exit();
	//
	// Note that the calls to Sync() "line up" in time, but there is no such
	// guarantee for Exit().
	//
	class ThreadBarrier {
	public:
	explicit ThreadBarrier(intptr_t num_threads,
	Monitor* monitor,
	Monitor* done_monitor)
	: num_threads_(num_threads),
	monitor_(monitor),
	remaining_(num_threads),
	parity_(false),
	done_monitor_(done_monitor),
	done_(false) {
	ASSERT(remaining_ > 0);
	}

	void Sync() {
	MonitorLocker ml(monitor_);
	ASSERT(remaining_ > 0);
	if (--remaining_ > 0) {
	// I'm not last to arrive; wait until next round.
	bool old_parity = parity_;
	while (parity_ == old_parity) {
	ml.Wait();
	}
	} else {
	// Last one to arrive initiates the next round.
	remaining_ = num_threads_;
	parity_ = !parity_;
	// Tell everyone else about the new round.
	ml.NotifyAll();
	}
	}

	void Exit() {
	bool last = false;
	{
	MonitorLocker ml(monitor_);
	ASSERT(remaining_ > 0);
	last = (--remaining_ == 0);
	}
	if (last) {
	// Last one to exit sets done_.
	MonitorLocker ml(done_monitor_);
	ASSERT(!done_);
	done_ = true;
	// Tell the destructor in case it's already waiting.
	ml.Notify();
	}
	}

	~ThreadBarrier() {
	MonitorLocker ml(done_monitor_);
	// Wait for everyone to exit before destroying the monitors.
	while (!done_) {
	ml.Wait();
	}
	ASSERT(remaining_ == 0);
	}

	private:
	const intptr_t num_threads_;

	Monitor* monitor_;
	intptr_t remaining_;
	bool parity_;

	Monitor* done_monitor_; // TODO(koda): Try to optimize this away.
	bool done_;

	DISALLOW_COPY_AND_ASSIGN(ThreadBarrier);
	};

	} // namespace dart

	#endif // RUNTIME_VM_THREAD_BARRIER_H_