utils/google-benchmark/src/thread_manager.h - third_party/libcxx - Git at Google

 #ifndef BENCHMARK_THREAD_MANAGER_H
 #define BENCHMARK_THREAD_MANAGER_H

 #include <atomic>

 #include "benchmark/benchmark.h"
 #include "mutex.h"

 namespace benchmark {
 namespace internal {

 class ThreadManager {
  public:
   ThreadManager(int num_threads)
       : alive_threads_(num_threads), start_stop_barrier_(num_threads) {}

   Mutex& GetBenchmarkMutex() const RETURN_CAPABILITY(benchmark_mutex_) {
     return benchmark_mutex_;
   }

   bool StartStopBarrier() EXCLUDES(end_cond_mutex_) {
     return start_stop_barrier_.wait();
   }

   void NotifyThreadComplete() EXCLUDES(end_cond_mutex_) {
     start_stop_barrier_.removeThread();
     if (--alive_threads_ == 0) {
       MutexLock lock(end_cond_mutex_);
       end_condition_.notify_all();
     }
   }

   void WaitForAllThreads() EXCLUDES(end_cond_mutex_) {
     MutexLock lock(end_cond_mutex_);
     end_condition_.wait(lock.native_handle(),
                         [this]() { return alive_threads_ == 0; });
   }

  public:
   struct Result {
     int64_t iterations = 0;
     double real_time_used = 0;
     double cpu_time_used = 0;
     double manual_time_used = 0;
     int64_t complexity_n = 0;
     std::string report_label_;
     std::string error_message_;
     bool has_error_ = false;
     UserCounters counters;
   };
   GUARDED_BY(GetBenchmarkMutex()) Result results;

  private:
   mutable Mutex benchmark_mutex_;
   std::atomic<int> alive_threads_;
   Barrier start_stop_barrier_;
   Mutex end_cond_mutex_;
   Condition end_condition_;
 };

 }  // namespace internal
 }  // namespace benchmark

 #endif  // BENCHMARK_THREAD_MANAGER_H
	#ifndef BENCHMARK_THREAD_MANAGER_H
	#define BENCHMARK_THREAD_MANAGER_H

	#include <atomic>

	#include "benchmark/benchmark.h"
	#include "mutex.h"

	namespace benchmark {
	namespace internal {

	class ThreadManager {
	public:
	ThreadManager(int num_threads)
	: alive_threads_(num_threads), start_stop_barrier_(num_threads) {}

	Mutex& GetBenchmarkMutex() const RETURN_CAPABILITY(benchmark_mutex_) {
	return benchmark_mutex_;
	}

	bool StartStopBarrier() EXCLUDES(end_cond_mutex_) {
	return start_stop_barrier_.wait();
	}

	void NotifyThreadComplete() EXCLUDES(end_cond_mutex_) {
	start_stop_barrier_.removeThread();
	if (--alive_threads_ == 0) {
	MutexLock lock(end_cond_mutex_);
	end_condition_.notify_all();
	}
	}

	void WaitForAllThreads() EXCLUDES(end_cond_mutex_) {
	MutexLock lock(end_cond_mutex_);
	end_condition_.wait(lock.native_handle(),
	[this]() { return alive_threads_ == 0; });
	}

	public:
	struct Result {
	int64_t iterations = 0;
	double real_time_used = 0;
	double cpu_time_used = 0;
	double manual_time_used = 0;
	int64_t complexity_n = 0;
	std::string report_label_;
	std::string error_message_;
	bool has_error_ = false;
	UserCounters counters;
	};
	GUARDED_BY(GetBenchmarkMutex()) Result results;

	private:
	mutable Mutex benchmark_mutex_;
	std::atomic<int> alive_threads_;
	Barrier start_stop_barrier_;
	Mutex end_cond_mutex_;
	Condition end_condition_;
	};

	} // namespace internal
	} // namespace benchmark

	#endif // BENCHMARK_THREAD_MANAGER_H