/* Copyright (c) 2005-2016 Intel Corporation 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. */ #ifndef __TBB_tick_count_H #define __TBB_tick_count_H #include "tbb_stddef.h" #if _WIN32||_WIN64 #include "machine/windows_api.h" #elif __linux__ #include #else /* generic Unix */ #include #endif /* (choice of OS) */ namespace tbb { //! Absolute timestamp /** @ingroup timing */ class tick_count { public: //! Relative time interval. class interval_t { long long value; explicit interval_t( long long value_ ) : value(value_) {} public: //! Construct a time interval representing zero time duration interval_t() : value(0) {}; //! Construct a time interval representing sec seconds time duration explicit interval_t( double sec ); //! Return the length of a time interval in seconds double seconds() const; friend class tbb::tick_count; //! Extract the intervals from the tick_counts and subtract them. friend interval_t operator-( const tick_count& t1, const tick_count& t0 ); //! Add two intervals. friend interval_t operator+( const interval_t& i, const interval_t& j ) { return interval_t(i.value+j.value); } //! Subtract two intervals. friend interval_t operator-( const interval_t& i, const interval_t& j ) { return interval_t(i.value-j.value); } //! Accumulation operator interval_t& operator+=( const interval_t& i ) {value += i.value; return *this;} //! Subtraction operator interval_t& operator-=( const interval_t& i ) {value -= i.value; return *this;} private: static long long ticks_per_second(){ #if _WIN32||_WIN64 LARGE_INTEGER qpfreq; int rval = QueryPerformanceFrequency(&qpfreq); __TBB_ASSERT_EX(rval, "QueryPerformanceFrequency returned zero"); return static_cast(qpfreq.QuadPart); #elif __linux__ return static_cast(1E9); #else /* generic Unix */ return static_cast(1E6); #endif /* (choice of OS) */ } }; //! Construct an absolute timestamp initialized to zero. tick_count() : my_count(0) {}; //! Return current time. static tick_count now(); //! Subtract two timestamps to get the time interval between friend interval_t operator-( const tick_count& t1, const tick_count& t0 ); //! Return the resolution of the clock in seconds per tick. static double resolution() { return 1.0 / interval_t::ticks_per_second(); } private: long long my_count; }; inline tick_count tick_count::now() { tick_count result; #if _WIN32||_WIN64 LARGE_INTEGER qpcnt; int rval = QueryPerformanceCounter(&qpcnt); __TBB_ASSERT_EX(rval, "QueryPerformanceCounter failed"); result.my_count = qpcnt.QuadPart; #elif __linux__ struct timespec ts; int status = clock_gettime( CLOCK_REALTIME, &ts ); __TBB_ASSERT_EX( status==0, "CLOCK_REALTIME not supported" ); result.my_count = static_cast(1000000000UL)*static_cast(ts.tv_sec) + static_cast(ts.tv_nsec); #else /* generic Unix */ struct timeval tv; int status = gettimeofday(&tv, NULL); __TBB_ASSERT_EX( status==0, "gettimeofday failed" ); result.my_count = static_cast(1000000)*static_cast(tv.tv_sec) + static_cast(tv.tv_usec); #endif /*(choice of OS) */ return result; } inline tick_count::interval_t::interval_t( double sec ) { value = static_cast(sec*interval_t::ticks_per_second()); } inline tick_count::interval_t operator-( const tick_count& t1, const tick_count& t0 ) { return tick_count::interval_t( t1.my_count-t0.my_count ); } inline double tick_count::interval_t::seconds() const { return value*tick_count::resolution(); } } // namespace tbb #endif /* __TBB_tick_count_H */