/usr/include/coin/CoinTime.hpp is in coinor-libcoinutils-dev 2.9.15-3.1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Copyright (C) 2002, International Business Machines
// Corporation and others. All Rights Reserved.
// This code is licensed under the terms of the Eclipse Public License (EPL).
#ifndef _CoinTime_hpp
#define _CoinTime_hpp
// Uncomment the next three lines for thorough memory initialisation.
// #ifndef ZEROFAULT
// # define ZEROFAULT
// #endif
//#############################################################################
#include <ctime>
#if defined(_MSC_VER)
// Turn off compiler warning about long names
# pragma warning(disable:4786)
#else
// MacOS-X and FreeBSD needs sys/time.h
#if defined(__MACH__) || defined (__FreeBSD__)
#include <sys/time.h>
#endif
#if !defined(__MSVCRT__)
#include <sys/resource.h>
#endif
#endif
//#############################################################################
#if defined(_MSC_VER)
#if 0 // change this to 1 if want to use the win32 API
#include <windows.h>
#ifdef small
/* for some unfathomable reason (to me) rpcndr.h (pulled in by windows.h) does a
'#define small char' */
#undef small
#endif
#define TWO_TO_THE_THIRTYTWO 4294967296.0
#define DELTA_EPOCH_IN_SECS 11644473600.0
inline double CoinGetTimeOfDay()
{
FILETIME ft;
GetSystemTimeAsFileTime(&ft);
double t = ft.dwHighDateTime * TWO_TO_THE_THIRTYTWO + ft.dwLowDateTime;
t = t/10000000.0 - DELTA_EPOCH_IN_SECS;
return t;
}
#else
#include <sys/types.h>
#include <sys/timeb.h>
inline double CoinGetTimeOfDay()
{
struct _timeb timebuffer;
#pragma warning(disable:4996)
_ftime( &timebuffer ); // C4996
#pragma warning(default:4996)
return timebuffer.time + timebuffer.millitm/1000.0;
}
#endif
#else
#include <sys/time.h>
inline double CoinGetTimeOfDay()
{
struct timeval tv;
gettimeofday(&tv, NULL);
return static_cast<double>(tv.tv_sec) + static_cast<int>(tv.tv_usec)/1000000.0;
}
#endif // _MSC_VER
/**
Query the elapsed wallclock time since the first call to this function. If
a positive argument is passed to the function then the time of the first
call is set to that value (this kind of argument is allowed only at the
first call!). If a negative argument is passed to the function then it
returns the time when it was set.
*/
inline double CoinWallclockTime(double callType = 0)
{
double callTime = CoinGetTimeOfDay();
static const double firstCall = callType > 0 ? callType : callTime;
return callType < 0 ? firstCall : callTime - firstCall;
}
//#############################################################################
//#define HAVE_SDK // if SDK under Win32 is installed, for CPU instead of elapsed time under Win
#ifdef HAVE_SDK
#include <windows.h>
#ifdef small
/* for some unfathomable reason (to me) rpcndr.h (pulled in by windows.h) does a
'#define small char' */
#undef small
#endif
#define TWO_TO_THE_THIRTYTWO 4294967296.0
#endif
static inline double CoinCpuTime()
{
double cpu_temp;
#if defined(_MSC_VER) || defined(__MSVCRT__)
#ifdef HAVE_SDK
FILETIME creation;
FILETIME exit;
FILETIME kernel;
FILETIME user;
GetProcessTimes(GetCurrentProcess(), &creation, &exit, &kernel, &user);
double t = user.dwHighDateTime * TWO_TO_THE_THIRTYTWO + user.dwLowDateTime;
return t/10000000.0;
#else
unsigned int ticksnow; /* clock_t is same as int */
ticksnow = (unsigned int)clock();
cpu_temp = (double)((double)ticksnow/CLOCKS_PER_SEC);
#endif
#else
struct rusage usage;
# ifdef ZEROFAULT
usage.ru_utime.tv_sec = 0 ;
usage.ru_utime.tv_usec = 0 ;
# endif
getrusage(RUSAGE_SELF,&usage);
cpu_temp = static_cast<double>(usage.ru_utime.tv_sec);
cpu_temp += 1.0e-6*(static_cast<double> (usage.ru_utime.tv_usec));
#endif
return cpu_temp;
}
//#############################################################################
static inline double CoinSysTime()
{
double sys_temp;
#if defined(_MSC_VER) || defined(__MSVCRT__)
sys_temp = 0.0;
#else
struct rusage usage;
# ifdef ZEROFAULT
usage.ru_utime.tv_sec = 0 ;
usage.ru_utime.tv_usec = 0 ;
# endif
getrusage(RUSAGE_SELF,&usage);
sys_temp = static_cast<double>(usage.ru_stime.tv_sec);
sys_temp += 1.0e-6*(static_cast<double> (usage.ru_stime.tv_usec));
#endif
return sys_temp;
}
//#############################################################################
// On most systems SELF seems to include children threads, This is for when it doesn't
static inline double CoinCpuTimeJustChildren()
{
double cpu_temp;
#if defined(_MSC_VER) || defined(__MSVCRT__)
cpu_temp = 0.0;
#else
struct rusage usage;
# ifdef ZEROFAULT
usage.ru_utime.tv_sec = 0 ;
usage.ru_utime.tv_usec = 0 ;
# endif
getrusage(RUSAGE_CHILDREN,&usage);
cpu_temp = static_cast<double>(usage.ru_utime.tv_sec);
cpu_temp += 1.0e-6*(static_cast<double> (usage.ru_utime.tv_usec));
#endif
return cpu_temp;
}
//#############################################################################
#include <fstream>
/**
This class implements a timer that also implements a tracing functionality.
The timer stores the start time of the timer, for how much time it was set to
and when does it expire (start + limit = end). Queries can be made that tell
whether the timer is expired, is past an absolute time, is past a percentage
of the length of the timer. All times are given in seconds, but as double
numbers, so there can be fractional values.
The timer can also be initialized with a stream and a specification whether
to write to or read from the stream. In the former case the result of every
query is written into the stream, in the latter case timing is not tested at
all, rather the supposed result is read out from the stream. This makes it
possible to exactly retrace time sensitive program execution.
*/
class CoinTimer
{
private:
/// When the timer was initialized/reset/restarted
double start;
///
double limit;
double end;
#ifdef COIN_COMPILE_WITH_TRACING
std::fstream* stream;
bool write_stream;
#endif
private:
#ifdef COIN_COMPILE_WITH_TRACING
inline bool evaluate(bool b_tmp) const {
int i_tmp = b_tmp;
if (stream) {
if (write_stream)
(*stream) << i_tmp << "\n";
else
(*stream) >> i_tmp;
}
return i_tmp;
}
inline double evaluate(double d_tmp) const {
if (stream) {
if (write_stream)
(*stream) << d_tmp << "\n";
else
(*stream) >> d_tmp;
}
return d_tmp;
}
#else
inline bool evaluate(const bool b_tmp) const {
return b_tmp;
}
inline double evaluate(const double d_tmp) const {
return d_tmp;
}
#endif
public:
/// Default constructor creates a timer with no time limit and no tracing
CoinTimer() :
start(0), limit(1e100), end(1e100)
#ifdef COIN_COMPILE_WITH_TRACING
, stream(0), write_stream(true)
#endif
{}
/// Create a timer with the given time limit and with no tracing
CoinTimer(double lim) :
start(CoinCpuTime()), limit(lim), end(start+lim)
#ifdef COIN_COMPILE_WITH_TRACING
, stream(0), write_stream(true)
#endif
{}
#ifdef COIN_COMPILE_WITH_TRACING
/** Create a timer with no time limit and with writing/reading the trace
to/from the given stream, depending on the argument \c write. */
CoinTimer(std::fstream* s, bool write) :
start(0), limit(1e100), end(1e100),
stream(s), write_stream(write) {}
/** Create a timer with the given time limit and with writing/reading the
trace to/from the given stream, depending on the argument \c write. */
CoinTimer(double lim, std::fstream* s, bool w) :
start(CoinCpuTime()), limit(lim), end(start+lim),
stream(s), write_stream(w) {}
#endif
/// Restart the timer (keeping the same time limit)
inline void restart() { start=CoinCpuTime(); end=start+limit; }
/// An alternate name for \c restart()
inline void reset() { restart(); }
/// Reset (and restart) the timer and change its time limit
inline void reset(double lim) { limit=lim; restart(); }
/** Return whether the given percentage of the time limit has elapsed since
the timer was started */
inline bool isPastPercent(double pct) const {
return evaluate(start + limit * pct < CoinCpuTime());
}
/** Return whether the given amount of time has elapsed since the timer was
started */
inline bool isPast(double lim) const {
return evaluate(start + lim < CoinCpuTime());
}
/** Return whether the originally specified time limit has passed since the
timer was started */
inline bool isExpired() const {
return evaluate(end < CoinCpuTime());
}
/** Return how much time is left on the timer */
inline double timeLeft() const {
return evaluate(end - CoinCpuTime());
}
/** Return how much time has elapsed */
inline double timeElapsed() const {
return evaluate(CoinCpuTime() - start);
}
inline void setLimit(double l) {
limit = l;
return;
}
};
#endif
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