boost_1_45_0/libs/date_time/test/posix_time/testduration.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* Copyright (c) 2002-2004 CrystalClear Software, Inc.
  * Use, modification and distribution is subject to the
  * Boost Software License, Version 1.0. (See accompanying
  * file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
  * Author: Jeff Garland, Bart Garst
  * $Date: 2008-11-26 16:07:14 -0500 (Wed, 26 Nov 2008) $
  */

 #include "boost/date_time/posix_time/posix_time_duration.hpp"
 #include "boost/date_time/compiler_config.hpp"
 #if defined(BOOST_DATE_TIME_INCLUDE_LIMITED_HEADERS)
 #include "boost/date_time/posix_time/time_formatters_limited.hpp"
 #else
 #include "boost/date_time/posix_time/time_formatters.hpp"
 #endif
 #include "../testfrmwk.hpp"


 int
 main()
 {
   using namespace boost::posix_time;


 //   std::cout << "Default limits: SECOND " << std::endl;
   {
     time_duration td;
     check("default construction -- 0 ticks", td.ticks() == 0);
 //     check("default construction -- 0 secs", td.seconds() == 0);
 //     check("default construction -- 0 min", td.minutes() == 0);
   }

   // construct from components
   time_duration td1(1,25,0);
   time_duration td3(td1.hours(),td1.minutes(),td1.seconds());
   check("total up elements", td1 == td3);
   td1 = -td1; // td1 == "-1:25:00"
   td3 = time_duration(td1.hours(),td1.minutes(),td1.seconds());
   check("total up elements-invered sign", td1 == td3);


   time_duration t_1(0,1,40);
   time_duration t_2(0,1,41);
   check("less test", !(t_2 < t_2));
   check("equal test", t_1 == t_1);
   check("greater equal - equal", t_1 >= t_1);
   check("greater equal - greater", t_2 >= t_1);
   check("less equal - equal  ", t_2 <= t_2);
   check("greater             ", t_2 > t_1);
   check("greater - not       ", !(t_1 > t_2));
   time_duration t_3(t_2);
   check("copy constructor    ", t_2 == t_3);
   time_duration t_4 = t_3;
   check("assignment operator ", t_2 == t_4);

   time_duration t_5(1,30,20,10); // 1hr, 30min, 20sec, 10 frac sec
   t_5 /= 2;
   check("divide equal",         (t_5.hours() == 0 &&
                                  t_5.minutes() == 45 &&
                                  t_5.seconds() == 10 &&
                                  t_5.fractional_seconds() == 5));
   t_5 = time_duration(3,15,8,0) / 2;
   check("divide int", t_5 == time_duration(1,37,34,0));
   {
     time_duration td = hours(5);
     td *= 5;
     check("mult-equals int", time_duration(25,0,0,0) == td);
   }


   t_5 = t_2 + t_1;
   //VC6 goes ambiguous on the next line...
 #if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
   //sorry ticks() doesn't work on VC6
 #else
   std::cout << t_5.ticks() << std::endl;
 #endif
   check("add", t_5 == time_duration(0,3,21));
   time_duration td_a(5,5,5,5);
   time_duration td_b(4,4,4,4);
   time_duration td_c(2,2,2,2);
   td_a += td_b;
   check("add equal", td_a == time_duration(9,9,9,9));
   time_duration td_d = td_b - td_c;
   check("subtract", td_d == time_duration(2,2,2,2));
   td_d -= td_b;
   check("subtract equal (neg result)", td_d == td_c - td_b);

   time_duration utd(1,2,3,4);
   time_duration utd2 = -utd;
   //std::cout << td_d << '\n' << utd2 << std::endl;
   check("unary-", ((utd2.hours() == -1) &&
                    (utd2.minutes() == -2) &&
                    (utd2.seconds() == -3) &&
                    (utd2.fractional_seconds() == -4)) );
   utd2 = -hours(5);
   check("unary-", utd2.hours() == -5);
   utd2 = -utd2;
   check("unary-", utd2.hours() == 5);

   time_duration t_6(5,4,3); //05:04:03
   check("h-m-s 5-4-3 hours", t_6.hours() == 5);
   check("h-m-s 5-4-3 minutes", t_6.minutes() == 4);
   check("h-m-s 5-4-3 seconds", t_6.seconds() == 3);
   std::cout << t_6.total_seconds() << std::endl;
   check("h-m-s 5-4-3 total_seconds", t_6.total_seconds() == 18243);

   hours tenhours(10);
   minutes fivemin(5);
   time_duration t7 = time_duration(1,2,3) + tenhours + fivemin;
   check("short hand durations add", t7 == time_duration(11,7,3));
   time_duration t8 = tenhours + time_duration(1,2,3) +  fivemin;
   check("short hand durations add", t8 == time_duration(11,7,3));

   if (time_duration::resolution() >= boost::date_time::micro) {
     time_duration t_9(5,4,3,9876); //05:04:03.09876
     check("h-m-s 5-4-3.21 hours",  t_9.hours() == 5);
     check("h-m-s 5-4-3.21 min  ",  t_9.minutes() == 4);
     check("h-m-s 5-4-3.21 sec  ",  t_9.seconds() == 3);
     check("h-m-s 5-4-3.21 fs   ",  t_9.fractional_seconds() == 9876);
     check("h-m-s 5-4-3.21 total_seconds", t_9.total_seconds() == 18243);
     //  check("h-m-s 5-4-3.21 fs   ",  t_9.fs_as_double() == 0.9876);
     //std::cout << t_9.fs_as_double() << std::endl;
     std::cout << to_simple_string(t_9) << std::endl;
   }

   if (time_duration::resolution() >= boost::date_time::tenth) {
     time_duration t_10(5,4,3,9); //05:04:03.00001
     check("h-m-s 5-4-3.9 hours",  t_10.hours() == 5);
     check("h-m-s 5-4-3.9 min  ",  t_10.minutes() == 4);
     check("h-m-s 5-4-3.9 sec  ",  t_10.seconds() == 3);
     check("h-m-s 5-4-3.9 fs   ",  t_10.fractional_seconds() == 9);
     check("h-m-s 5-4-3.9 total_seconds", t_10.total_seconds() == 18243);
     std::cout << to_simple_string(t_10) << std::endl;
   }

   if (time_duration::resolution() >= boost::date_time::milli) {
     millisec ms(9);
     //  time_duration t_10(0,0,0,); //00:00:00.009
     std::cout << "time_resolution: " << time_duration::resolution() << std::endl;
 #if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
   //sorry res_adjust() doesn't work on VC6
 #else
     std::cout << "res_adjust " << time_res_traits::res_adjust() << std::endl;
 #endif
     if (time_duration::resolution() == boost::date_time::nano) {
       check("millisec",  ms.fractional_seconds() == 9000000);
       check("total_seconds - nofrac", ms.total_seconds() == 0);
       check("total_millisec", ms.total_milliseconds() == 9);
       check("ticks per second", time_duration::ticks_per_second() == 1000000000);
     }
     else {
       check("millisec 9000",  ms.fractional_seconds() == 9000);
       check("total_seconds - nofrac", ms.total_seconds() == 0);
       check("total_millisec", ms.total_milliseconds() == 9);
     }
   }

 #ifdef BOOST_DATE_TIME_HAS_NANOSECONDS
   if (time_duration::resolution() >= boost::date_time::nano) {
     nanosec ns(9);
     //  time_duration t_10(0,0,0,); //00:00:00.00009
     check("nanosec",  ns.fractional_seconds() == 9);
     check("total nanosec",  ns.total_nanoseconds() == 9);
     check("total microsec - truncated",  ns.total_microseconds() == 0);
     std::cout << to_simple_string(ns) << std::endl;
     time_duration ns18 = ns + ns;
     check("nanosec",  ns18.fractional_seconds() == 18);
     std::cout << to_simple_string(ns18) << std::endl;
     nanosec ns2(1000000000); //one second
     check("nano to second compare",  ns2 == seconds(1));
     check("check total seconds",  ns2.total_seconds() == 1);
     std::cout << to_simple_string(ns2) << std::endl;
     check("division of nanoseconds", (nanosec(3)/2) == nanosec(1));
     check("multiplication of nanosec", nanosec(3)*1000 == microsec(3));
   }
 #endif

   time_duration t_11(3600,0,0);
   check("3600 hours   ",  t_11.hours() == 3600);
   check("total seconds 3600 hours",  t_11.total_seconds() == 12960000);

   time_duration td_12(1,2,3,10);
   std::cout << td_12.total_seconds() << std::endl;
   check("total seconds 3723 hours",  td_12.total_seconds() == 3723);

   //  time_duration t_11a = t_11/time_duration(0,3,0);

   check("division", (hours(2)/2) == hours(1));
   check("division", (hours(3)/2) == time_duration(1,30,0));
   check("division", (hours(3)/3) == hours(1));
   check("multiplication", time_duration(3,0,0)*2 == hours(6));
   check("multiplication", hours(3600)*1000 == hours(3600000));

   // special_values operations
   time_duration pi_dur(pos_infin), ni_dur(neg_infin), ndt_dur(not_a_date_time);
   check("+infin + -infin", pi_dur + ni_dur == ndt_dur);
   check("infin / int", pi_dur / 3 == pi_dur);
   check("infin + duration", pi_dur + td_12 == pi_dur);
   check("infin - duration", pi_dur - td_12 == pi_dur);
   check("unary-", -pi_dur == ni_dur);
   check("-infin less than +infin", ni_dur < pi_dur);
   check("-infin less than duration", ni_dur < td_12);
   check("+infin greater than duration", pi_dur > td_12);
   std::string result(""), answer("+infinity");
   result = to_simple_string(pi_dur);
   check("to string +infin", result==answer);
   result = to_simple_string(ni_dur);
   answer = "-infinity";
   check("to string +infin", result==answer);
   result = to_simple_string(ndt_dur);
   //answer = "not-a-number";
   answer = "not-a-date-time";
   check("to string +infin", result==answer);

   using namespace boost::gregorian;
   ptime t1(date(2001,7,14));
   ptime t2(date(2002,7,14));
   check("One year of hours: 365*24=8760",  365*24 == ((t2-t1).hours()));
   check("Total seconds in a year",  365*24*3600 == ((t2-t1).total_seconds()));

   std::cout << to_simple_string(time_duration(20000 * 24, 0, 0, 0)) << std::endl;
   std::cout << to_simple_string(time_duration(24855 * 24, 0, 0, 0)) << std::endl;
   std::cout << to_simple_string(time_duration(24856 * 24, 0, 0, 0)) << std::endl;
   std::cout << to_simple_string(time_duration(25000 * 24, 0, 0, 0)) << std::endl;
   time_duration tdl1(25000*24, 0, 0, 0);
   check("600000 hours", tdl1.hours() == 600000);
   time_duration tdl2(2000000, 0, 0, 0);
   check("2000000 hours", tdl2.hours() == 2000000);

   check("total milliseconds", seconds(1).total_milliseconds() == 1000);
   check("total microseconds", seconds(1).total_microseconds() == 1000000);
   check("total nanoseconds", seconds(1).total_nanoseconds() == 1000000000);
   check("total milliseconds", hours(1).total_milliseconds() == 3600*1000);
   boost::int64_t tms = static_cast<boost::int64_t>(3600)*1000000*1001; //ms per sec
   check("total microseconds 1000 hours", hours(1001).total_microseconds() == tms);
   tms = static_cast<boost::int64_t>(3600)*365*24*1000;
   check("total milliseconds - one year", (t2-t1).total_milliseconds() == tms);
   tms = 3600*365*24*static_cast<boost::int64_t>(1000000000);
   check("total nanoseconds - one year", (t2-t1).total_nanoseconds() == tms);
 #if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
 #else
   std::cout << "tms: " << (t2-t1).total_milliseconds() << std::endl;
   std::cout << "nano per year: " << (t2-t1).total_nanoseconds() << std::endl;
 #endif
   // make it into a double
   double d1 = microseconds(25).ticks()/(double)time_duration::ticks_per_second();
   std::cout << d1 << std::endl;

   //Following causes errors on several compilers about value to large for
   //type.  So it is commented out for now.  Strangely works on gcc 3.3
   //eg: integer constant out of range
 //   long sec_in_200k_hours(7200000000);
 //   check("total sec in 2000000 hours",
 //         tdl2.total_seconds() == sec_in_200k_hours);
 //   std::cout << to_simple_string(time_duration(2000000, 0, 0, 0)) << std::endl;


   return printTestStats();

 }
	/* Copyright (c) 2002-2004 CrystalClear Software, Inc.
	* Use, modification and distribution is subject to the
	* Boost Software License, Version 1.0. (See accompanying
	* file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
	* Author: Jeff Garland, Bart Garst
	* $Date: 2008-11-26 16:07:14 -0500 (Wed, 26 Nov 2008) $
	*/

	#include "boost/date_time/posix_time/posix_time_duration.hpp"
	#include "boost/date_time/compiler_config.hpp"
	#if defined(BOOST_DATE_TIME_INCLUDE_LIMITED_HEADERS)
	#include "boost/date_time/posix_time/time_formatters_limited.hpp"
	#else
	#include "boost/date_time/posix_time/time_formatters.hpp"
	#endif
	#include "../testfrmwk.hpp"


	int
	main()
	{
	using namespace boost::posix_time;


	// std::cout << "Default limits: SECOND " << std::endl;
	{
	time_duration td;
	check("default construction -- 0 ticks", td.ticks() == 0);
	// check("default construction -- 0 secs", td.seconds() == 0);
	// check("default construction -- 0 min", td.minutes() == 0);
	}

	// construct from components
	time_duration td1(1,25,0);
	time_duration td3(td1.hours(),td1.minutes(),td1.seconds());
	check("total up elements", td1 == td3);
	td1 = -td1; // td1 == "-1:25:00"
	td3 = time_duration(td1.hours(),td1.minutes(),td1.seconds());
	check("total up elements-invered sign", td1 == td3);


	time_duration t_1(0,1,40);
	time_duration t_2(0,1,41);
	check("less test", !(t_2 < t_2));
	check("equal test", t_1 == t_1);
	check("greater equal - equal", t_1 >= t_1);
	check("greater equal - greater", t_2 >= t_1);
	check("less equal - equal ", t_2 <= t_2);
	check("greater ", t_2 > t_1);
	check("greater - not ", !(t_1 > t_2));
	time_duration t_3(t_2);
	check("copy constructor ", t_2 == t_3);
	time_duration t_4 = t_3;
	check("assignment operator ", t_2 == t_4);

	time_duration t_5(1,30,20,10); // 1hr, 30min, 20sec, 10 frac sec
	t_5 /= 2;
	check("divide equal", (t_5.hours() == 0 &&
	t_5.minutes() == 45 &&
	t_5.seconds() == 10 &&
	t_5.fractional_seconds() == 5));
	t_5 = time_duration(3,15,8,0) / 2;
	check("divide int", t_5 == time_duration(1,37,34,0));
	{
	time_duration td = hours(5);
	td *= 5;
	check("mult-equals int", time_duration(25,0,0,0) == td);
	}


	t_5 = t_2 + t_1;
	//VC6 goes ambiguous on the next line...
	#if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
	//sorry ticks() doesn't work on VC6
	#else
	std::cout << t_5.ticks() << std::endl;
	#endif
	check("add", t_5 == time_duration(0,3,21));
	time_duration td_a(5,5,5,5);
	time_duration td_b(4,4,4,4);
	time_duration td_c(2,2,2,2);
	td_a += td_b;
	check("add equal", td_a == time_duration(9,9,9,9));
	time_duration td_d = td_b - td_c;
	check("subtract", td_d == time_duration(2,2,2,2));
	td_d -= td_b;
	check("subtract equal (neg result)", td_d == td_c - td_b);

	time_duration utd(1,2,3,4);
	time_duration utd2 = -utd;
	//std::cout << td_d << '\n' << utd2 << std::endl;
	check("unary-", ((utd2.hours() == -1) &&
	(utd2.minutes() == -2) &&
	(utd2.seconds() == -3) &&
	(utd2.fractional_seconds() == -4)) );
	utd2 = -hours(5);
	check("unary-", utd2.hours() == -5);
	utd2 = -utd2;
	check("unary-", utd2.hours() == 5);

	time_duration t_6(5,4,3); //05:04:03
	check("h-m-s 5-4-3 hours", t_6.hours() == 5);
	check("h-m-s 5-4-3 minutes", t_6.minutes() == 4);
	check("h-m-s 5-4-3 seconds", t_6.seconds() == 3);
	std::cout << t_6.total_seconds() << std::endl;
	check("h-m-s 5-4-3 total_seconds", t_6.total_seconds() == 18243);

	hours tenhours(10);
	minutes fivemin(5);
	time_duration t7 = time_duration(1,2,3) + tenhours + fivemin;
	check("short hand durations add", t7 == time_duration(11,7,3));
	time_duration t8 = tenhours + time_duration(1,2,3) + fivemin;
	check("short hand durations add", t8 == time_duration(11,7,3));

	if (time_duration::resolution() >= boost::date_time::micro) {
	time_duration t_9(5,4,3,9876); //05:04:03.09876
	check("h-m-s 5-4-3.21 hours", t_9.hours() == 5);
	check("h-m-s 5-4-3.21 min ", t_9.minutes() == 4);
	check("h-m-s 5-4-3.21 sec ", t_9.seconds() == 3);
	check("h-m-s 5-4-3.21 fs ", t_9.fractional_seconds() == 9876);
	check("h-m-s 5-4-3.21 total_seconds", t_9.total_seconds() == 18243);
	// check("h-m-s 5-4-3.21 fs ", t_9.fs_as_double() == 0.9876);
	//std::cout << t_9.fs_as_double() << std::endl;
	std::cout << to_simple_string(t_9) << std::endl;
	}

	if (time_duration::resolution() >= boost::date_time::tenth) {
	time_duration t_10(5,4,3,9); //05:04:03.00001
	check("h-m-s 5-4-3.9 hours", t_10.hours() == 5);
	check("h-m-s 5-4-3.9 min ", t_10.minutes() == 4);
	check("h-m-s 5-4-3.9 sec ", t_10.seconds() == 3);
	check("h-m-s 5-4-3.9 fs ", t_10.fractional_seconds() == 9);
	check("h-m-s 5-4-3.9 total_seconds", t_10.total_seconds() == 18243);
	std::cout << to_simple_string(t_10) << std::endl;
	}

	if (time_duration::resolution() >= boost::date_time::milli) {
	millisec ms(9);
	// time_duration t_10(0,0,0,); //00:00:00.009
	std::cout << "time_resolution: " << time_duration::resolution() << std::endl;
	#if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
	//sorry res_adjust() doesn't work on VC6
	#else
	std::cout << "res_adjust " << time_res_traits::res_adjust() << std::endl;
	#endif
	if (time_duration::resolution() == boost::date_time::nano) {
	check("millisec", ms.fractional_seconds() == 9000000);
	check("total_seconds - nofrac", ms.total_seconds() == 0);
	check("total_millisec", ms.total_milliseconds() == 9);
	check("ticks per second", time_duration::ticks_per_second() == 1000000000);
	}
	else {
	check("millisec 9000", ms.fractional_seconds() == 9000);
	check("total_seconds - nofrac", ms.total_seconds() == 0);
	check("total_millisec", ms.total_milliseconds() == 9);
	}
	}

	#ifdef BOOST_DATE_TIME_HAS_NANOSECONDS
	if (time_duration::resolution() >= boost::date_time::nano) {
	nanosec ns(9);
	// time_duration t_10(0,0,0,); //00:00:00.00009
	check("nanosec", ns.fractional_seconds() == 9);
	check("total nanosec", ns.total_nanoseconds() == 9);
	check("total microsec - truncated", ns.total_microseconds() == 0);
	std::cout << to_simple_string(ns) << std::endl;
	time_duration ns18 = ns + ns;
	check("nanosec", ns18.fractional_seconds() == 18);
	std::cout << to_simple_string(ns18) << std::endl;
	nanosec ns2(1000000000); //one second
	check("nano to second compare", ns2 == seconds(1));
	check("check total seconds", ns2.total_seconds() == 1);
	std::cout << to_simple_string(ns2) << std::endl;
	check("division of nanoseconds", (nanosec(3)/2) == nanosec(1));
	check("multiplication of nanosec", nanosec(3)*1000 == microsec(3));
	}
	#endif

	time_duration t_11(3600,0,0);
	check("3600 hours ", t_11.hours() == 3600);
	check("total seconds 3600 hours", t_11.total_seconds() == 12960000);

	time_duration td_12(1,2,3,10);
	std::cout << td_12.total_seconds() << std::endl;
	check("total seconds 3723 hours", td_12.total_seconds() == 3723);

	// time_duration t_11a = t_11/time_duration(0,3,0);

	check("division", (hours(2)/2) == hours(1));
	check("division", (hours(3)/2) == time_duration(1,30,0));
	check("division", (hours(3)/3) == hours(1));
	check("multiplication", time_duration(3,0,0)*2 == hours(6));
	check("multiplication", hours(3600)*1000 == hours(3600000));

	// special_values operations
	time_duration pi_dur(pos_infin), ni_dur(neg_infin), ndt_dur(not_a_date_time);
	check("+infin + -infin", pi_dur + ni_dur == ndt_dur);
	check("infin / int", pi_dur / 3 == pi_dur);
	check("infin + duration", pi_dur + td_12 == pi_dur);
	check("infin - duration", pi_dur - td_12 == pi_dur);
	check("unary-", -pi_dur == ni_dur);
	check("-infin less than +infin", ni_dur < pi_dur);
	check("-infin less than duration", ni_dur < td_12);
	check("+infin greater than duration", pi_dur > td_12);
	std::string result(""), answer("+infinity");
	result = to_simple_string(pi_dur);
	check("to string +infin", result==answer);
	result = to_simple_string(ni_dur);
	answer = "-infinity";
	check("to string +infin", result==answer);
	result = to_simple_string(ndt_dur);
	//answer = "not-a-number";
	answer = "not-a-date-time";
	check("to string +infin", result==answer);

	using namespace boost::gregorian;
	ptime t1(date(2001,7,14));
	ptime t2(date(2002,7,14));
	check("One year of hours: 36524=8760", 36524 == ((t2-t1).hours()));
	check("Total seconds in a year", 365243600 == ((t2-t1).total_seconds()));

	std::cout << to_simple_string(time_duration(20000 * 24, 0, 0, 0)) << std::endl;
	std::cout << to_simple_string(time_duration(24855 * 24, 0, 0, 0)) << std::endl;
	std::cout << to_simple_string(time_duration(24856 * 24, 0, 0, 0)) << std::endl;
	std::cout << to_simple_string(time_duration(25000 * 24, 0, 0, 0)) << std::endl;
	time_duration tdl1(25000*24, 0, 0, 0);
	check("600000 hours", tdl1.hours() == 600000);
	time_duration tdl2(2000000, 0, 0, 0);
	check("2000000 hours", tdl2.hours() == 2000000);

	check("total milliseconds", seconds(1).total_milliseconds() == 1000);
	check("total microseconds", seconds(1).total_microseconds() == 1000000);
	check("total nanoseconds", seconds(1).total_nanoseconds() == 1000000000);
	check("total milliseconds", hours(1).total_milliseconds() == 3600*1000);
	boost::int64_t tms = static_cast<boost::int64_t>(3600)10000001001; //ms per sec
	check("total microseconds 1000 hours", hours(1001).total_microseconds() == tms);
	tms = static_cast<boost::int64_t>(3600)36524*1000;
	check("total milliseconds - one year", (t2-t1).total_milliseconds() == tms);
	tms = 360036524*static_cast<boost::int64_t>(1000000000);
	check("total nanoseconds - one year", (t2-t1).total_nanoseconds() == tms);
	#if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
	#else
	std::cout << "tms: " << (t2-t1).total_milliseconds() << std::endl;
	std::cout << "nano per year: " << (t2-t1).total_nanoseconds() << std::endl;
	#endif
	// make it into a double
	double d1 = microseconds(25).ticks()/(double)time_duration::ticks_per_second();
	std::cout << d1 << std::endl;

	//Following causes errors on several compilers about value to large for
	//type. So it is commented out for now. Strangely works on gcc 3.3
	//eg: integer constant out of range
	// long sec_in_200k_hours(7200000000);
	// check("total sec in 2000000 hours",
	// tdl2.total_seconds() == sec_in_200k_hours);
	// std::cout << to_simple_string(time_duration(2000000, 0, 0, 0)) << std::endl;


	return printTestStats();

	}