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

 /* Copyright (c) 2002,2003,2005 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
  */

 #include "boost/date_time/gregorian/gregorian.hpp"
 #include "../testfrmwk.hpp"


 int main(){

 #if !defined(BOOST_DATE_TIME_OPTIONAL_GREGORIAN_TYPES)
   // do not set this test to return fail -
   // this is not necessarily a compiler problem
   check("Optional gregorian types not selected - no tests run", true);
 #else

   using namespace boost::gregorian;


   /*** months ***/
   {
     months m1(5), m2(3), m3(1);
     check("months & months addable", months(8) == m1 + m2);
     m1 += m2;
     check("months & months addable", months(8) == m1);
     check("months & months subtractable", months(-5) == m2 - m1);
     m2 -= m1;
     check("months & months subtractable", months(-5) == m2);
     {
       // adding and subtracting negative values
       date d1(2005, Jan, 1);
       date d2(2005, Feb, 1);
       check("add neg months (year wrap under)",
           d1 + months(-1) == date(2004,Dec,1));
       check("add neg months (no year wrap under)",
           d2 + months(-1) == date(2005,Jan,1));
       check("add neg months (year wrap under)",
           d2 + months(-2) == date(2004,Dec,1));
       check("add neg months (year wrap under)",
           d2 + months(-12) == date(2004,Feb,1));
       check("add neg months (year wrap under)",
           d2 + months(-13) == date(2004,Jan,1));
       check("add neg months (year wrap under)",
           d2 + months(-14) == date(2003,Dec,1));
       date d3(2005, Dec, 1);
       date d4(2005, Nov, 1);
       check("subtract neg months (year wrap over)",
           d3 - months(-1) == date(2006,Jan,1));
       check("subtract neg months (no year wrap over)",
           d4 - months(-1) == date(2005,Dec,1));
       check("subtract neg months (year wrap over)",
           d4 - months(-2) == date(2006,Jan,1));
       check("subtract neg months (year wrap over)",
           d4 - months(-12) == date(2006,Nov,1));
       check("subtract neg months (year wrap over)",
           d4 - months(-13) == date(2006,Dec,1));
       check("subtract neg months (year wrap over)",
           d4 - months(-14) == date(2007,Jan,1));
     }
     {
       months m1(5), m2(3), m3(10);
       check("months & int multipliable", months(15) == m1 * 3);
       m1 *= 3;
       check("months & int multipliable", months(15) == m1);
       //check("int * months", months(12) == 4 * m2);
       check("months & int dividable", months(3) == m3 / 3);
       m3 /= 3;
       check("months & int dividable", months(3) == m3);
     }
     {
       months m(-5), m_pos(pos_infin), m_neg(neg_infin), m_nadt(not_a_date_time);
       check("months add special_values", m + m_pos == m_pos);
       check("months add special_values", m + m_neg == m_neg);
       check("months add special_values", m_pos + m_neg == m_nadt);
       check("months add special_values", m_neg + m_neg == m_neg);
       check("months subtract special_values", m - m_pos == m_neg);
       check("months subtract special_values", m - m_neg == m_pos);
       check("months subtract special_values", m_pos - m_neg == m_pos);
       check("months special_values & int multipliable", m_pos * -1 == m_neg);
       check("months special_values & int multipliable", m_pos * 0 == m_nadt);
       check("months special_values & int dividable", m_neg / 3 == m_neg);
     }

     years y1(2), y2(4);
     check("months & years addable", months(25) == m3 + y1);
     m3 += y1;
     check("months & years addable", months(25) == m3);
     check("months & years subtractable", months(-23) == m3 - y2);
     m3 -= y2;
     check("months & years subtractable", months(-23) == m3);

     {
       date d(2001, Oct, 31);
       check("date + months", date(2002, Feb, 28) == d + months(4));
       d += months(4);
       check("date += months", date(2002, Feb, 28) == d);
     }
     {
       date d(2001, Oct, 31);
       check("date - months", date(2001, Apr, 30) == d - months(6));
       d -= months(6);
       check("date -= months", date(2001, Apr, 30) == d);
     }
   }

   /*** years ***/
   {
     years y1(2), y2(4), y3(1);
     check("years & years addable", years(3) == y3 + y1);
     y3 += y1;
     check("years & years addable", years(3) == y3);
     check("years & years subtractable", years(-1) == y3 - y2);
     y3 -= y2;
     check("years & years subtractable", years(-1) == y3);
     {
       years y1(5), y2(3), y3(10);
       check("years & int multipliable", years(15) == y1 * 3);
       y1 *= 3;
       check("years & int multipliable", years(15) == y1);
       //check("int * years", years(12) == 4 * y2);
       check("years & int dividable", years(3) == y3 / 3);
       y3 /= 3;
       check("years & int dividable", years(3) == y3);
     }
     {
       years m(15), y_pos(pos_infin), y_neg(neg_infin), y_nadt(not_a_date_time);
       check("years add special_values", m + y_pos == y_pos);
       check("years add special_values", m + y_neg == y_neg);
       check("years add special_values", y_pos + y_neg == y_nadt);
       check("years add special_values", y_neg + y_neg == y_neg);
       check("years subtract special_values", m - y_pos == y_neg);
       check("years subtract special_values", m - y_neg == y_pos);
       check("years subtract special_values", y_pos - y_neg == y_pos);
       check("years special_values & int multipliable", y_pos * -1 == y_neg);
       check("years special_values & int multipliable", y_pos * 0 == y_nadt);
       check("years special_values & int dividable", y_neg / 3 == y_neg);
     }

     months m1(5), m2(3);
     check("years & months addable", months(51) == y2 + m2);
     check("years & months subtractable", months(43) == y2 - m1);

     {
       date d(2001, Feb, 28); // not a leap year
       check("date + years", date(2004, Feb, 29) == d + years(3));
       d += years(3);
       check("date += years", date(2004, Feb, 29) == d);
     }
     {
       date d(2000, Feb, 29);
       check("date - years", date(1994, Feb, 28) == d - years(6));
       d -= years(6);
       check("date -= years", date(1994, Feb, 28) == d);
     }

   }

   /*** weeks ***/
   // shouldn't need many tests, it is nothing more than a date_duration
   // so all date_duration tests should prove this class
   {
     weeks w1(2), w2(4), w3(1), pi(pos_infin);
     check("add special_values", weeks(pos_infin) == w1 + pi);
     check("weeks & weeks addable", weeks(3) == w3 + w1);
     w3 += w1;
     check("weeks & weeks addable", weeks(3) == w3);
     check("weeks & weeks subtractable", weeks(-1) == w3 - w2);
     w3 -= w2;
     check("weeks & weeks subtractable", weeks(-1) == w3);
     {
       days d(10);
       check("days + weeks", days(31) == d + weeks(3));
       d += weeks(3);
       check("days += weeks", days(31) == d);
     }
     {
       days d(10);
       check("days - weeks", days(-32) == d - weeks(6));
       d -= weeks(6);
       check("days -= weeks", days(-32) == d);
     }
     {
       date d(2001, Feb, 28);
       check("date + weeks", date(2001, Mar, 21) == d + weeks(3));
       d += weeks(3);
       check("date += weeks", date(2001, Mar, 21) == d);
     }
     {
       date d(2001, Feb, 28);
       check("date - weeks", date(2001, Jan, 17) == d - weeks(6));
       d -= weeks(6);
       check("date -= weeks", date(2001, Jan, 17) == d);
     }
   }

   {
     date d(2000, Oct, 31);
     date d2 = d + months(4) + years(2);
     date d3 = d + years(2) + months(4);
     check("date + years + months", date(2003,Feb,28) == d2);
     check("date + years + months", date(2003,Feb,28) == d3);
     months m = years(2) + months(4) - months(4) - years(2);
     check("sanity check", m.number_of_months() == 0);
   }
   /*{
     date d(2001, Mar, 31);
     date d1 = (d - months(1)) + months(1); //Mar 28, right? WRONG
     // Mar31 - 1 month is Feb28 (last day of month) so Feb28 + 1 month
     // will be Mar31 (last day of month)
     check("date + 1 months - 1 months", date(2001,Mar,28) == d1);
     std::cout << d1 << std::endl;
     //date d2 = (d - months(1)) + d; //compile error, right?  RIGHT
     //weeks w1 = weeks(1) + months(1); //compiler error, right?  RIGHT
   }*/

 #endif // BOOST_DATE_TIME_OPTIONAL_GREGORIAN_TYPES

   return printTestStats();

 }
	/* Copyright (c) 2002,2003,2005 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
	*/

	#include "boost/date_time/gregorian/gregorian.hpp"
	#include "../testfrmwk.hpp"


	int main(){

	#if !defined(BOOST_DATE_TIME_OPTIONAL_GREGORIAN_TYPES)
	// do not set this test to return fail -
	// this is not necessarily a compiler problem
	check("Optional gregorian types not selected - no tests run", true);
	#else

	using namespace boost::gregorian;


	/* months */
	{
	months m1(5), m2(3), m3(1);
	check("months & months addable", months(8) == m1 + m2);
	m1 += m2;
	check("months & months addable", months(8) == m1);
	check("months & months subtractable", months(-5) == m2 - m1);
	m2 -= m1;
	check("months & months subtractable", months(-5) == m2);
	{
	// adding and subtracting negative values
	date d1(2005, Jan, 1);
	date d2(2005, Feb, 1);
	check("add neg months (year wrap under)",
	d1 + months(-1) == date(2004,Dec,1));
	check("add neg months (no year wrap under)",
	d2 + months(-1) == date(2005,Jan,1));
	check("add neg months (year wrap under)",
	d2 + months(-2) == date(2004,Dec,1));
	check("add neg months (year wrap under)",
	d2 + months(-12) == date(2004,Feb,1));
	check("add neg months (year wrap under)",
	d2 + months(-13) == date(2004,Jan,1));
	check("add neg months (year wrap under)",
	d2 + months(-14) == date(2003,Dec,1));
	date d3(2005, Dec, 1);
	date d4(2005, Nov, 1);
	check("subtract neg months (year wrap over)",
	d3 - months(-1) == date(2006,Jan,1));
	check("subtract neg months (no year wrap over)",
	d4 - months(-1) == date(2005,Dec,1));
	check("subtract neg months (year wrap over)",
	d4 - months(-2) == date(2006,Jan,1));
	check("subtract neg months (year wrap over)",
	d4 - months(-12) == date(2006,Nov,1));
	check("subtract neg months (year wrap over)",
	d4 - months(-13) == date(2006,Dec,1));
	check("subtract neg months (year wrap over)",
	d4 - months(-14) == date(2007,Jan,1));
	}
	{
	months m1(5), m2(3), m3(10);
	check("months & int multipliable", months(15) == m1 * 3);
	m1 *= 3;
	check("months & int multipliable", months(15) == m1);
	//check("int * months", months(12) == 4 * m2);
	check("months & int dividable", months(3) == m3 / 3);
	m3 /= 3;
	check("months & int dividable", months(3) == m3);
	}
	{
	months m(-5), m_pos(pos_infin), m_neg(neg_infin), m_nadt(not_a_date_time);
	check("months add special_values", m + m_pos == m_pos);
	check("months add special_values", m + m_neg == m_neg);
	check("months add special_values", m_pos + m_neg == m_nadt);
	check("months add special_values", m_neg + m_neg == m_neg);
	check("months subtract special_values", m - m_pos == m_neg);
	check("months subtract special_values", m - m_neg == m_pos);
	check("months subtract special_values", m_pos - m_neg == m_pos);
	check("months special_values & int multipliable", m_pos * -1 == m_neg);
	check("months special_values & int multipliable", m_pos * 0 == m_nadt);
	check("months special_values & int dividable", m_neg / 3 == m_neg);
	}

	years y1(2), y2(4);
	check("months & years addable", months(25) == m3 + y1);
	m3 += y1;
	check("months & years addable", months(25) == m3);
	check("months & years subtractable", months(-23) == m3 - y2);
	m3 -= y2;
	check("months & years subtractable", months(-23) == m3);

	{
	date d(2001, Oct, 31);
	check("date + months", date(2002, Feb, 28) == d + months(4));
	d += months(4);
	check("date += months", date(2002, Feb, 28) == d);
	}
	{
	date d(2001, Oct, 31);
	check("date - months", date(2001, Apr, 30) == d - months(6));
	d -= months(6);
	check("date -= months", date(2001, Apr, 30) == d);
	}
	}

	/* years */
	{
	years y1(2), y2(4), y3(1);
	check("years & years addable", years(3) == y3 + y1);
	y3 += y1;
	check("years & years addable", years(3) == y3);
	check("years & years subtractable", years(-1) == y3 - y2);
	y3 -= y2;
	check("years & years subtractable", years(-1) == y3);
	{
	years y1(5), y2(3), y3(10);
	check("years & int multipliable", years(15) == y1 * 3);
	y1 *= 3;
	check("years & int multipliable", years(15) == y1);
	//check("int * years", years(12) == 4 * y2);
	check("years & int dividable", years(3) == y3 / 3);
	y3 /= 3;
	check("years & int dividable", years(3) == y3);
	}
	{
	years m(15), y_pos(pos_infin), y_neg(neg_infin), y_nadt(not_a_date_time);
	check("years add special_values", m + y_pos == y_pos);
	check("years add special_values", m + y_neg == y_neg);
	check("years add special_values", y_pos + y_neg == y_nadt);
	check("years add special_values", y_neg + y_neg == y_neg);
	check("years subtract special_values", m - y_pos == y_neg);
	check("years subtract special_values", m - y_neg == y_pos);
	check("years subtract special_values", y_pos - y_neg == y_pos);
	check("years special_values & int multipliable", y_pos * -1 == y_neg);
	check("years special_values & int multipliable", y_pos * 0 == y_nadt);
	check("years special_values & int dividable", y_neg / 3 == y_neg);
	}

	months m1(5), m2(3);
	check("years & months addable", months(51) == y2 + m2);
	check("years & months subtractable", months(43) == y2 - m1);

	{
	date d(2001, Feb, 28); // not a leap year
	check("date + years", date(2004, Feb, 29) == d + years(3));
	d += years(3);
	check("date += years", date(2004, Feb, 29) == d);
	}
	{
	date d(2000, Feb, 29);
	check("date - years", date(1994, Feb, 28) == d - years(6));
	d -= years(6);
	check("date -= years", date(1994, Feb, 28) == d);
	}

	}

	/* weeks */
	// shouldn't need many tests, it is nothing more than a date_duration
	// so all date_duration tests should prove this class
	{
	weeks w1(2), w2(4), w3(1), pi(pos_infin);
	check("add special_values", weeks(pos_infin) == w1 + pi);
	check("weeks & weeks addable", weeks(3) == w3 + w1);
	w3 += w1;
	check("weeks & weeks addable", weeks(3) == w3);
	check("weeks & weeks subtractable", weeks(-1) == w3 - w2);
	w3 -= w2;
	check("weeks & weeks subtractable", weeks(-1) == w3);
	{
	days d(10);
	check("days + weeks", days(31) == d + weeks(3));
	d += weeks(3);
	check("days += weeks", days(31) == d);
	}
	{
	days d(10);
	check("days - weeks", days(-32) == d - weeks(6));
	d -= weeks(6);
	check("days -= weeks", days(-32) == d);
	}
	{
	date d(2001, Feb, 28);
	check("date + weeks", date(2001, Mar, 21) == d + weeks(3));
	d += weeks(3);
	check("date += weeks", date(2001, Mar, 21) == d);
	}
	{
	date d(2001, Feb, 28);
	check("date - weeks", date(2001, Jan, 17) == d - weeks(6));
	d -= weeks(6);
	check("date -= weeks", date(2001, Jan, 17) == d);
	}
	}

	{
	date d(2000, Oct, 31);
	date d2 = d + months(4) + years(2);
	date d3 = d + years(2) + months(4);
	check("date + years + months", date(2003,Feb,28) == d2);
	check("date + years + months", date(2003,Feb,28) == d3);
	months m = years(2) + months(4) - months(4) - years(2);
	check("sanity check", m.number_of_months() == 0);
	}
	/*{
	date d(2001, Mar, 31);
	date d1 = (d - months(1)) + months(1); //Mar 28, right? WRONG
	// Mar31 - 1 month is Feb28 (last day of month) so Feb28 + 1 month
	// will be Mar31 (last day of month)
	check("date + 1 months - 1 months", date(2001,Mar,28) == d1);
	std::cout << d1 << std::endl;
	//date d2 = (d - months(1)) + d; //compile error, right? RIGHT
	//weeks w1 = weeks(1) + months(1); //compiler error, right? RIGHT
	}*/

	#endif // BOOST_DATE_TIME_OPTIONAL_GREGORIAN_TYPES

	return printTestStats();

	}