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

 /* Copyright (c) 2002,2003 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 <iostream>
 #include "boost/date_time/gregorian/gregorian.hpp"
 #include "../testfrmwk.hpp"

 int
 main()
 {

   using namespace boost::gregorian;

   //various constructors
 #if !defined(DATE_TIME_NO_DEFAULT_CONSTRUCTOR)
   date def;
   check("Default constructor", def == date(not_a_date_time));
 #endif
   date d(2000,1,1);
   date d1(1900,1,1);
   date d2 = d;
   date d3(d2);
   check("Copy constructor", d3 == d2);
   date d4(2000,12,31);
   date d4a(2000,Dec,31);
   //d4a.print(std::cout); std::cout << std::endl;
   check("month_rep constructor",   d4 == d4a);
   //std::cout << d3 << std::endl;
   //retrieval functions
   check_equal("1900-01-01 day is 01",     d1.day(),   1);
   check_equal("1900-01-01 month is 01",   d1.month(), 1);
   check_equal("1900-01-01 year is 1900",  d1.year(),  1900);
   check_equal("2000-12-31 day is 31",     d4.day(),   31);
   check_equal("2000-12-31 month is 12",   d4.month(), 12);
   check_equal("2000-12-31 year is 2000",  d4.year(),  2000);
   //operator<
   check("1900-01-01 is less than 2000-01-01",          d1 < d2);
   check("2000-01-01 is NOT less than 2000-01-01",      !(d1 < d1));
   //operator<=
   check("2000-01-01 is less equal than 2000-01-01",    d1 <= d1);
   //operator>
   check("2000-01-01 is greater than 1900-01-01",       d2 > d1);
   check("2000-01-01 is NOT greater than 2000-01-01",   !(d1 < d1));
   //operator>=
   check("2000-01-01 is greater equal than 2000-01-01", d1 >= d1);
   //operator!=
   check("2000-01-01 is NOT equal to 1900-01-01",       d2 != d1);
   //operator==
   check_equal("2000-01-01 is equal 2000-01-01",        d3,   d2);
   check("2000-01-01 is greater equal 2000-01-01",      d3 >= d2);
   check("2000-01-01 is greater equal 2000-01-01",      d3 <= d2);

   date::ymd_type ymd = d1.year_month_day();
   check_equal("ymd year",  ymd.year,  1900);
   check_equal("ymd month", ymd.month, 1);
   check_equal("ymd day",   ymd.day,   1);

   //The max function will not compile with Borland 5.5
   //Complains about must specialize basic_data<limits> ???
 //   std::cout << "Max date is " << (date::max)() << std::endl;
 //   //std::cout << "Max date is " << (basic_date< date_limits<unsigned int,1900> >::max)() << std::endl;
 //   //std::cout << "Max date is " << (date_limits<unsigned int, 1900>::max)() << std::endl;

   const date answers[] = {date(1900,Jan,1),date(1900,Jan,4),date(1900,Jan,7),
                           date(1900,Jan,10),date(1900,Jan,13)};
   date_duration off(3);
   date d5(1900,1,1);
   for (int i=0; i < 5; ++i) {
     //std::cout << d5 << "  ";
     check(" addition ", d5 == answers[i]);
     d5 = d5 + off;
   }
   std::cout << std::endl;

    const date answers1[] = {date(2000,2,26),date(2000,2,28),date(2000,Mar,1)};
    date d8(2000,Feb,26);
    for (int j=0; j < 3; ++j) {
      //std::cout << d8 << "  ";
      check(" more addition ", d8 == answers1[j]);
      d8 = d8 + days(2);
    }
    // std::cout << std::endl;

   date d6(2000,2,28);
   date d7(2000,3,1);
   date_duration twoDays(2);
   date_duration negtwoDays(-2);
   date_duration zeroDays(0);
   check_equal("2000-03-01 - 2000-02-28 == 2 days",   twoDays,     (d7-d6));
   check_equal("2000-02-28 - 2000-03-01 == - 2 days", negtwoDays,  (d6-d7));
   check_equal("2000-02-28 - 2000-02-28 == 0 days",   zeroDays,    (d6-d6));
   check_equal("2000-02-28 + 2 days == 2000-03-01 ",  d6 + twoDays, d7);
   check_equal("2000-03-01 - 2 days == 2000-02-28 ",  d7 - twoDays, d6);
   check_equal("Add duration to date", date(1999,1,1) + date_duration(365), date(2000,1,1));
   check_equal("Add zero days", date(1999,1,1) + zeroDays, date(1999,1,1));
   //can't do this...
   //check("Add date to duration", date_duration(365) + date(1999,1,1) == date(2000,1,1));

   {
     date d(2003,Oct,31);
     date_duration dd(55);
     d += dd;
     check("date += date_duration", d == date(2003,Dec,25));
     d -= dd;
     check("date -= date_duration", d == date(2003,Oct,31));
     /* special_values is more thoroughly tested later,
      * this is just a test of += & -= with special values */
     d += date_duration(pos_infin);
     check("date += inf_dur", d == date(pos_infin));
     d -= dd;
     check("inf_date -= dur", d == date(pos_infin));
   }
   {
     date d(2003,Oct,31);
     date_duration dd1(pos_infin), dd2(neg_infin), dd3(not_a_date_time);
     check_equal("date + inf_dur", d + dd1, date(pos_infin));
     check_equal("date + inf_dur", d + dd2, date(neg_infin));
     check_equal("date + nan_dur", d + dd3, date(not_a_date_time));
     check_equal("date - inf_dur", d - dd1, date(neg_infin));
     check_equal("date - inf_dur", d - dd2, date(pos_infin));
     check_equal("date - nan_dur", d - dd3, date(not_a_date_time));
     check_equal("inf_date + inf_dur", date(pos_infin) + dd1, date(pos_infin));
     check_equal("inf_date - inf_dur", date(pos_infin) - dd1, date(not_a_date_time));
     check_equal("inf_date + inf_dur", date(neg_infin) + dd1, date(not_a_date_time));
     check_equal("inf_date - inf_dur", date(neg_infin) - dd1, date(neg_infin));
   }


   try {
     date d9(2000, Jan, 32);
     check("day out of range", false);
     //never reached if working -- but stops compiler warnings :-)
     std::cout << "Oops: " << to_iso_string(d9) << std::endl;
   }
   catch (bad_day_of_month&) {
     check("day out of range", true);
   }
   try {
     date d9(2000, Jan, 0);
     check("day out of range", false);
     //never reached if working -- but stops compiler warnings :-)
     std::cout << "Oops: " << to_iso_string(d9) << std::endl;
   }
   catch (bad_day_of_month&) {
     check("day out of range", true);
   }

   try {
     date d20(2000, Feb, 31);
     check("day out of range", false);
     //never reached if working -- but stops compiler warnings :-)
     std::cout << "Oops: " << to_iso_string(d20) << std::endl;
   }
   catch (bad_day_of_month&) {
     check("day out of range", true);
   }

   //more subtle -- one day past in a leap year
   try {
     date d21(2000, Feb, 30);
     check("day out of range", false);
     //never reached if working -- but stops compiler warnings :-)
     std::cout << "Oops: " << to_iso_string(d21) << std::endl;
   }
   catch (bad_day_of_month&) {
     check("day out of range", true);
   }

   //more subtle -- one day past in a leap year
   try {
     date d22(2000, Feb, 29);
     check("last day of month ok", true);
     std::cout << to_iso_string(d22) << std::endl; //stop compiler warning
   }
   catch (bad_day_of_month&) {
     check("last day of month -- oops bad exception", false);
   }

   //Not a leap year -- now Feb 29 is bad
   try {
     date d23(1999, Feb, 29);
     check("day out of range", false);
     //never reached if working -- but stops compiler warnings :-)
     std::cout << "Oops: " << to_iso_string(d23) << std::endl;
   }
   catch (bad_day_of_month&) {
     check("day out of range", true);
   }

   //check out some special values
   check("check not a date - false",           !d7.is_not_a_date());
   check("check positive infinity - false",    !d7.is_pos_infinity());
   check("check negative infinity - false",    !d7.is_neg_infinity());

   date d10(neg_infin);
   check("check negative infinity - true",     d10.is_infinity());
   d10 = d10 + twoDays; //still neg infinity
   check("check negative infinity - true",     d10.is_neg_infinity());

   date d11(pos_infin);
   check("check positive infinity - true",     d11.is_infinity());
   d11 = d11 + twoDays;
   check("check positive infinity add - true", d11.is_pos_infinity());

   date d12(not_a_date_time);
   check("check not a date",                   d12.is_not_a_date());
   check("check infinity compare   ",          d10 != d11);
   check("check infinity compare   ",          d10 < d11);
   check("check infinity nad compare   ",      d12 != d11);
   date d13(max_date_time);
   check("check infinity - max compare   ",      d13 < d11);
   check_equal("max date_time value   ",       d13, date(9999,Dec, 31));
   std::cout << to_simple_string(d13) << std::endl;
   date d14(min_date_time);
   check("check infinity - min compare   ",      d14 > d10);
   std::cout << to_simple_string(d14) << std::endl;
   check_equal("min date_time value   ",      d14, date(1400,Jan, 1));


   date d15(1400,1,1);
   std::cout << d15.day_of_week().as_long_string() << std::endl;
   check("check infinity - min compare   ",      d10 < d15);

   // most of this testing is in the gregorian_calendar tests
   std::cout << d15.julian_day() << std::endl;
   check_equal("check julian day   ", d15.julian_day(), 2232400);
   check_equal("check modjulian day   ", d15.modjulian_day(), -167601);
   date d16(2004,2,29);
   check_equal("check julian day   ", d16.julian_day(), 2453065);
   check_equal("check modjulian day   ", d16.modjulian_day(), 53064);

   // most of this testing is in the gregorian_calendar tests
   date d31(2000, Jun, 1);
   check_equal("check iso week number   ", d31.week_number(), 22);
   date d32(2000, Aug, 1);
   check_equal("check iso week number   ", d32.week_number(), 31);
   date d33(2000, Oct, 1);
   check_equal("check iso week number   ", d33.week_number(), 39);
   date d34(2000, Dec, 1);
   check_equal("check iso week number   ", d34.week_number(), 48);
   date d35(2000, Dec, 24);
   check_equal("check iso week number   ", d35.week_number(), 51);
   date d36(2000, Dec, 25);
   check_equal("check iso week number   ", d36.week_number(), 52);
   date d37(2000, Dec, 31);
   check_equal("check iso week number   ", d37.week_number(), 52);
   date d38(2001, Jan, 1);
   check_equal("check iso week number   ", d38.week_number(), 1);

   try {
     int dayofyear1 = d38.day_of_year();
     check_equal("check day of year number", dayofyear1, 1);
     check_equal("check day of year number", d37.day_of_year(), 366);
     date d39(2001,Dec,31);
     check_equal("check day of year number", d39.day_of_year(), 365);
     date d40(2000,Feb,29);
     check_equal("check day of year number", d40.day_of_year(), 60);
     date d41(1400,Jan,1);
     check_equal("check day of year number", d41.day_of_year(), 1);
     date d42(1400,Jan,1);
     check_equal("check day of year number", d42.day_of_year(), 1);
     date d43(2002,Nov,17);
     check_equal("check day of year number", d43.day_of_year(), 321);
   }
   catch(std::exception& e) {
     std::cout << e.what() << std::endl;
     check("check day of year number", false);
   }

   //converts to date and back -- should get same result
   check_equal("tm conversion functions 2000-1-1", date_from_tm(to_tm(d)), d);
   check_equal("tm conversion functions 1900-1-1", date_from_tm(to_tm(d1)), d1);
   check_equal("tm conversion functions min date 1400-1-1 ", date_from_tm(to_tm(d14)), d14);
   check_equal("tm conversion functions max date 9999-12-31", date_from_tm(to_tm(d13)), d13);

   try{
     date d(neg_infin);
     tm d_tm = to_tm(d);
     check("Exception not thrown (special_value to_tm)", false);
   }catch(std::out_of_range& e){
     check("Caught expected exception (special_value to_tm)", true);
   }catch(...){
     check("Caught un-expected exception (special_value to_tm)", false);
   }

   return printTestStats();

 }
	/* Copyright (c) 2002,2003 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 <iostream>
	#include "boost/date_time/gregorian/gregorian.hpp"
	#include "../testfrmwk.hpp"

	int
	main()
	{

	using namespace boost::gregorian;

	//various constructors
	#if !defined(DATE_TIME_NO_DEFAULT_CONSTRUCTOR)
	date def;
	check("Default constructor", def == date(not_a_date_time));
	#endif
	date d(2000,1,1);
	date d1(1900,1,1);
	date d2 = d;
	date d3(d2);
	check("Copy constructor", d3 == d2);
	date d4(2000,12,31);
	date d4a(2000,Dec,31);
	//d4a.print(std::cout); std::cout << std::endl;
	check("month_rep constructor", d4 == d4a);
	//std::cout << d3 << std::endl;
	//retrieval functions
	check_equal("1900-01-01 day is 01", d1.day(), 1);
	check_equal("1900-01-01 month is 01", d1.month(), 1);
	check_equal("1900-01-01 year is 1900", d1.year(), 1900);
	check_equal("2000-12-31 day is 31", d4.day(), 31);
	check_equal("2000-12-31 month is 12", d4.month(), 12);
	check_equal("2000-12-31 year is 2000", d4.year(), 2000);
	//operator<
	check("1900-01-01 is less than 2000-01-01", d1 < d2);
	check("2000-01-01 is NOT less than 2000-01-01", !(d1 < d1));
	//operator<=
	check("2000-01-01 is less equal than 2000-01-01", d1 <= d1);
	//operator>
	check("2000-01-01 is greater than 1900-01-01", d2 > d1);
	check("2000-01-01 is NOT greater than 2000-01-01", !(d1 < d1));
	//operator>=
	check("2000-01-01 is greater equal than 2000-01-01", d1 >= d1);
	//operator!=
	check("2000-01-01 is NOT equal to 1900-01-01", d2 != d1);
	//operator==
	check_equal("2000-01-01 is equal 2000-01-01", d3, d2);
	check("2000-01-01 is greater equal 2000-01-01", d3 >= d2);
	check("2000-01-01 is greater equal 2000-01-01", d3 <= d2);

	date::ymd_type ymd = d1.year_month_day();
	check_equal("ymd year", ymd.year, 1900);
	check_equal("ymd month", ymd.month, 1);
	check_equal("ymd day", ymd.day, 1);

	//The max function will not compile with Borland 5.5
	//Complains about must specialize basic_data<limits> ???
	// std::cout << "Max date is " << (date::max)() << std::endl;
	// //std::cout << "Max date is " << (basic_date< date_limits<unsigned int,1900> >::max)() << std::endl;
	// //std::cout << "Max date is " << (date_limits<unsigned int, 1900>::max)() << std::endl;

	const date answers[] = {date(1900,Jan,1),date(1900,Jan,4),date(1900,Jan,7),
	date(1900,Jan,10),date(1900,Jan,13)};
	date_duration off(3);
	date d5(1900,1,1);
	for (int i=0; i < 5; ++i) {
	//std::cout << d5 << " ";
	check(" addition ", d5 == answers[i]);
	d5 = d5 + off;
	}
	std::cout << std::endl;

	const date answers1[] = {date(2000,2,26),date(2000,2,28),date(2000,Mar,1)};
	date d8(2000,Feb,26);
	for (int j=0; j < 3; ++j) {
	//std::cout << d8 << " ";
	check(" more addition ", d8 == answers1[j]);
	d8 = d8 + days(2);
	}
	// std::cout << std::endl;

	date d6(2000,2,28);
	date d7(2000,3,1);
	date_duration twoDays(2);
	date_duration negtwoDays(-2);
	date_duration zeroDays(0);
	check_equal("2000-03-01 - 2000-02-28 == 2 days", twoDays, (d7-d6));
	check_equal("2000-02-28 - 2000-03-01 == - 2 days", negtwoDays, (d6-d7));
	check_equal("2000-02-28 - 2000-02-28 == 0 days", zeroDays, (d6-d6));
	check_equal("2000-02-28 + 2 days == 2000-03-01 ", d6 + twoDays, d7);
	check_equal("2000-03-01 - 2 days == 2000-02-28 ", d7 - twoDays, d6);
	check_equal("Add duration to date", date(1999,1,1) + date_duration(365), date(2000,1,1));
	check_equal("Add zero days", date(1999,1,1) + zeroDays, date(1999,1,1));
	//can't do this...
	//check("Add date to duration", date_duration(365) + date(1999,1,1) == date(2000,1,1));

	{
	date d(2003,Oct,31);
	date_duration dd(55);
	d += dd;
	check("date += date_duration", d == date(2003,Dec,25));
	d -= dd;
	check("date -= date_duration", d == date(2003,Oct,31));
	/* special_values is more thoroughly tested later,
	* this is just a test of += & -= with special values */
	d += date_duration(pos_infin);
	check("date += inf_dur", d == date(pos_infin));
	d -= dd;
	check("inf_date -= dur", d == date(pos_infin));
	}
	{
	date d(2003,Oct,31);
	date_duration dd1(pos_infin), dd2(neg_infin), dd3(not_a_date_time);
	check_equal("date + inf_dur", d + dd1, date(pos_infin));
	check_equal("date + inf_dur", d + dd2, date(neg_infin));
	check_equal("date + nan_dur", d + dd3, date(not_a_date_time));
	check_equal("date - inf_dur", d - dd1, date(neg_infin));
	check_equal("date - inf_dur", d - dd2, date(pos_infin));
	check_equal("date - nan_dur", d - dd3, date(not_a_date_time));
	check_equal("inf_date + inf_dur", date(pos_infin) + dd1, date(pos_infin));
	check_equal("inf_date - inf_dur", date(pos_infin) - dd1, date(not_a_date_time));
	check_equal("inf_date + inf_dur", date(neg_infin) + dd1, date(not_a_date_time));
	check_equal("inf_date - inf_dur", date(neg_infin) - dd1, date(neg_infin));
	}


	try {
	date d9(2000, Jan, 32);
	check("day out of range", false);
	//never reached if working -- but stops compiler warnings :-)
	std::cout << "Oops: " << to_iso_string(d9) << std::endl;
	}
	catch (bad_day_of_month&) {
	check("day out of range", true);
	}
	try {
	date d9(2000, Jan, 0);
	check("day out of range", false);
	//never reached if working -- but stops compiler warnings :-)
	std::cout << "Oops: " << to_iso_string(d9) << std::endl;
	}
	catch (bad_day_of_month&) {
	check("day out of range", true);
	}

	try {
	date d20(2000, Feb, 31);
	check("day out of range", false);
	//never reached if working -- but stops compiler warnings :-)
	std::cout << "Oops: " << to_iso_string(d20) << std::endl;
	}
	catch (bad_day_of_month&) {
	check("day out of range", true);
	}

	//more subtle -- one day past in a leap year
	try {
	date d21(2000, Feb, 30);
	check("day out of range", false);
	//never reached if working -- but stops compiler warnings :-)
	std::cout << "Oops: " << to_iso_string(d21) << std::endl;
	}
	catch (bad_day_of_month&) {
	check("day out of range", true);
	}

	//more subtle -- one day past in a leap year
	try {
	date d22(2000, Feb, 29);
	check("last day of month ok", true);
	std::cout << to_iso_string(d22) << std::endl; //stop compiler warning
	}
	catch (bad_day_of_month&) {
	check("last day of month -- oops bad exception", false);
	}

	//Not a leap year -- now Feb 29 is bad
	try {
	date d23(1999, Feb, 29);
	check("day out of range", false);
	//never reached if working -- but stops compiler warnings :-)
	std::cout << "Oops: " << to_iso_string(d23) << std::endl;
	}
	catch (bad_day_of_month&) {
	check("day out of range", true);
	}

	//check out some special values
	check("check not a date - false", !d7.is_not_a_date());
	check("check positive infinity - false", !d7.is_pos_infinity());
	check("check negative infinity - false", !d7.is_neg_infinity());

	date d10(neg_infin);
	check("check negative infinity - true", d10.is_infinity());
	d10 = d10 + twoDays; //still neg infinity
	check("check negative infinity - true", d10.is_neg_infinity());

	date d11(pos_infin);
	check("check positive infinity - true", d11.is_infinity());
	d11 = d11 + twoDays;
	check("check positive infinity add - true", d11.is_pos_infinity());

	date d12(not_a_date_time);
	check("check not a date", d12.is_not_a_date());
	check("check infinity compare ", d10 != d11);
	check("check infinity compare ", d10 < d11);
	check("check infinity nad compare ", d12 != d11);
	date d13(max_date_time);
	check("check infinity - max compare ", d13 < d11);
	check_equal("max date_time value ", d13, date(9999,Dec, 31));
	std::cout << to_simple_string(d13) << std::endl;
	date d14(min_date_time);
	check("check infinity - min compare ", d14 > d10);
	std::cout << to_simple_string(d14) << std::endl;
	check_equal("min date_time value ", d14, date(1400,Jan, 1));


	date d15(1400,1,1);
	std::cout << d15.day_of_week().as_long_string() << std::endl;
	check("check infinity - min compare ", d10 < d15);

	// most of this testing is in the gregorian_calendar tests
	std::cout << d15.julian_day() << std::endl;
	check_equal("check julian day ", d15.julian_day(), 2232400);
	check_equal("check modjulian day ", d15.modjulian_day(), -167601);
	date d16(2004,2,29);
	check_equal("check julian day ", d16.julian_day(), 2453065);
	check_equal("check modjulian day ", d16.modjulian_day(), 53064);

	// most of this testing is in the gregorian_calendar tests
	date d31(2000, Jun, 1);
	check_equal("check iso week number ", d31.week_number(), 22);
	date d32(2000, Aug, 1);
	check_equal("check iso week number ", d32.week_number(), 31);
	date d33(2000, Oct, 1);
	check_equal("check iso week number ", d33.week_number(), 39);
	date d34(2000, Dec, 1);
	check_equal("check iso week number ", d34.week_number(), 48);
	date d35(2000, Dec, 24);
	check_equal("check iso week number ", d35.week_number(), 51);
	date d36(2000, Dec, 25);
	check_equal("check iso week number ", d36.week_number(), 52);
	date d37(2000, Dec, 31);
	check_equal("check iso week number ", d37.week_number(), 52);
	date d38(2001, Jan, 1);
	check_equal("check iso week number ", d38.week_number(), 1);

	try {
	int dayofyear1 = d38.day_of_year();
	check_equal("check day of year number", dayofyear1, 1);
	check_equal("check day of year number", d37.day_of_year(), 366);
	date d39(2001,Dec,31);
	check_equal("check day of year number", d39.day_of_year(), 365);
	date d40(2000,Feb,29);
	check_equal("check day of year number", d40.day_of_year(), 60);
	date d41(1400,Jan,1);
	check_equal("check day of year number", d41.day_of_year(), 1);
	date d42(1400,Jan,1);
	check_equal("check day of year number", d42.day_of_year(), 1);
	date d43(2002,Nov,17);
	check_equal("check day of year number", d43.day_of_year(), 321);
	}
	catch(std::exception& e) {
	std::cout << e.what() << std::endl;
	check("check day of year number", false);
	}

	//converts to date and back -- should get same result
	check_equal("tm conversion functions 2000-1-1", date_from_tm(to_tm(d)), d);
	check_equal("tm conversion functions 1900-1-1", date_from_tm(to_tm(d1)), d1);
	check_equal("tm conversion functions min date 1400-1-1 ", date_from_tm(to_tm(d14)), d14);
	check_equal("tm conversion functions max date 9999-12-31", date_from_tm(to_tm(d13)), d13);

	try{
	date d(neg_infin);
	tm d_tm = to_tm(d);
	check("Exception not thrown (special_value to_tm)", false);
	}catch(std::out_of_range& e){
	check("Caught expected exception (special_value to_tm)", true);
	}catch(...){
	check("Caught un-expected exception (special_value to_tm)", false);
	}

	return printTestStats();

	}