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

 /* Copyright (c) 2003-2004 CrystalClear Software, Inc.
  * 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/gregorian/gregorian.hpp"
 //#include "boost/date_time/local_time/time_zone.hpp"
 #include "../testfrmwk.hpp"

 #include "boost/date_time/local_time/posix_time_zone.hpp"

 #include <string>
 #include <iostream>

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

   typedef posix_time_zone_base<wchar_t> w_posix_time_zone;

   std::wstring specs[] = {L"MST-07", L"MST-07:00:00",L"EST-05EDT,M4.1.0,M10.5.0", L"EST-05:00:00EDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00",L"PST-08PDT,J46/1:30,J310",L"PST-08PDT,45,310/0:30:00"};

   w_posix_time_zone nyc1(specs[2]);
   w_posix_time_zone nyc2(specs[3]);
   time_duration td = hours(-5);

   check("Has DST", nyc1.has_dst() && nyc2.has_dst());
   check("UTC offset", nyc1.base_utc_offset() == td);
   check("UTC offsets match", nyc1.base_utc_offset() == nyc2.base_utc_offset());
   check("Abbrevs", nyc1.std_zone_abbrev() == std::wstring(L"EST"));
   check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring(L"EST"));
   check("Abbrevs", nyc1.dst_zone_abbrev() == std::wstring(L"EDT"));
   check("Abbrevs", nyc2.dst_zone_abbrev() == std::wstring(L"EDT"));
   // names not available for w_posix_time_zone, abbrevs used in their place
   check("Names", nyc1.std_zone_name() == std::wstring(L"EST"));
   check("Names", nyc2.std_zone_name() == std::wstring(L"EST"));
   check("Names", nyc1.dst_zone_name() == std::wstring(L"EDT"));
   check("Names", nyc2.dst_zone_name() == std::wstring(L"EDT"));
   td = hours(1);
   check("dst offset", nyc1.dst_offset() == td);
   check("dst offsets match", nyc1.dst_offset() == nyc2.dst_offset());
   check("dst start", nyc1.dst_local_start_time(2003) ==
       ptime(date(2003,Apr,6),time_duration(2,0,0)));
   check("dst starts match", nyc1.dst_local_start_time(2003) ==
       nyc2.dst_local_start_time(2003));
   check("dst end", nyc1.dst_local_end_time(2003) ==
       ptime(date(2003,Oct,26),time_duration(2,0,0)));
   check("dst ends match", nyc1.dst_local_end_time(2003) ==
       nyc2.dst_local_end_time(2003));
   check("to posix string",
         nyc1.to_posix_string() == std::wstring(L"EST-05EDT+01,M4.1.0/02:00,M10.5.0/02:00"));
   check("to posix string",
         nyc2.to_posix_string() == std::wstring(L"EST-05EDT+01,M4.1.0/02:00,M10.5.0/02:00"));


   w_posix_time_zone az1(specs[0]);
   w_posix_time_zone az2(specs[1]);
   td = hours(-7);

   check("Has DST", !az1.has_dst() && !az2.has_dst());
   check("UTC offset", az1.base_utc_offset() == td);
   check("UTC offsets match", az1.base_utc_offset() == az2.base_utc_offset());
   check("dst start in non-dst zone",
         az1.dst_local_start_time(2005) == ptime(not_a_date_time));
   check("dst end in non-dst zone",
         az2.dst_local_end_time(2005) == ptime(not_a_date_time));
   check("Abbrevs", az1.std_zone_abbrev() == std::wstring(L"MST"));
   check("Abbrevs", az2.std_zone_abbrev() == std::wstring(L"MST"));
   // non-dst zones default to empty strings for dst names & abbrevs
   check("Abbrevs", az1.dst_zone_abbrev() == std::wstring(L""));
   check("Abbrevs", az2.dst_zone_abbrev() == std::wstring(L""));
   check("Names", az1.std_zone_name() == std::wstring(L"MST"));
   check("Names", az2.std_zone_name() == std::wstring(L"MST"));
   check("Names", az1.dst_zone_name() == std::wstring(L""));
   check("Names", az2.dst_zone_name() == std::wstring(L""));
   check("to posix string",
         az1.to_posix_string() == std::wstring(L"MST-07"));
   check("to posix string",
         az2.to_posix_string() == std::wstring(L"MST-07"));


   // bizzar time zone spec to fully test parsing
   std::cout << "\nFictitious time zone" << std::endl;
   w_posix_time_zone bz(L"BST+11:21:15BDT-00:28,M2.2.4/03:15:42,M11.5.2/01:08:53");
   check("hast dst", bz.has_dst());
   check("UTC offset", bz.base_utc_offset() == time_duration(11,21,15));
   check("Abbrev", bz.std_zone_abbrev() == std::wstring(L"BST"));
   check("Abbrev", bz.dst_zone_abbrev() == std::wstring(L"BDT"));
   check("dst offset", bz.dst_offset() == time_duration(0,-28,0));
   check("dst start", bz.dst_local_start_time(1962) ==
       ptime(date(1962,Feb,8),time_duration(3,15,42)));
   check("dst end", bz.dst_local_end_time(1962) ==
       ptime(date(1962,Nov,27),time_duration(1,8,53)));

   // only checking start & end rules w/ 'J' notation
   std::cout << "\n'J' notation Start/End rule tests..." << std::endl;
   w_posix_time_zone la1(specs[4]); // "PST-08PDT,J124,J310"
   //w_posix_time_zone la1("PST-08PDT,J1,J365");// Jan1/Dec31
   check("dst start", la1.dst_local_start_time(2003) ==
       ptime(date(2003,Feb,15),time_duration(1,30,0)));
   check("dst end", la1.dst_local_end_time(2003) ==
       ptime(date(2003,Nov,6),time_duration(2,0,0)));
   /* NOTE: la1 was created from a 'J' notation string but to_posix_string
    * returns an 'n' notation string. The difference between the two
    * is Feb-29 is always counted in an 'n' notation string and numbering
    * starts at zero ('J' notation starts at one).
    * Every possible date spec that can be written in 'J' notation can also
    * be written in 'n' notation. The reverse is not true so 'n' notation
    * is used as the output for to_posix_string(). */
   check("to posix string",
         la1.to_posix_string() == std::wstring(L"PST-08PDT+01,45/01:30,310/02:00"));

   // only checking start & end rules w/ 'n' notation
   std::cout << "\n'n' notation Start/End rule tests..." << std::endl;
   w_posix_time_zone la2(specs[5]); // "PST-08PDT,124,310"
   //w_posix_time_zone la2("PST-08PDT,0,365");// Jan1/Dec31
   check("dst start", la2.dst_local_start_time(2003) ==
       ptime(date(2003,Feb,15),time_duration(2,0,0)));
   check("dst end", la2.dst_local_end_time(2003) ==
       ptime(date(2003,Nov,6),time_duration(0,30,0)));
   check("to posix string",
         la2.to_posix_string() == std::wstring(L"PST-08PDT+01,45/02:00,310/00:30"));

   // bad posix time zone strings tests
   std::cout << "\nInvalid time zone string tests..." << std::endl;
   try {
     w_posix_time_zone badz(L"EST-13");
     check("Exception not thrown: bad UTC offset", false);
   }catch(bad_offset& boff){
     std::string msg(boff.what());
     check("Exception caught: "+msg , true);
   }
   try {
     w_posix_time_zone badz(L"EST-5EDT24:00:01,J124/1:30,J310");
     check("Exception not thrown: bad DST adjust", false);
   }catch(bad_adjustment& badj){
     std::string msg(badj.what());
     check("Exception caught: "+msg , true);
   }
   try {
     w_posix_time_zone badz(L"EST-5EDT01:00:00,J124/-1:30,J310");
     check("Exception not thrown: bad DST start/end offset", false);
   }catch(bad_offset& boff){
     std::string msg(boff.what());
     check("Exception caught: "+msg , true);
   }
   try {
     w_posix_time_zone badz(L"EST-5EDT01:00:00,J124/1:30,J370");
     check("Exception not thrown: invalid date spec", false);
   }catch(boost::gregorian::bad_day_of_month& boff){
     std::string msg(boff.what());
     check("Exception caught: "+msg , true);
   }catch(boost::gregorian::bad_month& boff){
     std::string msg(boff.what());
     check("Exception caught: "+msg , true);
   }catch(...){
     check("Unexpected exception caught: ", false);
   }

   std::cout << "\nTest some Central Europe specs" << std::endl;

   //Test a timezone spec on the positive side of the UTC line.
   //This is the time for central europe which is one hour in front of UTC
   //Note these Summer time transition rules aren't actually correct.
   w_posix_time_zone cet_tz(L"CET+01:00:00EDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00");
   check("Has DST", cet_tz.has_dst());
   check("UTC offset", cet_tz.base_utc_offset() == hours(1));
   check("Abbrevs", cet_tz.std_zone_abbrev() == std::wstring(L"CET"));
 //   check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring("EST"));

   std::cout << "\nTest some Central Austrialia UTC+8:30" << std::endl;

   //Test a timezone spec on the positive side of the UTC line.
   //This is the time for central europe which is one hour in front of UTC
   //Note these Summer time transition rules aren't actually correct.
   w_posix_time_zone caus_tz(L"CAS+08:30:00CDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00");
   check("Has DST", caus_tz.has_dst());
   check("UTC offset", caus_tz.base_utc_offset() == hours(8)+minutes(30));
   check("Abbrevs", caus_tz.std_zone_abbrev() == std::wstring(L"CAS"));
 //   check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring("EST"));

   {
     /**** first/last of month Julian & non-Julian tests ****/
     // Mar-01 & Oct-31, count begins at 1
     std::wstring spec(L"FST+3FDT,J60,J304");
     w_posix_time_zone fl_1(spec);
     check("Julian First/last of month", fl_1.dst_local_start_time(2003) ==
         ptime(date(2003,Mar,1),hours(2)));
     check("Julian First/last of month", fl_1.dst_local_end_time(2003) ==
         ptime(date(2003,Oct,31),hours(2)));
     check("Julian First/last of month", fl_1.dst_local_start_time(2004) ==
         ptime(date(2004,Mar,1),hours(2)));
     check("Julian First/last of month", fl_1.dst_local_end_time(2004) ==
         ptime(date(2004,Oct,31),hours(2)));

     // Mar-01 & Oct-31 Non-leap year, count begins at 0
     spec = L"FST+3FDT,59,304"; // "304" is not a mistake here, see posix_time_zone docs
     w_posix_time_zone fl_2(spec);
     try{
       check("Non-Julian First/last of month", fl_2.dst_local_start_time(2003) ==
           ptime(date(2003,Mar,1),hours(2)));
     }catch(std::exception& e){
       check("Expected exception caught for Non-Julian day of 59, in non-leap year (Feb-29)", true);
     }
     check("Non-Julian First/last of month", fl_2.dst_local_end_time(2003) ==
         ptime(date(2003,Oct,31),hours(2)));

     // Mar-01 & Oct-31 leap year, count begins at 0
     spec = L"FST+3FDT,60,304";
     w_posix_time_zone fl_3(spec);
     check("Non-Julian First/last of month", fl_3.dst_local_start_time(2004) ==
         ptime(date(2004,Mar,1),hours(2)));
     check("Non-Julian First/last of month", fl_3.dst_local_end_time(2004) ==
         ptime(date(2004,Oct,31),hours(2)));
   }

   printTestStats();
   return 0;
 }
	/* Copyright (c) 2003-2004 CrystalClear Software, Inc.
	* 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/gregorian/gregorian.hpp"
	//#include "boost/date_time/local_time/time_zone.hpp"
	#include "../testfrmwk.hpp"

	#include "boost/date_time/local_time/posix_time_zone.hpp"

	#include <string>
	#include <iostream>

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

	typedef posix_time_zone_base<wchar_t> w_posix_time_zone;

	std::wstring specs[] = {L"MST-07", L"MST-07:00:00",L"EST-05EDT,M4.1.0,M10.5.0", L"EST-05:00:00EDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00",L"PST-08PDT,J46/1:30,J310",L"PST-08PDT,45,310/0:30:00"};

	w_posix_time_zone nyc1(specs[2]);
	w_posix_time_zone nyc2(specs[3]);
	time_duration td = hours(-5);

	check("Has DST", nyc1.has_dst() && nyc2.has_dst());
	check("UTC offset", nyc1.base_utc_offset() == td);
	check("UTC offsets match", nyc1.base_utc_offset() == nyc2.base_utc_offset());
	check("Abbrevs", nyc1.std_zone_abbrev() == std::wstring(L"EST"));
	check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring(L"EST"));
	check("Abbrevs", nyc1.dst_zone_abbrev() == std::wstring(L"EDT"));
	check("Abbrevs", nyc2.dst_zone_abbrev() == std::wstring(L"EDT"));
	// names not available for w_posix_time_zone, abbrevs used in their place
	check("Names", nyc1.std_zone_name() == std::wstring(L"EST"));
	check("Names", nyc2.std_zone_name() == std::wstring(L"EST"));
	check("Names", nyc1.dst_zone_name() == std::wstring(L"EDT"));
	check("Names", nyc2.dst_zone_name() == std::wstring(L"EDT"));
	td = hours(1);
	check("dst offset", nyc1.dst_offset() == td);
	check("dst offsets match", nyc1.dst_offset() == nyc2.dst_offset());
	check("dst start", nyc1.dst_local_start_time(2003) ==
	ptime(date(2003,Apr,6),time_duration(2,0,0)));
	check("dst starts match", nyc1.dst_local_start_time(2003) ==
	nyc2.dst_local_start_time(2003));
	check("dst end", nyc1.dst_local_end_time(2003) ==
	ptime(date(2003,Oct,26),time_duration(2,0,0)));
	check("dst ends match", nyc1.dst_local_end_time(2003) ==
	nyc2.dst_local_end_time(2003));
	check("to posix string",
	nyc1.to_posix_string() == std::wstring(L"EST-05EDT+01,M4.1.0/02:00,M10.5.0/02:00"));
	check("to posix string",
	nyc2.to_posix_string() == std::wstring(L"EST-05EDT+01,M4.1.0/02:00,M10.5.0/02:00"));


	w_posix_time_zone az1(specs[0]);
	w_posix_time_zone az2(specs[1]);
	td = hours(-7);

	check("Has DST", !az1.has_dst() && !az2.has_dst());
	check("UTC offset", az1.base_utc_offset() == td);
	check("UTC offsets match", az1.base_utc_offset() == az2.base_utc_offset());
	check("dst start in non-dst zone",
	az1.dst_local_start_time(2005) == ptime(not_a_date_time));
	check("dst end in non-dst zone",
	az2.dst_local_end_time(2005) == ptime(not_a_date_time));
	check("Abbrevs", az1.std_zone_abbrev() == std::wstring(L"MST"));
	check("Abbrevs", az2.std_zone_abbrev() == std::wstring(L"MST"));
	// non-dst zones default to empty strings for dst names & abbrevs
	check("Abbrevs", az1.dst_zone_abbrev() == std::wstring(L""));
	check("Abbrevs", az2.dst_zone_abbrev() == std::wstring(L""));
	check("Names", az1.std_zone_name() == std::wstring(L"MST"));
	check("Names", az2.std_zone_name() == std::wstring(L"MST"));
	check("Names", az1.dst_zone_name() == std::wstring(L""));
	check("Names", az2.dst_zone_name() == std::wstring(L""));
	check("to posix string",
	az1.to_posix_string() == std::wstring(L"MST-07"));
	check("to posix string",
	az2.to_posix_string() == std::wstring(L"MST-07"));


	// bizzar time zone spec to fully test parsing
	std::cout << "\nFictitious time zone" << std::endl;
	w_posix_time_zone bz(L"BST+11:21:15BDT-00:28,M2.2.4/03:15:42,M11.5.2/01:08:53");
	check("hast dst", bz.has_dst());
	check("UTC offset", bz.base_utc_offset() == time_duration(11,21,15));
	check("Abbrev", bz.std_zone_abbrev() == std::wstring(L"BST"));
	check("Abbrev", bz.dst_zone_abbrev() == std::wstring(L"BDT"));
	check("dst offset", bz.dst_offset() == time_duration(0,-28,0));
	check("dst start", bz.dst_local_start_time(1962) ==
	ptime(date(1962,Feb,8),time_duration(3,15,42)));
	check("dst end", bz.dst_local_end_time(1962) ==
	ptime(date(1962,Nov,27),time_duration(1,8,53)));

	// only checking start & end rules w/ 'J' notation
	std::cout << "\n'J' notation Start/End rule tests..." << std::endl;
	w_posix_time_zone la1(specs[4]); // "PST-08PDT,J124,J310"
	//w_posix_time_zone la1("PST-08PDT,J1,J365");// Jan1/Dec31
	check("dst start", la1.dst_local_start_time(2003) ==
	ptime(date(2003,Feb,15),time_duration(1,30,0)));
	check("dst end", la1.dst_local_end_time(2003) ==
	ptime(date(2003,Nov,6),time_duration(2,0,0)));
	/* NOTE: la1 was created from a 'J' notation string but to_posix_string
	* returns an 'n' notation string. The difference between the two
	* is Feb-29 is always counted in an 'n' notation string and numbering
	* starts at zero ('J' notation starts at one).
	* Every possible date spec that can be written in 'J' notation can also
	* be written in 'n' notation. The reverse is not true so 'n' notation
	* is used as the output for to_posix_string(). */
	check("to posix string",
	la1.to_posix_string() == std::wstring(L"PST-08PDT+01,45/01:30,310/02:00"));

	// only checking start & end rules w/ 'n' notation
	std::cout << "\n'n' notation Start/End rule tests..." << std::endl;
	w_posix_time_zone la2(specs[5]); // "PST-08PDT,124,310"
	//w_posix_time_zone la2("PST-08PDT,0,365");// Jan1/Dec31
	check("dst start", la2.dst_local_start_time(2003) ==
	ptime(date(2003,Feb,15),time_duration(2,0,0)));
	check("dst end", la2.dst_local_end_time(2003) ==
	ptime(date(2003,Nov,6),time_duration(0,30,0)));
	check("to posix string",
	la2.to_posix_string() == std::wstring(L"PST-08PDT+01,45/02:00,310/00:30"));

	// bad posix time zone strings tests
	std::cout << "\nInvalid time zone string tests..." << std::endl;
	try {
	w_posix_time_zone badz(L"EST-13");
	check("Exception not thrown: bad UTC offset", false);
	}catch(bad_offset& boff){
	std::string msg(boff.what());
	check("Exception caught: "+msg , true);
	}
	try {
	w_posix_time_zone badz(L"EST-5EDT24:00:01,J124/1:30,J310");
	check("Exception not thrown: bad DST adjust", false);
	}catch(bad_adjustment& badj){
	std::string msg(badj.what());
	check("Exception caught: "+msg , true);
	}
	try {
	w_posix_time_zone badz(L"EST-5EDT01:00:00,J124/-1:30,J310");
	check("Exception not thrown: bad DST start/end offset", false);
	}catch(bad_offset& boff){
	std::string msg(boff.what());
	check("Exception caught: "+msg , true);
	}
	try {
	w_posix_time_zone badz(L"EST-5EDT01:00:00,J124/1:30,J370");
	check("Exception not thrown: invalid date spec", false);
	}catch(boost::gregorian::bad_day_of_month& boff){
	std::string msg(boff.what());
	check("Exception caught: "+msg , true);
	}catch(boost::gregorian::bad_month& boff){
	std::string msg(boff.what());
	check("Exception caught: "+msg , true);
	}catch(...){
	check("Unexpected exception caught: ", false);
	}

	std::cout << "\nTest some Central Europe specs" << std::endl;

	//Test a timezone spec on the positive side of the UTC line.
	//This is the time for central europe which is one hour in front of UTC
	//Note these Summer time transition rules aren't actually correct.
	w_posix_time_zone cet_tz(L"CET+01:00:00EDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00");
	check("Has DST", cet_tz.has_dst());
	check("UTC offset", cet_tz.base_utc_offset() == hours(1));
	check("Abbrevs", cet_tz.std_zone_abbrev() == std::wstring(L"CET"));
	// check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring("EST"));

	std::cout << "\nTest some Central Austrialia UTC+8:30" << std::endl;

	//Test a timezone spec on the positive side of the UTC line.
	//This is the time for central europe which is one hour in front of UTC
	//Note these Summer time transition rules aren't actually correct.
	w_posix_time_zone caus_tz(L"CAS+08:30:00CDT+01:00:00,M4.1.0/02:00:00,M10.5.0/02:00:00");
	check("Has DST", caus_tz.has_dst());
	check("UTC offset", caus_tz.base_utc_offset() == hours(8)+minutes(30));
	check("Abbrevs", caus_tz.std_zone_abbrev() == std::wstring(L"CAS"));
	// check("Abbrevs", nyc2.std_zone_abbrev() == std::wstring("EST"));

	{
	/** first/last of month Julian & non-Julian tests **/
	// Mar-01 & Oct-31, count begins at 1
	std::wstring spec(L"FST+3FDT,J60,J304");
	w_posix_time_zone fl_1(spec);
	check("Julian First/last of month", fl_1.dst_local_start_time(2003) ==
	ptime(date(2003,Mar,1),hours(2)));
	check("Julian First/last of month", fl_1.dst_local_end_time(2003) ==
	ptime(date(2003,Oct,31),hours(2)));
	check("Julian First/last of month", fl_1.dst_local_start_time(2004) ==
	ptime(date(2004,Mar,1),hours(2)));
	check("Julian First/last of month", fl_1.dst_local_end_time(2004) ==
	ptime(date(2004,Oct,31),hours(2)));

	// Mar-01 & Oct-31 Non-leap year, count begins at 0
	spec = L"FST+3FDT,59,304"; // "304" is not a mistake here, see posix_time_zone docs
	w_posix_time_zone fl_2(spec);
	try{
	check("Non-Julian First/last of month", fl_2.dst_local_start_time(2003) ==
	ptime(date(2003,Mar,1),hours(2)));
	}catch(std::exception& e){
	check("Expected exception caught for Non-Julian day of 59, in non-leap year (Feb-29)", true);
	}
	check("Non-Julian First/last of month", fl_2.dst_local_end_time(2003) ==
	ptime(date(2003,Oct,31),hours(2)));

	// Mar-01 & Oct-31 leap year, count begins at 0
	spec = L"FST+3FDT,60,304";
	w_posix_time_zone fl_3(spec);
	check("Non-Julian First/last of month", fl_3.dst_local_start_time(2004) ==
	ptime(date(2004,Mar,1),hours(2)));
	check("Non-Julian First/last of month", fl_3.dst_local_end_time(2004) ==
	ptime(date(2004,Oct,31),hours(2)));
	}

	printTestStats();
	return 0;
	}