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

 /* Copyright (c) 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
  * $Date: 2009-06-04 04:24:49 -0400 (Thu, 04 Jun 2009) $
  */

 #include "boost/date_time/gregorian/gregorian.hpp"
 #include "boost/date_time/posix_time/posix_time.hpp"
 #include "../testfrmwk.hpp"
 #include <iostream>
 #include <sstream>
 #include <string>
 #include <vector>

 // for tests that are expected to fail and throw exceptions
 template<class temporal_type, class exception_type>
 bool failure_test(temporal_type component,
                   const std::string& input,
                   exception_type const& /*except*/,
                   boost::posix_time::time_input_facet* facet)
 {
   using namespace boost::posix_time;
   bool result = false;
   std::istringstream iss(input);
   iss.exceptions(std::ios_base::failbit); // turn on exceptions
   iss.imbue(std::locale(std::locale::classic(), facet));
   try {
     iss >> component;
   }
   catch(exception_type& e) {
     std::cout << "Expected exception caught: \""
               << e.what() << "\"" << std::endl;
     result = iss.fail(); // failbit must be set to pass test
   }
   catch(...) {
     result = false;
   }

   return result;
 }

 // for tests that are expected to fail quietly
 template<class temporal_type>
 bool failure_test(temporal_type component,
                   const std::string& input,
                   boost::posix_time::time_input_facet* facet)
 {
   using namespace boost::posix_time;
   std::istringstream iss(input);
   /* leave exceptions turned off
    * iss.exceptions(std::ios_base::failbit); */
   iss.imbue(std::locale(std::locale::classic(), facet));
   try {
     iss >> component;
   }
   catch(...) {
     std::cout << "Caught unexpected exception" << std::endl;
     return false;
   }

   return iss.fail(); // failbit must be set to pass test
 }

 using namespace boost::gregorian;
 using namespace boost::posix_time;


 void
 do_all_tests()
 {

 #if defined(USE_DATE_TIME_PRE_1_33_FACET_IO) // skip this file
   check("No tests run for this compiler. Incompatible IO", true);
 #else

   // set up initial objects
   time_duration td = hours(0);
   ptime pt(not_a_date_time);
   time_period tp(pt, td);
   // exceptions for failure_tests
   std::ios_base::failure e_failure("default");

   /* test ptime, time_duration, time_period.
    * test all formats.
    * test for bad input.
    * test special values.
    * do not test custom names (done in gregorian).
    *
    * format flags to test H,M,S,s,F,f,j
    */

   // default format tests: time_duration, ptime
   std::istringstream iss("09:59:01.321987654321 2005-Jan-15 10:15:03.123456789123");
   iss >> td;
   iss >> pt;
 #if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
   check_equal("Default format time_duration", td, time_duration(9,59,1,321987654));
   check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(10,15,3,123456789)));
 #else
   check_equal("Default format time_duration", td, time_duration(9,59,1,321987));
   check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(10,15,3,123456)));
 #endif

   // test all flags that appear in time_input_facet
   iss.str("12:34:56 2005-Jan-15 12:34:56");
   iss >> td;
   iss >> pt;
   check_equal("Default format time_duration no frac_sec", td, time_duration(12,34,56));
   // the following test insures %F parsing stops at the appropriate point
   check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(12,34,56)));

   iss.str("14:13:12 extra stuff"); // using default %H:%M:%S%F format
   iss >> td;
   check_equal("Default frac_sec format time_duration", td, time_duration(14,13,12));

   time_input_facet* facet = new time_input_facet();
   std::locale loc(std::locale::classic(), facet);
   facet->time_duration_format("%H:%M:%S%f");
   iss.imbue(loc);

   iss.str("14:13:12.0 extra stuff");
   iss >> td;
   check_equal("Required-frac_sec format time_duration", td, time_duration(14,13,12));

   iss.str("12");
   facet->time_duration_format("%H");
   iss >> td;
   check_equal("Hours format", td, hours(12));

   iss.str("05");
   facet->time_duration_format("%M");
   iss >> td;
   check_equal("Minutes format", td, minutes(5));

   iss.str("45");
   facet->time_duration_format("%S");
   iss >> td;
   check_equal("Seconds w/o frac_sec format", td, seconds(45));

   iss.str("10.01");
   facet->time_duration_format("%s");
   iss >> td;
 #if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
   check_equal("Seconds w/ frac_sec format", td, time_duration(0,0,10,10000000));
 #else
   check_equal("Seconds w/ frac_sec format", td, time_duration(0,0,10,10000));
 #endif

   iss.str("2005-105T23:59");
   facet->format("%Y-%jT%H:%M"); // extended ordinal format
   iss >> pt;
   check_equal("Extended Ordinal format", pt, ptime(date(2005,4,15),time_duration(23,59,0)));

   /* this is not implemented yet. The flags: %I & %p are not parsed
   iss.str("2005-Jun-14 03:15:00 PM");
   facet->format("%Y-%b-%d %I:%M:%S %p");
   iss >> pt;
   check_equal("12 hour time format (AM/PM)", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
   */

   iss.str("2005-Jun-14 15:15:00 %d");
   facet->format("%Y-%b-%d %H:%M:%S %%d");
   iss >> pt;
   check_equal("Literal '%' in format", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
   iss.str("15:15:00 %d");
   facet->time_duration_format("%H:%M:%S %%d");
   iss >> td;
   check_equal("Literal '%' in time_duration format", td, time_duration(15,15,0));
   iss.str("2005-Jun-14 15:15:00 %14");
   facet->format("%Y-%b-%d %H:%M:%S %%%d"); // %% => % & %d => day_of_month
   iss >> pt;
   check_equal("Multiple literal '%'s in format", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
   iss.str("15:15:00 %15");
   facet->time_duration_format("%H:%M:%S %%%M");
   iss >> td;
   check_equal("Multiple literal '%'s in time_duration format", td, time_duration(15,15,0));

   { /****** iso format tests (and custom 'scrunched-together formats) ******/
     time_input_facet *facet = new time_input_facet();
     facet->set_iso_format();
     facet->time_duration_format("%H%M%S%F"); // iso format
     std::stringstream ss;
     ss.imbue(std::locale(std::locale::classic(), facet));
     ptime pt(not_a_date_time);
     time_duration td(not_a_date_time);
     date d(2002,Oct,17);
 #if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
     time_duration td2(23,12,17,123450000);
 #else
     time_duration td2(23,12,17,123450);
 #endif
     ptime result(d, td2);

     ss.str("20021017T231217.12345");
     ss >> pt;
     check_equal("iso_format ptime", pt, result);
     ss.str("");
     facet->set_iso_extended_format();
     ss.str("2002-10-17 23:12:17.12345");
     ss >> pt;
     check_equal("iso_extended_format ptime", pt, result);
     ss.str("");
     ss.str("231217.12345");
     ss >> td;
     check_equal("iso_format time_duration", td, td2);
     ss.str("");
     ss.str("-infinity");
     ss >> td;
     check_equal("iso_format time_duration (special_value)",
         td, time_duration(neg_infin));
     ss.str("");
     // the above tests prove correct parsing of time values in these formats.
     // these tests show they also handle special_values & exceptions properly
     time_duration nadt(not_a_date_time);
     ss.exceptions(std::ios_base::failbit); // we need exceptions turned on here
     int count = 0;
     try {
       facet->time_duration_format("%H%M%S%F");
       ss.str("not-a-date-time");
       ++count;
       ss >> td;
       check_equal("special value w/ hours flag", td, nadt);
       ss.str("");
       facet->time_duration_format("%M%S%F");
       ss.str("not-a-date-time");
       ++count;
       ss >> td;
       check_equal("special value w/ minutes flag", td, nadt);
       ss.str("");
       facet->time_duration_format("%S%F");
       ss.str("not-a-date-time");
       ++count;
       ss >> td;
       check_equal("special value w/ seconds flag", td, nadt);
       ss.str("");
       facet->time_duration_format("%s");
       ss.str("not-a-date-time");
       ++count;
       ss >> td;
       check_equal("special value w/ sec w/frac_sec (always) flag", td, nadt);
       ss.str("");
       facet->time_duration_format("%f");
       ss.str("not-a-date-time");
       ++count;
       ss >> td;
       check_equal("special value w/ frac_sec (always) flag", td, nadt);
       ss.str("");
     }
     catch(...) {
       // any exception is a failure
       std::stringstream msg;
       msg << "special_values with scrunched formats failed at test" << count;
       check(msg.str(), false);
     }
     // exception tests
     std::ios_base::failure exc("failure");
     check("failure test w/ hours flag",
         failure_test(td, "bad_input", exc, new time_input_facet("%H%M%S%F")));
     check("silent failure test w/ hours flag",
         failure_test(td, "bad_input", new time_input_facet("%H%M%S%F")));
     check("failure test w/ minute flag",
         failure_test(td, "bad_input", exc, new time_input_facet("%M%S%F")));
     check("silent failure test w/ minute flag",
         failure_test(td, "bad_input", new time_input_facet("%M%S%F")));
     check("failure test w/ second flag",
         failure_test(td, "bad_input", exc, new time_input_facet("%S%F")));
     check("silent failure test w/ second flag",
         failure_test(td, "bad_input", new time_input_facet("%S%F")));
     check("failure test w/ sec w/frac (always) flag",
         failure_test(td, "bad_input", exc, new time_input_facet("%s")));
     check("silent failure test w/ sec w/frac (always) flag",
         failure_test(td, "bad_input", new time_input_facet("%s")));
     check("failure test w/ frac_sec flag",
         failure_test(td, "bad_input", exc, new time_input_facet("%f")));
     check("silent failure test w/ frac_sec flag",
         failure_test(td, "bad_input", new time_input_facet("%f")));

   }
   // special_values tests. prove the individual flags catch special_values
   // NOTE: these flags all by themselves will not parse a complete ptime,
   // these are *specific* special_values tests
   iss.str("+infinity -infinity");
   facet->format("%H");
   facet->time_duration_format("%H");
   iss >> pt;
   iss >> td;
   check_equal("Special value: ptime %H flag", pt, ptime(pos_infin));
   check_equal("Special value: time_duration %H flag", td, time_duration(neg_infin));

   iss.str("not-a-date-time +infinity");
   facet->format("%M");
   facet->time_duration_format("%M");
   iss >> pt;
   iss >> td;
   check_equal("Special value: ptime %M flag", pt, ptime(not_a_date_time));
   check_equal("Special value: time_duration %M flag", td, time_duration(pos_infin));

   iss.str("-infinity not-a-date-time ");
   facet->format("%S");
   facet->time_duration_format("%S");
   iss >> pt;
   iss >> td;
   check_equal("Special value: ptime %S flag", pt, ptime(neg_infin));
   check_equal("Special value: time_duration %S flag", td, time_duration(not_a_date_time));

   iss.str("+infinity -infinity");
   facet->format("%s");
   facet->time_duration_format("%s");
   iss >> pt;
   iss >> td;
   check_equal("Special value: ptime %s flag", pt, ptime(pos_infin));
   check_equal("Special value: time_duration %s flag", td, time_duration(neg_infin));

   iss.str("not-a-date-time +infinity");
   facet->format("%j");
   facet->time_duration_format("%f");
   iss >> pt;
   iss >> td;
   check_equal("Special value: ptime %j flag", pt, ptime(not_a_date_time));
   check_equal("Special value: time_duration %f flag", td, time_duration(pos_infin));

   // time_period tests - the time_period_parser is thoroughly tested in gregorian tests
   // default period format is closed range so last ptime is included in peiod
   iss.str("[2005-Jan-01 00:00:00/2005-Dec-31 23:59:59]");
   facet->format(time_input_facet::default_time_input_format); // reset format
   iss >> tp;
   check("Time period, default formats",
       (tp.begin() == ptime(date(2005,1,1),hours(0))) &&
       (tp.last() == ptime(date(2005,12,31),time_duration(23,59,59))) &&
       (tp.end() == ptime(date(2005,12,31),time_duration(23,59,59,1))) );
   {
     std::stringstream ss;
     ptime pt(not_a_date_time);
     ptime pt2 = second_clock::local_time();
     ptime pt3(neg_infin);
     ptime pt4(pos_infin);
     time_period tp(pt2, pt); // ptime/nadt
     time_period tp2(pt, pt); // nadt/nadt
     time_period tp3(pt3, pt4);
     ss << tp;
     ss >> tp2;
     check_equal("Special values period (reversibility test)", tp, tp2);
     ss.str("[-infinity/+infinity]");
     ss >> tp2;
     check_equal("Special values period (infinities)", tp3, tp2);
   }

   // Failure tests
   // faliure tests for date elements tested in gregorian tests
   time_input_facet* facet2 = new time_input_facet();
   facet2->time_duration_format("%H:%M:%S%f");
   check("Failure test: Missing frac_sec with %f flag (w/exceptions)",
         failure_test(td, "14:13:12 extra stuff", e_failure, facet2));
   time_input_facet* facet3 = new time_input_facet();
   facet3->time_duration_format("%H:%M:%S%f");
   check("Failure test: Missing frac_sec with %f flag (no exceptions)",
         failure_test(td, "14:13:12 extra stuff", facet3));

   // Reversable format tests
   time_duration td_io(10,11,12,1234567);
   ptime pt_io(date(2004,03,15), td_io);
   time_facet* otp_facet = new time_facet();
   time_input_facet* inp_facet = new time_input_facet();
   std::stringstream ss;
   std::locale loc2(std::locale::classic(), otp_facet);
   ss.imbue(std::locale(loc2, inp_facet)); // imbue locale containing both facets

   ss.str("");
   ss << pt_io; // stream out pt_io
   ss >> pt;
   check_equal("Stream out one ptime then into another: default format", pt_io, pt);
   ss.str("");
   ss << td_io; // stream out td_io
   ss >> td;
   check_equal("Stream out one time_duration then into another: default format", td_io, td);

   td_io = time_duration(1,29,59); // no frac_sec, default format has %F
   pt_io = ptime(date(2004,2,29), td_io); // leap year
   ss.str("");
   ss << pt_io; // stream out pt_io
   ss >> pt;
   check_equal("Stream out one ptime then into another: default format", pt_io, pt);
   ss.str("");
   ss << td_io; // stream out td_io
   ss >> td;
   check_equal("Stream out one time_duration then into another: default format", td_io, td);

   td_io = time_duration(13,05,0); // no seconds as the next formats won't use them
   pt_io = ptime(date(2004,2,29), td_io); // leap year
   otp_facet->format("%Y-%jT%H:%M"); // extended ordinal
   inp_facet->format("%Y-%jT%H:%M");
   ss.str("");
   ss << pt_io; // stream out pt_io
   ss >> pt;
   check_equal("Stream out one ptime then into another: extended ordinal format", pt_io, pt);

   otp_facet->format("Time: %H:%M, Date: %B %d, %Y"); // custom format with extra words
   inp_facet->format("Time: %H:%M, Date: %B %d, %Y");
   ss.str("");
   ss << pt_io; // stream out pt_io
   ss >> pt;
   check_equal("Stream out one ptime then into another: custom format (" + ss.str() + ")", pt_io, pt);

   {
     // fully parameterized constructor - compile only test, all other features tested in gregorian
     boost::date_time::format_date_parser<date, char> fdp("%Y-%b-%d", std::locale::classic());
     special_values_parser svp; // default constructor
     period_parser pp; // default constructor
     boost::date_time::date_generator_parser<date, char> dgp; // default constructor
     time_input_facet tif("%Y-%m-%d %H:%M:%s", fdp, svp, pp, dgp);
   }
 #endif // USE_DATE_TIME_PRE_1_33_FACET_IO

 }


 int main(){

   try {  //wrap all the tests -- we don't expect an exception
     do_all_tests();
   }
   catch(std::exception& e) {
     std::string failure("std::exception caught: ");
     failure += e.what();
     check(failure, false);
   }
   catch(...) {
     check("Unknown exception caught -- failing", false);
   }
   return printTestStats();
 }
	/* Copyright (c) 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
	* $Date: 2009-06-04 04:24:49 -0400 (Thu, 04 Jun 2009) $
	*/

	#include "boost/date_time/gregorian/gregorian.hpp"
	#include "boost/date_time/posix_time/posix_time.hpp"
	#include "../testfrmwk.hpp"
	#include <iostream>
	#include <sstream>
	#include <string>
	#include <vector>

	// for tests that are expected to fail and throw exceptions
	template<class temporal_type, class exception_type>
	bool failure_test(temporal_type component,
	const std::string& input,
	exception_type const& /except/,
	boost::posix_time::time_input_facet* facet)
	{
	using namespace boost::posix_time;
	bool result = false;
	std::istringstream iss(input);
	iss.exceptions(std::ios_base::failbit); // turn on exceptions
	iss.imbue(std::locale(std::locale::classic(), facet));
	try {
	iss >> component;
	}
	catch(exception_type& e) {
	std::cout << "Expected exception caught: \""
	<< e.what() << "\"" << std::endl;
	result = iss.fail(); // failbit must be set to pass test
	}
	catch(...) {
	result = false;
	}

	return result;
	}

	// for tests that are expected to fail quietly
	template<class temporal_type>
	bool failure_test(temporal_type component,
	const std::string& input,
	boost::posix_time::time_input_facet* facet)
	{
	using namespace boost::posix_time;
	std::istringstream iss(input);
	/* leave exceptions turned off
	* iss.exceptions(std::ios_base::failbit); */
	iss.imbue(std::locale(std::locale::classic(), facet));
	try {
	iss >> component;
	}
	catch(...) {
	std::cout << "Caught unexpected exception" << std::endl;
	return false;
	}

	return iss.fail(); // failbit must be set to pass test
	}

	using namespace boost::gregorian;
	using namespace boost::posix_time;


	void
	do_all_tests()
	{

	#if defined(USE_DATE_TIME_PRE_1_33_FACET_IO) // skip this file
	check("No tests run for this compiler. Incompatible IO", true);
	#else

	// set up initial objects
	time_duration td = hours(0);
	ptime pt(not_a_date_time);
	time_period tp(pt, td);
	// exceptions for failure_tests
	std::ios_base::failure e_failure("default");

	/* test ptime, time_duration, time_period.
	* test all formats.
	* test for bad input.
	* test special values.
	* do not test custom names (done in gregorian).
	*
	* format flags to test H,M,S,s,F,f,j
	*/

	// default format tests: time_duration, ptime
	std::istringstream iss("09:59:01.321987654321 2005-Jan-15 10:15:03.123456789123");
	iss >> td;
	iss >> pt;
	#if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
	check_equal("Default format time_duration", td, time_duration(9,59,1,321987654));
	check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(10,15,3,123456789)));
	#else
	check_equal("Default format time_duration", td, time_duration(9,59,1,321987));
	check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(10,15,3,123456)));
	#endif

	// test all flags that appear in time_input_facet
	iss.str("12:34:56 2005-Jan-15 12:34:56");
	iss >> td;
	iss >> pt;
	check_equal("Default format time_duration no frac_sec", td, time_duration(12,34,56));
	// the following test insures %F parsing stops at the appropriate point
	check_equal("Default format ptime", pt, ptime(date(2005,01,15),time_duration(12,34,56)));

	iss.str("14:13:12 extra stuff"); // using default %H:%M:%S%F format
	iss >> td;
	check_equal("Default frac_sec format time_duration", td, time_duration(14,13,12));

	time_input_facet* facet = new time_input_facet();
	std::locale loc(std::locale::classic(), facet);
	facet->time_duration_format("%H:%M:%S%f");
	iss.imbue(loc);

	iss.str("14:13:12.0 extra stuff");
	iss >> td;
	check_equal("Required-frac_sec format time_duration", td, time_duration(14,13,12));

	iss.str("12");
	facet->time_duration_format("%H");
	iss >> td;
	check_equal("Hours format", td, hours(12));

	iss.str("05");
	facet->time_duration_format("%M");
	iss >> td;
	check_equal("Minutes format", td, minutes(5));

	iss.str("45");
	facet->time_duration_format("%S");
	iss >> td;
	check_equal("Seconds w/o frac_sec format", td, seconds(45));

	iss.str("10.01");
	facet->time_duration_format("%s");
	iss >> td;
	#if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
	check_equal("Seconds w/ frac_sec format", td, time_duration(0,0,10,10000000));
	#else
	check_equal("Seconds w/ frac_sec format", td, time_duration(0,0,10,10000));
	#endif

	iss.str("2005-105T23:59");
	facet->format("%Y-%jT%H:%M"); // extended ordinal format
	iss >> pt;
	check_equal("Extended Ordinal format", pt, ptime(date(2005,4,15),time_duration(23,59,0)));

	/* this is not implemented yet. The flags: %I & %p are not parsed
	iss.str("2005-Jun-14 03:15:00 PM");
	facet->format("%Y-%b-%d %I:%M:%S %p");
	iss >> pt;
	check_equal("12 hour time format (AM/PM)", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
	*/

	iss.str("2005-Jun-14 15:15:00 %d");
	facet->format("%Y-%b-%d %H:%M:%S %%d");
	iss >> pt;
	check_equal("Literal '%' in format", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
	iss.str("15:15:00 %d");
	facet->time_duration_format("%H:%M:%S %%d");
	iss >> td;
	check_equal("Literal '%' in time_duration format", td, time_duration(15,15,0));
	iss.str("2005-Jun-14 15:15:00 %14");
	facet->format("%Y-%b-%d %H:%M:%S %%%d"); // %% => % & %d => day_of_month
	iss >> pt;
	check_equal("Multiple literal '%'s in format", pt, ptime(date(2005,6,14),time_duration(15,15,0)));
	iss.str("15:15:00 %15");
	facet->time_duration_format("%H:%M:%S %%%M");
	iss >> td;
	check_equal("Multiple literal '%'s in time_duration format", td, time_duration(15,15,0));

	{ /**** iso format tests (and custom 'scrunched-together formats) ****/
	time_input_facet *facet = new time_input_facet();
	facet->set_iso_format();
	facet->time_duration_format("%H%M%S%F"); // iso format
	std::stringstream ss;
	ss.imbue(std::locale(std::locale::classic(), facet));
	ptime pt(not_a_date_time);
	time_duration td(not_a_date_time);
	date d(2002,Oct,17);
	#if defined(BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG)
	time_duration td2(23,12,17,123450000);
	#else
	time_duration td2(23,12,17,123450);
	#endif
	ptime result(d, td2);

	ss.str("20021017T231217.12345");
	ss >> pt;
	check_equal("iso_format ptime", pt, result);
	ss.str("");
	facet->set_iso_extended_format();
	ss.str("2002-10-17 23:12:17.12345");
	ss >> pt;
	check_equal("iso_extended_format ptime", pt, result);
	ss.str("");
	ss.str("231217.12345");
	ss >> td;
	check_equal("iso_format time_duration", td, td2);
	ss.str("");
	ss.str("-infinity");
	ss >> td;
	check_equal("iso_format time_duration (special_value)",
	td, time_duration(neg_infin));
	ss.str("");
	// the above tests prove correct parsing of time values in these formats.
	// these tests show they also handle special_values & exceptions properly
	time_duration nadt(not_a_date_time);
	ss.exceptions(std::ios_base::failbit); // we need exceptions turned on here
	int count = 0;
	try {
	facet->time_duration_format("%H%M%S%F");
	ss.str("not-a-date-time");
	++count;
	ss >> td;
	check_equal("special value w/ hours flag", td, nadt);
	ss.str("");
	facet->time_duration_format("%M%S%F");
	ss.str("not-a-date-time");
	++count;
	ss >> td;
	check_equal("special value w/ minutes flag", td, nadt);
	ss.str("");
	facet->time_duration_format("%S%F");
	ss.str("not-a-date-time");
	++count;
	ss >> td;
	check_equal("special value w/ seconds flag", td, nadt);
	ss.str("");
	facet->time_duration_format("%s");
	ss.str("not-a-date-time");
	++count;
	ss >> td;
	check_equal("special value w/ sec w/frac_sec (always) flag", td, nadt);
	ss.str("");
	facet->time_duration_format("%f");
	ss.str("not-a-date-time");
	++count;
	ss >> td;
	check_equal("special value w/ frac_sec (always) flag", td, nadt);
	ss.str("");
	}
	catch(...) {
	// any exception is a failure
	std::stringstream msg;
	msg << "special_values with scrunched formats failed at test" << count;
	check(msg.str(), false);
	}
	// exception tests
	std::ios_base::failure exc("failure");
	check("failure test w/ hours flag",
	failure_test(td, "bad_input", exc, new time_input_facet("%H%M%S%F")));
	check("silent failure test w/ hours flag",
	failure_test(td, "bad_input", new time_input_facet("%H%M%S%F")));
	check("failure test w/ minute flag",
	failure_test(td, "bad_input", exc, new time_input_facet("%M%S%F")));
	check("silent failure test w/ minute flag",
	failure_test(td, "bad_input", new time_input_facet("%M%S%F")));
	check("failure test w/ second flag",
	failure_test(td, "bad_input", exc, new time_input_facet("%S%F")));
	check("silent failure test w/ second flag",
	failure_test(td, "bad_input", new time_input_facet("%S%F")));
	check("failure test w/ sec w/frac (always) flag",
	failure_test(td, "bad_input", exc, new time_input_facet("%s")));
	check("silent failure test w/ sec w/frac (always) flag",
	failure_test(td, "bad_input", new time_input_facet("%s")));
	check("failure test w/ frac_sec flag",
	failure_test(td, "bad_input", exc, new time_input_facet("%f")));
	check("silent failure test w/ frac_sec flag",
	failure_test(td, "bad_input", new time_input_facet("%f")));

	}
	// special_values tests. prove the individual flags catch special_values
	// NOTE: these flags all by themselves will not parse a complete ptime,
	// these are specific special_values tests
	iss.str("+infinity -infinity");
	facet->format("%H");
	facet->time_duration_format("%H");
	iss >> pt;
	iss >> td;
	check_equal("Special value: ptime %H flag", pt, ptime(pos_infin));
	check_equal("Special value: time_duration %H flag", td, time_duration(neg_infin));

	iss.str("not-a-date-time +infinity");
	facet->format("%M");
	facet->time_duration_format("%M");
	iss >> pt;
	iss >> td;
	check_equal("Special value: ptime %M flag", pt, ptime(not_a_date_time));
	check_equal("Special value: time_duration %M flag", td, time_duration(pos_infin));

	iss.str("-infinity not-a-date-time ");
	facet->format("%S");
	facet->time_duration_format("%S");
	iss >> pt;
	iss >> td;
	check_equal("Special value: ptime %S flag", pt, ptime(neg_infin));
	check_equal("Special value: time_duration %S flag", td, time_duration(not_a_date_time));

	iss.str("+infinity -infinity");
	facet->format("%s");
	facet->time_duration_format("%s");
	iss >> pt;
	iss >> td;
	check_equal("Special value: ptime %s flag", pt, ptime(pos_infin));
	check_equal("Special value: time_duration %s flag", td, time_duration(neg_infin));

	iss.str("not-a-date-time +infinity");
	facet->format("%j");
	facet->time_duration_format("%f");
	iss >> pt;
	iss >> td;
	check_equal("Special value: ptime %j flag", pt, ptime(not_a_date_time));
	check_equal("Special value: time_duration %f flag", td, time_duration(pos_infin));

	// time_period tests - the time_period_parser is thoroughly tested in gregorian tests
	// default period format is closed range so last ptime is included in peiod
	iss.str("[2005-Jan-01 00:00:00/2005-Dec-31 23:59:59]");
	facet->format(time_input_facet::default_time_input_format); // reset format
	iss >> tp;
	check("Time period, default formats",
	(tp.begin() == ptime(date(2005,1,1),hours(0))) &&
	(tp.last() == ptime(date(2005,12,31),time_duration(23,59,59))) &&
	(tp.end() == ptime(date(2005,12,31),time_duration(23,59,59,1))) );
	{
	std::stringstream ss;
	ptime pt(not_a_date_time);
	ptime pt2 = second_clock::local_time();
	ptime pt3(neg_infin);
	ptime pt4(pos_infin);
	time_period tp(pt2, pt); // ptime/nadt
	time_period tp2(pt, pt); // nadt/nadt
	time_period tp3(pt3, pt4);
	ss << tp;
	ss >> tp2;
	check_equal("Special values period (reversibility test)", tp, tp2);
	ss.str("[-infinity/+infinity]");
	ss >> tp2;
	check_equal("Special values period (infinities)", tp3, tp2);
	}

	// Failure tests
	// faliure tests for date elements tested in gregorian tests
	time_input_facet* facet2 = new time_input_facet();
	facet2->time_duration_format("%H:%M:%S%f");
	check("Failure test: Missing frac_sec with %f flag (w/exceptions)",
	failure_test(td, "14:13:12 extra stuff", e_failure, facet2));
	time_input_facet* facet3 = new time_input_facet();
	facet3->time_duration_format("%H:%M:%S%f");
	check("Failure test: Missing frac_sec with %f flag (no exceptions)",
	failure_test(td, "14:13:12 extra stuff", facet3));

	// Reversable format tests
	time_duration td_io(10,11,12,1234567);
	ptime pt_io(date(2004,03,15), td_io);
	time_facet* otp_facet = new time_facet();
	time_input_facet* inp_facet = new time_input_facet();
	std::stringstream ss;
	std::locale loc2(std::locale::classic(), otp_facet);
	ss.imbue(std::locale(loc2, inp_facet)); // imbue locale containing both facets

	ss.str("");
	ss << pt_io; // stream out pt_io
	ss >> pt;
	check_equal("Stream out one ptime then into another: default format", pt_io, pt);
	ss.str("");
	ss << td_io; // stream out td_io
	ss >> td;
	check_equal("Stream out one time_duration then into another: default format", td_io, td);

	td_io = time_duration(1,29,59); // no frac_sec, default format has %F
	pt_io = ptime(date(2004,2,29), td_io); // leap year
	ss.str("");
	ss << pt_io; // stream out pt_io
	ss >> pt;
	check_equal("Stream out one ptime then into another: default format", pt_io, pt);
	ss.str("");
	ss << td_io; // stream out td_io
	ss >> td;
	check_equal("Stream out one time_duration then into another: default format", td_io, td);

	td_io = time_duration(13,05,0); // no seconds as the next formats won't use them
	pt_io = ptime(date(2004,2,29), td_io); // leap year
	otp_facet->format("%Y-%jT%H:%M"); // extended ordinal
	inp_facet->format("%Y-%jT%H:%M");
	ss.str("");
	ss << pt_io; // stream out pt_io
	ss >> pt;
	check_equal("Stream out one ptime then into another: extended ordinal format", pt_io, pt);

	otp_facet->format("Time: %H:%M, Date: %B %d, %Y"); // custom format with extra words
	inp_facet->format("Time: %H:%M, Date: %B %d, %Y");
	ss.str("");
	ss << pt_io; // stream out pt_io
	ss >> pt;
	check_equal("Stream out one ptime then into another: custom format (" + ss.str() + ")", pt_io, pt);

	{
	// fully parameterized constructor - compile only test, all other features tested in gregorian
	boost::date_time::format_date_parser<date, char> fdp("%Y-%b-%d", std::locale::classic());
	special_values_parser svp; // default constructor
	period_parser pp; // default constructor
	boost::date_time::date_generator_parser<date, char> dgp; // default constructor
	time_input_facet tif("%Y-%m-%d %H:%M:%s", fdp, svp, pp, dgp);
	}
	#endif // USE_DATE_TIME_PRE_1_33_FACET_IO

	}



	int main(){

	try { //wrap all the tests -- we don't expect an exception
	do_all_tests();
	}
	catch(std::exception& e) {
	std::string failure("std::exception caught: ");
	failure += e.what();
	check(failure, false);
	}
	catch(...) {
	check("Unknown exception caught -- failing", false);
	}
	return printTestStats();
	}