#ifndef _DATE_TIME_FACET__HPP__ #define _DATE_TIME_FACET__HPP__ /* Copyright (c) 2004-2005 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: Martin Andrian, Jeff Garland, Bart Garst * $Date: 2010-06-09 12:39:31 -0400 (Wed, 09 Jun 2010) $ */ #include <cctype> #include <locale> #include <limits> #include <string> #include <sstream> #include <iomanip> #include <iterator> // i/ostreambuf_iterator #include <exception> #include <boost/assert.hpp> #include <boost/lexical_cast.hpp> #include <boost/throw_exception.hpp> #include <boost/range/as_literal.hpp> #include <boost/algorithm/string/erase.hpp> #include <boost/algorithm/string/replace.hpp> #include <boost/date_time/compiler_config.hpp> #include <boost/date_time/date_facet.hpp> #include <boost/date_time/string_convert.hpp> #include <boost/date_time/special_defs.hpp> #include <boost/date_time/time_resolution_traits.hpp> // absolute_value namespace boost { namespace date_time { template <class CharT> struct time_formats { public: typedef CharT char_type; static const char_type fractional_seconds_format[3]; // f static const char_type fractional_seconds_or_none_format[3]; // F static const char_type seconds_with_fractional_seconds_format[3]; // s static const char_type seconds_format[3]; // S static const char_type hours_format[3]; // H static const char_type unrestricted_hours_format[3]; // O static const char_type full_24_hour_time_format[3]; // T static const char_type full_24_hour_time_expanded_format[9]; // HH:MM:SS static const char_type short_24_hour_time_format[3]; // R static const char_type short_24_hour_time_expanded_format[6]; // HH:MM static const char_type standard_format[9]; // x X static const char_type zone_abbrev_format[3]; // z static const char_type zone_name_format[3]; // Z static const char_type zone_iso_format[3]; // q static const char_type zone_iso_extended_format[3]; // Q static const char_type posix_zone_string_format[4]; // ZP static const char_type duration_sign_negative_only[3]; // - static const char_type duration_sign_always[3]; // + static const char_type duration_seperator[2]; static const char_type negative_sign[2]; //- static const char_type positive_sign[2]; //+ static const char_type iso_time_format_specifier[18]; static const char_type iso_time_format_extended_specifier[22]; //default ptime format is YYYY-Mon-DD HH:MM:SS[.fff...][ zzz] static const char_type default_time_format[23]; // default_time_input_format uses a posix_time_zone_string instead of a time zone abbrev static const char_type default_time_input_format[24]; //default time_duration format is HH:MM:SS[.fff...] static const char_type default_time_duration_format[11]; }; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::fractional_seconds_format[3] = {'%','f'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::fractional_seconds_or_none_format[3] = {'%','F'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::seconds_with_fractional_seconds_format[3] = {'%','s'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::seconds_format[3] = {'%','S'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::hours_format[3] = {'%','H'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::unrestricted_hours_format[3] = {'%','O'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::full_24_hour_time_format[3] = {'%','T'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::full_24_hour_time_expanded_format[9] = {'%','H',':','%','M',':','%','S'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::short_24_hour_time_format[3] = {'%','R'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::short_24_hour_time_expanded_format[6] = {'%','H',':','%','M'}; template <class CharT> const typename time_formats<CharT>::char_type //time_formats<CharT>::standard_format[5] = {'%','c',' ','%','z'}; time_formats<CharT>::standard_format[9] = {'%','x',' ','%','X',' ','%','z'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::zone_abbrev_format[3] = {'%','z'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::zone_name_format[3] = {'%','Z'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::zone_iso_format[3] = {'%','q'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::zone_iso_extended_format[3] ={'%','Q'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::posix_zone_string_format[4] ={'%','Z','P'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::duration_seperator[2] = {':'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::negative_sign[2] = {'-'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::positive_sign[2] = {'+'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::duration_sign_negative_only[3] ={'%','-'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::duration_sign_always[3] ={'%','+'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::iso_time_format_specifier[18] = {'%', 'Y', '%', 'm', '%', 'd', 'T', '%', 'H', '%', 'M', '%', 'S', '%', 'F', '%','q' }; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::iso_time_format_extended_specifier[22] = {'%', 'Y', '-', '%', 'm', '-', '%', 'd', ' ', '%', 'H', ':', '%', 'M', ':', '%', 'S', '%', 'F','%','Q'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::default_time_format[23] = {'%','Y','-','%','b','-','%','d',' ', '%','H',':','%','M',':','%','S','%','F',' ','%','z'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::default_time_input_format[24] = {'%','Y','-','%','b','-','%','d',' ', '%','H',':','%','M',':','%','S','%','F',' ','%','Z','P'}; template <class CharT> const typename time_formats<CharT>::char_type time_formats<CharT>::default_time_duration_format[11] = {'%','O',':','%','M',':','%','S','%','F'}; /*! Facet used for format-based output of time types * This class provides for the use of format strings to output times. In addition * to the flags for formatting date elements, the following are the allowed format flags: * - %x %X => default format - enables addition of more flags to default (ie. "%x %X %z") * - %f => fractional seconds ".123456" * - %F => fractional seconds or none: like frac sec but empty if frac sec == 0 * - %s => seconds w/ fractional sec "02.123" (this is the same as "%S%f) * - %S => seconds "02" * - %z => abbreviated time zone "EDT" * - %Z => full time zone name "Eastern Daylight Time" */ template <class time_type, class CharT, class OutItrT = std::ostreambuf_iterator<CharT, std::char_traits<CharT> > > class time_facet : public boost::date_time::date_facet<typename time_type::date_type , CharT, OutItrT> { typedef time_formats< CharT > formats_type; public: typedef typename time_type::date_type date_type; typedef typename time_type::time_duration_type time_duration_type; typedef boost::date_time::period<time_type,time_duration_type> period_type; typedef boost::date_time::date_facet<typename time_type::date_type, CharT, OutItrT> base_type; typedef typename base_type::string_type string_type; typedef typename base_type::char_type char_type; typedef typename base_type::period_formatter_type period_formatter_type; typedef typename base_type::special_values_formatter_type special_values_formatter_type; typedef typename base_type::date_gen_formatter_type date_gen_formatter_type; static const char_type* fractional_seconds_format; // %f static const char_type* fractional_seconds_or_none_format; // %F static const char_type* seconds_with_fractional_seconds_format; // %s static const char_type* seconds_format; // %S static const char_type* hours_format; // %H static const char_type* unrestricted_hours_format; // %O static const char_type* standard_format; // %x X static const char_type* zone_abbrev_format; // %z static const char_type* zone_name_format; // %Z static const char_type* zone_iso_format; // %q static const char_type* zone_iso_extended_format; // %Q static const char_type* posix_zone_string_format; // %ZP static const char_type* duration_seperator; static const char_type* duration_sign_always; // %+ static const char_type* duration_sign_negative_only; // %- static const char_type* negative_sign; //- static const char_type* positive_sign; //+ static const char_type* iso_time_format_specifier; static const char_type* iso_time_format_extended_specifier; //default ptime format is YYYY-Mon-DD HH:MM:SS[.fff...][ zzz] static const char_type* default_time_format; //default time_duration format is HH:MM:SS[.fff...] static const char_type* default_time_duration_format; static std::locale::id id; #if defined (__SUNPRO_CC) && defined (_RWSTD_VER) std::locale::id& __get_id (void) const { return id; } #endif //! sets default formats for ptime, local_date_time, and time_duration explicit time_facet(::size_t a_ref = 0) : base_type(default_time_format, period_formatter_type(), special_values_formatter_type(), date_gen_formatter_type(), a_ref), m_time_duration_format(string_type(duration_sign_negative_only) + default_time_duration_format) {} //! Construct the facet with an explicitly specified format explicit time_facet(const char_type* a_format, period_formatter_type period_formatter = period_formatter_type(), const special_values_formatter_type& special_value_formatter = special_values_formatter_type(), date_gen_formatter_type dg_formatter = date_gen_formatter_type(), ::size_t a_ref = 0) : base_type(a_format, period_formatter, special_value_formatter, dg_formatter, a_ref), m_time_duration_format(string_type(duration_sign_negative_only) + default_time_duration_format) {} //! Changes format for time_duration void time_duration_format(const char_type* const format) { m_time_duration_format = format; } virtual void set_iso_format() { this->m_format = iso_time_format_specifier; } virtual void set_iso_extended_format() { this->m_format = iso_time_format_extended_specifier; } OutItrT put(OutItrT a_next, std::ios_base& a_ios, char_type a_fill, const time_type& a_time) const { if (a_time.is_special()) { return this->do_put_special(a_next, a_ios, a_fill, a_time.date().as_special()); } string_type format(this->m_format); // %T and %R have to be replaced here since they are not standard boost::algorithm::replace_all(format, boost::as_literal(formats_type::full_24_hour_time_format), boost::as_literal(formats_type::full_24_hour_time_expanded_format)); boost::algorithm::replace_all(format, boost::as_literal(formats_type::short_24_hour_time_format), boost::as_literal(formats_type::short_24_hour_time_expanded_format)); string_type frac_str; if (format.find(seconds_with_fractional_seconds_format) != string_type::npos) { // replace %s with %S.nnn frac_str = fractional_seconds_as_string(a_time.time_of_day(), false); char_type sep = std::use_facet<std::numpunct<char_type> >(a_ios.getloc()).decimal_point(); string_type replace_string(seconds_format); replace_string += sep; replace_string += frac_str; boost::algorithm::replace_all(format, seconds_with_fractional_seconds_format, replace_string); } /* NOTE: replacing posix_zone_string_format must be done BEFORE * zone_name_format: "%ZP" & "%Z", if Z is checked first it will * incorrectly replace a zone_name where a posix_string should go */ if (format.find(posix_zone_string_format) != string_type::npos) { if(a_time.zone_abbrev().empty()) { // if zone_abbrev() returns an empty string, we want to // erase posix_zone_string_format from format boost::algorithm::erase_all(format, posix_zone_string_format); } else{ boost::algorithm::replace_all(format, posix_zone_string_format, a_time.zone_as_posix_string()); } } if (format.find(zone_name_format) != string_type::npos) { if(a_time.zone_name().empty()) { /* TODO: this'll probably create problems if a user places * the zone_*_format flag in the format with a ptime. This * code removes the flag from the default formats */ // if zone_name() returns an empty string, we want to // erase zone_name_format & one preceeding space std::basic_ostringstream<char_type> ss; ss << ' ' << zone_name_format; boost::algorithm::erase_all(format, ss.str()); } else{ boost::algorithm::replace_all(format, zone_name_format, a_time.zone_name()); } } if (format.find(zone_abbrev_format) != string_type::npos) { if(a_time.zone_abbrev(false).empty()) { /* TODO: this'll probably create problems if a user places * the zone_*_format flag in the format with a ptime. This * code removes the flag from the default formats */ // if zone_abbrev() returns an empty string, we want to // erase zone_abbrev_format & one preceeding space std::basic_ostringstream<char_type> ss; ss << ' ' << zone_abbrev_format; boost::algorithm::erase_all(format, ss.str()); } else{ boost::algorithm::replace_all(format, zone_abbrev_format, a_time.zone_abbrev(false)); } } if (format.find(zone_iso_extended_format) != string_type::npos) { if(a_time.zone_name(true).empty()) { /* TODO: this'll probably create problems if a user places * the zone_*_format flag in the format with a ptime. This * code removes the flag from the default formats */ // if zone_name() returns an empty string, we want to // erase zone_iso_extended_format from format boost::algorithm::erase_all(format, zone_iso_extended_format); } else{ boost::algorithm::replace_all(format, zone_iso_extended_format, a_time.zone_name(true)); } } if (format.find(zone_iso_format) != string_type::npos) { if(a_time.zone_abbrev(true).empty()) { /* TODO: this'll probably create problems if a user places * the zone_*_format flag in the format with a ptime. This * code removes the flag from the default formats */ // if zone_abbrev() returns an empty string, we want to // erase zone_iso_format from format boost::algorithm::erase_all(format, zone_iso_format); } else{ boost::algorithm::replace_all(format, zone_iso_format, a_time.zone_abbrev(true)); } } if (format.find(fractional_seconds_format) != string_type::npos) { // replace %f with nnnnnnn if (frac_str.empty()) { frac_str = fractional_seconds_as_string(a_time.time_of_day(), false); } boost::algorithm::replace_all(format, fractional_seconds_format, frac_str); } if (format.find(fractional_seconds_or_none_format) != string_type::npos) { // replace %F with nnnnnnn or nothing if fs == 0 frac_str = fractional_seconds_as_string(a_time.time_of_day(), true); if (frac_str.size()) { char_type sep = std::use_facet<std::numpunct<char_type> >(a_ios.getloc()).decimal_point(); string_type replace_string; replace_string += sep; replace_string += frac_str; boost::algorithm::replace_all(format, fractional_seconds_or_none_format, replace_string); } else { boost::algorithm::erase_all(format, fractional_seconds_or_none_format); } } return this->do_put_tm(a_next, a_ios, a_fill, to_tm(a_time), format); } //! put function for time_duration OutItrT put(OutItrT a_next, std::ios_base& a_ios, char_type a_fill, const time_duration_type& a_time_dur) const { if (a_time_dur.is_special()) { return this->do_put_special(a_next, a_ios, a_fill, a_time_dur.get_rep().as_special()); } string_type format(m_time_duration_format); if (a_time_dur.is_negative()) { // replace %- with minus sign. Should we use the numpunct facet? boost::algorithm::replace_all(format, duration_sign_negative_only, negative_sign); // remove all the %+ in the string with '-' boost::algorithm::replace_all(format, duration_sign_always, negative_sign); } else { //duration is positive // remove all the %- combos from the string boost::algorithm::erase_all(format, duration_sign_negative_only); // remove all the %+ in the string with '+' boost::algorithm::replace_all(format, duration_sign_always, positive_sign); } // %T and %R have to be replaced here since they are not standard boost::algorithm::replace_all(format, boost::as_literal(formats_type::full_24_hour_time_format), boost::as_literal(formats_type::full_24_hour_time_expanded_format)); boost::algorithm::replace_all(format, boost::as_literal(formats_type::short_24_hour_time_format), boost::as_literal(formats_type::short_24_hour_time_expanded_format)); /* * It is possible for a time duration to span more then 24 hours. * Standard time_put::put is obliged to behave the same as strftime * (See ISO 14882-2003 22.2.5.3.1 par. 1) and strftime's behavior is * unspecified for the case when tm_hour field is outside 0-23 range * (See ISO 9899-1999 7.23.3.5 par. 3). So we must output %H and %O * here ourself. */ string_type hours_str; if (format.find(unrestricted_hours_format) != string_type::npos) { hours_str = hours_as_string(a_time_dur); boost::algorithm::replace_all(format, unrestricted_hours_format, hours_str); } // We still have to process restricted hours format specifier. In order to // support parseability of durations in ISO format (%H%M%S), we'll have to // restrict the stringified hours length to 2 characters. if (format.find(hours_format) != string_type::npos) { if (hours_str.empty()) hours_str = hours_as_string(a_time_dur); BOOST_ASSERT(hours_str.length() <= 2); boost::algorithm::replace_all(format, hours_format, hours_str); } string_type frac_str; if (format.find(seconds_with_fractional_seconds_format) != string_type::npos) { // replace %s with %S.nnn frac_str = fractional_seconds_as_string(a_time_dur, false); char_type sep = std::use_facet<std::numpunct<char_type> >(a_ios.getloc()).decimal_point(); string_type replace_string(seconds_format); replace_string += sep; replace_string += frac_str; boost::algorithm::replace_all(format, seconds_with_fractional_seconds_format, replace_string); } if (format.find(fractional_seconds_format) != string_type::npos) { // replace %f with nnnnnnn if (!frac_str.size()) { frac_str = fractional_seconds_as_string(a_time_dur, false); } boost::algorithm::replace_all(format, fractional_seconds_format, frac_str); } if (format.find(fractional_seconds_or_none_format) != string_type::npos) { // replace %F with nnnnnnn or nothing if fs == 0 frac_str = fractional_seconds_as_string(a_time_dur, true); if (frac_str.size()) { char_type sep = std::use_facet<std::numpunct<char_type> >(a_ios.getloc()).decimal_point(); string_type replace_string; replace_string += sep; replace_string += frac_str; boost::algorithm::replace_all(format, fractional_seconds_or_none_format, replace_string); } else { boost::algorithm::erase_all(format, fractional_seconds_or_none_format); } } return this->do_put_tm(a_next, a_ios, a_fill, to_tm(a_time_dur), format); } OutItrT put(OutItrT next, std::ios_base& a_ios, char_type fill, const period_type& p) const { return this->m_period_formatter.put_period(next, a_ios, fill,p,*this); } protected: static string_type fractional_seconds_as_string(const time_duration_type& a_time, bool null_when_zero) { typename time_duration_type::fractional_seconds_type frac_sec = a_time.fractional_seconds(); if (null_when_zero && (frac_sec == 0)) { return string_type(); } //make sure there is no sign return integral_as_string( date_time::absolute_value(frac_sec), time_duration_type::num_fractional_digits()); } static string_type hours_as_string(const time_duration_type& a_time, int width = 2) { return integral_as_string(date_time::absolute_value(a_time.hours()), width); } template< typename IntT > static string_type integral_as_string(IntT val, int width = 2) { std::basic_ostringstream<char_type> ss; ss.imbue(std::locale::classic()); // don't want any formatting ss << std::setw(width) << std::setfill(static_cast<char_type>('0')); #if (defined(BOOST_MSVC) && (_MSC_VER < 1300)) // JDG [7/6/02 VC++ compatibility] char_type buff[34]; ss << _i64toa(static_cast<boost::int64_t>(val), buff, 10); #else ss << val; #endif return ss.str(); } private: string_type m_time_duration_format; }; template <class time_type, class CharT, class OutItrT> std::locale::id time_facet<time_type, CharT, OutItrT>::id; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::fractional_seconds_format = time_formats<CharT>::fractional_seconds_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::fractional_seconds_or_none_format = time_formats<CharT>::fractional_seconds_or_none_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::seconds_with_fractional_seconds_format = time_formats<CharT>::seconds_with_fractional_seconds_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::zone_name_format = time_formats<CharT>::zone_name_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::zone_abbrev_format = time_formats<CharT>::zone_abbrev_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::zone_iso_extended_format =time_formats<CharT>::zone_iso_extended_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::posix_zone_string_format =time_formats<CharT>::posix_zone_string_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::zone_iso_format = time_formats<CharT>::zone_iso_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::seconds_format = time_formats<CharT>::seconds_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::hours_format = time_formats<CharT>::hours_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::unrestricted_hours_format = time_formats<CharT>::unrestricted_hours_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::standard_format = time_formats<CharT>::standard_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::duration_seperator = time_formats<CharT>::duration_seperator; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::negative_sign = time_formats<CharT>::negative_sign; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::positive_sign = time_formats<CharT>::positive_sign; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::duration_sign_negative_only = time_formats<CharT>::duration_sign_negative_only; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::duration_sign_always = time_formats<CharT>::duration_sign_always; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type,CharT, OutItrT>::char_type* time_facet<time_type,CharT, OutItrT>::iso_time_format_specifier = time_formats<CharT>::iso_time_format_specifier; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::iso_time_format_extended_specifier = time_formats<CharT>::iso_time_format_extended_specifier; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::default_time_format = time_formats<CharT>::default_time_format; template <class time_type, class CharT, class OutItrT> const typename time_facet<time_type, CharT, OutItrT>::char_type* time_facet<time_type, CharT, OutItrT>::default_time_duration_format = time_formats<CharT>::default_time_duration_format; //! Facet for format-based input. /*! */ template <class time_type, class CharT, class InItrT = std::istreambuf_iterator<CharT, std::char_traits<CharT> > > class time_input_facet : public boost::date_time::date_input_facet<typename time_type::date_type , CharT, InItrT> { public: typedef typename time_type::date_type date_type; typedef typename time_type::time_duration_type time_duration_type; typedef typename time_duration_type::fractional_seconds_type fracional_seconds_type; typedef boost::date_time::period<time_type,time_duration_type> period_type; typedef boost::date_time::date_input_facet<typename time_type::date_type, CharT, InItrT> base_type; typedef typename base_type::duration_type date_duration_type; typedef typename base_type::year_type year_type; typedef typename base_type::month_type month_type; typedef typename base_type::day_type day_type; typedef typename base_type::string_type string_type; typedef typename string_type::const_iterator const_itr; typedef typename base_type::char_type char_type; typedef typename base_type::format_date_parser_type format_date_parser_type; typedef typename base_type::period_parser_type period_parser_type; typedef typename base_type::special_values_parser_type special_values_parser_type; typedef typename base_type::date_gen_parser_type date_gen_parser_type; typedef typename base_type::special_values_parser_type::match_results match_results; static const char_type* fractional_seconds_format; // f static const char_type* fractional_seconds_or_none_format; // F static const char_type* seconds_with_fractional_seconds_format; // s static const char_type* seconds_format; // S static const char_type* standard_format; // x X static const char_type* zone_abbrev_format; // z static const char_type* zone_name_format; // Z static const char_type* zone_iso_format; // q static const char_type* zone_iso_extended_format; // Q static const char_type* duration_seperator; static const char_type* iso_time_format_specifier; static const char_type* iso_time_format_extended_specifier; static const char_type* default_time_input_format; static const char_type* default_time_duration_format; static std::locale::id id; //! Constructor that takes a format string for a ptime explicit time_input_facet(const string_type& format, ::size_t a_ref = 0) : base_type(format, a_ref), m_time_duration_format(default_time_duration_format) { } explicit time_input_facet(const string_type& format, const format_date_parser_type& date_parser, const special_values_parser_type& sv_parser, const period_parser_type& per_parser, const date_gen_parser_type& date_gen_parser, ::size_t a_ref = 0) : base_type(format, date_parser, sv_parser, per_parser, date_gen_parser, a_ref), m_time_duration_format(default_time_duration_format) {} //! sets default formats for ptime, local_date_time, and time_duration explicit time_input_facet(::size_t a_ref = 0) : base_type(default_time_input_format, a_ref), m_time_duration_format(default_time_duration_format) { } //! Set the format for time_duration void time_duration_format(const char_type* const format) { m_time_duration_format = format; } virtual void set_iso_format() { this->m_format = iso_time_format_specifier; } virtual void set_iso_extended_format() { this->m_format = iso_time_format_extended_specifier; } InItrT get(InItrT& sitr, InItrT& stream_end, std::ios_base& a_ios, period_type& p) const { p = this->m_period_parser.get_period(sitr, stream_end, a_ios, p, time_duration_type::unit(), *this); return sitr; } //default ptime format is YYYY-Mon-DD HH:MM:SS[.fff...][ zzz] //default time_duration format is %H:%M:%S%F HH:MM:SS[.fff...] InItrT get(InItrT& sitr, InItrT& stream_end, std::ios_base& a_ios, time_duration_type& td) const { // skip leading whitespace while((sitr != stream_end) && std::isspace(*sitr)) { ++sitr; } bool use_current_char = false; // num_get will consume the +/-, we may need a copy if special_value char_type c = '\0'; if((sitr != stream_end) && (*sitr == '-' || *sitr == '+')) { c = *sitr; } typedef typename time_duration_type::hour_type hour_type; typedef typename time_duration_type::min_type min_type; typedef typename time_duration_type::sec_type sec_type; hour_type hour = 0; min_type min = 0; sec_type sec = 0; typename time_duration_type::fractional_seconds_type frac(0); typedef std::num_get<CharT, InItrT> num_get; if(!std::has_facet<num_get>(a_ios.getloc())) { num_get* ng = new num_get(); std::locale loc = std::locale(a_ios.getloc(), ng); a_ios.imbue(loc); } const_itr itr(m_time_duration_format.begin()); while (itr != m_time_duration_format.end() && (sitr != stream_end)) { if (*itr == '%') { ++itr; if (*itr != '%') { switch(*itr) { case 'O': { // A period may span more than 24 hours. In that case the format // string should be composed with the unrestricted hours specifier. hour = var_string_to_int<hour_type, CharT>(sitr, stream_end, std::numeric_limits<hour_type>::digits10 + 1); if(hour == -1){ return check_special_value(sitr, stream_end, td, c); } break; } case 'H': { match_results mr; hour = fixed_string_to_int<hour_type, CharT>(sitr, stream_end, mr, 2); if(hour == -1){ return check_special_value(sitr, stream_end, td, c); } break; } case 'M': { match_results mr; min = fixed_string_to_int<min_type, CharT>(sitr, stream_end, mr, 2); if(min == -1){ return check_special_value(sitr, stream_end, td, c); } break; } case 's': case 'S': { match_results mr; sec = fixed_string_to_int<sec_type, CharT>(sitr, stream_end, mr, 2); if(sec == -1){ return check_special_value(sitr, stream_end, td, c); } if (*itr == 'S') break; // %s is the same as %S%f so we drop through into %f } case 'f': { // check for decimal, check special_values if missing if(*sitr == '.') { ++sitr; parse_frac_type(sitr, stream_end, frac); // sitr will point to next expected char after this parsing // is complete so no need to advance it use_current_char = true; } else { return check_special_value(sitr, stream_end, td, c); } break; } case 'F': { // check for decimal, skip if missing if(*sitr == '.') { ++sitr; parse_frac_type(sitr, stream_end, frac); // sitr will point to next expected char after this parsing // is complete so no need to advance it use_current_char = true; } else { // nothing was parsed so we don't want to advance sitr use_current_char = true; } break; } default: {} // ignore what we don't understand? }// switch } else { // itr == '%', second consecutive ++sitr; } ++itr; //advance past format specifier } else { //skip past chars in format and in buffer ++itr; // set use_current_char when sitr is already // pointing at the next character to process if (use_current_char) { use_current_char = false; } else { ++sitr; } } } td = time_duration_type(hour, min, sec, frac); return sitr; } //! Parses a time object from the input stream InItrT get(InItrT& sitr, InItrT& stream_end, std::ios_base& a_ios, time_type& t) const { string_type tz_str; return get(sitr, stream_end, a_ios, t, tz_str, false); } //! Expects a time_zone in the input stream InItrT get_local_time(InItrT& sitr, InItrT& stream_end, std::ios_base& a_ios, time_type& t, string_type& tz_str) const { return get(sitr, stream_end, a_ios, t, tz_str, true); } protected: InItrT get(InItrT& sitr, InItrT& stream_end, std::ios_base& a_ios, time_type& t, string_type& tz_str, bool time_is_local) const { // skip leading whitespace while((sitr != stream_end) && std::isspace(*sitr)) { ++sitr; } bool use_current_char = false; bool use_current_format_char = false; // used whith two character flags // num_get will consume the +/-, we may need a copy if special_value char_type c = '\0'; if((sitr != stream_end) && (*sitr == '-' || *sitr == '+')) { c = *sitr; } typedef typename time_duration_type::hour_type hour_type; typedef typename time_duration_type::min_type min_type; typedef typename time_duration_type::sec_type sec_type; // time elements hour_type hour = 0; min_type min = 0; sec_type sec = 0; typename time_duration_type::fractional_seconds_type frac(0); // date elements short day_of_year(0); /* Initialized the following to their minimum values. These intermediate * objects are used so we get specific exceptions when part of the input * is unparsable. * Ex: "205-Jan-15" will throw a bad_year, "2005-Jsn-15"- bad_month, etc.*/ year_type t_year(1400); month_type t_month(1); day_type t_day(1); typedef std::num_get<CharT, InItrT> num_get; if(!std::has_facet<num_get>(a_ios.getloc())) { num_get* ng = new num_get(); std::locale loc = std::locale(a_ios.getloc(), ng); a_ios.imbue(loc); } const_itr itr(this->m_format.begin()); while (itr != this->m_format.end() && (sitr != stream_end)) { if (*itr == '%') { ++itr; if (*itr != '%') { // the cases are grouped by date & time flags - not alphabetical order switch(*itr) { // date flags case 'Y': case 'y': { char_type cs[3] = { '%', *itr }; string_type s(cs); match_results mr; try { t_year = this->m_parser.parse_year(sitr, stream_end, s, mr); } catch(std::out_of_range&) { // base class for bad_year exception if(this->m_sv_parser.match(sitr, stream_end, mr)) { t = time_type(static_cast<special_values>(mr.current_match)); return sitr; } else { throw; // rethrow bad_year } } break; } case 'B': case 'b': case 'm': { char_type cs[3] = { '%', *itr }; string_type s(cs); match_results mr; try { t_month = this->m_parser.parse_month(sitr, stream_end, s, mr); } catch(std::out_of_range&) { // base class for bad_month exception if(this->m_sv_parser.match(sitr, stream_end, mr)) { t = time_type(static_cast<special_values>(mr.current_match)); return sitr; } else { throw; // rethrow bad_month } } // did m_parser already advance sitr to next char? if(mr.has_remaining()) { use_current_char = true; } break; } case 'a': case 'A': case 'w': { // weekday is not used in construction but we need to get it out of the stream char_type cs[3] = { '%', *itr }; string_type s(cs); match_results mr; typename date_type::day_of_week_type wd(0); try { wd = this->m_parser.parse_weekday(sitr, stream_end, s, mr); } catch(std::out_of_range&) { // base class for bad_weekday exception if(this->m_sv_parser.match(sitr, stream_end, mr)) { t = time_type(static_cast<special_values>(mr.current_match)); return sitr; } else { throw; // rethrow bad_weekday } } // did m_parser already advance sitr to next char? if(mr.has_remaining()) { use_current_char = true; } break; } case 'j': { // code that gets julian day (from format_date_parser) match_results mr; day_of_year = fixed_string_to_int<unsigned short, CharT>(sitr, stream_end, mr, 3); if(day_of_year == -1) { if(this->m_sv_parser.match(sitr, stream_end, mr)) { t = time_type(static_cast<special_values>(mr.current_match)); return sitr; } } // these next two lines are so we get an exception with bad input typedef typename time_type::date_type::day_of_year_type day_of_year_type; day_of_year_type t_day_of_year(day_of_year); break; } case 'd': { try { t_day = this->m_parser.parse_day_of_month(sitr, stream_end); } catch(std::out_of_range&) { // base class for exception bad_day_of_month match_results mr; if(this->m_sv_parser.match(sitr, stream_end, mr)) { t = time_type(static_cast<special_values>(mr.current_match)); return sitr; } else { throw; // rethrow bad_day_of_month } } break; } // time flags case 'H': { match_results mr; hour = fixed_string_to_int<hour_type, CharT>(sitr, stream_end, mr, 2); if(hour == -1){ return check_special_value(sitr, stream_end, t, c); } break; } case 'M': { match_results mr; min = fixed_string_to_int<min_type, CharT>(sitr, stream_end, mr, 2); if(min == -1){ return check_special_value(sitr, stream_end, t, c); } break; } case 's': case 'S': { match_results mr; sec = fixed_string_to_int<sec_type, CharT>(sitr, stream_end, mr, 2); if(sec == -1){ return check_special_value(sitr, stream_end, t, c); } if (*itr == 'S') break; // %s is the same as %S%f so we drop through into %f } case 'f': { // check for decimal, check SV if missing if(*sitr == '.') { ++sitr; parse_frac_type(sitr, stream_end, frac); // sitr will point to next expected char after this parsing // is complete so no need to advance it use_current_char = true; } else { return check_special_value(sitr, stream_end, t, c); } break; } case 'F': { // check for decimal, skip if missing if(*sitr == '.') { ++sitr; parse_frac_type(sitr, stream_end, frac); // sitr will point to next expected char after this parsing // is complete so no need to advance it use_current_char = true; } else { // nothing was parsed so we don't want to advance sitr use_current_char = true; } break; } // time_zone flags //case 'q': //case 'Q': //case 'z': case 'Z': { if(time_is_local) { // skip if 't' is a ptime ++itr; if(*itr == 'P') { // skip leading whitespace while((sitr != stream_end) && std::isspace(*sitr)) { ++sitr; } // parse zone while((sitr != stream_end) && (!std::isspace(*sitr))) { tz_str += *sitr; ++sitr; } } else { use_current_format_char = true; } } else { // nothing was parsed so we don't want to advance sitr use_current_char = true; } break; } default: {} // ignore what we don't understand? }// switch } else { // itr == '%', second consecutive ++sitr; } if(use_current_format_char) { use_current_format_char = false; } else { ++itr; //advance past format specifier } } else { //skip past chars in format and in buffer ++itr; // set use_current_char when sitr is already // pointing at the next character to process if (use_current_char) { use_current_char = false; } else { ++sitr; } } } date_type d(not_a_date_time); if (day_of_year > 0) { d = date_type(static_cast<unsigned short>(t_year-1),12,31) + date_duration_type(day_of_year); } else { d = date_type(t_year, t_month, t_day); } time_duration_type td(hour, min, sec, frac); t = time_type(d, td); return sitr; } //! Helper function to check for special_value /*! First character may have been consumed during original parse * attempt. Parameter 'c' should be a copy of that character. * Throws ios_base::failure if parse fails. */ template<class temporal_type> inline InItrT check_special_value(InItrT& sitr,InItrT& stream_end, temporal_type& tt, char_type c='\0') const { match_results mr; if((c == '-' || c == '+') && (*sitr != c)) { // was the first character consumed? mr.cache += c; } this->m_sv_parser.match(sitr, stream_end, mr); if(mr.current_match == match_results::PARSE_ERROR) { std::string tmp = convert_string_type<char_type, char>(mr.cache); boost::throw_exception(std::ios_base::failure("Parse failed. No match found for '" + tmp + "'")); BOOST_DATE_TIME_UNREACHABLE_EXPRESSION(return sitr); // should never reach } tt = temporal_type(static_cast<special_values>(mr.current_match)); return sitr; } //! Helper function for parsing a fractional second type from the stream void parse_frac_type(InItrT& sitr, InItrT& stream_end, fracional_seconds_type& frac) const { string_type cache; while((sitr != stream_end) && std::isdigit(*sitr)) { cache += *sitr; ++sitr; } if(cache.size() > 0) { unsigned short precision = time_duration_type::num_fractional_digits(); // input may be only the first few decimal places if(cache.size() < precision) { frac = lexical_cast<fracional_seconds_type>(cache); frac = decimal_adjust(frac, static_cast<unsigned short>(precision - cache.size())); } else { // if input has too many decimal places, drop excess digits frac = lexical_cast<fracional_seconds_type>(cache.substr(0, precision)); } } } private: string_type m_time_duration_format; //! Helper function to adjust trailing zeros when parsing fractional digits template<class int_type> inline int_type decimal_adjust(int_type val, const unsigned short places) const { unsigned long factor = 1; for(int i = 0; i < places; ++i){ factor *= 10; // shift decimal to the right } return val * factor; } }; template <class time_type, class CharT, class InItrT> std::locale::id time_input_facet<time_type, CharT, InItrT>::id; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::fractional_seconds_format = time_formats<CharT>::fractional_seconds_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::fractional_seconds_or_none_format = time_formats<CharT>::fractional_seconds_or_none_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::seconds_with_fractional_seconds_format = time_formats<CharT>::seconds_with_fractional_seconds_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::seconds_format = time_formats<CharT>::seconds_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::standard_format = time_formats<CharT>::standard_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::zone_abbrev_format = time_formats<CharT>::zone_abbrev_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::zone_name_format = time_formats<CharT>::zone_name_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::zone_iso_format = time_formats<CharT>::zone_iso_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::zone_iso_extended_format = time_formats<CharT>::zone_iso_extended_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::duration_seperator = time_formats<CharT>::duration_seperator; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::iso_time_format_specifier = time_formats<CharT>::iso_time_format_specifier; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::iso_time_format_extended_specifier = time_formats<CharT>::iso_time_format_extended_specifier; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::default_time_input_format = time_formats<CharT>::default_time_input_format; template <class time_type, class CharT, class InItrT> const typename time_input_facet<time_type, CharT, InItrT>::char_type* time_input_facet<time_type, CharT, InItrT>::default_time_duration_format = time_formats<CharT>::default_time_duration_format; } } // namespaces #endif