boost/date_time/posix_time/time_serialize.hpp
#ifndef POSIX_TIME_SERIALIZE_HPP___
#define POSIX_TIME_SERIALIZE_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: Jeff Garland, Bart Garst
* $Date$
*/
#include "boost/date_time/posix_time/posix_time.hpp"
#include "boost/date_time/gregorian/greg_serialize.hpp"
#include "boost/numeric/conversion/cast.hpp"
#include "boost/serialization/split_free.hpp"
#include "boost/serialization/nvp.hpp"
#include "boost/serialization/version.hpp"
// macros to split serialize functions into save & load functions
// NOTE: these macros define template functions in the boost::serialization namespace.
// They must be expanded *outside* of any namespace
BOOST_SERIALIZATION_SPLIT_FREE(boost::posix_time::ptime)
BOOST_SERIALIZATION_SPLIT_FREE(boost::posix_time::time_duration)
BOOST_SERIALIZATION_SPLIT_FREE(boost::posix_time::time_period)
// Define versions for serialization compatibility
// alows the unit tests to make an older version to check compatibility
#ifndef BOOST_DATE_TIME_POSIX_TIME_DURATION_VERSION
#define BOOST_DATE_TIME_POSIX_TIME_DURATION_VERSION 1
#endif
BOOST_CLASS_VERSION(boost::posix_time::time_duration, BOOST_DATE_TIME_POSIX_TIME_DURATION_VERSION)
namespace boost {
namespace serialization {
/*** time_duration ***/
//! Function to save posix_time::time_duration objects using serialization lib
/*! time_duration objects are broken down into 4 parts for serialization:
* types are hour_type, min_type, sec_type, and fractional_seconds_type
* as defined in the time_duration class
*/
template<class TimeResTraitsSize, class Archive>
void save_td(Archive& ar, const posix_time::time_duration& td)
{
TimeResTraitsSize h = boost::numeric_cast<TimeResTraitsSize>(td.hours());
TimeResTraitsSize m = boost::numeric_cast<TimeResTraitsSize>(td.minutes());
TimeResTraitsSize s = boost::numeric_cast<TimeResTraitsSize>(td.seconds());
posix_time::time_duration::fractional_seconds_type fs = td.fractional_seconds();
ar & make_nvp("time_duration_hours", h);
ar & make_nvp("time_duration_minutes", m);
ar & make_nvp("time_duration_seconds", s);
ar & make_nvp("time_duration_fractional_seconds", fs);
}
template<class Archive>
void save(Archive & ar,
const posix_time::time_duration& td,
unsigned int version)
{
// serialize a bool so we know how to read this back in later
bool is_special = td.is_special();
ar & make_nvp("is_special", is_special);
if(is_special) {
std::string s = to_simple_string(td);
ar & make_nvp("sv_time_duration", s);
}
else {
// Write support for earlier versions allows for upgrade compatibility testing
// See load comments for version information
if (version == 0) {
save_td<int32_t>(ar, td);
} else {
save_td<int64_t>(ar, td);
}
}
}
//! Function to load posix_time::time_duration objects using serialization lib
/*! time_duration objects are broken down into 4 parts for serialization:
* types are hour_type, min_type, sec_type, and fractional_seconds_type
* as defined in the time_duration class
*/
template<class TimeResTraitsSize, class Archive>
void load_td(Archive& ar, posix_time::time_duration& td)
{
TimeResTraitsSize h(0);
TimeResTraitsSize m(0);
TimeResTraitsSize s(0);
posix_time::time_duration::fractional_seconds_type fs(0);
ar & make_nvp("time_duration_hours", h);
ar & make_nvp("time_duration_minutes", m);
ar & make_nvp("time_duration_seconds", s);
ar & make_nvp("time_duration_fractional_seconds", fs);
td = posix_time::time_duration(h, m, s, fs);
}
template<class Archive>
void load(Archive & ar,
posix_time::time_duration & td,
unsigned int version)
{
bool is_special = false;
ar & make_nvp("is_special", is_special);
if(is_special) {
std::string s;
ar & make_nvp("sv_time_duration", s);
posix_time::special_values sv = gregorian::special_value_from_string(s);
td = posix_time::time_duration(sv);
}
else {
// Version "0" (Boost 1.65.1 or earlier, which used int32_t for day/hour/minute/second and
// therefore suffered from the year 2038 issue.)
// Version "0.5" (Boost 1.66.0 changed to std::time_t but did not increase the version;
// it was missed in the original change, all code reviews, and there were no
// static assertions to protect the code; further std::time_t can be 32-bit
// or 64-bit so it reduced portability. This makes 1.66.0 hard to handle...)
// Version "1" (Boost 1.67.0 or later uses int64_t and is properly versioned)
// If the size of any of these items changes, a new version is needed.
BOOST_STATIC_ASSERT(sizeof(posix_time::time_duration::hour_type) == sizeof(boost::int64_t));
BOOST_STATIC_ASSERT(sizeof(posix_time::time_duration::min_type) == sizeof(boost::int64_t));
BOOST_STATIC_ASSERT(sizeof(posix_time::time_duration::sec_type) == sizeof(boost::int64_t));
BOOST_STATIC_ASSERT(sizeof(posix_time::time_duration::fractional_seconds_type) == sizeof(boost::int64_t));
if (version == 0) {
load_td<int32_t>(ar, td);
} else {
load_td<int64_t>(ar, td);
}
}
}
// no load_construct_data function provided as time_duration provides a
// default constructor
/*** ptime ***/
//! Function to save posix_time::ptime objects using serialization lib
/*! ptime objects are broken down into 2 parts for serialization:
* a date object and a time_duration onject
*/
template<class Archive>
void save(Archive & ar,
const posix_time::ptime& pt,
unsigned int /*version*/)
{
// from_iso_string does not include fractional seconds
// therefore date and time_duration are used
posix_time::ptime::date_type d = pt.date();
ar & make_nvp("ptime_date", d);
if(!pt.is_special()) {
posix_time::ptime::time_duration_type td = pt.time_of_day();
ar & make_nvp("ptime_time_duration", td);
}
}
//! Function to load posix_time::ptime objects using serialization lib
/*! ptime objects are broken down into 2 parts for serialization:
* a date object and a time_duration onject
*/
template<class Archive>
void load(Archive & ar,
posix_time::ptime & pt,
unsigned int /*version*/)
{
// from_iso_string does not include fractional seconds
// therefore date and time_duration are used
posix_time::ptime::date_type d(posix_time::not_a_date_time);
posix_time::ptime::time_duration_type td;
ar & make_nvp("ptime_date", d);
if(!d.is_special()) {
ar & make_nvp("ptime_time_duration", td);
pt = boost::posix_time::ptime(d,td);
}
else {
pt = boost::posix_time::ptime(d.as_special());
}
}
//!override needed b/c no default constructor
template<class Archive>
inline void load_construct_data(Archive & /*ar*/,
posix_time::ptime* pt,
const unsigned int /*file_version*/)
{
// retrieve data from archive required to construct new
// invoke inplace constructor to initialize instance of date
new(pt) boost::posix_time::ptime(boost::posix_time::not_a_date_time);
}
/*** time_period ***/
//! Function to save posix_time::time_period objects using serialization lib
/*! time_period objects are broken down into 2 parts for serialization:
* a begining ptime object and an ending ptime object
*/
template<class Archive>
void save(Archive & ar,
const posix_time::time_period& tp,
unsigned int /*version*/)
{
posix_time::ptime beg(tp.begin().date(), tp.begin().time_of_day());
posix_time::ptime end(tp.end().date(), tp.end().time_of_day());
ar & make_nvp("time_period_begin", beg);
ar & make_nvp("time_period_end", end);
}
//! Function to load posix_time::time_period objects using serialization lib
/*! time_period objects are broken down into 2 parts for serialization:
* a begining ptime object and an ending ptime object
*/
template<class Archive>
void load(Archive & ar,
boost::posix_time::time_period & tp,
unsigned int /*version*/)
{
posix_time::time_duration td(1,0,0);
gregorian::date d(gregorian::not_a_date_time);
posix_time::ptime beg(d,td);
posix_time::ptime end(d,td);
ar & make_nvp("time_period_begin", beg);
ar & make_nvp("time_period_end", end);
tp = boost::posix_time::time_period(beg, end);
}
//!override needed b/c no default constructor
template<class Archive>
inline void load_construct_data(Archive & /*ar*/,
boost::posix_time::time_period* tp,
const unsigned int /*file_version*/)
{
posix_time::time_duration td(1,0,0);
gregorian::date d(gregorian::not_a_date_time);
posix_time::ptime beg(d,td);
posix_time::ptime end(d,td);
new(tp) boost::posix_time::time_period(beg,end);
}
} // namespace serialization
} // namespace boost
#endif