ext-boost/boost/date_time/time_parsing.hpp

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2019-08-24 13:39:04 +00:00
#ifndef _DATE_TIME_TIME_PARSING_HPP___
#define _DATE_TIME_TIME_PARSING_HPP___
/* Copyright (c) 2002,2003,2005 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/tokenizer.hpp"
#include "boost/lexical_cast.hpp"
#include "boost/date_time/date_parsing.hpp"
#include "boost/date_time/special_values_parser.hpp"
#include "boost/cstdint.hpp"
#include <iostream>
namespace boost {
namespace date_time {
//! computes exponential math like 2^8 => 256, only works with positive integers
//Not general purpose, but needed b/c std::pow is not available
//everywehere. Hasn't been tested with negatives and zeros
template<class int_type>
inline
int_type power(int_type base, int_type exponent)
{
int_type result = 1;
for(int i = 0; i < exponent; ++i){
result *= base;
}
return result;
}
//! Creates a time_duration object from a delimited string
/*! Expected format for string is "[-]h[h][:mm][:ss][.fff]".
* If the number of fractional digits provided is greater than the
* precision of the time duration type then the extra digits are
* truncated.
*
* A negative duration will be created if the first character in
* string is a '-', all other '-' will be treated as delimiters.
* Accepted delimiters are "-:,.".
*/
template<class time_duration, class char_type>
inline
time_duration
str_from_delimited_time_duration(const std::basic_string<char_type>& s)
{
unsigned short min=0, sec =0;
int hour =0;
bool is_neg = (s.at(0) == '-');
boost::int64_t fs=0;
int pos = 0;
typedef typename std::basic_string<char_type>::traits_type traits_type;
typedef boost::char_separator<char_type, traits_type> char_separator_type;
typedef boost::tokenizer<char_separator_type,
typename std::basic_string<char_type>::const_iterator,
std::basic_string<char_type> > tokenizer;
typedef typename boost::tokenizer<char_separator_type,
typename std::basic_string<char_type>::const_iterator,
typename std::basic_string<char_type> >::iterator tokenizer_iterator;
char_type sep_chars[5] = {'-',':',',','.'};
char_separator_type sep(sep_chars);
tokenizer tok(s,sep);
for(tokenizer_iterator beg=tok.begin(); beg!=tok.end();++beg){
switch(pos) {
case 0: {
hour = boost::lexical_cast<int>(*beg);
break;
}
case 1: {
min = boost::lexical_cast<unsigned short>(*beg);
break;
}
case 2: {
sec = boost::lexical_cast<unsigned short>(*beg);
break;
};
case 3: {
int digits = static_cast<int>(beg->length());
//Works around a bug in MSVC 6 library that does not support
//operator>> thus meaning lexical_cast will fail to compile.
#if (defined(BOOST_MSVC) && (_MSC_VER < 1300))
// msvc wouldn't compile 'time_duration::num_fractional_digits()'
// (required template argument list) as a workaround a temp
// time_duration object was used
time_duration td(hour,min,sec,fs);
int precision = td.num_fractional_digits();
// _atoi64 is an MS specific function
if(digits >= precision) {
// drop excess digits
fs = _atoi64(beg->substr(0, precision).c_str());
}
else {
fs = _atoi64(beg->c_str());
}
#else
int precision = time_duration::num_fractional_digits();
if(digits >= precision) {
// drop excess digits
fs = boost::lexical_cast<boost::int64_t>(beg->substr(0, precision));
}
else {
fs = boost::lexical_cast<boost::int64_t>(*beg);
}
#endif
if(digits < precision){
// trailing zeros get dropped from the string,
// "1:01:01.1" would yield .000001 instead of .100000
// the power() compensates for the missing decimal places
fs *= power(10, precision - digits);
}
break;
}
default: break;
}//switch
pos++;
}
if(is_neg) {
return -time_duration(hour, min, sec, fs);
}
else {
return time_duration(hour, min, sec, fs);
}
}
//! Creates a time_duration object from a delimited string
/*! Expected format for string is "[-]h[h][:mm][:ss][.fff]".
* If the number of fractional digits provided is greater than the
* precision of the time duration type then the extra digits are
* truncated.
*
* A negative duration will be created if the first character in
* string is a '-', all other '-' will be treated as delimiters.
* Accepted delimiters are "-:,.".
*/
template<class time_duration>
inline
time_duration
parse_delimited_time_duration(const std::string& s)
{
return str_from_delimited_time_duration<time_duration,char>(s);
}
//! Utility function to split appart string
inline
bool
split(const std::string& s,
char sep,
std::string& first,
std::string& second)
{
std::string::size_type sep_pos = s.find(sep);
first = s.substr(0,sep_pos);
if (sep_pos!=std::string::npos)
second = s.substr(sep_pos+1);
return true;
}
template<class time_type>
inline
time_type
parse_delimited_time(const std::string& s, char sep)
{
typedef typename time_type::time_duration_type time_duration;
typedef typename time_type::date_type date_type;
//split date/time on a unique delimiter char such as ' ' or 'T'
std::string date_string, tod_string;
split(s, sep, date_string, tod_string);
//call parse_date with first string
date_type d = parse_date<date_type>(date_string);
//call parse_time_duration with remaining string
time_duration td = parse_delimited_time_duration<time_duration>(tod_string);
//construct a time
return time_type(d, td);
}
//! Parse time duration part of an iso time of form: [-]hhmmss[.fff...] (eg: 120259.123 is 12 hours, 2 min, 59 seconds, 123000 microseconds)
template<class time_duration>
inline
time_duration
parse_undelimited_time_duration(const std::string& s)
{
int precision = 0;
{
// msvc wouldn't compile 'time_duration::num_fractional_digits()'
// (required template argument list) as a workaround, a temp
// time_duration object was used
time_duration tmp(0,0,0,1);
precision = tmp.num_fractional_digits();
}
// 'precision+1' is so we grab all digits, plus the decimal
int offsets[] = {2,2,2, precision+1};
int pos = 0, sign = 0;
int hours = 0;
short min=0, sec=0;
boost::int64_t fs=0;
// increment one position if the string was "signed"
if(s.at(sign) == '-')
{
++sign;
}
// stlport choked when passing s.substr() to tokenizer
// using a new string fixed the error
std::string remain = s.substr(sign);
/* We do not want the offset_separator to wrap the offsets, we
* will never want to process more than:
* 2 char, 2 char, 2 char, frac_sec length.
* We *do* want the offset_separator to give us a partial for the
* last characters if there were not enough provided in the input string. */
bool wrap_off = false;
bool ret_part = true;
boost::offset_separator osf(offsets, offsets+4, wrap_off, ret_part);
typedef boost::tokenizer<boost::offset_separator,
std::basic_string<char>::const_iterator,
std::basic_string<char> > tokenizer;
typedef boost::tokenizer<boost::offset_separator,
std::basic_string<char>::const_iterator,
std::basic_string<char> >::iterator tokenizer_iterator;
tokenizer tok(remain, osf);
for(tokenizer_iterator ti=tok.begin(); ti!=tok.end();++ti){
switch(pos) {
case 0:
{
hours = boost::lexical_cast<int>(*ti);
break;
}
case 1:
{
min = boost::lexical_cast<short>(*ti);
break;
}
case 2:
{
sec = boost::lexical_cast<short>(*ti);
break;
}
case 3:
{
std::string char_digits(ti->substr(1)); // digits w/no decimal
int digits = static_cast<int>(char_digits.length());
//Works around a bug in MSVC 6 library that does not support
//operator>> thus meaning lexical_cast will fail to compile.
#if (defined(BOOST_MSVC) && (_MSC_VER <= 1200)) // 1200 == VC++ 6.0
// _atoi64 is an MS specific function
if(digits >= precision) {
// drop excess digits
fs = _atoi64(char_digits.substr(0, precision).c_str());
}
else if(digits == 0) {
fs = 0; // just in case _atoi64 doesn't like an empty string
}
else {
fs = _atoi64(char_digits.c_str());
}
#else
if(digits >= precision) {
// drop excess digits
fs = boost::lexical_cast<boost::int64_t>(char_digits.substr(0, precision));
}
else if(digits == 0) {
fs = 0; // lexical_cast doesn't like empty strings
}
else {
fs = boost::lexical_cast<boost::int64_t>(char_digits);
}
#endif
if(digits < precision){
// trailing zeros get dropped from the string,
// "1:01:01.1" would yield .000001 instead of .100000
// the power() compensates for the missing decimal places
fs *= power(10, precision - digits);
}
break;
}
default: break;
};
pos++;
}
if(sign) {
return -time_duration(hours, min, sec, fs);
}
else {
return time_duration(hours, min, sec, fs);
}
}
//! Parse time string of form YYYYMMDDThhmmss where T is delimeter between date and time
template<class time_type>
inline
time_type
parse_iso_time(const std::string& s, char sep)
{
typedef typename time_type::time_duration_type time_duration;
typedef typename time_type::date_type date_type;
typedef special_values_parser<date_type, std::string::value_type> svp_type;
// given to_iso_string can produce a special value string
// then from_iso_string should be able to read a special value string
// the special_values_parser is expensive to set up and not thread-safe
// so it cannot be static, so we need to be careful about when we use it
if (svp_type::likely(s)) {
typedef typename svp_type::stringstream_type ss_type;
typedef typename svp_type::stream_itr_type itr_type;
typedef typename svp_type::match_results mr_type;
svp_type p; // expensive
mr_type mr;
ss_type ss(s);
itr_type itr(ss);
itr_type end;
if (p.match(itr, end, mr)) {
return time_type(static_cast<special_values>(mr.current_match));
}
}
//split date/time on a unique delimiter char such as ' ' or 'T'
std::string date_string, tod_string;
split(s, sep, date_string, tod_string);
//call parse_date with first string
date_type d = parse_undelimited_date<date_type>(date_string);
//call parse_time_duration with remaining string
time_duration td = parse_undelimited_time_duration<time_duration>(tod_string);
//construct a time
return time_type(d, td);
}
} }//namespace date_time
#endif