source: trunk/FACT++/src/Time.cc@ 11394

Last change on this file since 11394 was 11393, checked in by tbretz, 13 years ago
Added Time_t()
File size: 8.9 KB
Line 
1// **************************************************************************
2/** @class Time
3
4@brief Adds some functionality to boost::posix_time::ptime for our needs
5
6This is basically a wrapper around boost::posix_time::ptime which is made
7to adapt the functionality to our needs. Time can store the current
8data and time with a precision up to nanoseconds if provided by the
9undrlaying system, otherwise microsecond precision is used.
10
11It main purpose is to provide needed constructors and simplyfy the
12conversion of dates and times from and to a string/stream.
13
14Note that posix_time (as Posix times have) has a limited range. You cannot
15use it for example for very early years of the last century.
16
17@section Examples
18
19 - An example can be found in \ref time.cc
20
21@section References
22
23 - <A HREF="http://www.boost.org/doc/libs/1_45_0/doc/html/date_time.html">BOOST++ date_time (V1.45.0)</A>
24
25**/
26// **************************************************************************
27#include "Time.h"
28
29using namespace std;
30using namespace boost::posix_time;
31
32const boost::gregorian::date Time::fUnixOffset(1970, 1, 1);
33
34const Time Time::None(Time::none);
35
36// strftime
37const _time_format Time::reset = 0;
38const _time_format Time::def = "%c";
39const _time_format Time::std = "%x %X%F";
40const _time_format Time::sql = "%Y-%m-%d %H:%M:%S.%f";
41const _time_format Time::ssql = "%Y-%m-%d %H:%M:%S";
42const _time_format Time::iso = "%Y%m%dT%H%M%S%F%q";
43const _time_format Time::magic = "%Y %m %d %H %M %S %f";
44const _time_format Time::smagic = "%Y %m %d %H %M %S";
45
46// --------------------------------------------------------------------------
47//
48//! Construct a Time object with either UTC or local time, or without any
49//! particular time.
50//!
51//! @param typ
52//! enum as defined in Time::init_t
53//
54Time::Time(enum init_t typ)
55{
56 switch (typ)
57 {
58 case utc:
59 *this = microsec_clock::universal_time();
60 break;
61 case local:
62 *this = microsec_clock::local_time();
63 break;
64 case none:
65 break;
66 }
67}
68
69
70// --------------------------------------------------------------------------
71//
72//! Construct a Time object with a date_time::special_value, e.g.
73//!
74//! - neg_infin
75//! - pos_infin
76//! - not_a_date_time
77//! - max_date_time
78//! - min_date_time
79//!
80//!
81//! @param val
82//! date_time::special_value
83//
84Time::Time(const boost::date_time::special_values &val) : ptime(val)
85{
86}
87
88// --------------------------------------------------------------------------
89//
90//! Construct a Time object from seconds since 1970/1/1 and number of
91//! milliseconds, as for example returned by gettimeofday()
92//!
93//! @param tm
94//! seconds since 1970/1/1
95//!
96//! @param millisec
97//! number of milliseconds
98//
99Time::Time(const time_t &tm, const int &millisec)
100: ptime(fUnixOffset, time_duration(0, 0, tm, millisec))
101{
102}
103
104// --------------------------------------------------------------------------
105//
106//! Construct a Time from a date and time.
107//!
108//! @param year, month, day, hh, mm, ss, microsec
109//! A full date and time down to microsecond precision. From the end
110//! arguments can be omitted.
111//!
112Time::Time(short year, unsigned char month, unsigned char day,
113 unsigned char hh, unsigned char mm, unsigned char ss, unsigned int microsec)
114// Last argument is fractional_seconds ( correct with num_fractional_digits() )
115: ptime(boost::gregorian::date(year, month, day),
116 time_duration(hh, mm, ss, microsec*pow(10, time_of_day().num_fractional_digits()-6)))
117{
118}
119
120// --------------------------------------------------------------------------
121//
122//! Set the Time object to a given MJD. Note that this involves
123//! conversion from double. So converting forth and back many many
124//! times might results in drifts.
125//!
126//! @param mjd
127//! Modified Julian Date
128//!
129void Time::Mjd(double mjd)
130{
131 // Convert MJD to seconds since offset
132 mjd -= 40587;
133 mjd *= 24*60*60;
134
135 const int exp = time_of_day().num_fractional_digits();
136 const double frac = fmod(mjd, 1)*pow(10, exp);
137
138 *this = ptime(fUnixOffset, time_duration(0, 0, mjd, frac));
139}
140
141// --------------------------------------------------------------------------
142//
143//! @returns the seconds of the day including the fractional seconds.
144//!
145double Time::SecondsOfDay() const
146{
147 const time_duration tod = time_of_day();
148
149 const int exp = tod.num_fractional_digits();
150
151 const double frac = tod.fractional_seconds()/pow(10, exp);
152 const double sec = tod.total_seconds()+frac;
153
154 return sec;
155}
156
157// --------------------------------------------------------------------------
158//
159//! Get the current MJD. Note that this involves
160//! conversion to double. So converting forth and back many many
161//! times might results in drifts.
162//!
163//! @returns
164//! Modified Julian Date
165//!
166double Time::Mjd() const
167{
168 return date().modjulian_day()+SecondsOfDay()/(24*60*60);
169
170 /*
171 const time_duration mjd = *this - ptime(fUnixOffset);
172 const double sec = mjd.total_seconds()+mjd.fractional_seconds()/1e6;
173 return sec/(24*60*60)+40587;
174 */
175}
176
177// --------------------------------------------------------------------------
178//
179// @returns seconds since 1970/1/1
180//
181double Time::UnixTime() const
182{
183 return (date().modjulian_day()-40587)*24*60*60 + SecondsOfDay();
184}
185
186// --------------------------------------------------------------------------
187//
188// @returns seconds since 1970/1/1
189//
190time_t Time::Time_t() const
191{
192 return (date().modjulian_day()-40587)*24*60*60 + time_of_day().total_seconds();
193}
194
195// --------------------------------------------------------------------------
196//
197//! @returns the time in a format needed for root's TAxis
198//!
199double Time::RootTime() const
200{
201 return (date().modjulian_day()-49718)*24*60*60 + SecondsOfDay();
202}
203
204// --------------------------------------------------------------------------
205//
206//! Returns a string with the contents of the Time object formated
207//! as defined in format.
208//!
209//! @param format
210//! format description of the string to be returned. For details
211//! see the boost documentation or the man page of strftime
212//!
213//! @returns
214//! A string with the time formatted as requested. Note some special
215//! strings might be returned in case the time is invalid.
216//
217string Time::GetAsStr(const char *format) const
218{
219 stringstream out;
220 out << Time::fmt(format) << *this;
221 return out.str();
222}
223
224// --------------------------------------------------------------------------
225//
226//! Sets the time of the Time object to a time corresponding to
227//! the one given as argument. It is evaluated according to the given
228//! format.
229//!
230//! @param str
231//! The time as a string which should be converted to the Time object
232//!
233//! @param format
234//! format description of the string to be returned. For details
235//! see the boost documentation or the man page of strftime
236//!
237void Time::SetFromStr(const string &str, const char *format)
238{
239 // FIXME: exception handline
240 stringstream stream;
241 stream << str;
242 stream >> Time::fmt(format) >> *this;
243}
244
245int Time::NightAsInt() const
246{
247 const Time tm = *this - boost::posix_time::hours(12);
248 return tm.Y()*10000 + tm.M()*100 + tm.D();
249}
250
251// --------------------------------------------------------------------------
252//
253//! A stream manipulator which sets the streams Time output format
254//! as defined in the argument.
255//!
256//! @param format
257//! format description of the manipulator be returned. For details
258//! see the boost documentation or the man page of strftime
259//!
260//! @returns
261//! a stream manipulator for the given format
262//!
263const _time_format Time::fmt(const char *format)
264{
265 return format;
266}
267
268// --------------------------------------------------------------------------
269//
270//! Sets the locale discription of the stream (the way how a time is
271//! output) to the format defined by the given manipulator.
272//!
273//! Example:
274//! \code
275//! Time t();
276//! cout << Time::fmt("%Y:%m:%d %H:%M:%S.%f") << t << endl;
277//! \endcode
278//!
279//! @param out
280//! Reference to the stream
281//!
282//! @param f
283//! Time format described by a manipulator
284//!
285//! @returns
286//! A reference to the stream
287//!
288ostream &operator<<(ostream &out, const _time_format &f)
289{
290 const locale loc(locale::classic(),
291 f.ptr==0 ? 0 : new time_facet(f.ptr));
292
293 out.imbue(loc);
294
295 return out;
296}
297
298// --------------------------------------------------------------------------
299//
300//! Sets the locale discription of the stream (the way how a time is
301//! input) to the format defined by the given manipulator.
302//!
303//! Example:
304//! \code
305//! stringstream s;
306//! s << "09.09.1974 21:59";
307//!
308//! Time t;
309//! s >> Time::fmt("%d.%m.%Y %H:%M") >> t;
310//! \endcode
311//!
312//! @param in
313//! Reference to the stream
314//!
315//! @param f
316//! Time format described by a manipulator
317//!
318//! @returns
319//! A reference to the stream
320//!
321istream &operator>>(istream &in, const _time_format &f)
322{
323 const locale loc(locale::classic(),
324 f.ptr==0 ? 0 : new time_input_facet(f.ptr));
325
326 in.imbue(loc);
327
328 return in;
329}
330
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