Programming is inseparable from time, time management, strictly speaking divided into two pieces, one is the current moment, corresponding to a point, there is a period of time interval. This article simply talk about the time-related programming of go, relatively simple, the master can smile.
Golang time Support, is the package to do things, there are a lot of functions, I do not give an example of learning, after all, this is the official document to do. Our initial study of the commonly used functions.
The first is the Unix epoch time, which is exactly the number of seconds since 1970-01-01 00:00:00 GMT, and does not know how to get it, and can execute the date +%s under the shell.
One of the most important representations in Golang is time, which is basically three member variables sec, nsec,location, and the detailed meaning can be noted in the comments.
Type time struct { // sec gives the number of seconds elapsed since // january 1, year 1 00:00:00 utc. sec int64 // nsec specifies a non-negative nanosecond // offset within the second named by Seconds. // it must be in the range [0, 999999999]. Nsec int32 loc specifies the Location that should be used to // determine the minute, hour, month, day, and year // that correspond to this Time. // only the zero time has a nil location . // in that case it is interpreted to mean utc. loc *location }
OK, how to access the Unix epoch time.
Now: = time. Now ()
The now () function is very important to get the current time information by using the Today () function in the Times package, which is the starting point for all subsequent conversions. From now () we get to time, from the type we take calmly to the Unix epoch time, which naturally gets to year, month, Day,weekday, Hour,minute,second,nanosecond.
Get the Unix epoch time:
var epoch_seconds int64 = Now. Unix ()
Get Year
Func (T time) year () Intcur_year: = Now. Year ()
Get Month
Func (t time) Month () Monthcur_month: = Now. Month () if cur_month = = time. November {...}
Month is the int type, FMT. Printf ("%v") or FMT. Println can print out the November, and the month type has a string () function, which outputs "November" such as strings
Const (January Month = 1 + Iota February March April may June July August September October November December)
Year Mon day, which can all be returned in the DATE function:
Func (t time) Date () (year int, month month, day int) Year,mon,day = now. Date ()
Get Hour
Func (t time) Hour () int Cur_hour: = now. Hour ()
Minute can be returned by minute (), second can be returned by second ().
Time also provides the simultaneous return of clock () Hour,minute,second = Now. Clock ().
Package Mainimport "FMT" import "Time" Func main () {now: = time. Now () Year,mon,day: = Now. UTC (). Date () Hour,min,sec: = Now. UTC (). Clock () Zone,_: = Now. UTC (). Zone () fmt. Printf ("UTC time is%d-%d-%d%02d:%02d:%02d%s\n", year,mon,day,hour,min,sec,zone) Year,mon,day = Now. Date () Hour,min,sec = Now. Clock () Zone,_ = Now. Zone () fmt. Printf ("local time is%d-%d-%d%02d:%02d:%02d%s\n", Year,mon,day,hour,min,sec,zone)}
Go version output---------------------UTC time is 2013-11-22 15:51:22 utclocal time is 2013-11-22 23:51:22 CST
Another topic of concern to us is the time interval, for example, we profile a very time-consuming function, we will write down the time value before the function starts, after the function is finished, record the time value again, and then the difference between the two is the function run time.
This shows that time can be subtracted.
Start_time: = time. Now () Expensive_functionend_time: =time. Now () var duration duration = End_time. Sub (start_time)
Duration is a data type that is actually a int64 type, characterizing the number of nanoseconds between two moments.
Type Duration int64const (nanosecond Duration = 1 microsecond = $ * nanosecond millisecond = 1000 * Microsecond Second = $ * Millisecond Minute = $ * Second Hour = $ * Minute)
The duration type has minutes ()/second ()/nanoseconds (), which translates duration into minutes per second/nanosecond.
Now: = time. Now () time. Sleep (3*time. Second); End_time: = time. Now () var dur_time time. Duration = End_time. Sub (now) var elapsed_min float64 = Dur_time. Minutes () var elapsed_sec float64 = Dur_time. Seconds () var Elapsed_nano int64 = Dur_time. nanoseconds () fmt. Printf ("elasped%f minutes or \nelapsed%f seconds or \nelapsed%d nanoseconds\n", Elapsed_min,elapsed_sec, Elapsed_nano)
The output is as follows
elasped 0.050005 minutes or elapsed 3.000292 seconds or elapsed 3000292435 nanoseconds
The time.sleep in Go are in nanoseconds, of course the duration type:
Sleep 3 seconds can be written
Time. Sleep (3000000000)
Time. Sleep (3*time. Second);
package main import ( "FMT" "Time") const ( date = "2006-01-02" shortdate = "06-01-02" times = "15:04:02" shorttime = "15:04" datetime = "2006-01-02 15:04:02" newdatetime = "2006/01/02 15~04~02" newtime = "15~04~02") func main () { thisdate := " 2014-03-17 14:55:06 " timeformatdate, _ := time. Parse (datetime, thisdate) fmt. Println (timeformatdate) convdate := timeformatdate. Format (date)  &NBsp; convshortdate := timeformatdate. Format (shortdate) convtime := timeformatdate. Format (Times) convshorttime := timeformatdate. Format (Shorttime) convnewdatetime := timeformatdate. Format (Newdatetime) convnewtime := timeformatdate. Format (NewTime) fmt. Println (convdate) fmt. Println (convshortdate) fmt. Println (Convtime) fmt. Println (Convshorttime) fmt. Println (Convnewdatetime) fmt. Println (Convnewtime)}
Golang Time Programming