| Index |
Attribute |
Values |
| 0 |
tm_year (year) |
For example, 2011 |
| 1 |
tm_mon (month) |
1 - 12 |
| 2 |
tm_mday(日) |
1 - 31 |
| 3 |
tm_hour(hour) |
0 - 23 |
| 4 |
tm_min (minutes) |
0 - 59 |
##5 | tm_sec (seconds) | 0 - 61 |
6 | tm_wday(weekday) | 0 - 6(0 means Sunday) |
7 | tm_yday (day of the year) | 1 - 366 |
8| | tm_isdst (whether it is daylight saving time) | The default is -1 |
Then we introduce several commonly used functions in the time module:
1) time.localtime([secs]): Convert a timestamp to the current struct_time for time zone. If the secs parameter is not provided, the current time shall prevail.
>>> time.localtime()
time.struct_time(tm_year=2011, tm_mon=5, tm_mday=5, tm_hour=14, tm_min=14, tm_sec=50, tm_wday= 3, tm_yday=125, tm_isdst=0)
>>> time.localtime(1304575584.1361799)
time.struct_time(tm_year=2011, tm_mon=5, tm_mday=5, tm_hour=14, tm_min= 6, tm_sec=24, tm_wday=3, tm_yday=125, tm_isdst=0)
2)time.gmtime([secs]): Similar to the localtime() method, the gmtime() method converts a timestamp to a struct_time in the UTC time zone (0 time zone).
>>>time.gmtime()
time.struct_time(tm_year=2011, tm_mon=5, tm_mday=5, tm_hour=6, tm_min=19, tm_sec=48, tm_wday=3, tm_yday=125, tm_isdst=0)
Note: tm_wday=3 here represents the day of the week, but it must be based on this return value Pushing it back one day means Thursday, not Wednesday.
3) time.time(): Returns the timestamp of the current time.
>>> time.time()
1304575584.1361799
4) time.mktime(t): Convert a struct_time into a timestamp.
>>> time.mktime(time.localtime())
1304576839.0
5)time.sleep( secs): The thread delays running for the specified time. The unit is seconds.
6) time.clock(): This needs to be noted, has different meanings on different systems. On UNIX systems, it returns the "process time", which is a floating point number (timestamp) expressed in seconds. In WINDOWS, the first call returns the actual time the process is running. The calls after the second time are the running time since the first call to the present. (It is actually based on QueryPerformanceCounter() on WIN32, which is more accurate than millisecond representation)
import time
if __name__ == '__main__':
time.sleep(1)
print "clock1:%s" % time.clock()
time.sleep(1)
print "clock2:%s" % time.clock()
time.sleep(1)
print "clock3:%s" % time.clock()
Copy after login
clock1:3.35238137808e-006 Run result:
clock2:1.00004944763
clock3:2.00012040636
The first clock() output is the program running Time
The second and third clock() outputs are the time intervals from the first clock
7) time.asctime([t]): Represent a tuple or struct_time representing time in this form: 'Sun Jun 20 23:21:05 1993'. If there are no parameters, time.localtime() will be passed in as a parameter.
>>> time.asctime()
'Thu May 5 14:55:43 2011'
8)time. ctime([secs]): Convert a timestamp (a floating point number calculated in seconds) into the form of time.asctime(). If the parameter is not given or is None, time.time() will be used as the parameter by default. Its function is equivalent to time.asctime(time.localtime(secs)).
>>> time.ctime()
'Thu May 5 14:58:09 2011'
>>> time.ctime(time.time())
'Thu May 5 14:58:39 2011'
>>> time.ctime(1304579615)
'Thu May 5 15:13:35 2011'
9) time.strftime(format[, t]): Put a tuple or struct_time representing time (such as time. localtime() and time.gmtime() return) into a formatted time string. If t is not specified, time.localtime() will be passed in. If any element in the tuple goes out of bounds, a ValueError will be thrown.
| Format |
Meaning |
Remarks |
| %a |
Locale Simplified week name |
|
##%A | Local full week name |
|
##%b
| Local simplified month name |
|
| ##%B
Local full month name |
|
| %c |
Local corresponding date and time representation |
|
| %d |
The number of days in a month (01 - 31) |
|
##%H | The number of days in a day hours (24-hour format, 00 - 23) |
|
##%I
| th hour (12-hour format, 01 - 12) |
|
| ##%j
Day of the year (001 - 366) |
|
| %m
Month (01 - 12) |
|
| %M |
Number of minutes (00 - 59) |
|
| %p |
The corresponding character of local am or pm |
一 |
| %S |
Seconds (01 - 61) |
二 |
| %U |
The number of weeks in the year. (Sunday 00 - 53 is the start of the week.) All days before the first Sunday are placed in week 0. |
三 |
| %w |
The day of the week (0 - 6, 0 is Sunday) |
三 |
| %W |
is basically the same as %U, except that %W starts the week on Monday. |
|
| %x |
Local corresponding date |
|
##%X | Local corresponding time |
|
%y | Remove the century year (00 - 99) |
|
%Y | Complete year |
|
##%Z
| The name of the time zone (null character if not present) |
|
|
%%
| '%' character |
|
|
Note:
"%p" is effective only when used in conjunction with "%I".
The document emphasizes that it is indeed 0 - 61, not 59, and leap year seconds account for two seconds (sweat one).
When using the strptime() function, %U and %W are calculated only when the number of weeks and days in the year are determined.
For example:
>>> time.strftime("%Y-%m-%d %X", time.localtime() )
'2011-05-05 16:37:06'
10)time.strptime(string[, format]): Convert a formatted time string into struct_time. In fact, it is the inverse operation of strftime().
>>> time.strptime('2011-05-05 16:37:06', '%Y-%m-%d %X')
time.struct_time(tm_year =2011, tm_mon=5, tm_mday=5, tm_hour=16, tm_min=37, tm_sec=6, tm_wday=3, tm_yday=125, tm_isdst=-1)
In this function, format defaults to :"%a %b %d %H:%M:%S %Y".
Finally, let’s make a summary of the time module. According to the previous description, there are three expression methods in Python: 1) timestamp 2) tuple or struct_time 3) formatted string.
The transformation between them is shown in the figure:
Related recommendations:
Detailed explanation of Python time
python time library
python time module
Time module analysis of Python time module
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