Mac/Contrib/strptime/strptime.py - platform/external/python/cpython2 - Gitiles

 """ strptime version 1.3, Time-stamp: <96/09/23 21:22:24 flognat>
                The reverse of strftime.

     Copyright (C) 1996 Andy Eskilsson, flognat@fukt.hk-r.se

     This is free software; unrestricted redistribution is allowed under the
     terms of the GPL.  For full details of the license conditions of this
     software, see the GNU General Public License.

     And here comes the documentation:

     Throw a string and a format specification at strptime and if everything
     is ok you will get a tuple containing 9 items that are compatible with
     pythons time-module.

     interface:
        strptime(inputstring, formatstring)

        Little errorchecking... so you'd better know what you are doing.

     example:
        from strptime import *
        mktime(strptime("26/6 1973", "%d/%m %Y"))

     And voila you have the second when the author of this function was born.

     The supported format identifiers are:
         %a weekday in short text-form, e.g. Mon
 	%A weekday in long text-form, e.g. Monday
 	%b month in short text-form, e.g. Jul
 	%B month in long text-form e.g. July
 	%c the format specified by DateAndTimeRepresentation
 	%d the day in month in numeric form, e.g. 24
 	%H hour in 24 hour form
 	%j julian day (day of year)
 	%m month in numeric format
 	%M minute
 	%S second
 	%T Time in '%H:%M:%S'-format
 	%w weekday, 0=monday
 	%x date in format represented by DateRepresentation
 	%X time in format represented by TimeRepresentation
 	%y year in short form
 	%Y year in long form
 	%% %-sign

     I have done some thinking here (*REALLY*) and it is possible to configure
     this module so it uses other languages by adding their names to the
     dictionaries first in the file, and setting the variable LANGUAGE.

     For your exercise I have inserted the swedish names ;-)

     The lfind, name, complex, numbers and parse functions are for internal
     use, called by strptime.

     Uh.. oh yeah.. if you want to get in touch with me.. I am reachable
     at flognat@fukt.hk-r.se, the newest version of this file can probably
     be found somewhere close to http://www.fukt.hk-r.se/~flognat

     If you like it, send a postcard to Andy Eskilsson
                                        Kämnärsv. 3b228
 				       S-226 46 Lund
 				       Sweden

     Uhm be gentle with the bug-reports, its the first time for me ;-)

     """

 import string

 LongDayNames={ 'English' : [ 'Monday', 'Tuesday', 'Wednesday',
 			     'Thursday', 'Friday', 'Saturday', 'Sunday'],
 	       'Swedish' : [ 'Måndag', 'Tisdag', 'Onsdag', 'Torsdag',
 			     'Fredag', 'Lördag', 'Söndag']}
 ShortDayNames={ 'English' : [ 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'],
 		'Swedish' : [ 'Mån', 'Tis', 'Ons', 'Tor', 'Fre', 'Lör', 'Sön']}

 LongMonthNames={ 'English' : ['none', 'January', 'February', 'March', 'April',
 			      'May', 'June', 'July', 'August', 'September',
 			      'October', 'November', 'December'],
 		 'Swedish' : ['none', 'Januari', 'Februari', 'Mars', 'April',
 			      'Maj', 'Juni', 'Juli', 'Augusti','September',
 			      'Oktober', 'November', 'December'] }
 ShortMonthNames={ 'English' : ['none', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
 			       'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
 		  'Swedish' : ['none', 'Jan', 'Feb', 'Mar', 'Apr', 'Maj', 'Jun',
 			       'Jul', 'Aug', 'Sep', 'Okt', 'Nov', 'Dec']}
 DateAndTimeRepresentation={ 'English' : '%a %b %d %H:%m:%S %Y',
 			    'Swedish' : '%a %d %b %Y %H:%m:%S' }

 DateRepresentation = { 'English' : '%m/%d/%y',
 		       'Swedish' : '%d/%m/%y'}

 TimeRepresentation = { 'English' : '%H:%M:%S',
 		       'Swedish' : '%H:%M:%S'}

 LANGUAGE='English'

 BadFormatter='An illegal formatter was given'

 #Check if strinf begins with substr
 def lfind(str, substr):
    return string.lower(str[:len(substr)])==string.lower(substr)

 #atoms consisting of other atoms
 def complex(str, format, base):
    code=format[:1]
    if code=='c':
       string=DateAndTimeRepresentation[LANGUAGE]
    elif code=='T':
       string='%H:%M:%S'
    elif code=='x':
       string=DateRepresentation[LANGUAGE]
    elif code=='X':
       string=TimeRepresentation[LANGUAGE]

    return parse(str, string, base)

 #string based names
 def names(str, format, base):
    code=format[:1]
    if code=='a':
       selection=ShortDayNames[LANGUAGE]
       result='weekd'
    elif code=='A':
       selection=LongDayNames[LANGUAGE]
       result='weekd'
    elif code=='b':
       selection=ShortMonthNames[LANGUAGE]
       result='month'
    elif code=='B':
       selection=LongMonthNames[LANGUAGE]
       result='month'

    match=None
    for i in selection:
       if lfind(str, i):
 	 match=i
 	 break

    base[result]=selection.index(match)
    return len(match)

 #numeric stuff
 def numeric(str, format, base):
    code=format[:1]
    if code=='d': result='day'
    elif code=='H': result='hour'
    elif code=='j': result='juliand'
    elif code=='m': result='month'
    elif code=='M': result='min'
    elif code=='S': result='sec'
    elif code=='w': result='weekd'
    elif code=='y': result='shortYear'
    elif code=='Y': result='year'

    i=0
    while str[i] in string.whitespace: i=i+1
    j=i
    if len(format)>1:
       while not str[j] in string.whitespace and str[j]!=format[1]: j=j+1
    else:
       try:
 	 while not str[j] in string.whitespace: j=j+1
       except IndexError:
 	 pass

    # hmm could check exception here, but what could I add?
    base[result]=string.atoi(str[i:j])

    return j

 parseFuns={ 'a':names, 'A':names, 'b':names, 'B':names, 'c':complex, 'd':numeric,
 	    'H':numeric, 'j':numeric, 'm':numeric, 'M':numeric, 'S':numeric,
 	    'T':complex, 'w':numeric, 'x':complex, 'y':numeric, 'Y':numeric}

 # Well split up in atoms, reason to why this is separated from atrptime
 # is to be able to reparse complex atoms
 def parse(str, format, base):
    atoms=string.split(format, '%')
    charCounter=0
    atomCounter=0

    # Hey I am laazy and think that the format is exactly what the string is!
    charCounter=charCounter+len(atoms[atomCounter])
    atomCounter=atomCounter+1

    while atomCounter < len(atoms) and charCounter < len(str):
       atom=atoms[atomCounter]

       if atom=='': # escaped
 	 charCounter=charCounter+1
 	 atomCounter=atomCounter+1
 	 charCounter=charCounter+len(atoms[atomCounter])
       else:
 	 try:
 	    parsefunction=parseFuns[atom[:1]]
 	 except KeyError:
 	    raise BadFormatter, atom[:1]
 	 grabbed=apply(parsefunction, (str[charCounter:], atom, base))
 	 charCounter=charCounter+grabbed+len(atom)-1

       atomCounter=atomCounter+1

    return charCounter

 # Ok here we go, tadaaa --> STRPTIME <-- at last..
 def strptime(str, format):
    """Converts str specified by format to tuple useable by the time module"""
    returnTime={}
    returnTime['year']=0
    returnTime['shortYear']=None
    returnTime['month']=0
    returnTime['day']=0
    returnTime['hour']=0
    returnTime['min']=0
    returnTime['sec']=0
    returnTime['weekd']=0
    returnTime['juliand']=0
    returnTime['dst']=0

    parse(str, format, returnTime)

    if returnTime['shortYear']!=None:
       returnTime['year']=returnTime['shortYear']+1900

    return (returnTime['year'], returnTime['month'], returnTime['day'],
 	   returnTime['hour'], returnTime['min'], returnTime['sec'],
 	   returnTime['weekd'], returnTime['juliand'], returnTime['dst'])

 # just for my convenience
 def strpdebug():
    import pdb
    pdb.run('strptime("% Tue 3 Feb", "%% %a %d %b")')

 def test():
    from time import *
    a=asctime(localtime(time()))
    print a
    b=strptime(a, '%a %b %d %H:%M:%S %Y')
    print asctime(b)
    print strptime("%% % Tue 3 Feb", "%%%% %% %a %d %b")
    print strptime('Thu, 12 Sep 1996 19:42:06 GMT', '%a, %d %b %Y %T GMT')
    print strptime('Thu, 12 Sep 1996 19:42:06 GMT', '%a, %d %b %Y %T')
    print strptime('Thu, 12 Sep 1996 19:42:06', '%a, %d %b %Y %T')

 if __name__ == '__main__':
    test()
	""" strptime version 1.3, Time-stamp: <96/09/23 21:22:24 flognat>
	The reverse of strftime.

	Copyright (C) 1996 Andy Eskilsson, flognat@fukt.hk-r.se

	This is free software; unrestricted redistribution is allowed under the
	terms of the GPL. For full details of the license conditions of this
	software, see the GNU General Public License.

	And here comes the documentation:

	Throw a string and a format specification at strptime and if everything
	is ok you will get a tuple containing 9 items that are compatible with
	pythons time-module.

	interface:
	strptime(inputstring, formatstring)

	Little errorchecking... so you'd better know what you are doing.

	example:
	from strptime import *
	mktime(strptime("26/6 1973", "%d/%m %Y"))

	And voila you have the second when the author of this function was born.

	The supported format identifiers are:
	%a weekday in short text-form, e.g. Mon
	%A weekday in long text-form, e.g. Monday
	%b month in short text-form, e.g. Jul
	%B month in long text-form e.g. July
	%c the format specified by DateAndTimeRepresentation
	%d the day in month in numeric form, e.g. 24
	%H hour in 24 hour form
	%j julian day (day of year)
	%m month in numeric format
	%M minute
	%S second
	%T Time in '%H:%M:%S'-format
	%w weekday, 0=monday
	%x date in format represented by DateRepresentation
	%X time in format represented by TimeRepresentation
	%y year in short form
	%Y year in long form
	%% %-sign

	I have done some thinking here (REALLY) and it is possible to configure
	this module so it uses other languages by adding their names to the
	dictionaries first in the file, and setting the variable LANGUAGE.

	For your exercise I have inserted the swedish names ;-)

	The lfind, name, complex, numbers and parse functions are for internal
	use, called by strptime.

	Uh.. oh yeah.. if you want to get in touch with me.. I am reachable
	at flognat@fukt.hk-r.se, the newest version of this file can probably
	be found somewhere close to http://www.fukt.hk-r.se/~flognat

	If you like it, send a postcard to Andy Eskilsson
	Kämnärsv. 3b228
	S-226 46 Lund
	Sweden

	Uhm be gentle with the bug-reports, its the first time for me ;-)

	"""

	import string

	LongDayNames={ 'English' : [ 'Monday', 'Tuesday', 'Wednesday',
	'Thursday', 'Friday', 'Saturday', 'Sunday'],
	'Swedish' : [ 'Måndag', 'Tisdag', 'Onsdag', 'Torsdag',
	'Fredag', 'Lördag', 'Söndag']}
	ShortDayNames={ 'English' : [ 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'],
	'Swedish' : [ 'Mån', 'Tis', 'Ons', 'Tor', 'Fre', 'Lör', 'Sön']}

	LongMonthNames={ 'English' : ['none', 'January', 'February', 'March', 'April',
	'May', 'June', 'July', 'August', 'September',
	'October', 'November', 'December'],
	'Swedish' : ['none', 'Januari', 'Februari', 'Mars', 'April',
	'Maj', 'Juni', 'Juli', 'Augusti','September',
	'Oktober', 'November', 'December'] }
	ShortMonthNames={ 'English' : ['none', 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
	'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
	'Swedish' : ['none', 'Jan', 'Feb', 'Mar', 'Apr', 'Maj', 'Jun',
	'Jul', 'Aug', 'Sep', 'Okt', 'Nov', 'Dec']}
	DateAndTimeRepresentation={ 'English' : '%a %b %d %H:%m:%S %Y',
	'Swedish' : '%a %d %b %Y %H:%m:%S' }

	DateRepresentation = { 'English' : '%m/%d/%y',
	'Swedish' : '%d/%m/%y'}

	TimeRepresentation = { 'English' : '%H:%M:%S',
	'Swedish' : '%H:%M:%S'}

	LANGUAGE='English'

	BadFormatter='An illegal formatter was given'

	#Check if strinf begins with substr
	def lfind(str, substr):
	return string.lower(str[:len(substr)])==string.lower(substr)

	#atoms consisting of other atoms
	def complex(str, format, base):
	code=format[:1]
	if code=='c':
	string=DateAndTimeRepresentation[LANGUAGE]
	elif code=='T':
	string='%H:%M:%S'
	elif code=='x':
	string=DateRepresentation[LANGUAGE]
	elif code=='X':
	string=TimeRepresentation[LANGUAGE]

	return parse(str, string, base)

	#string based names
	def names(str, format, base):
	code=format[:1]
	if code=='a':
	selection=ShortDayNames[LANGUAGE]
	result='weekd'
	elif code=='A':
	selection=LongDayNames[LANGUAGE]
	result='weekd'
	elif code=='b':
	selection=ShortMonthNames[LANGUAGE]
	result='month'
	elif code=='B':
	selection=LongMonthNames[LANGUAGE]
	result='month'

	match=None
	for i in selection:
	if lfind(str, i):
	match=i
	break

	base[result]=selection.index(match)
	return len(match)

	#numeric stuff
	def numeric(str, format, base):
	code=format[:1]
	if code=='d': result='day'
	elif code=='H': result='hour'
	elif code=='j': result='juliand'
	elif code=='m': result='month'
	elif code=='M': result='min'
	elif code=='S': result='sec'
	elif code=='w': result='weekd'
	elif code=='y': result='shortYear'
	elif code=='Y': result='year'

	i=0
	while str[i] in string.whitespace: i=i+1
	j=i
	if len(format)>1:
	while not str[j] in string.whitespace and str[j]!=format[1]: j=j+1
	else:
	try:
	while not str[j] in string.whitespace: j=j+1
	except IndexError:
	pass

	# hmm could check exception here, but what could I add?
	base[result]=string.atoi(str[i:j])

	return j

	parseFuns={ 'a':names, 'A':names, 'b':names, 'B':names, 'c':complex, 'd':numeric,
	'H':numeric, 'j':numeric, 'm':numeric, 'M':numeric, 'S':numeric,
	'T':complex, 'w':numeric, 'x':complex, 'y':numeric, 'Y':numeric}

	# Well split up in atoms, reason to why this is separated from atrptime
	# is to be able to reparse complex atoms
	def parse(str, format, base):
	atoms=string.split(format, '%')
	charCounter=0
	atomCounter=0

	# Hey I am laazy and think that the format is exactly what the string is!
	charCounter=charCounter+len(atoms[atomCounter])
	atomCounter=atomCounter+1

	while atomCounter < len(atoms) and charCounter < len(str):
	atom=atoms[atomCounter]

	if atom=='': # escaped
	charCounter=charCounter+1
	atomCounter=atomCounter+1
	charCounter=charCounter+len(atoms[atomCounter])
	else:
	try:
	parsefunction=parseFuns[atom[:1]]
	except KeyError:
	raise BadFormatter, atom[:1]
	grabbed=apply(parsefunction, (str[charCounter:], atom, base))
	charCounter=charCounter+grabbed+len(atom)-1

	atomCounter=atomCounter+1

	return charCounter

	# Ok here we go, tadaaa --> STRPTIME <-- at last..
	def strptime(str, format):
	"""Converts str specified by format to tuple useable by the time module"""
	returnTime={}
	returnTime['year']=0
	returnTime['shortYear']=None
	returnTime['month']=0
	returnTime['day']=0
	returnTime['hour']=0
	returnTime['min']=0
	returnTime['sec']=0
	returnTime['weekd']=0
	returnTime['juliand']=0
	returnTime['dst']=0

	parse(str, format, returnTime)

	if returnTime['shortYear']!=None:
	returnTime['year']=returnTime['shortYear']+1900

	return (returnTime['year'], returnTime['month'], returnTime['day'],
	returnTime['hour'], returnTime['min'], returnTime['sec'],
	returnTime['weekd'], returnTime['juliand'], returnTime['dst'])

	# just for my convenience
	def strpdebug():
	import pdb
	pdb.run('strptime("% Tue 3 Feb", "%% %a %d %b")')

	def test():
	from time import *
	a=asctime(localtime(time()))
	print a
	b=strptime(a, '%a %b %d %H:%M:%S %Y')
	print asctime(b)
	print strptime("%% % Tue 3 Feb", "%%%% %% %a %d %b")
	print strptime('Thu, 12 Sep 1996 19:42:06 GMT', '%a, %d %b %Y %T GMT')
	print strptime('Thu, 12 Sep 1996 19:42:06 GMT', '%a, %d %b %Y %T')
	print strptime('Thu, 12 Sep 1996 19:42:06', '%a, %d %b %Y %T')

	if __name__ == '__main__':
	test()