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diff --git a/roundup/date.py b/roundup/date.py
index d074064d07447fd6d3a349256d6a501bdcf8ca0b..8f60a725e7eddfb56e73bea99a234b59931f6eda 100644 (file)
--- a/roundup/date.py
+++ b/roundup/date.py
# BASIS, AND THERE IS NO OBLIGATION WHATSOEVER TO PROVIDE MAINTENANCE,
# SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
#
# BASIS, AND THERE IS NO OBLIGATION WHATSOEVER TO PROVIDE MAINTENANCE,
# SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
#
-# $Id: date.py,v 1.34 2002-10-10 08:24:37 richard Exp $
+# $Id: date.py,v 1.60 2004-02-11 23:55:08 richard Exp $
-__doc__ = """
-Date, time and time interval handling.
+"""Date, time and time interval handling.
"""
"""
+__docformat__ = 'restructuredtext'
-import time, re, calendar
+import time, re, calendar, types
from i18n import _
from i18n import _
+def _add_granularity(src, order, value = 1):
+ '''Increment first non-None value in src dictionary ordered by 'order'
+ parameter
+ '''
+ for gran in order:
+ if src[gran]:
+ src[gran] = int(src[gran]) + value
+ break
+
class Date:
'''
As strings, date-and-time stamps are specified with the date in
class Date:
'''
As strings, date-and-time stamps are specified with the date in
care of these conversions. In the following examples, suppose that yyyy
is the current year, mm is the current month, and dd is the current day
of the month; and suppose that the user is on Eastern Standard Time.
care of these conversions. In the following examples, suppose that yyyy
is the current year, mm is the current month, and dd is the current day
of the month; and suppose that the user is on Eastern Standard Time.
+ Examples::
"2000-04-17" means <Date 2000-04-17.00:00:00>
"01-25" means <Date yyyy-01-25.00:00:00>
"2000-04-17" means <Date 2000-04-17.00:00:00>
"01-25" means <Date yyyy-01-25.00:00:00>
"11-07.09:32:43" means <Date yyyy-11-07.14:32:43>
"14:25" means <Date yyyy-mm-dd.19:25:00>
"8:47:11" means <Date yyyy-mm-dd.13:47:11>
"11-07.09:32:43" means <Date yyyy-11-07.14:32:43>
"14:25" means <Date yyyy-mm-dd.19:25:00>
"8:47:11" means <Date yyyy-mm-dd.13:47:11>
+ "2003" means <Date 2003-01-01.00:00:00>
+ "2003-06" means <Date 2003-06-01.00:00:00>
"." means "right now"
The Date class should understand simple date expressions of the form
"." means "right now"
The Date class should understand simple date expressions of the form
separately. For example, when evaluating "2000-06-25 + 1m 10d", we
first add one month to get 2000-07-25, then add 10 days to get
2000-08-04 (rather than trying to decide whether 1m 10d means 38 or 40
separately. For example, when evaluating "2000-06-25 + 1m 10d", we
first add one month to get 2000-07-25, then add 10 days to get
2000-08-04 (rather than trying to decide whether 1m 10d means 38 or 40
- or 41 days).
+ or 41 days). Example usage::
- Example usage:
>>> Date(".")
<Date 2000-06-26.00:34:02>
>>> _.local(-5)
>>> Date(".")
<Date 2000-06-26.00:34:02>
>>> _.local(-5)
minute, second) is the serialisation format returned by the serialise()
method, and is accepted as an argument on instatiation.
'''
minute, second) is the serialisation format returned by the serialise()
method, and is accepted as an argument on instatiation.
'''
- def __init__(self, spec='.', offset=0):
+
+ def __init__(self, spec='.', offset=0, add_granularity=0):
"""Construct a date given a specification and a time zone offset.
"""Construct a date given a specification and a time zone offset.
- 'spec' is a full date or a partial form, with an optional
- added or subtracted interval. Or a date 9-tuple.
- 'offset' is the local time zone offset from GMT in hours.
+ 'spec'
+ is a full date or a partial form, with an optional added or
+ subtracted interval. Or a date 9-tuple.
+ 'offset'
+ is the local time zone offset from GMT in hours.
"""
if type(spec) == type(''):
"""
if type(spec) == type(''):
- self.set(spec, offset=offset)
+ self.set(spec, offset=offset, add_granularity=add_granularity)
else:
y,m,d,H,M,S,x,x,x = spec
ts = calendar.timegm((y,m,d,H+offset,M,S,0,0,0))
self.year, self.month, self.day, self.hour, self.minute, \
self.second, x, x, x = time.gmtime(ts)
else:
y,m,d,H,M,S,x,x,x = spec
ts = calendar.timegm((y,m,d,H+offset,M,S,0,0,0))
self.year, self.month, self.day, self.hour, self.minute, \
self.second, x, x, x = time.gmtime(ts)
+ usagespec='[yyyy]-[mm]-[dd].[H]H:MM[:SS][offset]'
+ def set(self, spec, offset=0, date_re=re.compile(r'''
+ ((?P<y>\d\d\d\d)([/-](?P<m>\d\d?)([/-](?P<d>\d\d?))?)? # yyyy[-mm[-dd]]
+ |(?P<a>\d\d?)[/-](?P<b>\d\d?))? # or mm-dd
+ (?P<n>\.)? # .
+ (((?P<H>\d?\d):(?P<M>\d\d))?(:(?P<S>\d\d))?)? # hh:mm:ss
+ (?P<o>.+)? # offset
+ ''', re.VERBOSE), serialised_re=re.compile(r'''
+ (\d{4})(\d\d)(\d\d)(\d\d)(\d\d)(\d\d)
+ ''', re.VERBOSE), add_granularity=0):
+ ''' set the date to the value in spec
+ '''
+
+ m = serialised_re.match(spec)
+ if m is not None:
+ # we're serialised - easy!
+ self.year, self.month, self.day, self.hour, self.minute, \
+ self.second = map(int, m.groups()[:6])
+ return
+
+ # not serialised data, try usual format
+ m = date_re.match(spec)
+ if m is None:
+ raise ValueError, _('Not a date spec: %s' % self.usagespec)
+
+ info = m.groupdict()
+
+ if add_granularity:
+ _add_granularity(info, 'SMHdmyab')
+
+ # get the current date as our default
+ y,m,d,H,M,S,x,x,x = time.gmtime(time.time())
+
+ if info['y'] is not None or info['a'] is not None:
+ if info['y'] is not None:
+ y = int(info['y'])
+ m,d = (1,1)
+ if info['m'] is not None:
+ m = int(info['m'])
+ if info['d'] is not None:
+ d = int(info['d'])
+ if info['a'] is not None:
+ m = int(info['a'])
+ d = int(info['b'])
+ H = -offset
+ M = S = 0
+
+ # override hour, minute, second parts
+ if info['H'] is not None and info['M'] is not None:
+ H = int(info['H']) - offset
+ M = int(info['M'])
+ S = 0
+ if info['S'] is not None: S = int(info['S'])
+
+ if add_granularity:
+ S = S - 1
+
+ # now handle the adjustment of hour
+ ts = calendar.timegm((y,m,d,H,M,S,0,0,0))
+ self.year, self.month, self.day, self.hour, self.minute, \
+ self.second, x, x, x = time.gmtime(ts)
+
+ if info.get('o', None):
+ try:
+ self.applyInterval(Interval(info['o'], allowdate=0))
+ except ValueError:
+ raise ValueError, _('Not a date spec: %s' % self.usagespec)
+
def addInterval(self, interval):
''' Add the interval to this date, returning the date tuple
'''
def addInterval(self, interval):
''' Add the interval to this date, returning the date tuple
'''
# now cope with under- and over-flow
# first do the time
while (second < 0 or second > 59 or minute < 0 or minute > 59 or
# now cope with under- and over-flow
# first do the time
while (second < 0 or second > 59 or minute < 0 or minute > 59 or
- hour < 0 or hour > 59):
+ hour < 0 or hour > 23):
if second < 0: minute -= 1; second += 60
elif second > 59: minute += 1; second -= 60
if minute < 0: hour -= 1; minute += 60
elif minute > 59: hour += 1; minute -= 60
if hour < 0: day -= 1; hour += 24
if second < 0: minute -= 1; second += 60
elif second > 59: minute += 1; second -= 60
if minute < 0: hour -= 1; minute += 60
elif minute > 59: hour += 1; minute -= 60
if hour < 0: day -= 1; hour += 24
- elif hour > 59: day += 1; hour -= 24
+ elif hour > 23: day += 1; hour -= 24
# fix up the month so we're within range
while month < 1 or month > 12:
# fix up the month so we're within range
while month < 1 or month > 12:
if month > 12: year += 1; month -= 12
# now do the days, now that we know what month we're in
if month > 12: year += 1; month -= 12
# now do the days, now that we know what month we're in
- mdays = calendar.mdays
- if month == 2 and calendar.isleap(year): month_days = 29
- else: month_days = mdays[month]
- while month < 1 or month > 12 or day < 0 or day > month_days:
+ def get_mdays(year, month):
+ if month == 2 and calendar.isleap(year): return 29
+ else: return calendar.mdays[month]
+
+ while month < 1 or month > 12 or day < 1 or day > get_mdays(year,month):
# now to day under/over
# now to day under/over
- if day < 0: month -= 1; day += month_days
- elif day > month_days: month += 1; day -= month_days
+ if day < 1:
+ # When going backwards, decrement month, then increment days
+ month -= 1
+ day += get_mdays(year,month)
+ elif day > get_mdays(year,month):
+ # When going forwards, decrement days, then increment month
+ day -= get_mdays(year,month)
+ month += 1
# possibly fix up the month so we're within range
while month < 1 or month > 12:
# possibly fix up the month so we're within range
while month < 1 or month > 12:
- if month < 1: year -= 1; month += 12
+ if month < 1: year -= 1; month += 12 ; day += 31
if month > 12: year += 1; month -= 12
if month > 12: year += 1; month -= 12
- # re-figure the number of days for this month
- if month == 2 and calendar.isleap(year): month_days = 29
- else: month_days = mdays[month]
return (year, month, day, hour, minute, second, 0, 0, 0)
return (year, month, day, hour, minute, second, 0, 0, 0)
+ def differenceDate(self, other):
+ "Return the difference between this date and another date"
+
def applyInterval(self, interval):
''' Apply the interval to this date
'''
def applyInterval(self, interval):
''' Apply the interval to this date
'''
assert isinstance(other, Date), 'May only subtract Dates or Intervals'
assert isinstance(other, Date), 'May only subtract Dates or Intervals'
- # TODO this code will fall over laughing if the dates cross
- # leap years, phases of the moon, ....
+ return self.dateDelta(other)
+
+ def dateDelta(self, other):
+ """ Produce an Interval of the difference between this date
+ and another date. Only returns days:hours:minutes:seconds.
+ """
+ # Returning intervals larger than a day is almost
+ # impossible - months, years, weeks, are all so imprecise.
a = calendar.timegm((self.year, self.month, self.day, self.hour,
self.minute, self.second, 0, 0, 0))
b = calendar.timegm((other.year, other.month, other.day,
other.hour, other.minute, other.second, 0, 0, 0))
diff = a - b
a = calendar.timegm((self.year, self.month, self.day, self.hour,
self.minute, self.second, 0, 0, 0))
b = calendar.timegm((other.year, other.month, other.day,
other.hour, other.minute, other.second, 0, 0, 0))
diff = a - b
- if diff < 0:
+ if diff > 0:
sign = 1
sign = 1
- diff = -diff
else:
sign = -1
else:
sign = -1
+ diff = -diff
S = diff%60
M = (diff/60)%60
S = diff%60
M = (diff/60)%60
- H = (diff/(60*60))%60
- if H>1: S = 0
- d = (diff/(24*60*60))%30
- if d>1: H = S = M = 0
- m = (diff/(30*24*60*60))%12
- if m>1: H = S = M = 0
- y = (diff/(365*24*60*60))
- if y>1: d = H = S = M = 0
- return Interval((y, m, d, H, M, S), sign=sign)
+ H = (diff/(60*60))%24
+ d = diff/(24*60*60)
+ return Interval((0, 0, d, H, M, S), sign=sign)
def __cmp__(self, other):
"""Compare this date to another date."""
def __cmp__(self, other):
"""Compare this date to another date."""
return '%4d-%02d-%02d.%02d:%02d:%02d'%(self.year, self.month, self.day,
self.hour, self.minute, self.second)
return '%4d-%02d-%02d.%02d:%02d:%02d'%(self.year, self.month, self.day,
self.hour, self.minute, self.second)
- def pretty(self):
+ def pretty(self, format='%d %B %Y'):
''' print up the date date using a pretty format...
''' print up the date date using a pretty format...
- '''
- str = time.strftime('%d %B %Y', (self.year, self.month,
- self.day, self.hour, self.minute, self.second, 0, 0, 0))
- if str[0] == '0': return ' ' + str[1:]
- return str
- def set(self, spec, offset=0, date_re=re.compile(r'''
- (((?P<y>\d\d\d\d)-)?((?P<m>\d\d?)-(?P<d>\d\d?))?)? # yyyy-mm-dd
- (?P<n>\.)? # .
- (((?P<H>\d?\d):(?P<M>\d\d))?(:(?P<S>\d\d))?)? # hh:mm:ss
- (?P<o>.+)? # offset
- ''', re.VERBOSE), serialised_re=re.compile(r'''
- (\d{4})(\d\d)(\d\d)(\d\d)(\d\d)(\d\d)
- ''', re.VERBOSE)):
- ''' set the date to the value in spec
+ Note that if the day is zero, and the day appears first in the
+ format, then the day number will be removed from output.
'''
'''
- m = serialised_re.match(spec)
- if m is not None:
- # we're serialised - easy!
- self.year, self.month, self.day, self.hour, self.minute, \
- self.second = map(int, m.groups()[:6])
- return
-
- # not serialised data, try usual format
- m = date_re.match(spec)
- if m is None:
- raise ValueError, _('Not a date spec: [[yyyy-]mm-dd].'
- '[[h]h:mm[:ss]][offset]')
-
- info = m.groupdict()
-
- # get the current date/time using the offset
- y,m,d,H,M,S,x,x,x = time.gmtime(time.time())
-
- # override year, month, day parts
- if info['m'] is not None and info['d'] is not None:
- m = int(info['m'])
- d = int(info['d'])
- if info['y'] is not None: y = int(info['y'])
- H = M = S = 0
-
- # override hour, minute, second parts
- if info['H'] is not None and info['M'] is not None:
- H = int(info['H']) - offset
- M = int(info['M'])
- S = 0
- if info['S'] is not None: S = int(info['S'])
-
- # now handle the adjustment of hour
- ts = calendar.timegm((y,m,d,H,M,S,0,0,0))
- self.year, self.month, self.day, self.hour, self.minute, \
- self.second, x, x, x = time.gmtime(ts)
-
- if info.get('o', None):
- self.applyInterval(Interval(info['o']))
+ str = time.strftime(format, (self.year, self.month, self.day,
+ self.hour, self.minute, self.second, 0, 0, 0))
+ # handle zero day by removing it
+ if format.startswith('%d') and str[0] == '0':
+ return ' ' + str[1:]
+ return str
def __repr__(self):
return '<Date %s>'%self.__str__()
def local(self, offset):
def __repr__(self):
return '<Date %s>'%self.__str__()
def local(self, offset):
- """Return this date as yyyy-mm-dd.hh:mm:ss in a local time zone."""
- t = (self.year, self.month, self.day, self.hour + offset, self.minute,
- self.second, 0, 0, 0)
- self.year, self.month, self.day, self.hour, self.minute, \
- self.second, x, x, x = time.gmtime(calendar.timegm(t))
+ """ Return this date as yyyy-mm-dd.hh:mm:ss in a local time zone.
+ """
+ return Date((self.year, self.month, self.day, self.hour + offset,
+ self.minute, self.second, 0, 0, 0))
def get_tuple(self):
return (self.year, self.month, self.day, self.hour, self.minute,
def get_tuple(self):
return (self.year, self.month, self.day, self.hour, self.minute,
return '%4d%02d%02d%02d%02d%02d'%(self.year, self.month,
self.day, self.hour, self.minute, self.second)
return '%4d%02d%02d%02d%02d%02d'%(self.year, self.month,
self.day, self.hour, self.minute, self.second)
+ def timestamp(self):
+ ''' return a UNIX timestamp for this date '''
+ return calendar.timegm((self.year, self.month, self.day, self.hour,
+ self.minute, self.second, 0, 0, 0))
+
class Interval:
'''
Date intervals are specified using the suffixes "y", "m", and "d". The
class Interval:
'''
Date intervals are specified using the suffixes "y", "m", and "d". The
Example usage:
>>> Interval(" 3w 1 d 2:00")
Example usage:
>>> Interval(" 3w 1 d 2:00")
- <Interval 22d 2:00>
+ <Interval + 22d 2:00>
>>> Date(". + 2d") + Interval("- 3w")
<Date 2000-06-07.00:34:02>
>>> Date(". + 2d") + Interval("- 3w")
<Date 2000-06-07.00:34:02>
-
- Intervals are added/subtracted in order of:
+ >>> Interval('1:59:59') + Interval('00:00:01')
+ <Interval + 2:00>
+ >>> Interval('2:00') + Interval('- 00:00:01')
+ <Interval + 1:59:59>
+ >>> Interval('1y')/2
+ <Interval + 6m>
+ >>> Interval('1:00')/2
+ <Interval + 0:30>
+ >>> Interval('2003-03-18')
+ <Interval + [number of days between now and 2003-03-18]>
+ >>> Interval('-4d 2003-03-18')
+ <Interval + [number of days between now and 2003-03-14]>
+
+ Interval arithmetic is handled in a couple of special ways, trying
+ to cater for the most common cases. Fundamentally, Intervals which
+ have both date and time parts will result in strange results in
+ arithmetic - because of the impossibility of handling day->month->year
+ over- and under-flows. Intervals may also be divided by some number.
+
+ Intervals are added to Dates in order of:
seconds, minutes, hours, years, months, days
seconds, minutes, hours, years, months, days
- Calculations involving monts (eg '+2m') have no effect on days - only
+ Calculations involving months (eg '+2m') have no effect on days - only
days (or over/underflow from hours/mins/secs) will do that, and
days-per-month and leap years are accounted for. Leap seconds are not.
days (or over/underflow from hours/mins/secs) will do that, and
days-per-month and leap years are accounted for. Leap seconds are not.
TODO: more examples, showing the order of addition operation
'''
TODO: more examples, showing the order of addition operation
'''
- def __init__(self, spec, sign=1):
+ def __init__(self, spec, sign=1, allowdate=1, add_granularity=0):
"""Construct an interval given a specification."""
if type(spec) == type(''):
"""Construct an interval given a specification."""
if type(spec) == type(''):
- self.set(spec)
+ self.set(spec, allowdate=allowdate, add_granularity=add_granularity)
else:
if len(spec) == 7:
self.sign, self.year, self.month, self.day, self.hour, \
else:
if len(spec) == 7:
self.sign, self.year, self.month, self.day, self.hour, \
self.year, self.month, self.day, self.hour, self.minute, \
self.second = spec
self.year, self.month, self.day, self.hour, self.minute, \
self.second = spec
- def __cmp__(self, other):
- """Compare this interval to another interval."""
- if other is None:
- return 1
- for attr in ('year', 'month', 'day', 'hour', 'minute', 'second'):
- if not hasattr(other, attr):
- return 1
- r = cmp(getattr(self, attr), getattr(other, attr))
- if r: return r
- return 0
-
- def __str__(self):
- """Return this interval as a string."""
- sign = {1:'+', -1:'-'}[self.sign]
- l = [sign]
- if self.year: l.append('%sy'%self.year)
- if self.month: l.append('%sm'%self.month)
- if self.day: l.append('%sd'%self.day)
- if self.second:
- l.append('%d:%02d:%02d'%(self.hour, self.minute, self.second))
- elif self.hour or self.minute:
- l.append('%d:%02d'%(self.hour, self.minute))
- return ' '.join(l)
-
- def set(self, spec, interval_re=re.compile('''
+ def set(self, spec, allowdate=1, interval_re=re.compile('''
\s*(?P<s>[-+])? # + or -
\s*((?P<y>\d+\s*)y)? # year
\s*((?P<m>\d+\s*)m)? # month
\s*((?P<w>\d+\s*)w)? # week
\s*((?P<d>\d+\s*)d)? # day
\s*(((?P<H>\d+):(?P<M>\d+))?(:(?P<S>\d+))?)? # time
\s*(?P<s>[-+])? # + or -
\s*((?P<y>\d+\s*)y)? # year
\s*((?P<m>\d+\s*)m)? # month
\s*((?P<w>\d+\s*)w)? # week
\s*((?P<d>\d+\s*)d)? # day
\s*(((?P<H>\d+):(?P<M>\d+))?(:(?P<S>\d+))?)? # time
- \s*''', re.VERBOSE), serialised_re=re.compile('''
+ \s*(?P<D>
+ (\d\d\d\d[/-])?(\d\d?)?[/-](\d\d?)? # [yyyy-]mm-dd
+ \.? # .
+ (\d?\d:\d\d)?(:\d\d)? # hh:mm:ss
+ )?''', re.VERBOSE), serialised_re=re.compile('''
(?P<s>[+-])?1?(?P<y>([ ]{3}\d|\d{4}))(?P<m>\d{2})(?P<d>\d{2})
(?P<s>[+-])?1?(?P<y>([ ]{3}\d|\d{4}))(?P<m>\d{2})(?P<d>\d{2})
- (?P<H>\d{2})(?P<M>\d{2})(?P<S>\d{2})''', re.VERBOSE)):
+ (?P<H>\d{2})(?P<M>\d{2})(?P<S>\d{2})''', re.VERBOSE),
+ add_granularity=0):
''' set the date to the value in spec
'''
self.year = self.month = self.week = self.day = self.hour = \
''' set the date to the value in spec
'''
self.year = self.month = self.week = self.day = self.hour = \
m = interval_re.match(spec)
if not m:
raise ValueError, _('Not an interval spec: [+-] [#y] [#m] [#w] '
m = interval_re.match(spec)
if not m:
raise ValueError, _('Not an interval spec: [+-] [#y] [#m] [#w] '
- '[#d] [[[H]H:MM]:SS]')
+ '[#d] [[[H]H:MM]:SS] [date spec]')
+ else:
+ allowdate = 0
+ # pull out all the info specified
info = m.groupdict()
info = m.groupdict()
+ if add_granularity:
+ _add_granularity(info, 'SMHdwmy', (info['s']=='-' and -1 or 1))
+
+ valid = 0
for group, attr in {'y':'year', 'm':'month', 'w':'week', 'd':'day',
'H':'hour', 'M':'minute', 'S':'second'}.items():
if info.get(group, None) is not None:
for group, attr in {'y':'year', 'm':'month', 'w':'week', 'd':'day',
'H':'hour', 'M':'minute', 'S':'second'}.items():
if info.get(group, None) is not None:
+ valid = 1
setattr(self, attr, int(info[group]))
setattr(self, attr, int(info[group]))
+ # make sure it's valid
+ if not valid and not info['D']:
+ raise ValueError, _('Not an interval spec: [+-] [#y] [#m] [#w] '
+ '[#d] [[[H]H:MM]:SS]')
+
if self.week:
self.day = self.day + self.week*7
if info['s'] is not None:
self.sign = {'+':1, '-':-1}[info['s']]
if self.week:
self.day = self.day + self.week*7
if info['s'] is not None:
self.sign = {'+':1, '-':-1}[info['s']]
+ # use a date spec if one is given
+ if allowdate and info['D'] is not None:
+ now = Date('.')
+ date = Date(info['D'])
+ # if no time part was specified, nuke it in the "now" date
+ if not date.hour or date.minute or date.second:
+ now.hour = now.minute = now.second = 0
+ if date != now:
+ y = now - (date + self)
+ self.__init__(y.get_tuple())
+
+ def __cmp__(self, other):
+ """Compare this interval to another interval."""
+ if other is None:
+ # we are always larger than None
+ return 1
+ for attr in 'sign year month day hour minute second'.split():
+ r = cmp(getattr(self, attr), getattr(other, attr))
+ if r:
+ return r
+ return 0
+
+ def __str__(self):
+ """Return this interval as a string."""
+ l = []
+ if self.year: l.append('%sy'%self.year)
+ if self.month: l.append('%sm'%self.month)
+ if self.day: l.append('%sd'%self.day)
+ if self.second:
+ l.append('%d:%02d:%02d'%(self.hour, self.minute, self.second))
+ elif self.hour or self.minute:
+ l.append('%d:%02d'%(self.hour, self.minute))
+ if l:
+ l.insert(0, {1:'+', -1:'-'}[self.sign])
+ return ' '.join(l)
+
+ def __add__(self, other):
+ if isinstance(other, Date):
+ # the other is a Date - produce a Date
+ return Date(other.addInterval(self))
+ elif isinstance(other, Interval):
+ # add the other Interval to this one
+ a = self.get_tuple()
+ as = a[0]
+ b = other.get_tuple()
+ bs = b[0]
+ i = [as*x + bs*y for x,y in zip(a[1:],b[1:])]
+ i.insert(0, 1)
+ i = fixTimeOverflow(i)
+ return Interval(i)
+ # nope, no idea what to do with this other...
+ raise TypeError, "Can't add %r"%other
+
+ def __sub__(self, other):
+ if isinstance(other, Date):
+ # the other is a Date - produce a Date
+ interval = Interval(self.get_tuple())
+ interval.sign *= -1
+ return Date(other.addInterval(interval))
+ elif isinstance(other, Interval):
+ # add the other Interval to this one
+ a = self.get_tuple()
+ as = a[0]
+ b = other.get_tuple()
+ bs = b[0]
+ i = [as*x - bs*y for x,y in zip(a[1:],b[1:])]
+ i.insert(0, 1)
+ i = fixTimeOverflow(i)
+ return Interval(i)
+ # nope, no idea what to do with this other...
+ raise TypeError, "Can't add %r"%other
+
+ def __div__(self, other):
+ """ Divide this interval by an int value.
+
+ Can't divide years and months sensibly in the _same_
+ calculation as days/time, so raise an error in that situation.
+ """
+ try:
+ other = float(other)
+ except TypeError:
+ raise ValueError, "Can only divide Intervals by numbers"
+
+ y, m, d, H, M, S = (self.year, self.month, self.day,
+ self.hour, self.minute, self.second)
+ if y or m:
+ if d or H or M or S:
+ raise ValueError, "Can't divide Interval with date and time"
+ months = self.year*12 + self.month
+ months *= self.sign
+
+ months = int(months/other)
+
+ sign = months<0 and -1 or 1
+ m = months%12
+ y = months / 12
+ return Interval((sign, y, m, 0, 0, 0, 0))
+
+ else:
+ # handle a day/time division
+ seconds = S + M*60 + H*60*60 + d*60*60*24
+ seconds *= self.sign
+
+ seconds = int(seconds/other)
+
+ sign = seconds<0 and -1 or 1
+ seconds *= sign
+ S = seconds%60
+ seconds /= 60
+ M = seconds%60
+ seconds /= 60
+ H = seconds%24
+ d = seconds / 24
+ return Interval((sign, 0, 0, d, H, M, S))
+
def __repr__(self):
return '<Interval %s>'%self.__str__()
def __repr__(self):
return '<Interval %s>'%self.__str__()
'''
if self.year:
if self.year == 1:
'''
if self.year:
if self.year == 1:
- return _('1 year')
+ s = _('1 year')
else:
else:
- return _('%(number)s years')%{'number': self.year}
+ s = _('%(number)s years')%{'number': self.year}
elif self.month or self.day > 13:
days = (self.month * 30) + self.day
if days > 28:
elif self.month or self.day > 13:
days = (self.month * 30) + self.day
if days > 28:
s = _('1/2 an hour')
else:
s = _('%(number)s/4 hour')%{'number': int(self.minute/15)}
s = _('1/2 an hour')
else:
s = _('%(number)s/4 hour')%{'number': int(self.minute/15)}
+ if self.sign < 0:
+ s = s + _(' ago')
+ else:
+ s = _('in ') + s
return s
def get_tuple(self):
return s
def get_tuple(self):
return '%s%04d%02d%02d%02d%02d%02d'%(sign, self.year, self.month,
self.day, self.hour, self.minute, self.second)
return '%s%04d%02d%02d%02d%02d%02d'%(sign, self.year, self.month,
self.day, self.hour, self.minute, self.second)
+def fixTimeOverflow(time):
+ """ Handle the overflow in the time portion (H, M, S) of "time":
+ (sign, y,m,d,H,M,S)
+
+ Overflow and underflow will at most affect the _days_ portion of
+ the date. We do not overflow days to months as we don't know _how_
+ to, generally.
+ """
+ # XXX we could conceivably use this function for handling regular dates
+ # XXX too - we just need to interrogate the month/year for the day
+ # XXX overflow...
+
+ sign, y, m, d, H, M, S = time
+ seconds = sign * (S + M*60 + H*60*60 + d*60*60*24)
+ if seconds:
+ sign = seconds<0 and -1 or 1
+ seconds *= sign
+ S = seconds%60
+ seconds /= 60
+ M = seconds%60
+ seconds /= 60
+ H = seconds%24
+ d = seconds / 24
+ else:
+ months = y*12 + m
+ sign = months<0 and -1 or 1
+ months *= sign
+ m = months%12
+ y = months/12
+
+ return (sign, y, m, d, H, M, S)
+
+class Range:
+ """Represents range between two values
+ Ranges can be created using one of theese two alternative syntaxes:
+
+ 1. Native english syntax::
+
+ [[From] <value>][ To <value>]
+
+ Keywords "From" and "To" are case insensitive. Keyword "From" is
+ optional.
+
+ 2. "Geek" syntax::
+
+ [<value>][; <value>]
+
+ Either first or second <value> can be omitted in both syntaxes.
+
+ Examples (consider local time is Sat Mar 8 22:07:48 EET 2003)::
+
+ >>> Range("from 2-12 to 4-2")
+ <Range from 2003-02-12.00:00:00 to 2003-04-02.00:00:00>
+
+ >>> Range("18:00 TO +2m")
+ <Range from 2003-03-08.18:00:00 to 2003-05-08.20:07:48>
+
+ >>> Range("12:00")
+ <Range from 2003-03-08.12:00:00 to None>
+
+ >>> Range("tO +3d")
+ <Range from None to 2003-03-11.20:07:48>
+
+ >>> Range("2002-11-10; 2002-12-12")
+ <Range from 2002-11-10.00:00:00 to 2002-12-12.00:00:00>
+
+ >>> Range("; 20:00 +1d")
+ <Range from None to 2003-03-09.20:00:00>
+
+ """
+ def __init__(self, spec, Type, allow_granularity=1, **params):
+ """Initializes Range of type <Type> from given <spec> string.
+
+ Sets two properties - from_value and to_value. None assigned to any of
+ this properties means "infinitum" (-infinitum to from_value and
+ +infinitum to to_value)
+
+ The Type parameter here should be class itself (e.g. Date), not a
+ class instance.
+
+ """
+ self.range_type = Type
+ re_range = r'(?:^|from(.+?))(?:to(.+?)$|$)'
+ re_geek_range = r'(?:^|(.+?));(?:(.+?)$|$)'
+ # Check which syntax to use
+ if spec.find(';') == -1:
+ # Native english
+ mch_range = re.search(re_range, spec.strip(), re.IGNORECASE)
+ else:
+ # Geek
+ mch_range = re.search(re_geek_range, spec.strip())
+ if mch_range:
+ self.from_value, self.to_value = mch_range.groups()
+ if self.from_value:
+ self.from_value = Type(self.from_value.strip(), **params)
+ if self.to_value:
+ self.to_value = Type(self.to_value.strip(), **params)
+ else:
+ if allow_granularity:
+ self.from_value = Type(spec, **params)
+ self.to_value = Type(spec, add_granularity=1, **params)
+ else:
+ raise ValueError, "Invalid range"
+
+ def __str__(self):
+ return "from %s to %s" % (self.from_value, self.to_value)
+
+ def __repr__(self):
+ return "<Range %s>" % self.__str__()
+
+def test_range():
+ rspecs = ("from 2-12 to 4-2", "from 18:00 TO +2m", "12:00;", "tO +3d",
+ "2002-11-10; 2002-12-12", "; 20:00 +1d", '2002-10-12')
+ rispecs = ('from -1w 2d 4:32 to 4d', '-2w 1d')
+ for rspec in rspecs:
+ print '>>> Range("%s")' % rspec
+ print `Range(rspec, Date)`
+ print
+ for rspec in rispecs:
+ print '>>> Range("%s")' % rspec
+ print `Range(rspec, Interval)`
+ print
def test():
intervals = (" 3w 1 d 2:00", " + 2d", "3w")
def test():
intervals = (" 3w 1 d 2:00", " + 2d", "3w")
print `Interval(interval)`
dates = (".", "2000-06-25.19:34:02", ". + 2d", "1997-04-17", "01-25",
print `Interval(interval)`
dates = (".", "2000-06-25.19:34:02", ". + 2d", "1997-04-17", "01-25",
- "08-13.22:13", "14:25")
+ "08-13.22:13", "14:25", '2002-12')
for date in dates:
print '>>> Date("%s")'%date
print `Date(date)`
for date in dates:
print '>>> Date("%s")'%date
print `Date(date)`