def test_clocks( self ):
az_tz = local_time.posix_time_zone("MST-07")
ny_tz = local_time.posix_time_zone("EST-05EDT,M4.1.0,M10.5.0")
print to_simple_string( posix_time.second_clock.local_time() )
print local_time.local_sec_clock.local_time(az_tz).to_string()
print local_time.local_sec_clock.local_time(ny_tz).to_string()
print to_simple_string( posix_time.microsec_clock.local_time() )
print local_time.local_microsec_clock.local_time(az_tz).to_string()
print local_time.local_microsec_clock.local_time(ny_tz).to_string()
def test_generators(self):
pd1 =gregorian.partial_date(1, date_time.Jan)
d = pd1.get_date(2000)
self.failUnless( pd1.to_string() == "0" )
self.failUnless( gregorian.date(2000,1,1) == d)
pd2 = gregorian.partial_date(1, date_time.Feb)
self.failUnless( pd1 == pd1)
self.failUnless( not(pd1 == pd2) )
self.failUnless( not(pd2 == pd1) )
self.failUnless( not(pd1 < pd1) )
self.failUnless( pd1 < pd2)
self.failUnless( not(pd2 < pd1) )
lastkday = gregorian.last_day_of_the_week_in_month
lsif = lastkday( date_time.Sunday, date_time.Feb)
self.failUnless( gregorian.date(2002, date_time.Feb,24)
== lsif.get_date(2002))
self.failUnless( lsif.to_string() == "M2.5.0" )
firstkday = gregorian.first_day_of_the_week_in_month
fsif = firstkday(date_time.Sunday, date_time.Feb)
self.failUnless( gregorian.date(2002, date_time.Feb,3)
== fsif.get_date(2002))
self.failUnless( fsif.to_string() == "M2.1.0" )
firstkdayafter = gregorian.first_day_of_the_week_after
fkaf = firstkdayafter(date_time.Monday)
self.failUnless( gregorian.date(2002, date_time.Feb,4)
== fkaf.get_date( gregorian.date(2002,date_time.Feb,1)))
self.failUnless( '2002-Feb-04' == to_simple_string( fkaf.get_date( gregorian.date(2002,date_time.Feb,1))))
firstkdaybefore = gregorian.first_day_of_the_week_before
fkbf = firstkdaybefore(date_time.Monday)
self.failUnless( '2002-Feb-11' == to_simple_string(fkaf.get_date(gregorian.date(2002,date_time.Feb,10))))
self.failUnless( gregorian.date(2002,date_time.Feb,4)
== fkbf.get_date(gregorian.date(2002,date_time.Feb,10)))
nthkdayofmonth = gregorian.nth_day_of_the_week_in_month;
nkd1 = nthkdayofmonth(nthkdayofmonth.third, date_time.Sunday, date_time.Jul)
self.failUnless( gregorian.date(1969, date_time.Jul, 20) == nkd1.get_date(1969))
self.failUnless( nkd1.to_string() == "M7.3.0" )
saturday = gregorian.date(2003,date_time.Feb,8)
sund = gregorian.greg_weekday(date_time.Sunday)
self.failUnless( gregorian.days_until_weekday(saturday, sund) == gregorian.days(1))
self.failUnless( gregorian.days_before_weekday(saturday, sund) == gregorian.days(6))
self.failUnless( gregorian.next_weekday(saturday, sund)== gregorian.date(2003,date_time.Feb,9))
self.failUnless( gregorian.previous_weekday(saturday, sund)== gregorian.date(2003,date_time.Feb,2))
def test_clock(self):
tl = posix_time.second_clock.local_time()
print to_simple_string(tl)
tu = posix_time.second_clock.universal_time()
print to_simple_string(tu)
tl = posix_time.microsec_clock.local_time()
print to_simple_string(tl)
tu = posix_time.microsec_clock.universal_time()
print to_simple_string(tu)
def test_clock(self):
tl = posix_time.second_clock.local_time()
print to_simple_string(tl)
tu = posix_time.second_clock.universal_time()
print to_simple_string(tu)
tl = posix_time.microsec_clock.local_time()
print to_simple_string(tl)
tu = posix_time.microsec_clock.universal_time()
print to_simple_string(tu)
import os
from pyboost import date_time
from pyboost.date_time import gregorian
from pyboost.date_time import posix_time
from pyboost.date_time import local_time
from pyboost.date_time import to_simple_string
#Date programming
weekstart = gregorian.date(2002, date_time.Feb, 1)
print 'weekstart: ', to_simple_string(weekstart)
weekend = weekstart + gregorian.weeks(1)
print 'weekend: ', to_simple_string(weekend)
today = gregorian.day_clock.local_day()
d2 = weekstart + gregorian.days(5)
if d2 >= today: #comparison operator
pass
thisWeek = gregorian.date_period(today, d2)
if thisWeek.contains(today):
pass
#date generator functions
d5 = gregorian.next_weekday(today, date_time.Sunday)
#calculate Sunday following d4
print 'd5: ', to_simple_string(d5)
#US labor day is first Monday in Sept
first = gregorian.nth_day_of_the_week_in_month.first
labor_day = gregorian.nth_day_of_the_week_in_month(first, date_time.Monday,
import os
from pyboost import date_time
from pyboost.date_time import gregorian
from pyboost.date_time import posix_time
from pyboost.date_time import local_time
from pyboost.date_time import to_simple_string
# Date programming
weekstart = gregorian.date(2002, date_time.Feb, 1)
print "weekstart: ", to_simple_string(weekstart)
weekend = weekstart + gregorian.weeks(1)
print "weekend: ", to_simple_string(weekend)
today = gregorian.day_clock.local_day()
d2 = weekstart + gregorian.days(5)
if d2 >= today: # comparison operator
pass
thisWeek = gregorian.date_period(today, d2)
if thisWeek.contains(today):
pass
# date generator functions
d5 = gregorian.next_weekday(today, date_time.Sunday)
# calculate Sunday following d4
print "d5: ", to_simple_string(d5)
# US labor day is first Monday in Sept
first = gregorian.nth_day_of_the_week_in_month.first
labor_day = gregorian.nth_day_of_the_week_in_month(first, date_time.Monday, date_time.Sep)
def test_duration( self ):
td0 = posix_time.time_duration()
self.failUnless( posix_time.time_duration().ticks() == 0)
td1 = posix_time.time_duration(1,25,0)
td3 = posix_time.time_duration(td1.hours(),td1.minutes(),td1.seconds())
self.failUnless( td1 == td3)
td1 = -td1
td3 = posix_time.time_duration(td1.hours(),td1.minutes(),td1.seconds())
self.failUnless( td1 == td3)
t_1 = posix_time.time_duration(0,1,40)
t_2 = posix_time.time_duration(0,1,41)
self.failUnless( not ( t_2 < t_2 ) )
self.failUnless( t_1 == t_1)
self.failUnless( t_1 >= t_1)
self.failUnless( t_2 >= t_1)
self.failUnless( t_2 <= t_2)
self.failUnless( t_2 > t_1)
self.failUnless( not (t_1 > t_2))
t_3 = posix_time.time_duration(0,1,41)
self.failUnless( t_2 == t_3)
t_4 = posix_time.time_duration(0,1,41)
self.failUnless( t_2 == t_4)
t_5 = posix_time.time_duration(1,30,20,10)
t_5 /= 2
self.failUnless( t_5.hours() == 0
and t_5.minutes() == 45
and t_5.seconds() == 10
and t_5.fractional_seconds() == 5)
t_5 = posix_time.time_duration(3,15,8,0) / 2
self.failUnless( t_5 == posix_time.time_duration(1,37,34,0) )
td = posix_time.hours( 5 )
td *= 5
self.failUnless( td == posix_time.time_duration( 25, 0,0,0 ) )
t_5 = t_2 + t_1
self.failUnless( t_5 == posix_time.time_duration(0,3,21) )
td_a = posix_time.time_duration(5,5,5,5)
td_b = posix_time.time_duration(4,4,4,4)
td_c = posix_time.time_duration(2,2,2,2)
td_a += td_b
self.failUnless( td_a == posix_time.time_duration(9,9,9,9) )
td_d = td_b - td_c
self.failUnless( td_d == posix_time.time_duration(2,2,2,2) )
td_d -= td_b
self.failUnless( td_d == td_c - td_b)
utd = posix_time.time_duration(1,2,3,4)
utd2 = -utd
self.failUnless( utd2.hours() == -1
and utd2.minutes() == -2
and utd2.seconds() == -3
and utd2.fractional_seconds() == -4 )
utd2 = -posix_time.hours(5)
self.failUnless( utd2.hours() == -5)
utd2 = -utd2
self.failUnless( utd2.hours() == 5)
t_6 = posix_time.time_duration(5,4,3)
self.failUnless( t_6.hours() == 5)
self.failUnless( t_6.minutes() == 4)
self.failUnless( t_6.seconds() == 3)
self.failUnless( t_6.total_seconds() == 18243)
tenhours = posix_time.hours(10)
fivemin = posix_time.minutes(5)
t7 = posix_time.time_duration(1,2,3) + tenhours + fivemin
self.failUnless( t7 == posix_time.time_duration(11,7,3))
t8 = tenhours + posix_time.time_duration(1,2,3) + fivemin
self.failUnless(t8 == posix_time.time_duration(11,7,3))
if posix_time.time_duration.resolution() >= date_time.micro:
t_9 = posix_time.time_duration(5,4,3,9876)
self.failUnless( t_9.hours() == 5)
self.failUnless( t_9.minutes() == 4)
self.failUnless( t_9.seconds() == 3)
self.failUnless( t_9.fractional_seconds() == 9876)
self.failUnless( t_9.total_seconds() == 18243)
if posix_time.time_duration.resolution() >= date_time.tenth:
t_10 = posix_time.time_duration(5,4,3,9)
self.failUnless( t_10.hours() == 5)
self.failUnless( t_10.minutes() == 4)
self.failUnless( t_10.seconds() == 3)
self.failUnless( t_10.fractional_seconds() == 9)
self.failUnless( t_10.total_seconds() == 18243)
if posix_time.time_duration.resolution() >= date_time.milli:
ms = posix_time.millisec(9)
if posix_time.time_duration.resolution() == date_time.nano:
self.failUnless( ms.fractional_seconds() == 9000000)
self.failUnless( ms.total_seconds() == 0)
self.failUnless( ms.total_milliseconds() == 9)
self.failUnless( posix_time.time_duration.ticks_per_second() == 1000000000)
else:
self.failUnless( ms.fractional_seconds() == 9000)
self.failUnless( ms.total_seconds() == 0)
self.failUnless( ms.total_milliseconds() == 9)
if hasattr( posix_time, 'nanoseconds' ):
if posix_time.time_duration.resolution() >= date_time.nano:
ns = posix_time.nanosec(9)
self.failUnless( ns.fractional_seconds() == 9)
self.failUnless( ns.total_nanoseconds() == 9)
self.failUnless( ns.total_microseconds() == 0)
ns18 = ns + ns
self.failUnless( ns18.fractional_seconds() == 18)
ns2 = posix_time.nanosec(1000000000)
self.failUnless( ns2 == seconds(1))
self.failUnless( ns2.total_seconds() == 1)
self.failUnless( (nanosec(3)/2) == nanosec(1))
self.failUnless( nanosec(3)*1000 == microsec(3))
t_11 = posix_time.time_duration(3600,0,0)
self.failUnless( t_11.hours() == 3600)
self.failUnless( t_11.total_seconds() == 12960000)
td_12 = posix_time.time_duration(1,2,3,10)
self.failUnless( td_12.total_seconds() == 3723)
self.failUnless( posix_time.hours(2)/2 == posix_time.hours(1))
self.failUnless( posix_time.hours(3)/2 == posix_time.minutes(90))
self.failUnless( posix_time.time_duration(3,0,0)*2 == posix_time.hours(6))
self.failUnless( posix_time.hours(3600)*1000 == posix_time.hours(3600000))
pi_dur = posix_time.time_duration(date_time.pos_infin)
ni_dur = posix_time.time_duration(date_time.neg_infin)
ndt_dur = posix_time.time_duration(date_time.not_a_date_time)
self.failUnless( pi_dur + ni_dur == ndt_dur)
self.failUnless( pi_dur / 3 == pi_dur)
self.failUnless( pi_dur + td_12 == pi_dur)
self.failUnless( pi_dur - td_12 == pi_dur)
self.failUnless( -pi_dur == ni_dur)
self.failUnless( ni_dur < pi_dur)
self.failUnless( ni_dur < td_12)
self.failUnless( pi_dur > td_12)
self.failUnless( to_simple_string(pi_dur)=="+infinity")
self.failUnless( to_simple_string(ni_dur)=="-infinity")
self.failUnless( to_simple_string(ndt_dur)=="not-a-date-time")
t1 = posix_time.ptime( gregorian.date(2001,7,14))
t2 = posix_time.ptime( gregorian.date(2002,7,14))
self.failUnless( 365*24 == (t2-t1).hours())
self.failUnless( 365*24*3600 == (t2-t1).total_seconds())
self.failUnless( posix_time.seconds(1).total_milliseconds() == 1000)
self.failUnless( posix_time.seconds(1).total_microseconds() == 1000000)
self.failUnless( posix_time.seconds(1).total_nanoseconds() == 1000000000)
self.failUnless( posix_time.hours(1).total_milliseconds() == 3600*1000)
tms = 3600*1000000*1001
self.failUnless( posix_time.hours(1001).total_microseconds() == tms)
tms = 3600*365*24*1000
self.failUnless( (t2-t1).total_milliseconds() == tms)
tms = 3600*365*24*1000000000
self.failUnless( (t2-t1).total_nanoseconds() == tms)
print posix_time.microseconds(25).ticks()/posix_time.time_duration.ticks_per_second()
def test_time(self):
td_pi = posix_time.time_duration(date_time.pos_infin)
td_ni = posix_time.time_duration(date_time.neg_infin)
td_ndt = posix_time.time_duration(date_time.not_a_date_time)
dd_pi = gregorian.date_duration(date_time.pos_infin)
dd_ni = gregorian.date_duration(date_time.neg_infin)
dd_ndt = gregorian.date_duration(date_time.not_a_date_time)
d_pi = gregorian.date(date_time.pos_infin)
d_ni = gregorian.date(date_time.neg_infin)
d_ndt = gregorian.date(date_time.not_a_date_time)
td = posix_time.time_duration(1,2,3,4)
dd = gregorian.date_duration(1234);
d = gregorian.date(2003, date_time.Oct,31)
self.failUnless( posix_time.ptime() == posix_time.ptime(date_time.not_a_date_time) )
s = "+infinity"
p_sv1 = posix_time.ptime(date_time.pos_infin);
self.failUnless( to_simple_string(p_sv1) == s )
result = p_sv1 + dd
self.failUnless( to_iso_string(result) == s )
self.failUnless( result.is_special() )
result = p_sv1 - dd
self.failUnless( to_iso_string(result) == s)
result = p_sv1 - dd_ni
self.failUnless( to_iso_string(result) == s)
p_sv2 = posix_time.ptime(date_time.neg_infin)
s = "-infinity"
self.failUnless( to_iso_string(p_sv2) == s)
result = p_sv2 - td_pi
self.failUnless( to_iso_string(result) == s )
p_sv3 = posix_time.ptime(date_time.not_a_date_time)
self.failUnless( p_sv3.is_special() )
s = "not-a-date-time";
self.failUnless( to_iso_string(p_sv3) == s)
result = p_sv3 + td
self.failUnless( to_iso_string(result) == s)
result = p_sv3 - td
self.failUnless( to_iso_string(result) == s)
result = p_sv2 + td_pi
self.failUnless( to_iso_string(result) == s)
result = p_sv1 + dd_ni
self.failUnless( to_iso_string(result) == s)
result = p_sv1 + dd_ndt
self.failUnless( to_iso_string(result) == s)
p_sv1 = posix_time.ptime(d_pi, td)
s = "+infinity"
self.failUnless( to_simple_string(p_sv1) == s)
p_sv2 = posix_time.ptime(d_ni, td)
s = "-infinity";
self.failUnless( to_iso_string(p_sv2) == s)
p_sv3 = posix_time.ptime(d_ndt, td)
s = "not-a-date-time";
self.failUnless( to_iso_string(p_sv3) == s)
p_sv1 = posix_time.ptime(d_ndt, td)
s = "not-a-date-time"
self.failUnless( to_simple_string(p_sv1) == s)
p_sv2 = posix_time.ptime(d, td_ndt)
self.failUnless( to_iso_string(p_sv2) == s)
p_sv3 = posix_time.ptime(d_pi, td_ni)
self.failUnless( to_iso_string(p_sv3) == s)
p_sv1 = posix_time.ptime(d, td_pi)
pt = posix_time.ptime(d,td)
s = "+infinity"
self.failUnless( to_simple_string(p_sv1) == s)
self.failUnless( to_simple_string(p_sv1.date()) == s)
p_sv2 = posix_time.ptime(d, td_ni)
s = "-infinity"
self.failUnless( to_iso_string(p_sv2) == s)
self.failUnless( to_simple_string(p_sv2.time_of_day()) == s)
p_sv3 = posix_time.ptime(d, td_ndt)
s = "not-a-date-time"
self.failUnless( to_iso_string(p_sv3) == s)
self.failUnless( to_simple_string(p_sv3.date()) == s)
self.failUnless( to_simple_string(p_sv3.time_of_day()) == s)
self.failUnless( p_sv2 < p_sv1)
self.failUnless( p_sv2 < pt)
self.failUnless( pt < p_sv1)
self.failUnless( p_sv2 <= p_sv2)
self.failUnless( p_sv2 <= pt)
self.failUnless( p_sv1 >= pt)
self.failUnless( p_sv1 != p_sv2)
self.failUnless( p_sv3 != p_sv2)
self.failUnless( pt != p_sv1)
self.failUnless( p_sv1.is_infinity() and p_sv1.is_pos_infinity())
self.failUnless( p_sv2.is_infinity() and p_sv2.is_neg_infinity())
self.failUnless( not p_sv3.is_infinity() and p_sv3.is_not_a_date_time())
self.failUnless( p_sv1 + dd == p_sv1)
self.failUnless( pt - dd_pi == p_sv2)
self.failUnless( pt - dd_ndt == p_sv3)
self.failUnless( p_sv2 + td == p_sv2)
self.failUnless( pt - td_ni == p_sv1)
self.failUnless( pt + td_ndt == p_sv3)
self.failUnless( pt - p_sv1 == td_ni)
self.failUnless( pt - p_sv2 == td_pi)
self.failUnless( pt - p_sv3 == td_ndt)
self.failUnless( p_sv2 - p_sv2 == td_ndt)
d = gregorian.date(2001, date_time.Dec,1)
td = posix_time.time_duration(5,4,3)
t1 = posix_time.ptime(d, td)
self.failUnless( t1.date() == d)
self.failUnless( t1.time_of_day() == td)
self.failUnless( posix_time.ptime( gregorian.date(2005,10,30), posix_time.hours(25))
== posix_time.ptime(gregorian.date(2005,10,31), posix_time.hours(1)))
t2 = posix_time.ptime(d, td)
t3 = posix_time.ptime(d, td)
self.failUnless( t3.date() == d)
self.failUnless( t3.time_of_day() == td)
self.failUnless( t1 == t3)
d2 = gregorian.date(2001,date_time.Jan,1)
t4 = posix_time.ptime(d2, td)
self.failUnless( not (t1 == t4))
td1 = posix_time.time_duration(5,4,0)
t5 = posix_time.ptime(d, td1)
self.failUnless( not (t1 == t5))
self.failUnless( t1 != t5);
self.failUnless( not (t1 < t1) )
self.failUnless( t4 < t1)
self.failUnless( t5 < t1)
self.failUnless( t1 <= t1)
self.failUnless( t1 >= t1)
twodays = gregorian.date_duration(2)
t6 = t1 + twodays
d3 = gregorian.date(2001,date_time.Dec,3)
self.failUnless( t6 == posix_time.ptime(d3,td) )
t7 = t1 - twodays
self.failUnless( t7 == posix_time.ptime(gregorian.date(2001,date_time.Nov,29),td) )
t6b = posix_time.ptime( gregorian.date(2003, date_time.Oct,31)
, posix_time.time_duration(10,0,0,0))
t6b += gregorian.date_duration(55)
self.failUnless( t6b == posix_time.ptime(gregorian.date(2003,date_time.Dec,25)
, posix_time.time_duration(10,0,0,0)))
t6b += posix_time.hours(6)
self.failUnless( t6b == posix_time.ptime(gregorian.date(2003,date_time.Dec,25)
, posix_time.time_duration(16,0,0,0)))
t6b -= gregorian.date_duration(55)
self.failUnless( t6b == posix_time.ptime(gregorian.date(2003,date_time.Oct,31)
, posix_time.time_duration(16,0,0,0)))
t6b -= posix_time.hours(6)
self.failUnless( t6b == posix_time.ptime(gregorian.date(2003,date_time.Oct,31)
, posix_time.time_duration(10,0,0,0)));
t6b += posix_time.hours(25);
self.failUnless( t6b ==
posix_time.ptime(gregorian.date(2003,date_time.Nov,1), posix_time.time_duration(11,0,0,0)));
t6b -= posix_time.hours(49);
self.failUnless( t6b == posix_time.ptime(gregorian.date(2003,date_time.Oct,30)
, posix_time.time_duration(10,0,0,0)));
td2 = posix_time.time_duration(1,2,3)
t8 = posix_time.ptime(gregorian.date(2001,date_time.Dec,1))
t9 = t8 + td2
t10 = posix_time.ptime(gregorian.date(2001,date_time.Dec,1)
,posix_time.time_duration(1,2,3))
self.failUnless( t9 == t10)
t9 = posix_time.ptime(gregorian.date(2001,date_time.Dec,1)
, posix_time.time_duration(12,0,0));
td3 = posix_time.time_duration(-4,0,0)
self.failUnless( t9 + td3
== posix_time.ptime(gregorian.date(2001,date_time.Dec,1)
, posix_time.time_duration(8,0,0)) )
td3 = posix_time.time_duration(24,0,0)
self.failUnless( t8+td3 == posix_time.ptime(gregorian.date(2001,date_time.Dec,2) ) )
td4 = posix_time.time_duration(24,0,1)
self.failUnless( t8+td4 == posix_time.ptime(gregorian.date(2001,date_time.Dec,2)
, posix_time.time_duration(0,0,1)));
td5 = posix_time.time_duration(168,0,1)
self.failUnless( t8+td5 == posix_time.ptime(gregorian.date(2001,date_time.Dec,8)
, posix_time.time_duration(0,0,1)))
t11 = posix_time.ptime(gregorian.date(2001,date_time.Dec,1)
, posix_time.time_duration(12,0,0))
td6 = posix_time.time_duration(12,0,1)
t12 = t11-td6
self.failUnless( t12 == posix_time.ptime(gregorian.date(2001,date_time.Nov,30)
, posix_time.time_duration(23,59,59)))
self.failUnless( t11-posix_time.time_duration(13,0,0)
== posix_time.ptime(gregorian.date(2001,date_time.Nov,30)
, posix_time.time_duration(23,0,0)))
self.failUnless( t11-posix_time.time_duration(-13,0,0)
== posix_time.ptime(gregorian.date(2001,date_time.Dec,2)
, posix_time.time_duration(1,0,0)))
t13 = posix_time.ptime(d, posix_time.hours(3))
t14 = posix_time.ptime(d, posix_time.hours(4))
t14a = posix_time.ptime(d+gregorian.date_duration(1), posix_time.hours(4))
self.failUnless( t14-t13 == posix_time.hours(1))
self.failUnless( t13 - t14 == posix_time.hours(-1))
self.failUnless( t14a-t14 == posix_time.hours(24))
t15 = posix_time.ptime(d, posix_time.time_duration(0,0,0,1))
t16 = posix_time.ptime(d, posix_time.time_duration(0,0,0,2))
self.failUnless( t15 + posix_time.time_duration.unit() == t16)
self.failUnless( t16 - posix_time.time_duration.unit() == t15)
self.failUnless( posix_time.ptime(date_time.min_date_time)
== posix_time.ptime(gregorian.date(1400,1,1)
, posix_time.time_duration(0,0,0,0)) )
self.failUnless( posix_time.ptime(date_time.max_date_time)
== posix_time.ptime(gregorian.date(9999,12,31)
, posix_time.hours(24)- posix_time.time_duration.unit()))
def test_generators(self):
pd1 = gregorian.partial_date(1, date_time.Jan)
d = pd1.get_date(2000)
self.failUnless(pd1.to_string() == "0")
self.failUnless(gregorian.date(2000, 1, 1) == d)
pd2 = gregorian.partial_date(1, date_time.Feb)
self.failUnless(pd1 == pd1)
self.failUnless(not (pd1 == pd2))
self.failUnless(not (pd2 == pd1))
self.failUnless(not (pd1 < pd1))
self.failUnless(pd1 < pd2)
self.failUnless(not (pd2 < pd1))
lastkday = gregorian.last_day_of_the_week_in_month
lsif = lastkday(date_time.Sunday, date_time.Feb)
self.failUnless(
gregorian.date(2002, date_time.Feb, 24) == lsif.get_date(2002))
self.failUnless(lsif.to_string() == "M2.5.0")
firstkday = gregorian.first_day_of_the_week_in_month
fsif = firstkday(date_time.Sunday, date_time.Feb)
self.failUnless(
gregorian.date(2002, date_time.Feb, 3) == fsif.get_date(2002))
self.failUnless(fsif.to_string() == "M2.1.0")
firstkdayafter = gregorian.first_day_of_the_week_after
fkaf = firstkdayafter(date_time.Monday)
self.failUnless(
gregorian.date(2002, date_time.Feb, 4) == fkaf.get_date(
gregorian.date(2002, date_time.Feb, 1)))
self.failUnless('2002-Feb-04' == to_simple_string(
fkaf.get_date(gregorian.date(2002, date_time.Feb, 1))))
firstkdaybefore = gregorian.first_day_of_the_week_before
fkbf = firstkdaybefore(date_time.Monday)
self.failUnless('2002-Feb-11' == to_simple_string(
fkaf.get_date(gregorian.date(2002, date_time.Feb, 10))))
self.failUnless(
gregorian.date(2002, date_time.Feb, 4) == fkbf.get_date(
gregorian.date(2002, date_time.Feb, 10)))
nthkdayofmonth = gregorian.nth_day_of_the_week_in_month
nkd1 = nthkdayofmonth(nthkdayofmonth.third, date_time.Sunday,
date_time.Jul)
self.failUnless(
gregorian.date(1969, date_time.Jul, 20) == nkd1.get_date(1969))
self.failUnless(nkd1.to_string() == "M7.3.0")
saturday = gregorian.date(2003, date_time.Feb, 8)
sund = gregorian.greg_weekday(date_time.Sunday)
self.failUnless(
gregorian.days_until_weekday(saturday, sund) == gregorian.days(1))
self.failUnless(
gregorian.days_before_weekday(saturday, sund) == gregorian.days(6))
self.failUnless(
gregorian.next_weekday(saturday, sund) == gregorian.date(
2003, date_time.Feb, 9))
self.failUnless(
gregorian.previous_weekday(saturday, sund) == gregorian.date(
2003, date_time.Feb, 2))
def test_duration(self):
td0 = posix_time.time_duration()
self.failUnless(posix_time.time_duration().ticks() == 0)
td1 = posix_time.time_duration(1, 25, 0)
td3 = posix_time.time_duration(td1.hours(), td1.minutes(),
td1.seconds())
self.failUnless(td1 == td3)
td1 = -td1
td3 = posix_time.time_duration(td1.hours(), td1.minutes(),
td1.seconds())
self.failUnless(td1 == td3)
t_1 = posix_time.time_duration(0, 1, 40)
t_2 = posix_time.time_duration(0, 1, 41)
self.failUnless(not (t_2 < t_2))
self.failUnless(t_1 == t_1)
self.failUnless(t_1 >= t_1)
self.failUnless(t_2 >= t_1)
self.failUnless(t_2 <= t_2)
self.failUnless(t_2 > t_1)
self.failUnless(not (t_1 > t_2))
t_3 = posix_time.time_duration(0, 1, 41)
self.failUnless(t_2 == t_3)
t_4 = posix_time.time_duration(0, 1, 41)
self.failUnless(t_2 == t_4)
t_5 = posix_time.time_duration(1, 30, 20, 10)
t_5 /= 2
self.failUnless(t_5.hours() == 0 and t_5.minutes() == 45
and t_5.seconds() == 10
and t_5.fractional_seconds() == 5)
t_5 = posix_time.time_duration(3, 15, 8, 0) / 2
self.failUnless(t_5 == posix_time.time_duration(1, 37, 34, 0))
td = posix_time.hours(5)
td *= 5
self.failUnless(td == posix_time.time_duration(25, 0, 0, 0))
t_5 = t_2 + t_1
self.failUnless(t_5 == posix_time.time_duration(0, 3, 21))
td_a = posix_time.time_duration(5, 5, 5, 5)
td_b = posix_time.time_duration(4, 4, 4, 4)
td_c = posix_time.time_duration(2, 2, 2, 2)
td_a += td_b
self.failUnless(td_a == posix_time.time_duration(9, 9, 9, 9))
td_d = td_b - td_c
self.failUnless(td_d == posix_time.time_duration(2, 2, 2, 2))
td_d -= td_b
self.failUnless(td_d == td_c - td_b)
utd = posix_time.time_duration(1, 2, 3, 4)
utd2 = -utd
self.failUnless(utd2.hours() == -1 and utd2.minutes() == -2
and utd2.seconds() == -3
and utd2.fractional_seconds() == -4)
utd2 = -posix_time.hours(5)
self.failUnless(utd2.hours() == -5)
utd2 = -utd2
self.failUnless(utd2.hours() == 5)
t_6 = posix_time.time_duration(5, 4, 3)
self.failUnless(t_6.hours() == 5)
self.failUnless(t_6.minutes() == 4)
self.failUnless(t_6.seconds() == 3)
self.failUnless(t_6.total_seconds() == 18243)
tenhours = posix_time.hours(10)
fivemin = posix_time.minutes(5)
t7 = posix_time.time_duration(1, 2, 3) + tenhours + fivemin
self.failUnless(t7 == posix_time.time_duration(11, 7, 3))
t8 = tenhours + posix_time.time_duration(1, 2, 3) + fivemin
self.failUnless(t8 == posix_time.time_duration(11, 7, 3))
if posix_time.time_duration.resolution() >= date_time.micro:
t_9 = posix_time.time_duration(5, 4, 3, 9876)
self.failUnless(t_9.hours() == 5)
self.failUnless(t_9.minutes() == 4)
self.failUnless(t_9.seconds() == 3)
self.failUnless(t_9.fractional_seconds() == 9876)
self.failUnless(t_9.total_seconds() == 18243)
if posix_time.time_duration.resolution() >= date_time.tenth:
t_10 = posix_time.time_duration(5, 4, 3, 9)
self.failUnless(t_10.hours() == 5)
self.failUnless(t_10.minutes() == 4)
self.failUnless(t_10.seconds() == 3)
self.failUnless(t_10.fractional_seconds() == 9)
self.failUnless(t_10.total_seconds() == 18243)
if posix_time.time_duration.resolution() >= date_time.milli:
ms = posix_time.millisec(9)
if posix_time.time_duration.resolution() == date_time.nano:
self.failUnless(ms.fractional_seconds() == 9000000)
self.failUnless(ms.total_seconds() == 0)
self.failUnless(ms.total_milliseconds() == 9)
self.failUnless(
posix_time.time_duration.ticks_per_second() == 1000000000)
else:
self.failUnless(ms.fractional_seconds() == 9000)
self.failUnless(ms.total_seconds() == 0)
self.failUnless(ms.total_milliseconds() == 9)
if hasattr(posix_time, 'nanoseconds'):
if posix_time.time_duration.resolution() >= date_time.nano:
ns = posix_time.nanosec(9)
self.failUnless(ns.fractional_seconds() == 9)
self.failUnless(ns.total_nanoseconds() == 9)
self.failUnless(ns.total_microseconds() == 0)
ns18 = ns + ns
self.failUnless(ns18.fractional_seconds() == 18)
ns2 = posix_time.nanosec(1000000000)
self.failUnless(ns2 == seconds(1))
self.failUnless(ns2.total_seconds() == 1)
self.failUnless((nanosec(3) / 2) == nanosec(1))
self.failUnless(nanosec(3) * 1000 == microsec(3))
t_11 = posix_time.time_duration(3600, 0, 0)
self.failUnless(t_11.hours() == 3600)
self.failUnless(t_11.total_seconds() == 12960000)
td_12 = posix_time.time_duration(1, 2, 3, 10)
self.failUnless(td_12.total_seconds() == 3723)
self.failUnless(posix_time.hours(2) / 2 == posix_time.hours(1))
self.failUnless(posix_time.hours(3) / 2 == posix_time.minutes(90))
self.failUnless(
posix_time.time_duration(3, 0, 0) * 2 == posix_time.hours(6))
self.failUnless(
posix_time.hours(3600) * 1000 == posix_time.hours(3600000))
pi_dur = posix_time.time_duration(date_time.pos_infin)
ni_dur = posix_time.time_duration(date_time.neg_infin)
ndt_dur = posix_time.time_duration(date_time.not_a_date_time)
self.failUnless(pi_dur + ni_dur == ndt_dur)
self.failUnless(pi_dur / 3 == pi_dur)
self.failUnless(pi_dur + td_12 == pi_dur)
self.failUnless(pi_dur - td_12 == pi_dur)
self.failUnless(-pi_dur == ni_dur)
self.failUnless(ni_dur < pi_dur)
self.failUnless(ni_dur < td_12)
self.failUnless(pi_dur > td_12)
self.failUnless(to_simple_string(pi_dur) == "+infinity")
self.failUnless(to_simple_string(ni_dur) == "-infinity")
self.failUnless(to_simple_string(ndt_dur) == "not-a-date-time")
t1 = posix_time.ptime(gregorian.date(2001, 7, 14))
t2 = posix_time.ptime(gregorian.date(2002, 7, 14))
self.failUnless(365 * 24 == (t2 - t1).hours())
self.failUnless(365 * 24 * 3600 == (t2 - t1).total_seconds())
self.failUnless(posix_time.seconds(1).total_milliseconds() == 1000)
self.failUnless(posix_time.seconds(1).total_microseconds() == 1000000)
self.failUnless(
posix_time.seconds(1).total_nanoseconds() == 1000000000)
self.failUnless(
posix_time.hours(1).total_milliseconds() == 3600 * 1000)
tms = 3600 * 1000000 * 1001
self.failUnless(posix_time.hours(1001).total_microseconds() == tms)
tms = 3600 * 365 * 24 * 1000
self.failUnless((t2 - t1).total_milliseconds() == tms)
tms = 3600 * 365 * 24 * 1000000000
self.failUnless((t2 - t1).total_nanoseconds() == tms)
print posix_time.microseconds(
25).ticks() / posix_time.time_duration.ticks_per_second()
def test_time(self):
td_pi = posix_time.time_duration(date_time.pos_infin)
td_ni = posix_time.time_duration(date_time.neg_infin)
td_ndt = posix_time.time_duration(date_time.not_a_date_time)
dd_pi = gregorian.date_duration(date_time.pos_infin)
dd_ni = gregorian.date_duration(date_time.neg_infin)
dd_ndt = gregorian.date_duration(date_time.not_a_date_time)
d_pi = gregorian.date(date_time.pos_infin)
d_ni = gregorian.date(date_time.neg_infin)
d_ndt = gregorian.date(date_time.not_a_date_time)
td = posix_time.time_duration(1, 2, 3, 4)
dd = gregorian.date_duration(1234)
d = gregorian.date(2003, date_time.Oct, 31)
self.failUnless(
posix_time.ptime() == posix_time.ptime(date_time.not_a_date_time))
s = "+infinity"
p_sv1 = posix_time.ptime(date_time.pos_infin)
self.failUnless(to_simple_string(p_sv1) == s)
result = p_sv1 + dd
self.failUnless(to_iso_string(result) == s)
self.failUnless(result.is_special())
result = p_sv1 - dd
self.failUnless(to_iso_string(result) == s)
result = p_sv1 - dd_ni
self.failUnless(to_iso_string(result) == s)
p_sv2 = posix_time.ptime(date_time.neg_infin)
s = "-infinity"
self.failUnless(to_iso_string(p_sv2) == s)
result = p_sv2 - td_pi
self.failUnless(to_iso_string(result) == s)
p_sv3 = posix_time.ptime(date_time.not_a_date_time)
self.failUnless(p_sv3.is_special())
s = "not-a-date-time"
self.failUnless(to_iso_string(p_sv3) == s)
result = p_sv3 + td
self.failUnless(to_iso_string(result) == s)
result = p_sv3 - td
self.failUnless(to_iso_string(result) == s)
result = p_sv2 + td_pi
self.failUnless(to_iso_string(result) == s)
result = p_sv1 + dd_ni
self.failUnless(to_iso_string(result) == s)
result = p_sv1 + dd_ndt
self.failUnless(to_iso_string(result) == s)
p_sv1 = posix_time.ptime(d_pi, td)
s = "+infinity"
self.failUnless(to_simple_string(p_sv1) == s)
p_sv2 = posix_time.ptime(d_ni, td)
s = "-infinity"
self.failUnless(to_iso_string(p_sv2) == s)
p_sv3 = posix_time.ptime(d_ndt, td)
s = "not-a-date-time"
self.failUnless(to_iso_string(p_sv3) == s)
p_sv1 = posix_time.ptime(d_ndt, td)
s = "not-a-date-time"
self.failUnless(to_simple_string(p_sv1) == s)
p_sv2 = posix_time.ptime(d, td_ndt)
self.failUnless(to_iso_string(p_sv2) == s)
p_sv3 = posix_time.ptime(d_pi, td_ni)
self.failUnless(to_iso_string(p_sv3) == s)
p_sv1 = posix_time.ptime(d, td_pi)
pt = posix_time.ptime(d, td)
s = "+infinity"
self.failUnless(to_simple_string(p_sv1) == s)
self.failUnless(to_simple_string(p_sv1.date()) == s)
p_sv2 = posix_time.ptime(d, td_ni)
s = "-infinity"
self.failUnless(to_iso_string(p_sv2) == s)
self.failUnless(to_simple_string(p_sv2.time_of_day()) == s)
p_sv3 = posix_time.ptime(d, td_ndt)
s = "not-a-date-time"
self.failUnless(to_iso_string(p_sv3) == s)
self.failUnless(to_simple_string(p_sv3.date()) == s)
self.failUnless(to_simple_string(p_sv3.time_of_day()) == s)
self.failUnless(p_sv2 < p_sv1)
self.failUnless(p_sv2 < pt)
self.failUnless(pt < p_sv1)
self.failUnless(p_sv2 <= p_sv2)
self.failUnless(p_sv2 <= pt)
self.failUnless(p_sv1 >= pt)
self.failUnless(p_sv1 != p_sv2)
self.failUnless(p_sv3 != p_sv2)
self.failUnless(pt != p_sv1)
self.failUnless(p_sv1.is_infinity() and p_sv1.is_pos_infinity())
self.failUnless(p_sv2.is_infinity() and p_sv2.is_neg_infinity())
self.failUnless(not p_sv3.is_infinity() and p_sv3.is_not_a_date_time())
self.failUnless(p_sv1 + dd == p_sv1)
self.failUnless(pt - dd_pi == p_sv2)
self.failUnless(pt - dd_ndt == p_sv3)
self.failUnless(p_sv2 + td == p_sv2)
self.failUnless(pt - td_ni == p_sv1)
self.failUnless(pt + td_ndt == p_sv3)
self.failUnless(pt - p_sv1 == td_ni)
self.failUnless(pt - p_sv2 == td_pi)
self.failUnless(pt - p_sv3 == td_ndt)
self.failUnless(p_sv2 - p_sv2 == td_ndt)
d = gregorian.date(2001, date_time.Dec, 1)
td = posix_time.time_duration(5, 4, 3)
t1 = posix_time.ptime(d, td)
self.failUnless(t1.date() == d)
self.failUnless(t1.time_of_day() == td)
self.failUnless(
posix_time.ptime(gregorian.date(2005, 10, 30), posix_time.hours(
25)) == posix_time.ptime(gregorian.date(2005, 10, 31),
posix_time.hours(1)))
t2 = posix_time.ptime(d, td)
t3 = posix_time.ptime(d, td)
self.failUnless(t3.date() == d)
self.failUnless(t3.time_of_day() == td)
self.failUnless(t1 == t3)
d2 = gregorian.date(2001, date_time.Jan, 1)
t4 = posix_time.ptime(d2, td)
self.failUnless(not (t1 == t4))
td1 = posix_time.time_duration(5, 4, 0)
t5 = posix_time.ptime(d, td1)
self.failUnless(not (t1 == t5))
self.failUnless(t1 != t5)
self.failUnless(not (t1 < t1))
self.failUnless(t4 < t1)
self.failUnless(t5 < t1)
self.failUnless(t1 <= t1)
self.failUnless(t1 >= t1)
twodays = gregorian.date_duration(2)
t6 = t1 + twodays
d3 = gregorian.date(2001, date_time.Dec, 3)
self.failUnless(t6 == posix_time.ptime(d3, td))
t7 = t1 - twodays
self.failUnless(t7 == posix_time.ptime(
gregorian.date(2001, date_time.Nov, 29), td))
t6b = posix_time.ptime(gregorian.date(2003, date_time.Oct, 31),
posix_time.time_duration(10, 0, 0, 0))
t6b += gregorian.date_duration(55)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Dec, 25),
posix_time.time_duration(10, 0, 0, 0)))
t6b += posix_time.hours(6)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Dec, 25),
posix_time.time_duration(16, 0, 0, 0)))
t6b -= gregorian.date_duration(55)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Oct, 31),
posix_time.time_duration(16, 0, 0, 0)))
t6b -= posix_time.hours(6)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Oct, 31),
posix_time.time_duration(10, 0, 0, 0)))
t6b += posix_time.hours(25)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Nov, 1),
posix_time.time_duration(11, 0, 0, 0)))
t6b -= posix_time.hours(49)
self.failUnless(
t6b == posix_time.ptime(gregorian.date(2003, date_time.Oct, 30),
posix_time.time_duration(10, 0, 0, 0)))
td2 = posix_time.time_duration(1, 2, 3)
t8 = posix_time.ptime(gregorian.date(2001, date_time.Dec, 1))
t9 = t8 + td2
t10 = posix_time.ptime(gregorian.date(2001, date_time.Dec, 1),
posix_time.time_duration(1, 2, 3))
self.failUnless(t9 == t10)
t9 = posix_time.ptime(gregorian.date(2001, date_time.Dec, 1),
posix_time.time_duration(12, 0, 0))
td3 = posix_time.time_duration(-4, 0, 0)
self.failUnless(
t9 +
td3 == posix_time.ptime(gregorian.date(2001, date_time.Dec, 1),
posix_time.time_duration(8, 0, 0)))
td3 = posix_time.time_duration(24, 0, 0)
self.failUnless(
t8 +
td3 == posix_time.ptime(gregorian.date(2001, date_time.Dec, 2)))
td4 = posix_time.time_duration(24, 0, 1)
self.failUnless(
t8 +
td4 == posix_time.ptime(gregorian.date(2001, date_time.Dec, 2),
posix_time.time_duration(0, 0, 1)))
td5 = posix_time.time_duration(168, 0, 1)
self.failUnless(
t8 +
td5 == posix_time.ptime(gregorian.date(2001, date_time.Dec, 8),
posix_time.time_duration(0, 0, 1)))
t11 = posix_time.ptime(gregorian.date(2001, date_time.Dec, 1),
posix_time.time_duration(12, 0, 0))
td6 = posix_time.time_duration(12, 0, 1)
t12 = t11 - td6
self.failUnless(
t12 == posix_time.ptime(gregorian.date(2001, date_time.Nov, 30),
posix_time.time_duration(23, 59, 59)))
self.failUnless(t11 -
posix_time.time_duration(13, 0, 0) == posix_time.ptime(
gregorian.date(2001, date_time.Nov, 30),
posix_time.time_duration(23, 0, 0)))
self.failUnless(
t11 - posix_time.time_duration(-13, 0, 0) == posix_time.ptime(
gregorian.date(2001, date_time.Dec, 2),
posix_time.time_duration(1, 0, 0)))
t13 = posix_time.ptime(d, posix_time.hours(3))
t14 = posix_time.ptime(d, posix_time.hours(4))
t14a = posix_time.ptime(d + gregorian.date_duration(1),
posix_time.hours(4))
self.failUnless(t14 - t13 == posix_time.hours(1))
self.failUnless(t13 - t14 == posix_time.hours(-1))
self.failUnless(t14a - t14 == posix_time.hours(24))
t15 = posix_time.ptime(d, posix_time.time_duration(0, 0, 0, 1))
t16 = posix_time.ptime(d, posix_time.time_duration(0, 0, 0, 2))
self.failUnless(t15 + posix_time.time_duration.unit() == t16)
self.failUnless(t16 - posix_time.time_duration.unit() == t15)
self.failUnless(
posix_time.ptime(date_time.min_date_time) == posix_time.ptime(
gregorian.date(1400, 1, 1), posix_time.time_duration(
0, 0, 0, 0)))
self.failUnless(
posix_time.ptime(date_time.max_date_time) == posix_time.ptime(
gregorian.date(9999, 12, 31),
posix_time.hours(24) - posix_time.time_duration.unit()))
