assert_same_wday ( 2014 , 1 , 1 )
assert_same_wday ( 2014 , 1 , 6 )
assert_same_wday ( 2016 , 2 , 28 )
+ assert_same_wday ( 2016 , 2 , 29 )
+ assert_same_wday ( 2016 , 3 , 1 )
end )
local function native_timestamp ( year , month , day )
end
end )
+ it ( "#normalise handles out of range days in a year" , function ( )
+ assert.same({ 2014,1,1,0,0,0 }, { timetable.normalise(2013,1,366,0,0,0) })
+ assert.same({ 2014,2,4,0,0,0 }, { timetable.normalise(2013,1,400,0,0,0) })
+ assert.same({ 2017,2,3,0,0,0 }, { timetable.normalise(2016,1,400,0,0,0) })
+ assert.same({ 2016,3,5,0,0,0 }, { timetable.normalise(2015,1,430,0,0,0) })
+ assert.same({ 2017,3,5,0,0,0 }, { timetable.normalise(2016,1,430,0,0,0) })
+ assert.same({ 2027,5,18,0,0,0 }, { timetable.normalise(2000,1,10000,0,0,0) })
+ assert.same({ 29379,1,25,0,0,0 }, { timetable.normalise(2000,1,10000000,0,0,0) })
+ end )
+
it ( "#normalise handles out of range days in a #month" , function ( )
- assert.same ( { timetable.normalise(2013,0,1,0,0,0) } , { 2012,12,1,0,0,0 } )
- assert.same ( { timetable.normalise(2013,42,1,0,0,0) } , { 2016,6,1,0,0,0 } )
+ assert.same({ 2012,12,1,0,0,0 }, { timetable.normalise(2013,0,1,0,0,0) })
+ assert.same({ 2016,6,1,0,0,0 }, { timetable.normalise(2013,42,1,0,0,0) })
-- Correct behaviour around leap days
- assert.same ( { timetable.normalise(2012,2,52,0,0,0) } , { 2012,3,23,0,0,0 } )
- assert.same ( { timetable.normalise(2013,2,52,0,0,0) } , { 2013,3,24,0,0,0 } )
+ assert.same({ 2012,3,23,0,0,0 }, { timetable.normalise(2012,2,52,0,0,0) })
+ assert.same({ 2013,3,24,0,0,0 }, { timetable.normalise(2013,2,52,0,0,0) })
- assert.same ( { timetable.normalise(2012,3,-2,0,0,0) } , { 2012,2,26,0,0,0 } )
- assert.same ( { timetable.normalise(2013,3,-2,0,0,0) } , { 2013,2,27,0,0,0 } )
+ assert.same({ 2012,2,26,0,0,0 }, { timetable.normalise(2012,3,-2,0,0,0) })
+ assert.same({ 2013,2,27,0,0,0 }, { timetable.normalise(2013,3,-2,0,0,0) })
-- Also when more fields are out of range
- assert.same ( { timetable.normalise(2013,42,52,0,0,0) } , { 2016,7,22,0,0,0 } )
- assert.same ( { timetable.normalise(2013,42,52,50,0,0) } , { 2016,7,24,2,0,0 } )
+ assert.same({ 2016,7,22,0,0,0 }, { timetable.normalise(2013,42,52,0,0,0) })
+ assert.same({ 2016,7,24,2,0,0 }, { timetable.normalise(2013,42,52,50,0,0) })
end )
+
+ it ( "#normalise handles fractional #month" , function ( )
+ assert.same({ 2015,2,15,0,0,0 } , { timetable.normalise(2014,14.5,1,0,0,0) })
+ assert.same({ 2016,2,15,12,0,0 } , { timetable.normalise(2015,14.5,1,0,0,0) }) -- leap year, so hours is 12
+ assert.same({ 2017,2,15,0,0,0 } , { timetable.normalise(2016,14.5,1,0,0,0) })
+ end )
+
+ local function round_trip_add(t, field, x)
+ local before = t:clone()
+ t[field]=t[field]+x;
+ t:normalise();
+ t[field]=t[field]-x;
+ t:normalise();
+ assert.same(0, t-before)
+ end
+ it ( "#normalise round trips" , function ( )
+ round_trip_add(timetable.new(2000,2,28,0,0,0), "month", 0.5)
+ round_trip_add(timetable.new(2014,8,28,19,23,0), "month", 0.4)
+ round_trip_add(timetable.new(2014,14.5,28,0,0,0), "month", 0.4)
+ end )
+
+ it("#rfc_3339 works with fractional milliseconds", function()
+ -- on lua 5.3 this used to throw an error due to milliseconds not being an integer
+ timetable.new_from_timestamp(1415141759.999911111):rfc_3339()
+ end)
+
+ it("#rfc_3339 doesn't round seconds up to 60 (issue #4)", function()
+ assert.same("2014-11-04T22:55:59.999", timetable.new_from_timestamp(1415141759.999911111):rfc_3339())
+ assert.same("1970-01-01T00:00:59.999", timetable.new_from_timestamp(59.9999999):rfc_3339())
+ assert.same("1969-12-31T23:59:59.999", timetable.new_from_timestamp(-0.001):rfc_3339())
+ assert.same("1969-12-31T23:59:00.000", timetable.new_from_timestamp(-59.9999999):rfc_3339())
+ end)
end )