# frozen_string_literal: true require 'test/unit' require 'date' class TestDateNew < Test::Unit::TestCase def test_jd d = Date.jd dt = DateTime.jd assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d2 = Date.jd dt2 = DateTime.jd assert_equal(d, d2) assert_equal(dt, dt2) d = Date.jd(0) assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) d = DateTime.jd(0, 0,0,0, 0) assert_equal([-4712, 1, 1, 0, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.jd(0, 0,0,0, '+0900') assert_equal([-4712, 1, 1, 0, 0, 0, 9.to_r/24], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_jd__ex assert_raise(Date::Error) do DateTime.jd(0, 23,59,60,0) end end def test_valid_with_invalid_types o = Object.new assert_equal(false, Date.valid_jd?(o)) assert_equal(false, Date.valid_civil?(o, 1, 1)) assert_equal(false, Date.valid_civil?(1, o, 1)) assert_equal(false, Date.valid_civil?(1, 1, o)) assert_equal(false, Date.valid_ordinal?(o, 1)) assert_equal(false, Date.valid_ordinal?(1, o)) assert_equal(false, Date.valid_commercial?(o, 1, 1)) assert_equal(false, Date.valid_commercial?(1, o, 1)) assert_equal(false, Date.valid_commercial?(1, 1, o)) end def test_invalid_types o = Object.new assert_raise(TypeError) { Date.julian_leap?(o) } assert_raise(TypeError) { Date.gregorian_leap?(o) } assert_raise(TypeError) { Date.jd(o) } assert_raise(TypeError) { Date.new(o) } assert_raise(TypeError) { Date.new(1, o) } assert_raise(TypeError) { Date.new(1, 1, o) } assert_raise(TypeError) { Date.ordinal(o) } assert_raise(TypeError) { Date.ordinal(1, o) } assert_raise(TypeError) { Date.commercial(o) } assert_raise(TypeError) { Date.commercial(1, o) } assert_raise(TypeError) { Date.commercial(1, 1, o) } assert_raise(TypeError) { DateTime.jd(o) } assert_raise(TypeError) { DateTime.jd(1, o) } assert_raise(TypeError) { DateTime.jd(1, 1, o) } assert_raise(TypeError) { DateTime.jd(1, 1, 1, o) } assert_raise(TypeError) { DateTime.new(o) } assert_raise(TypeError) { DateTime.new(1, o) } assert_raise(TypeError) { DateTime.new(1, 1, o) } assert_raise(TypeError) { DateTime.new(1, 1, 1, o) } assert_raise(TypeError) { DateTime.new(1, 1, 1, 1, o) } assert_raise(TypeError) { DateTime.new(1, 1, 1, 1, 1, o) } assert_raise(TypeError) { DateTime.ordinal(o) } assert_raise(TypeError) { DateTime.ordinal(1, o) } assert_raise(TypeError) { DateTime.ordinal(1, 1, o) } assert_raise(TypeError) { DateTime.ordinal(1, 1, 1, o) } assert_raise(TypeError) { DateTime.ordinal(1, 1, 1, 1, o) } assert_raise(TypeError) { DateTime.commercial(o) } assert_raise(TypeError) { DateTime.commercial(1, o) } assert_raise(TypeError) { DateTime.commercial(1, 1, o) } assert_raise(TypeError) { DateTime.commercial(1, 1, 1, o) } assert_raise(TypeError) { DateTime.commercial(1, 1, 1, 1, o) } assert_raise(TypeError) { DateTime.commercial(1, 1, 1, 1, 1, o) } end def test_ordinal d = Date.ordinal dt = DateTime.ordinal assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d2 = Date.ordinal dt2 = DateTime.ordinal assert_equal(d, d2) assert_equal(dt, dt2) d = Date.ordinal(-4712,1) assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) d = Date.ordinal(-4712,1.0) assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) d = DateTime.ordinal(-4712,1, 0,0,0, 0) assert_equal([-4712, 1, 1, 0, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.ordinal(-4712,1, 0,0,0, '+0900') assert_equal([-4712, 1, 1, 0, 0, 0, 9.to_r/24], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_ordinal__neg d = Date.ordinal(-1,-1) assert_equal([-1, 365], [d.year, d.yday]) d = DateTime.ordinal(-1,-1, -1,-1,-1, 0) assert_equal([-1, 365, 23, 59, 59, 0], [d.year, d.yday, d.hour, d.min, d.sec, d.offset]) end def test_ordinal__ex assert_raise(Date::Error) do Date.ordinal(2001,366) end assert_raise(Date::Error) do DateTime.ordinal(2001,365, 23,59,60, 0) end end def test_civil d = Date.civil dt = DateTime.civil assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d2 = Date.civil dt2 = DateTime.civil assert_equal(d, d2) assert_equal(dt, dt2) d = Date.civil(-4712,1,1) assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) d = Date.civil(-4712,1,1.0) assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) d = DateTime.civil(-4712,1,1, 0,0,0, 0) assert_equal([-4712, 1, 1, 0, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.civil(-4712,1,1, 0,0,0, '+0900') assert_equal([-4712, 1, 1, 0, 0, 0, 9.to_r/24], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.civil(2001,2,3 + 1.to_r/2) assert_equal([2001, 2, 3, 12, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.civil(2001,2,3, 4 + 1.to_r/2) assert_equal([2001, 2, 3, 4, 30, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.civil(2001,2,3, 4,5 + 1.to_r/2) assert_equal([2001, 2, 3, 4, 5, 30, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.civil(2001,2,3, 4,5,6 + 1.to_r/2) assert_equal([2001, 2, 3, 4, 5, 6, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) assert_equal(1.to_r/2, d.sec_fraction) d = DateTime.civil(2001, 2) assert_equal([2001, 2, 1, 0, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_civil__neg d = Date.civil(-1,-1,-1) assert_equal([-1, 12, 31], [d.year, d.mon, d.mday]) d = DateTime.civil(-1,-1,-1, -1,-1,-1, 0) assert_equal([-1, 12, 31, 23, 59, 59, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_civil__ex assert_raise(Date::Error) do Date.civil(2001,2,29) end assert_raise(Date::Error) do DateTime.civil(2001,2,28, 23,59,60, 0) end assert_raise(Date::Error) do DateTime.civil(2001,2,28, 24,59,59, 0) end end def test_civil__reform d = Date.jd(Date::ENGLAND, Date::ENGLAND) dt = DateTime.jd(Date::ENGLAND, 0,0,0,0, Date::ENGLAND) assert_equal([1752, 9, 14], [d.year, d.mon, d.mday]) assert_equal([1752, 9, 14], [dt.year, dt.mon, dt.mday]) d -= 1 dt -= 1 assert_equal([1752, 9, 2], [d.year, d.mon, d.mday]) assert_equal([1752, 9, 2], [dt.year, dt.mon, dt.mday]) d = Date.jd(Date::ITALY, Date::ITALY) dt = DateTime.jd(Date::ITALY, 0,0,0,0, Date::ITALY) assert_equal([1582, 10, 15], [d.year, d.mon, d.mday]) assert_equal([1582, 10, 15], [dt.year, dt.mon, dt.mday]) d -= 1 dt -= 1 assert_equal([1582, 10, 4], [d.year, d.mon, d.mday]) assert_equal([1582, 10, 4], [dt.year, dt.mon, dt.mday]) end def test_commercial d = Date.commercial dt = DateTime.commercial assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d2 = Date.commercial dt2 = DateTime.commercial assert_equal(d, d2) assert_equal(dt, dt2) d = Date.commercial(1582,40,5) assert_equal([1582, 10, 15], [d.year, d.mon, d.mday]) d = Date.commercial(1582,40,5.0) assert_equal([1582, 10, 15], [d.year, d.mon, d.mday]) d = DateTime.commercial(1582,40,5, 0,0,0, 0) assert_equal([1582, 10, 15, 0, 0, 0, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) d = DateTime.commercial(1582,40,5, 0,0,0, '+0900') assert_equal([1582, 10, 15, 0, 0, 0, 9.to_r/24], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_commercial__neg d = Date.commercial(1998,-1,-1) assert_equal([1999, 1, 3], [d.year, d.mon, d.mday]) d = DateTime.commercial(1998,-1,-1, -1,-1,-1, 0) assert_equal([1999, 1, 3, 23, 59, 59, 0], [d.year, d.mon, d.mday, d.hour, d.min, d.sec, d.offset]) end def test_commercial__ex assert_raise(Date::Error) do Date.commercial(1997,53,1) end assert_raise(Date::Error) do DateTime.commercial(1997,52,1, 23,59,60, 0) end end def test_weeknum d = Date.weeknum dt = DateTime.weeknum assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d = Date.weeknum(2002,11,4, 0) assert_equal(2452355, d.jd) d = DateTime.weeknum(2002,11,4, 0, 11,22,33) assert_equal(2452355, d.jd) assert_equal([11,22,33], [d.hour, d.min, d.sec]) assert_raise(Date::Error) do Date.weeknum(1999,53,0, 0) end assert_raise(Date::Error) do Date.weeknum(1999,-53,-1, 0) end end if Date.respond_to?(:weeknum, true) def test_nth_kday d = Date.nth_kday dt = DateTime.nth_kday assert_equal([-4712, 1, 1], [d.year, d.mon, d.mday]) assert_equal([-4712, 1, 1], [dt.year, dt.mon, dt.mday]) assert_equal([0, 0, 0], [dt.hour, dt.min, dt.sec]) d = Date.nth_kday(1992,2, 5,6) assert_equal(2448682, d.jd) d = DateTime.nth_kday(1992,2, 5,6, 11,22,33) assert_equal(2448682, d.jd) assert_equal([11,22,33], [d.hour, d.min, d.sec]) assert_raise(Date::Error) do Date.nth_kday(2006,5, 5,0) end assert_raise(Date::Error) do Date.nth_kday(2006,5, -5,0) end end if Date.respond_to?(:nth_kday, true) def test_today z = Time.now d = Date.today t = Time.now t2 = Time.utc(t.year, t.mon, t.mday) t3 = Time.utc(d.year, d.mon, d.mday) assert_in_delta(t2, t3, t - z + 2) assert_equal(false, DateTime.respond_to?(:today)) end def test_now assert_equal(false, Date.respond_to?(:now)) z = Time.now d = DateTime.now t = Time.now t2 = Time.local(d.year, d.mon, d.mday, d.hour, d.min, d.sec) assert_in_delta(t, t2, t - z + 2) end def test_memsize require 'objspace' t = DateTime.now size = ObjectSpace.memsize_of(t) t.__send__(:initialize_copy, Date.today) assert_instance_of(DateTime, t) assert_equal(size, ObjectSpace.memsize_of(t), "not reallocated but memsize changed") end end