# frozen_string_literal: false require 'test/unit' require '-test-/time' class TestTimeTZ < Test::Unit::TestCase has_right_tz = true has_lisbon_tz = true force_tz_test = ENV["RUBY_FORCE_TIME_TZ_TEST"] == "yes" case RUBY_PLATFORM when /linux/ force_tz_test = true when /darwin|freebsd|openbsd/ has_lisbon_tz = false force_tz_test = true end if force_tz_test module Util def with_tz(tz) old = ENV["TZ"] begin ENV["TZ"] = tz yield ensure ENV["TZ"] = old end end end else module Util def with_tz(tz) if ENV["TZ"] == tz yield end end end end module Util def have_tz_offset?(tz) with_tz(tz) {!Time.now.utc_offset.zero?} end def format_gmtoff(gmtoff, colon=false) if gmtoff < 0 expected = "-" gmtoff = -gmtoff else expected = "+" end gmtoff /= 60 expected << "%02d" % [gmtoff / 60] expected << ":" if colon expected << "%02d" % [gmtoff % 60] expected end def format_gmtoff2(gmtoff) if gmtoff < 0 expected = "-" gmtoff = -gmtoff else expected = "+" end expected << "%02d:%02d:%02d" % [gmtoff / 3600, gmtoff % 3600 / 60, gmtoff % 60] expected end def group_by(e, &block) if e.respond_to? :group_by e.group_by(&block) else h = {} e.each {|o| (h[yield(o)] ||= []) << o } h end end end include Util extend Util has_right_tz &&= have_tz_offset?("right/America/Los_Angeles") has_lisbon_tz &&= have_tz_offset?("Europe/Lisbon") CORRECT_TOKYO_DST_1951 = with_tz("Asia/Tokyo") { if Time.local(1951, 5, 6, 12, 0, 0).dst? # noon, DST if Time.local(1951, 5, 6, 1, 0, 0).dst? # DST with fixed tzdata Time.local(1951, 9, 8, 23, 0, 0).dst? ? "2018f" : "2018e" end end } CORRECT_KIRITIMATI_SKIP_1994 = with_tz("Pacific/Kiritimati") { Time.local(1994, 12, 31, 0, 0, 0).year == 1995 } def time_to_s(t) t.to_s end def assert_time_constructor(tz, expected, method, args, message=nil) m = message ? "#{message}\n" : "" m << "TZ=#{tz} Time.#{method}(#{args.map {|arg| arg.inspect }.join(', ')})" real = time_to_s(Time.send(method, *args)) assert_equal(expected, real, m) end def test_localtime_zone t = with_tz("America/Los_Angeles") { Time.local(2000, 1, 1) } skip "force_tz_test is false on this environment" unless t z1 = t.zone z2 = with_tz(tz="Asia/Singapore") { t.localtime.zone } assert_equal(z2, z1) end def test_america_los_angeles with_tz(tz="America/Los_Angeles") { assert_time_constructor(tz, "2007-03-11 03:00:00 -0700", :local, [2007,3,11,2,0,0]) assert_time_constructor(tz, "2007-03-11 03:59:59 -0700", :local, [2007,3,11,2,59,59]) assert_equal("PST", Time.new(0x1_0000_0000_0000_0000, 1).zone) assert_equal("PDT", Time.new(0x1_0000_0000_0000_0000, 8).zone) assert_equal(false, Time.new(0x1_0000_0000_0000_0000, 1).isdst) assert_equal(true, Time.new(0x1_0000_0000_0000_0000, 8).isdst) } end def test_america_managua with_tz(tz="America/Managua") { assert_time_constructor(tz, "1993-01-01 01:00:00 -0500", :local, [1993,1,1,0,0,0]) assert_time_constructor(tz, "1993-01-01 01:59:59 -0500", :local, [1993,1,1,0,59,59]) } end def test_asia_singapore with_tz(tz="Asia/Singapore") { assert_time_constructor(tz, "1981-12-31 23:59:59 +0730", :local, [1981,12,31,23,59,59]) assert_time_constructor(tz, "1982-01-01 00:30:00 +0800", :local, [1982,1,1,0,0,0]) assert_time_constructor(tz, "1982-01-01 00:59:59 +0800", :local, [1982,1,1,0,29,59]) assert_time_constructor(tz, "1982-01-01 00:30:00 +0800", :local, [1982,1,1,0,30,0]) } end def test_asia_tokyo with_tz(tz="Asia/Tokyo") { h = CORRECT_TOKYO_DST_1951 ? 0 : 2 assert_time_constructor(tz, "1951-05-06 0#{h+1}:00:00 +1000", :local, [1951,5,6,h,0,0]) assert_time_constructor(tz, "1951-05-06 0#{h+1}:59:59 +1000", :local, [1951,5,6,h,59,59]) assert_time_constructor(tz, "2010-06-10 06:13:28 +0900", :local, [2010,6,10,6,13,28]) } end def test_canada_newfoundland with_tz(tz="America/St_Johns") { assert_time_constructor(tz, "2007-11-03 23:00:59 -0230", :new, [2007,11,3,23,0,59,:dst]) assert_time_constructor(tz, "2007-11-03 23:01:00 -0230", :new, [2007,11,3,23,1,0,:dst]) assert_time_constructor(tz, "2007-11-03 23:59:59 -0230", :new, [2007,11,3,23,59,59,:dst]) assert_time_constructor(tz, "2007-11-04 00:00:00 -0230", :new, [2007,11,4,0,0,0,:dst]) assert_time_constructor(tz, "2007-11-04 00:00:59 -0230", :new, [2007,11,4,0,0,59,:dst]) assert_time_constructor(tz, "2007-11-03 23:01:00 -0330", :new, [2007,11,3,23,1,0,:std]) assert_time_constructor(tz, "2007-11-03 23:59:59 -0330", :new, [2007,11,3,23,59,59,:std]) assert_time_constructor(tz, "2007-11-04 00:00:59 -0330", :new, [2007,11,4,0,0,59,:std]) assert_time_constructor(tz, "2007-11-04 00:01:00 -0330", :new, [2007,11,4,0,1,0,:std]) } end def test_europe_brussels with_tz(tz="Europe/Brussels") { assert_time_constructor(tz, "1916-04-30 23:59:59 +0100", :local, [1916,4,30,23,59,59]) assert_time_constructor(tz, "1916-05-01 01:00:00 +0200", :local, [1916,5,1], "[ruby-core:30672] [Bug #3411]") assert_time_constructor(tz, "1916-05-01 01:59:59 +0200", :local, [1916,5,1,0,59,59]) assert_time_constructor(tz, "1916-05-01 01:00:00 +0200", :local, [1916,5,1,1,0,0]) assert_time_constructor(tz, "1916-05-01 01:59:59 +0200", :local, [1916,5,1,1,59,59]) } end def test_europe_berlin with_tz(tz="Europe/Berlin") { assert_time_constructor(tz, "2011-10-30 02:00:00 +0100", :local, [2011,10,30,2,0,0], "[ruby-core:67345] [Bug #10698]") assert_time_constructor(tz, "2011-10-30 02:00:00 +0100", :local, [0,0,2,30,10,2011,nil,nil,false,nil]) assert_time_constructor(tz, "2011-10-30 02:00:00 +0200", :local, [0,0,2,30,10,2011,nil,nil,true,nil]) } end def test_europe_lisbon with_tz("Europe/Lisbon") { assert_equal("LMT", Time.new(-0x1_0000_0000_0000_0000).zone) } end if has_lisbon_tz def test_pacific_kiritimati with_tz(tz="Pacific/Kiritimati") { assert_time_constructor(tz, "1994-12-30 00:00:00 -1000", :local, [1994,12,30,0,0,0]) assert_time_constructor(tz, "1994-12-30 23:59:59 -1000", :local, [1994,12,30,23,59,59]) if CORRECT_KIRITIMATI_SKIP_1994 assert_time_constructor(tz, "1995-01-01 00:00:00 +1400", :local, [1994,12,31,0,0,0]) assert_time_constructor(tz, "1995-01-01 23:59:59 +1400", :local, [1994,12,31,23,59,59]) assert_time_constructor(tz, "1995-01-01 00:00:00 +1400", :local, [1995,1,1,0,0,0]) else assert_time_constructor(tz, "1994-12-31 23:59:59 -1000", :local, [1994,12,31,23,59,59]) assert_time_constructor(tz, "1995-01-02 00:00:00 +1400", :local, [1995,1,1,0,0,0]) assert_time_constructor(tz, "1995-01-02 23:59:59 +1400", :local, [1995,1,1,23,59,59]) end assert_time_constructor(tz, "1995-01-02 00:00:00 +1400", :local, [1995,1,2,0,0,0]) } end def test_right_utc with_tz(tz="right/UTC") { ::Bug::Time.reset_leap_second_info assert_time_constructor(tz, "2008-12-31 23:59:59 UTC", :utc, [2008,12,31,23,59,59]) assert_time_constructor(tz, "2008-12-31 23:59:60 UTC", :utc, [2008,12,31,23,59,60]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2008,12,31,24,0,0]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2009,1,1,0,0,0]) } end if has_right_tz def test_right_utc_switching with_tz("UTC") { # ensure no leap second timezone ::Bug::Time.reset_leap_second_info assert_equal(4102444800, Time.utc(2100,1,1,0,0,0).to_i) with_tz(tz="right/UTC") { assert_time_constructor(tz, "2008-12-31 23:59:59 UTC", :utc, [2008,12,31,23,59,59]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2008,12,31,23,59,60]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2008,12,31,24,0,0]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2009,1,1,0,0,0]) assert_equal(4102444800, Time.utc(2100,1,1,0,0,0).to_i) } } with_tz("right/UTC") { ::Bug::Time.reset_leap_second_info assert_not_equal(4102444800, Time.utc(2100,1,1,0,0,0).to_i) with_tz(tz="UTC") { assert_time_constructor(tz, "2008-12-31 23:59:59 UTC", :utc, [2008,12,31,23,59,59]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2008,12,31,23,59,60]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2008,12,31,24,0,0]) assert_time_constructor(tz, "2009-01-01 00:00:00 UTC", :utc, [2009,1,1,0,0,0]) assert_not_equal(4102444800, Time.utc(2100,1,1,0,0,0).to_i) } } end if has_right_tz def test_right_america_los_angeles with_tz(tz="right/America/Los_Angeles") { assert_time_constructor(tz, "2008-12-31 15:59:59 -0800", :local, [2008,12,31,15,59,59]) assert_time_constructor(tz, "2008-12-31 15:59:60 -0800", :local, [2008,12,31,15,59,60]) assert_time_constructor(tz, "2008-12-31 16:00:00 -0800", :local, [2008,12,31,16,0,0]) } end if has_right_tz def test_utc_names assert_predicate(Time.new(2019, 1, 1, 0, 0, 0, "UTC"), :utc?) assert_predicate(Time.new(2019, 1, 1, 0, 0, 0, "utc"), :utc?) assert_predicate(Time.new(2019, 1, 1, 0, 0, 0, "Z"), :utc?) end def test_military_names assert_equal( +1*3600, Time.new(2019, 1, 1, 0, 0, 0, "A").gmtoff) assert_equal( +2*3600, Time.new(2019, 1, 1, 0, 0, 0, "B").gmtoff) assert_equal( +3*3600, Time.new(2019, 1, 1, 0, 0, 0, "C").gmtoff) assert_equal( +4*3600, Time.new(2019, 1, 1, 0, 0, 0, "D").gmtoff) assert_equal( +5*3600, Time.new(2019, 1, 1, 0, 0, 0, "E").gmtoff) assert_equal( +6*3600, Time.new(2019, 1, 1, 0, 0, 0, "F").gmtoff) assert_equal( +7*3600, Time.new(2019, 1, 1, 0, 0, 0, "G").gmtoff) assert_equal( +8*3600, Time.new(2019, 1, 1, 0, 0, 0, "H").gmtoff) assert_equal( +9*3600, Time.new(2019, 1, 1, 0, 0, 0, "I").gmtoff) assert_equal(+10*3600, Time.new(2019, 1, 1, 0, 0, 0, "K").gmtoff) assert_equal(+11*3600, Time.new(2019, 1, 1, 0, 0, 0, "L").gmtoff) assert_equal(+12*3600, Time.new(2019, 1, 1, 0, 0, 0, "M").gmtoff) assert_equal( -1*3600, Time.new(2019, 1, 1, 0, 0, 0, "N").gmtoff) assert_equal( -2*3600, Time.new(2019, 1, 1, 0, 0, 0, "O").gmtoff) assert_equal( -3*3600, Time.new(2019, 1, 1, 0, 0, 0, "P").gmtoff) assert_equal( -4*3600, Time.new(2019, 1, 1, 0, 0, 0, "Q").gmtoff) assert_equal( -5*3600, Time.new(2019, 1, 1, 0, 0, 0, "R").gmtoff) assert_equal( -6*3600, Time.new(2019, 1, 1, 0, 0, 0, "S").gmtoff) assert_equal( -7*3600, Time.new(2019, 1, 1, 0, 0, 0, "T").gmtoff) assert_equal( -8*3600, Time.new(2019, 1, 1, 0, 0, 0, "U").gmtoff) assert_equal( -9*3600, Time.new(2019, 1, 1, 0, 0, 0, "V").gmtoff) assert_equal(-10*3600, Time.new(2019, 1, 1, 0, 0, 0, "W").gmtoff) assert_equal(-11*3600, Time.new(2019, 1, 1, 0, 0, 0, "X").gmtoff) assert_equal(-12*3600, Time.new(2019, 1, 1, 0, 0, 0, "Y").gmtoff) assert_equal( 0, Time.new(2019, 1, 1, 0, 0, 0, "Z").gmtoff) assert_equal( +1*3600, Time.at(0, in: "A").gmtoff) assert_equal( +2*3600, Time.at(0, in: "B").gmtoff) assert_equal( +3*3600, Time.at(0, in: "C").gmtoff) assert_equal( +4*3600, Time.at(0, in: "D").gmtoff) assert_equal( +5*3600, Time.at(0, in: "E").gmtoff) assert_equal( +6*3600, Time.at(0, in: "F").gmtoff) assert_equal( +7*3600, Time.at(0, in: "G").gmtoff) assert_equal( +8*3600, Time.at(0, in: "H").gmtoff) assert_equal( +9*3600, Time.at(0, in: "I").gmtoff) assert_equal(+10*3600, Time.at(0, in: "K").gmtoff) assert_equal(+11*3600, Time.at(0, in: "L").gmtoff) assert_equal(+12*3600, Time.at(0, in: "M").gmtoff) assert_equal( -1*3600, Time.at(0, in: "N").gmtoff) assert_equal( -2*3600, Time.at(0, in: "O").gmtoff) assert_equal( -3*3600, Time.at(0, in: "P").gmtoff) assert_equal( -4*3600, Time.at(0, in: "Q").gmtoff) assert_equal( -5*3600, Time.at(0, in: "R").gmtoff) assert_equal( -6*3600, Time.at(0, in: "S").gmtoff) assert_equal( -7*3600, Time.at(0, in: "T").gmtoff) assert_equal( -8*3600, Time.at(0, in: "U").gmtoff) assert_equal( -9*3600, Time.at(0, in: "V").gmtoff) assert_equal(-10*3600, Time.at(0, in: "W").gmtoff) assert_equal(-11*3600, Time.at(0, in: "X").gmtoff) assert_equal(-12*3600, Time.at(0, in: "Y").gmtoff) assert_equal( 0, Time.at(0, in: "Z").gmtoff) end MON2NUM = { "Jan" => 1, "Feb" => 2, "Mar" => 3, "Apr" => 4, "May" => 5, "Jun" => 6, "Jul" => 7, "Aug" => 8, "Sep" => 9, "Oct" => 10, "Nov" => 11, "Dec" => 12 } @testnum = 0 def self.gen_test_name(hint) @testnum += 1 s = "test_gen_#{@testnum}" s.sub(/gen_/) { "gen" + "_#{hint}_".gsub(/[^0-9A-Za-z]+/, '_') } end def self.parse_zdump_line(line) return nil if /\A\#/ =~ line || /\A\s*\z/ =~ line if /\A(\S+)\s+ \S+\s+(\S+)\s+(\d+)\s+(\d\d):(\d\d):(\d\d)\s+(\d+)\s+UTC? \s+=\s+ \S+\s+(\S+)\s+(\d+)\s+(\d\d):(\d\d):(\d\d)\s+(\d+)\s+\S+ \s+isdst=\d+\s+gmtoff=(-?\d+)\n \z/x !~ line raise "unexpected zdump line: #{line.inspect}" end tz, u_mon, u_day, u_hour, u_min, u_sec, u_year, l_mon, l_day, l_hour, l_min, l_sec, l_year, gmtoff = $~.captures u_year = u_year.to_i u_mon = MON2NUM[u_mon] u_day = u_day.to_i u_hour = u_hour.to_i u_min = u_min.to_i u_sec = u_sec.to_i l_year = l_year.to_i l_mon = MON2NUM[l_mon] l_day = l_day.to_i l_hour = l_hour.to_i l_min = l_min.to_i l_sec = l_sec.to_i gmtoff = gmtoff.to_i [tz, [u_year, u_mon, u_day, u_hour, u_min, u_sec], [l_year, l_mon, l_day, l_hour, l_min, l_sec], gmtoff] end def self.gen_zdump_test(data) sample = [] data.each_line {|line| s = parse_zdump_line(line) sample << s if s } sample.each {|tz, u, l, gmtoff| expected_utc = "%04d-%02d-%02d %02d:%02d:%02d UTC" % u expected = "%04d-%02d-%02d %02d:%02d:%02d %s" % (l+[format_gmtoff(gmtoff)]) mesg_utc = "TZ=#{tz} Time.utc(#{u.map {|arg| arg.inspect }.join(', ')})" mesg = "#{mesg_utc}.localtime" define_method(gen_test_name(tz)) { with_tz(tz) { ::Bug::Time.reset_leap_second_info t = nil assert_nothing_raised(mesg) { t = Time.utc(*u) } assert_equal(expected_utc, time_to_s(t), mesg_utc) assert_nothing_raised(mesg) { t.localtime } assert_equal(expected, time_to_s(t), mesg) assert_equal(gmtoff, t.gmtoff) assert_equal(format_gmtoff(gmtoff), t.strftime("%z")) assert_equal(format_gmtoff(gmtoff, true), t.strftime("%:z")) assert_equal(format_gmtoff2(gmtoff), t.strftime("%::z")) assert_equal(Encoding::US_ASCII, t.zone.encoding) } } } group_by(sample) {|tz, _, _, _| tz }.each {|tz, a| a.each_with_index {|(_, _, l, gmtoff), i| expected = "%04d-%02d-%02d %02d:%02d:%02d %s" % (l+[format_gmtoff(gmtoff)]) monotonic_to_past = i == 0 || (a[i-1][2] <=> l) < 0 monotonic_to_future = i == a.length-1 || (l <=> a[i+1][2]) < 0 if monotonic_to_past && monotonic_to_future define_method(gen_test_name(tz)) { with_tz(tz) { assert_time_constructor(tz, expected, :local, l) assert_time_constructor(tz, expected, :local, l.reverse+[nil, nil, false, nil]) assert_time_constructor(tz, expected, :local, l.reverse+[nil, nil, true, nil]) assert_time_constructor(tz, expected, :new, l) assert_time_constructor(tz, expected, :new, l+[:std]) assert_time_constructor(tz, expected, :new, l+[:dst]) } } elsif monotonic_to_past && !monotonic_to_future define_method(gen_test_name(tz)) { with_tz(tz) { assert_time_constructor(tz, expected, :local, l.reverse+[nil, nil, true, nil]) assert_time_constructor(tz, expected, :new, l+[:dst]) } } elsif !monotonic_to_past && monotonic_to_future define_method(gen_test_name(tz)) { with_tz(tz) { assert_time_constructor(tz, expected, :local, l.reverse+[nil, nil, false, nil]) assert_time_constructor(tz, expected, :new, l+[:std]) } } else define_method(gen_test_name(tz)) { flunk("time in reverse order: TZ=#{tz} #{expected}") } end } } end gen_zdump_test <<'End' America/Lima Sun Apr 1 03:59:59 1990 UTC = Sat Mar 31 23:59:59 1990 PEST isdst=1 gmtoff=-14400 America/Lima Sun Apr 1 04:00:00 1990 UTC = Sat Mar 31 23:00:00 1990 PET isdst=0 gmtoff=-18000 America/Lima Sat Jan 1 04:59:59 1994 UTC = Fri Dec 31 23:59:59 1993 PET isdst=0 gmtoff=-18000 America/Lima Sat Jan 1 05:00:00 1994 UTC = Sat Jan 1 01:00:00 1994 PEST isdst=1 gmtoff=-14400 America/Lima Fri Apr 1 03:59:59 1994 UTC = Thu Mar 31 23:59:59 1994 PEST isdst=1 gmtoff=-14400 America/Lima Fri Apr 1 04:00:00 1994 UTC = Thu Mar 31 23:00:00 1994 PET isdst=0 gmtoff=-18000 America/Los_Angeles Sun Apr 2 09:59:59 2006 UTC = Sun Apr 2 01:59:59 2006 PST isdst=0 gmtoff=-28800 America/Los_Angeles Sun Apr 2 10:00:00 2006 UTC = Sun Apr 2 03:00:00 2006 PDT isdst=1 gmtoff=-25200 America/Los_Angeles Sun Oct 29 08:59:59 2006 UTC = Sun Oct 29 01:59:59 2006 PDT isdst=1 gmtoff=-25200 America/Los_Angeles Sun Oct 29 09:00:00 2006 UTC = Sun Oct 29 01:00:00 2006 PST isdst=0 gmtoff=-28800 America/Los_Angeles Sun Mar 11 09:59:59 2007 UTC = Sun Mar 11 01:59:59 2007 PST isdst=0 gmtoff=-28800 America/Los_Angeles Sun Mar 11 10:00:00 2007 UTC = Sun Mar 11 03:00:00 2007 PDT isdst=1 gmtoff=-25200 America/Los_Angeles Sun Nov 4 08:59:59 2007 UTC = Sun Nov 4 01:59:59 2007 PDT isdst=1 gmtoff=-25200 America/Los_Angeles Sun Nov 4 09:00:00 2007 UTC = Sun Nov 4 01:00:00 2007 PST isdst=0 gmtoff=-28800 America/Managua Thu Sep 24 04:59:59 1992 UTC = Wed Sep 23 23:59:59 1992 EST isdst=0 gmtoff=-18000 America/Managua Thu Sep 24 05:00:00 1992 UTC = Wed Sep 23 23:00:00 1992 CST isdst=0 gmtoff=-21600 America/Managua Fri Jan 1 05:59:59 1993 UTC = Thu Dec 31 23:59:59 1992 CST isdst=0 gmtoff=-21600 America/Managua Fri Jan 1 06:00:00 1993 UTC = Fri Jan 1 01:00:00 1993 EST isdst=0 gmtoff=-18000 America/Managua Wed Jan 1 04:59:59 1997 UTC = Tue Dec 31 23:59:59 1996 EST isdst=0 gmtoff=-18000 America/Managua Wed Jan 1 05:00:00 1997 UTC = Tue Dec 31 23:00:00 1996 CST isdst=0 gmtoff=-21600 Asia/Singapore Sun Aug 8 16:30:00 1965 UTC = Mon Aug 9 00:00:00 1965 SGT isdst=0 gmtoff=27000 Asia/Singapore Thu Dec 31 16:29:59 1981 UTC = Thu Dec 31 23:59:59 1981 SGT isdst=0 gmtoff=27000 Asia/Singapore Thu Dec 31 16:30:00 1981 UTC = Fri Jan 1 00:30:00 1982 SGT isdst=0 gmtoff=28800 End gen_zdump_test CORRECT_TOKYO_DST_1951 ? <<'End' + (CORRECT_TOKYO_DST_1951 < "2018f" ? <<'2018e' : <<'2018f') : <<'End' Asia/Tokyo Sat May 5 14:59:59 1951 UTC = Sat May 5 23:59:59 1951 JST isdst=0 gmtoff=32400 Asia/Tokyo Sat May 5 15:00:00 1951 UTC = Sun May 6 01:00:00 1951 JDT isdst=1 gmtoff=36000 End Asia/Tokyo Sat Sep 8 13:59:59 1951 UTC = Sat Sep 8 23:59:59 1951 JDT isdst=1 gmtoff=36000 Asia/Tokyo Sat Sep 8 14:00:00 1951 UTC = Sat Sep 8 23:00:00 1951 JST isdst=0 gmtoff=32400 2018e Asia/Tokyo Sat Sep 8 14:59:59 1951 UTC = Sun Sep 9 00:59:59 1951 JDT isdst=1 gmtoff=36000 Asia/Tokyo Sat Sep 8 15:00:00 1951 UTC = Sun Sep 9 00:00:00 1951 JST isdst=0 gmtoff=32400 2018f Asia/Tokyo Sat May 5 16:59:59 1951 UTC = Sun May 6 01:59:59 1951 JST isdst=0 gmtoff=32400 Asia/Tokyo Sat May 5 17:00:00 1951 UTC = Sun May 6 03:00:00 1951 JDT isdst=1 gmtoff=36000 Asia/Tokyo Fri Sep 7 15:59:59 1951 UTC = Sat Sep 8 01:59:59 1951 JDT isdst=1 gmtoff=36000 Asia/Tokyo Fri Sep 7 16:00:00 1951 UTC = Sat Sep 8 01:00:00 1951 JST isdst=0 gmtoff=32400 End gen_zdump_test <<'End' America/St_Johns Sun Mar 11 03:30:59 2007 UTC = Sun Mar 11 00:00:59 2007 NST isdst=0 gmtoff=-12600 America/St_Johns Sun Mar 11 03:31:00 2007 UTC = Sun Mar 11 01:01:00 2007 NDT isdst=1 gmtoff=-9000 America/St_Johns Sun Nov 4 02:30:59 2007 UTC = Sun Nov 4 00:00:59 2007 NDT isdst=1 gmtoff=-9000 America/St_Johns Sun Nov 4 02:31:00 2007 UTC = Sat Nov 3 23:01:00 2007 NST isdst=0 gmtoff=-12600 Europe/Brussels Sun Apr 30 22:59:59 1916 UTC = Sun Apr 30 23:59:59 1916 CET isdst=0 gmtoff=3600 Europe/Brussels Sun Apr 30 23:00:00 1916 UTC = Mon May 1 01:00:00 1916 CEST isdst=1 gmtoff=7200 Europe/Brussels Sat Sep 30 22:59:59 1916 UTC = Sun Oct 1 00:59:59 1916 CEST isdst=1 gmtoff=7200 Europe/Brussels Sat Sep 30 23:00:00 1916 UTC = Sun Oct 1 00:00:00 1916 CET isdst=0 gmtoff=3600 Europe/London Sun Mar 16 01:59:59 1947 UTC = Sun Mar 16 01:59:59 1947 GMT isdst=0 gmtoff=0 Europe/London Sun Mar 16 02:00:00 1947 UTC = Sun Mar 16 03:00:00 1947 BST isdst=1 gmtoff=3600 Europe/London Sun Apr 13 00:59:59 1947 UTC = Sun Apr 13 01:59:59 1947 BST isdst=1 gmtoff=3600 Europe/London Sun Apr 13 01:00:00 1947 UTC = Sun Apr 13 03:00:00 1947 BDST isdst=1 gmtoff=7200 Europe/London Sun Aug 10 00:59:59 1947 UTC = Sun Aug 10 02:59:59 1947 BDST isdst=1 gmtoff=7200 Europe/London Sun Aug 10 01:00:00 1947 UTC = Sun Aug 10 02:00:00 1947 BST isdst=1 gmtoff=3600 Europe/London Sun Nov 2 01:59:59 1947 UTC = Sun Nov 2 02:59:59 1947 BST isdst=1 gmtoff=3600 Europe/London Sun Nov 2 02:00:00 1947 UTC = Sun Nov 2 02:00:00 1947 GMT isdst=0 gmtoff=0 End if CORRECT_KIRITIMATI_SKIP_1994 gen_zdump_test <<'End' Pacific/Kiritimati Sat Dec 31 09:59:59 1994 UTC = Fri Dec 30 23:59:59 1994 LINT isdst=0 gmtoff=-36000 Pacific/Kiritimati Sat Dec 31 10:00:00 1994 UTC = Sun Jan 1 00:00:00 1995 LINT isdst=0 gmtoff=50400 End else gen_zdump_test <<'End' Pacific/Kiritimati Sun Jan 1 09:59:59 1995 UTC = Sat Dec 31 23:59:59 1994 LINT isdst=0 gmtoff=-36000 Pacific/Kiritimati Sun Jan 1 10:00:00 1995 UTC = Mon Jan 2 00:00:00 1995 LINT isdst=0 gmtoff=50400 End end gen_zdump_test <<'End' if has_right_tz right/America/Los_Angeles Fri Jun 30 23:59:60 1972 UTC = Fri Jun 30 16:59:60 1972 PDT isdst=1 gmtoff=-25200 right/America/Los_Angeles Wed Dec 31 23:59:60 2008 UTC = Wed Dec 31 15:59:60 2008 PST isdst=0 gmtoff=-28800 #right/Asia/Tokyo Fri Jun 30 23:59:60 1972 UTC = Sat Jul 1 08:59:60 1972 JST isdst=0 gmtoff=32400 #right/Asia/Tokyo Sat Dec 31 23:59:60 2005 UTC = Sun Jan 1 08:59:60 2006 JST isdst=0 gmtoff=32400 right/Europe/Paris Fri Jun 30 23:59:60 1972 UTC = Sat Jul 1 00:59:60 1972 CET isdst=0 gmtoff=3600 right/Europe/Paris Wed Dec 31 23:59:60 2008 UTC = Thu Jan 1 00:59:60 2009 CET isdst=0 gmtoff=3600 End def self.gen_variational_zdump_test(hint, data) sample = [] data.each_line {|line| s = parse_zdump_line(line) sample << s if s } define_method(gen_test_name(hint)) { results = [] sample.each {|tz, u, l, gmtoff| expected_utc = "%04d-%02d-%02d %02d:%02d:%02d UTC" % u expected = "%04d-%02d-%02d %02d:%02d:%02d %s" % (l+[format_gmtoff(gmtoff)]) mesg_utc = "TZ=#{tz} Time.utc(#{u.map {|arg| arg.inspect }.join(', ')})" mesg = "#{mesg_utc}.localtime" with_tz(tz) { t = nil assert_nothing_raised(mesg) { t = Time.utc(*u) } assert_equal(expected_utc, time_to_s(t), mesg_utc) assert_nothing_raised(mesg) { t.localtime } results << [ expected == time_to_s(t), gmtoff == t.gmtoff, format_gmtoff(gmtoff) == t.strftime("%z"), format_gmtoff(gmtoff, true) == t.strftime("%:z"), format_gmtoff2(gmtoff) == t.strftime("%::z") ] } } assert_include(results, [true, true, true, true, true]) } end # tzdata-2014g fixed the offset for lisbon from -0:36:32 to -0:36:45. # [ruby-core:65058] [Bug #10245] gen_variational_zdump_test "lisbon", <<'End' if has_lisbon_tz Europe/Lisbon Mon Jan 1 00:36:31 1912 UTC = Sun Dec 31 23:59:59 1911 LMT isdst=0 gmtoff=-2192 Europe/Lisbon Mon Jan 1 00:36:44 1912 UT = Sun Dec 31 23:59:59 1911 LMT isdst=0 gmtoff=-2205 Europe/Lisbon Sun Dec 31 23:59:59 1911 UT = Sun Dec 31 23:23:14 1911 LMT isdst=0 gmtoff=-2205 End class TZ attr_reader :name def initialize(name, abbr, offset, abbr2 = nil, offset2 = nil) @name = name @abbr = abbr @offset = offset @abbr2 = abbr2 @offset2 = offset2 end def dst?(t) return false unless @offset2 case t when Integer return nil end case t.mon when 4..9 true else false end end def offset(t) (dst?(t) ? @offset2 : @offset) end def local_to_utc(t) t - offset(t) end def utc_to_local(t) t + offset(t) end def abbr(t) dst?(t) ? @abbr2 : @abbr end def ==(other) @name == other.name and abbr(0) == other.abbr(0) and offset(0) == other.offset(0) end def inspect "#" end end end module TestTimeTZ::WithTZ def subtest_new(time_class, tz, tzarg, tzname, abbr, utc_offset) abbr, abbr2 = *abbr utc_offset, utc_offset2 = *utc_offset t = time_class.new(2018, 9, 1, 12, 0, 0, tzarg) utc_offset, abbr = utc_offset2, abbr2 if tz.dst?(t) assert_equal([2018, 9, 1, 12, 0, 0, tz], [t.year, t.mon, t.mday, t.hour, t.min, t.sec, t.zone]) h, m = (-utc_offset / 60).divmod(60) assert_equal(time_class.utc(2018, 9, 1, 12+h, m, 0).to_i, t.to_i) end def subtest_now(time_class, tz, tzarg, tzname, abbr, utc_offset) t = time_class.now(in: tzarg) assert_equal(tz, t.zone) end def subtest_getlocal(time_class, tz, tzarg, tzname, abbr, utc_offset) abbr, abbr2 = *abbr utc_offset, utc_offset2 = *utc_offset utc = time_class.utc(2018, 9, 1, 12, 0, 0) utc_offset, abbr = utc_offset2, abbr2 if tz.dst?(utc) t = utc.getlocal(tzarg) h, m = (utc_offset / 60).divmod(60) assert_equal([2018, 9, 1, 12+h, m, 0, tz], [t.year, t.mon, t.mday, t.hour, t.min, t.sec, t.zone]) assert_equal(time_class.utc(2018, 9, 1, 12, 0, 0), t) end def subtest_strftime(time_class, tz, tzarg, tzname, abbr, utc_offset) abbr, abbr2 = *abbr utc_offset, utc_offset2 = *utc_offset t = time_class.new(2018, 9, 1, 12, 0, 0, tzarg) utc_offset, abbr = utc_offset2, abbr2 if tz.dst?(t) h, m = (utc_offset.abs / 60).divmod(60) h = -h if utc_offset < 0 assert_equal("%+.2d%.2d %s" % [h, m, abbr], t.strftime("%z %Z")) end def subtest_plus(time_class, tz, tzarg, tzname, abbr, utc_offset) abbr, abbr2 = *abbr utc_offset, utc_offset2 = *utc_offset t = time_class.new(2018, 9, 1, 12, 0, 0, tzarg) + 4000 utc_offset, abbr = utc_offset2, abbr2 if tz.dst?(t) assert_equal([2018, 9, 1, 13, 6, 40, tz], [t.year, t.mon, t.mday, t.hour, t.min, t.sec, t.zone]) m, s = (4000-utc_offset).divmod(60) h, m = m.divmod(60) assert_equal(time_class.utc(2018, 9, 1, 12+h, m, s), t) end def subtest_at(time_class, tz, tzarg, tzname, abbr, utc_offset) abbr, abbr2 = *abbr utc_offset, utc_offset2 = *utc_offset utc = time_class.utc(2018, 9, 1, 12, 0, 0) utc_offset, abbr = utc_offset2, abbr2 if tz.dst?(utc) h, m = (utc_offset / 60).divmod(60) t = time_class.at(utc, in: tzarg) assert_equal([2018, 9, 1, 12+h, m, 0, tz], [t.year, t.mon, t.mday, t.hour, t.min, t.sec, t.zone]) assert_equal(utc.to_i, t.to_i) utc = utc.to_i t = time_class.at(utc, in: tzarg) assert_equal([2018, 9, 1, 12+h, m, 0, tz], [t.year, t.mon, t.mday, t.hour, t.min, t.sec, t.zone]) assert_equal(utc, t.to_i) end def subtest_marshal(time_class, tz, tzarg, tzname, abbr, utc_offset) t = time_class.new(2018, 9, 1, 12, 0, 0, tzarg) t2 = Marshal.load(Marshal.dump(t)) assert_equal(t, t2) assert_equal(t.utc_offset, t2.utc_offset) assert_equal(t.utc_offset, (t2+1).utc_offset) assert_instance_of(t.zone.class, t2.zone) assert_equal(t.dst?, t2.dst?) end def test_invalid_zone make_timezone("INVALID", "INV", 0) rescue => e assert_kind_of(StandardError, e) else assert false, "ArgumentError expected but nothing was raised." end def nametest_marshal_compatibility(time_class, tzname, abbr, utc_offset) data = [ "\x04\x08Iu:".b, Marshal.dump(time_class)[3..-1], "\x0d""\xEF\xA7\x1D\x80\x00\x00\x00\x00".b, Marshal.dump({offset: utc_offset, zone: abbr})[3..-1], ].join('') t = Marshal.load(data) assert_equal(utc_offset, t.utc_offset) assert_equal(utc_offset, (t+1).utc_offset) # t.zone may be a mere String or timezone object. end ZONES = { "Asia/Tokyo" => ["JST", +9*3600], "America/Los_Angeles" => ["PST", -8*3600, "PDT", -7*3600], "Africa/Ndjamena" => ["WAT", +1*3600], } def make_timezone(tzname, abbr, utc_offset, abbr2 = nil, utc_offset2 = nil) self.class::TIME_CLASS.find_timezone(tzname) end def subtest_dst?(time_class, tz, tzarg, tzname, abbr, utc_offset) t = time_class.new(2018, 6, 22, 12, 0, 0, tzarg) return unless tz.dst?(t) assert_predicate t, :dst? t = time_class.new(2018, 12, 22, 12, 0, 0, tzarg) assert_not_predicate t, :dst? end instance_methods(false).grep(/\Asub(?=test_)/) do |subtest| test = $' ZONES.each_pair do |tzname, (abbr, utc_offset, abbr2, utc_offset2)| define_method("#{test}@#{tzname}") do tz = make_timezone(tzname, abbr, utc_offset, abbr2, utc_offset2) time_class = self.class::TIME_CLASS __send__(subtest, time_class, tz, tz, tzname, [abbr, abbr2], [utc_offset, utc_offset2]) __send__(subtest, time_class, tz, tzname, tzname, [abbr, abbr2], [utc_offset, utc_offset2]) end end end instance_methods(false).grep(/\Aname(?=test_)/) do |subtest| test = $' ZONES.each_pair do |tzname, (abbr, utc_offset)| define_method("#{test}@#{tzname}") do time_class = self.class::TIME_CLASS __send__(subtest, time_class, tzname, abbr, utc_offset) end end end end class TestTimeTZ::DummyTZ < Test::Unit::TestCase include TestTimeTZ::WithTZ class TIME_CLASS < ::Time ZONES = TestTimeTZ::WithTZ::ZONES def self.find_timezone(tzname) tz = ZONES[tzname] or raise ArgumentError, "Unknown timezone: #{name}" TestTimeTZ::TZ.new(tzname, *tz) end end def self.make_timezone(tzname, abbr, utc_offset, abbr2 = nil, utc_offset2 = nil) TestTimeTZ::TZ.new(tzname, abbr, utc_offset, abbr2, utc_offset2) end end begin require "tzinfo" rescue LoadError else class TestTimeTZ::GemTZInfo < Test::Unit::TestCase include TestTimeTZ::WithTZ class TIME_CLASS < ::Time def self.find_timezone(tzname) TZInfo::Timezone.get(tzname) end end def tz @tz ||= TZInfo::Timezone.get(tzname) end end end begin require "timezone" rescue LoadError else class TestTimeTZ::GemTimezone < Test::Unit::TestCase include TestTimeTZ::WithTZ class TIME_CLASS < ::Time def self.find_timezone(name) Timezone.fetch(name) end end def tz @tz ||= Timezone[tzname] end end end