package stdlib_test import ( "testing" "time" "github.com/d5/tengo/v2" "github.com/d5/tengo/v2/require" ) func TestTimes(t *testing.T) { time1 := time.Date(1982, 9, 28, 19, 21, 44, 999, time.Now().Location()) time2 := time.Now() module(t, "times").call("sleep", 1).expect(tengo.UndefinedValue) require.True(t, module(t, "times"). call("since", time.Now().Add(-time.Hour)). o.(*tengo.Int).Value > 3600000000000) require.True(t, module(t, "times"). call("until", time.Now().Add(time.Hour)). o.(*tengo.Int).Value < 3600000000000) module(t, "times").call("parse_duration", "1ns").expect(1) module(t, "times").call("parse_duration", "1ms").expect(1000000) module(t, "times").call("parse_duration", "1h").expect(3600000000000) module(t, "times").call("duration_hours", 1800000000000).expect(0.5) module(t, "times").call("duration_minutes", 1800000000000).expect(30.0) module(t, "times").call("duration_nanoseconds", 100).expect(100) module(t, "times").call("duration_seconds", 1000000).expect(0.001) module(t, "times").call("duration_string", 1800000000000).expect("30m0s") module(t, "times").call("month_string", 1).expect("January") module(t, "times").call("month_string", 12).expect("December") module(t, "times").call("date", 1982, 9, 28, 19, 21, 44, 999). expect(time1) nowD := time.Until(module(t, "times").call("now"). o.(*tengo.Time).Value).Nanoseconds() require.True(t, 0 > nowD && nowD > -100000000) // within 100ms parsed, _ := time.Parse(time.RFC3339, "1982-09-28T19:21:44+07:00") module(t, "times"). call("parse", time.RFC3339, "1982-09-28T19:21:44+07:00"). expect(parsed) module(t, "times"). call("unix", 1234325, 94493). expect(time.Unix(1234325, 94493)) module(t, "times").call("add", time2, 3600000000000). expect(time2.Add(time.Duration(3600000000000))) module(t, "times").call("sub", time2, time2.Add(-time.Hour)). expect(3600000000000) module(t, "times").call("add_date", time2, 1, 2, 3). expect(time2.AddDate(1, 2, 3)) module(t, "times").call("after", time2, time2.Add(time.Hour)). expect(false) module(t, "times").call("after", time2, time2.Add(-time.Hour)). expect(true) module(t, "times").call("before", time2, time2.Add(time.Hour)). expect(true) module(t, "times").call("before", time2, time2.Add(-time.Hour)). expect(false) module(t, "times").call("time_year", time1).expect(time1.Year()) module(t, "times").call("time_month", time1).expect(int(time1.Month())) module(t, "times").call("time_day", time1).expect(time1.Day()) module(t, "times").call("time_hour", time1).expect(time1.Hour()) module(t, "times").call("time_minute", time1).expect(time1.Minute()) module(t, "times").call("time_second", time1).expect(time1.Second()) module(t, "times").call("time_nanosecond", time1). expect(time1.Nanosecond()) module(t, "times").call("time_unix", time1).expect(time1.Unix()) module(t, "times").call("time_unix_nano", time1).expect(time1.UnixNano()) module(t, "times").call("time_format", time1, time.RFC3339). expect(time1.Format(time.RFC3339)) module(t, "times").call("is_zero", time1).expect(false) module(t, "times").call("is_zero", time.Time{}).expect(true) module(t, "times").call("to_local", time1).expect(time1.Local()) module(t, "times").call("to_utc", time1).expect(time1.UTC()) module(t, "times").call("time_location", time1). expect(time1.Location().String()) module(t, "times").call("time_string", time1).expect(time1.String()) }