Comment by nightpool
24 days ago
The minute between December 31, 2016 23:59 and January 1st 2017 is 61 seconds, not 60 seconds. The hour that contains that minute is 3601 seconds, the day that contains that hour is 43201 seconds, etc. If you assume a fixed duration and simply multiply by 43200, your math will be wrong compared to the rest of the world.
Daylight savings time makes a day take 23 hours or 25 hours. That makes a week take 7254000 seconds or 7261200 seconds. Etc.
That’s what I mean by calendar units. These aren’t issues if you don’t try to apply durations to the “real” calendar.
(This is all in the context of cooldowns, where I’m not convinced the there’s any real ambiguity risk by allowing the user to specify a duration in day or hour units rather than seconds. In that context a day is exactly 24 hours, regardless of what your local savings time rules are.)
"exactly 24 hours" could still be anywhere between 86399 and 86401 seconds, depending on leap seconds. At least if by an hour you mean an interval of 60 minutes, because a minute that contains a leap second will have either 59 or 61 seconds.
You could specify that for the purposes of cooldowns you want "hour" to mean an interval of 3600 seconds. But that you have to specify that should illustrate how ambiguous the concept of an hour is. It's not a useless concept by any means and I far prefer to specify duration in hours and days, but you have to spend a sentence or two on defining which definition of hours and days you are using. Or you don't and just hope nobody cares enough about the exact cooldown duration
If you say "wait 1 day without using a calendar+locale" then the duration is unambiguously 86400s, but if you say "wait 1 day using a calendar+locale" or "wait until this time tomorrow" then the duration is ambiguous until you've incorporated rules like leap/DST. I think GP's point is that "wait 1 day" unambiguously defaults to the former, and you disagree, but perhaps it's a reasonable default.
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Leap seconds are their own nightmare. UNIX time ignores them, btw, so that the unix epoch is 86400*number of days since 1/1/1970 + number of seconds since midnight. The behavior at the instance of a leap second is undefined.
Undefined behavior is worse than complicated defined behavior imo.
That's a good way of describing that. It's far too easy to pretend UNIX timestamps would correspond to a stopwatch counting from 1/1/1970.
Right. Currently epoch time is off the stopwatch time by 27 seconds.