An important detail to keep in mind are time zones. If e.g. your time falls in the gap between your time zone offset and GMT you might get unexpected results. So at first I propose we discuss date
as the one visible to the user which is usually the one of the local time zone.
So if we assume local time, and we want to make use of the Date
objects, there are 2 possible solutions, which I will present as JavaScript unit test style. First one is the one presented by Keith Thompson previously:
let date = new Date('1987-12-31T01:02:03')
let simpleDateInteger = (
date.getFullYear() * 10000 +
(date.getMonth() + 1) * 100 +
date.getDate()
)
expect(simpleDateInteger).toBe(19871231)
let fromSimpleDateInteger = new Date(
simpleDateInteger / 10000, // year
simpleDateInteger / 100 % 100 - 1, // month
simpleDateInteger % 100 // day
)
expect(fromSimpleDateInteger.toDateString()).toEqual(date.toDateString())
If you need more compact integers and each integer +1 representing the next day, i.e. a continuous representation you can go with this one:
let date = new Date('1987-12-31T00:01:02')
const DAY_IN_MILLISECONDS = 86400 * 1000
let timeZoneInMilliSeconds = date.getTimezoneOffset() * 60 * 1000
let continuousDateInteger = Math.floor(
(date.getTime() - timeZoneInMilliSeconds) / DAY_IN_MILLISECONDS
)
expect(continuousDateInteger).toBe(6573)
let fromContinuousDateInteger = new Date(
continuousDateInteger * DAY_IN_MILLISECONDS + timeZoneInMilliSeconds
)
expect(fromContinuousDateInteger.toDateString()).toEqual(date.toDateString())
<
,==
, and>
comparisons, you might considerYYYYMMDD
(for example, today is20140113
), so it's both easily comparable and human-readable. But bdf's answer is also a good one (I might pick noon UTC as the arbitrary time).