Actually, if we're dealing with pure hours here like a Abelian Ring from 0 to 23 and 0 again, I believe the following is actually a working solution:
(start <= end && start <= t && t <= end) or (start > end && (start <= t || t <= end))
Complex though this is, it is essentially an if-else where you have a different algorithm depending on whether start <= end or not, where
t is the time you wish to test. In the first case, start and end are normal order, so t must be both greater than start and less than end. In the case where start is greater than end, the times outside the opposite range are what we want:
- NOT(end < t and t < start)
Using DeMorgan's theorem:
- NOT(end < t) or NOT(t < start)
- NOT(t < start) or NOT(end < t)
- t >= start or end >= t
- start <= t or t <= end
This should solve your and my problems.
The thing is, looking at your algorithm, let's assume for a moment the time is 1am, day 1.
- Now holds 1am Day 1
- Today holds midnight Day 1
- Start holds 5pm Day 1 (given the original example)
- End holds 2am Day 1 (again from the example)
- End holds 2am Day 2 (since start > end)
Now, unless I'm mistaken, start ≰ now since start is 5pm Day 1 and now is 1am Day 1 which is before now, therefore the test fails but the original question wanted 1am included in the range since 1am is between 5pm and 2am. Did I miss something?
Also, looking at your code, I think you can detect 1am but now you would have a problem with 10pm (22:00) since your times become:
- Start is 17
- End is 26
- Now is 22 + 24 = 46! so you will fail in the less-than test.
Clearly, the general case is very tricky! More so when you're restricted to Google Spreadsheets as I am.