# SQLite: Get average weekdays between two dates

I have a table called `Trucks` with two date columns: `Arrival` and `Released`. I can calculate the average number of days between those dates like so:

``````SELECT avg(julianday(released) - julianday(arrival))
FROM Trucks
``````

However, I only want to count weekdays--that is, I want to ignore Saturdays and Sundays. Is there any way to do this in SQLite? I have seen solutions for more robust RDBMSs like Oracle and MSSQL, but none that work for SQLite.

-

The raw difference in days must be adjusted depending (only) on the week days of the `arrival` and `released` days:

``````rel arr|0 1 2 3 4 5 6
-------+-+-+-+-+-+-+-
0    |2 0 0 0 0 0 1
1    |2 2 0 0 0 0 1
2    |2 2 2 0 0 0 1
3    |2 2 2 2 0 0 1
4    |2 2 2 2 2 0 1
5    |2 2 2 2 2 2 1
6    |2 2 2 2 2 2 2
``````

This number can be computed with a simple expression (here: the inner CASE expression):

``````SELECT
AVG(julianday(released) - julianday(arrival) -
CASE WHEN julianday(released) = julianday(arrival) THEN 0
ELSE (CAST((julianday(released) - julianday(arrival)) / 7 AS INTEGER) * 2
) +
CASE WHEN strftime('%w', arrival) <= strftime('%w', released) THEN 2
ELSE strftime('%w', arrival) = '6'
END
END)
FROM trucks
``````

(A boolean expression like `x='6'` returns 0 or 1.)

-
Mind = blown. This reduced my 635 line query to 97 lines. (The weekend logic is reused several times in a larger query.) Thanks man! –  penco Nov 5 '13 at 21:27
As a slight addendum, I had to wrap `MAX()` around the AVG() statement because I was occasionally getting negative numbers due to rounding issues. So it ended up as `MAX( AVG(...), 0)`. –  penco Nov 7 '13 at 16:27

Okay, I figured out a very messy solution using lots of nested `CASE` statements. It checks the weekday number of `released` and then the weekday number of `arrival` and does a calculation to figure out how many weeks have passed. After that, I add 0, 1, or 2 as a base number of weekend days that must have passed between those two days (ie from Friday to Monday is always +2 weekend days, even if less than a whole week has passed between the dates).

Here it is, in case anyone finds it useful. Quite possibly the ugliest SQL I have ever written. If anyone figures out a better way, please let me know.

(Edited for simplicity based on CL's feedback)

``````SELECT
avg(
julianday(released) - julianday(arrival) -

CASE WHEN julianday(released) = julianday(arrival) THEN 0 ELSE
CASE strftime('%w', released)
WHEN '0' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '1' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '2' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '3' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '4' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 0)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '5' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 1)
END
WHEN '6' THEN
CASE strftime('%w', arrival)
WHEN '0' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '1' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '2' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '3' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '4' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '5' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
WHEN '6' THEN ((cast((julianday(released)-julianday(arrival)) / 7 as int) * 2) + 2)
END
END
END

), avg(julianday(released)-julianday(arrival))
from trucks
``````

(Note: the `avg(julianday(released)-julianday(arrival))` at the end is just for testing purposes to show that the new calculated average is in fact less than a straight average of the difference between the two dates).

-
A CASE expression can have multiple WHEN branches. In this case, the expression to be tested can be written once between the CASE and WHEN. –  CL. Nov 5 '13 at 15:26
Thanks! I refactored the code to use the branching CASE structure. Much easier to manage now. –  penco Nov 5 '13 at 16:41