I've come up with a solution that's relatively straightforward for calculating the time difference for the full interim dates. However it's a bit messy to use mysql for calculating the time difference for the start & end dates. I have included them in my solution, but with a number of assumptions.
In any case, here's the sql
SET @startdate:='2012-12-24 17:00:00';
SET @enddate:='2013-01-02 12:00:00';
TIME_TO_SEC(TIMEDIFF(CONCAT(DATE(@startdate),' 17:30:00'), @startdate))/3600 as startday_time,
TIME_TO_SEC(TIMEDIFF(@enddate, CONCAT(DATE(@enddate),' 9:00:00')))/3600 as endday_time,
SUM(daily_hours) as otherdays_time from
SELECT 7.5 as daily_hours, id, DATE_ADD(DATE(@startdate),INTERVAL id-1 DAY) as idate from numbers
LEFT JOIN holidays on DATE(dates.idate) = DATE(holidays.date)
idate BETWEEN @startdate AND @enddate
AND holidays.date IS NULL
AND DAYOFWEEK(idate) <> 7 AND DAYOFWEEK(idate) <> 1;
To get the valid interim dates, we'll need two tables - a
holidays table listing all the holiday dates and a
numbers table that contains a series of integers which is very useful for joining against to get a sequential series of dates (with no gaps).
Note: In the sqlfiddle, I've populated the
numbers table only up to 12 to cover the dates used in my example - it will probably need to be populated to a higher number depending on the range of dates you'll be working with.
For the start day time & end day time, I've made the following assumptions:
- that start date & end date are both valid dates that should be counted towards the total time
- that the time on the start date is between lunch and 17.30
- that the time on the end date is between lunch and 17.30
if these assumptions are wrong, you're getting into serious conditional territory (with lots of ifs) and might be best doing this in the php (or whatever).
note: I've left the times (which are in hours) un-added for illustration purposes.