So my second solution, its (as said in the comments to the first one) quite complicated but I think its quite efficient as well.
I will not post code but rather the overall concept, if you are interested in specific details I'll see what I can do.
Problem: We create a abstraction where every room on every day is either available or blocked. We are interested in the available rooms in the time the guest wants to visit.
We want to select the combination of rooms that need the least relocations of the guest.
Abstract: We create a two dimensional matrix of room/day combinations where every day is represented by a power of two (the DAYVALUE). A room thats available has the corresponding DAYVALUE. A room thats blocked as a value of SERO. So if we sum all DAYS for a ROOM we can determinate what COMBINATION of ROOMS fulfills the full time.
More specific: after we get the SUM of all VALUES for a ROOM we can use the binary OR function to decide if a given combination of rooms fullfills the complete stay by comparing the result of the OR operation with the SUM of values for all DAYS.
Note that the DAYVALUE is not stored in the dayTable. It is calculated for every request (2^(STARTDAY-DAY))
1) You need to create a table that contains all DAYS. It has exactly ONE column that contains a date (no time, no timezone only the day). I would recommend it to contain ALL days from now until in a hundred years. (so you will have to populate it only once). (Note: This solves the problem that you cannot select every day once in a SQL Query)
2) You create a VIEW that produces an output like this:
DAY ; DAYVALUE ; ROOM1 ; ROOM2; ROOM3 ; ROOM4 ; ... ; ROOMn
20120313 ; 1 ; 0 ; 0; 1 ; 1 ; ... ;
20120314 ; 2 ; 2 ; 0; 2 ; 2 ; ... ;
20120315 ; 4 ; 4 ; 0; 0 ; 4 ; ... ;
20120316 ; 8 ; 8 ; 0; 0 ; 0 ; ... ;
20120317 ; 16 ; 16 ; 16; 16 ; 0 ; ... ;
3) Produce a SUM of this.
DAYVALUE ; ROOM1 ; ROOM2; ROOM3 ; ROOM4 ; ... ; ROOMn
31 ; 30 ; 16; 19 ; 7 ; ... ;
4) see if any single of the room values matches the sum of the DAYVALUE (and therefore is available all the time)
5) if 4 did not succeed create an OR value of every two of the results and compare it to the SUM of the DAYVALUE
ROOM1 OR ROOM2 = 30 <> 31
ROOM1 OR ROOM3 = 31 == 31. This is a valid match of rooms.
6) If none matched for two rooms you have to proceed this for 3 ROOMS and so on.
Using this procedure always produces the correct set of rooms that are available in the time of the visit and if you construct your database in the correct way (or have sufficiently low amount on rooms) the query should complete in a acceptable time.
Have fun (I had!)