# Brute force or algorithm

I'm not sure what kind of approach is needed but let me describe the problem:

1. Given an arbitrary number of workers (2 or more) are scheduled to work in any given month (including weekends).
2. Only one worker may work that assigned day. 2a. This worker may not work the day before or after.
3. Workers also work weekends and if possible equally distributed to the number of workers. 3a. Saturdays and Sundays are weighed equally.
4. Allot for possible vacations taken 4a. No restriction on sequential days 4b. May not take so much vacation that will interfere with rule(s) #2 and #3

What is the most flexible way to sort these criteria. What is this type of problem called?

Can someone to point me to the right direction so I can read and learn about it. Obviously if this is something that is already been solved with an algorithm, point me to the right paper or book so I can read and understand it.

Clarification: I'm not looking for how many [total] days and weekends each worker would work but a way to [evenly] distribute the days worked in that month.

E.g. Workers A B C; A requested vacation 17 to 20

Obviously there are other permutations than the example I listed below.

``````        M  T  W  Th F  Sa Su
====================
October 1  2  3  4  5  6  7
2012    A  B  C  A  B  C  A

8  9 10 11 12 13 14
B  C  A  B  C  A  B

15 16 17 18 19 20 21
C  A  B  C  B  C  A

22 23 24 25 26 27 28
B  A  C  A  C  B  C

29 30 31
A  B  A
``````
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Looks like dynamic programming, probably integer programming, since weekdays are a discrete set. –  Ben Voigt Sep 1 '12 at 20:27
As @BenVoigt Said, it looks like Integer-programming (Operation-Research) problem. –  Desolator Sep 1 '12 at 20:29
I've updated my question and I'll start reading about integer programming. –  Steve L Sep 4 '12 at 3:09