I currently have the following problem, that I want to solve with Prolog. It's an easy example, that would be easy to solve in Java/C/whatever. My problem is that I believe to be too tied to Java's thinking to actually formulate the problem in a way that makes useof Prolog's logic power.
The problem is..
I have a set of 6 arrows, either pointing left or right. Let's assume that they are in the following starting configuration:
-> <- -> <- -> <-
Now, I can switch two arrows as long as they are next to each other. My goal is to discover which sequence of actions will make the initial configuration of arrows turn into
<- <- <- -> -> ->
My initial attempt at formulating the problem is..
right(arrow_a). left(arrow_b). right(arrow_c). left(arrow_d). right(arrow_e). left(arrow_f). atPosition(1, arrow_a). atPosition(2, arrow_b). atPosition(3, arrow_c). atPosition(4, arrow_d). atPosition(5, arrow_e). atPosition(6, arrow_f).
This will tell Prolog what the initial configuration of the arrows are. But now how do I insert aditional logic in it? How to implement, for example,
switchArrows(Index) ? Is it even correct stating the initial conditions like this, in Prolog? Won't it interfere later when I try to set, for example, that
arrow_a is at position 6,
atPosition(6, arrow_a) ?