I'm having some troubles in finding if, under certain rules, is possible to code an efficient AI for the sinking part of battleship.
- the length of the shortest ship could even be 1. You get to know it at the beginning, when game manager gives you the ships array to place
- ships can't overlap, but they may be adjacent
- game manager tells you if your last shot was an hit, a sunk or a miss. No information about the length of the ship you hitted/sunk
Well, what I don't manage to express formally is the length of sunk ships. I can't see the way to understand, once I sunk a ship, the length of it.
I'd like to use a density approach to estimate where to shot based on the length of still in game ships, but without a system to get the length of a sunk ship, my density never gets "smarter". For the time being, I just save North/South/East/West spots of every hit and consider the job done once my stack is empty. That's very turns consuming of course.
I try to clarify what I'm asking: suppose you have a bidimensional array where you keep trace of your shoots result in this way:
u = unknow spot
m = you shooted on x, y and game manager told you "miss"
h = you shooted on x, y and game manager told you "hit"
s = you shooted on x, y and game manager told you "sunk"
suppose the board is 5 * 5. At the beginning you have this:
1 2 3 4 1 u u u u 2 u u u u 3 u u u u 4 u u u u
suppose you shoot on 2, 3 and game manager tells you "hit", now you have:
1 2 3 4 1 u u u u 2 u u h u 3 u u u u 4 u u u u
ok, now you start looking around your last shot. No matter if you use a density approach or a stack of N/S/E/W spots from where you hitted. Let's say your algorithm came up with 3, 3. This time is miss:
1 2 3 4 1 u u u u 2 u u h u 3 u u m u 4 u u u u
so now you try 2, 2, and it's an hit:
1 2 3 4 1 u u u u 2 u h h u 3 u u m u 4 u u u u
now let's say 2,1 and game manager tell you "sunk":
1 2 3 4 1 u u u u 2 s h h u 3 u u m u 4 u u u u
Well: knowing that ships may be adjacent, how you get to know the length of the ship you've just sunk without shooting on every single N/S/E/W spot? In this case for istance you'd need to shoot on 2,4 and on 1,3 to be almost sure about what you sunk, and it's turns consuming. See Mark Bessey example below: that kind of situations are even more turns consuming && uncertain than mine.
So the question is simple: there isn't anything better than this N/S/E/W time consuming && uncertain approach?
Hope it clarifies the matter.
p.s. I'm aware of this question, but I can't read C# language... just started some months ago with java :)
p.s. 2 I'm aware of this too (see last illustrations) where as far as I understand the things look quite the same except for the fact that he considers the min length = 2. I could always code 2 algorithms (one if I detect a min lenght > 1, one more "turns consuming" if min length = 1), but I don't get how he manage the thing... looks like he considers only density...
p.s. 3 Why closed? I'm looking for an algorithm working under conditions... I gave conditions and what the algorithm should do. How can I clarify it? How should I express this kind of question? (sorry for asking, no polemic intended, just learning)