You might want to analyze this game according to standard game theory before trying to reinvent the wheel (and risking to make it square).
Fair enough,
Players don't have access to each others' source code.
Well... This article is tagged decision_theory, not game_theory. The goal is not merely to explore solutions to this game, the goal is to explore solution-finding strategies to this game, or at least lay the foundations for that.
I think your CliqueBots need the insight behind Emile's hashMe proposal - they each need a unique ID. Otherwise, when CliqueBot_0 plays a copy, "X xor Y xor ID" is 0, so both play B, so they both lose.
Well... This article is tagged decision_theory, not game_theory. The goal is not merely to explore solutions to this game, the goal is to explore solution-finding strategies to this game, or at least lay the foundations for that.
Isn't that exactly the topic of game theory?
I think your CliqueBots need the insight behind Emile's hashMe proposal - they each need a unique ID. Otherwise, when CliqueBot_0 plays a copy, "X xor Y xor ID" is 0, so both play B, so they both lose.
Yes, I assumed that the execution environment provides the bots with a ...
Suppose that Red got to move first. There are some games where moving first is terrible - take Rock Paper Scissors for example. But in this game, moving first is great, because you get to narrow down your opponent's options! If Red goes first, Red picks 'A', and then Blue has to pick 'B' to get a cookie.
This is basically kidnapping. Red has taken all three cookies hostage, and nobody gets any cookies unless Blue agrees to Red's demands for two cookies. Whoever gets to move first plays the kidnapper, and the other player has to decide whether to accede to their ransom demand in exchange for a cookie.
What if neither player gets to move before the other, but instead they have their moves revealed at the same time?
Pre-Move Chat:
Red: "I'm going to pick A, you'd better pick B."
Blue: "I don't care what you pick, I'm picking A. You can pick A too if you really want to get 0 cookies."
Red: "Okay I'm really seriously going to pick A. Please pick B."
Blue: "Nah, don't think so. I'll just pick A. You should just pick B."
And so on. They are now playing a game of Chicken. Whoever swerves first is worse off, but if neither of them give in, they crash into each other and die and get no cookies.
So, The Question: is it better to play A, or to play B?