# Using minimax search for card games with imperfect information

I want to use minimax search (with alpha-beta pruning), or rather negamax search, to make a computer program play a card game.

The card game actually consists of 4 players. So in order to be able to use minimax etc., I simplify the game to "me" against the "others". After each "move", you can objectively read the current state's evaluation from the game itself. When all 4 players have placed the card, the highest wins them all - and the cards' values count.

As you don't know how the distribution of cards between the other 3 players is exactly, I thought you must simulate all possible distributions ("worlds") with the cards that are not yours. You have 12 cards, the other 3 players have 36 cards in total.

So my approach is this algorithm, where `player` is a number between 1 and 3 symbolizing the three computer players that the program might need to find moves for. And `-player` stands for the opponents, namely all the other three players together.

``````private Card computerPickCard(GameState state, ArrayList<Card> cards) {
int bestScore = Integer.MIN_VALUE;
Card bestMove = null;
int nCards = cards.size();
for (int i = 0; i < nCards; i++) {
if (state.moveIsLegal(cards.get(i))) { // if you are allowed to place this card
int score;
GameState futureState = state.testMove(cards.get(i)); // a move is the placing of a card (which returns a new game state)
score = negamaxSearch(-state.getPlayersTurn(), futureState, 1, Integer.MIN_VALUE, Integer.MAX_VALUE);
if (score > bestScore) {
bestScore = score;
bestMove = cards.get(i);
}
}
}
// now bestMove is the card to place
}

private int negamaxSearch(int player, GameState state, int depthLeft, int alpha, int beta) {
ArrayList<Card> cards;
if (player >= 1 && player <= 3) {
cards = state.getCards(player);
}
else {
if (player == -1) {
cards = state.getCards(0);
}
else if (player == -2) {
cards = state.getCards(0);
}
else {
cards = state.getCards(0);
}
}
if (depthLeft <= 0 || state.isEnd()) { // end of recursion as the game is finished or max depth is reached
if (player >= 1 && player <= 3) {
return state.getCurrentPoints(player); // player's points as a positive value (for self)
}
else {
return -state.getCurrentPoints(-player); // player's points as a negative value (for others)
}
}
else {
int score;
int nCards = cards.size();
if (player > 0) { // make one move (it's player's turn)
for (int i = 0; i < nCards; i++) {
GameState futureState = state.testMove(cards.get(i));
if (futureState != null) { // wenn Zug gültig ist
score = negamaxSuche(-player, futureState, depthLeft-1, -beta, -alpha);
if (score >= beta) {
return score;
}
if (score > alpha) {
alpha = score; // alpha acts like max
}
}
}
return alpha;
}
else { // make three moves (it's the others' turn)
for (int i = 0; i < nCards; i++) {
GameState futureState = state.testMove(cards.get(i));
if (futureState != null) { // if move is valid
for (int k = 0; k < nCards; k++) {
if (k != i) {
GameState futureStateLevel2 = futureState.testMove(cards.get(k));
if (futureStateLevel2 != null) { // if move is valid
for (int m = 0; m < nCards; m++) {
if (m != i && m != k) {
GameState futureStateLevel3 = futureStateLevel2.testMove(cards.get(m));
if (futureStateLevel3 != null) { // if move is valid
score = negamaxSuche(-player, futureStateLevel3, depthLeft-1, -beta, -alpha);
if (score >= beta) {
return score;
}
if (score > alpha) {
alpha = score; // alpha acts like max
}
}
}
}
}
}
}
}
}
return alpha;
}
}
}
``````

This seems to work fine, but for a depth of 1 (`depthLeft=1`), the program already needs to calculate 50,000 moves (placed cards) on average. This is too much, of course!

So my questions are:

1. Is the implementation correct at all? Can you simulate a game like this? Regarding the imperfect information, especially?
2. How can you improve the algorithm in speed and work load?
3. Can I, for example, reduce the set of possible moves to a random set of 50% to improve speed, while keeping good results?
4. I found UTC algorithm to be a good solution (maybe). Do you know this algorithm? Can you help me implementing it?
-