def move(player, board): xlen = len(board[0]) ylen = len(board) moves = range(xlen) random.shuffle(moves) best_move = -1 for m in moves: y = r4.findMinRow(m, board) if not r4.isValid(m, y, board): continue r4.setLoc(m, y, player, board) winner = r4.findWinner(board) r4.setLoc(m, y, 0, board) if winner == 0: best_move = m elif winner == player: best_move = m break return best_move
def abminimax(player, board, recur, alpha, beta): opp = opponent(player) winner = r4.findWinner(board) xlen = len(board[0]) ylen = len(board) if winner == player: return eval_max, -1 elif winner == opp: return eval_min, -1 if recur == 0: return eval2(player, board), -1 best_move = -1 valid_moves = [] moves = range(xlen) random.shuffle(moves) for x in moves: y = r4.findMinRow(x, board) if r4.isValid(x, y, board): valid_moves.append(x) else: continue r4.setLoc(x, y, player, board) score, bluh = abminimax(opp, board, recur - 1, -beta, -alpha) r4.setLoc(x, y, 0, board) if score < beta: beta = score best_move = x if beta <= alpha: #print "ab pruning, returning %s" % str((beta, recur, best_move)) return -beta, best_move # if there are no valid moves if len(valid_moves) == 0: beta = min(beta, 0) # if you are going to lose... elif beta == eval_max: # this is a random move, because moves was shuffled best_move = valid_moves[0] return -beta, best_move
def minimax(player, board, recur): opp = opponent(player) winner = r4.findWinner(board) xlen = len(board[0]) ylen = len(board) if winner == player: return eval_max, -1, 0 elif winner == opp: return eval_min, -1, 0 if recur == 0: return eval(player, board), -1, 0 min_score = eval_max min_time = recur best_move = -1 valid_moves = [] moves = range(xlen) random.shuffle(moves) for x in moves: y = r4.findMinRow(x, board) if r4.isValid(x, y, board): valid_moves.append(x) else: continue r4.setLoc(x, y, player, board) score, m, time = minimax(opp, board, recur - 1) r4.setLoc(x, y, 0, board) if (score < min_score or score == min_score and time < min_time): min_score = score best_move = x min_time = time # if there are no valid moves if len(valid_moves) == 0: min_score = 0 # if you are going to lose... elif min_score == eval_max: # this is a random move, because moves was shuffled best_move = valid_moves[0] return -min_score, best_move, min_time + 1