Ejemplo n.º 1
0
 def goLeft():
     if player1.pos.col == 0 or self.isVwall(player1.pos.row,
                                             player1.pos.col - 1):
         return
     if (player2.pos.row == player1.pos.row
             and player2.pos.col == player1.pos.col - 1) or (
                 player3.pos.row == player1.pos.row
                 and player3.pos.col == player1.pos.col - 1) or (
                     player4.pos.row == player1.pos.row
                     and player4.pos.col == player1.pos.col - 1):
         if player1.pos.col == 1 or self.isVwall(
                 player1.pos.row, player1.pos.col -
                 2) or (player2.pos.row == player1.pos.row
                        and player2.pos.col == player1.pos.col - 2) or (
                            player3.pos.row == player1.pos.row
                            and player3.pos.col == player1.pos.col - 2
                        ) or (player4.pos.row == player1.pos.row and
                              player4.pos.col == player1.pos.col - 2):
             if not (player1.pos.row == 0 or self.isHwall(
                     player1.pos.row - 1, player1.pos.col - 1)):
                 pm.append(
                     Position(player1.pos.row - 1, player1.pos.col - 1))
             if not (player1.pos.row == 8 or self.isHwall(
                     player1.pos.row, player1.pos.col - 1)):
                 pm.append(
                     Position(player1.pos.row + 1, player1.pos.col - 1))
         else:
             pm.append(Position(player1.pos.row, player1.pos.col - 2))
     else:
         pm.append(Position(player1.pos.row, player1.pos.col - 1))
Ejemplo n.º 2
0
 def goDown():
     if player1.pos.row == 8 or self.isHwall(player1.pos.row,
                                             player1.pos.col):
         return
     if (player2.pos.row == player1.pos.row + 1
             and player2.pos.col == player1.pos.col) or (
                 player3.pos.row == player1.pos.row + 1
                 and player3.pos.col == player1.pos.col) or (
                     player4.pos.row == player1.pos.row + 1
                     and player4.pos.col == player1.pos.col):
         if player1.pos.row == 7 or self.isHwall(
                 player1.pos.row + 1, player1.pos.col) or (
                     player3.pos.row == player1.pos.row + 2
                     and player3.pos.col == player1.pos.col) or (
                         player4.pos.row == player1.pos.row + 2
                         and player4.pos.col == player1.pos.col) or (
                             player2.pos.row == player1.pos.row + 2
                             and player2.pos.col == player1.pos.col):
             if not (player1.pos.col == 0 or self.isVwall(
                     player1.pos.row + 1, player1.pos.col - 1)):
                 pm.append(
                     Position(player1.pos.row + 1, player1.pos.col - 1))
             if not (player1.pos.col == 8 or self.isVwall(
                     player1.pos.row + 1, player1.pos.col)):
                 pm.append(
                     Position(player1.pos.row + 1, player1.pos.col + 1))
         else:
             pm.append(Position(player1.pos.row + 2, player1.pos.col))
     else:
         pm.append(Position(player1.pos.row + 1, player1.pos.col))
Ejemplo n.º 3
0
 def goRight():
     if player1.pos.col == 8 or self.isVwall(player1.pos.row, player1.pos.col):
         return
     if player2.pos.row == player1.pos.row and player2.pos.col == player1.pos.col + 1:
         if player1.pos.col == 7 or self.isVwall(player1.pos.row, player1.pos.col + 1):
             if not(player1.pos.row == 0 or self.isHwall(player1.pos.row - 1, player1.pos.col + 1)):
                 pm.append(Position(player1.pos.row - 1, player1.pos.col + 1))
             if not(player1.pos.row == 8 or self.isHwall(player1.pos.row, player1.pos.col + 1)):
                 pm.append(Position(player1.pos.row + 1, player1.pos.col + 1))
         else:
             pm.append(Position(player1.pos.row, player1.pos.col + 2))
     else:
         pm.append(Position(player1.pos.row, player1.pos.col + 1))
Ejemplo n.º 4
0
 def goUp():
     if player1.pos.row == 0 or self.isHwall(player1.pos.row - 1, player1.pos.col):
         return
     if player2.pos.row == player1.pos.row - 1 and player2.pos.col == player1.pos.col:
         if player1.pos.row == 1 or self.isHwall(player1.pos.row - 2, player1.pos.col):
             if not(player1.pos.col == 0 or self.isVwall(player1.pos.row - 1, player1.pos.col - 1)):
                 pm.append(Position(player1.pos.row - 1, player1.pos.col - 1))
             if not(player1.pos.col == 8 or self.isVwall(player1.pos.row - 1, player1.pos.col)):
                 pm.append(Position(player1.pos.row - 1, player1.pos.col + 1))
         else:
             pm.append(Position(player1.pos.row - 2, player1.pos.col))
     else:
         pm.append(Position(player1.pos.row - 1, player1.pos.col))
Ejemplo n.º 5
0
    def shortestPath(self, player1: Player, player2: Player, player3: Player, player4: Player):
        mark = [[False for i in range(9)] for j in range(9)];
        p1 = Player(Position(player1.pos.row, player1.pos.col), None, None, player1.walls);
        q = deque();
        q.append((p1, 0));
        mark[p1.pos.row][p1.pos.col] = True;

        while q:
            p, d = q.popleft();
            if self.isGoal(p, self.source):
                return d;
            for pm in self.logic.possibleMoves(p, player2, player3, player4):
                if not mark[pm.row][pm.col]:
                    mark[pm.row][pm.col] = True;
                    p5 = Player(Position(pm.row, pm.col), None, None, player1.walls);
                    q.append((p5, d + 1));

        return -1;
Ejemplo n.º 6
0
    def shortestPath(self, player1: Player, player2: Player, goal):
        mark = [[False for i in range(9)] for j in range(9)]
        p1 = Player(Position(player1.pos.row, player1.pos.col))
        q = deque()
        q.append((p1, 0))
        mark[p1.pos.row][p1.pos.col] = True

        while q:
            p, d = q.popleft()
            if p.pos.row == goal:
                return d
            for pm in self.logic.possibleMoves(p, player2):
                if not mark[pm.row][pm.col]:
                    mark[pm.row][pm.col] = True
                    p3 = Player(Position(p.pos.row, p.pos.col))
                    p3.pos.row = pm.row
                    p3.pos.col = pm.col
                    q.append((p3, d + 1))
        return -1
Ejemplo n.º 7
0
 def isSurrounded(self, player1, player2, player3, player4, rdes, cdes):
     blocks = []
     visited = [[False for x in range(9)] for y in range(9)]
     p = Player(Position(player1.pos.row, player1.pos.col))
     blocks.append(p.pos)
     while blocks:
         p.pos = blocks.pop()
         temp = self.possibleMoves(p, player2, player3, player4)
         for t in temp:
             if not visited[t.row][t.col]:
                 if t.row in rdes or t.col in cdes:
                     return False
                 visited[t.row][t.col] = True
                 blocks.append(t)
     return True
Ejemplo n.º 8
0
    def minimaxTree(self, player1: Player, player2: Player, player3: Player, player4: Player, d, l, r):
        sources = [];
        if self.source == 'r0':
            sources = ['r0', 'c8', 'r8', 'c0']
        if self.source == 'c8':
            sources = ['c8', 'r8', 'c0', 'r0']
        if self.source == 'r8':
            sources = ['r8', 'c0', 'r0', 'c8']
        if self.source == 'c0':
            sources = ['c0', 'r0', 'c8', 'r8']
        
        if d == 3:
            return self.heuristic(player1, player2, player3, player4, sources);

        if self.isGoal(player1, sources[0]):
            return 80;
        elif self.isGoal(player2, sources[1]) or self.isGoal(player3, sources[2]) or self.isGoal(player4, sources[3]):
            return 0;

        ps = [];
        if self.source == 'c0':
            ps = [player2, player3, player4, player1];
        elif self.source == 'r8':
            ps = [player3, player4, player1, player2];
        elif self.source == 'c8':
            ps = [player4, player1, player2, player3];
        else:
            ps = [player1, player2, player3, player4];
        
        if d % 4 == 0:
            #max
            alphaBeta = 0;
            for pm in self.logic.possibleMoves(player1, player2, player3, player4):
                p = Player(Position(pm.row, pm.col), None, None, player1.walls);
                a = self.minimaxTree(p, player2, player3, player4, d+1, l, r);
                alphaBeta = max(alphaBeta, a);
                if a >= r:
                    return alphaBeta;
                l = max(l, a);
            if player1.walls > 0:
                for row in range(player2.pos.row - 2, player2.pos.row + 2):
                    for col in range(player2.pos.col - 2, player2.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.vwalls[row][col] = False;
                for row in range(player3.pos.row - 2, player3.pos.row + 2):
                    for col in range(player3.pos.col - 2, player3.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.vwalls[row][col] = False;
                for row in range(player4.pos.row - 2, player4.pos.row + 2):
                    for col in range(player4.pos.col - 2, player4.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = max(alphaBeta, a);
                            if a >= r:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            l = max(l, a);
                            self.logic.vwalls[row][col] = False;
            return alphaBeta;

        elif d % 4 == 1:
        #min
            alphaBeta = 80;
            for pm in self.logic.possibleMoves(player2, player1, player3, player4):
                p = Player(Position(pm.row, pm.col), None, None, player2.walls);
                a = self.minimaxTree(player1, p, player3, player4, d+1, l, r);
                alphaBeta = min(alphaBeta, a);
                if a <= l:
                    return alphaBeta;
                r = max(r, a);
            if player2.walls > 0:
                for row in range(player1.pos.row - 2, player1.pos.row + 2):
                    for col in range(player1.pos.col - 2, player1.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.vwalls[row][col] = False;
            return alphaBeta;

        elif d % 4 == 2:
            #min
            alphaBeta = 80;
            for pm in self.logic.possibleMoves(player3, player1, player2, player4):
                p = Player(Position(pm.row, pm.col), None, None, player3.walls);
                a = self.minimaxTree(player1, player2, p, player4, d+1, l, r);
                alphaBeta = min(alphaBeta, a);
                if a <= l:
                    return alphaBeta;
                r = max(r, a);
            if player3.walls > 0:
                for row in range(player1.pos.row - 2, player1.pos.row + 2):
                    for col in range(player1.pos.col - 2, player1.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.vwalls[row][col] = False;  
            return alphaBeta;

        elif d % 4 == 3:
            #min
            alphaBeta = 80;
            for pm in self.logic.possibleMoves(player4, player1, player3, player2):
                p = Player(Position(pm.row, pm.col), None, None, player4.walls);
                a = self.minimaxTree(player1, player2, player3, p, d+1, l, r);
                alphaBeta = min(alphaBeta, a);
                if a <= l:
                    return alphaBeta;
                r = max(r, a);
            if player4.walls > 0:
                for row in range(player1.pos.row - 2, player1.pos.row + 2):
                    for col in range(player1.pos.col - 2, player1.pos.col + 2):
                        if self.logic.addHwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.hwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.hwalls[row][col] = False;
                        if self.logic.addVwall(col, row, ps):
                            a = self.minimaxTree(player1, player2, player3, player4, d + 1, l, r);
                            a = min(alphaBeta, a);
                            if a <= l:
                                self.logic.vwalls[row][col] = False;
                                return alphaBeta;
                            r = min(r, a);
                            self.logic.vwalls[row][col] = False;      
            return alphaBeta;
Ejemplo n.º 9
0
    def chooseAnAction(self, players):
        p1 = Player(Position(players[0].pos.row, players[0].pos.col), None, None, players[0].walls)
        p2 = Player(Position(players[1].pos.row, players[1].pos.col), None, None, players[1].walls)
        p3 = Player(Position(players[2].pos.row, players[2].pos.col), None, None, players[2].walls)
        p4 = Player(Position(players[3].pos.row, players[3].pos.col), None, None, players[3].walls)
        ps = []
        if self.source == 'c0':
            ps = players[1:4] + players[0:1]
        elif self.source == 'r8':
            ps = players[2:4] + players[0:2]
        elif self.source == 'c8':
            ps = players[3:4] + players[0:3]
        else:
            ps = players
        alphaBeta = -1
        r = 0
        c = 0
        action = ""

        sp = -1;
        sr = 0;
        sc = 0;
        pmList = self.logic.possibleMoves(p1, p2, p3, p4);
        for pm in pmList:
            p = Player(Position(pm.row, pm.col), None, None, p1.walls);
            l = self.shortestPath(p, p2, p3, p4);
            if sp == -1 or l < sp:
                sp = l;
                sr = pm.row;
                sc = pm.col;
        

        for pm in pmList:
            p = Player(Position(pm.row, pm.col), None, None, p1.walls)
            a = self.minimaxTree(p, p2, p3, p4, 1, 0, 80)

            if pm.row == sr and pm.col == sc:
                a += 0.3;

            if a > alphaBeta:
                alphaBeta = a
                r = pm.row
                c = pm.col
                action = "move"
        if players[0].walls > 0:
            for row in range(players[2].pos.row - 2, players[2].pos.row + 2):
                for col in range(players[2].pos.col - 2, players[2].pos.col + 2):
                    if self.logic.addHwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80)
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != 'move'):
                            alphaBeta = a
                            r = row
                            c = col
                            action = 'add Hwall'
                        self.logic.hwalls[row][col] = False
                    if self.logic.addVwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80)
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != "move"):
                            alphaBeta = a
                            r = row
                            c = col
                            action = "add Vwall"
                        self.logic.vwalls[row][col] = False
            for row in range(players[3].pos.row - 2, players[3].pos.row + 2):
                for col in range(players[3].pos.col - 2, players[3].pos.col + 2):
                    if self.logic.addHwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80)
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != 'move'):
                            alphaBeta = a
                            r = row
                            c = col
                            action = 'add Hwall'
                        self.logic.hwalls[row][col] = False
                    if self.logic.addVwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80)
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != "move"):
                            alphaBeta = a
                            r = row
                            c = col
                            action = "add Vwall";
                        self.logic.vwalls[row][col] = False;
            for row in range(players[1].pos.row - 2, players[1].pos.row + 2):
                for col in range(players[1].pos.col - 2, players[1].pos.col + 2):
                    if self.logic.addHwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80);
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != 'move'):
                            alphaBeta = a;
                            r = row;
                            c = col;
                            action = 'add Hwall';
                        self.logic.hwalls[row][col] = False;
                    if self.logic.addVwall(col, row, ps):
                        a = self.minimaxTree(p1, p2, p3, p4, 1, 0, 80);
                        if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5 and action != "move"):
                            alphaBeta = a;
                            r = row;
                            c = col;
                            action = "add Vwall";
                        self.logic.vwalls[row][col] = False;
        return action, r, c;
Ejemplo n.º 10
0
 def minimaxTree(self, player1: Player, player2: Player, d, l, r, maxDepth):
     # TODO find the best depth for algorithm
     if d == maxDepth:
         return self.heuristic(player1, player2)
     if player1.pos.row == self.goal:
         return 80
     g = 0 if self.goal == 8 else 8
     if player2.pos.row == g:
         return 0
     if d % 2 == 1:
         # min
         alphaBeta = 80
         for pm in self.logic.possibleMoves(player2, player1):
             p = Player(Position(pm.row, pm.col), None, None, player2.walls)
             a = self.minimaxTree(player1, p, d + 1, l, r, maxDepth)
             alphaBeta = min(alphaBeta, a)
             if a <= l:
                 return alphaBeta
             r = min(r, a)
         if player2.walls > 0:
             for row in range(player1.pos.row - 1, player1.pos.row + 2):
                 for col in range(player1.pos.col - 2, player1.pos.col + 2):
                     if self.logic.addHwall(col, row, player1, player2,
                                            self.goal):
                         a = self.minimaxTree(player1, player2, d + 1, l, r,
                                              maxDepth)
                         alphaBeta = min(alphaBeta, a)
                         if a <= l:
                             self.logic.hwalls[row][col] = False
                             return alphaBeta
                         r = min(r, a)
                         self.logic.hwalls[row][col] = False
                     if (row != 0 and row != 8) or (self.logic.isVwall(2 if row == 0 else 6, col)) \
                             or (self.logic.isHwall(row, col)) or (self.logic.isHwall(row, col + 1)):
                         if self.logic.addVwall(col, row, player1, player2,
                                                self.goal):
                             a = self.minimaxTree(player1, player2, d + 1,
                                                  l, r, maxDepth)
                             alphaBeta = min(alphaBeta, a)
                             if a <= l:
                                 self.logic.vwalls[row][col] = False
                                 return alphaBeta
                             r = min(r, a)
                             self.logic.vwalls[row][col] = False
         return alphaBeta
     else:
         # max
         alphaBeta = 0
         for pm in self.logic.possibleMoves(player1, player2):
             p = Player(Position(pm.row, pm.col), None, None, player1.walls)
             a = self.minimaxTree(p, player2, d + 1, l, r, maxDepth)
             alphaBeta = max(alphaBeta, a)
             if a >= r:
                 return alphaBeta
             l = max(l, a)
         if player1.walls > 0:
             for row in range(player2.pos.row - 1, player2.pos.row + 2):
                 for col in range(player2.pos.col - 2, player2.pos.col + 2):
                     if self.logic.addHwall(col, row, player1, player2,
                                            self.goal):
                         a = self.minimaxTree(player1, player2, d + 1, l, r,
                                              maxDepth)
                         alphaBeta = max(alphaBeta, a)
                         if a >= r:
                             self.logic.hwalls[row][col] = False
                             return alphaBeta
                         l = max(l, a)
                         self.logic.hwalls[row][col] = False
                     if (row != 0 and row != 8) or (self.logic.isVwall(2 if row == 0 else 6, col)) \
                             or (self.logic.isHwall(row, col)) or (self.logic.isHwall(row, col + 1)):
                         if self.logic.addVwall(col, row, player1, player2,
                                                self.goal):
                             a = self.minimaxTree(player1, player2, d + 1,
                                                  l, r, maxDepth)
                             alphaBeta = max(alphaBeta, a)
                             if a >= r:
                                 self.logic.vwalls[row][col] = False
                                 return alphaBeta
                             l = max(l, a)
                             self.logic.vwalls[row][col] = False
         return alphaBeta
Ejemplo n.º 11
0
 def chooseAnAction(self, player1: Player, player2: Player):
     start = time.process_time()
     if player1.walls + player2.walls == self.targetForChangeDepth:
         self.depth += 1
         self.targetForChangeDepth -= 5
     p1 = Player(Position(player1.pos.row, player1.pos.col), None, None,
                 player1.walls)
     p2 = Player(Position(player2.pos.row, player2.pos.col), None, None,
                 player2.walls)
     alphaBeta = -1
     r = 0
     c = 0
     action = ""
     sp = -1
     sr = 0
     sc = 0
     for pm in self.logic.possibleMoves(player1, player2):
         p = Player(Position(pm.row, pm.col), None, None, p1.walls)
         l = self.shortestPath(p, p2, self.goal)
         if sp == -1 or l < sp:
             sp = l
             sr = pm.row
             sc = pm.col
     check = False
     if len(self.logic.possibleMoves(player1,
                                     player2)) > 1 and self.prevRow != -1:
         check = True
     for pm in self.logic.possibleMoves(player1, player2):
         if check and pm.row == self.prevRow and pm.col == self.prevCol:
             continue
         p = Player(Position(pm.row, pm.col), None, None, p1.walls)
         a = self.minimaxTree(p, p2, 1, 0, 80, self.depth)
         # if pm.row == sr and pm.col == sc:
         #     a += 0.3
         # print(a, "move", pm.row, pm.col)
         if a > alphaBeta or (a == alphaBeta and random.randint(0, 10) < 5):
             alphaBeta = a
             r = pm.row
             c = pm.col
             action = "move"
     if player1.walls > 0:
         for row in range(player2.pos.row - 2, player2.pos.row + 2):
             for col in range(player2.pos.col - 2, player2.pos.col + 2):
                 if self.logic.addHwall(col, row, p1, p2, self.goal):
                     a = self.minimaxTree(p1, p2, 1, 0, 80, self.depth)
                     # print(a, "add Hwall", row, col)
                     if a > alphaBeta or (a == alphaBeta
                                          and random.randint(0, 10) < 5
                                          and action != "move"):
                         alphaBeta = a
                         r = row
                         c = col
                         action = "add Hwall"
                     self.logic.hwalls[row][col] = False
                 if (row != 0 and row != 8) or (self.logic.isVwall(2 if row == 0 else 6, col)) \
                         or (self.logic.isHwall(row, col)) or (self.logic.isHwall(row, col + 1)):
                     if self.logic.addVwall(col, row, p1, p2, self.goal):
                         a = self.minimaxTree(p1, p2, 1, 0, 80, self.depth)
                         # print(a, "add Vwall", row, col)
                         if a > alphaBeta or (a == alphaBeta
                                              and random.randint(0, 10) < 5
                                              and action != "move"):
                             alphaBeta = a
                             r = row
                             c = col
                             action = "add Vwall"
                         self.logic.vwalls[row][col] = False
     if action == "move":
         self.prevRow = player1.pos.row
         self.prevCol = player1.pos.col
     else:
         self.prevRow = -1
         self.prevCol = -1
     t = time.process_time() - start
     return action, r, c, t