- AI will now block and attack a little more sanely. The sim methods are not working right now, so they were commented out.

2025-12-22 11:32:00 -08:00 · 2012-11-03 21:34:32 -05:00 · 2012-11-03 21:34:32 -05:00 · 1d7e9e55be
commit 1d7e9e55be
parent fec750ef01
1 changed files with 323 additions and 273 deletions
--- a/Mage.Server.Plugins/Mage.Player.AI.MA/src/mage/player/ai/ComputerPlayer6.java
+++ b/Mage.Server.Plugins/Mage.Player.AI.MA/src/mage/player/ai/ComputerPlayer6.java
@ -25,7 +25,6 @@
 *  authors and should not be interpreted as representing official policies, either expressed
 *  or implied, of BetaSteward_at_googlemail.com.
 */
-
 package mage.player.ai;

 import mage.Constants.Outcome;
@ -68,6 +67,7 @@ import mage.target.TargetCard;
 import java.io.File;
 import java.util.*;
 import java.util.concurrent.*;
+import mage.player.ai.utils.RateCard;

 /**
 *
@ -77,7 +77,6 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements

    private static final transient org.apache.log4j.Logger logger = org.apache.log4j.Logger.getLogger(ComputerPlayer6.class);
    private static final ExecutorService pool = Executors.newFixedThreadPool(1);
-
    protected int maxDepth;
    protected int maxNodes;
    protected int maxThink;
@ -87,11 +86,9 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    protected Combat combat;
    protected int currentScore;
    protected SimulationNode2 root;
-
    private static final String FILE_WITH_INSTRUCTIONS = "config/ai.please.cast.this.txt";
    private List<String> suggested = new ArrayList<String>();
    protected Set<String> actionCache;
-
    private static final List<TreeOptimizer> optimizers = new ArrayList<TreeOptimizer>();

    static {
@ -113,8 +110,9 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        super(player);
        this.maxDepth = player.maxDepth;
        this.currentScore = player.currentScore;
-        if (player.combat != null)
+        if (player.combat != null) {
            this.combat = player.combat.copy();
+        }
        this.actions.addAll(player.actions);
        this.targets.addAll(player.targets);
        this.choices.addAll(player.choices);
@ -184,8 +182,8 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements

    protected void printOutState(Game game, UUID playerId) {
        Player player = game.getPlayer(playerId);
-        System.out.println("Turn::"+game.getTurnNum());
-        System.out.println("[" + game.getPlayer(playerId).getName() + "] " + game.getTurn().getStepType().name() +", life=" + player.getLife());
+        System.out.println("Turn::" + game.getTurnNum());
+        System.out.println("[" + game.getPlayer(playerId).getName() + "] " + game.getTurn().getStepType().name() + ", life=" + player.getLife());
        Player opponent = game.getPlayer(game.getOpponents(playerId).iterator().next());
        System.out.println("[Opponent] life=" + opponent.getLife());

@ -197,25 +195,25 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        System.out.println("Hand: " + s);
        s = "[";
        for (Permanent permanent : game.getBattlefield().getAllPermanents()) {
-             if (permanent.getOwnerId().equals(player.getId())) {
-                 s += permanent.getName();
-                 if (permanent.isTapped()) {
-                    s+="(tapped)";
-                 }
-                 if (permanent.isAttacking()) {
-                    s+="(attacking)";
-                 }
-                 s+=";";
-             }
+            if (permanent.getOwnerId().equals(player.getId())) {
+                s += permanent.getName();
+                if (permanent.isTapped()) {
+                    s += "(tapped)";
+                }
+                if (permanent.isAttacking()) {
+                    s += "(attacking)";
+                }
+                s += ";";
+            }
        }
        s += "]";
        System.out.println("Permanents: " + s);
    }

    protected void act(Game game) {
-        if (actions == null || actions.size() == 0)
+        if (actions == null || actions.size() == 0) {
            pass();
-        else {
+        } else {
            boolean usedStack = false;
            while (actions.peek() != null) {
                Ability ability = actions.poll();
@ -232,23 +230,25 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                    }
                }
                this.activateAbility((ActivatedAbility) ability, game);
-                if (ability.isUsesStack())
+                if (ability.isUsesStack()) {
                    usedStack = true;
+                }
                if (!suggested.isEmpty() && !(ability instanceof PassAbility)) {
                    Iterator<String> it = suggested.iterator();
                    while (it.hasNext()) {
                        Card card = game.getCard(ability.getSourceId());
                        String action = it.next();
-                        System.out.println("action="+action+";card="+card);
+                        System.out.println("action=" + action + ";card=" + card);
                        if (action.equals(card.getName())) {
-                            System.out.println("removed from suggested="+action);
+                            System.out.println("removed from suggested=" + action);
                            it.remove();
                        }
                    }
                }
            }
-            if (usedStack)
+            if (usedStack) {
                pass();
+            }
        }
    }

@ -266,10 +266,10 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                //GameStateEvaluator2.evaluate(playerId, root.getGame());
                int bestScore = root.getScore();
                //if (bestScore > currentScore) {
-                    actions = new LinkedList<Ability>(root.abilities);
-                    combat = root.combat;
+                actions = new LinkedList<Ability>(root.abilities);
+                combat = root.combat;
                //} else {
-                    //System.out.println("[" + game.getPlayer(playerId).getName() + "] Action: not better score");
+                //System.out.println("[" + game.getPlayer(playerId).getName() + "] Action: not better score");
                //}
            } else {
                System.out.println("[" + game.getPlayer(playerId).getName() + "] Action: skip");
@ -292,25 +292,24 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            if (root.playerId.equals(playerId) && root.abilities != null && game.getState().getValue(true).hashCode() == test.gameValue) {

                /*
-                // Try to fix horizon effect
-                if (root.combat == null || root.combat.getAttackers().size() == 0) {
-                    FilterCreatureForAttack attackFilter = new FilterCreatureForAttack();
-                    attackFilter.getControllerId().add(playerId);
-                    List<Permanent> attackers = game.getBattlefield().getAllActivePermanents(attackFilter);
-                    if (attackers.size() > 0) {
-                        // we have attackers but don't attack with any of them
-                        // let's try once again to avoid possible horizon effect
-                        return false;
-                    }
-                }
-                */
+                 // Try to fix horizon effect
+                 if (root.combat == null || root.combat.getAttackers().size() == 0) {
+                 FilterCreatureForAttack attackFilter = new FilterCreatureForAttack();
+                 attackFilter.getControllerId().add(playerId);
+                 List<Permanent> attackers = game.getBattlefield().getAllActivePermanents(attackFilter);
+                 if (attackers.size() > 0) {
+                 // we have attackers but don't attack with any of them
+                 // let's try once again to avoid possible horizon effect
+                 return false;
+                 }
+                 }
+                 */

                logger.info("simulating -- continuing previous action chain");
                actions = new LinkedList<Ability>(root.abilities);
                combat = root.combat;
                return true;
-            }
-            else {
+            } else {
                return false;
            }
        }
@ -320,7 +319,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    protected int minimaxAB(SimulationNode2 node, int depth, int alpha, int beta) {
        UUID currentPlayerId = node.getGame().getPlayerList().get();
        SimulationNode2 bestChild = null;
-        for (SimulationNode2 child: node.getChildren()) {
+        for (SimulationNode2 child : node.getChildren()) {
            Combat _combat = child.getCombat();
            if (alpha >= beta) {
                //logger.info("alpha beta pruning");
@ -330,7 +329,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                //logger.info("simulating -- reached end-state, count=" + SimulationNode2.nodeCount);
                break;
            }
-            int val = addActions(child, depth-1, alpha, beta);
+            int val = addActions(child, depth - 1, alpha, beta);
            if (!currentPlayerId.equals(playerId)) {
                if (val < beta) {
                    beta = val;
@ -345,8 +344,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                    logger.debug("lose - break");
                    break;
                }
-            }
-            else {
+            } else {
                if (val > alpha) {
                    alpha = val;
                    bestChild = child;
@ -363,20 +361,20 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            }
        }
        node.children.clear();
-        if (bestChild != null)
+        if (bestChild != null) {
            node.children.add(bestChild);
+        }
        if (!currentPlayerId.equals(playerId)) {
            //logger.info("returning minimax beta: " + beta);
            return beta;
-        }
-        else {
+        } else {
            //logger.info("returning minimax alpha: " + alpha);
            return alpha;
        }
    }

    protected SearchEffect getSearchEffect(StackAbility ability) {
-        for (Effect effect: ability.getEffects()) {
+        for (Effect effect : ability.getEffects()) {
            if (effect instanceof SearchEffect) {
                return (SearchEffect) effect;
            }
@ -391,7 +389,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            if (effect != null && ability.getControllerId().equals(playerId)) {
                Target target = effect.getTarget();
                if (!target.doneChosing()) {
-                    for (UUID targetId: target.possibleTargets(ability.getSourceId(), ability.getControllerId(), game)) {
+                    for (UUID targetId : target.possibleTargets(ability.getSourceId(), ability.getControllerId(), game)) {
                        Game sim = game.copy();
                        StackAbility newAbility = (StackAbility) ability.copy();
                        SearchEffect newEffect = getSearchEffect((StackAbility) newAbility);
@ -416,8 +414,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    protected Integer addActionsTimed() {
        FutureTask<Integer> task = new FutureTask<Integer>(new Callable<Integer>() {
            @Override
-            public Integer call() throws Exception
-            {
+            public Integer call() throws Exception {
                return addActions(root, maxDepth, Integer.MIN_VALUE, Integer.MAX_VALUE);
            }
        });
@ -458,19 +455,16 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            UUID currentPlayerId = node.getGame().getPlayerList().get();
            //logger.info("reached - " + val + ", playerId=" + playerId + ", node.pid="+currentPlayerId);
            return val;
-        }
-        else if (node.getChildren().size() > 0) {
+        } else if (node.getChildren().size() > 0) {
            logger.debug("simulating -- somthing added children:" + node.getChildren().size());
-            val = minimaxAB(node, depth-1, alpha, beta);
+            val = minimaxAB(node, depth - 1, alpha, beta);
            return val;
-        }
-        else {
+        } else {
            logger.debug("simulating -- alpha: " + alpha + " beta: " + beta + " depth:" + depth + " step:" + game.getTurn().getStepType() + " for player:" + (node.getPlayerId().equals(playerId) ? "yes" : "no"));
            if (allPassed(game)) {
                if (!game.getStack().isEmpty()) {
                    resolve(node, depth, game);
-                }
-                else {
+                } else {
                    game.getPlayers().resetPassed();
                    playNext(game, game.getActivePlayerId(), node);
                }
@ -481,9 +475,8 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            } else if (node.getChildren().size() > 0) {
                //declared attackers or blockers or triggered abilities
                logger.debug("simulating -- attack/block/trigger added children:" + node.getChildren().size());
-                val = minimaxAB(node, depth-1, alpha, beta);
-            }
-            else {
+                val = minimaxAB(node, depth - 1, alpha, beta);
+            } else {
                val = simulatePriority(node, game, depth, alpha, beta);
            }
        }
@ -506,7 +499,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        List<Ability> allActions = currentPlayer.simulatePriority(game);
        optimize(game, allActions);
        logger.debug("simulating -- adding " + allActions.size() + " children:" + allActions);
-        for (Ability action: allActions) {
+        for (Ability action : allActions) {
            if (Thread.interrupted()) {
                Thread.currentThread().interrupt();
                logger.debug("interrupted");
@ -515,8 +508,9 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            Game sim = game.copy();
            if (sim.getPlayer(currentPlayer.getId()).activateAbility((ActivatedAbility) action.copy(), sim)) {
                sim.applyEffects();
-                if (checkForRepeatedAction(sim, node, action, currentPlayer.getId()))
+                if (checkForRepeatedAction(sim, node, action, currentPlayer.getId())) {
                    continue;
+                }
                if (!sim.isGameOver() && action.isUsesStack()) {
                    // only pass if the last action uses the stack
                    sim.getPlayer(currentPlayer.getId()).pass();
@ -526,7 +520,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                int testVal = GameStateEvaluator2.evaluate(currentPlayer.getId(), sim);
                logger.debug("simulating -- node #:" + SimulationNode2.getCount() + " actions:" + action);
                sim.checkStateAndTriggered();
-                int val = addActions(newNode, depth-1, alpha, beta);
+                int val = addActions(newNode, depth - 1, alpha, beta);
                logger.debug("val = " + val);
                if (!currentPlayer.getId().equals(playerId)) {
                    if (val < beta) {
@ -543,8 +537,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                        logger.debug("lose - break");
                        break;
                    }
-                }
-                else {
+                } else {
                    if (val > alpha) {
                        alpha = val;
                        bestNode = newNode;
@ -553,10 +546,10 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                            bestNode.setCombat(newNode.getChildren().get(0).getCombat());
                        }
                        /*if (node.getTargets().size() > 0)
-                            targets = node.getTargets();
-                        if (node.getChoices().size() > 0)
-                            choices = node.getChoices();
-                        */
+                         targets = node.getTargets();
+                         if (node.getChoices().size() > 0)
+                         choices = node.getChoices();
+                         */
                        if (depth == maxDepth) {
                            logger.info("saved");
                            node.children.clear();
@ -588,19 +581,18 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        }
        if (!currentPlayer.getId().equals(playerId)) {
            /*if (beta == Integer.MAX_VALUE) {
-                int val = GameStateEvaluator2.evaluate(playerId, game);
-                logger.info("returning priority beta: " + val);
-                return val;
-            }*/
+             int val = GameStateEvaluator2.evaluate(playerId, game);
+             logger.info("returning priority beta: " + val);
+             return val;
+             }*/
            //logger.info("returning priority beta: " + beta);
            return beta;
-        }
-        else {
+        } else {
            /*if (alpha == Integer.MIN_VALUE) {
-                int val = GameStateEvaluator2.evaluate(playerId, game);
-                logger.info("returning priority beta: " + val);
-                return val;
-            }*/
+             int val = GameStateEvaluator2.evaluate(playerId, game);
+             logger.info("returning priority beta: " + val);
+             return val;
+             }*/
            //logger.info("returning priority alpha: " + alpha);
            return alpha;
        }
@ -644,19 +636,21 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    }

    protected boolean allPassed(Game game) {
-        for (Player player: game.getPlayers().values()) {
-            if (!player.isPassed() && !player.hasLost() && !player.hasLeft())
+        for (Player player : game.getPlayers().values()) {
+            if (!player.isPassed() && !player.hasLost() && !player.hasLeft()) {
                return false;
+            }
        }
        return true;
    }

    @Override
    public boolean choose(Outcome outcome, Choice choice, Game game) {
-        if (choices.isEmpty())
+        if (choices.isEmpty()) {
            return super.choose(outcome, choice, game);
+        }
        if (!choice.isChosen()) {
-            for (String achoice: choices) {
+            for (String achoice : choices) {
                choice.setChoice(achoice);
                if (choice.isChosen()) {
                    choices.clear();
@ -669,11 +663,12 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    }

    @Override
-    public boolean chooseTarget(Outcome outcome, Cards cards, TargetCard target, Ability source, Game game)  {
-        if (targets.isEmpty())
+    public boolean chooseTarget(Outcome outcome, Cards cards, TargetCard target, Ability source, Game game) {
+        if (targets.isEmpty()) {
            return super.chooseTarget(outcome, cards, target, source, game);
+        }
        if (!target.doneChosing()) {
-            for (UUID targetId: targets) {
+            for (UUID targetId : targets) {
                target.addTarget(targetId, source, game);
                if (target.doneChosing()) {
                    targets.clear();
@ -686,11 +681,12 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    }

    @Override
-    public boolean choose(Outcome outcome, Cards cards, TargetCard target, Game game)  {
-        if (targets.isEmpty())
+    public boolean choose(Outcome outcome, Cards cards, TargetCard target, Game game) {
+        if (targets.isEmpty()) {
            return super.choose(outcome, cards, target, game);
+        }
        if (!target.doneChosing()) {
-            for (UUID targetId: targets) {
+            for (UUID targetId : targets) {
                target.add(targetId, game);
                if (target.doneChosing()) {
                    targets.clear();
@ -702,10 +698,10 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        return true;
    }

-        @Override
+    @Override
    public boolean playXMana(VariableManaCost cost, ManaCosts<ManaCost> costs, Game game) {
        //SimulatedPlayer.simulateVariableCosts method adds a generic mana cost for each option
-        for (ManaCost manaCost: costs) {
+        for (ManaCost manaCost : costs) {
            if (manaCost instanceof GenericManaCost) {
                cost.setPayment(manaCost.getPayment());
                logger.debug("using X = " + cost.getPayment().count());
@ -721,8 +717,9 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        boolean skip = false;
        while (true) {
            Phase currentPhase = game.getPhase();
-            if (!skip)
+            if (!skip) {
                currentPhase.getStep().endStep(game, activePlayerId);
+            }
            game.applyEffects();
            switch (currentPhase.getStep().getType()) {
                case UNTAP:
@ -781,10 +778,10 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                } else {
                    game.getStep().beginStep(game, activePlayerId);
                }
-                if (game.getStep().getHasPriority())
+                if (game.getStep().getHasPriority()) {
                    break;
-            }
-            else {
+                }
+            } else {
                skip = true;
            }
        }
@ -874,34 +871,35 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        game.fireEvent(new GameEvent(GameEvent.EventType.DECLARE_BLOCKERS_STEP_PRE, null, null, activePlayerId));
        if (!game.replaceEvent(GameEvent.getEvent(GameEvent.EventType.DECLARING_BLOCKERS, activePlayerId, activePlayerId))) {
            /*for (UUID defenderId: game.getCombat().getDefenders()) {
-                //check if defender is being attacked
-                if (game.getCombat().isAttacked(defenderId, game)) {
-                    for (Combat engagement: ((SimulatedPlayer2)game.getPlayer(defenderId)).addBlockers(game)) {
-                        Game sim = game.copy();
-                        for (CombatGroup group: engagement.getGroups()) {
-                            List<UUID> blockers = new ArrayList<UUID>();
-                            blockers.addAll(group.getBlockers());
-                            for (UUID blockerId: blockers) {
-                                group.addBlocker(blockerId, defenderId, sim);
-                            }
-                            blockers = null;
-                        }
-                        sim.fireEvent(GameEvent.getEvent(GameEvent.EventType.DECLARED_BLOCKERS, playerId, playerId));
-                        SimulationNode2 newNode = new SimulationNode2(node, sim, node.getDepth()-1, defenderId);
-                        logger.debug("simulating -- node #:" + SimulationNode2.getCount() + " declare blockers");
-                        newNode.setCombat(sim.getCombat());
-                        node.children.add(newNode);
-                    }
-                }
-            }*/
+             //check if defender is being attacked
+             if (game.getCombat().isAttacked(defenderId, game)) {
+             for (Combat engagement: ((SimulatedPlayer2)game.getPlayer(defenderId)).addBlockers(game)) {
+             Game sim = game.copy();
+             for (CombatGroup group: engagement.getGroups()) {
+             List<UUID> blockers = new ArrayList<UUID>();
+             blockers.addAll(group.getBlockers());
+             for (UUID blockerId: blockers) {
+             group.addBlocker(blockerId, defenderId, sim);
+             }
+             blockers = null;
+             }
+             sim.fireEvent(GameEvent.getEvent(GameEvent.EventType.DECLARED_BLOCKERS, playerId, playerId));
+             SimulationNode2 newNode = new SimulationNode2(node, sim, node.getDepth()-1, defenderId);
+             logger.debug("simulating -- node #:" + SimulationNode2.getCount() + " declare blockers");
+             newNode.setCombat(sim.getCombat());
+             node.children.add(newNode);
+             }
+             }
+             }*/
        }
    }

    /**
-     * Choose attackers based on static information.
-     * That means that AI won't look to the future as it was before, but just choose attackers based on current state
-     * of the game. This is worse, but at least it is easier to implement and won't lead to the case when AI doesn't
-     * do anything - neither attack nor block.
+     * Choose attackers based on static information. That means that AI won't
+     * look to the future as it was before, but just choose attackers based on
+     * current state of the game. This is worse, but at least it is easier to
+     * implement and won't lead to the case when AI doesn't do anything -
+     * neither attack nor block.
     *
     * @param game
     * @param activePlayerId
@ -919,8 +917,22 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                return;
            }

+            for (Permanent attacker : attackersList) {
+                System.out.println("Number of potential attackers " + attackersList.size());
+                System.out.println("Potential attacker is " + attacker.getName());
+            }
+
+            if (attackersList.isEmpty()) {
+                return;
+            }
+
            List<Permanent> possibleBlockers = defender.getAvailableBlockers(game);

+            for (Permanent blocker : possibleBlockers) {
+                System.out.println("Number of blockers " + possibleBlockers.size());
+                System.out.println("Blocker is " + blocker.getName());
+            }
+
            List<Permanent> killers = CombatUtil.canKillOpponent(game, attackersList, possibleBlockers, defender);
            if (!killers.isEmpty()) {
                for (Permanent attacker : killers) {
@ -929,148 +941,176 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
                return;
            }

-            CombatUtil.handleExalted();
+            //CombatUtil.handleExalted();

            //TODO: refactor -- extract to method
-            List<Permanent> counterAttackList = new ArrayList<Permanent>();
-            int counterAttackDamage = 0;
-            int defenderForces = 0;
-            int defenderForcesForBlock = 0;
+            //List<Permanent> counterAttackList = new ArrayList<Permanent>();
+            //int counterAttackDamage = 0;
+            //int defenderForces = 0;
+            //int defenderForcesForBlock = 0;
+/*
+             FilterCreatureForCombat filter = new FilterCreatureForCombat();
+             for (Permanent possibleAttacker : game.getBattlefield().getAllActivePermanents(filter, defender.getId(), game)) {
+             //TODO: it can be improved with next turn emulation
+             if (!possibleAttacker.getAbilities().contains(DefenderAbility.getInstance())) {
+             counterAttackList.add(possibleAttacker);
+             if (possibleAttacker.getPower().getValue() > 0) {
+             // TODO: DB and infect
+             counterAttackDamage += possibleAttacker.getPower().getValue();
+             defenderForces++;
+             }
+             if (CombatUtil.canBlock(game, possibleAttacker)) {
+             defenderForcesForBlock++;
+             }
+             }
+             }

-            FilterCreatureForCombat filter = new FilterCreatureForCombat();
-            for (Permanent possibleAttacker : game.getBattlefield().getAllActivePermanents(filter, defender.getId(), game)) {
-                //TODO: it can be improved with next turn emulation
-                if (!possibleAttacker.getAbilities().contains(DefenderAbility.getInstance())) {
-                    counterAttackList.add(possibleAttacker);
-                    if (possibleAttacker.getPower().getValue() > 0) {
-                        // TODO: DB and infect
-                        counterAttackDamage += possibleAttacker.getPower().getValue();
-                        defenderForces++;
-                    }
-                    if (CombatUtil.canBlock(game, possibleAttacker)) {
-                        defenderForcesForBlock++;
-                    }
-                }
-            }
+             double oppScore = 1000000;
+             if (counterAttackDamage > 0) {
+             oppScore = (double) attackingPlayer.getLife() / counterAttackDamage;
+             }

-            double oppScore = 1000000;
-            if (counterAttackDamage > 0) {
-                oppScore = (double) attackingPlayer.getLife() / counterAttackDamage;
-            }
+             List<Permanent> possibleAttackersList = new ArrayList<Permanent>();
+             int possibleAttackersDamage = 0;
+             int ourForces = 0;

-            List<Permanent> possibleAttackersList = new ArrayList<Permanent>();
-            int possibleAttackersDamage = 0;
-            int ourForces = 0;
+             for (Permanent possibleAttacker : game.getBattlefield().getAllActivePermanents(filter, playerId, game)) {
+             //TODO: it can be improved with next turn emulation
+             if (!possibleAttacker.getAbilities().contains(DefenderAbility.getInstance())) {
+             possibleAttackersList.add(possibleAttacker);

-            for (Permanent possibleAttacker : game.getBattlefield().getAllActivePermanents(filter, playerId, game)) {
-                //TODO: it can be improved with next turn emulation
-                if (!possibleAttacker.getAbilities().contains(DefenderAbility.getInstance())) {
-                    possibleAttackersList.add(possibleAttacker);
+             if (possibleAttacker.getPower().getValue() > 0) {
+             // TODO: DB and infect
+             possibleAttackersDamage += possibleAttacker.getPower().getValue();
+             ourForces++;
+             }
+             }
+             }

-                    if (possibleAttacker.getPower().getValue() > 0) {
-                        // TODO: DB and infect
-                        possibleAttackersDamage += possibleAttacker.getPower().getValue();
-                        ourForces++;
-                    }
-                }
-            }
+             double ourScore = 1000000;
+             if (possibleAttackersDamage > 0) {
+             ourScore = (double) defender.getLife() / possibleAttackersDamage;
+             }

-            double ourScore = 1000000;
-            if (possibleAttackersDamage > 0) {
-                ourScore = (double) defender.getLife() / possibleAttackersDamage;
-            }
+             int outNumber = ourForces - defenderForces;

-            int outNumber = ourForces - defenderForces;
+             double score = ourScore - oppScore;

-            double score = ourScore - oppScore;
+             boolean doAttack = false;

-            boolean doAttack = false;
+             //attackersList
+             CombatUtil.sortByPower(attackersList, false);
+             int opponentLife = defender.getLife();

-            //attackersList
-            CombatUtil.sortByPower(attackersList, false);
-            int opponentLife = defender.getLife();
+             List<Permanent> notBlockedAttackers = new ArrayList<Permanent>();
+             for (int i = 0; i < (attackersList.size() - defenderForces); i++) {
+             notBlockedAttackers.add(attackersList.get(i));
+             }

-            List<Permanent> notBlockedAttackers = new ArrayList<Permanent>();
-            for (int i = 0; i < (attackersList.size() - defenderForces); i++) {
-                notBlockedAttackers.add(attackersList.get(i));
-            }
+             int attackRound = 1;
+             while (notBlockedAttackers.size() > 0 && opponentLife > 0 && attackRound < 99) {
+             int damageThisRound = 0;
+             for (Permanent attacker : notBlockedAttackers) {
+             damageThisRound += attacker.getPower().getValue();
+             }
+             opponentLife -= damageThisRound;
+             for (int i = 0; i < defenderForcesForBlock && !notBlockedAttackers.isEmpty(); i++) {
+             notBlockedAttackers.remove(notBlockedAttackers.size() - 1);
+             }
+             attackRound++;
+             if (opponentLife <= 0) {
+             doAttack = true;
+             }
+             }

-            int attackRound = 1;
-            while (notBlockedAttackers.size() > 0 && opponentLife > 0 && attackRound < 99) {
-                int damageThisRound = 0;
-                for (Permanent attacker : notBlockedAttackers) {
-                    damageThisRound += attacker.getPower().getValue();
-                }
-                opponentLife -= damageThisRound;
-                for (int i = 0; i < defenderForcesForBlock && !notBlockedAttackers.isEmpty(); i++) {
-                    notBlockedAttackers.remove(notBlockedAttackers.size() - 1);
-                }
-                attackRound++;
-                if (opponentLife <= 0) {
-                    doAttack = true;
-                }
-            }
+             double unblockableDamage = 0;
+             double turnsUntilDeathByUnblockable = 0;
+             boolean doUnblockableAttack = false;
+             for (Permanent attacker : attackersList) {
+             boolean isUnblockableCreature = true;
+             for (Permanent blocker : possibleBlockers) {
+             if (blocker.canBlock(attacker.getId(), game)) {
+             isUnblockableCreature = false;
+             }
+             }
+             if (isUnblockableCreature) {
+             unblockableDamage += attacker.getPower().getValue();
+             }
+             }
+             if (unblockableDamage > 0) {
+             turnsUntilDeathByUnblockable = defender.getLife() / unblockableDamage;
+             }
+             if (unblockableDamage > defender.getLife()) {
+             doUnblockableAttack = true;
+             }
+
+             int aggressionRate = 5;
+             //aggressionRate = getAggressionRate(oppScore, ourScore, outNumber, score, doAttack, turnsUntilDeathByUnblockable, doUnblockableAttack, aggressionRate);
+             System.out.println("AI aggression = " + String.valueOf(aggressionRate));
+
+
+             System.out.println("AI attackers size: " + attackersList.size());
+
+             List<Permanent> finalAttackers = new ArrayList<Permanent>();
+             for (int i = 0; i < attackersList.size(); i++) {
+             Permanent attacker = attackersList.get(i);
+             int totalFirstStrikeBlockPower = 0;
+
+             if (!attacker.getAbilities().contains(FirstStrikeAbility.getInstance()) && !attacker.getAbilities().contains(DoubleStrikeAbility.getInstance())) {
+             for (Permanent blockerWithFSorDB : game.getBattlefield().getAllActivePermanents(filter, playerId, game)) {
+             if (blockerWithFSorDB.getAbilities().contains(DoubleStrikeAbility.getInstance())) {
+             totalFirstStrikeBlockPower += 2 * blockerWithFSorDB.getPower().getValue();
+             } else
+             if (blockerWithFSorDB.getAbilities().contains(FirstStrikeAbility.getInstance())) {
+             totalFirstStrikeBlockPower += blockerWithFSorDB.getPower().getValue();
+             }
+             }
+
+             }
+
+             boolean shouldAttack = shouldAttack(game, attackingPlayer.getId(), defenderId, attacker, possibleBlockers, aggressionRate);
+
+             if (aggressionRate == 5 || shouldAttack && (totalFirstStrikeBlockPower < attacker.getToughness().getValue()) ) {
+             finalAttackers.add(attacker);
+             }
+             }
+             */
+
+            // The AI will now attack more sanely.  Simple, but good enough for now.
+            // The sim minmax does not work at the moment.  
+            
+            boolean safeToAttack;
+            CombatEvaluator eval = new CombatEvaluator();

-            double unblockableDamage = 0;
-            double turnsUntilDeathByUnblockable = 0;
-            boolean doUnblockableAttack = false;
            for (Permanent attacker : attackersList) {
-                boolean isUnblockableCreature = true;
+                safeToAttack = true;
+                int attackerValue = eval.evaluate(attacker, game);
                for (Permanent blocker : possibleBlockers) {
-                    if (blocker.canBlock(attacker.getId(), game)) {
-                        isUnblockableCreature = false;
+                    int blockerValue = eval.evaluate(blocker, game);
+                    if (attacker.getPower().getValue() <= blocker.getToughness().getValue()
+                            && attacker.getToughness().getValue() <= blocker.getPower().getValue()) {
+                        safeToAttack = false;
                    }
-                }
-                if (isUnblockableCreature) {
-                    unblockableDamage += attacker.getPower().getValue();
-                }
-            }
-            if (unblockableDamage > 0) {
-                turnsUntilDeathByUnblockable = defender.getLife() / unblockableDamage;
-            }
-            if (unblockableDamage > defender.getLife()) {
-                doUnblockableAttack = true;
-            }

-            int aggressionRate = 5;
-            //aggressionRate = getAggressionRate(oppScore, ourScore, outNumber, score, doAttack, turnsUntilDeathByUnblockable, doUnblockableAttack, aggressionRate);
-            System.out.println("AI aggression = " + String.valueOf(aggressionRate));
-
-
-            System.out.println("AI attackers size: " + attackersList.size());
-
-            List<Permanent> finalAttackers = new ArrayList<Permanent>();
-            for (int i = 0; i < attackersList.size(); i++) {
-                Permanent attacker = attackersList.get(i);
-                int totalFirstStrikeBlockPower = 0;
-
-                if (!attacker.getAbilities().contains(FirstStrikeAbility.getInstance()) && !attacker.getAbilities().contains(DoubleStrikeAbility.getInstance())) {
-                    for (Permanent blockerWithFSorDB : game.getBattlefield().getAllActivePermanents(filter, playerId, game)) {
-                        if (blockerWithFSorDB.getAbilities().contains(DoubleStrikeAbility.getInstance())) {
-                            totalFirstStrikeBlockPower += 2 * blockerWithFSorDB.getPower().getValue();
-                        } else
-                        if (blockerWithFSorDB.getAbilities().contains(FirstStrikeAbility.getInstance())) {
-                            totalFirstStrikeBlockPower += blockerWithFSorDB.getPower().getValue();
+                    if (attacker.getToughness().getValue() == blocker.getPower().getValue()
+                            && attacker.getPower().getValue() == blocker.getToughness().getValue()) {
+                        if (attackerValue < blockerValue
+                                || blocker.getAbilities().containsKey(FirstStrikeAbility.getInstance().getId())
+                                || blocker.getAbilities().containsKey(DoubleStrikeAbility.getInstance().getId())) {
+                            safeToAttack = false;
                        }
                    }
-
                }
-
-                boolean shouldAttack = shouldAttack(game, attackingPlayer.getId(), defenderId, attacker, possibleBlockers, aggressionRate);
-
-                if (aggressionRate == 5 || shouldAttack && (totalFirstStrikeBlockPower < attacker.getToughness().getValue()) ) {
-                    finalAttackers.add(attacker);
+                if (attacker.getAbilities().containsKey(DeathtouchAbility.getInstance().getId())) {
+                    safeToAttack = true;
+                }
+                if (safeToAttack) {
+                    attackingPlayer.declareAttacker(attacker.getId(), defenderId, game);
                }
-            }
-
-             System.out.println("AI final attackers size: " + attackersList.size());
-
-            for (Permanent attacker : finalAttackers) {
-                attackingPlayer.declareAttacker(attacker.getId(), defenderId, game);
            }
        }
    }
-
+/*
    private boolean shouldAttack(Game game, UUID attackingPlayerId, UUID defenderId, Permanent attacker, List<Permanent> blockers, int aggressionRate) {
        boolean canBeKilledByOne = false;
        boolean canKillAll = true;
@ -1080,17 +1120,22 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        boolean canBeBlocked = false;
        int numberOfPossibleBlockers = 0;

-        int life = game.getPlayer(defenderId).getLife();
-        int poison = game.getPlayer(defenderId).getCounters().getCount(CounterType.POISON);
+        //int life = game.getPlayer(defenderId).getLife();
+        //int poison = game.getPlayer(defenderId).getCounters().getCount(CounterType.POISON);

-        if (!isEffectiveAttacker(game, attackingPlayerId, defenderId, attacker, life, poison)) {
-            return false;
-        }
+         if (!isEffectiveAttacker(game, attackingPlayerId, defenderId, attacker, life, poison)) {
+         System.out.println("Ahh, this is why it is not attacking");
+         return false;
+         }
         
        for (Permanent defender : blockers) {
+            System.out.println("The blocker is " + defender.getName());
            if (defender.canBlock(attacker.getId(), game)) {
+                System.out.println("The blocker can block the attacker" + defender.getName() + attacker.getName());
                numberOfPossibleBlockers += 1;
+                System.out.println("The number of possible blockers is " + numberOfPossibleBlockers);
                SurviveInfo info = CombatUtil.willItSurvive(game, attackingPlayerId, defenderId, attacker, defender);
+                System.out.println("Did the attacker die? " + info.isAttackerDied());
                if (info.isAttackerDied()) {
                    boolean canBeReallyKilled = true;
                    for (Ability ability : attacker.getAbilities()) {
@ -1129,8 +1174,11 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
            canBeBlocked = true;
        }
        
+        // This is how I know this does quite work.  Something is wrong with the sim part.
+        System.out.println("canKillAll, canKillAllDangerous, canbeKilledByOne, canBeBlocked " + canKillAll + canKillAllDangerous + canBeKilledByOne + canBeBlocked);
+
        switch (aggressionRate) {
-           case 4:
+            case 4:
                if (canKillAll || (canKillAllDangerous && !canBeKilledByOne) || !canBeBlocked) {
                    System.out.println(attacker.getName() + " = attacking expecting to at least trade with something");
                    return true;
@ -1185,7 +1233,6 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        return false;
    }

-
    private int getAggressionRate(double oppScore, double ourScore, int outNumber, double score, boolean doAttack, double turnsUntilDeathByUnblockable, boolean doUnblockableAttack, int aggressionRate) {
        if (score > 0 && doAttack) {
            aggressionRate = 5;
@ -1203,20 +1250,20 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        }
        return aggressionRate;
    }
-
+*/
    private void declareAttackers(Game game, UUID activePlayerId, SimulationNode2 node) {
        game.fireEvent(new GameEvent(GameEvent.EventType.DECLARE_ATTACKERS_STEP_PRE, null, null, activePlayerId));
        if (!game.replaceEvent(GameEvent.getEvent(GameEvent.EventType.DECLARING_ATTACKERS, activePlayerId, activePlayerId))) {
-            for (Combat engagement: ((SimulatedPlayer2)game.getPlayer(activePlayerId)).addAttackers(game)) {
+            for (Combat engagement : ((SimulatedPlayer2) game.getPlayer(activePlayerId)).addAttackers(game)) {
                Game sim = game.copy();
                UUID defenderId = game.getOpponents(playerId).iterator().next();
-                for (CombatGroup group: engagement.getGroups()) {
-                    for (UUID attackerId: group.getAttackers()) {
+                for (CombatGroup group : engagement.getGroups()) {
+                    for (UUID attackerId : group.getAttackers()) {
                        sim.getPlayer(activePlayerId).declareAttacker(attackerId, defenderId, sim);
                    }
                }
                sim.fireEvent(GameEvent.getEvent(GameEvent.EventType.DECLARED_ATTACKERS, playerId, playerId));
-                SimulationNode2 newNode = new SimulationNode2(node, sim, node.getDepth()-1, activePlayerId);
+                SimulationNode2 newNode = new SimulationNode2(node, sim, node.getDepth() - 1, activePlayerId);
                logger.debug("simulating -- node #:" + SimulationNode2.getCount() + " declare attakers");
                newNode.setCombat(sim.getCombat());
                node.children.add(newNode);
@ -1229,34 +1276,36 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
        logger.debug("selectAttackers");
        declareAttackers(game, playerId);
        /*if (combat != null) {
-            UUID opponentId = game.getCombat().getDefenders().iterator().next();
-            String attackers = "";
-            for (UUID attackerId: combat.getAttackers()) {
-                Permanent attacker = game.getPermanent(attackerId);
-                if (attacker != null) {
-                    attackers = "[" + attacker.getName() + "]";
-                    this.declareAttacker(attackerId, opponentId, game);
-                }
-            }
-            logger.info("declare attackers: " + (attackers.isEmpty() ? "none" : attackers));
-        }*/
+         UUID opponentId = game.getCombat().getDefenders().iterator().next();
+         String attackers = "";
+         for (UUID attackerId: combat.getAttackers()) {
+         Permanent attacker = game.getPermanent(attackerId);
+         if (attacker != null) {
+         attackers = "[" + attacker.getName() + "]";
+         this.declareAttacker(attackerId, opponentId, game);
+         }
+         }
+         logger.info("declare attackers: " + (attackers.isEmpty() ? "none" : attackers));
+         }*/

    }

    @Override
    public void selectBlockers(Game game, UUID defendingPlayerId) {
        logger.debug("selectBlockers");
-        if (combat != null && combat.getGroups().size() > 0) {
-            List<CombatGroup> groups = game.getCombat().getGroups();
-            for (int i = 0; i < groups.size(); i++) {
-                if (i < combat.getGroups().size()) {
-                    for (UUID blockerId: combat.getGroups().get(i).getBlockers()) {
-                        logger.info("select blocker: " + blockerId + " vs " + groups.get(i).getAttackers().get(0));
-                        this.declareBlocker(blockerId, groups.get(i).getAttackers().get(0), game);
-                    }
-                }
-            }
-        }
+        declareBlockers(game, playerId);
+        /*if (combat != null && combat.getGroups().size() > 0) {
+         List<CombatGroup> groups = game.getCombat().getGroups();
+         for (int i = 0; i < groups.size(); i++) {
+         if (i < combat.getGroups().size()) {
+         for (UUID blockerId: combat.getGroups().get(i).getBlockers()) {
+         logger.info("select blocker: " + blockerId + " vs " + groups.get(i).getAttackers().get(0));
+         this.declareBlocker(blockerId, groups.get(i).getAttackers().get(0), game);
+         }
+         }
+         }
+         }
+         */
    }

    /**
@ -1268,7 +1317,7 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    protected Game createSimulation(Game game) {
        Game sim = game.copy();

-        for (Player copyPlayer: sim.getState().getPlayers().values()) {
+        for (Player copyPlayer : sim.getState().getPlayers().values()) {
            Player origPlayer = game.getState().getPlayers().get(copyPlayer.getId()).copy();
            System.out.println("suggested=" + suggested);
            SimulatedPlayer2 newPlayer = new SimulatedPlayer2(copyPlayer.getId(), copyPlayer.getId().equals(playerId), suggested);
@ -1279,8 +1328,9 @@ public class ComputerPlayer6 extends ComputerPlayer<ComputerPlayer6> implements
    }

    private boolean checkForRepeatedAction(Game sim, SimulationNode2 node, Ability action, UUID playerId) {
-        if (action instanceof PassAbility)
+        if (action instanceof PassAbility) {
            return false;
+        }
        int newVal = GameStateEvaluator2.evaluate(playerId, sim);
        SimulationNode2 test = node.getParent();
        while (test != null) {