public ArrayList<Minion> getMinionsAdjacentToCharacter(CharacterIndex characterIndex) {
ArrayList<Minion> adjMinions = new ArrayList<>();
if (characterIndex.getInt() >= this.getNumCharacters()) {
return adjMinions;
}
if (characterIndex.getInt() > 1) {
CharacterIndex leftIndex = CharacterIndex.fromInteger(characterIndex.getInt() - 1);
adjMinions.add(this.getCharacter(leftIndex));
}
if (characterIndex.getInt() < (this.getNumCharacters() - 1)) {
CharacterIndex rightIndex = CharacterIndex.fromInteger(characterIndex.getInt() + 1);
adjMinions.add(this.getCharacter(rightIndex));
}
return adjMinions;
}
public CharacterIndex getIndexForCharacter(Minion character) {
if (this.hero.equals(character)) {
return CharacterIndex.HERO;
} else {
int minionIndex = this.minions.indexOf(character);
return minionIndex >= 0
? CharacterIndex.fromInteger(this.minions.indexOf(character) + 1)
: CharacterIndex.UNKNOWN;
}
}
@Override
public Minion next() {
return this.target.getCharacter(CharacterIndex.fromInteger(++location));
}
// used by the BoardModel master iterator
public CharacterIndex getLocation() {
return CharacterIndex.fromInteger(location);
}
// TODO Unused?
public HearthTreeNode perform(HearthTreeNode boardState) throws HSException {
HearthTreeNode toRet = boardState;
PlayerModel actingPlayer =
actionPerformerPlayerSide != null
? boardState.data_.modelForSide(actionPerformerPlayerSide)
: null;
PlayerModel targetPlayer =
targetPlayerSide != null ? boardState.data_.modelForSide(targetPlayerSide) : null;
switch (verb_) {
case USE_CARD:
{
Card card = actingPlayer.getHand().get(cardOrCharacterIndex_);
toRet = card.useOn(targetPlayerSide, targetCharacterIndex, toRet);
}
break;
case HERO_ABILITY:
{
Hero hero = actingPlayer.getHero();
Minion target = targetPlayer.getCharacter(targetCharacterIndex);
toRet = hero.useHeroAbility(targetPlayerSide, target, toRet);
}
break;
case ATTACK:
{
Minion attacker =
actingPlayer.getCharacter(CharacterIndex.fromInteger(cardOrCharacterIndex_));
toRet = attacker.attack(targetPlayerSide, targetCharacterIndex, toRet);
}
break;
case UNTARGETABLE_BATTLECRY:
{
Minion minion =
actingPlayer.getCharacter(CharacterIndex.fromInteger(cardOrCharacterIndex_));
toRet = minion.useUntargetableBattlecry(targetCharacterIndex, toRet);
break;
}
case TARGETABLE_BATTLECRY:
{
Minion minion =
actingPlayer.getCharacter(CharacterIndex.fromInteger(cardOrCharacterIndex_));
toRet = minion.useTargetableBattlecry(targetPlayerSide, targetCharacterIndex, toRet);
break;
}
case START_TURN:
{
toRet = new HearthTreeNode(Game.beginTurn(boardState.data_.deepCopy()));
break;
}
case END_TURN:
{
toRet = new HearthTreeNode(Game.endTurn(boardState.data_.deepCopy()).flipPlayers());
break;
}
case DO_NOT_USE_CARD:
{
for (Card c : actingPlayer.getHand()) {
c.hasBeenUsed(true);
}
break;
}
case DO_NOT_ATTACK:
{
for (Minion minion : actingPlayer.getMinions()) {
minion.hasAttacked(true);
}
actingPlayer.getHero().hasAttacked(true);
break;
}
case DO_NOT_USE_HEROPOWER:
{
actingPlayer.getHero().hasBeenUsed(true);
break;
}
case RNG:
{
// We need to perform the current state again if the children don't exist yet. This can
// happen in certain replay scenarios.
// Do not do this if the previous action was *also* RNG or we will end up in an infinite
// loop.
if (toRet.isLeaf() && boardState.getAction().verb_ != Verb.RNG) {
boardState.data_.getCurrentPlayer().addNumCardsUsed((byte) -1); // do not double count
toRet = boardState.getAction().perform(boardState);
}
// RNG has declared this child happened
toRet = toRet.getChildren().get(cardOrCharacterIndex_);
break;
}
case DRAW_CARDS:
{
// Note, this action only supports drawing cards from the deck. Cards like Ysera or
// Webspinner need to be implemented using RNG children.
for (int indx = 0; indx < cardOrCharacterIndex_; ++indx) {
actingPlayer.drawNextCardFromDeck();
}
break;
}
}
return toRet;
}