wagic/projects/mtg/src/MTGCardInstance.cpp

/*---------------------------------------------
  Card Instance
  Instance of a given MTGCard in the game
  Although there is only one MTGCard of each type, there can be as much Instances of it as needed in the game
  --------------------------------------------
*/
#include "../include/config.h"
#include "../include/MTGCardInstance.h"
#include "../include/CardDescriptor.h"
#include "../include/Counters.h"
#include "../include/Subtypes.h"

MTGCardInstance::MTGCardInstance(): MTGCard(), Damageable(0){
  LOG("==Creating MTGCardInstance==");
  initMTGCI();
  LOG("==Creating MTGCardInstance Successful==");
}
MTGCardInstance::MTGCardInstance(MTGCard * card, MTGPlayerCards * _belongs_to): MTGCard(card), Damageable(card->getToughness()){
  LOG("==Creating MTGCardInstance==");
  initMTGCI();
  model = card;
  attacker = 0;
  lifeOrig = life;
  belongs_to=_belongs_to;
  owner = NULL;
  if (_belongs_to) owner = _belongs_to->library->owner;
  lastController = owner;
  initAttackersDefensers();
  life=toughness;
  LOG("==Creating MTGCardInstance Successful==");

}

void MTGCardInstance::copy(MTGCardInstance * card){
 MTGCard * source = card->model;
 for (int i = 0; i< Constants::NB_BASIC_ABILITIES; i++){
    basicAbilities[i] = source->basicAbilities[i];
  }
  for (int i = 0; i< MAX_TYPES_PER_CARD; i++){
    types[i] = source->types[i];
  }
  nb_types = source->nb_types;
  for (int i = 0; i< Constants::MTG_NB_COLORS; i++){
    colors[i] = source->colors[i];
  }
  manaCost.copy(source->getManaCost());

  text = source->text;
  name = source->name;
  //strcpy(image_name, source->image_name);

  //rarity = source->rarity;
  power = source->power;
  toughness = source->toughness;
  life = toughness;
  lifeOrig = life;
  //mtgid = source->mtgid;
  //setId = source->setId;
  formattedTextInit = 0;
  magicText = source->magicText;
  spellTargetType = source->spellTargetType;
  alias = source->alias; 

  //Now this is dirty...
  int backupid = mtgid;
  mtgid = source->getId();
  Spell * spell = NEW Spell(this);
  AbilityFactory af;
  GameObserver * g = GameObserver::GetInstance();
  af.addAbilities(g->mLayers->actionLayer()->getMaxId(), spell);
  delete spell;
  mtgid = backupid;
}

MTGCardInstance::~MTGCardInstance(){
  LOG("==Deleting MTGCardInstance==");
  SAFE_DELETE(blockers);
  SAFE_DELETE(counters);
  SAFE_DELETE(previous);
  LOG("==Deleting MTGCardInstance Succesfull==");
}
void MTGCardInstance::initMTGCI(){
  sample = "";
  model=NULL;
  isToken = false;
  lifeOrig = 0;
  doDamageTest = 1;
  belongs_to=NULL;
  tapped = 0;
  blockers = NULL;
  untapping = 0;
  summoningSickness = 0;
  target = NULL;
  nbprotections = 0;
  type_as_damageable = DAMAGEABLE_MTGCARDINSTANCE;
  banding = NULL;
  owner = NULL;
  changedZoneRecently = 0;
  counters = NEW Counters(this);
  previousZone = NULL;
  previous = NULL;
  next = NULL;
  lastController = NULL;
}


void MTGCardInstance::addType(int type){
  types[nb_types] = type;
  nb_types++;
}

Blockers * MTGCardInstance::getBlockers(){
  if (!blockers) blockers = NEW Blockers();
  return blockers;
}

int MTGCardInstance::isInPlay(){
  GameObserver * game = GameObserver::GetInstance();
  for (int i = 0 ; i < 2 ; i++){
    MTGGameZone * zone = game->players[i]->game->inPlay;
    if (zone->hasCard(this)) return 1;
  }
  return 0;
}

int MTGCardInstance::afterDamage(){
  if (!doDamageTest) return 0;
  doDamageTest = 0;
  if (!isACreature()) return 0;
  if (life <=0 && isInPlay()){
    GameObserver * game = GameObserver::GetInstance();
    game->mLayers->stackLayer()->addPutInGraveyard(this);
    return 1;
  }
  return 0;
}


MTGGameZone * MTGCardInstance::getCurrentZone(){
  GameObserver * game = GameObserver::GetInstance();
  for (int i = 0; i < 2; i++){
    MTGPlayerCards * g = game->players[i]->game;
    MTGGameZone * zones[] = {g->inPlay,g->graveyard,g->hand, g->library};
    for (int k = 0; k < 4; k++){
      MTGGameZone * zone = zones[k];
      if (zone->hasCard(this)) return zone;
    }
  }
  return NULL;
}

JQuad * MTGCardInstance::getIcon(){
  return getThumb();
}

int MTGCardInstance::has(int basicAbility){
  return basicAbilities[basicAbility];
}





//Taps the card
void MTGCardInstance::tap(){
  tapped = 1;
}

void MTGCardInstance::setUntapping(){
  untapping = 1;
}

int MTGCardInstance::isUntapping(){
  return untapping;
}

//Untaps the card
void MTGCardInstance::untap(){
  if (untapping){
    tapped = 0;
    untapping = 0;
  }
}

//Tells if the card is tapped or not
int MTGCardInstance::isTapped(){
  return tapped;
}

void MTGCardInstance::resetAllDamage(){
  //for (int i=0;i<nb_damages;i++){
  //   delete damages[i];
  //}
  nb_damages = 0;
}

void MTGCardInstance::regenerate(){
  tapped = 1;
  life = toughness;
  initAttackersDefensers();
}


int MTGCardInstance::initAttackersDefensers(){
  attacker = 0;
  defenser = NULL;
  banding = NULL;
  return 1;
}

//Function to call to remove all damages, etc to a card (generally at the end of the turn)
int MTGCardInstance::cleanup(){
  initAttackersDefensers();
  life=toughness;
  GameObserver * game = GameObserver::GetInstance();
  if (!game || game->currentPlayer == controller()) summoningSickness = 0;
  if (previous && !previous->stillInUse()){
    SAFE_DELETE(previous);
  }
  return 1;
}

int MTGCardInstance::stillInUse(){
GameObserver * game = GameObserver::GetInstance();
if (game->mLayers->actionLayer()->stillInUse(this)) return 1;
if (!previous) return 0;
return previous->stillInUse();
}

/* Summoning Sickness
 * 212.3f A creature�fs activated ability with the tap symbol or the untap symbol in its activation cost
 * can�ft be played unless the creature has been under its controller�fs control since the start of his or
 * her most recent turn. A creature can�ft attack unless it has been under its controller�fs control
 * since the start of his or her most recent turn. This rule is informally called the �gsummoning
 * sickness�h rule. Ignore this rule for creatures with haste (see rule 502.5).
 */
int MTGCardInstance::hasSummoningSickness(){
  if (!summoningSickness) return 0;
  if (basicAbilities[Constants::HASTE]) return 0;
  if (!isACreature()) return 0;
  return 1;
}

int MTGCardInstance::changeController(Player * newController){
  Player * originalOwner = controller();
  if (originalOwner  == newController) return 0;
  MTGCardInstance * copy = originalOwner->game->inPlay->removeCard(this,0);
  newController->game->inPlay->addCard(copy);
  //summoningSickness = 1;
  return 1;
}

//Reset the card parameters
int MTGCardInstance::reset(){
  cleanup();
  tapped=0;
  SAFE_DELETE(counters);
  counters = NEW Counters(this);
  return 1;
}


Player * MTGCardInstance::controller(){
  GameObserver * game = GameObserver::GetInstance();
  if (!game) return NULL;
  for (int i = 0; i < 2; i++){
    if (game->players[i]->game->inPlay->hasCard(this)) return  game->players[i];
    if (game->players[i]->game->stack->hasCard(this)) return  game->players[i];
    if (game->players[i]->game->graveyard->hasCard(this)) return  game->players[i];
    if (game->players[i]->game->hand->hasCard(this)) return  game->players[i];
  }
  return lastController;
}

int MTGCardInstance::canAttack(){
  if (tapped) return 0;
  if (hasSummoningSickness()) return 0;
  if (basicAbilities[Constants::DEFENSER] || basicAbilities[Constants::CANTATTACK]) return 0;
  if (!isACreature()) return 0;
  return 1;
}


int MTGCardInstance::addToToughness(int value){
  toughness+=value;
  life+=value;
  doDamageTest = 1;
  return 1;
}

int MTGCardInstance::setToughness(int value){
  toughness=value;
  life=value;
  doDamageTest = 1;
  return 1;
}

int MTGCardInstance::canBlock(){
  if (tapped) return 0;
  if (basicAbilities[Constants::CANTBLOCK]) return 0;
  if (!isACreature())return 0;
  return 1;
}

int MTGCardInstance::canBlock(MTGCardInstance * opponent){
  if (!canBlock()) return 0;
  if (!opponent) return 1;
  if (!opponent->isAttacker()) return 0;
  // Comprehensive rule 502.7f : If a creature with protection attacks, it can't be blocked by creatures that have the stated quality.
  if (opponent->protectedAgainst(this)) return 0;
  if (opponent->basicAbilities[Constants::UNBLOCKABLE]) return 0;
  if (opponent->basicAbilities[Constants::FEAR] && !(hasColor(Constants::MTG_COLOR_ARTIFACT) || hasColor(Constants::MTG_COLOR_BLACK))) return 0;
  if (opponent->basicAbilities[Constants::FLYING] && !( basicAbilities[Constants::FLYING] || basicAbilities[Constants::REACH])) return 0;
  //Can block only creatures with flying if has cloud
  if (basicAbilities[Constants::CLOUD] && !( opponent->basicAbilities[Constants::FLYING])) return 0;
  // If opponent has shadow and a creature does not have either shadow or reachshadow it cannot be blocked
  if (opponent->basicAbilities[Constants::SHADOW] && !( basicAbilities[Constants::SHADOW] || basicAbilities[Constants::REACHSHADOW])) return 0;
  // If opponent does not have shadow and a creature has shadow it cannot be blocked
  if (!opponent->basicAbilities[Constants::SHADOW] && basicAbilities[Constants::SHADOW]) return 0;
  if (opponent->basicAbilities[Constants::SWAMPWALK] && controller()->game->inPlay->hasType("swamp")) return 0;
  if (opponent->basicAbilities[Constants::FORESTWALK] && controller()->game->inPlay->hasType("forest")) return 0;
  if (opponent->basicAbilities[Constants::ISLANDWALK] && controller()->game->inPlay->hasType("island")) return 0;
  if (opponent->basicAbilities[Constants::MOUNTAINWALK] && controller()->game->inPlay->hasType("mountain")) return 0;
  if (opponent->basicAbilities[Constants::PLAINSWALK] && controller()->game->inPlay->hasType("plains")) return 0;
  return 1;
}

MTGCardInstance * MTGCardInstance::getNextPartner(){
  MTGInPlay * inplay = controller()->game->inPlay;
  MTGCardInstance * bandingPartner = inplay->getNextAttacker(banding);
  while (bandingPartner){
    if (basicAbilities[Constants::BANDING] || bandingPartner->basicAbilities[Constants::BANDING]) return bandingPartner;
    bandingPartner = inplay->getNextAttacker(bandingPartner);
  }
  return NULL;
}

void MTGCardInstance::unband(){
  if (!banding) return;

  MTGCardInstance * _banding = banding;
  banding = NULL;
  MTGCardInstance * newbanding = NULL;
  MTGInPlay * inplay = controller()->game->inPlay;
  int nbpartners = inplay->nbPartners(this);
  MTGCardInstance * card = inplay->getNextAttacker(NULL);
  while(card){
    if (card != this){
      if (card->banding == _banding){
	if (nbpartners == 1){
	  card->banding = NULL;
	  return;
	}else{
	  if (!newbanding) newbanding = card;
	  card->banding = newbanding;
	}
      }
    }
    card = inplay->getNextAttacker(card);
  }
  return ;
}

int MTGCardInstance::toggleAttacker(){
  //TODO more controls ?
  if (canAttack()){
    if (!attacker){
      attacker = 1;
      tapped = 1;
      return 1;
    }else{
      MTGCardInstance * bandingPartner = getNextPartner();
      if (bandingPartner){
	if (banding) unband();
	if (!bandingPartner->banding) bandingPartner->banding = bandingPartner;
	banding = bandingPartner->banding;
	return 1;
      }else{
	attacker = 0;
	tapped = 0;
	return 1;
      }
    }
  }
  return 0;
}

int MTGCardInstance::isAttacker(){
  return attacker;
}

MTGCardInstance * MTGCardInstance::isDefenser(){
  return defenser;
}


int MTGCardInstance::nbOpponents(){
  int result= 0;
  MTGCardInstance*  opponent = getNextOpponent();
  while (opponent){
    result++;
    opponent = getNextOpponent(opponent);
  }
  return result;
}
//Returns opponents to this card for this turn. This * should * take into account banding
MTGCardInstance * MTGCardInstance::getNextOpponent(MTGCardInstance * previous){
  GameObserver * game = GameObserver::GetInstance();
  int foundprevious = 0;
  if (!previous) foundprevious = 1;
  if (attacker && game->currentPlayer->game->inPlay->hasCard(this)){
    MTGInPlay * inPlay = game->opponent()->game->inPlay;
    for (int i = 0; i < inPlay->nb_cards; i ++){
      MTGCardInstance * current = inPlay->cards[i];
      if (current == previous){
	foundprevious = 1;
      }else if (foundprevious){
	MTGCardInstance * defensersOpponent = current->isDefenser();
	if (defensersOpponent && (defensersOpponent == this || (banding && defensersOpponent->banding == banding))){
	  return current;
	}
      }
    }
  }else if (defenser && game->opponent()->game->inPlay->hasCard(this)){
    MTGInPlay * inPlay = game->currentPlayer->game->inPlay;
    for (int i = 0; i < inPlay->nb_cards; i ++){
      MTGCardInstance * current = inPlay->cards[i];
      if (current == previous){
	foundprevious = 1;
      }else if (foundprevious){
	if (defenser == current || (current->banding && defenser->banding == current->banding)){
	  return current;
	}
      }
    }
  }
  return NULL;
}

int MTGCardInstance::toggleDefenser(MTGCardInstance * opponent){
  if (canBlock()){
    if (canBlock(opponent)){
      defenser = opponent;
      return 1;
    }
  }
  return 0;
}


int MTGCardInstance::addProtection(CardDescriptor * cd){
  protections[nbprotections] = cd;
  nbprotections++;
  return nbprotections;
}

int MTGCardInstance::removeProtection(CardDescriptor * cd, int erase){
  for (int i = 0; i < nbprotections ; i++){
    if (protections[i] == cd){
      if (erase) delete (protections[i]);
      protections[i] = protections[nbprotections -1];
      protections[nbprotections -1] = NULL;
      nbprotections--;
      return 1;
    }
  }
  return 0;
}

int MTGCardInstance::protectedAgainst(MTGCardInstance * card){
  for (int i = 0; i < nbprotections ; i++){
    if (protections[i]->match(card)) return 1;
  }
  return 0;
}

/* Choose a sound sample to associate to that card */
JSample * MTGCardInstance::getSample(){
  if (!sample.size()){
    for (int i = nb_types-1; i>0; i--){
      string type = Subtypes::subtypesList->find(types[i]);
      type = "sound/sfx/" + type + ".wav";
#ifdef WIN32
      OutputDebugString(type.c_str());
#endif
      if (fileExists(type.c_str())){
        sample = string(type);
        break;
      }
    }
  }
  if (!sample.size()){
    for (int i = 0; i < Constants::NB_BASIC_ABILITIES; i++){
      if (!basicAbilities[i]) continue;
      string type = Constants::MTGBasicAbilities[i];
      type = "sound/sfx/" + type + ".wav";
      if (fileExists(type.c_str())){
        sample = type;
        break;
      }
    }
  }
  if (!sample.size()){
    string type = Subtypes::subtypesList->find(types[0]);
    type = "sound/sfx/" + type + ".wav";
    if (fileExists(type.c_str())){
      sample = type;
    }
  }

  if (sample.size()) return SampleCache::GetInstance()->getSample(sample);

  return NULL;
}