wagic/projects/mtg/include/MTGCardInstance.h

#ifndef _MTG_CARD_INSTANCE_H_
#define _MTG_CARD_INSTANCE_H_

#include "MTGCard.h"
#include "CardPrimitive.h"
#include "MTGGameZones.h"
#include "MTGAbility.h"
#include "WResourceManager.h"
#include "ManaCost.h"
#include "Damage.h"
#include "Targetable.h"


class MTGCardInstance;
class MTGPlayerCards;
class MTGAbility;
class MTGCard;
class ManaCost;
class UntapBlockers;
class CardDescriptor;
class Counters;
struct Pos;

#include <list>
using namespace std;

class MTGCardInstance: public CardPrimitive, public MTGCard, public Damageable
{
protected:
    int untapping;
    int nb_damages;
    string sample;
    int tapped;
    int lifeOrig;
    MTGPlayerCards * belongs_to;
    MTGCardInstance * getNextPartner();
    void initMTGCI();
    int addBlocker(MTGCardInstance * c);
    int removeBlocker(MTGCardInstance * c);
    int init();
public:
    int setAttacker(int value);
    int setDefenser(MTGCardInstance * c);
    MTGGameZone * currentZone;
    Pos* view;
    int X;
    int XX;
    int alternateCostPaid[ManaCost::MANA_PAID_WITH_RETRACE + 1]; 
    int paymenttype;
    int castMethod; /* Tells if the card reached its current zone by being cast or not (brought into the zone by an effect). non 0 == cast, 0 == not cast */
    int frozen;
    int sunburst;
    int equipment;
    int auras;
    bool wasDealtDamage;
    bool damageToOpponent;
    bool damageToController;
    int reduxamount;
    int flanked;
    int regenerateTokens;
    int isToken;
    int origpower;
    int origtoughness;
    int isMultiColored;
    int isBlackAndWhite;
    int isRedAndBlue;
    int isBlackAndGreen;
    int isBlueAndGreen;
    int isRedAndWhite;
    int isLeveler;
    bool enchanted;
    int CDenchanted;
    int CDdamaged;
    bool blinked;
    bool isExtraCostTarget;
    bool morphed;
    bool turningOver;
    bool isMorphed;
    bool isPhased;
    int phasedTurn;
    bool graveEffects;
    bool exileEffects;
    bool suspended;
        
    int stillInUse();
    int didattacked;
    int didblocked;
    int notblocked;
    int fresh;
    int MaxLevelUp;
    Player * lastController;
    MTGGameZone * getCurrentZone();
    MTGGameZone * previousZone;
    MTGCardInstance * previous;
    MTGCardInstance * next;
    int doDamageTest;
    int summoningSickness;
    ManaCost reducedCost;
    ManaCost increasedCost;
    ManaCost * getReducedManaCost();
    ManaCost * getIncreasedManaCost();

    bool matchesCastFilter(int castMethod);

    // The recommended method to test for summoning Sickness !
    int hasSummoningSickness();
    MTGCardInstance * changeController(Player * newcontroller);
    Player * owner;
    Counters * counters;
    int typeAsTarget(){return TARGET_CARD;}
    const string getDisplayName() const;
    MTGCardInstance * target;
    Targetable * backupTargets[MAX_TARGETS];


    //types
    void addType(char * type_text);
    virtual void addType(int id);
    void setType(const char * type_text);
    void setSubtype( string value);
    int removeType(string value, int removeAll = 0);
    int removeType(int value, int removeAll = 0);

    //dangerranking is a hint to Ai which creatures are the ones it should be targetting for effects.
    int DangerRanking();
    //Combat
    bool blocked; //Blocked this turn or not?
    MTGCardInstance * defenser;
    list<MTGCardInstance *>blockers;
    int attacker;
    int toggleDefenser(MTGCardInstance * opponent);
    int raiseBlockerRankOrder(MTGCardInstance * blocker);

    //Returns rank of the card in blockers if it is a blocker of this (starting at 1), 0 otherwise
    int getDefenserRank(MTGCardInstance * blocker);
    int toggleAttacker();
    MTGCardInstance * banding; // If belongs to a band when attacking
    int canBlock();
    int canBlock(MTGCardInstance * opponent);
    int canAttack();
    int isAttacker();
    MTGCardInstance * isDefenser();
    int initAttackersDefensers();
    MTGCardInstance * getNextOpponent(MTGCardInstance * previous=NULL);
    int nbOpponents();
    int stepPower(CombatStep step);
    int afterDamage();
    int has(int ability);
    int cleanup();

    MTGCard * model;
    MTGCardInstance();
    MTGCardInstance(MTGCard * card, MTGPlayerCards * _belongs_to);
    int regenerate();
    int triggerRegenerate();
    Player * controller();

    virtual ~MTGCardInstance();
    int bury();
    int destroy();

    int addToToughness(int value);
    int setToughness(int value);

    vector<TargetChooser *>protections;
    int addProtection(TargetChooser * tc);
    int removeProtection(TargetChooser *tc, int erase = 0);
    int protectedAgainst(MTGCardInstance * card);

    vector<TargetChooser *>canttarget;
    int addCantBeTarget(TargetChooser * tc);
    int removeCantBeTarget(TargetChooser *tc, int erase = 0);
    int CantBeTargetby(MTGCardInstance * card);

    vector<TargetChooser *>cantBeBlockedBys;
    int addCantBeBlockedBy(TargetChooser * tc);
    int removeCantBeBlockedBy(TargetChooser *tc, int erase = 0);
    int cantBeBlockedBy(MTGCardInstance * card);

    void copy(MTGCardInstance * card);

    void setUntapping();
    int isUntapping();
    int isTapped();
    void untap();
    void tap();
    void attemptUntap();

    void eventattacked();
    void eventattackedAlone();
    void eventattackednotblocked();
    void eventattackedblocked(MTGCardInstance * opponent);
    void eventblocked(MTGCardInstance * opponent);

    int isInPlay();
    JSample * getSample();

    JQuadPtr getIcon();

    ostream& toString(ostream&) const;

    static MTGCardInstance AnyCard;
    static MTGCardInstance NoCard;

    static MTGCardInstance ExtraRules[2];

};

ostream& operator<<(ostream&, const MTGCardInstance&);


#endif