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khanat-opennel-code/code/ryzom/server/src/entities_game_service/database_plr.h
acemtp 1792297c93 initial version
2010-05-06 02:08:41 +02:00

10439 lines
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#ifndef INCLUDED_database_PLR_H
#define INCLUDED_database_PLR_H
/////////////////////////////////////////////////////////////////
// WARNING : this is a generated file, don't change it !
/////////////////////////////////////////////////////////////////
#include "nel/misc/string_common.h"
#include "cdb_group.h"
#include "player_manager/cdb.h"
#include "player_manager/cdb_synchronised.h"
#ifndef _SET_PROP_ACCESSOR_
#define _SET_PROP_ACCESSOR_
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, bool value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, uint8 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, uint16 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, uint32 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, uint64 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, sint8 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, sint16 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, sint32 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, sint64 value, bool forceSending = false)
{
db.x_setProp(node, uint64(value), forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, const std::string &value, bool forceSending = false)
{
db.x_setPropString(node, value, forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, const ucstring &value, bool forceSending = false)
{
db.x_setPropString(node, value, forceSending);
}
inline void _setProp(CCDBSynchronised &db, ICDBStructNode *node, const NLMISC::CSheetId &value, bool forceSending = false)
{
db.x_setProp(node, uint64(value.asInt()), forceSending);
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, bool &value)
{
value = db.x_getProp(node) != 0;
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, uint8 &value)
{
value = uint8(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, uint16 &value)
{
value = uint16(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, uint32 &value)
{
value = uint32(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, uint64 &value)
{
value = db.x_getProp(node);
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, sint8 &value)
{
value = uint8(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, sint16 &value)
{
value = uint16(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, sint32 &value)
{
value = uint32(db.x_getProp(node));
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, sint64 &value)
{
value = db.x_getProp(node);
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, std::string &value)
{
value = db.x_getPropString(node);
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, ucstring &value)
{
value = db.x_getPropUcstring(node);
}
inline void _getProp(const CCDBSynchronised &db, ICDBStructNode *node, NLMISC::CSheetId &value)
{
value = uint32(db.x_getProp(node));
}
#endif // _SET_PROP_ACCESSOR_
class CBankAccessor_PLR : public CCDBSynchronised
{
public:
static TCDBBank BankTag;
class TGameTime
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Hours;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setHours(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _Hours, value, forceSending);
}
uint16 getHours(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Hours, value);
return value;
}
ICDBStructNode *getHoursCDBNode()
{
return _Hours;
}
};
class TINTERFACES
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_FLAGS;
ICDBStructNode *_NB_BONUS_LANDMARKS;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setFLAGS(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _FLAGS, value, forceSending);
}
uint64 getFLAGS(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _FLAGS, value);
return value;
}
ICDBStructNode *getFLAGSCDBNode()
{
return _FLAGS;
}
void setNB_BONUS_LANDMARKS(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _NB_BONUS_LANDMARKS, value, forceSending);
}
uint16 getNB_BONUS_LANDMARKS(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _NB_BONUS_LANDMARKS, value);
return value;
}
ICDBStructNode *getNB_BONUS_LANDMARKSCDBNode()
{
return _NB_BONUS_LANDMARKS;
}
};
class TUSER
{
public:
class TSKILL_POINTS_
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint32 getVALUE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
class TFACTION_POINTS_
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint32 getVALUE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
class TRRPS_LEVELS
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint32 getVALUE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
class TNPC_CONTROL
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_RUN;
ICDBStructNode *_WALK;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setRUN(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _RUN, value, forceSending);
}
uint32 getRUN(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _RUN, value);
return value;
}
ICDBStructNode *getRUNCDBNode()
{
return _RUN;
}
void setWALK(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _WALK, value, forceSending);
}
uint32 getWALK(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _WALK, value);
return value;
}
ICDBStructNode *getWALKCDBNode()
{
return _WALK;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_HAIR_TYPE;
ICDBStructNode *_HAIR_COLOR;
ICDBStructNode *_DEATH_XP_MALUS;
ICDBStructNode *_IN_DUEL;
ICDBStructNode *_IN_PVP_CHALLENGE;
ICDBStructNode *_MOUNT_WALK_SPEED;
ICDBStructNode *_MOUNT_RUN_SPEED;
ICDBStructNode *_TEAM_MEMBER;
ICDBStructNode *_TEAM_LEADER;
ICDBStructNode *_OUTPOST_ADMIN;
ICDBStructNode *_BERSERK;
ICDBStructNode *_ACT_TSTART;
ICDBStructNode *_ACT_TEND;
ICDBStructNode *_ACT_TYPE;
ICDBStructNode *_ACT_NUMBER;
ICDBStructNode *_ACT_REFUSED_NUM;
ICDBStructNode *_ACT_CANCELED_NUM;
ICDBStructNode *_SPEED_FACTOR;
ICDBStructNode *_SKILL_POINTS;
ICDBStructNode *_IS_NEWBIE;
ICDBStructNode *_IS_TRIAL;
ICDBStructNode *_DEFAULT_WEIGHT_HANDS;
ICDBStructNode *_COUNTER;
TSKILL_POINTS_ _SKILL_POINTS_[4];
TFACTION_POINTS_ _FACTION_POINTS_[6];
TRRPS_LEVELS _RRPS_LEVELS[6];
TNPC_CONTROL _NPC_CONTROL;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setHAIR_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _HAIR_TYPE, value, forceSending);
}
uint8 getHAIR_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _HAIR_TYPE, value);
return value;
}
ICDBStructNode *getHAIR_TYPECDBNode()
{
return _HAIR_TYPE;
}
void setHAIR_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setHAIR_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _HAIR_COLOR, value, forceSending);
}
uint8 getHAIR_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _HAIR_COLOR, value);
return value;
}
ICDBStructNode *getHAIR_COLORCDBNode()
{
return _HAIR_COLOR;
}
void setDEATH_XP_MALUS(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _DEATH_XP_MALUS, value, forceSending);
}
uint8 getDEATH_XP_MALUS(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _DEATH_XP_MALUS, value);
return value;
}
ICDBStructNode *getDEATH_XP_MALUSCDBNode()
{
return _DEATH_XP_MALUS;
}
void setIN_DUEL(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _IN_DUEL, value, forceSending);
}
bool getIN_DUEL(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _IN_DUEL, value);
return value;
}
ICDBStructNode *getIN_DUELCDBNode()
{
return _IN_DUEL;
}
void setIN_PVP_CHALLENGE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _IN_PVP_CHALLENGE, value, forceSending);
}
bool getIN_PVP_CHALLENGE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _IN_PVP_CHALLENGE, value);
return value;
}
ICDBStructNode *getIN_PVP_CHALLENGECDBNode()
{
return _IN_PVP_CHALLENGE;
}
void setMOUNT_WALK_SPEED(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _MOUNT_WALK_SPEED, value, forceSending);
}
uint16 getMOUNT_WALK_SPEED(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _MOUNT_WALK_SPEED, value);
return value;
}
ICDBStructNode *getMOUNT_WALK_SPEEDCDBNode()
{
return _MOUNT_WALK_SPEED;
}
void setMOUNT_RUN_SPEED(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _MOUNT_RUN_SPEED, value, forceSending);
}
uint16 getMOUNT_RUN_SPEED(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _MOUNT_RUN_SPEED, value);
return value;
}
ICDBStructNode *getMOUNT_RUN_SPEEDCDBNode()
{
return _MOUNT_RUN_SPEED;
}
void setTEAM_MEMBER(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _TEAM_MEMBER, value, forceSending);
}
bool getTEAM_MEMBER(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _TEAM_MEMBER, value);
return value;
}
ICDBStructNode *getTEAM_MEMBERCDBNode()
{
return _TEAM_MEMBER;
}
void setTEAM_LEADER(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _TEAM_LEADER, value, forceSending);
}
bool getTEAM_LEADER(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _TEAM_LEADER, value);
return value;
}
ICDBStructNode *getTEAM_LEADERCDBNode()
{
return _TEAM_LEADER;
}
void setOUTPOST_ADMIN(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _OUTPOST_ADMIN, value, forceSending);
}
bool getOUTPOST_ADMIN(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _OUTPOST_ADMIN, value);
return value;
}
ICDBStructNode *getOUTPOST_ADMINCDBNode()
{
return _OUTPOST_ADMIN;
}
void setBERSERK(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _BERSERK, value, forceSending);
}
bool getBERSERK(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _BERSERK, value);
return value;
}
ICDBStructNode *getBERSERKCDBNode()
{
return _BERSERK;
}
void setACT_TSTART(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ACT_TSTART, value, forceSending);
}
uint32 getACT_TSTART(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ACT_TSTART, value);
return value;
}
ICDBStructNode *getACT_TSTARTCDBNode()
{
return _ACT_TSTART;
}
void setACT_TEND(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ACT_TEND, value, forceSending);
}
uint32 getACT_TEND(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ACT_TEND, value);
return value;
}
ICDBStructNode *getACT_TENDCDBNode()
{
return _ACT_TEND;
}
void setACT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setACT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _ACT_TYPE, value, forceSending);
}
uint8 getACT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ACT_TYPE, value);
return value;
}
ICDBStructNode *getACT_TYPECDBNode()
{
return _ACT_TYPE;
}
void setACT_NUMBER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _ACT_NUMBER, value, forceSending);
}
uint8 getACT_NUMBER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ACT_NUMBER, value);
return value;
}
ICDBStructNode *getACT_NUMBERCDBNode()
{
return _ACT_NUMBER;
}
void setACT_REFUSED_NUM(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _ACT_REFUSED_NUM, value, forceSending);
}
uint8 getACT_REFUSED_NUM(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ACT_REFUSED_NUM, value);
return value;
}
ICDBStructNode *getACT_REFUSED_NUMCDBNode()
{
return _ACT_REFUSED_NUM;
}
void setACT_CANCELED_NUM(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _ACT_CANCELED_NUM, value, forceSending);
}
uint8 getACT_CANCELED_NUM(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ACT_CANCELED_NUM, value);
return value;
}
ICDBStructNode *getACT_CANCELED_NUMCDBNode()
{
return _ACT_CANCELED_NUM;
}
void setSPEED_FACTOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _SPEED_FACTOR, value, forceSending);
}
uint8 getSPEED_FACTOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SPEED_FACTOR, value);
return value;
}
ICDBStructNode *getSPEED_FACTORCDBNode()
{
return _SPEED_FACTOR;
}
void setSKILL_POINTS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _SKILL_POINTS, value, forceSending);
}
uint32 getSKILL_POINTS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _SKILL_POINTS, value);
return value;
}
ICDBStructNode *getSKILL_POINTSCDBNode()
{
return _SKILL_POINTS;
}
void setIS_NEWBIE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _IS_NEWBIE, value, forceSending);
}
bool getIS_NEWBIE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _IS_NEWBIE, value);
return value;
}
ICDBStructNode *getIS_NEWBIECDBNode()
{
return _IS_NEWBIE;
}
void setIS_TRIAL(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _IS_TRIAL, value, forceSending);
}
bool getIS_TRIAL(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _IS_TRIAL, value);
return value;
}
ICDBStructNode *getIS_TRIALCDBNode()
{
return _IS_TRIAL;
}
void setDEFAULT_WEIGHT_HANDS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DEFAULT_WEIGHT_HANDS, value, forceSending);
}
uint32 getDEFAULT_WEIGHT_HANDS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DEFAULT_WEIGHT_HANDS, value);
return value;
}
ICDBStructNode *getDEFAULT_WEIGHT_HANDSCDBNode()
{
return _DEFAULT_WEIGHT_HANDS;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCOUNTER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
TSKILL_POINTS_ &getSKILL_POINTS_(uint32 index)
{
nlassert(index < 4);
return _SKILL_POINTS_[index];
}
TFACTION_POINTS_ &getFACTION_POINTS_(uint32 index)
{
nlassert(index < 6);
return _FACTION_POINTS_[index];
}
TRRPS_LEVELS &getRRPS_LEVELS(uint32 index)
{
nlassert(index < 6);
return _RRPS_LEVELS[index];
}
TNPC_CONTROL &getNPC_CONTROL()
{
return _NPC_CONTROL;
}
};
class TDEFENSE
{
public:
class TSLOTS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_MODIFIER;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setMODIFIER(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _MODIFIER, value, forceSending);
}
sint8 getMODIFIER(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _MODIFIER, value);
return value;
}
ICDBStructNode *getMODIFIERCDBNode()
{
return _MODIFIER;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[6];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 6);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_DEFENSE_MODE;
ICDBStructNode *_PROTECTED_SLOT;
TSLOTS _SLOTS;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setDEFENSE_MODE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _DEFENSE_MODE, value, forceSending);
}
bool getDEFENSE_MODE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _DEFENSE_MODE, value);
return value;
}
ICDBStructNode *getDEFENSE_MODECDBNode()
{
return _DEFENSE_MODE;
}
void setPROTECTED_SLOT(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setPROTECTED_SLOT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _PROTECTED_SLOT, value, forceSending);
}
uint8 getPROTECTED_SLOT(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PROTECTED_SLOT, value);
return value;
}
ICDBStructNode *getPROTECTED_SLOTCDBNode()
{
return _PROTECTED_SLOT;
}
TSLOTS &getSLOTS()
{
return _SLOTS;
}
};
class TFLAGS
{
public:
class TBRICK_TICK_RANGE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TICK_RANGE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTICK_RANGE(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _TICK_RANGE, value, forceSending);
}
uint64 getTICK_RANGE(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _TICK_RANGE, value);
return value;
}
ICDBStructNode *getTICK_RANGECDBNode()
{
return _TICK_RANGE;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[64];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 64);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_CRITICAL;
ICDBStructNode *_PARRY;
ICDBStructNode *_DODGE;
TBRICK_TICK_RANGE _BRICK_TICK_RANGE;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setCRITICAL(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _CRITICAL, value, forceSending);
}
uint8 getCRITICAL(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CRITICAL, value);
return value;
}
ICDBStructNode *getCRITICALCDBNode()
{
return _CRITICAL;
}
void setPARRY(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _PARRY, value, forceSending);
}
uint8 getPARRY(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PARRY, value);
return value;
}
ICDBStructNode *getPARRYCDBNode()
{
return _PARRY;
}
void setDODGE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _DODGE, value, forceSending);
}
uint8 getDODGE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _DODGE, value);
return value;
}
ICDBStructNode *getDODGECDBNode()
{
return _DODGE;
}
TBRICK_TICK_RANGE &getBRICK_TICK_RANGE()
{
return _BRICK_TICK_RANGE;
}
};
class TTARGET
{
public:
class TBARS
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_UID;
ICDBStructNode *_HP;
ICDBStructNode *_SAP;
ICDBStructNode *_STA;
ICDBStructNode *_FOCUS;
ICDBStructNode *_PLAYER_LEVEL;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setUID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<20)-1, "setUID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 20 bits");
_setProp(dbGroup, _UID, value, forceSending);
}
uint32 getUID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _UID, value);
return value;
}
ICDBStructNode *getUIDCDBNode()
{
return _UID;
}
void setHP(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _HP, value, forceSending);
}
sint8 getHP(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _HP, value);
return value;
}
ICDBStructNode *getHPCDBNode()
{
return _HP;
}
void setSAP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setSAP : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _SAP, value, forceSending);
}
uint8 getSAP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SAP, value);
return value;
}
ICDBStructNode *getSAPCDBNode()
{
return _SAP;
}
void setSTA(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setSTA : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _STA, value, forceSending);
}
uint8 getSTA(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _STA, value);
return value;
}
ICDBStructNode *getSTACDBNode()
{
return _STA;
}
void setFOCUS(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setFOCUS : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _FOCUS, value, forceSending);
}
uint8 getFOCUS(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FOCUS, value);
return value;
}
ICDBStructNode *getFOCUSCDBNode()
{
return _FOCUS;
}
void setPLAYER_LEVEL(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _PLAYER_LEVEL, value, forceSending);
}
uint8 getPLAYER_LEVEL(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PLAYER_LEVEL, value);
return value;
}
ICDBStructNode *getPLAYER_LEVELCDBNode()
{
return _PLAYER_LEVEL;
}
};
class TCONTEXT_MENU
{
public:
class TMISSIONS_OPTIONS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TITLE;
ICDBStructNode *_PLAYER_GIFT_NEEDED;
ICDBStructNode *_PRIORITY;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setPLAYER_GIFT_NEEDED(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PLAYER_GIFT_NEEDED, value, forceSending);
}
bool getPLAYER_GIFT_NEEDED(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PLAYER_GIFT_NEEDED, value);
return value;
}
ICDBStructNode *getPLAYER_GIFT_NEEDEDCDBNode()
{
return _PLAYER_GIFT_NEEDED;
}
void setPRIORITY(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setPRIORITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _PRIORITY, value, forceSending);
}
uint8 getPRIORITY(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PRIORITY, value);
return value;
}
ICDBStructNode *getPRIORITYCDBNode()
{
return _PRIORITY;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
class TMISSION_RING
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TITLE;
ICDBStructNode *_ID;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ID, value, forceSending);
}
uint32 getID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ID, value);
return value;
}
ICDBStructNode *getIDCDBNode()
{
return _ID;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[4];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 4);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_PROGRAMMES;
ICDBStructNode *_WEB_PAGE_TITLE;
ICDBStructNode *_WEB_PAGE_URL;
ICDBStructNode *_OUTPOST;
ICDBStructNode *_COUNTER;
TMISSIONS_OPTIONS _MISSIONS_OPTIONS;
TMISSION_RING _MISSION_RING;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPROGRAMMES(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _PROGRAMMES, value, forceSending);
}
uint32 getPROGRAMMES(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _PROGRAMMES, value);
return value;
}
ICDBStructNode *getPROGRAMMESCDBNode()
{
return _PROGRAMMES;
}
void setWEB_PAGE_TITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _WEB_PAGE_TITLE, value, forceSending);
}
uint32 getWEB_PAGE_TITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _WEB_PAGE_TITLE, value);
return value;
}
ICDBStructNode *getWEB_PAGE_TITLECDBNode()
{
return _WEB_PAGE_TITLE;
}
void setWEB_PAGE_URL(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _WEB_PAGE_URL, value, forceSending);
}
uint32 getWEB_PAGE_URL(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _WEB_PAGE_URL, value);
return value;
}
ICDBStructNode *getWEB_PAGE_URLCDBNode()
{
return _WEB_PAGE_URL;
}
void setOUTPOST(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _OUTPOST, value, forceSending);
}
NLMISC::CSheetId getOUTPOST(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _OUTPOST, value);
return value;
}
ICDBStructNode *getOUTPOSTCDBNode()
{
return _OUTPOST;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCOUNTER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
TMISSIONS_OPTIONS &getMISSIONS_OPTIONS()
{
return _MISSIONS_OPTIONS;
}
TMISSION_RING &getMISSION_RING()
{
return _MISSION_RING;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_CONTEXT_VAL;
ICDBStructNode *_AGGRESSIVE;
ICDBStructNode *_FORCE_RATIO;
TBARS _BARS;
TCONTEXT_MENU _CONTEXT_MENU;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setCONTEXT_VAL(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _CONTEXT_VAL, value, forceSending);
}
uint16 getCONTEXT_VAL(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _CONTEXT_VAL, value);
return value;
}
ICDBStructNode *getCONTEXT_VALCDBNode()
{
return _CONTEXT_VAL;
}
void setAGGRESSIVE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setAGGRESSIVE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _AGGRESSIVE, value, forceSending);
}
uint8 getAGGRESSIVE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _AGGRESSIVE, value);
return value;
}
ICDBStructNode *getAGGRESSIVECDBNode()
{
return _AGGRESSIVE;
}
void setFORCE_RATIO(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setFORCE_RATIO : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _FORCE_RATIO, value, forceSending);
}
uint8 getFORCE_RATIO(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FORCE_RATIO, value);
return value;
}
ICDBStructNode *getFORCE_RATIOCDBNode()
{
return _FORCE_RATIO;
}
TBARS &getBARS()
{
return _BARS;
}
TCONTEXT_MENU &getCONTEXT_MENU()
{
return _CONTEXT_MENU;
}
};
class TGROUP
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_PRESENT;
ICDBStructNode *_UID;
ICDBStructNode *_NAME;
ICDBStructNode *_HP;
ICDBStructNode *_SAP;
ICDBStructNode *_STA;
ICDBStructNode *_POS;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPRESENT(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PRESENT, value, forceSending);
}
bool getPRESENT(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PRESENT, value);
return value;
}
ICDBStructNode *getPRESENTCDBNode()
{
return _PRESENT;
}
void setUID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<20)-1, "setUID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 20 bits");
_setProp(dbGroup, _UID, value, forceSending);
}
uint32 getUID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _UID, value);
return value;
}
ICDBStructNode *getUIDCDBNode()
{
return _UID;
}
void setNAME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAME, value, forceSending);
}
uint32 getNAME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAME, value);
return value;
}
ICDBStructNode *getNAMECDBNode()
{
return _NAME;
}
void setHP(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _HP, value, forceSending);
}
sint8 getHP(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _HP, value);
return value;
}
ICDBStructNode *getHPCDBNode()
{
return _HP;
}
void setSAP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setSAP : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _SAP, value, forceSending);
}
uint8 getSAP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SAP, value);
return value;
}
ICDBStructNode *getSAPCDBNode()
{
return _SAP;
}
void setSTA(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setSTA : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _STA, value, forceSending);
}
uint8 getSTA(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _STA, value);
return value;
}
ICDBStructNode *getSTACDBNode()
{
return _STA;
}
void setPOS(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _POS, value, forceSending);
}
uint64 getPOS(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _POS, value);
return value;
}
ICDBStructNode *getPOSCDBNode()
{
return _POS;
}
};
class TMISSIONS
{
public:
class TArray
{
public:
class TGOALS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
ICDBStructNode *_NPC_ALIAS;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
void setNPC_ALIAS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NPC_ALIAS, value, forceSending);
}
uint32 getNPC_ALIAS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NPC_ALIAS, value);
return value;
}
ICDBStructNode *getNPC_ALIASCDBNode()
{
return _NPC_ALIAS;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[20];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 20);
return _Array[index];
}
};
class TTARGET
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TITLE;
ICDBStructNode *_X;
ICDBStructNode *_Y;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setX(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _X, value, forceSending);
}
uint32 getX(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _X, value);
return value;
}
ICDBStructNode *getXCDBNode()
{
return _X;
}
void setY(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _Y, value, forceSending);
}
uint32 getY(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Y, value);
return value;
}
ICDBStructNode *getYCDBNode()
{
return _Y;
}
};
class THISTO
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[30];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 30);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TYPE;
ICDBStructNode *_ICON;
ICDBStructNode *_TITLE;
ICDBStructNode *_DETAIL_TEXT;
ICDBStructNode *_BEGIN_DATE;
ICDBStructNode *_END_DATE;
ICDBStructNode *_OR_STEPS;
ICDBStructNode *_FINISHED;
ICDBStructNode *_ABANDONNABLE;
ICDBStructNode *_SLEEP;
TGOALS _GOALS;
TTARGET _TARGET[8];
THISTO _HISTO;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setTYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _TYPE, value, forceSending);
}
uint8 getTYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TYPE, value);
return value;
}
ICDBStructNode *getTYPECDBNode()
{
return _TYPE;
}
void setICON(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _ICON, value, forceSending);
}
NLMISC::CSheetId getICON(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _ICON, value);
return value;
}
ICDBStructNode *getICONCDBNode()
{
return _ICON;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setDETAIL_TEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DETAIL_TEXT, value, forceSending);
}
uint32 getDETAIL_TEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DETAIL_TEXT, value);
return value;
}
ICDBStructNode *getDETAIL_TEXTCDBNode()
{
return _DETAIL_TEXT;
}
void setBEGIN_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BEGIN_DATE, value, forceSending);
}
uint32 getBEGIN_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BEGIN_DATE, value);
return value;
}
ICDBStructNode *getBEGIN_DATECDBNode()
{
return _BEGIN_DATE;
}
void setEND_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _END_DATE, value, forceSending);
}
uint32 getEND_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _END_DATE, value);
return value;
}
ICDBStructNode *getEND_DATECDBNode()
{
return _END_DATE;
}
void setOR_STEPS(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _OR_STEPS, value, forceSending);
}
bool getOR_STEPS(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _OR_STEPS, value);
return value;
}
ICDBStructNode *getOR_STEPSCDBNode()
{
return _OR_STEPS;
}
void setFINISHED(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setFINISHED : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _FINISHED, value, forceSending);
}
uint8 getFINISHED(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FINISHED, value);
return value;
}
ICDBStructNode *getFINISHEDCDBNode()
{
return _FINISHED;
}
void setABANDONNABLE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _ABANDONNABLE, value, forceSending);
}
bool getABANDONNABLE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _ABANDONNABLE, value);
return value;
}
ICDBStructNode *getABANDONNABLECDBNode()
{
return _ABANDONNABLE;
}
void setSLEEP(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _SLEEP, value, forceSending);
}
bool getSLEEP(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _SLEEP, value);
return value;
}
ICDBStructNode *getSLEEPCDBNode()
{
return _SLEEP;
}
TGOALS &getGOALS()
{
return _GOALS;
}
TTARGET &getTARGET(uint32 index)
{
nlassert(index < 8);
return _TARGET[index];
}
THISTO &getHISTO()
{
return _HISTO;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[15];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 15);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_LEADER_INDEX;
ICDBStructNode *_SUCCESSOR_INDEX;
TArray _Array[8];
TMISSIONS _MISSIONS;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setLEADER_INDEX(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setLEADER_INDEX : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _LEADER_INDEX, value, forceSending);
}
uint8 getLEADER_INDEX(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _LEADER_INDEX, value);
return value;
}
ICDBStructNode *getLEADER_INDEXCDBNode()
{
return _LEADER_INDEX;
}
void setSUCCESSOR_INDEX(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setSUCCESSOR_INDEX : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _SUCCESSOR_INDEX, value, forceSending);
}
uint8 getSUCCESSOR_INDEX(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SUCCESSOR_INDEX, value);
return value;
}
ICDBStructNode *getSUCCESSOR_INDEXCDBNode()
{
return _SUCCESSOR_INDEX;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
TMISSIONS &getMISSIONS()
{
return _MISSIONS;
}
};
class TDM_GIFT
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
};
class TEXCHANGE
{
public:
class TGIVE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_QUALITY;
ICDBStructNode *_QUANTITY;
ICDBStructNode *_USER_COLOR;
ICDBStructNode *_WEIGHT;
ICDBStructNode *_NAMEID;
ICDBStructNode *_INFO_VERSION;
ICDBStructNode *_ENCHANT;
ICDBStructNode *_RM_CLASS_TYPE;
ICDBStructNode *_RM_FABER_STAT_TYPE;
ICDBStructNode *_PREREQUISIT_VALID;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setQUALITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUALITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUALITY, value, forceSending);
}
uint16 getQUALITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUALITY, value);
return value;
}
ICDBStructNode *getQUALITYCDBNode()
{
return _QUALITY;
}
void setQUANTITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUANTITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUANTITY, value, forceSending);
}
uint16 getQUANTITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUANTITY, value);
return value;
}
ICDBStructNode *getQUANTITYCDBNode()
{
return _QUANTITY;
}
void setUSER_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setUSER_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _USER_COLOR, value, forceSending);
}
uint8 getUSER_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _USER_COLOR, value);
return value;
}
ICDBStructNode *getUSER_COLORCDBNode()
{
return _USER_COLOR;
}
void setWEIGHT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _WEIGHT, value, forceSending);
}
uint16 getWEIGHT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _WEIGHT, value);
return value;
}
ICDBStructNode *getWEIGHTCDBNode()
{
return _WEIGHT;
}
void setNAMEID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAMEID, value, forceSending);
}
uint32 getNAMEID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAMEID, value);
return value;
}
ICDBStructNode *getNAMEIDCDBNode()
{
return _NAMEID;
}
void setINFO_VERSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _INFO_VERSION, value, forceSending);
}
uint8 getINFO_VERSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _INFO_VERSION, value);
return value;
}
ICDBStructNode *getINFO_VERSIONCDBNode()
{
return _INFO_VERSION;
}
void setENCHANT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setENCHANT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _ENCHANT, value, forceSending);
}
uint16 getENCHANT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _ENCHANT, value);
return value;
}
ICDBStructNode *getENCHANTCDBNode()
{
return _ENCHANT;
}
void setRM_CLASS_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setRM_CLASS_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _RM_CLASS_TYPE, value, forceSending);
}
uint8 getRM_CLASS_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_CLASS_TYPE, value);
return value;
}
ICDBStructNode *getRM_CLASS_TYPECDBNode()
{
return _RM_CLASS_TYPE;
}
void setRM_FABER_STAT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setRM_FABER_STAT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _RM_FABER_STAT_TYPE, value, forceSending);
}
uint8 getRM_FABER_STAT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_FABER_STAT_TYPE, value);
return value;
}
ICDBStructNode *getRM_FABER_STAT_TYPECDBNode()
{
return _RM_FABER_STAT_TYPE;
}
void setPREREQUISIT_VALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQUISIT_VALID, value, forceSending);
}
bool getPREREQUISIT_VALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PREREQUISIT_VALID, value);
return value;
}
ICDBStructNode *getPREREQUISIT_VALIDCDBNode()
{
return _PREREQUISIT_VALID;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
class TRECEIVE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_QUALITY;
ICDBStructNode *_QUANTITY;
ICDBStructNode *_USER_COLOR;
ICDBStructNode *_WEIGHT;
ICDBStructNode *_NAMEID;
ICDBStructNode *_INFO_VERSION;
ICDBStructNode *_ENCHANT;
ICDBStructNode *_RM_CLASS_TYPE;
ICDBStructNode *_RM_FABER_STAT_TYPE;
ICDBStructNode *_PREREQUISIT_VALID;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setQUALITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUALITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUALITY, value, forceSending);
}
uint16 getQUALITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUALITY, value);
return value;
}
ICDBStructNode *getQUALITYCDBNode()
{
return _QUALITY;
}
void setQUANTITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUANTITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUANTITY, value, forceSending);
}
uint16 getQUANTITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUANTITY, value);
return value;
}
ICDBStructNode *getQUANTITYCDBNode()
{
return _QUANTITY;
}
void setUSER_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setUSER_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _USER_COLOR, value, forceSending);
}
uint8 getUSER_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _USER_COLOR, value);
return value;
}
ICDBStructNode *getUSER_COLORCDBNode()
{
return _USER_COLOR;
}
void setWEIGHT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _WEIGHT, value, forceSending);
}
uint16 getWEIGHT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _WEIGHT, value);
return value;
}
ICDBStructNode *getWEIGHTCDBNode()
{
return _WEIGHT;
}
void setNAMEID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAMEID, value, forceSending);
}
uint32 getNAMEID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAMEID, value);
return value;
}
ICDBStructNode *getNAMEIDCDBNode()
{
return _NAMEID;
}
void setINFO_VERSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _INFO_VERSION, value, forceSending);
}
uint8 getINFO_VERSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _INFO_VERSION, value);
return value;
}
ICDBStructNode *getINFO_VERSIONCDBNode()
{
return _INFO_VERSION;
}
void setENCHANT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setENCHANT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _ENCHANT, value, forceSending);
}
uint16 getENCHANT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _ENCHANT, value);
return value;
}
ICDBStructNode *getENCHANTCDBNode()
{
return _ENCHANT;
}
void setRM_CLASS_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setRM_CLASS_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _RM_CLASS_TYPE, value, forceSending);
}
uint8 getRM_CLASS_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_CLASS_TYPE, value);
return value;
}
ICDBStructNode *getRM_CLASS_TYPECDBNode()
{
return _RM_CLASS_TYPE;
}
void setRM_FABER_STAT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setRM_FABER_STAT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _RM_FABER_STAT_TYPE, value, forceSending);
}
uint8 getRM_FABER_STAT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_FABER_STAT_TYPE, value);
return value;
}
ICDBStructNode *getRM_FABER_STAT_TYPECDBNode()
{
return _RM_FABER_STAT_TYPE;
}
void setPREREQUISIT_VALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQUISIT_VALID, value, forceSending);
}
bool getPREREQUISIT_VALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PREREQUISIT_VALID, value);
return value;
}
ICDBStructNode *getPREREQUISIT_VALIDCDBNode()
{
return _PREREQUISIT_VALID;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
ICDBStructNode *_ID;
ICDBStructNode *_BEGUN;
ICDBStructNode *_ACCEPTED;
ICDBStructNode *_MONEY;
ICDBStructNode *_FORCE_REFUSE;
ICDBStructNode *_COUNTER;
TGIVE _GIVE;
TRECEIVE _RECEIVE;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
void setID(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _ID, value, forceSending);
}
uint8 getID(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ID, value);
return value;
}
ICDBStructNode *getIDCDBNode()
{
return _ID;
}
void setBEGUN(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _BEGUN, value, forceSending);
}
bool getBEGUN(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _BEGUN, value);
return value;
}
ICDBStructNode *getBEGUNCDBNode()
{
return _BEGUN;
}
void setACCEPTED(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _ACCEPTED, value, forceSending);
}
bool getACCEPTED(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _ACCEPTED, value);
return value;
}
ICDBStructNode *getACCEPTEDCDBNode()
{
return _ACCEPTED;
}
void setMONEY(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _MONEY, value, forceSending);
}
uint64 getMONEY(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _MONEY, value);
return value;
}
ICDBStructNode *getMONEYCDBNode()
{
return _MONEY;
}
void setFORCE_REFUSE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setFORCE_REFUSE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _FORCE_REFUSE, value, forceSending);
}
uint8 getFORCE_REFUSE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FORCE_REFUSE, value);
return value;
}
ICDBStructNode *getFORCE_REFUSECDBNode()
{
return _FORCE_REFUSE;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCOUNTER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
TGIVE &getGIVE()
{
return _GIVE;
}
TRECEIVE &getRECEIVE()
{
return _RECEIVE;
}
};
class TINVENTORY
{
public:
class THAND
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_INDEX_IN_BAG;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setINDEX_IN_BAG(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setINDEX_IN_BAG : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _INDEX_IN_BAG, value, forceSending);
}
uint16 getINDEX_IN_BAG(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _INDEX_IN_BAG, value);
return value;
}
ICDBStructNode *getINDEX_IN_BAGCDBNode()
{
return _INDEX_IN_BAG;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[2];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 2);
return _Array[index];
}
};
class TEQUIP
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_INDEX_IN_BAG;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setINDEX_IN_BAG(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setINDEX_IN_BAG : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _INDEX_IN_BAG, value, forceSending);
}
uint16 getINDEX_IN_BAG(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _INDEX_IN_BAG, value);
return value;
}
ICDBStructNode *getINDEX_IN_BAGCDBNode()
{
return _INDEX_IN_BAG;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[19];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 19);
return _Array[index];
}
};
class TTEMP
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_QUALITY;
ICDBStructNode *_QUANTITY;
ICDBStructNode *_USER_COLOR;
ICDBStructNode *_WEIGHT;
ICDBStructNode *_NAMEID;
ICDBStructNode *_INFO_VERSION;
ICDBStructNode *_ENCHANT;
ICDBStructNode *_RM_CLASS_TYPE;
ICDBStructNode *_RM_FABER_STAT_TYPE;
ICDBStructNode *_PREREQUISIT_VALID;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setQUALITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setQUALITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _QUALITY, value, forceSending);
}
uint16 getQUALITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUALITY, value);
return value;
}
ICDBStructNode *getQUALITYCDBNode()
{
return _QUALITY;
}
void setQUANTITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setQUANTITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _QUANTITY, value, forceSending);
}
uint16 getQUANTITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUANTITY, value);
return value;
}
ICDBStructNode *getQUANTITYCDBNode()
{
return _QUANTITY;
}
void setUSER_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setUSER_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _USER_COLOR, value, forceSending);
}
uint8 getUSER_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _USER_COLOR, value);
return value;
}
ICDBStructNode *getUSER_COLORCDBNode()
{
return _USER_COLOR;
}
void setWEIGHT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _WEIGHT, value, forceSending);
}
uint16 getWEIGHT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _WEIGHT, value);
return value;
}
ICDBStructNode *getWEIGHTCDBNode()
{
return _WEIGHT;
}
void setNAMEID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAMEID, value, forceSending);
}
uint32 getNAMEID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAMEID, value);
return value;
}
ICDBStructNode *getNAMEIDCDBNode()
{
return _NAMEID;
}
void setINFO_VERSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _INFO_VERSION, value, forceSending);
}
uint8 getINFO_VERSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _INFO_VERSION, value);
return value;
}
ICDBStructNode *getINFO_VERSIONCDBNode()
{
return _INFO_VERSION;
}
void setENCHANT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setENCHANT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _ENCHANT, value, forceSending);
}
uint16 getENCHANT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _ENCHANT, value);
return value;
}
ICDBStructNode *getENCHANTCDBNode()
{
return _ENCHANT;
}
void setRM_CLASS_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setRM_CLASS_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _RM_CLASS_TYPE, value, forceSending);
}
uint8 getRM_CLASS_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_CLASS_TYPE, value);
return value;
}
ICDBStructNode *getRM_CLASS_TYPECDBNode()
{
return _RM_CLASS_TYPE;
}
void setRM_FABER_STAT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setRM_FABER_STAT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _RM_FABER_STAT_TYPE, value, forceSending);
}
uint8 getRM_FABER_STAT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_FABER_STAT_TYPE, value);
return value;
}
ICDBStructNode *getRM_FABER_STAT_TYPECDBNode()
{
return _RM_FABER_STAT_TYPE;
}
void setPREREQUISIT_VALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQUISIT_VALID, value, forceSending);
}
bool getPREREQUISIT_VALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PREREQUISIT_VALID, value);
return value;
}
ICDBStructNode *getPREREQUISIT_VALIDCDBNode()
{
return _PREREQUISIT_VALID;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TYPE;
ICDBStructNode *_ENABLE_TAKE;
TArray _Array[16];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _TYPE, value, forceSending);
}
uint8 getTYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TYPE, value);
return value;
}
ICDBStructNode *getTYPECDBNode()
{
return _TYPE;
}
void setENABLE_TAKE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _ENABLE_TAKE, value, forceSending);
}
bool getENABLE_TAKE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _ENABLE_TAKE, value);
return value;
}
ICDBStructNode *getENABLE_TAKECDBNode()
{
return _ENABLE_TAKE;
}
TArray &getArray(uint32 index)
{
nlassert(index < 16);
return _Array[index];
}
};
class TSHARE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_QUALITY;
ICDBStructNode *_QUANTITY;
ICDBStructNode *_USER_COLOR;
ICDBStructNode *_WEIGHT;
ICDBStructNode *_NAMEID;
ICDBStructNode *_INFO_VERSION;
ICDBStructNode *_ENCHANT;
ICDBStructNode *_RM_CLASS_TYPE;
ICDBStructNode *_RM_FABER_STAT_TYPE;
ICDBStructNode *_PREREQUISIT_VALID;
ICDBStructNode *_NB_MEMBER;
ICDBStructNode *_WANTED;
ICDBStructNode *_CHANCE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setQUALITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUALITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUALITY, value, forceSending);
}
uint16 getQUALITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUALITY, value);
return value;
}
ICDBStructNode *getQUALITYCDBNode()
{
return _QUALITY;
}
void setQUANTITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUANTITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUANTITY, value, forceSending);
}
uint16 getQUANTITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUANTITY, value);
return value;
}
ICDBStructNode *getQUANTITYCDBNode()
{
return _QUANTITY;
}
void setUSER_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setUSER_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _USER_COLOR, value, forceSending);
}
uint8 getUSER_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _USER_COLOR, value);
return value;
}
ICDBStructNode *getUSER_COLORCDBNode()
{
return _USER_COLOR;
}
void setWEIGHT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _WEIGHT, value, forceSending);
}
uint16 getWEIGHT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _WEIGHT, value);
return value;
}
ICDBStructNode *getWEIGHTCDBNode()
{
return _WEIGHT;
}
void setNAMEID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAMEID, value, forceSending);
}
uint32 getNAMEID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAMEID, value);
return value;
}
ICDBStructNode *getNAMEIDCDBNode()
{
return _NAMEID;
}
void setINFO_VERSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _INFO_VERSION, value, forceSending);
}
uint8 getINFO_VERSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _INFO_VERSION, value);
return value;
}
ICDBStructNode *getINFO_VERSIONCDBNode()
{
return _INFO_VERSION;
}
void setENCHANT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setENCHANT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _ENCHANT, value, forceSending);
}
uint16 getENCHANT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _ENCHANT, value);
return value;
}
ICDBStructNode *getENCHANTCDBNode()
{
return _ENCHANT;
}
void setRM_CLASS_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setRM_CLASS_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _RM_CLASS_TYPE, value, forceSending);
}
uint8 getRM_CLASS_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_CLASS_TYPE, value);
return value;
}
ICDBStructNode *getRM_CLASS_TYPECDBNode()
{
return _RM_CLASS_TYPE;
}
void setRM_FABER_STAT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setRM_FABER_STAT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _RM_FABER_STAT_TYPE, value, forceSending);
}
uint8 getRM_FABER_STAT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_FABER_STAT_TYPE, value);
return value;
}
ICDBStructNode *getRM_FABER_STAT_TYPECDBNode()
{
return _RM_FABER_STAT_TYPE;
}
void setPREREQUISIT_VALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQUISIT_VALID, value, forceSending);
}
bool getPREREQUISIT_VALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PREREQUISIT_VALID, value);
return value;
}
ICDBStructNode *getPREREQUISIT_VALIDCDBNode()
{
return _PREREQUISIT_VALID;
}
void setNB_MEMBER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setNB_MEMBER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _NB_MEMBER, value, forceSending);
}
uint8 getNB_MEMBER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _NB_MEMBER, value);
return value;
}
ICDBStructNode *getNB_MEMBERCDBNode()
{
return _NB_MEMBER;
}
void setWANTED(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _WANTED, value, forceSending);
}
bool getWANTED(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _WANTED, value);
return value;
}
ICDBStructNode *getWANTEDCDBNode()
{
return _WANTED;
}
void setCHANCE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setCHANCE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _CHANCE, value, forceSending);
}
uint8 getCHANCE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CHANCE, value);
return value;
}
ICDBStructNode *getCHANCECDBNode()
{
return _CHANCE;
}
};
class TTM_
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_NAME;
ICDBStructNode *_VALID;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setNAME(CCDBSynchronised &dbGroup, ucstring value, bool forceSending = false)
{
_setProp(dbGroup, _NAME, value, forceSending);
}
ucstring getNAME(const CCDBSynchronised &dbGroup)
{
ucstring value;
_getProp(dbGroup, _NAME, value);
return value;
}
void setNAME(CCDBSynchronised &dbGroup, uint32 stringId, bool forceSending = false)
{
_setProp(dbGroup, _NAME, stringId, forceSending);
}
uint32 getNAME_id(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAME, value);
return value;
}
ICDBStructNode *getNAMECDBNode()
{
return _NAME;
}
void setVALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _VALID, value, forceSending);
}
bool getVALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _VALID, value);
return value;
}
ICDBStructNode *getVALIDCDBNode()
{
return _VALID;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SESSION;
TArray _Array[16];
TTM_ _TM_[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSESSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _SESSION, value, forceSending);
}
uint8 getSESSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SESSION, value);
return value;
}
ICDBStructNode *getSESSIONCDBNode()
{
return _SESSION;
}
TArray &getArray(uint32 index)
{
nlassert(index < 16);
return _Array[index];
}
TTM_ &getTM_(uint32 index)
{
nlassert(index < 8);
return _TM_[index];
}
};
class TROOM
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SESSION;
ICDBStructNode *_BULK_MAX;
ICDBStructNode *_MONEY;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSESSION(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _SESSION, value, forceSending);
}
uint16 getSESSION(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SESSION, value);
return value;
}
ICDBStructNode *getSESSIONCDBNode()
{
return _SESSION;
}
void setBULK_MAX(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BULK_MAX, value, forceSending);
}
uint32 getBULK_MAX(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BULK_MAX, value);
return value;
}
ICDBStructNode *getBULK_MAXCDBNode()
{
return _BULK_MAX;
}
void setMONEY(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _MONEY, value, forceSending);
}
uint64 getMONEY(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _MONEY, value);
return value;
}
ICDBStructNode *getMONEYCDBNode()
{
return _MONEY;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_MONEY;
ICDBStructNode *_COUNTER;
THAND _HAND;
TEQUIP _EQUIP;
TTEMP _TEMP;
TSHARE _SHARE;
TROOM _ROOM;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setMONEY(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _MONEY, value, forceSending);
}
uint64 getMONEY(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _MONEY, value);
return value;
}
ICDBStructNode *getMONEYCDBNode()
{
return _MONEY;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCOUNTER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
THAND &getHAND()
{
return _HAND;
}
TEQUIP &getEQUIP()
{
return _EQUIP;
}
TTEMP &getTEMP()
{
return _TEMP;
}
TSHARE &getSHARE()
{
return _SHARE;
}
TROOM &getROOM()
{
return _ROOM;
}
};
class TMODIFIERS
{
public:
class TBONUS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_DISABLED;
ICDBStructNode *_DISABLED_TIME;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setDISABLED(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _DISABLED, value, forceSending);
}
bool getDISABLED(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _DISABLED, value);
return value;
}
ICDBStructNode *getDISABLEDCDBNode()
{
return _DISABLED;
}
void setDISABLED_TIME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DISABLED_TIME, value, forceSending);
}
uint32 getDISABLED_TIME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DISABLED_TIME, value);
return value;
}
ICDBStructNode *getDISABLED_TIMECDBNode()
{
return _DISABLED_TIME;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[12];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 12);
return _Array[index];
}
};
class TMALUS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_DISABLED;
ICDBStructNode *_DISABLED_TIME;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setDISABLED(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _DISABLED, value, forceSending);
}
bool getDISABLED(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _DISABLED, value);
return value;
}
ICDBStructNode *getDISABLEDCDBNode()
{
return _DISABLED;
}
void setDISABLED_TIME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DISABLED_TIME, value, forceSending);
}
uint32 getDISABLED_TIME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DISABLED_TIME, value);
return value;
}
ICDBStructNode *getDISABLED_TIMECDBNode()
{
return _DISABLED_TIME;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[12];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 12);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TOTAL_MALUS_EQUIP;
TBONUS _BONUS;
TMALUS _MALUS;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTOTAL_MALUS_EQUIP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _TOTAL_MALUS_EQUIP, value, forceSending);
}
uint8 getTOTAL_MALUS_EQUIP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TOTAL_MALUS_EQUIP, value);
return value;
}
ICDBStructNode *getTOTAL_MALUS_EQUIPCDBNode()
{
return _TOTAL_MALUS_EQUIP;
}
TBONUS &getBONUS()
{
return _BONUS;
}
TMALUS &getMALUS()
{
return _MALUS;
}
};
class TDISABLE_CONSUMABLE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_FAMILY;
ICDBStructNode *_DISABLE_TIME;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setFAMILY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _FAMILY, value, forceSending);
}
uint16 getFAMILY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _FAMILY, value);
return value;
}
ICDBStructNode *getFAMILYCDBNode()
{
return _FAMILY;
}
void setDISABLE_TIME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DISABLE_TIME, value, forceSending);
}
uint32 getDISABLE_TIME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DISABLE_TIME, value);
return value;
}
ICDBStructNode *getDISABLE_TIMECDBNode()
{
return _DISABLE_TIME;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[12];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 12);
return _Array[index];
}
};
class TBOTCHAT
{
public:
class TDM_CHOICE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TITLE;
TArray _Array[8];
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_PLAYER_GIFT;
ICDBStructNode *_CREATE_GUILD;
ICDBStructNode *_TRADE;
ICDBStructNode *_CHOOSE_MISSION;
ICDBStructNode *_DM_TITLE;
ICDBStructNode *_DM_DESCRIPTION;
ICDBStructNode *_ROLEMASTER_TYPE;
TDM_CHOICE _DM_CHOICE[3];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPLAYER_GIFT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _PLAYER_GIFT, value, forceSending);
}
uint32 getPLAYER_GIFT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _PLAYER_GIFT, value);
return value;
}
ICDBStructNode *getPLAYER_GIFTCDBNode()
{
return _PLAYER_GIFT;
}
void setCREATE_GUILD(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _CREATE_GUILD, value, forceSending);
}
uint32 getCREATE_GUILD(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _CREATE_GUILD, value);
return value;
}
ICDBStructNode *getCREATE_GUILDCDBNode()
{
return _CREATE_GUILD;
}
void setTRADE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TRADE, value, forceSending);
}
uint32 getTRADE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TRADE, value);
return value;
}
ICDBStructNode *getTRADECDBNode()
{
return _TRADE;
}
void setCHOOSE_MISSION(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _CHOOSE_MISSION, value, forceSending);
}
uint32 getCHOOSE_MISSION(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _CHOOSE_MISSION, value);
return value;
}
ICDBStructNode *getCHOOSE_MISSIONCDBNode()
{
return _CHOOSE_MISSION;
}
void setDM_TITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DM_TITLE, value, forceSending);
}
uint32 getDM_TITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DM_TITLE, value);
return value;
}
ICDBStructNode *getDM_TITLECDBNode()
{
return _DM_TITLE;
}
void setDM_DESCRIPTION(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DM_DESCRIPTION, value, forceSending);
}
uint32 getDM_DESCRIPTION(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DM_DESCRIPTION, value);
return value;
}
ICDBStructNode *getDM_DESCRIPTIONCDBNode()
{
return _DM_DESCRIPTION;
}
void setROLEMASTER_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setROLEMASTER_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _ROLEMASTER_TYPE, value, forceSending);
}
uint8 getROLEMASTER_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ROLEMASTER_TYPE, value);
return value;
}
ICDBStructNode *getROLEMASTER_TYPECDBNode()
{
return _ROLEMASTER_TYPE;
}
TDM_CHOICE &getDM_CHOICE(uint32 index)
{
nlassert(index < 3);
return _DM_CHOICE[index];
}
};
class TASCENSOR
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_ICON;
ICDBStructNode *_NAME;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setICON(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _ICON, value, forceSending);
}
uint64 getICON(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _ICON, value);
return value;
}
ICDBStructNode *getICONCDBNode()
{
return _ICON;
}
void setNAME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAME, value, forceSending);
}
uint32 getNAME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAME, value);
return value;
}
ICDBStructNode *getNAMECDBNode()
{
return _NAME;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SESSION;
ICDBStructNode *_PAGE_ID;
ICDBStructNode *_HAS_NEXT;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSESSION(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _SESSION, value, forceSending);
}
uint16 getSESSION(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SESSION, value);
return value;
}
ICDBStructNode *getSESSIONCDBNode()
{
return _SESSION;
}
void setPAGE_ID(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setPAGE_ID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _PAGE_ID, value, forceSending);
}
uint8 getPAGE_ID(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PAGE_ID, value);
return value;
}
ICDBStructNode *getPAGE_IDCDBNode()
{
return _PAGE_ID;
}
void setHAS_NEXT(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _HAS_NEXT, value, forceSending);
}
bool getHAS_NEXT(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _HAS_NEXT, value);
return value;
}
ICDBStructNode *getHAS_NEXTCDBNode()
{
return _HAS_NEXT;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
class TCHOOSE_MISSIONS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_ICON;
ICDBStructNode *_TEXT;
ICDBStructNode *_DETAIL_TEXT;
ICDBStructNode *_PREREQ_STATE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setICON(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _ICON, value, forceSending);
}
NLMISC::CSheetId getICON(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _ICON, value);
return value;
}
ICDBStructNode *getICONCDBNode()
{
return _ICON;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
void setDETAIL_TEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DETAIL_TEXT, value, forceSending);
}
uint32 getDETAIL_TEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DETAIL_TEXT, value);
return value;
}
ICDBStructNode *getDETAIL_TEXTCDBNode()
{
return _DETAIL_TEXT;
}
void setPREREQ_STATE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQ_STATE, value, forceSending);
}
uint8 getPREREQ_STATE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PREREQ_STATE, value);
return value;
}
ICDBStructNode *getPREREQ_STATECDBNode()
{
return _PREREQ_STATE;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SESSION;
ICDBStructNode *_PAGE_ID;
ICDBStructNode *_HAS_NEXT;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSESSION(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _SESSION, value, forceSending);
}
uint16 getSESSION(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SESSION, value);
return value;
}
ICDBStructNode *getSESSIONCDBNode()
{
return _SESSION;
}
void setPAGE_ID(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setPAGE_ID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _PAGE_ID, value, forceSending);
}
uint8 getPAGE_ID(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PAGE_ID, value);
return value;
}
ICDBStructNode *getPAGE_IDCDBNode()
{
return _PAGE_ID;
}
void setHAS_NEXT(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _HAS_NEXT, value, forceSending);
}
bool getHAS_NEXT(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _HAS_NEXT, value);
return value;
}
ICDBStructNode *getHAS_NEXTCDBNode()
{
return _HAS_NEXT;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
class TTRADING
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SHEET;
ICDBStructNode *_QUALITY;
ICDBStructNode *_QUANTITY;
ICDBStructNode *_USER_COLOR;
ICDBStructNode *_WEIGHT;
ICDBStructNode *_NAMEID;
ICDBStructNode *_INFO_VERSION;
ICDBStructNode *_ENCHANT;
ICDBStructNode *_RM_CLASS_TYPE;
ICDBStructNode *_RM_FABER_STAT_TYPE;
ICDBStructNode *_PREREQUISIT_VALID;
ICDBStructNode *_CURRENCY;
ICDBStructNode *_RRP_LEVEL;
ICDBStructNode *_MONEY_SHEET;
ICDBStructNode *_BASE_SKILL;
ICDBStructNode *_FACTION_TYPE;
ICDBStructNode *_PRICE;
ICDBStructNode *_PRICE_RETIRE;
ICDBStructNode *_RESALE_TIME_LEFT;
ICDBStructNode *_VENDOR_NAMEID;
ICDBStructNode *_FACTION_POINT_PRICE;
ICDBStructNode *_SLOT_TYPE;
ICDBStructNode *_SELLER_TYPE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setQUALITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUALITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUALITY, value, forceSending);
}
uint16 getQUALITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUALITY, value);
return value;
}
ICDBStructNode *getQUALITYCDBNode()
{
return _QUALITY;
}
void setQUANTITY(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setQUANTITY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _QUANTITY, value, forceSending);
}
uint16 getQUANTITY(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _QUANTITY, value);
return value;
}
ICDBStructNode *getQUANTITYCDBNode()
{
return _QUANTITY;
}
void setUSER_COLOR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setUSER_COLOR : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _USER_COLOR, value, forceSending);
}
uint8 getUSER_COLOR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _USER_COLOR, value);
return value;
}
ICDBStructNode *getUSER_COLORCDBNode()
{
return _USER_COLOR;
}
void setWEIGHT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _WEIGHT, value, forceSending);
}
uint16 getWEIGHT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _WEIGHT, value);
return value;
}
ICDBStructNode *getWEIGHTCDBNode()
{
return _WEIGHT;
}
void setNAMEID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAMEID, value, forceSending);
}
uint32 getNAMEID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAMEID, value);
return value;
}
ICDBStructNode *getNAMEIDCDBNode()
{
return _NAMEID;
}
void setINFO_VERSION(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _INFO_VERSION, value, forceSending);
}
uint8 getINFO_VERSION(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _INFO_VERSION, value);
return value;
}
ICDBStructNode *getINFO_VERSIONCDBNode()
{
return _INFO_VERSION;
}
void setENCHANT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<10)-1, "setENCHANT : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 10 bits");
_setProp(dbGroup, _ENCHANT, value, forceSending);
}
uint16 getENCHANT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _ENCHANT, value);
return value;
}
ICDBStructNode *getENCHANTCDBNode()
{
return _ENCHANT;
}
void setRM_CLASS_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setRM_CLASS_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _RM_CLASS_TYPE, value, forceSending);
}
uint8 getRM_CLASS_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_CLASS_TYPE, value);
return value;
}
ICDBStructNode *getRM_CLASS_TYPECDBNode()
{
return _RM_CLASS_TYPE;
}
void setRM_FABER_STAT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setRM_FABER_STAT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _RM_FABER_STAT_TYPE, value, forceSending);
}
uint8 getRM_FABER_STAT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RM_FABER_STAT_TYPE, value);
return value;
}
ICDBStructNode *getRM_FABER_STAT_TYPECDBNode()
{
return _RM_FABER_STAT_TYPE;
}
void setPREREQUISIT_VALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _PREREQUISIT_VALID, value, forceSending);
}
bool getPREREQUISIT_VALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _PREREQUISIT_VALID, value);
return value;
}
ICDBStructNode *getPREREQUISIT_VALIDCDBNode()
{
return _PREREQUISIT_VALID;
}
void setCURRENCY(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCURRENCY : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _CURRENCY, value, forceSending);
}
uint8 getCURRENCY(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CURRENCY, value);
return value;
}
ICDBStructNode *getCURRENCYCDBNode()
{
return _CURRENCY;
}
void setRRP_LEVEL(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setRRP_LEVEL : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _RRP_LEVEL, value, forceSending);
}
uint8 getRRP_LEVEL(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _RRP_LEVEL, value);
return value;
}
ICDBStructNode *getRRP_LEVELCDBNode()
{
return _RRP_LEVEL;
}
void setMONEY_SHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _MONEY_SHEET, value, forceSending);
}
NLMISC::CSheetId getMONEY_SHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _MONEY_SHEET, value);
return value;
}
ICDBStructNode *getMONEY_SHEETCDBNode()
{
return _MONEY_SHEET;
}
void setBASE_SKILL(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setBASE_SKILL : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _BASE_SKILL, value, forceSending);
}
uint8 getBASE_SKILL(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _BASE_SKILL, value);
return value;
}
ICDBStructNode *getBASE_SKILLCDBNode()
{
return _BASE_SKILL;
}
void setFACTION_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setFACTION_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _FACTION_TYPE, value, forceSending);
}
uint8 getFACTION_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FACTION_TYPE, value);
return value;
}
ICDBStructNode *getFACTION_TYPECDBNode()
{
return _FACTION_TYPE;
}
void setPRICE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _PRICE, value, forceSending);
}
uint32 getPRICE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _PRICE, value);
return value;
}
ICDBStructNode *getPRICECDBNode()
{
return _PRICE;
}
void setPRICE_RETIRE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _PRICE_RETIRE, value, forceSending);
}
uint32 getPRICE_RETIRE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _PRICE_RETIRE, value);
return value;
}
ICDBStructNode *getPRICE_RETIRECDBNode()
{
return _PRICE_RETIRE;
}
void setRESALE_TIME_LEFT(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _RESALE_TIME_LEFT, value, forceSending);
}
uint16 getRESALE_TIME_LEFT(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _RESALE_TIME_LEFT, value);
return value;
}
ICDBStructNode *getRESALE_TIME_LEFTCDBNode()
{
return _RESALE_TIME_LEFT;
}
void setVENDOR_NAMEID(CCDBSynchronised &dbGroup, ucstring value, bool forceSending = false)
{
_setProp(dbGroup, _VENDOR_NAMEID, value, forceSending);
}
ucstring getVENDOR_NAMEID(const CCDBSynchronised &dbGroup)
{
ucstring value;
_getProp(dbGroup, _VENDOR_NAMEID, value);
return value;
}
void setVENDOR_NAMEID(CCDBSynchronised &dbGroup, uint32 stringId, bool forceSending = false)
{
_setProp(dbGroup, _VENDOR_NAMEID, stringId, forceSending);
}
uint32 getVENDOR_NAMEID_id(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VENDOR_NAMEID, value);
return value;
}
ICDBStructNode *getVENDOR_NAMEIDCDBNode()
{
return _VENDOR_NAMEID;
}
void setFACTION_POINT_PRICE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _FACTION_POINT_PRICE, value, forceSending);
}
uint32 getFACTION_POINT_PRICE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _FACTION_POINT_PRICE, value);
return value;
}
ICDBStructNode *getFACTION_POINT_PRICECDBNode()
{
return _FACTION_POINT_PRICE;
}
void setSLOT_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setSLOT_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _SLOT_TYPE, value, forceSending);
}
uint8 getSLOT_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SLOT_TYPE, value);
return value;
}
ICDBStructNode *getSLOT_TYPECDBNode()
{
return _SLOT_TYPE;
}
void setSELLER_TYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setSELLER_TYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _SELLER_TYPE, value, forceSending);
}
uint8 getSELLER_TYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _SELLER_TYPE, value);
return value;
}
ICDBStructNode *getSELLER_TYPECDBNode()
{
return _SELLER_TYPE;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SESSION;
ICDBStructNode *_PAGE_ID;
ICDBStructNode *_HAS_NEXT;
ICDBStructNode *_ROLEMASTER_FLAGS;
ICDBStructNode *_ROLEMASTER_RACE;
ICDBStructNode *_BUILDING_LOSS_WARNING;
ICDBStructNode *_RAW_MATERIAL_SELLER;
ICDBStructNode *_ITEM_TYPE_SELLER_BITFILED_0_63;
ICDBStructNode *_ITEM_TYPE_SELLER_BITFILED_64_127;
ICDBStructNode *_FAME_PRICE_FACTOR;
TArray _Array[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSESSION(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _SESSION, value, forceSending);
}
uint16 getSESSION(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SESSION, value);
return value;
}
ICDBStructNode *getSESSIONCDBNode()
{
return _SESSION;
}
void setPAGE_ID(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setPAGE_ID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _PAGE_ID, value, forceSending);
}
uint8 getPAGE_ID(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PAGE_ID, value);
return value;
}
ICDBStructNode *getPAGE_IDCDBNode()
{
return _PAGE_ID;
}
void setHAS_NEXT(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _HAS_NEXT, value, forceSending);
}
bool getHAS_NEXT(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _HAS_NEXT, value);
return value;
}
ICDBStructNode *getHAS_NEXTCDBNode()
{
return _HAS_NEXT;
}
void setROLEMASTER_FLAGS(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<6)-1, "setROLEMASTER_FLAGS : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 6 bits");
_setProp(dbGroup, _ROLEMASTER_FLAGS, value, forceSending);
}
uint8 getROLEMASTER_FLAGS(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ROLEMASTER_FLAGS, value);
return value;
}
ICDBStructNode *getROLEMASTER_FLAGSCDBNode()
{
return _ROLEMASTER_FLAGS;
}
void setROLEMASTER_RACE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setROLEMASTER_RACE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _ROLEMASTER_RACE, value, forceSending);
}
uint8 getROLEMASTER_RACE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _ROLEMASTER_RACE, value);
return value;
}
ICDBStructNode *getROLEMASTER_RACECDBNode()
{
return _ROLEMASTER_RACE;
}
void setBUILDING_LOSS_WARNING(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _BUILDING_LOSS_WARNING, value, forceSending);
}
bool getBUILDING_LOSS_WARNING(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _BUILDING_LOSS_WARNING, value);
return value;
}
ICDBStructNode *getBUILDING_LOSS_WARNINGCDBNode()
{
return _BUILDING_LOSS_WARNING;
}
void setRAW_MATERIAL_SELLER(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _RAW_MATERIAL_SELLER, value, forceSending);
}
bool getRAW_MATERIAL_SELLER(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _RAW_MATERIAL_SELLER, value);
return value;
}
ICDBStructNode *getRAW_MATERIAL_SELLERCDBNode()
{
return _RAW_MATERIAL_SELLER;
}
void setITEM_TYPE_SELLER_BITFILED_0_63(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _ITEM_TYPE_SELLER_BITFILED_0_63, value, forceSending);
}
uint64 getITEM_TYPE_SELLER_BITFILED_0_63(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _ITEM_TYPE_SELLER_BITFILED_0_63, value);
return value;
}
ICDBStructNode *getITEM_TYPE_SELLER_BITFILED_0_63CDBNode()
{
return _ITEM_TYPE_SELLER_BITFILED_0_63;
}
void setITEM_TYPE_SELLER_BITFILED_64_127(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _ITEM_TYPE_SELLER_BITFILED_64_127, value, forceSending);
}
uint64 getITEM_TYPE_SELLER_BITFILED_64_127(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _ITEM_TYPE_SELLER_BITFILED_64_127, value);
return value;
}
ICDBStructNode *getITEM_TYPE_SELLER_BITFILED_64_127CDBNode()
{
return _ITEM_TYPE_SELLER_BITFILED_64_127;
}
void setFAME_PRICE_FACTOR(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _FAME_PRICE_FACTOR, value, forceSending);
}
uint16 getFAME_PRICE_FACTOR(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _FAME_PRICE_FACTOR, value);
return value;
}
ICDBStructNode *getFAME_PRICE_FACTORCDBNode()
{
return _FAME_PRICE_FACTOR;
}
TArray &getArray(uint32 index)
{
nlassert(index < 8);
return _Array[index];
}
};
class TBRICK_FAMILY
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_BRICKS;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setBRICKS(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _BRICKS, value, forceSending);
}
uint64 getBRICKS(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _BRICKS, value);
return value;
}
ICDBStructNode *getBRICKSCDBNode()
{
return _BRICKS;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[1024];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 1024);
return _Array[index];
}
};
class TFABER_PLANS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_KNOWN;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setKNOWN(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _KNOWN, value, forceSending);
}
uint64 getKNOWN(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _KNOWN, value);
return value;
}
ICDBStructNode *getKNOWNCDBNode()
{
return _KNOWN;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[64];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 64);
return _Array[index];
}
};
class TMISSIONS
{
public:
class TArray
{
public:
class TGOALS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
ICDBStructNode *_NPC_ALIAS;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
void setNPC_ALIAS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NPC_ALIAS, value, forceSending);
}
uint32 getNPC_ALIAS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NPC_ALIAS, value);
return value;
}
ICDBStructNode *getNPC_ALIASCDBNode()
{
return _NPC_ALIAS;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[20];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 20);
return _Array[index];
}
};
class TTARGET
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TITLE;
ICDBStructNode *_X;
ICDBStructNode *_Y;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setX(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _X, value, forceSending);
}
uint32 getX(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _X, value);
return value;
}
ICDBStructNode *getXCDBNode()
{
return _X;
}
void setY(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _Y, value, forceSending);
}
uint32 getY(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Y, value);
return value;
}
ICDBStructNode *getYCDBNode()
{
return _Y;
}
};
class THISTO
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TEXT;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TEXT, value, forceSending);
}
uint32 getTEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TEXT, value);
return value;
}
ICDBStructNode *getTEXTCDBNode()
{
return _TEXT;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[30];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 30);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TYPE;
ICDBStructNode *_ICON;
ICDBStructNode *_TITLE;
ICDBStructNode *_DETAIL_TEXT;
ICDBStructNode *_BEGIN_DATE;
ICDBStructNode *_END_DATE;
ICDBStructNode *_OR_STEPS;
ICDBStructNode *_FINISHED;
ICDBStructNode *_ABANDONNABLE;
ICDBStructNode *_SLEEP;
TGOALS _GOALS;
TTARGET _TARGET[8];
THISTO _HISTO;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setTYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _TYPE, value, forceSending);
}
uint8 getTYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TYPE, value);
return value;
}
ICDBStructNode *getTYPECDBNode()
{
return _TYPE;
}
void setICON(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _ICON, value, forceSending);
}
NLMISC::CSheetId getICON(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _ICON, value);
return value;
}
ICDBStructNode *getICONCDBNode()
{
return _ICON;
}
void setTITLE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _TITLE, value, forceSending);
}
uint32 getTITLE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TITLE, value);
return value;
}
ICDBStructNode *getTITLECDBNode()
{
return _TITLE;
}
void setDETAIL_TEXT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _DETAIL_TEXT, value, forceSending);
}
uint32 getDETAIL_TEXT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _DETAIL_TEXT, value);
return value;
}
ICDBStructNode *getDETAIL_TEXTCDBNode()
{
return _DETAIL_TEXT;
}
void setBEGIN_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BEGIN_DATE, value, forceSending);
}
uint32 getBEGIN_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BEGIN_DATE, value);
return value;
}
ICDBStructNode *getBEGIN_DATECDBNode()
{
return _BEGIN_DATE;
}
void setEND_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _END_DATE, value, forceSending);
}
uint32 getEND_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _END_DATE, value);
return value;
}
ICDBStructNode *getEND_DATECDBNode()
{
return _END_DATE;
}
void setOR_STEPS(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _OR_STEPS, value, forceSending);
}
bool getOR_STEPS(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _OR_STEPS, value);
return value;
}
ICDBStructNode *getOR_STEPSCDBNode()
{
return _OR_STEPS;
}
void setFINISHED(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<2)-1, "setFINISHED : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 2 bits");
_setProp(dbGroup, _FINISHED, value, forceSending);
}
uint8 getFINISHED(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _FINISHED, value);
return value;
}
ICDBStructNode *getFINISHEDCDBNode()
{
return _FINISHED;
}
void setABANDONNABLE(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _ABANDONNABLE, value, forceSending);
}
bool getABANDONNABLE(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _ABANDONNABLE, value);
return value;
}
ICDBStructNode *getABANDONNABLECDBNode()
{
return _ABANDONNABLE;
}
void setSLEEP(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _SLEEP, value, forceSending);
}
bool getSLEEP(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _SLEEP, value);
return value;
}
ICDBStructNode *getSLEEPCDBNode()
{
return _SLEEP;
}
TGOALS &getGOALS()
{
return _GOALS;
}
TTARGET &getTARGET(uint32 index)
{
nlassert(index < 8);
return _TARGET[index];
}
THISTO &getHISTO()
{
return _HISTO;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[15];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 15);
return _Array[index];
}
};
class TEXECUTE_PHRASE
{
public:
class TLINK
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_PHRASE;
ICDBStructNode *_COUNTER;
ICDBStructNode *_HP_COST;
ICDBStructNode *_SAP_COST;
ICDBStructNode *_STA_COST;
ICDBStructNode *_TARGET_NAME;
ICDBStructNode *_TARGET_HP;
ICDBStructNode *_TARGET_SAP;
ICDBStructNode *_TARGET_STA;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPHRASE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _PHRASE, value, forceSending);
}
uint16 getPHRASE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _PHRASE, value);
return value;
}
ICDBStructNode *getPHRASECDBNode()
{
return _PHRASE;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setCOUNTER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
void setHP_COST(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _HP_COST, value, forceSending);
}
uint16 getHP_COST(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _HP_COST, value);
return value;
}
ICDBStructNode *getHP_COSTCDBNode()
{
return _HP_COST;
}
void setSAP_COST(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _SAP_COST, value, forceSending);
}
uint16 getSAP_COST(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SAP_COST, value);
return value;
}
ICDBStructNode *getSAP_COSTCDBNode()
{
return _SAP_COST;
}
void setSTA_COST(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _STA_COST, value, forceSending);
}
uint16 getSTA_COST(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _STA_COST, value);
return value;
}
ICDBStructNode *getSTA_COSTCDBNode()
{
return _STA_COST;
}
void setTARGET_NAME(CCDBSynchronised &dbGroup, ucstring value, bool forceSending = false)
{
_setProp(dbGroup, _TARGET_NAME, value, forceSending);
}
ucstring getTARGET_NAME(const CCDBSynchronised &dbGroup)
{
ucstring value;
_getProp(dbGroup, _TARGET_NAME, value);
return value;
}
void setTARGET_NAME(CCDBSynchronised &dbGroup, uint32 stringId, bool forceSending = false)
{
_setProp(dbGroup, _TARGET_NAME, stringId, forceSending);
}
uint32 getTARGET_NAME_id(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _TARGET_NAME, value);
return value;
}
ICDBStructNode *getTARGET_NAMECDBNode()
{
return _TARGET_NAME;
}
void setTARGET_HP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setTARGET_HP : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _TARGET_HP, value, forceSending);
}
uint8 getTARGET_HP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TARGET_HP, value);
return value;
}
ICDBStructNode *getTARGET_HPCDBNode()
{
return _TARGET_HP;
}
void setTARGET_SAP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setTARGET_SAP : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _TARGET_SAP, value, forceSending);
}
uint8 getTARGET_SAP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TARGET_SAP, value);
return value;
}
ICDBStructNode *getTARGET_SAPCDBNode()
{
return _TARGET_SAP;
}
void setTARGET_STA(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setTARGET_STA : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _TARGET_STA, value, forceSending);
}
uint8 getTARGET_STA(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TARGET_STA, value);
return value;
}
ICDBStructNode *getTARGET_STACDBNode()
{
return _TARGET_STA;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[10];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 10);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_PHRASE;
ICDBStructNode *_SHEET;
ICDBStructNode *_NEXT_COUNTER;
ICDBStructNode *_CYCLE_COUNTER;
TLINK _LINK;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPHRASE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _PHRASE, value, forceSending);
}
uint16 getPHRASE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _PHRASE, value);
return value;
}
ICDBStructNode *getPHRASECDBNode()
{
return _PHRASE;
}
void setSHEET(CCDBSynchronised &dbGroup, NLMISC::CSheetId value, bool forceSending = false)
{
_setProp(dbGroup, _SHEET, value, forceSending);
}
NLMISC::CSheetId getSHEET(const CCDBSynchronised &dbGroup)
{
NLMISC::CSheetId value;
_getProp(dbGroup, _SHEET, value);
return value;
}
ICDBStructNode *getSHEETCDBNode()
{
return _SHEET;
}
void setNEXT_COUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _NEXT_COUNTER, value, forceSending);
}
uint8 getNEXT_COUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _NEXT_COUNTER, value);
return value;
}
ICDBStructNode *getNEXT_COUNTERCDBNode()
{
return _NEXT_COUNTER;
}
void setCYCLE_COUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _CYCLE_COUNTER, value, forceSending);
}
uint8 getCYCLE_COUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CYCLE_COUNTER, value);
return value;
}
ICDBStructNode *getCYCLE_COUNTERCDBNode()
{
return _CYCLE_COUNTER;
}
TLINK &getLINK()
{
return _LINK;
}
};
class TCHARACTER_INFO
{
public:
class TCHARACTERISTICS
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setVALUE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint16 getVALUE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
class TSCORES
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Base;
ICDBStructNode *_Max;
ICDBStructNode *_BaseRegen;
ICDBStructNode *_Regen;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setBase(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<24)-1, "setBase : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 24 bits");
_setProp(dbGroup, _Base, value, forceSending);
}
uint32 getBase(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Base, value);
return value;
}
ICDBStructNode *getBaseCDBNode()
{
return _Base;
}
void setMax(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<24)-1, "setMax : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 24 bits");
_setProp(dbGroup, _Max, value, forceSending);
}
uint32 getMax(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Max, value);
return value;
}
ICDBStructNode *getMaxCDBNode()
{
return _Max;
}
void setBaseRegen(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<24)-1, "setBaseRegen : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 24 bits");
_setProp(dbGroup, _BaseRegen, value, forceSending);
}
uint32 getBaseRegen(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BaseRegen, value);
return value;
}
ICDBStructNode *getBaseRegenCDBNode()
{
return _BaseRegen;
}
void setRegen(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<24)-1, "setRegen : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 24 bits");
_setProp(dbGroup, _Regen, value, forceSending);
}
uint32 getRegen(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Regen, value);
return value;
}
ICDBStructNode *getRegenCDBNode()
{
return _Regen;
}
};
class TMAGIC_RESISTANCE
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setVALUE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint16 getVALUE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_MaxResistanceBonus;
TArray _Array[5];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setMaxResistanceBonus(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setMaxResistanceBonus : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _MaxResistanceBonus, value, forceSending);
}
uint16 getMaxResistanceBonus(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _MaxResistanceBonus, value);
return value;
}
ICDBStructNode *getMaxResistanceBonusCDBNode()
{
return _MaxResistanceBonus;
}
TArray &getArray(uint32 index)
{
nlassert(index < 5);
return _Array[index];
}
};
class TMAGIC_PROTECTION
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setVALUE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint16 getVALUE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_MaxProtectionClampValue;
ICDBStructNode *_MaxAbsorptionFactor;
TArray _Array[7];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setMaxProtectionClampValue(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setMaxProtectionClampValue : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _MaxProtectionClampValue, value, forceSending);
}
uint16 getMaxProtectionClampValue(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _MaxProtectionClampValue, value);
return value;
}
ICDBStructNode *getMaxProtectionClampValueCDBNode()
{
return _MaxProtectionClampValue;
}
void setMaxAbsorptionFactor(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setMaxAbsorptionFactor : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _MaxAbsorptionFactor, value, forceSending);
}
uint16 getMaxAbsorptionFactor(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _MaxAbsorptionFactor, value);
return value;
}
ICDBStructNode *getMaxAbsorptionFactorCDBNode()
{
return _MaxAbsorptionFactor;
}
TArray &getArray(uint32 index)
{
nlassert(index < 7);
return _Array[index];
}
};
class TDODGE
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Base;
ICDBStructNode *_Current;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setBase(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setBase : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _Base, value, forceSending);
}
uint16 getBase(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Base, value);
return value;
}
ICDBStructNode *getBaseCDBNode()
{
return _Base;
}
void setCurrent(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setCurrent : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _Current, value, forceSending);
}
uint16 getCurrent(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Current, value);
return value;
}
ICDBStructNode *getCurrentCDBNode()
{
return _Current;
}
};
class TPARRY
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Base;
ICDBStructNode *_Current;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setBase(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setBase : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _Base, value, forceSending);
}
uint16 getBase(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Base, value);
return value;
}
ICDBStructNode *getBaseCDBNode()
{
return _Base;
}
void setCurrent(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<9)-1, "setCurrent : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 9 bits");
_setProp(dbGroup, _Current, value, forceSending);
}
uint16 getCurrent(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Current, value);
return value;
}
ICDBStructNode *getCurrentCDBNode()
{
return _Current;
}
};
class TSKILLS
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_SKILL;
ICDBStructNode *_BaseSKILL;
ICDBStructNode *_PROGRESS_BAR;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setSKILL(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setSKILL : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _SKILL, value, forceSending);
}
uint16 getSKILL(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _SKILL, value);
return value;
}
ICDBStructNode *getSKILLCDBNode()
{
return _SKILL;
}
void setBaseSKILL(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setBaseSKILL : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _BaseSKILL, value, forceSending);
}
uint16 getBaseSKILL(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _BaseSKILL, value);
return value;
}
ICDBStructNode *getBaseSKILLCDBNode()
{
return _BaseSKILL;
}
void setPROGRESS_BAR(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _PROGRESS_BAR, value, forceSending);
}
uint8 getPROGRESS_BAR(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _PROGRESS_BAR, value);
return value;
}
ICDBStructNode *getPROGRESS_BARCDBNode()
{
return _PROGRESS_BAR;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[225];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 225);
return _Array[index];
}
};
class TXP_CATALYSER
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Level;
ICDBStructNode *_Count;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setLevel(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setLevel : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _Level, value, forceSending);
}
uint16 getLevel(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Level, value);
return value;
}
ICDBStructNode *getLevelCDBNode()
{
return _Level;
}
void setCount(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setCount : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _Count, value, forceSending);
}
uint16 getCount(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Count, value);
return value;
}
ICDBStructNode *getCountCDBNode()
{
return _Count;
}
};
class TRING_XP_CATALYSER
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Level;
ICDBStructNode *_Count;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setLevel(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setLevel : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _Level, value, forceSending);
}
uint16 getLevel(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Level, value);
return value;
}
ICDBStructNode *getLevelCDBNode()
{
return _Level;
}
void setCount(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<12)-1, "setCount : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 12 bits");
_setProp(dbGroup, _Count, value, forceSending);
}
uint16 getCount(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _Count, value);
return value;
}
ICDBStructNode *getCountCDBNode()
{
return _Count;
}
};
class TPVP_FACTION_TAG
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_TAG_PVP;
ICDBStructNode *_ACTIVATION_TIME;
ICDBStructNode *_FLAG_PVP_TIME_LEFT;
ICDBStructNode *_COUNTER;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setTAG_PVP(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _TAG_PVP, value, forceSending);
}
bool getTAG_PVP(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _TAG_PVP, value);
return value;
}
ICDBStructNode *getTAG_PVPCDBNode()
{
return _TAG_PVP;
}
void setACTIVATION_TIME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ACTIVATION_TIME, value, forceSending);
}
uint32 getACTIVATION_TIME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ACTIVATION_TIME, value);
return value;
}
ICDBStructNode *getACTIVATION_TIMECDBNode()
{
return _ACTIVATION_TIME;
}
void setFLAG_PVP_TIME_LEFT(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _FLAG_PVP_TIME_LEFT, value, forceSending);
}
uint32 getFLAG_PVP_TIME_LEFT(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _FLAG_PVP_TIME_LEFT, value);
return value;
}
ICDBStructNode *getFLAG_PVP_TIME_LEFTCDBNode()
{
return _FLAG_PVP_TIME_LEFT;
}
void setCOUNTER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _COUNTER, value, forceSending);
}
uint8 getCOUNTER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _COUNTER, value);
return value;
}
ICDBStructNode *getCOUNTERCDBNode()
{
return _COUNTER;
}
};
class TPVP_OUTPOST
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_FLAG_PVP;
ICDBStructNode *_RIGHT_TO_BANISH;
ICDBStructNode *_ROUND_LVL_CUR;
ICDBStructNode *_ROUND_END_DATE;
ICDBStructNode *_FLAG_PVP_TIME_END;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setFLAG_PVP(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _FLAG_PVP, value, forceSending);
}
bool getFLAG_PVP(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _FLAG_PVP, value);
return value;
}
ICDBStructNode *getFLAG_PVPCDBNode()
{
return _FLAG_PVP;
}
void setRIGHT_TO_BANISH(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _RIGHT_TO_BANISH, value, forceSending);
}
bool getRIGHT_TO_BANISH(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _RIGHT_TO_BANISH, value);
return value;
}
ICDBStructNode *getRIGHT_TO_BANISHCDBNode()
{
return _RIGHT_TO_BANISH;
}
void setROUND_LVL_CUR(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ROUND_LVL_CUR, value, forceSending);
}
uint32 getROUND_LVL_CUR(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ROUND_LVL_CUR, value);
return value;
}
ICDBStructNode *getROUND_LVL_CURCDBNode()
{
return _ROUND_LVL_CUR;
}
void setROUND_END_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ROUND_END_DATE, value, forceSending);
}
uint32 getROUND_END_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ROUND_END_DATE, value);
return value;
}
ICDBStructNode *getROUND_END_DATECDBNode()
{
return _ROUND_END_DATE;
}
void setFLAG_PVP_TIME_END(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _FLAG_PVP_TIME_END, value, forceSending);
}
uint32 getFLAG_PVP_TIME_END(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _FLAG_PVP_TIME_END, value);
return value;
}
ICDBStructNode *getFLAG_PVP_TIME_ENDCDBNode()
{
return _FLAG_PVP_TIME_END;
}
};
class TSUCCESS_MODIFIER
{
public:
class TECO
{
public:
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_FORAGE;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setFORAGE(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _FORAGE, value, forceSending);
}
sint16 getFORAGE(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _FORAGE, value);
return value;
}
ICDBStructNode *getFORAGECDBNode()
{
return _FORAGE;
}
};
private:
ICDBStructNode *_BranchNode;
TArray _Array[7];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TArray &getArray(uint32 index)
{
nlassert(index < 7);
return _Array[index];
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_DODGE;
ICDBStructNode *_PARRY;
ICDBStructNode *_CRAFT;
ICDBStructNode *_MELEE;
ICDBStructNode *_RANGE;
ICDBStructNode *_MAGIC;
TECO _ECO;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setDODGE(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _DODGE, value, forceSending);
}
sint16 getDODGE(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _DODGE, value);
return value;
}
ICDBStructNode *getDODGECDBNode()
{
return _DODGE;
}
void setPARRY(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _PARRY, value, forceSending);
}
sint16 getPARRY(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _PARRY, value);
return value;
}
ICDBStructNode *getPARRYCDBNode()
{
return _PARRY;
}
void setCRAFT(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _CRAFT, value, forceSending);
}
sint16 getCRAFT(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _CRAFT, value);
return value;
}
ICDBStructNode *getCRAFTCDBNode()
{
return _CRAFT;
}
void setMELEE(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _MELEE, value, forceSending);
}
sint16 getMELEE(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _MELEE, value);
return value;
}
ICDBStructNode *getMELEECDBNode()
{
return _MELEE;
}
void setRANGE(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _RANGE, value, forceSending);
}
sint16 getRANGE(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _RANGE, value);
return value;
}
ICDBStructNode *getRANGECDBNode()
{
return _RANGE;
}
void setMAGIC(CCDBSynchronised &dbGroup, sint16 value, bool forceSending = false)
{
_setProp(dbGroup, _MAGIC, value, forceSending);
}
sint16 getMAGIC(const CCDBSynchronised &dbGroup)
{
sint16 value;
_getProp(dbGroup, _MAGIC, value);
return value;
}
ICDBStructNode *getMAGICCDBNode()
{
return _MAGIC;
}
TECO &getECO()
{
return _ECO;
}
};
private:
ICDBStructNode *_BranchNode;
TCHARACTERISTICS _CHARACTERISTICS[8];
TSCORES _SCORES[4];
TMAGIC_RESISTANCE _MAGIC_RESISTANCE;
TMAGIC_PROTECTION _MAGIC_PROTECTION;
TDODGE _DODGE;
TPARRY _PARRY;
TSKILLS _SKILLS;
TXP_CATALYSER _XP_CATALYSER;
TRING_XP_CATALYSER _RING_XP_CATALYSER;
TPVP_FACTION_TAG _PVP_FACTION_TAG;
TPVP_OUTPOST _PVP_OUTPOST;
TSUCCESS_MODIFIER _SUCCESS_MODIFIER;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TCHARACTERISTICS &getCHARACTERISTICS(uint32 index)
{
nlassert(index < 8);
return _CHARACTERISTICS[index];
}
TSCORES &getSCORES(uint32 index)
{
nlassert(index < 4);
return _SCORES[index];
}
TMAGIC_RESISTANCE &getMAGIC_RESISTANCE()
{
return _MAGIC_RESISTANCE;
}
TMAGIC_PROTECTION &getMAGIC_PROTECTION()
{
return _MAGIC_PROTECTION;
}
TDODGE &getDODGE()
{
return _DODGE;
}
TPARRY &getPARRY()
{
return _PARRY;
}
TSKILLS &getSKILLS()
{
return _SKILLS;
}
TXP_CATALYSER &getXP_CATALYSER()
{
return _XP_CATALYSER;
}
TRING_XP_CATALYSER &getRING_XP_CATALYSER()
{
return _RING_XP_CATALYSER;
}
TPVP_FACTION_TAG &getPVP_FACTION_TAG()
{
return _PVP_FACTION_TAG;
}
TPVP_OUTPOST &getPVP_OUTPOST()
{
return _PVP_OUTPOST;
}
TSUCCESS_MODIFIER &getSUCCESS_MODIFIER()
{
return _SUCCESS_MODIFIER;
}
};
class TPACK_ANIMAL
{
public:
class TBEAST
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_UID;
ICDBStructNode *_TYPE;
ICDBStructNode *_STATUS;
ICDBStructNode *_HP;
ICDBStructNode *_BULK_MAX;
ICDBStructNode *_POS;
ICDBStructNode *_HUNGER;
ICDBStructNode *_DESPAWN;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setUID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<20)-1, "setUID : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 20 bits");
_setProp(dbGroup, _UID, value, forceSending);
}
uint32 getUID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _UID, value);
return value;
}
ICDBStructNode *getUIDCDBNode()
{
return _UID;
}
void setTYPE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setTYPE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _TYPE, value, forceSending);
}
uint8 getTYPE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TYPE, value);
return value;
}
ICDBStructNode *getTYPECDBNode()
{
return _TYPE;
}
void setSTATUS(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<4)-1, "setSTATUS : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 4 bits");
_setProp(dbGroup, _STATUS, value, forceSending);
}
uint8 getSTATUS(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _STATUS, value);
return value;
}
ICDBStructNode *getSTATUSCDBNode()
{
return _STATUS;
}
void setHP(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setHP : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _HP, value, forceSending);
}
uint8 getHP(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _HP, value);
return value;
}
ICDBStructNode *getHPCDBNode()
{
return _HP;
}
void setBULK_MAX(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BULK_MAX, value, forceSending);
}
uint32 getBULK_MAX(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BULK_MAX, value);
return value;
}
ICDBStructNode *getBULK_MAXCDBNode()
{
return _BULK_MAX;
}
void setPOS(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _POS, value, forceSending);
}
uint64 getPOS(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _POS, value);
return value;
}
ICDBStructNode *getPOSCDBNode()
{
return _POS;
}
void setHUNGER(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<5)-1, "setHUNGER : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 5 bits");
_setProp(dbGroup, _HUNGER, value, forceSending);
}
uint8 getHUNGER(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _HUNGER, value);
return value;
}
ICDBStructNode *getHUNGERCDBNode()
{
return _HUNGER;
}
void setDESPAWN(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<7)-1, "setDESPAWN : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 7 bits");
_setProp(dbGroup, _DESPAWN, value, forceSending);
}
uint8 getDESPAWN(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _DESPAWN, value);
return value;
}
ICDBStructNode *getDESPAWNCDBNode()
{
return _DESPAWN;
}
};
private:
ICDBStructNode *_BranchNode;
TBEAST _BEAST[4];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TBEAST &getBEAST(uint32 index)
{
nlassert(index < 4);
return _BEAST[index];
}
};
class TDEBUG_INFO
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_Ping;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setPing(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _Ping, value, forceSending);
}
uint32 getPing(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _Ping, value);
return value;
}
ICDBStructNode *getPingCDBNode()
{
return _Ping;
}
};
class TMP_EVAL
{
public:
class TRESULT
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALID;
ICDBStructNode *_SMALL_SEED;
ICDBStructNode *_MEDIUM_SEED;
ICDBStructNode *_BIG_SEED;
ICDBStructNode *_VERY_BIG_SEED;
ICDBStructNode *_EXPIRY_DATE;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _VALID, value, forceSending);
}
bool getVALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _VALID, value);
return value;
}
ICDBStructNode *getVALIDCDBNode()
{
return _VALID;
}
void setSMALL_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _SMALL_SEED, value, forceSending);
}
uint32 getSMALL_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _SMALL_SEED, value);
return value;
}
ICDBStructNode *getSMALL_SEEDCDBNode()
{
return _SMALL_SEED;
}
void setMEDIUM_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _MEDIUM_SEED, value, forceSending);
}
uint32 getMEDIUM_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _MEDIUM_SEED, value);
return value;
}
ICDBStructNode *getMEDIUM_SEEDCDBNode()
{
return _MEDIUM_SEED;
}
void setBIG_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BIG_SEED, value, forceSending);
}
uint32 getBIG_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BIG_SEED, value);
return value;
}
ICDBStructNode *getBIG_SEEDCDBNode()
{
return _BIG_SEED;
}
void setVERY_BIG_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _VERY_BIG_SEED, value, forceSending);
}
uint32 getVERY_BIG_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VERY_BIG_SEED, value);
return value;
}
ICDBStructNode *getVERY_BIG_SEEDCDBNode()
{
return _VERY_BIG_SEED;
}
void setEXPIRY_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _EXPIRY_DATE, value, forceSending);
}
uint32 getEXPIRY_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _EXPIRY_DATE, value);
return value;
}
ICDBStructNode *getEXPIRY_DATECDBNode()
{
return _EXPIRY_DATE;
}
};
class TRESULT_CRITICAL
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALID;
ICDBStructNode *_SMALL_SEED;
ICDBStructNode *_MEDIUM_SEED;
ICDBStructNode *_BIG_SEED;
ICDBStructNode *_VERY_BIG_SEED;
ICDBStructNode *_EXPIRY_DATE;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALID(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _VALID, value, forceSending);
}
bool getVALID(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _VALID, value);
return value;
}
ICDBStructNode *getVALIDCDBNode()
{
return _VALID;
}
void setSMALL_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _SMALL_SEED, value, forceSending);
}
uint32 getSMALL_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _SMALL_SEED, value);
return value;
}
ICDBStructNode *getSMALL_SEEDCDBNode()
{
return _SMALL_SEED;
}
void setMEDIUM_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _MEDIUM_SEED, value, forceSending);
}
uint32 getMEDIUM_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _MEDIUM_SEED, value);
return value;
}
ICDBStructNode *getMEDIUM_SEEDCDBNode()
{
return _MEDIUM_SEED;
}
void setBIG_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BIG_SEED, value, forceSending);
}
uint32 getBIG_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BIG_SEED, value);
return value;
}
ICDBStructNode *getBIG_SEEDCDBNode()
{
return _BIG_SEED;
}
void setVERY_BIG_SEED(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _VERY_BIG_SEED, value, forceSending);
}
uint32 getVERY_BIG_SEED(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _VERY_BIG_SEED, value);
return value;
}
ICDBStructNode *getVERY_BIG_SEEDCDBNode()
{
return _VERY_BIG_SEED;
}
void setEXPIRY_DATE(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _EXPIRY_DATE, value, forceSending);
}
uint32 getEXPIRY_DATE(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _EXPIRY_DATE, value);
return value;
}
ICDBStructNode *getEXPIRY_DATECDBNode()
{
return _EXPIRY_DATE;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_COST;
TRESULT _RESULT;
TRESULT_CRITICAL _RESULT_CRITICAL;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setCOST(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _COST, value, forceSending);
}
uint32 getCOST(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _COST, value);
return value;
}
ICDBStructNode *getCOSTCDBNode()
{
return _COST;
}
TRESULT &getRESULT()
{
return _RESULT;
}
TRESULT_CRITICAL &getRESULT_CRITICAL()
{
return _RESULT_CRITICAL;
}
};
class TCOMPASS
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_HOME_POINT;
ICDBStructNode *_BIND_POINT;
ICDBStructNode *_TARGET;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setHOME_POINT(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _HOME_POINT, value, forceSending);
}
uint64 getHOME_POINT(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _HOME_POINT, value);
return value;
}
ICDBStructNode *getHOME_POINTCDBNode()
{
return _HOME_POINT;
}
void setBIND_POINT(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _BIND_POINT, value, forceSending);
}
uint64 getBIND_POINT(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _BIND_POINT, value);
return value;
}
ICDBStructNode *getBIND_POINTCDBNode()
{
return _BIND_POINT;
}
void setTARGET(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _TARGET, value, forceSending);
}
uint64 getTARGET(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _TARGET, value);
return value;
}
ICDBStructNode *getTARGETCDBNode()
{
return _TARGET;
}
};
class TFAME
{
public:
class TPLAYER
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
ICDBStructNode *_THRESHOLD;
ICDBStructNode *_TREND;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
sint8 getVALUE(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
void setTHRESHOLD(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _THRESHOLD, value, forceSending);
}
sint8 getTHRESHOLD(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _THRESHOLD, value);
return value;
}
ICDBStructNode *getTHRESHOLDCDBNode()
{
return _THRESHOLD;
}
void setTREND(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _TREND, value, forceSending);
}
uint8 getTREND(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TREND, value);
return value;
}
ICDBStructNode *getTRENDCDBNode()
{
return _TREND;
}
};
class TTRIBE
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
ICDBStructNode *_THRESHOLD;
ICDBStructNode *_TREND;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
sint8 getVALUE(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
void setTHRESHOLD(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _THRESHOLD, value, forceSending);
}
sint8 getTHRESHOLD(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _THRESHOLD, value);
return value;
}
ICDBStructNode *getTHRESHOLDCDBNode()
{
return _THRESHOLD;
}
void setTREND(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _TREND, value, forceSending);
}
uint8 getTREND(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _TREND, value);
return value;
}
ICDBStructNode *getTRENDCDBNode()
{
return _TREND;
}
};
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_CULT_ALLEGIANCE;
ICDBStructNode *_CIV_ALLEGIANCE;
ICDBStructNode *_THRESHOLD_TRADE;
ICDBStructNode *_THRESHOLD_KOS;
TPLAYER _PLAYER[6];
TTRIBE _TRIBE[53];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setCULT_ALLEGIANCE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setCULT_ALLEGIANCE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _CULT_ALLEGIANCE, value, forceSending);
}
uint8 getCULT_ALLEGIANCE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CULT_ALLEGIANCE, value);
return value;
}
ICDBStructNode *getCULT_ALLEGIANCECDBNode()
{
return _CULT_ALLEGIANCE;
}
void setCIV_ALLEGIANCE(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
// Check that the value is not out of database precision
STOP_IF(value > (1<<3)-1, "setCIV_ALLEGIANCE : Value out of bound : trying to store "<<value<<" in a unsigned field limited to 3 bits");
_setProp(dbGroup, _CIV_ALLEGIANCE, value, forceSending);
}
uint8 getCIV_ALLEGIANCE(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CIV_ALLEGIANCE, value);
return value;
}
ICDBStructNode *getCIV_ALLEGIANCECDBNode()
{
return _CIV_ALLEGIANCE;
}
void setTHRESHOLD_TRADE(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _THRESHOLD_TRADE, value, forceSending);
}
sint8 getTHRESHOLD_TRADE(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _THRESHOLD_TRADE, value);
return value;
}
ICDBStructNode *getTHRESHOLD_TRADECDBNode()
{
return _THRESHOLD_TRADE;
}
void setTHRESHOLD_KOS(CCDBSynchronised &dbGroup, sint8 value, bool forceSending = false)
{
_setProp(dbGroup, _THRESHOLD_KOS, value, forceSending);
}
sint8 getTHRESHOLD_KOS(const CCDBSynchronised &dbGroup)
{
sint8 value;
_getProp(dbGroup, _THRESHOLD_KOS, value);
return value;
}
ICDBStructNode *getTHRESHOLD_KOSCDBNode()
{
return _THRESHOLD_KOS;
}
TPLAYER &getPLAYER(uint32 index)
{
nlassert(index < 6);
return _PLAYER[index];
}
TTRIBE &getTRIBE(uint32 index)
{
nlassert(index < 53);
return _TRIBE[index];
}
};
class TSTATIC_DATA
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_BAG_BULK_MAX;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setBAG_BULK_MAX(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _BAG_BULK_MAX, value, forceSending);
}
uint32 getBAG_BULK_MAX(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _BAG_BULK_MAX, value);
return value;
}
ICDBStructNode *getBAG_BULK_MAXCDBNode()
{
return _BAG_BULK_MAX;
}
};
class TDYN_CHAT
{
public:
class TCHANNEL
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_NAME;
ICDBStructNode *_ID;
ICDBStructNode *_WRITE_RIGHT;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setNAME(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _NAME, value, forceSending);
}
uint32 getNAME(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _NAME, value);
return value;
}
ICDBStructNode *getNAMECDBNode()
{
return _NAME;
}
void setID(CCDBSynchronised &dbGroup, uint64 value, bool forceSending = false)
{
_setProp(dbGroup, _ID, value, forceSending);
}
uint64 getID(const CCDBSynchronised &dbGroup)
{
uint64 value;
_getProp(dbGroup, _ID, value);
return value;
}
ICDBStructNode *getIDCDBNode()
{
return _ID;
}
void setWRITE_RIGHT(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _WRITE_RIGHT, value, forceSending);
}
bool getWRITE_RIGHT(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _WRITE_RIGHT, value);
return value;
}
ICDBStructNode *getWRITE_RIGHTCDBNode()
{
return _WRITE_RIGHT;
}
};
private:
ICDBStructNode *_BranchNode;
TCHANNEL _CHANNEL[8];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TCHANNEL &getCHANNEL(uint32 index)
{
nlassert(index < 8);
return _CHANNEL[index];
}
};
class TPVP_EFFECTS
{
public:
class TPVP_FACTION_POINTS
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_CIV;
ICDBStructNode *_CIV_POINTS;
ICDBStructNode *_CULT;
ICDBStructNode *_CULT_POINTS;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setCIV(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _CIV, value, forceSending);
}
uint8 getCIV(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CIV, value);
return value;
}
ICDBStructNode *getCIVCDBNode()
{
return _CIV;
}
void setCIV_POINTS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _CIV_POINTS, value, forceSending);
}
uint32 getCIV_POINTS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _CIV_POINTS, value);
return value;
}
ICDBStructNode *getCIV_POINTSCDBNode()
{
return _CIV_POINTS;
}
void setCULT(CCDBSynchronised &dbGroup, uint8 value, bool forceSending = false)
{
_setProp(dbGroup, _CULT, value, forceSending);
}
uint8 getCULT(const CCDBSynchronised &dbGroup)
{
uint8 value;
_getProp(dbGroup, _CULT, value);
return value;
}
ICDBStructNode *getCULTCDBNode()
{
return _CULT;
}
void setCULT_POINTS(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _CULT_POINTS, value, forceSending);
}
uint32 getCULT_POINTS(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _CULT_POINTS, value);
return value;
}
ICDBStructNode *getCULT_POINTSCDBNode()
{
return _CULT_POINTS;
}
};
class TArray
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_ID;
ICDBStructNode *_ISBONUS;
ICDBStructNode *_PARAM;
public:
void init(ICDBStructNode *parent, uint index);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setID(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _ID, value, forceSending);
}
uint32 getID(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _ID, value);
return value;
}
ICDBStructNode *getIDCDBNode()
{
return _ID;
}
void setISBONUS(CCDBSynchronised &dbGroup, bool value, bool forceSending = false)
{
_setProp(dbGroup, _ISBONUS, value, forceSending);
}
bool getISBONUS(const CCDBSynchronised &dbGroup)
{
bool value;
_getProp(dbGroup, _ISBONUS, value);
return value;
}
ICDBStructNode *getISBONUSCDBNode()
{
return _ISBONUS;
}
void setPARAM(CCDBSynchronised &dbGroup, uint32 value, bool forceSending = false)
{
_setProp(dbGroup, _PARAM, value, forceSending);
}
uint32 getPARAM(const CCDBSynchronised &dbGroup)
{
uint32 value;
_getProp(dbGroup, _PARAM, value);
return value;
}
ICDBStructNode *getPARAMCDBNode()
{
return _PARAM;
}
};
private:
ICDBStructNode *_BranchNode;
TPVP_FACTION_POINTS _PVP_FACTION_POINTS;
TArray _Array[59];
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
TPVP_FACTION_POINTS &getPVP_FACTION_POINTS()
{
return _PVP_FACTION_POINTS;
}
TArray &getArray(uint32 index)
{
nlassert(index < 59);
return _Array[index];
}
};
class TWEATHER
{
public:
private:
ICDBStructNode *_BranchNode;
ICDBStructNode *_VALUE;
public:
void init(ICDBStructNode *parent);
// accessor to branch node
ICDBStructNode *getCDBNode()
{
return _BranchNode;
}
void setVALUE(CCDBSynchronised &dbGroup, uint16 value, bool forceSending = false)
{
_setProp(dbGroup, _VALUE, value, forceSending);
}
uint16 getVALUE(const CCDBSynchronised &dbGroup)
{
uint16 value;
_getProp(dbGroup, _VALUE, value);
return value;
}
ICDBStructNode *getVALUECDBNode()
{
return _VALUE;
}
};
static TGameTime _GameTime;
static TINTERFACES _INTERFACES;
static TUSER _USER;
static TDEFENSE _DEFENSE;
static TFLAGS _FLAGS;
static TTARGET _TARGET;
static TGROUP _GROUP;
static TDM_GIFT _DM_GIFT;
static TEXCHANGE _EXCHANGE;
static TINVENTORY _INVENTORY;
static TMODIFIERS _MODIFIERS;
static TDISABLE_CONSUMABLE _DISABLE_CONSUMABLE;
static TBOTCHAT _BOTCHAT;
static TASCENSOR _ASCENSOR;
static TCHOOSE_MISSIONS _CHOOSE_MISSIONS;
static TTRADING _TRADING;
static TBRICK_FAMILY _BRICK_FAMILY;
static TFABER_PLANS _FABER_PLANS;
static TMISSIONS _MISSIONS;
static TEXECUTE_PHRASE _EXECUTE_PHRASE;
static TCHARACTER_INFO _CHARACTER_INFO;
static TPACK_ANIMAL _PACK_ANIMAL;
static TDEBUG_INFO _DEBUG_INFO;
static TMP_EVAL _MP_EVAL;
static TCOMPASS _COMPASS;
static TFAME _FAME;
static TSTATIC_DATA _STATIC_DATA;
static TDYN_CHAT _DYN_CHAT;
static TPVP_EFFECTS _PVP_EFFECTS;
static TWEATHER _WEATHER;
public:
// Constructor
CBankAccessor_PLR()
{
// make sure the static tree is initialised (some kind of lazy initialisation)
init();
// init the base class
CCDBSynchronised::init(BankTag);
}
static void init();
static TGameTime &getGameTime()
{
return _GameTime;
}
static TINTERFACES &getINTERFACES()
{
return _INTERFACES;
}
static TUSER &getUSER()
{
return _USER;
}
static TDEFENSE &getDEFENSE()
{
return _DEFENSE;
}
static TFLAGS &getFLAGS()
{
return _FLAGS;
}
static TTARGET &getTARGET()
{
return _TARGET;
}
static TGROUP &getGROUP()
{
return _GROUP;
}
static TDM_GIFT &getDM_GIFT()
{
return _DM_GIFT;
}
static TEXCHANGE &getEXCHANGE()
{
return _EXCHANGE;
}
static TINVENTORY &getINVENTORY()
{
return _INVENTORY;
}
static TMODIFIERS &getMODIFIERS()
{
return _MODIFIERS;
}
static TDISABLE_CONSUMABLE &getDISABLE_CONSUMABLE()
{
return _DISABLE_CONSUMABLE;
}
static TBOTCHAT &getBOTCHAT()
{
return _BOTCHAT;
}
static TASCENSOR &getASCENSOR()
{
return _ASCENSOR;
}
static TCHOOSE_MISSIONS &getCHOOSE_MISSIONS()
{
return _CHOOSE_MISSIONS;
}
static TTRADING &getTRADING()
{
return _TRADING;
}
static TBRICK_FAMILY &getBRICK_FAMILY()
{
return _BRICK_FAMILY;
}
static TFABER_PLANS &getFABER_PLANS()
{
return _FABER_PLANS;
}
static TMISSIONS &getMISSIONS()
{
return _MISSIONS;
}
static TEXECUTE_PHRASE &getEXECUTE_PHRASE()
{
return _EXECUTE_PHRASE;
}
static TCHARACTER_INFO &getCHARACTER_INFO()
{
return _CHARACTER_INFO;
}
static TPACK_ANIMAL &getPACK_ANIMAL()
{
return _PACK_ANIMAL;
}
static TDEBUG_INFO &getDEBUG_INFO()
{
return _DEBUG_INFO;
}
static TMP_EVAL &getMP_EVAL()
{
return _MP_EVAL;
}
static TCOMPASS &getCOMPASS()
{
return _COMPASS;
}
static TFAME &getFAME()
{
return _FAME;
}
static TSTATIC_DATA &getSTATIC_DATA()
{
return _STATIC_DATA;
}
static TDYN_CHAT &getDYN_CHAT()
{
return _DYN_CHAT;
}
static TPVP_EFFECTS &getPVP_EFFECTS()
{
return _PVP_EFFECTS;
}
static TWEATHER &getWEATHER()
{
return _WEATHER;
}
};
#endif // INCLUDED_database_PLR_H
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