// Version: 2019.4.4 10:22:45 // File: T_LOV_LIMIT.cpp #include "T_LOV_LIMIT.h" T_LOV_LIMIT::T_LOV_LIMIT(){ // initialise all membervariables initial(); } T_LOV_LIMIT::~T_LOV_LIMIT(){ } void T_LOV_LIMIT::initial(){ // initialise all membervariables set_plantType((char*)""); set_limitName((char*)""); set_CheckType(0); set_CheckTypeZi(-1); set_Factor(0); set_FactorZi(-1); set_LowerLimit(0); set_LowerLimitZi(-1); set_UpperLimit(0); set_UpperLimitZi(-1); set_Enumerate((char*)""); set_EnumerateZi(-1); set_WarnLevel(0); set_WarnLevelZi(-1); set_ModDescr((char*)""); set_ModDescrZi(-1); set_toc((char*)""); set_tocZi(-1); set_toc((char*)""); set_tomZi(-1); set_mop((char*)""); set_mopZi(-1); set_mou((char*)""); set_mouZi(-1); // initialies Primary key members set_k_plantType((char*)""); set_k_limitName((char*)""); } T_LOV_LIMIT::T_LOV_LIMIT(const char* arg1,const char* arg2) { initial(); setPrimKey (arg1, arg2); //read DB record dbAccess = true; dbMessage = readDB(); if ( dbMessage != NULL ) {dbAccess = false;} } char* T_LOV_LIMIT:: execute(const char* sql , long* count){ return( db.execute( sql , count ) ); } char* T_LOV_LIMIT:: dbCommit(){ return( db.dbCommit( ) ); } char* T_LOV_LIMIT:: dbRollback(){ return( db.dbRollback( ) ); } char* T_LOV_LIMIT::readDB(){ // DB Trace is off return( db.readDB(*this) ); } char* T_LOV_LIMIT::updateDB(){ // DB Trace is off return( db.updateDB(*this) ); } char* T_LOV_LIMIT::insertDB(){ // DB Trace is off return( db.insertDB(*this) ); } char* T_LOV_LIMIT::deleteDB(){ // DB Trace is off return( db.deleteDB(*this) ); } char* T_LOV_LIMIT::deleteDB(const char * where, long* count){ // DB Trace is off return( db.deleteDB( where , count ) ); } char* T_LOV_LIMIT::openSetDB(const char * where,const char* order){ // DB Trace is off return( db.openSetDB( where , order ) ); } char* T_LOV_LIMIT::countDB(const char * where, long* count){ // DB Trace is off return( db.countDB( where , count ) ); } char* T_LOV_LIMIT::getSetDB(){ // DB Trace is off return( db.getSetDB(*this) ); } char* T_LOV_LIMIT::closeSetDB(){ // DB Trace is off return( db.closeSetDB() ); } char* T_LOV_LIMIT::storeDB(){ char* ret = NULL; setKeysFromRecord(); ret=db.updateDB(*this); if(ret != NULL){ ret=db.insertDB(*this); if(ret != NULL){ dbAccess = false; return(ret); } } return(ret); } // public methode setPrimKey T_LOV_LIMIT // // this methode stores the unique key attributes // void T_LOV_LIMIT::setPrimKey( const char* arg1 , const char* arg2 ){ strncpy( (char*)c_k_plantType , arg1 , sizeof(c_k_plantType) ); c_k_plantType[sizeof(c_k_plantType)-1] = '\0'; strncpy( (char*)c_k_limitName , arg2 , sizeof(c_k_limitName) ); c_k_limitName[sizeof(c_k_limitName)-1] = '\0'; } // end of methode void T_LOV_LIMIT::initInsertKeys( const char* arg1 , const char* arg2 ){ setPrimKey ( arg1 , arg2); strncpy( (char*)c_plantType , arg1 , sizeof(c_plantType) ); c_plantType[sizeof(c_plantType)-1] = '\0'; strncpy( (char*)c_limitName , arg2 , sizeof(c_limitName) ); c_limitName[sizeof(c_limitName)-1] = '\0'; } // end of methode void T_LOV_LIMIT::setKeysFromRecord(){ set_k_plantType( plantType() ); set_k_limitName( limitName() ); } // end of methode // //O P E R A T O R + //=================== // T_LOV_LIMIT T_LOV_LIMIT::operator+(const T_LOV_LIMIT &inst) const{ T_LOV_LIMIT ptrT_LOV_LIMIT(*this); //---------------------------------------------------------- ptrT_LOV_LIMIT.set_plantType(inst.plantType()); //---------------------------------------------------------- ptrT_LOV_LIMIT.set_limitName(inst.limitName()); //---------------------------------------------------------- if(inst.CheckTypeZi() != -1){ ptrT_LOV_LIMIT.set_CheckType(inst.CheckType()); ptrT_LOV_LIMIT.set_CheckTypeZi(inst.CheckTypeZi()); } //---------------------------------------------------------- if(inst.FactorZi() != -1){ ptrT_LOV_LIMIT.set_Factor(inst.Factor()); ptrT_LOV_LIMIT.set_FactorZi(inst.FactorZi()); } //---------------------------------------------------------- if(inst.LowerLimitZi() != -1){ ptrT_LOV_LIMIT.set_LowerLimit(inst.LowerLimit()); ptrT_LOV_LIMIT.set_LowerLimitZi(inst.LowerLimitZi()); } //---------------------------------------------------------- if(inst.UpperLimitZi() != -1){ ptrT_LOV_LIMIT.set_UpperLimit(inst.UpperLimit()); ptrT_LOV_LIMIT.set_UpperLimitZi(inst.UpperLimitZi()); } //---------------------------------------------------------- if(inst.EnumerateZi() != -1){ ptrT_LOV_LIMIT.set_Enumerate(inst.Enumerate()); ptrT_LOV_LIMIT.set_EnumerateZi(inst.EnumerateZi()); } //---------------------------------------------------------- if(inst.WarnLevelZi() != -1){ ptrT_LOV_LIMIT.set_WarnLevel(inst.WarnLevel()); ptrT_LOV_LIMIT.set_WarnLevelZi(inst.WarnLevelZi()); } //---------------------------------------------------------- if(inst.ModDescrZi() != -1){ ptrT_LOV_LIMIT.set_ModDescr(inst.ModDescr()); ptrT_LOV_LIMIT.set_ModDescrZi(inst.ModDescrZi()); } //---------------------------------------------------------- if(inst.tocZi() != -1){ ptrT_LOV_LIMIT.set_toc(inst.toc()); ptrT_LOV_LIMIT.set_tocZi(inst.tocZi()); } //---------------------------------------------------------- if(inst.tomZi() != -1){ ptrT_LOV_LIMIT.set_tom(inst.tom()); ptrT_LOV_LIMIT.set_tomZi(inst.tomZi()); } //---------------------------------------------------------- if(inst.mopZi() != -1){ ptrT_LOV_LIMIT.set_mop(inst.mop()); ptrT_LOV_LIMIT.set_mopZi(inst.mopZi()); } //---------------------------------------------------------- if(inst.mouZi() != -1){ ptrT_LOV_LIMIT.set_mou(inst.mou()); ptrT_LOV_LIMIT.set_mouZi(inst.mouZi()); } return (ptrT_LOV_LIMIT); } // //O P E R A T O R = //=================== // const T_LOV_LIMIT& T_LOV_LIMIT::operator=(const T_LOV_LIMIT &inst){ //---------------------------------------------------------- this->set_plantType(inst.plantType()); //---------------------------------------------------------- this->set_limitName(inst.limitName()); //---------------------------------------------------------- this->set_CheckType(inst.CheckType()); this->set_CheckTypeZi(inst.CheckTypeZi()); //---------------------------------------------------------- this->set_Factor(inst.Factor()); this->set_FactorZi(inst.FactorZi()); //---------------------------------------------------------- this->set_LowerLimit(inst.LowerLimit()); this->set_LowerLimitZi(inst.LowerLimitZi()); //---------------------------------------------------------- this->set_UpperLimit(inst.UpperLimit()); this->set_UpperLimitZi(inst.UpperLimitZi()); //---------------------------------------------------------- this->set_Enumerate(inst.Enumerate()); this->set_EnumerateZi(inst.EnumerateZi()); //---------------------------------------------------------- this->set_WarnLevel(inst.WarnLevel()); this->set_WarnLevelZi(inst.WarnLevelZi()); //---------------------------------------------------------- this->set_ModDescr(inst.ModDescr()); this->set_ModDescrZi(inst.ModDescrZi()); //---------------------------------------------------------- this->set_toc(inst.toc()); this->set_tocZi(inst.tocZi()); //---------------------------------------------------------- this->set_tom(inst.tom()); this->set_tomZi(inst.tomZi()); //---------------------------------------------------------- this->set_mop(inst.mop()); this->set_mopZi(inst.mopZi()); //---------------------------------------------------------- this->set_mou(inst.mou()); this->set_mouZi(inst.mouZi()); return (*this); } // //C O P Y - C O N S T R U C T O R //=================== // T_LOV_LIMIT::T_LOV_LIMIT(const T_LOV_LIMIT &inst){ //---------------------------------------------------------- this->set_plantType(inst.plantType()); //---------------------------------------------------------- this->set_limitName(inst.limitName()); //---------------------------------------------------------- this->set_CheckType(inst.CheckType()); this->set_CheckTypeZi(inst.CheckTypeZi()); //---------------------------------------------------------- this->set_Factor(inst.Factor()); this->set_FactorZi(inst.FactorZi()); //---------------------------------------------------------- this->set_LowerLimit(inst.LowerLimit()); this->set_LowerLimitZi(inst.LowerLimitZi()); //---------------------------------------------------------- this->set_UpperLimit(inst.UpperLimit()); this->set_UpperLimitZi(inst.UpperLimitZi()); //---------------------------------------------------------- this->set_Enumerate(inst.Enumerate()); this->set_EnumerateZi(inst.EnumerateZi()); //---------------------------------------------------------- this->set_WarnLevel(inst.WarnLevel()); this->set_WarnLevelZi(inst.WarnLevelZi()); //---------------------------------------------------------- this->set_ModDescr(inst.ModDescr()); this->set_ModDescrZi(inst.ModDescrZi()); //---------------------------------------------------------- this->set_toc(inst.toc()); this->set_tocZi(inst.tocZi()); //---------------------------------------------------------- this->set_tom(inst.tom()); this->set_tomZi(inst.tomZi()); //---------------------------------------------------------- this->set_mop(inst.mop()); this->set_mopZi(inst.mopZi()); //---------------------------------------------------------- this->set_mou(inst.mou()); this->set_mouZi(inst.mouZi()); } char* T_LOV_LIMIT::plantType() const{ return((char*)c_plantType ); } void T_LOV_LIMIT::set_plantType( const char* arg ){ strncpy((char*)c_plantType , arg , sizeof(c_plantType)); c_plantType[sizeof(c_plantType)-1] = '\0'; return; } char* T_LOV_LIMIT::limitName() const{ return((char*)c_limitName ); } void T_LOV_LIMIT::set_limitName( const char* arg ){ strncpy((char*)c_limitName , arg , sizeof(c_limitName)); c_limitName[sizeof(c_limitName)-1] = '\0'; return; } long T_LOV_LIMIT::CheckType() const{ return((long)l_CheckType ); } short T_LOV_LIMIT::CheckTypeZi() const{ return( s_CheckTypeZi); } void T_LOV_LIMIT::set_CheckType( long arg ){ l_CheckType = arg; s_CheckTypeZi= 0; return; } void T_LOV_LIMIT::set_CheckTypeZi( short arg ) { s_CheckTypeZi = arg; } long T_LOV_LIMIT::Factor() const{ return((long)l_Factor ); } short T_LOV_LIMIT::FactorZi() const{ return( s_FactorZi); } void T_LOV_LIMIT::set_Factor( long arg ){ l_Factor = arg; s_FactorZi= 0; return; } void T_LOV_LIMIT::set_FactorZi( short arg ) { s_FactorZi = arg; } long T_LOV_LIMIT::LowerLimit() const{ return((long)l_LowerLimit ); } short T_LOV_LIMIT::LowerLimitZi() const{ return( s_LowerLimitZi); } void T_LOV_LIMIT::set_LowerLimit( long arg ){ l_LowerLimit = arg; s_LowerLimitZi= 0; return; } void T_LOV_LIMIT::set_LowerLimitZi( short arg ) { s_LowerLimitZi = arg; } long T_LOV_LIMIT::UpperLimit() const{ return((long)l_UpperLimit ); } short T_LOV_LIMIT::UpperLimitZi() const{ return( s_UpperLimitZi); } void T_LOV_LIMIT::set_UpperLimit( long arg ){ l_UpperLimit = arg; s_UpperLimitZi= 0; return; } void T_LOV_LIMIT::set_UpperLimitZi( short arg ) { s_UpperLimitZi = arg; } char* T_LOV_LIMIT::Enumerate() const{ return((char*)c_Enumerate ); } short T_LOV_LIMIT::EnumerateZi() const{ return( s_EnumerateZi); } void T_LOV_LIMIT::set_Enumerate( const char* arg ){ strncpy((char*)c_Enumerate , arg , sizeof(c_Enumerate)); c_Enumerate[sizeof(c_Enumerate)-1] = '\0'; s_EnumerateZi= 0; return; } void T_LOV_LIMIT::set_EnumerateZi( short arg ) { s_EnumerateZi = arg; } long T_LOV_LIMIT::WarnLevel() const{ return((long)l_WarnLevel ); } short T_LOV_LIMIT::WarnLevelZi() const{ return( s_WarnLevelZi); } void T_LOV_LIMIT::set_WarnLevel( long arg ){ l_WarnLevel = arg; s_WarnLevelZi= 0; return; } void T_LOV_LIMIT::set_WarnLevelZi( short arg ) { s_WarnLevelZi = arg; } char* T_LOV_LIMIT::ModDescr() const{ return((char*)c_ModDescr ); } short T_LOV_LIMIT::ModDescrZi() const{ return( s_ModDescrZi); } void T_LOV_LIMIT::set_ModDescr( const char* arg ){ strncpy((char*)c_ModDescr , arg , sizeof(c_ModDescr)); c_ModDescr[sizeof(c_ModDescr)-1] = '\0'; s_ModDescrZi= 0; return; } void T_LOV_LIMIT::set_ModDescrZi( short arg ) { s_ModDescrZi = arg; } char* T_LOV_LIMIT::toc() const{ return((char*)c_toc ); } short T_LOV_LIMIT::tocZi() const{ return( s_tocZi); } void T_LOV_LIMIT::set_toc( char* arg ){ strncpy((char*)c_toc , arg , sizeof(c_toc)); c_toc[sizeof(c_toc)-1] = '\0'; s_tocZi= 0; return; } void T_LOV_LIMIT::set_tocZi( short arg ){ s_tocZi = arg; } char* T_LOV_LIMIT::tom() const{ return((char*)c_tom ); } short T_LOV_LIMIT::tomZi() const{ return( s_tomZi); } void T_LOV_LIMIT::set_tom( char* arg ){ strncpy((char*)c_tom , arg , sizeof(c_tom)); c_tom[sizeof(c_tom)-1] = '\0'; s_tomZi= 0; return; } void T_LOV_LIMIT::set_tomZi( short arg ){ s_tomZi = arg; } char* T_LOV_LIMIT::mop() const{ return((char*)c_mop ); } short T_LOV_LIMIT::mopZi() const{ return( s_mopZi); } void T_LOV_LIMIT::set_mop( char* arg ){ strncpy((char*)c_mop , arg , sizeof(c_mop)); c_mop[sizeof(c_mop)-1] = '\0'; s_mopZi= 0; return; } void T_LOV_LIMIT::set_mopZi( short arg ){ s_mopZi = arg; } char* T_LOV_LIMIT::mou() const{ return((char*)c_mou ); } short T_LOV_LIMIT::mouZi() const{ return( s_mouZi); } void T_LOV_LIMIT::set_mou( char* arg ){ strncpy((char*)c_mou , arg , sizeof(c_mou)); c_mou[sizeof(c_mou)-1] = '\0'; s_mouZi= 0; return; } void T_LOV_LIMIT::set_mouZi( short arg ){ s_mouZi = arg; } // methodes for Primary key char* T_LOV_LIMIT::k_plantType(){ return((char*)c_k_plantType ); } void T_LOV_LIMIT::set_k_plantType( char* arg ){ strncpy((char*)c_k_plantType , arg , sizeof(c_k_plantType)); c_k_plantType[sizeof(c_k_plantType)-1] = '\0'; return; } char* T_LOV_LIMIT::k_limitName(){ return((char*)c_k_limitName ); } void T_LOV_LIMIT::set_k_limitName( char* arg ){ strncpy((char*)c_k_limitName , arg , sizeof(c_k_limitName)); c_k_limitName[sizeof(c_k_limitName)-1] = '\0'; return; } // // public methode fillStructure // // this methode filles the classstructue with the private attributes // void T_LOV_LIMIT::fillStructure(){ strncpy ( structTable.plantType , plantType(),sizeof(structTable.plantType)); strncpy ( structTable.limitName , limitName(),sizeof(structTable.limitName)); structTable.CheckType = CheckType(); structTable.Factor = Factor(); structTable.LowerLimit = LowerLimit(); structTable.UpperLimit = UpperLimit(); strncpy ( structTable.Enumerate , Enumerate(),sizeof(structTable.Enumerate)); structTable.WarnLevel = WarnLevel(); strncpy ( structTable.ModDescr , ModDescr(),sizeof(structTable.ModDescr)); strncpy ( structTable.toc , toc(),sizeof(structTable.toc)); strncpy ( structTable.tom , tom(),sizeof(structTable.tom)); strncpy ( structTable.mop , mop(),sizeof(structTable.mop)); strncpy ( structTable.mou , mou(),sizeof(structTable.mou)); return; } /////////////////////////////////////////////////// void T_LOV_LIMIT::fillStructureZi(){ structTableZi.CheckTypeZi = CheckTypeZi(); structTableZi.FactorZi = FactorZi(); structTableZi.LowerLimitZi = LowerLimitZi(); structTableZi.UpperLimitZi = UpperLimitZi(); structTableZi.EnumerateZi = EnumerateZi(); structTableZi.WarnLevelZi = WarnLevelZi(); structTableZi.ModDescrZi = ModDescrZi(); structTableZi.tocZi = tocZi(); structTableZi.tomZi = tomZi(); structTableZi.mopZi = mopZi(); structTableZi.mouZi = mouZi(); return; } /////////////////////////////////////////////////// void T_LOV_LIMIT::setStructure() { set_CheckType( structTable.CheckType); set_Factor( structTable.Factor); set_LowerLimit( structTable.LowerLimit); set_UpperLimit( structTable.UpperLimit); set_Enumerate( structTable.Enumerate); set_WarnLevel( structTable.WarnLevel); set_ModDescr( structTable.ModDescr); set_toc(structTable.toc); set_tom(structTable.tom); set_mop(structTable.mop); set_mou(structTable.mou); return; } /////////////////////////////////////////////////// void T_LOV_LIMIT::setStructureZi() { set_CheckTypeZi( structTableZi.CheckTypeZi); set_FactorZi( structTableZi.FactorZi); set_LowerLimitZi( structTableZi.LowerLimitZi); set_UpperLimitZi( structTableZi.UpperLimitZi); set_EnumerateZi( structTableZi.EnumerateZi); set_WarnLevelZi( structTableZi.WarnLevelZi); set_ModDescrZi( structTableZi.ModDescrZi); set_tocZi(structTableZi.tocZi); set_tomZi(structTableZi.tomZi); set_mopZi(structTableZi.mopZi); set_mouZi(structTableZi.mouZi); return; } /////////////////////////////////////////////////// char* T_LOV_LIMIT::getName(){ return((char*)"T_LOV_LIMIT"); } /////////////////////////////////////////////////// int T_LOV_LIMIT::getSqlCode(){ return( db.dbSqlCode); } int T_LOV_LIMIT::getRowsProcessed(){ return( db.dbRowsProcessed); }