// Version: 2018.7.12 9:12:50 #ifndef _T_PDI_LO_H #define _T_PDI_LO_H #include using namespace baosight; #include #include #include #ifdef _MSC_VER #pragma warning(disable:4996) #pragma warning(disable:4267) #endif #include "T_PDI_LODBAX.h" class T_PDI_LO{ friend class T_PDI_LODBAX; private: //aggregation to DB Class T_PDI_LODBAX db; public: // //A T T R I B U T E S //=================== // bool dbAccess; char* dbMessage;// pointer for the return values of DBAX methodes char messageBuffer[200];// temporary message buffer friend class PapLib; protected: // //A T T R I B U T E S //=================== // char c_source[2+1]; char c_ok[1+1]; short s_okZi; long l_lengthLogical; short s_lengthLogicalZi; double d_hEntry; short s_hEntryZi; char c_alloyCode[30+1]; short s_alloyCodeZi; double d_width; short s_widthZi; long l_trimmingSp; short s_trimmingSpZi; long l_weightSpecific; short s_weightSpecificZi; char c_HotCoilId[2][20+1]; short s_HotCoilIdZi[2]; char c_HeatCycle[6+1]; short s_HeatCycleZi; short s_WeldNum; short s_WeldNumZi; char c_WeldType[2][5+1]; short s_WeldTypeZi[2]; long l_WeldPos[2]; short s_WeldPosZi[2]; char c_SteelCode[10+1]; short s_SteelCodeZi; char c_SteelType[12+1]; short s_SteelTypeZi; long l_muId; char c_muCreator[3]; short s_musId; char c_toc[27]; short s_tocZi; char c_tom[27]; short s_tomZi; char c_mop[121]; short s_mopZi; char c_mou[31]; short s_mouZi; // arguments for Primary key long l_k_muId; char c_k_muCreator[3]; short s_k_musId; char c_k_source[2+1]; public: // // LTA Structure struct STR_T_PDI_LO{ char source[2+1]; char ok[1+1]; int lengthLogical; double hEntry; char alloyCode[30+1]; double width; int trimmingSp; int weightSpecific; char HotCoilId[2][20+1]; char HeatCycle[6+1]; short WeldNum; char WeldType[2][5+1]; int WeldPos[2]; char SteelCode[10+1]; char SteelType[12+1]; int muId; char muCreator[3]; short musId; char toc[27]; char tom[27]; char mop[121]; char mou[31]; }structTable; // LTA Structure Zi struct STR_T_PDI_LOZi{ short okZi; short lengthLogicalZi; short hEntryZi; short alloyCodeZi; short widthZi; short trimmingSpZi; short weightSpecificZi; short HotCoilIdZi[2]; short HeatCycleZi; short WeldNumZi; short WeldTypeZi[2]; short WeldPosZi[2]; short SteelCodeZi; short SteelTypeZi; short tocZi; short tomZi; short mopZi; short mouZi; }structTableZi; // //C O N S T R U C T O R S //======================= // public: T_PDI_LO(); //D E S T R U C T O R S //======================= // virtual ~T_PDI_LO(); // //C O P Y - C O N S T R U C T O R //======================= T_PDI_LO(const T_PDI_LO &inst); // For Constructors with parameters the flag dbAccess // informs you if the access was successfully or not T_PDI_LO( MU_CODE muCode , const char* arg1); //methods public: char* getCreationTime() {return (char*)"2018.7.12 9:12:50";}; //initial data void initial(); //read data char* readDB(); //update data char* updateDB(); //insert data char* insertDB(); //this methode tries to update a DB record , when the update fails , the methode //tries an insert of the failed record char* storeDB(); //delete data char* deleteDB(); //delete data char* deleteDB(const char* where , long* count ); //openSetDB data char* openSetDB(const char* where ,const char* order ); //getSetDB data char* getSetDB(); //closeSetDB data char* closeSetDB(); //countDB data char* countDB(const char* where , long* count ); char* execute(const char* sql , long* count ); char* dbCommit(); char* dbRollback(); public: // // public methode setPrimKey // // this methode stores the unique key attributes // void setPrimKey(long arg1 , const char* arg2 , short arg3 , const char* arg4 ); void setPrimKey( MU_CODE muCode , const char* arg1 ); // public methode initInsertKeys // // this methode stores the unique key attributes // void initInsertKeys( long arg1 , const char* arg2 , short arg3 , const char* arg4 ); void initInsertKeys( MU_CODE muCode , const char* arg1 ); public: // // public methode setKeysFromRecord // // this methode set the unique key attributes from the DB Record Attributes // void setKeysFromRecord(); // //O P E R A T O R + //=================== // public: T_PDI_LO operator+(const T_PDI_LO &inst) const; // //O P E R A T O R = //=================== // public: const T_PDI_LO& operator=(const T_PDI_LO &inst); char* source() const;//{ //return((char*)c_source ); //} void set_source( const char* arg );//{ //strncpy((char*)c_source , arg , sizeof(c_source)); //c_source[sizeof(c_source)-1] = '\0'; //return; //} char* ok() const;//{ //return((char*)c_ok ); //} short okZi() const;//{ //return( s_okZi); //} void set_ok( const char* arg );//{ //strncpy((char*)c_ok , arg , sizeof(c_ok)); //c_ok[sizeof(c_ok)-1] = '\0'; //s_okZi= 0; //return; //} void set_okZi( short arg ) ;//{ //s_okZi = arg; //} long lengthLogical() const;//{ //return((long)l_lengthLogical ); //} short lengthLogicalZi() const;//{ //return( s_lengthLogicalZi); //} void set_lengthLogical( long arg );//{ //l_lengthLogical = arg; //s_lengthLogicalZi= 0; //return; //} void set_lengthLogicalZi( short arg ) ;//{ //s_lengthLogicalZi = arg; //} double hEntry() const;//{ //return((double)d_hEntry ); //} short hEntryZi() const;//{ //return( s_hEntryZi); //} void set_hEntry( double arg );//{ //d_hEntry = arg; //s_hEntryZi= 0; //return; //} void set_hEntryZi( short arg ) ;//{ //s_hEntryZi = arg; //} char* alloyCode() const;//{ //return((char*)c_alloyCode ); //} short alloyCodeZi() const;//{ //return( s_alloyCodeZi); //} void set_alloyCode( const char* arg );//{ //strncpy((char*)c_alloyCode , arg , sizeof(c_alloyCode)); //c_alloyCode[sizeof(c_alloyCode)-1] = '\0'; //s_alloyCodeZi= 0; //return; //} void set_alloyCodeZi( short arg ) ;//{ //s_alloyCodeZi = arg; //} double width() const;//{ //return((double)d_width ); //} short widthZi() const;//{ //return( s_widthZi); //} void set_width( double arg );//{ //d_width = arg; //s_widthZi= 0; //return; //} void set_widthZi( short arg ) ;//{ //s_widthZi = arg; //} long trimmingSp() const;//{ //return((long)l_trimmingSp ); //} short trimmingSpZi() const;//{ //return( s_trimmingSpZi); //} void set_trimmingSp( long arg );//{ //l_trimmingSp = arg; //s_trimmingSpZi= 0; //return; //} void set_trimmingSpZi( short arg ) ;//{ //s_trimmingSpZi = arg; //} long weightSpecific() const;//{ //return((long)l_weightSpecific ); //} short weightSpecificZi() const;//{ //return( s_weightSpecificZi); //} void set_weightSpecific( long arg );//{ //l_weightSpecific = arg; //s_weightSpecificZi= 0; //return; //} void set_weightSpecificZi( short arg ) ;//{ //s_weightSpecificZi = arg; //} int HotCoilIdArraySize();//{ //return(2); //} char* HotCoilId(int colInd) const;//{ //return((char*)c_HotCoilId[colInd] ); //} short HotCoilIdZi(int colInd) const;//{ //return( s_HotCoilIdZi[colInd]); //} void set_HotCoilId( int colInd, const char* arg );//{ //strncpy((char*)c_HotCoilId[colInd] , arg , sizeof(c_HotCoilId[colInd])); //c_HotCoilId[colInd][sizeof(c_HotCoilId[colInd])-1] = '\0'; //s_HotCoilIdZi[colInd]= 0; //return; //} void set_HotCoilIdZi( int colInd, short arg );// { //s_HotCoilIdZi[colInd] = arg; //} char* HeatCycle() const;//{ //return((char*)c_HeatCycle ); //} short HeatCycleZi() const;//{ //return( s_HeatCycleZi); //} void set_HeatCycle( const char* arg );//{ //strncpy((char*)c_HeatCycle , arg , sizeof(c_HeatCycle)); //c_HeatCycle[sizeof(c_HeatCycle)-1] = '\0'; //s_HeatCycleZi= 0; //return; //} void set_HeatCycleZi( short arg ) ;//{ //s_HeatCycleZi = arg; //} short WeldNum() const;//{ //return((short)s_WeldNum ); //} short WeldNumZi() const;//{ //return( s_WeldNumZi); //} void set_WeldNum( short arg );//{ //s_WeldNum = arg; //s_WeldNumZi= 0; //return; //} void set_WeldNumZi( short arg ) ;//{ //s_WeldNumZi = arg; //} int WeldTypeArraySize();//{ //return(2); //} char* WeldType(int colInd) const;//{ //return((char*)c_WeldType[colInd] ); //} short WeldTypeZi(int colInd) const;//{ //return( s_WeldTypeZi[colInd]); //} void set_WeldType( int colInd, const char* arg );//{ //strncpy((char*)c_WeldType[colInd] , arg , sizeof(c_WeldType[colInd])); //c_WeldType[colInd][sizeof(c_WeldType[colInd])-1] = '\0'; //s_WeldTypeZi[colInd]= 0; //return; //} void set_WeldTypeZi( int colInd, short arg );// { //s_WeldTypeZi[colInd] = arg; //} int WeldPosArraySize();//{ //return(2); //} long WeldPos(int colInd) const;//{ //return((int)l_WeldPos[colInd] ); //} short WeldPosZi(int colInd) const;//{ //return( s_WeldPosZi[colInd]); //} void set_WeldPos( int colInd, long arg );//{ //l_WeldPos[colInd] = arg; //s_WeldPosZi[colInd]= 0; //return; //} void set_WeldPosZi( int colInd, short arg );// { //s_WeldPosZi[colInd] = arg; //} char* SteelCode() const;//{ //return((char*)c_SteelCode ); //} short SteelCodeZi() const;//{ //return( s_SteelCodeZi); //} void set_SteelCode( const char* arg );//{ //strncpy((char*)c_SteelCode , arg , sizeof(c_SteelCode)); //c_SteelCode[sizeof(c_SteelCode)-1] = '\0'; //s_SteelCodeZi= 0; //return; //} void set_SteelCodeZi( short arg ) ;//{ //s_SteelCodeZi = arg; //} char* SteelType() const;//{ //return((char*)c_SteelType ); //} short SteelTypeZi() const;//{ //return( s_SteelTypeZi); //} void set_SteelType( const char* arg );//{ //strncpy((char*)c_SteelType , arg , sizeof(c_SteelType)); //c_SteelType[sizeof(c_SteelType)-1] = '\0'; //s_SteelTypeZi= 0; //return; //} void set_SteelTypeZi( short arg ) ;//{ //s_SteelTypeZi = arg; //} long muId() const;//{ //return((long)l_muId ); //} void set_muId( long arg );//{ //l_muId = arg; //return; //} char* muCreator() const;//{ //return((char*)c_muCreator ); //} void set_muCreator( const char* arg );//{ //strncpy((char*)c_muCreator , arg , sizeof(c_muCreator)); //c_muCreator[sizeof(c_muCreator)-1] = '\0'; //return; //} short musId() const;//{ //return((short)s_musId ); //} void set_musId( short arg );//{ //s_musId = arg; //return; //} public: char* toc() const;//{ //return((char*)c_toc ); //} short tocZi() const;//{ //return( s_tocZi); //} protected: void set_toc( char* arg );//{ //strncpy((char*)c_toc , arg , sizeof(c_toc)); //c_toc[sizeof(c_toc)-1] = '\0'; //s_tocZi= 0; //return; //} void set_tocZi( short arg );//{ //s_tocZi = arg; //} public: char* tom() const;//{ //return((char*)c_tom ); //} short tomZi() const;//{ //return( s_tomZi); //} protected: void set_tom( char* arg );//{ //strncpy((char*)c_tom , arg , sizeof(c_tom)); //c_tom[sizeof(c_tom)-1] = '\0'; //s_tomZi= 0; //return; //} void set_tomZi( short arg );//{ //s_tomZi = arg; //} public: char* mop() const;//{ //return((char*)c_mop ); //} short mopZi() const;//{ //return( s_mopZi); //} protected: void set_mop( char* arg );//{ //strncpy((char*)c_mop , arg , sizeof(c_mop)); //c_mop[sizeof(c_mop)-1] = '\0'; //s_mopZi= 0; //return; //} void set_mopZi( short arg );//{ //s_mopZi = arg; //} public: char* mou() const;//{ //return((char*)c_mou ); //} short mouZi() const;//{ //return( s_mouZi); //} protected: void set_mou( char* arg );//{ //strncpy((char*)c_mou , arg , sizeof(c_mou)); //c_mou[sizeof(c_mou)-1] = '\0'; //s_mouZi= 0; //return; //} void set_mouZi( short arg );//{ //s_mouZi = arg; //} public: // methodes for Primary key long k_muId();//{ //return((long)l_k_muId ); //} void set_k_muId( long arg );//{ //l_k_muId = arg; //return; //} char* k_muCreator();//{ //return((char*)c_k_muCreator ); //} void set_k_muCreator( char* arg );//{ //strncpy((char*)c_k_muCreator , arg , sizeof(c_k_muCreator)); //c_k_muCreator[sizeof(c_k_muCreator)-1] = '\0'; //return; //} short k_musId();//{ //return((short)s_k_musId ); //} void set_k_musId( short arg );//{ //s_k_musId = arg; //return; //} char* k_source();//{ //return((char*)c_k_source ); //} void set_k_source( char* arg );//{ //strncpy((char*)c_k_source , arg , sizeof(c_k_source)); //c_k_source[sizeof(c_k_source)-1] = '\0'; //return; //} public: // // public methode fillStructure // // this methode filles the classstructue with the private attributes // void fillStructure();//{ //} /////////////////////////////////////////////////// void fillStructureZi();//{ //} /////////////////////////////////////////////////// void setStructure();// { //return; //} /////////////////////////////////////////////////// void setStructureZi() ;//{ //} /////////////////////////////////////////////////// char* getName();//{ //return((char*)"T_PDI_LO"); //} /////////////////////////////////////////////////// int getSqlCode();//{ //return( db.dbSqlCode); //} /////////////////////////////////////////////////// int getRowsProcessed();//{ //return( db.dbRowsProcessed); //} }; #endif