doc/v606/TOracleStatement_8cxx_source.html

 // @(#)root/oracle:$Id$

 // Author: Sergey Linev   6/02/2006


 /*************************************************************************

  * Copyright (C) 1995-2006, Rene Brun and Fons Rademakers.               *

  * All rights reserved.                                                  *

  *                                                                       *

  * For the licensing terms see $ROOTSYS/LICENSE.                         *

  * For the list of contributors see $ROOTSYS/README/CREDITS.             *

  *************************************************************************/


 //////////////////////////////////////////////////////////////////////////

 //                                                                      //

 //  SQL statement class for Oracle                                      //

 //                                                                      //

 //  See TSQLStatement class documentation for more details.             //

 //                                                                      //

 //////////////////////////////////////////////////////////////////////////


 #include "TOracleStatement.h"

 #include "TOracleServer.h"

 #include "TDataType.h"

 #include <stdlib.h>


 ClassImp(TOracleStatement)


 using namespace std;

 using namespace oracle::occi;


 ////////////////////////////////////////////////////////////////////////////////

 /// Normal constructor of TOracleStatement class

 /// On creation time specifies buffer length, which should be

 /// used in data fetching or data inserting


 TOracleStatement::TOracleStatement(Environment* env, Connection* conn, Statement* stmt, Int_t niter, Bool_t errout) :

    TSQLStatement(errout),

    fEnv(env),

    fConn(conn),

    fStmt(stmt),

    fResult(0),

    fFieldInfo(0),

    fBuffer(0),

    fBufferSize(0),

    fNumIterations(niter),

    fIterCounter(0),

    fWorkingMode(0),

    fTimeFmt(TOracleServer::GetDatimeFormat())

 {

    if (fStmt) {

       fStmt->setPrefetchMemorySize(1000000);

       fStmt->setPrefetchRowCount(niter);

       fStmt->setMaxIterations(niter);

    }

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Destructor of TOracleStatement clas


 TOracleStatement::~TOracleStatement()

 {

    Close();

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Close Oracle statement

 /// Removes and destroys all buffers and metainfo


 void TOracleStatement::Close(Option_t *)

 {


    if (fFieldInfo)

       delete fFieldInfo;


    if (fResult && fStmt)

       fStmt->closeResultSet(fResult);


    if (fConn && fStmt)

       fConn->terminateStatement(fStmt);


    CloseBuffer();


    fConn = 0;

    fStmt = 0;

    fResult = 0;

    fFieldInfo = 0;

    fIterCounter = 0;

 }


 // Check that statement is ready for use

 #define CheckStatement(method, res)                     \

    {                                                    \

       ClearError();                                     \

       if (fStmt==0) {                                   \

          SetError(-1,"Statement is not correctly initialized",method); \

          return res;                                    \

       }                                                 \

    }


 // Check that parameter can be set for statement

 #define CheckSetPar(method)                             \

    {                                                    \

       CheckStatement(method, kFALSE);                   \

       if (!IsParSettMode()) {                           \

          SetError(-1,"Parameters cannot be set for this statement", method); \

          return kFALSE;                                 \

       }                                                 \

       if (npar<0) {                                     \

          TString errmsg("Invalid parameter number ");   \

          errmsg+= npar;                                 \

          SetError(-1,errmsg.Data(),method);             \

          return kFALSE;                                 \

       }                                                 \

    }


 #define CheckGetField(method, defres)                   \

    {                                                    \

       ClearError();                                     \

       if (!IsResultSet()) {                             \

          SetError(-1,"There is no result set for statement", method); \

          return defres;                                 \

       }                                                 \

       if ((npar<0) || (npar>=fBufferSize)) {                                     \

          TString errmsg("Invalid parameter number ");   \

          errmsg+= npar;                                 \

          SetError(-1,errmsg.Data(),method);             \

          return defres;                                 \

       }                                                 \

    }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set buffer size, which is used to keep string values of

 /// currently fetched column.


 void TOracleStatement::SetBufferSize(Int_t size)

 {

     CloseBuffer();

     if (size<=0) return;

     fBufferSize = size;

     fBuffer = new TBufferRec[size];

     for (Int_t n=0;n<fBufferSize;n++) {

        fBuffer[n].strbuf = 0;

        fBuffer[n].strbufsize = -1;

        fBuffer[n].namebuf = 0;

     }

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Destroy buffers, used in data fetching


 void TOracleStatement::CloseBuffer()

 {

    if (fBuffer) {

       for (Int_t n=0;n<fBufferSize;n++) {

          delete[] fBuffer[n].strbuf;

          delete[] fBuffer[n].namebuf;

       }


       delete[] fBuffer;

    }

    fBuffer = 0;

    fBufferSize = 0;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Process SQL statement


 Bool_t TOracleStatement::Process()

 {

    CheckStatement("Process", kFALSE);


    try {


       if (IsParSettMode()) {

          fStmt->executeUpdate();

          fWorkingMode = 0;

       } else {

          fStmt->execute();

       }


       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "Process");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Return number of affected rows after statement Process() was called

 /// Make sense for queries like SELECT, INSERT, UPDATE


 Int_t TOracleStatement::GetNumAffectedRows()

 {

    CheckStatement("GetNumAffectedRows", -1);


    try {

       return fStmt->getUpdateCount();

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetNumAffectedRows");

    }

    return -1;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Return number of parameters in statement

 /// Not yet implemented for Oracle


 Int_t TOracleStatement::GetNumParameters()

 {

    CheckStatement("GetNumParameters", -1);


    Info("GetParametersNumber","Not implemented");


    return 0;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set NULL as value of parameter npar


 Bool_t TOracleStatement::SetNull(Int_t npar)

 {

    CheckSetPar("SetNull");


    try {

       fStmt->setNull(npar+1, OCCIINT);


       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetNull");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set integer value for parameter npar


 Bool_t TOracleStatement::SetInt(Int_t npar, Int_t value)

 {

    CheckSetPar("SetInt");


    try {

       fStmt->setInt(npar+1, value);


       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetInt");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set unsigned integer value for parameter npar


 Bool_t TOracleStatement::SetUInt(Int_t npar, UInt_t value)

 {

    CheckSetPar("SetUInt");


    try {

       fStmt->setUInt(npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetUInt");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set long integer value for parameter npar


 Bool_t TOracleStatement::SetLong(Int_t npar, Long_t value)

 {

    CheckSetPar("SetLong");


    try {

       fStmt->setNumber(npar+1, Number(value));

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetLong");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set 64-bit integer value for parameter npar


 Bool_t TOracleStatement::SetLong64(Int_t npar, Long64_t value)

 {

    CheckSetPar("SetLong64");


    try {

       fStmt->setNumber(npar+1, Number((long double)value));

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetLong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set unsigned 64-bit integer value for parameter npar


 Bool_t TOracleStatement::SetULong64(Int_t npar, ULong64_t value)

 {

    CheckSetPar("SetULong64");


    try {

       fStmt->setNumber(npar+1, Number((long double)value));

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetULong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set double value for parameter npar


 Bool_t TOracleStatement::SetDouble(Int_t npar, Double_t value)

 {

    CheckSetPar("SetDouble");


    try {

       fStmt->setDouble(npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetDouble");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set string value for parameter npar


 Bool_t TOracleStatement::SetString(Int_t npar, const char* value, Int_t maxsize)

 {

    CheckSetPar("SetString");


    try {


    // this is when NextIteration is called first time

       if (fIterCounter==1) {

          fStmt->setDatabaseNCHARParam(npar+1, true);

          fStmt->setMaxParamSize(npar+1, maxsize);

       }


       fStmt->setString(npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetString");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// set parameter value as binary data


 Bool_t TOracleStatement::SetBinary(Int_t npar, void* mem, Long_t size, Long_t maxsize)

 {

    CheckSetPar("SetBinary");


    try {


       // this is when NextIteration is called first time

       if (fIterCounter==1)

          fStmt->setMaxParamSize(npar+1, maxsize);


       Bytes buf((unsigned char*) mem, size);


       fStmt->setBytes(npar+1, buf);


       return kTRUE;


    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetBinary");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set date value for parameter npar


 Bool_t TOracleStatement::SetDate(Int_t npar, Int_t year, Int_t month, Int_t day)

 {

    CheckSetPar("SetDate");


    try {

       Date tm = fStmt->getDate(npar+1);

       int o_year;

       unsigned int o_month, o_day, o_hour, o_minute, o_second;

       tm.getDate(o_year, o_month, o_day, o_hour, o_minute, o_second);

       tm.setDate(year, month, day, o_hour, o_minute, o_second);

       fStmt->setDate(npar+1, tm);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetDate");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set time value for parameter npar


 Bool_t TOracleStatement::SetTime(Int_t npar, Int_t hour, Int_t min, Int_t sec)

 {

    CheckSetPar("SetTime");


    try {

       Date tm = fStmt->getDate(npar+1);

       int o_year;

       unsigned int o_month, o_day, o_hour, o_minute, o_second;

       tm.getDate(o_year, o_month, o_day, o_hour, o_minute, o_second);

       tm.setDate(o_year, o_month, o_day, hour, min, sec);

       fStmt->setDate(npar+1, tm);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetTime");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set date & time value for parameter npar


 Bool_t TOracleStatement::SetDatime(Int_t npar, Int_t year, Int_t month, Int_t day, Int_t hour, Int_t min, Int_t sec)

 {

    CheckSetPar("SetDatime");


    try {

       Date tm(fEnv, year, month, day, hour, min, sec);

       fStmt->setDate(npar+1, tm);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetDatime");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set date & time value for parameter npar


 Bool_t TOracleStatement::SetTimestamp(Int_t npar, Int_t year, Int_t month, Int_t day, Int_t hour, Int_t min, Int_t sec, Int_t frac)

 {

    CheckSetPar("SetTimestamp");


    try {

       Timestamp tm(fEnv, year, month, day, hour, min, sec, frac);

       fStmt->setTimestamp(npar+1, tm);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetTimestamp");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of integer values for parameter npar


 Bool_t TOracleStatement::SetVInt(Int_t npar, const std::vector<Int_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVInt");


    try {

       setVector(fStmt, npar+1, value, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVInt");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of unsigned integer values for parameter npar


 Bool_t TOracleStatement::SetVUInt(Int_t npar, const std::vector<UInt_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVUInt");


    try {

       setVector(fStmt, npar+1, value, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVUInt");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of long integer values for parameter npar


 Bool_t TOracleStatement::SetVLong(Int_t npar, const std::vector<Long_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVLong");


    try {

       std::vector<Number> nvec;

       for (std::vector<Long_t>::const_iterator it = value.begin();

            it != value.end();

            it++) {

          nvec.push_back(Number(*it));

       }

       setVector(fStmt, npar+1, nvec, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVLong");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of 64-bit integer values for parameter npar


 Bool_t TOracleStatement::SetVLong64(Int_t npar, const std::vector<Long64_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVLong64");


    try {

       std::vector<Number> nvec;

       for (std::vector<Long64_t>::const_iterator it = value.begin();

            it != value.end();

            it++) {

         nvec.push_back(Number((long double)*it));

       }

       setVector(fStmt, npar+1, nvec, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVLong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of unsigned 64-bit integer values for parameter npar


 Bool_t TOracleStatement::SetVULong64(Int_t npar, std::vector<ULong64_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVULong64");


    try {

       std::vector<Number> nvec;

       for (std::vector<ULong64_t>::const_iterator it = value.begin();

            it != value.end();

            it++) {

         nvec.push_back(Number((long double)*it));

       }

       setVector(fStmt, npar+1, nvec, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVULong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Set vector of double values for parameter npar


 Bool_t TOracleStatement::SetVDouble(Int_t npar, const std::vector<Double_t> value, const char* schemaName, const char* typeName)

 {

    CheckSetPar("SetVDouble");


    try {

       setVector(fStmt, npar+1, value, schemaName, typeName);

       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetVDouble");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Add next iteration for statement with parameters


 Bool_t TOracleStatement::NextIteration()

 {

    CheckStatement("NextIteration", kFALSE);


    try {

       fWorkingMode=1;

       // if number of iterations achievs limit, execute it and continue to fill

       if ((fIterCounter % fNumIterations == 0) && (fIterCounter>0)) {

          fStmt->executeUpdate();

       }


       if (fIterCounter % fNumIterations != 0) {

          fStmt->addIteration();

       }


       fIterCounter++;


       return kTRUE;

    } catch (SQLException &oraex)  {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "NextIteration");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Store result of statement processing.

 /// Required to access results of SELECT queries


 Bool_t TOracleStatement::StoreResult()

 {

    CheckStatement("StoreResult", kFALSE);


    try {

       if (fStmt->status() == Statement::RESULT_SET_AVAILABLE) {

          fResult      = fStmt->getResultSet();

          fFieldInfo   = (fResult==0) ? 0 : new std::vector<MetaData>(fResult->getColumnListMetaData());

          Int_t count  = (fFieldInfo==0) ? 0 : fFieldInfo->size();

          SetBufferSize(count);

          if ((fResult!=0) && (count>0)) fWorkingMode = 2;


          return IsResultSet();

       }

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "StoreResult");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Defines maximum size for field which must be used for read or write operation

 /// Some Oracle types as LONG (long binary continer) requires this call

 /// before any data can be read from database. Call it once before first call to NextResultRow()


 Bool_t TOracleStatement::SetMaxFieldSize(Int_t nfield, Long_t maxsize)

 {

    CheckStatement("SetMaxFieldSize", kFALSE);


    try {

       if (fResult)

          fResult->setMaxColumnSize(nfield+1, maxsize);

       else

          fStmt->setMaxParamSize(nfield+1, maxsize);

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "SetMaxFieldSize");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Returns number of fields in result set


 Int_t TOracleStatement::GetNumFields()

 {

    return IsResultSet() ?  fBufferSize : -1;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Return field name in result set


 const char* TOracleStatement::GetFieldName(Int_t npar)

 {

    CheckGetField("GetFieldName", 0);


    if (!IsResultSet() || (npar<0) || (npar>=fBufferSize)) return 0;


    if (fBuffer[npar].namebuf!=0) return fBuffer[npar].namebuf;


    std::string buff = (*fFieldInfo)[npar].getString(MetaData::ATTR_NAME);


    if (buff.length()==0) return 0;


    fBuffer[npar].namebuf = new char[buff.length()+1];


    strcpy(fBuffer[npar].namebuf, buff.c_str());


    return fBuffer[npar].namebuf;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Move cursor to next row in result set.

 /// For Oracle it may lead to additional request to database


 Bool_t TOracleStatement::NextResultRow()

 {

    ClearError();


    if (fResult==0) {

       SetError(-1,"There is no result set for statement", "NextResultRow");

       return kFALSE;

    }


    if (fResult==0) return kFALSE;


    try {

       for (int n=0;n<fBufferSize;n++) {

         if (fBuffer[n].strbuf)

            delete[] fBuffer[n].strbuf;

         fBuffer[n].strbuf = 0;

         fBuffer[n].strbufsize = -1;

       }

       if (fResult->next() == oracle::occi::ResultSet::END_OF_FETCH) {

          fWorkingMode = 0;

          CloseBuffer();

          return kFALSE;

       }

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "NextResultRow");


       if (oraex.getErrorCode()==32108)

          Info("NextResultRow", "Use TSQLStatement::SetMaxFieldSize() to solve a problem");


    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Checks if fieled value in result set is NULL


 Bool_t TOracleStatement::IsNull(Int_t npar)

 {

    CheckGetField("IsNull", kFALSE);


    try {

       return fResult->isNull(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "IsNull");

    }


    return kTRUE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as integer


 Int_t TOracleStatement::GetInt(Int_t npar)

 {

    CheckGetField("GetInt", 0);


    Int_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = fResult->getInt(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetInt");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as unsigned integer


 UInt_t TOracleStatement::GetUInt(Int_t npar)

 {

    CheckGetField("GetUInt", 0);


    UInt_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = fResult->getUInt(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetUInt");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as long integer


 Long_t TOracleStatement::GetLong(Int_t npar)

 {

    CheckGetField("GetLong", 0);


    Long_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = (Long_t) fResult->getNumber(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetLong");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as 64-bit integer


 Long64_t TOracleStatement::GetLong64(Int_t npar)

 {

    CheckGetField("GetLong64", 0);


    Long64_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = (Long64_t) (long double) fResult->getNumber(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetLong64");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as unsigned 64-bit integer


 ULong64_t TOracleStatement::GetULong64(Int_t npar)

 {

    CheckGetField("GetULong64", 0);


    ULong64_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = (ULong64_t) (long double) fResult->getNumber(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetULong64");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as double


 Double_t TOracleStatement::GetDouble(Int_t npar)

 {

    CheckGetField("GetDouble", 0.);


    Double_t res = 0;


    try {

       if (!fResult->isNull(npar+1))

         res = fResult->getDouble(npar+1);

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetDouble");

    }


    return res;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as string


 const char* TOracleStatement::GetString(Int_t npar)

 {

    CheckGetField("GetString", 0);


    if (fBuffer[npar].strbuf!=0) return fBuffer[npar].strbuf;


    try {

       if (fResult->isNull(npar+1)) return 0;


       int datatype = (*fFieldInfo)[npar].getInt(MetaData::ATTR_DATA_TYPE);


       std::string res;


       switch (datatype) {

         case SQLT_NUM: { // oracle numeric NUMBER

            int prec = (*fFieldInfo)[npar].getInt(MetaData::ATTR_PRECISION);

            int scale = (*fFieldInfo)[npar].getInt(MetaData::ATTR_SCALE);


            if ((scale == 0) || (prec == 0)) {

               res = fResult->getString(npar+1);

            } else {

               double double_val = fResult->getDouble(npar+1);

               char str_number[50];

               snprintf(str_number, sizeof(str_number), TSQLServer::GetFloatFormat(), double_val);

               res = str_number;

            }

            break;

         }

         case SQLT_CHR:  // character string

         case SQLT_VCS:  // variable character string

         case SQLT_AFC: // ansi fixed char

         case SQLT_AVC: // ansi var char

            res = fResult->getString(npar+1);

            break;

         case SQLT_DAT:  // Oracle native DATE type

            res = (fResult->getDate(npar+1)).toText(fTimeFmt.Data());

            break;

         case SQLT_TIMESTAMP:     // TIMESTAMP

         case SQLT_TIMESTAMP_TZ:  // TIMESTAMP WITH TIMEZONE

         case SQLT_TIMESTAMP_LTZ: // TIMESTAMP WITH LOCAL TIMEZONE

            res = (fResult->getTimestamp(npar+1)).toText(fTimeFmt.Data(), 0);

            break;

         default:

            res = fResult->getString(npar+1);

            Info("getString","Type %d may not be supported", datatype);

       }


       int len = res.length();


       if (len>0) {

           fBuffer[npar].strbuf = new char[len+1];

           fBuffer[npar].strbufsize = len+1;

           strcpy(fBuffer[npar].strbuf, res.c_str());

       }


       return fBuffer[npar].strbuf;


    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetString");

    }


    return 0;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// Return field value as binary array

 /// Supports LONG, BLOB, CLOB, BFILE, CFILE types of columns

 /// Reads complete content of the column, therefore not suitable for

 /// big structures


 Bool_t TOracleStatement::GetBinary(Int_t npar, void* &mem, Long_t& size)

 {

    mem = 0;

    size = 0;


    CheckGetField("GetBinary", kFALSE);


    if (fBuffer[npar].strbufsize>=0) {

       mem = fBuffer[npar].strbuf;

       size = fBuffer[npar].strbufsize;

       return kTRUE;

    }


    try {

       if (fResult->isNull(npar+1)) return kTRUE;


       int datatype = (*fFieldInfo)[npar].getInt(MetaData::ATTR_DATA_TYPE);


       switch (datatype) {

          case SQLT_LNG: {

             Bytes parbytes = fResult->getBytes(npar+1);


             size = parbytes.length();


             fBuffer[npar].strbufsize = size;


             if (size>0) {

                mem = malloc(size);


                fBuffer[npar].strbuf = (char*) mem;


                parbytes.getBytes((unsigned char*) mem, size);

             }


             break;

          }


          case SQLT_BLOB: {

             Blob parblob = fResult->getBlob(npar+1);


             size = parblob.length();


             fBuffer[npar].strbufsize = size;


             if (size>0) {

                mem = malloc(size);


                fBuffer[npar].strbuf = (char*) mem;


                parblob.read(size, (unsigned char*) mem, size);

             }


             break;

          }


          case SQLT_CLOB: {

             Clob parclob = fResult->getClob(npar+1);


             size = parclob.length();


             fBuffer[npar].strbufsize = size;


             if (size>0) {

                mem = malloc(size);


                fBuffer[npar].strbuf = (char*) mem;


                parclob.read(size, (unsigned char*) mem, size);

             }


             break;

          }


          case SQLT_BFILEE:

          case SQLT_CFILEE: {


             Bfile parbfile = fResult->getBfile(npar+1);


             size = parbfile.length();


             fBuffer[npar].strbufsize = size;


             if (size>0) {

                mem = malloc(size);


                fBuffer[npar].strbuf = (char*) mem;


                parbfile.read(size, (unsigned char*) mem, size);

             }


             break;

          }


          default:

            Error("GetBinary", "Oracle data type %d not supported", datatype);

            SetError(-1, "Unsupported type for binary convertion", "GetBinary");

            return false;

       }


       return kTRUE;


    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetBinary");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as date


 Bool_t TOracleStatement::GetDate(Int_t npar, Int_t& year, Int_t& month, Int_t& day)

 {

    Int_t hour, min, sec;


    return GetDatime(npar, year, month, day, hour, min, sec);

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as time


 Bool_t TOracleStatement::GetTime(Int_t npar, Int_t& hour, Int_t& min, Int_t& sec)

 {

    Int_t year, month, day;


    return GetDatime(npar, year, month, day, hour, min, sec);

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as date & time


 Bool_t TOracleStatement::GetDatime(Int_t npar, Int_t& year, Int_t& month, Int_t& day, Int_t& hour, Int_t& min, Int_t& sec)

 {

    CheckGetField("GetDatime", kFALSE);


    try {

       if (!fResult->isNull(npar+1)) {

          int datatype = (*fFieldInfo)[npar].getInt(MetaData::ATTR_DATA_TYPE);


          if (datatype!=SQLT_DAT) return kFALSE;


          Date tm = fResult->getDate(npar+1);

          int o_year;

          unsigned int o_month, o_day, o_hour, o_minute, o_second;

          tm.getDate(o_year, o_month, o_day, o_hour, o_minute, o_second);

          year = (Int_t) o_year;

          month = (Int_t) o_month;

          day = (Int_t) o_day;

          hour = (Int_t) o_hour;

          min = (Int_t) o_minute;

          sec = (Int_t) o_second;

          return kTRUE;

       }

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetDatime");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as date & time


 Bool_t TOracleStatement::GetTimestamp(Int_t npar, Int_t& year, Int_t& month, Int_t& day, Int_t& hour, Int_t& min, Int_t& sec, Int_t& frac)

 {

    CheckGetField("GetTimestamp", kFALSE);


    try {

       if (!fResult->isNull(npar+1)) {

          int datatype = (*fFieldInfo)[npar].getInt(MetaData::ATTR_DATA_TYPE);


          if ((datatype!=SQLT_TIMESTAMP) &&

              (datatype!=SQLT_TIMESTAMP_TZ) &&

              (datatype!=SQLT_TIMESTAMP_LTZ)) return kFALSE;


          Timestamp tm = fResult->getTimestamp(npar+1);

          int o_year;

          unsigned int o_month, o_day, o_hour, o_minute, o_second, o_frac;

          tm.getDate(o_year, o_month, o_day);

          tm.getTime(o_hour, o_minute, o_second, o_frac);

          year = (Int_t) o_year;

          month = (Int_t) o_month;

          day = (Int_t) o_day;

          hour = (Int_t) o_hour;

          min = (Int_t) o_minute;

          sec = (Int_t) o_second;

          frac = (Int_t) o_frac;

          return kTRUE;

       }

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetTimestamp");

    }


    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of integers


 Bool_t TOracleStatement::GetVInt(Int_t npar, std::vector<Int_t> &value)

 {

    CheckGetField("GetVInt", kFALSE);

    try {

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVInt");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of unsigned integers


 Bool_t TOracleStatement::GetVUInt(Int_t npar, std::vector<UInt_t> &value)

 {

    CheckGetField("GetVUInt", kFALSE);

    try {

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVUInt");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of long integers


 Bool_t TOracleStatement::GetVLong(Int_t npar, std::vector<Long_t> &value)

 {

    CheckGetField("GetVLong", kFALSE);

    try {

       std::vector<Number> res;

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, res);

       for (std::vector<Number>::const_iterator it = res.begin();

            it != res.end();

            it++ ) {

          value.push_back((Long_t)*it);

       }

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVLong");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of 64-bit integers


 Bool_t TOracleStatement::GetVLong64(Int_t npar, std::vector<Long64_t> &value)

 {

    CheckGetField("GetVLong64", kFALSE);

    try {

       std::vector<Number> res;

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, res);

       for (std::vector<Number>::const_iterator it = res.begin();

            it != res.end();

            it++ ) {

          value.push_back((Long_t)*it);

       }

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVLong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of unsigned 64-bit integers


 Bool_t TOracleStatement::GetVULong64(Int_t npar, std::vector<ULong64_t> &value)

 {

    CheckGetField("GetVULong64", kFALSE);

    try {

       std::vector<Number> res;

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, res);

       for (std::vector<Number>::const_iterator it = res.begin();

            it != res.end();

            it++ ) {

         value.push_back((Long_t)(long double)*it);

       }

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVULong64");

    }

    return kFALSE;

 }


 ////////////////////////////////////////////////////////////////////////////////

 /// return field value as vector of doubles


 Bool_t TOracleStatement::GetVDouble(Int_t npar, std::vector<Double_t> &value)

 {

    CheckGetField("GetVDouble", kFALSE);

    try {

       if (!fResult->isNull(npar+1))

          getVector(fResult, npar+1, value);

       return kTRUE;

    } catch (SQLException &oraex) {

       SetError(oraex.getErrorCode(), oraex.getMessage().c_str(), "GetVDouble");

    }

    return kFALSE;

 }


TOracleStatement::GetString
virtual const char * GetString(Int_t npar)
return field value as string
Definition: TOracleStatement.cxx:858

TOracleStatement::GetLong
virtual Long_t GetLong(Int_t npar)
return field value as long integer
Definition: TOracleStatement.cxx:782

TOracleStatement::GetNumAffectedRows
virtual Int_t GetNumAffectedRows()
Return number of affected rows after statement Process() was called Make sense for queries like SELEC...
Definition: TOracleStatement.cxx:194

ROOT::Vc::AVX::min
static Vc_ALWAYS_INLINE int_v min(const int_v &x, const int_v &y)
Definition: vector.h:433

Long64_t
long long Long64_t
Definition: RtypesCore.h:69

TOracleStatement::fTimeFmt
TString fTimeFmt
Definition: TOracleStatement.h:54

TOracleStatement::GetVLong64
virtual Bool_t GetVLong64(Int_t npar, std::vector< Long64_t > &value)
return field value as vector of 64-bit integers
Definition: TOracleStatement.cxx:1183

TOracleStatement::GetVUInt
virtual Bool_t GetVUInt(Int_t npar, std::vector< UInt_t > &value)
return field value as vector of unsigned integers
Definition: TOracleStatement.cxx:1144

TOracleStatement::GetVULong64
virtual Bool_t GetVULong64(Int_t npar, std::vector< ULong64_t > &value)
return field value as vector of unsigned 64-bit integers
Definition: TOracleStatement.cxx:1205

Option_t
const char Option_t
Definition: RtypesCore.h:62

TSQLStatement::ClearError
void ClearError()
reset error fields
Definition: TSQLStatement.cxx:252

TOracleStatement::SetVUInt
virtual Bool_t SetVUInt(Int_t npar, const std::vector< UInt_t > value, const char *schemaName, const char *typeName)
Set vector of unsigned integer values for parameter npar.
Definition: TOracleStatement.cxx:486

TOracleStatement::fFieldInfo
std::vector< oracle::occi::MetaData > * fFieldInfo
Definition: TOracleStatement.h:48

TOracleStatement::TBufferRec
Definition: TOracleStatement.h:38

TOracleStatement::GetDate
virtual Bool_t GetDate(Int_t npar, Int_t &year, Int_t &month, Int_t &day)
return field value as date
Definition: TOracleStatement.cxx:1040

TOracleStatement::SetVLong64
virtual Bool_t SetVLong64(Int_t npar, const std::vector< Long64_t > value, const char *schemaName, const char *typeName)
Set vector of 64-bit integer values for parameter npar.
Definition: TOracleStatement.cxx:525

TObject::Info
virtual void Info(const char *method, const char *msgfmt,...) const
Issue info message.
Definition: TObject.cxx:892

TSQLStatement::SetError
void SetError(Int_t code, const char *msg, const char *method=0)
set new values for error fields if method specified, displays error message
Definition: TSQLStatement.cxx:262

TOracleStatement::SetBufferSize
void SetBufferSize(Int_t size)
Set buffer size, which is used to keep string values of currently fetched column. ...
Definition: TOracleStatement.cxx:136

TOracleStatement::fConn
oracle::occi::Connection * fConn
Definition: TOracleStatement.h:45

TOracleStatement::SetVDouble
virtual Bool_t SetVDouble(Int_t npar, const std::vector< Double_t > value, const char *schemaName, const char *typeName)
Set vector of double values for parameter npar.
Definition: TOracleStatement.cxx:569

TOracleStatement::GetFieldName
virtual const char * GetFieldName(Int_t nfield)
Return field name in result set.
Definition: TOracleStatement.cxx:666

TOracleStatement::SetULong64
virtual Bool_t SetULong64(Int_t npar, ULong64_t value)
Set unsigned 64-bit integer value for parameter npar.
Definition: TOracleStatement.cxx:309

Int_t
int Int_t
Definition: RtypesCore.h:41

TOracleStatement
Definition: TOracleStatement.h:34

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

kFALSE
const Bool_t kFALSE
Definition: Rtypes.h:92

ClassImp
ClassImp(TOracleStatement) using namespace std

TOracleStatement::fWorkingMode
Int_t fWorkingMode
Definition: TOracleStatement.h:53

TOracleStatement::Process
virtual Bool_t Process()
Process SQL statement.
Definition: TOracleStatement.cxx:169

TSQLServer::GetFloatFormat
static const char * GetFloatFormat()
return current printf format for float/double members, default "%e"
Definition: TSQLServer.cxx:269

TSQLStatement
Definition: TSQLStatement.h:26

TString::Data
const char * Data() const
Definition: TString.h:349

TOracleStatement::TBufferRec::namebuf
char * namebuf
Definition: TOracleStatement.h:41

TOracleServer.h

TOracleStatement::GetLong64
virtual Long64_t GetLong64(Int_t npar)
return field value as 64-bit integer
Definition: TOracleStatement.cxx:801

TOracleStatement::TBufferRec::strbuf
char * strbuf
Definition: TOracleStatement.h:39

TOracleStatement::GetULong64
virtual ULong64_t GetULong64(Int_t npar)
return field value as unsigned 64-bit integer
Definition: TOracleStatement.cxx:820

TDataType.h

double
double
Definition: RooCFunction2Binding.cxx:40

TOracleStatement.h

TOracleStatement::SetDatime
virtual Bool_t SetDatime(Int_t npar, Int_t year, Int_t month, Int_t day, Int_t hour, Int_t min, Int_t sec)
Set date & time value for parameter npar.
Definition: TOracleStatement.cxx:433

maxsize
const int maxsize
Definition: binarySearchTime.cxx:22

TOracleStatement::GetBinary
virtual Bool_t GetBinary(Int_t npar, void *&mem, Long_t &size)
Return field value as binary array Supports LONG, BLOB, CLOB, BFILE, CFILE types of columns Reads com...
Definition: TOracleStatement.cxx:928

TOracleStatement::TBufferRec::strbufsize
Long_t strbufsize
Definition: TOracleStatement.h:40

TObject::Error
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
Definition: TObject.cxx:918

TOracleStatement::IsParSettMode
Bool_t IsParSettMode() const
Definition: TOracleStatement.h:56

TOracleStatement::SetBinary
virtual Bool_t SetBinary(Int_t npar, void *mem, Long_t size, Long_t maxsize=0x1000)
set parameter value as binary data
Definition: TOracleStatement.cxx:364

TOracleStatement::~TOracleStatement
virtual ~TOracleStatement()
Destructor of TOracleStatement clas.
Definition: TOracleStatement.cxx:61

TOracleStatement::fStmt
oracle::occi::Statement * fStmt
Definition: TOracleStatement.h:46

TOracleStatement::GetTimestamp
virtual Bool_t GetTimestamp(Int_t npar, Int_t &year, Int_t &month, Int_t &day, Int_t &hour, Int_t &min, Int_t &sec, Int_t &frac)
return field value as date & time
Definition: TOracleStatement.cxx:1092

TOracleStatement::GetInt
virtual Int_t GetInt(Int_t npar)
return field value as integer
Definition: TOracleStatement.cxx:743

TOracleStatement::GetVDouble
virtual Bool_t GetVDouble(Int_t npar, std::vector< Double_t > &value)
return field value as vector of doubles
Definition: TOracleStatement.cxx:1227

TOracleStatement::GetVInt
virtual Bool_t GetVInt(Int_t npar, std::vector< Int_t > &value)
return field value as vector of integers
Definition: TOracleStatement.cxx:1128

TOracleStatement::fNumIterations
Int_t fNumIterations
Definition: TOracleStatement.h:51

TOracleStatement::SetVInt
virtual Bool_t SetVInt(Int_t npar, const std::vector< Int_t > value, const char *schemaName, const char *typeName)
Set vector of integer values for parameter npar.
Definition: TOracleStatement.cxx:469

TOracleStatement::SetVULong64
virtual Bool_t SetVULong64(Int_t npar, const std::vector< ULong64_t > value, const char *schemaName, const char *typeName)
Set vector of unsigned 64-bit integer values for parameter npar.
Definition: TOracleStatement.cxx:547

TOracleStatement::GetVLong
virtual Bool_t GetVLong(Int_t npar, std::vector< Long_t > &value)
return field value as vector of long integers
Definition: TOracleStatement.cxx:1161

TOracleStatement::SetUInt
virtual Bool_t SetUInt(Int_t npar, UInt_t value)
Set unsigned integer value for parameter npar.
Definition: TOracleStatement.cxx:260

TOracleStatement::IsNull
virtual Bool_t IsNull(Int_t)
Checks if fieled value in result set is NULL.
Definition: TOracleStatement.cxx:727

TOracleStatement::CloseBuffer
void CloseBuffer()
Destroy buffers, used in data fetching.
Definition: TOracleStatement.cxx:152

UInt_t
unsigned int UInt_t
Definition: RtypesCore.h:42

TOracleStatement::fEnv
oracle::occi::Environment * fEnv
Definition: TOracleStatement.h:44

TOracleStatement::SetTime
virtual Bool_t SetTime(Int_t npar, Int_t hour, Int_t min, Int_t sec)
Set time value for parameter npar.
Definition: TOracleStatement.cxx:411

TOracleStatement::IsResultSet
Bool_t IsResultSet() const
Definition: TOracleStatement.h:57

TOracleStatement::SetDouble
virtual Bool_t SetDouble(Int_t npar, Double_t value)
Set double value for parameter npar.
Definition: TOracleStatement.cxx:325

TOracleStatement::SetDate
virtual Bool_t SetDate(Int_t npar, Int_t year, Int_t month, Int_t day)
Set date value for parameter npar.
Definition: TOracleStatement.cxx:389

TOracleStatement::GetTime
virtual Bool_t GetTime(Int_t npar, Int_t &hour, Int_t &min, Int_t &sec)
return field value as time
Definition: TOracleStatement.cxx:1050

TOracleStatement::fResult
oracle::occi::ResultSet * fResult
Definition: TOracleStatement.h:47

TOracleStatement::SetInt
virtual Bool_t SetInt(Int_t npar, Int_t value)
Set integer value for parameter npar.
Definition: TOracleStatement.cxx:242

TOracleStatement::fBufferSize
Int_t fBufferSize
Definition: TOracleStatement.h:50

TOracleStatement::GetDouble
virtual Double_t GetDouble(Int_t npar)
return field value as double
Definition: TOracleStatement.cxx:839

TOracleServer
Definition: TOracleServer.h:35

Long_t
long Long_t
Definition: RtypesCore.h:50

TOracleStatement::GetUInt
virtual UInt_t GetUInt(Int_t npar)
return field value as unsigned integer
Definition: TOracleStatement.cxx:762

TOracleStatement::GetNumParameters
virtual Int_t GetNumParameters()
Return number of parameters in statement Not yet implemented for Oracle.
Definition: TOracleStatement.cxx:211

TOracleStatement::StoreResult
virtual Bool_t StoreResult()
Store result of statement processing.
Definition: TOracleStatement.cxx:613

Double_t
double Double_t
Definition: RtypesCore.h:55

ULong64_t
unsigned long long ULong64_t
Definition: RtypesCore.h:70

TOracleStatement::GetNumFields
virtual Int_t GetNumFields()
Returns number of fields in result set.
Definition: TOracleStatement.cxx:658

TOracleStatement::SetTimestamp
virtual Bool_t SetTimestamp(Int_t npar, Int_t year, Int_t month, Int_t day, Int_t hour, Int_t min, Int_t sec, Int_t frac=0)
Set date & time value for parameter npar.
Definition: TOracleStatement.cxx:451

CheckGetField
#define CheckGetField(method, defres)
Definition: TOracleStatement.cxx:117

CheckSetPar
#define CheckSetPar(method)
Definition: TOracleStatement.cxx:102

TOracleStatement::SetNull
virtual Bool_t SetNull(Int_t npar)
Set NULL as value of parameter npar.
Definition: TOracleStatement.cxx:223

TOracleStatement::SetString
virtual Bool_t SetString(Int_t npar, const char *value, Int_t maxsize=256)
Set string value for parameter npar.
Definition: TOracleStatement.cxx:341

TOracleStatement::SetLong64
virtual Bool_t SetLong64(Int_t npar, Long64_t value)
Set 64-bit integer value for parameter npar.
Definition: TOracleStatement.cxx:293

TOracleStatement::GetDatime
virtual Bool_t GetDatime(Int_t npar, Int_t &year, Int_t &month, Int_t &day, Int_t &hour, Int_t &min, Int_t &sec)
return field value as date & time
Definition: TOracleStatement.cxx:1060

TOracleStatement::SetVLong
virtual Bool_t SetVLong(Int_t npar, const std::vector< Long_t > value, const char *schemaName, const char *typeName)
Set vector of long integer values for parameter npar.
Definition: TOracleStatement.cxx:503

TOracleStatement::fIterCounter
Int_t fIterCounter
Definition: TOracleStatement.h:52

TOracleStatement::SetLong
virtual Bool_t SetLong(Int_t npar, Long_t value)
Set long integer value for parameter npar.
Definition: TOracleStatement.cxx:277

kTRUE
const Bool_t kTRUE
Definition: Rtypes.h:91

value
float value
Definition: math.cpp:443

ROOT::Vc::malloc
Vc_ALWAYS_INLINE_L T *Vc_ALWAYS_INLINE_R malloc(size_t n)
Allocates memory on the Heap with alignment and padding suitable for vectorized access.
Definition: memory.h:67

TOracleStatement::SetMaxFieldSize
virtual Bool_t SetMaxFieldSize(Int_t nfield, Long_t maxsize)
Defines maximum size for field which must be used for read or write operation Some Oracle types as LO...
Definition: TOracleStatement.cxx:638

n
const Int_t n
Definition: legend1.C:16

TOracleStatement::Close
virtual void Close(Option_t *="")
Close Oracle statement Removes and destroys all buffers and metainfo.
Definition: TOracleStatement.cxx:70

TOracleStatement::NextResultRow
virtual Bool_t NextResultRow()
Move cursor to next row in result set.
Definition: TOracleStatement.cxx:689

TOracleStatement::fBuffer
TBufferRec * fBuffer
Definition: TOracleStatement.h:49

CheckStatement
#define CheckStatement(method, res)
Definition: TOracleStatement.cxx:92

TOracleStatement::NextIteration
virtual Bool_t NextIteration()
Add next iteration for statement with parameters.
Definition: TOracleStatement.cxx:585