/[PAMELA software]/YodaProfiler/src/GLTables.cpp
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revision 1.32 by mocchiut, Fri Oct 19 07:47:52 2007 UTC revision 1.38 by mocchiut, Fri Mar 7 10:35:15 2008 UTC
# Line 24  ClassImp(GL_ROOT); Line 24  ClassImp(GL_ROOT);
24  ClassImp(GL_PARAM);  ClassImp(GL_PARAM);
25  ClassImp(GL_S4_CALIB);  ClassImp(GL_S4_CALIB);
26  ClassImp(GL_CALO_CALIB);  ClassImp(GL_CALO_CALIB);
27    ClassImp(GL_CALOPULSE_CALIB);
28  ClassImp(GL_TIMESYNC);  ClassImp(GL_TIMESYNC);
29  ClassImp(GL_TLE);  ClassImp(GL_TLE);
30  //  //
# Line 63  Bool_t GL_TABLES::IsConnected(TSQLServer Line 64  Bool_t GL_TABLES::IsConnected(TSQLServer
64      return true;      return true;
65    };    };
66    //    //
   //  
   //  
67    //    printf(" host is %s \n",fHost->Data());    //    printf(" host is %s \n",fHost->Data());
68    //    //
69    stringstream myquery;      stringstream myquery;  
# Line 85  Bool_t GL_TABLES::IsConnected(TSQLServer Line 84  Bool_t GL_TABLES::IsConnected(TSQLServer
84        };        };
85      };      };
86    };    };
87    //  printf("porca di quella \n");    //
88    if ( true ) {    if ( true ) {
89      //      //
90      printf(" WARNING: Lost connection to DB! try to recover... \n");      printf(" WARNING: Lost connection to DB! try to recover... \n");
# Line 93  Bool_t GL_TABLES::IsConnected(TSQLServer Line 92  Bool_t GL_TABLES::IsConnected(TSQLServer
92      TString host = fHost->Data();      TString host = fHost->Data();
93      TString user = fUser->Data();      TString user = fUser->Data();
94      TString psw = fPsw->Data();      TString psw = fPsw->Data();
95        dbc->Close();
96      delete dbc;      delete dbc;
97      dbc = TSQLServer::Connect(host.Data(),user.Data(),psw.Data());      dbc = TSQLServer::Connect(host.Data(),user.Data(),psw.Data());
98      //      //
# Line 100  Bool_t GL_TABLES::IsConnected(TSQLServer Line 100  Bool_t GL_TABLES::IsConnected(TSQLServer
100      myquery << "show databases;";      myquery << "show databases;";
101      dbc->Query(myquery.str().c_str());      dbc->Query(myquery.str().c_str());
102      fNquery++;      fNquery++;
     //    printf(" e riporca di quella \n");  
     //  
103      //    if ( dbc->GetErrorCode() != 2013 && dbc->GetErrorCode() != 2006 ){      //    if ( dbc->GetErrorCode() != 2013 && dbc->GetErrorCode() != 2006 ){
104      if ( !(dbc->GetErrorCode()) ){      if ( !(dbc->GetErrorCode()) ){
105        //        //
# Line 174  GL_RUN::GL_RUN() { Line 172  GL_RUN::GL_RUN() {
172  }  }
173    
174    
175  void GL_RUN::Clear() {  void GL_RUN::Clear(Option_t *t) {
176    ID                         = 0;    ID                         = 0;
177    ID_RUN_FRAG                = 0;    ID_RUN_FRAG                = 0;
178    ID_ROOT_L0                 = 0;    ID_ROOT_L0                 = 0;
# Line 249  GL_CALO_CALIB::GL_CALO_CALIB(){ Line 247  GL_CALO_CALIB::GL_CALO_CALIB(){
247    FROM_TIME = 0;    FROM_TIME = 0;
248    TO_TIME   = 0;    TO_TIME   = 0;
249    SECTION   = 0;    SECTION   = 0;
250      OBT = 0;
251      PKT = 0;
252      BOOT_NUMBER                = 0;
253      VALIDATION                 = 0;
254    }
255    
256    GL_CALOPULSE_CALIB::GL_CALOPULSE_CALIB(){
257      ID        = 0;
258      ID_ROOT_L0  = 0;
259      EV_ROOT = 0;
260      FROM_TIME = 0;
261      TO_TIME   = 0;
262      SECTION   = 0;
263      PULSED_STRIP = 0;
264      PULSE_AMPLITUDE = 0;
265      OBT = 0;
266      PKT = 0;
267      BOOT_NUMBER                = 0;
268      VALIDATION                 = 0;
269  }  }
270    
271  GL_S4_CALIB::GL_S4_CALIB(){  GL_S4_CALIB::GL_S4_CALIB(){
# Line 257  GL_S4_CALIB::GL_S4_CALIB(){ Line 274  GL_S4_CALIB::GL_S4_CALIB(){
274    EV_ROOT = 0;    EV_ROOT = 0;
275    FROM_TIME = 0;    FROM_TIME = 0;
276    TO_TIME   = 0;    TO_TIME   = 0;
277    PARAM_FIT0 = 0.;    OBT = 0;
278    PARAM_FIT1 = 0.;    PKT = 0;
279      BOOT_NUMBER                = 0;
280  }  }
281    
282  GL_TIMESYNC::GL_TIMESYNC(){  GL_TIMESYNC::GL_TIMESYNC(){
# Line 1262  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB Line 1280  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB
1280    //    //
1281    uptime = (UInt_t)atoll(Row->GetField(2));    uptime = (UInt_t)atoll(Row->GetField(2));
1282    //    //
1283      UInt_t myfromtime = (UInt_t)atoll(Row->GetField(1));
1284      UInt_t mytotime = (UInt_t)atoll(Row->GetField(2));
1285      //
1286    // if it is corrupted validation is 0 and we have no results from the query...    // if it is corrupted validation is 0 and we have no results from the query...
1287    //    //
1288    if( atoi(Row->GetField(4)) == 0 ){ // if validation = 0    if( atoi(Row->GetField(4)) == 0 ){ // if validation = 0
# Line 1283  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB Line 1304  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB
1304      //      //
1305      Row = pResult->Next();      Row = pResult->Next();
1306      //      //
1307        myfromtime = (UInt_t)atoll(Row->GetField(1));
1308        //
1309      };
1310      //
1311      // if the selected calibration is too old (more than 5 orbits old) try to take the closest not corrupted one
1312      //
1313      if ( (time-myfromtime)>28500 ){
1314        //
1315        myquery.str("");
1316        myquery << "select ID_ROOT_L0, FROM_TIME, TO_TIME, EV_ROOT from GL_CALO_CALIB where SECTION=" << section;
1317        myquery << " and VALIDATION=1 ORDER BY ABS(" << time << "-FROM_TIME) asc limit 1;";
1318        if ( !this->GetGLTABLES()->IsConnected(dbc) ) return -57;
1319        this->GetGLTABLES()->AddQ();
1320        pResult = dbc->Query(myquery.str().c_str());
1321        //    printf(" mysquery is %s\n",myquery.str().c_str());
1322        //
1323        // if no results yet quit with error
1324        //
1325        if( !pResult->GetRowCount() ) return (-54);
1326        //
1327        Row = pResult->Next();
1328        //
1329    };    };
1330    //    //
1331    // store infos and exit    // store infos and exit
# Line 1290  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB Line 1333  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB
1333    if( Row == NULL ) return (-54);    if( Row == NULL ) return (-54);
1334    for( t = 0; t < pResult->GetFieldCount(); t++){    for( t = 0; t < pResult->GetFieldCount(); t++){
1335      if (t==0) ID_ROOT_L0  = (UInt_t)atoll(Row->GetField(t));      if (t==0) ID_ROOT_L0  = (UInt_t)atoll(Row->GetField(t));
1336        if (t==1) FROM_TIME = myfromtime;
1337        if (t==2) TO_TIME   = mytotime;          
1338        if (t==3) EV_ROOT = (UInt_t)atoll(Row->GetField(t));
1339      };
1340      pResult->Delete();
1341      return 0;
1342    };
1343    
1344    
1345    // ****************************************************
1346    /**
1347     * Function to query the GL_CALOPULSE_CALIB table of the DB.
1348     *
1349     * \param  run starting time
1350     * \return struct of type GL_CALOPULSE_CALIB_data, which stores the query result
1351     */
1352    Int_t GL_CALOPULSE_CALIB::Query_GL_CALOPULSE_CALIB(UInt_t time, UInt_t section, UInt_t pampli, TSQLServer *dbc){
1353      // MySQL variables
1354      TSQLResult *pResult;
1355      TSQLRow *Row;
1356      int t;
1357      stringstream myquery;
1358      //
1359      // select the correct calibration i.e. the closest to our time
1360      //
1361      myquery.str("");
1362      myquery << "select ID_ROOT_L0, FROM_TIME, TO_TIME, EV_ROOT from GL_CALOPULSE_CALIB where SECTION=" << section;
1363      myquery << " and PULSE_AMPLITUDE=" << pampli;
1364      myquery << " and VALIDATION=1 and (PULSED_STRIP IS NULL OR PULSED_STRIP<100) ORDER BY ABS(" << time << "-FROM_TIME) asc limit 1;";
1365      //  printf(" myq is %s \n",myquery.str().c_str());
1366      //
1367      if ( !this->GetGLTABLES()->IsConnected(dbc) ) return -57;  
1368      this->GetGLTABLES()->AddQ();
1369      pResult = dbc->Query(myquery.str().c_str());
1370      //
1371      if( !pResult ) return(-54);
1372      //
1373      Row = pResult->Next();
1374      //
1375      if( !Row ) return (-54);
1376      //
1377      // store infos and exit
1378      //
1379      for( t = 0; t < pResult->GetFieldCount(); t++){
1380        //    printf(" field %i is %s \n",t,Row->GetField(t));
1381        if (t==0) ID_ROOT_L0  = (UInt_t)atoll(Row->GetField(t));
1382      if (t==1) FROM_TIME = (UInt_t)atoll(Row->GetField(t));      if (t==1) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
1383      if (t==2) TO_TIME   = (UInt_t)atoll(Row->GetField(t));                  if (t==2) TO_TIME   = (UInt_t)atoll(Row->GetField(t));            
1384      if (t==3) EV_ROOT = (UInt_t)atoll(Row->GetField(t));      if (t==3) EV_ROOT = (UInt_t)atoll(Row->GetField(t));
# Line 1297  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB Line 1386  Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB
1386    pResult->Delete();    pResult->Delete();
1387    return 0;    return 0;
1388  };  };
1389    
1390    
1391  // ****************************************************  // ****************************************************
1392  /**  /**
1393   * Function to query the GL_S4_CALIB table of the DB.   * Function to query the GL_S4_CALIB table of the DB.
# Line 1313  Int_t GL_S4_CALIB::Query_GL_S4_CALIB(UIn Line 1404  Int_t GL_S4_CALIB::Query_GL_S4_CALIB(UIn
1404    stringstream myquery;    stringstream myquery;
1405    // ----------------    // ----------------
1406    myquery.str("");    myquery.str("");
1407    myquery << "select * from GL_S4_CALIB where FROM_TIME <= "<< time;    myquery << "select ID,ID_ROOT_L0,EV_ROOT,FROM_TIME,TO_TIME from GL_S4_CALIB where FROM_TIME <= "<< time;
1408    myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";          myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";      
1409    //  myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";          //  myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";      
1410    if ( !this->GetGLTABLES()->IsConnected(dbc) ) return -57;      if ( !this->GetGLTABLES()->IsConnected(dbc) ) return -57;  
# Line 1325  Int_t GL_S4_CALIB::Query_GL_S4_CALIB(UIn Line 1416  Int_t GL_S4_CALIB::Query_GL_S4_CALIB(UIn
1416        if( Row == NULL ) break;        if( Row == NULL ) break;
1417        for( t = 0; t < pResult->GetFieldCount(); t++){        for( t = 0; t < pResult->GetFieldCount(); t++){
1418          if (t==0) ID               = (UInt_t)atoll(Row->GetField(t));          if (t==0) ID               = (UInt_t)atoll(Row->GetField(t));
1419            if (t==1) ID_ROOT_L0  = (UInt_t)atoll(Row->GetField(t));          if (t==1) ID_ROOT_L0  = (UInt_t)atoll(Row->GetField(t));
1420            if (t==2) EV_ROOT    = (UInt_t)atoll(Row->GetField(t));          if (t==2) EV_ROOT    = (UInt_t)atoll(Row->GetField(t));
1421            if (t==3) FROM_TIME = (UInt_t)atoll(Row->GetField(t));          if (t==3) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
1422            if (t==4) TO_TIME   = (UInt_t)atoll(Row->GetField(t));          if (t==4) TO_TIME   = (UInt_t)atoll(Row->GetField(t));
           if (t==5) PARAM_FIT0   = atof(Row->GetField(t));  
           if (t==6) PARAM_FIT1   = atof(Row->GetField(t));  
1423        };        };
1424    };    };
1425    delete pResult;        delete pResult;    
# Line 1525  GL_TIMESYNC::GL_TIMESYNC(UInt_t id, TStr Line 1614  GL_TIMESYNC::GL_TIMESYNC(UInt_t id, TStr
1614          if ( pResult ){          if ( pResult ){
1615            Row = pResult->Next();            Row = pResult->Next();
1616            if ( Row ){            if ( Row ){
1617              printf(" GREAT! the DB structure is the new one! \n");              //      printf(" GREAT! the DB structure is the new one! \n");
1618              fndit = true;              fndit = true;
1619              dworbit = 1;              dworbit = 1;
1620            };            };
# Line 1643  Long64_t GL_TIMESYNC::DBpkt(UInt_t pkt_n Line 1732  Long64_t GL_TIMESYNC::DBpkt(UInt_t pkt_n
1732   */   */
1733  Long64_t GL_TIMESYNC::DBobt(UInt_t obt){    Long64_t GL_TIMESYNC::DBobt(UInt_t obt){  
1734    //    //
1735    if ( obt < (obtfirst/2) && obtfirst > (numeric_limits<UInt_t>::max()/2) ) return((Long64_t)(obt+numeric_limits<UInt_t>::max()));    if ( obt < (obtfirst/2) && obtfirst > (numeric_limits<UInt_t>::max()/2) ){
1736        return((Long64_t)obt+(Long64_t)numeric_limits<UInt_t>::max());
1737      };
1738    //    //
1739    if ( obt > (obtfirst*2) && obt > (numeric_limits<UInt_t>::max()/2) ){    if ( obt > (obtfirst*2) && obt > (numeric_limits<UInt_t>::max()/2) ){
1740      return((Long64_t)obt-(Long64_t)numeric_limits<UInt_t>::max());      return((Long64_t)obt-(Long64_t)numeric_limits<UInt_t>::max());
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