[u/mrichter/AliRoot.git] / ZDC / TestZDCPreprocessor.C

/* $Id$ */

// This class runs the test preprocessor
// It uses AliTestShuttle to simulate a full Shuttle process

// The input data is created in the functions
//   CreateDCSAliasMap() creates input that would in the same way come from DCS
//   ReadDCSAliasMap() reads from a file
//   CreateInputFilesMap() creates a list of local files, that can be accessed by the shuttle

void TestZDCPreprocessor(const char* runType="PHYSICS")
{
  // load library
  gSystem->Load("libTestShuttle.so");

  // create AliTestShuttle instance
  // The parameters are run, startTime, endTime
  AliTestShuttle* shuttle = new AliTestShuttle(0, 0, 1);

  // TODO if needed, change location of OCDB and Reference test folders
  // by default they are set to $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB and TestReference
  //AliTestShuttle::SetMainCDB("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB");
  AliTestShuttle::SetMainCDB("local://$ALICE_ROOT/OCDB");
  //AliTestShuttle::SetMainCDB("alien://folder=/alice/data/2009/OCDB/");
  AliTestShuttle::SetMainRefStorage("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestReference");

  printf("\n Test OCDB storage Uri: %s\n", AliShuttleInterface::GetMainCDB().Data());
  printf(" Test Reference storage Uri: %s\n\n", AliShuttleInterface::GetMainRefStorage().Data());

  // TODO(1)
  //
  // The shuttle can read DCS data, if the preprocessor should be tested to process DCS data,
  // some fake data has to be created.
  //
  // The "fake" input data can be taken using either (a) or (b):
  // (a) data from a file: Use ReadDCSAliasMap()
  //     the format of the file is explained in ReadDCSAliasMap()
  //     To use it uncomment the following line:
  //
  //TMap* dcsAliasMap = ReadDCSAliasMap();
  //
  // (b) generated in this macro: Use CreateDCSAliasMap() and its documentation
  //     To use it uncomment the following line:
  //
  TMap* dcsAliasMap = CreateDCSAliasMap();
  dcsAliasMap->Print("");
  //WriteDCSAliasMap();

  // now give the alias map to the shuttle
  shuttle->SetDCSInput(dcsAliasMap);

  // TODO(2)
  //
  // The shuttle can also process files that originate from DCS, DAQ and HLT.
  // To test it, we provide some local files and locations where these would be found when
  // the online machinery would be there.
  // In real life this functions would be produces by the sub-detectors
  // calibration programs in DCS, DAQ or HLT. These files can then be retrieved using the Shuttle.
  //
  // Files are added with the function AliTestShuttle::AddInputFile. The syntax is:
  // AddInputFile(<system>, <detector>, <id>, <source>, <local-file>)
  // In this example we add a file originating from the GDC with the id PEDESTALS
  // Three files originating from different LDCs but with the same id are also added
  // Note that the test preprocessor name is TPC. The name of the detector's preprocessor must follow
  // the "online" naming convention ALICE-INT-2003-039.
  //
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "PEDESTALDATA", "LDC", "ZDCPedestal.dat");
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "PEDESTALHISTOS", "LDC", "ZDCPedHisto.root");
  //
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "LASERDATA", "LDC", "ZDCLaserCalib.dat");
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "LASERHISTOS", "LDC", "ZDCLaserHisto.root");
  //
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "EMDENERGYCALIB", "LDC", "ZDCEnergyCalib.dat");
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "EMDTOWERCALIB", "LDC", "ZDCTowerCalib.dat");
  //
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "MBCALIB", "LDC", "ZDCMBCalib.root");
  //
  shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "MAPPING", "MON", "ZDCChMapping.dat");

  // TODO(3)
  //
  // The shuttle can read run type stored in the DAQ logbook.
  // To test it, we must provide the run type manually. They will be retrieved in the preprocessor
  // using GetRunType function.
  shuttle->SetInputRunType(runType);
  
  // TODO(4)
  //
  // The shuttle can read run parameters stored in the DAQ run logbook.
  // To test it, we must provide the run parameters manually. They will be retrieved in the preprocessor
  // using GetRunParameter function.
  // In real life the parameters will be retrieved automatically from the run logbook;
  //shuttle->AddInputRunParameter("beamType", "A-A");
  shuttle->AddInputRunParameter("beamType", "p-p");
  shuttle->AddInputRunParameter("totalEvents", "1000");
  shuttle->AddInputRunParameter("NumberOfGDCs", "1");

  // TODO(5) NEW!
  //
  // This is for preprocessor that require data from HLT.
  // Since HLT may be switched off, the preprocessor should first query the Run logbook where
  // the HLT status is stored. SHUTTLE implements a shortcut function (GetHLTStatus) that returns
  // a bool directly. 1 = HLT ON, 0 = HLT OFF
  //
  Bool_t hltStatus=kFALSE;
  shuttle->SetInputHLTStatus(hltStatus);

  // TODO(6)
  //
  // The shuttle can query condition parameters valid from the current run from the OCDB
  // To test it, we must first store the object into the OCDB. It will be retrieved in the preprocessor
  // using GetFromOCDB function.

  /*TObjString obj("This is a condition parameter stored in OCDB");
  AliCDBId id("ZDC/Calib/Data", 0, AliCDBRunRange::Infinity());
  AliCDBMetaData md;
  AliCDBEntry entry(&obj, id, &md);

  shuttle->AddInputCDBEntry(&entry);
  */
  
  // TODO(6)
  // Create the preprocessor that should be tested, it registers itself automatically to the shuttle
  AliPreprocessor* test = new AliZDCPreprocessor(shuttle);
  shuttle->Print();
  
  // Test the preprocessor
  shuttle->Process();
  //printf(" Back to test macro: final checks! \n");

  // TODO(7)
  // In the preprocessor AliShuttleInterface::Store should be called to put the final
  // data to the CDB. To check if all went fine have a look at the files produced in
  // $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/<detector>/SHUTTLE/Data
  //
  // Check the file which should have been created
  AliCDBEntry* chkEntry0 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
  			->Get("ZDC/Calib/ChMap", 0);
  TString str(runType);
  AliCDBEntry* chkEntry1;
  if((str.CompareTo("STANDALONE_PEDESTAL")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
  			->Get("ZDC/Calib/Pedestals", 0);
  else if((str.CompareTo("STANDALONE_LASER")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
  			->Get("ZDC/Calib/LaserCalib", 0);
  else if((str.CompareTo("CALIBRATION_EMD")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
  			->Get("ZDC/Calib/EnergyCalib", 0);
  
  
  if(!chkEntry0){
    printf("No file in ZDC/Calib/ChMap\n");
    return;
  }
  if(!chkEntry1){
    if((str.CompareTo("STANDALONE_PEDESTAL")) == 0)  printf("No file in ZDC/Calib/Pedestal\n");
    else if((str.CompareTo("STANDALONE_LASER")) == 0) printf("No file in ZDC/Calib/LaserCalib\n");
    else if((str.CompareTo("CALIBRATION_EMD")) == 0)  printf("No file in ZDC/Calib/EnergyCalib\n");
    return;
  }
  

  /*AliTestDataDCS* output = dynamic_cast<AliTestDataDCS*> (chkEntry1->GetObject());
  // If everything went fine, draw the result
  if (output)
    output->Draw();*/
}

TMap* CreateDCSAliasMap()
{
  // Creates a DCS structure
  // The structure is the following:
  //   TMap (key --> value)
  //     <DCSAlias> --> <valueList>
  //     <DCSAlias> is a string
  //     <valueList> is a TObjArray of AliDCSValue
  //     An AliDCSValue consists of timestamp and a value in form of a AliSimpleValue

  // In this example 6 aliases exists: DCSAlias1 ... DCSAlias6
  // Each contains 1000 values randomly generated by TRandom::Gaus + 5*nAlias

  TMap* aliasMap = new TMap;
  aliasMap->SetOwner(1);

  TRandom random;
  TString aliasNames[28];

  // ******************************** alignment values
  aliasNames[0] = "ZDC_ZNA_POS.actual.position";
  aliasNames[1] = "ZDC_ZPA_POS.actual.position";
  aliasNames[2] = "ZDC_ZNC_POS.actual.position";
  aliasNames[3] = "ZDC_ZPC_POS.actual.position";
  //
  for(int nAlias=0; nAlias<4; nAlias++){
    TObjArray* valueSet = new TObjArray;
    valueSet->SetOwner(1);

    TString aliasName = aliasNames[nAlias];
    //printf("\n\n alias: %s\n\n",aliasName.Data());

    Float_t simVal = (Float_t) (random.Rndm()*0.025+random.Rndm()*0.1);
    int timeStamp1[5] = {0,500,1000,1500,2000};
    for(int i=0;i<5;i++){
      AliDCSValue* dcsVal = new AliDCSValue(simVal, timeStamp1[i]);
      //printf("%s\n",dcsVal->ToString());
      valueSet->Add(dcsVal);
    }
    aliasMap->Add(new TObjString(aliasName), valueSet);
  }
  // ******************************** HV values
  aliasNames[4]  = "ZDC_ZNA_HV0.actual.vMon";
  aliasNames[5]  = "ZDC_ZNA_HV1.actual.vMon";
  aliasNames[6]  = "ZDC_ZNA_HV2.actual.vMon";
  aliasNames[7]  = "ZDC_ZNA_HV3.actual.vMon";
  aliasNames[8]  = "ZDC_ZNA_HV4.actual.vMon";
  //
  aliasNames[9]   = "ZDC_ZPA_HV0.actual.vMon";
  aliasNames[10]  = "ZDC_ZPA_HV1.actual.vMon";
  aliasNames[11]  = "ZDC_ZPA_HV2.actual.vMon";
  aliasNames[12]  = "ZDC_ZPA_HV3.actual.vMon";
  aliasNames[13]  = "ZDC_ZPA_HV4.actual.vMon";
  //
  aliasNames[14]  = "ZDC_ZNC_HV0.actual.vMon";
  aliasNames[15]  = "ZDC_ZNC_HV1.actual.vMon";
  aliasNames[16]  = "ZDC_ZNC_HV2.actual.vMon";
  aliasNames[17]  = "ZDC_ZNC_HV3.actual.vMon";
  aliasNames[18]  = "ZDC_ZNC_HV4.actual.vMon";
  //
  aliasNames[19]  = "ZDC_ZPC_HV0.actual.vMon";
  aliasNames[20]  = "ZDC_ZPC_HV1.actual.vMon";
  aliasNames[21]  = "ZDC_ZPC_HV2.actual.vMon";
  aliasNames[22]  = "ZDC_ZPC_HV3.actual.vMon";
  aliasNames[23]  = "ZDC_ZPC_HV4.actual.vMon";
  //
  aliasNames[24]  = "ZDC_ZEM_HV0.actual.vMon";
  aliasNames[25]  = "ZDC_ZEM_HV1.actual.vMon";
  //
  aliasNames[26]  = "ZDC_REFA_HV.actual.vMon";
  aliasNames[27]  = "ZDC_REFC_HV.actual.vMon";
  //
  for(int nAlias=4;nAlias<28;nAlias++){
//   if(nAlias<14 || nAlias>18){
     TObjArray* valueSet = new TObjArray;
     valueSet->SetOwner(1);
   
     TString aliasName = aliasNames[nAlias];
     //printf("\n\n alias: %s\n\n",aliasName.Data());

     for(int timeStamp=0;timeStamp<=2000;timeStamp+=500){
       Float_t simVal = (Float_t) (random.Gaus()*600.+1800.);
       AliDCSValue* dcsVal = new AliDCSValue(simVal, timeStamp);
       //printf("%s\n",dcsVal->ToString());
       valueSet->Add(dcsVal);
     }
     aliasMap->Add(new TObjString(aliasName), valueSet);
//   }
  }

  return aliasMap;
}

TMap* ReadDCSAliasMap()
{
  // Open a file that contains DCS input data
  // The CDB framework is used to open the file, this means the file is located
  // in $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/<detector>/DCS/Data
  // The file contains an AliCDBEntry that contains a TMap with the DCS structure.
  // An explanation of the structure can be found in CreateDCSAliasMap()

  AliCDBManager *manager = AliCDBManager::Instance();
  AliCDBStorage *sto = manager->GetStorage("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/");
  AliCDBId id("ZDC/DCS/Data",0,999999999);
  AliCDBEntry *entry = sto->Get("ZDC/DCS/Data", 0);
  if(!entry) printf("TestZDCPreprocessor.C -> ERROR! No entry found as DCS Map! \n");
  return dynamic_cast<TMap*> (entry->GetObject());
}

void WriteDCSAliasMap()
{
  // This writes the output from CreateDCSAliasMap to a CDB file

  TMap* dcsAliasMap = CreateDCSAliasMap();

  AliCDBMetaData metaData;
	metaData.SetBeamPeriod(0);
	metaData.SetResponsible("Chiara Oppedisano");
	metaData.SetComment("Test object for TestZDCPreprocessor.C");

  AliCDBId id("ZDC/DCS/Data", 0, 999999999);

  // initialize location of CDB
  AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB/SHUTTLE/TestShuttle/TestCDB");

  AliCDBManager::Instance()->Put(dcsAliasMap, id, &metaData);
}
Commit	Line	Data
	1	/* $Id$ */
	2
	3	// This class runs the test preprocessor
	4	// It uses AliTestShuttle to simulate a full Shuttle process
	5
	6	// The input data is created in the functions
	7	// CreateDCSAliasMap() creates input that would in the same way come from DCS
	8	// ReadDCSAliasMap() reads from a file
	9	// CreateInputFilesMap() creates a list of local files, that can be accessed by the shuttle
	10
	11	void TestZDCPreprocessor(const char* runType="PHYSICS")
	12	{
	13	// load library
	14	gSystem->Load("libTestShuttle.so");
	15
	16	// create AliTestShuttle instance
	17	// The parameters are run, startTime, endTime
	18	AliTestShuttle* shuttle = new AliTestShuttle(0, 0, 1);
	19
	20	// TODO if needed, change location of OCDB and Reference test folders
	21	// by default they are set to $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB and TestReference
	22	//AliTestShuttle::SetMainCDB("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB");
	23	AliTestShuttle::SetMainCDB("local://$ALICE_ROOT/OCDB");
	24	//AliTestShuttle::SetMainCDB("alien://folder=/alice/data/2009/OCDB/");
	25	AliTestShuttle::SetMainRefStorage("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestReference");
	26
	27	printf("\n Test OCDB storage Uri: %s\n", AliShuttleInterface::GetMainCDB().Data());
	28	printf(" Test Reference storage Uri: %s\n\n", AliShuttleInterface::GetMainRefStorage().Data());
	29
	30	// TODO(1)
	31	//
	32	// The shuttle can read DCS data, if the preprocessor should be tested to process DCS data,
	33	// some fake data has to be created.
	34	//
	35	// The "fake" input data can be taken using either (a) or (b):
	36	// (a) data from a file: Use ReadDCSAliasMap()
	37	// the format of the file is explained in ReadDCSAliasMap()
	38	// To use it uncomment the following line:
	39	//
	40	//TMap* dcsAliasMap = ReadDCSAliasMap();
	41	//
	42	// (b) generated in this macro: Use CreateDCSAliasMap() and its documentation
	43	// To use it uncomment the following line:
	44	//
	45	TMap* dcsAliasMap = CreateDCSAliasMap();
	46	dcsAliasMap->Print("");
	47	//WriteDCSAliasMap();
	48
	49	// now give the alias map to the shuttle
	50	shuttle->SetDCSInput(dcsAliasMap);
	51
	52	// TODO(2)
	53	//
	54	// The shuttle can also process files that originate from DCS, DAQ and HLT.
	55	// To test it, we provide some local files and locations where these would be found when
	56	// the online machinery would be there.
	57	// In real life this functions would be produces by the sub-detectors
	58	// calibration programs in DCS, DAQ or HLT. These files can then be retrieved using the Shuttle.
	59	//
	60	// Files are added with the function AliTestShuttle::AddInputFile. The syntax is:
	61	// AddInputFile(<system>, <detector>, <id>, <source>, <local-file>)
	62	// In this example we add a file originating from the GDC with the id PEDESTALS
	63	// Three files originating from different LDCs but with the same id are also added
	64	// Note that the test preprocessor name is TPC. The name of the detector's preprocessor must follow
	65	// the "online" naming convention ALICE-INT-2003-039.
	66	//
	67	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "PEDESTALDATA", "LDC", "ZDCPedestal.dat");
	68	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "PEDESTALHISTOS", "LDC", "ZDCPedHisto.root");
	69	//
	70	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "LASERDATA", "LDC", "ZDCLaserCalib.dat");
	71	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "LASERHISTOS", "LDC", "ZDCLaserHisto.root");
	72	//
	73	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "EMDENERGYCALIB", "LDC", "ZDCEnergyCalib.dat");
	74	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "EMDTOWERCALIB", "LDC", "ZDCTowerCalib.dat");
	75	//
	76	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "MBCALIB", "LDC", "ZDCMBCalib.root");
	77	//
	78	shuttle->AddInputFile(AliTestShuttle::kDAQ, "ZDC", "MAPPING", "MON", "ZDCChMapping.dat");
	79
	80	// TODO(3)
	81	//
	82	// The shuttle can read run type stored in the DAQ logbook.
	83	// To test it, we must provide the run type manually. They will be retrieved in the preprocessor
	84	// using GetRunType function.
	85	shuttle->SetInputRunType(runType);
	86
	87	// TODO(4)
	88	//
	89	// The shuttle can read run parameters stored in the DAQ run logbook.
	90	// To test it, we must provide the run parameters manually. They will be retrieved in the preprocessor
	91	// using GetRunParameter function.
	92	// In real life the parameters will be retrieved automatically from the run logbook;
	93	//shuttle->AddInputRunParameter("beamType", "A-A");
	94	shuttle->AddInputRunParameter("beamType", "p-p");
	95	shuttle->AddInputRunParameter("totalEvents", "1000");
	96	shuttle->AddInputRunParameter("NumberOfGDCs", "1");
	97
	98	// TODO(5) NEW!
	99	//
	100	// This is for preprocessor that require data from HLT.
	101	// Since HLT may be switched off, the preprocessor should first query the Run logbook where
	102	// the HLT status is stored. SHUTTLE implements a shortcut function (GetHLTStatus) that returns
	103	// a bool directly. 1 = HLT ON, 0 = HLT OFF
	104	//
	105	Bool_t hltStatus=kFALSE;
	106	shuttle->SetInputHLTStatus(hltStatus);
	107
	108	// TODO(6)
	109	//
	110	// The shuttle can query condition parameters valid from the current run from the OCDB
	111	// To test it, we must first store the object into the OCDB. It will be retrieved in the preprocessor
	112	// using GetFromOCDB function.
	113
	114	/*TObjString obj("This is a condition parameter stored in OCDB");
	115	AliCDBId id("ZDC/Calib/Data", 0, AliCDBRunRange::Infinity());
	116	AliCDBMetaData md;
	117	AliCDBEntry entry(&obj, id, &md);
	118
	119	shuttle->AddInputCDBEntry(&entry);
	120	*/
	121
	122	// TODO(6)
	123	// Create the preprocessor that should be tested, it registers itself automatically to the shuttle
	124	AliPreprocessor* test = new AliZDCPreprocessor(shuttle);
	125	shuttle->Print();
	126
	127	// Test the preprocessor
	128	shuttle->Process();
	129	//printf(" Back to test macro: final checks! \n");
	130
	131	// TODO(7)
	132	// In the preprocessor AliShuttleInterface::Store should be called to put the final
	133	// data to the CDB. To check if all went fine have a look at the files produced in
	134	// $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/<detector>/SHUTTLE/Data
	135	//
	136	// Check the file which should have been created
	137	AliCDBEntry* chkEntry0 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
	138	->Get("ZDC/Calib/ChMap", 0);
	139	TString str(runType);
	140	AliCDBEntry* chkEntry1;
	141	if((str.CompareTo("STANDALONE_PEDESTAL")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
	142	->Get("ZDC/Calib/Pedestals", 0);
	143	else if((str.CompareTo("STANDALONE_LASER")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
	144	->Get("ZDC/Calib/LaserCalib", 0);
	145	else if((str.CompareTo("CALIBRATION_EMD")) == 0) chkEntry1 = AliCDBManager::Instance()->GetStorage(AliShuttleInterface::GetMainCDB())
	146	->Get("ZDC/Calib/EnergyCalib", 0);
	147
	148
	149	if(!chkEntry0){
	150	printf("No file in ZDC/Calib/ChMap\n");
	151	return;
	152	}
	153	if(!chkEntry1){
	154	if((str.CompareTo("STANDALONE_PEDESTAL")) == 0) printf("No file in ZDC/Calib/Pedestal\n");
	155	else if((str.CompareTo("STANDALONE_LASER")) == 0) printf("No file in ZDC/Calib/LaserCalib\n");
	156	else if((str.CompareTo("CALIBRATION_EMD")) == 0) printf("No file in ZDC/Calib/EnergyCalib\n");
	157	return;
	158	}
	159
	160
	161	/AliTestDataDCS output = dynamic_cast<AliTestDataDCS*> (chkEntry1->GetObject());
	162	// If everything went fine, draw the result
	163	if (output)
	164	output->Draw();*/
	165	}
	166
	167	TMap* CreateDCSAliasMap()
	168	{
	169	// Creates a DCS structure
	170	// The structure is the following:
	171	// TMap (key --> value)
	172	// <DCSAlias> --> <valueList>
	173	// <DCSAlias> is a string
	174	// <valueList> is a TObjArray of AliDCSValue
	175	// An AliDCSValue consists of timestamp and a value in form of a AliSimpleValue
	176
	177	// In this example 6 aliases exists: DCSAlias1 ... DCSAlias6
	178	// Each contains 1000 values randomly generated by TRandom::Gaus + 5*nAlias
	179
	180	TMap* aliasMap = new TMap;
	181	aliasMap->SetOwner(1);
	182
	183	TRandom random;
	184	TString aliasNames[28];
	185
	186	// ******************************** alignment values
	187	aliasNames[0] = "ZDC_ZNA_POS.actual.position";
	188	aliasNames[1] = "ZDC_ZPA_POS.actual.position";
	189	aliasNames[2] = "ZDC_ZNC_POS.actual.position";
	190	aliasNames[3] = "ZDC_ZPC_POS.actual.position";
	191	//
	192	for(int nAlias=0; nAlias<4; nAlias++){
	193	TObjArray* valueSet = new TObjArray;
	194	valueSet->SetOwner(1);
	195
	196	TString aliasName = aliasNames[nAlias];
	197	//printf("\n\n alias: %s\n\n",aliasName.Data());
	198
	199	Float_t simVal = (Float_t) (random.Rndm()0.025+random.Rndm()0.1);
	200	int timeStamp1[5] = {0,500,1000,1500,2000};
	201	for(int i=0;i<5;i++){
	202	AliDCSValue* dcsVal = new AliDCSValue(simVal, timeStamp1[i]);
	203	//printf("%s\n",dcsVal->ToString());
	204	valueSet->Add(dcsVal);
	205	}
	206	aliasMap->Add(new TObjString(aliasName), valueSet);
	207	}
	208	// ******************************** HV values
	209	aliasNames[4] = "ZDC_ZNA_HV0.actual.vMon";
	210	aliasNames[5] = "ZDC_ZNA_HV1.actual.vMon";
	211	aliasNames[6] = "ZDC_ZNA_HV2.actual.vMon";
	212	aliasNames[7] = "ZDC_ZNA_HV3.actual.vMon";
	213	aliasNames[8] = "ZDC_ZNA_HV4.actual.vMon";
	214	//
	215	aliasNames[9] = "ZDC_ZPA_HV0.actual.vMon";
	216	aliasNames[10] = "ZDC_ZPA_HV1.actual.vMon";
	217	aliasNames[11] = "ZDC_ZPA_HV2.actual.vMon";
	218	aliasNames[12] = "ZDC_ZPA_HV3.actual.vMon";
	219	aliasNames[13] = "ZDC_ZPA_HV4.actual.vMon";
	220	//
	221	aliasNames[14] = "ZDC_ZNC_HV0.actual.vMon";
	222	aliasNames[15] = "ZDC_ZNC_HV1.actual.vMon";
	223	aliasNames[16] = "ZDC_ZNC_HV2.actual.vMon";
	224	aliasNames[17] = "ZDC_ZNC_HV3.actual.vMon";
	225	aliasNames[18] = "ZDC_ZNC_HV4.actual.vMon";
	226	//
	227	aliasNames[19] = "ZDC_ZPC_HV0.actual.vMon";
	228	aliasNames[20] = "ZDC_ZPC_HV1.actual.vMon";
	229	aliasNames[21] = "ZDC_ZPC_HV2.actual.vMon";
	230	aliasNames[22] = "ZDC_ZPC_HV3.actual.vMon";
	231	aliasNames[23] = "ZDC_ZPC_HV4.actual.vMon";
	232	//
	233	aliasNames[24] = "ZDC_ZEM_HV0.actual.vMon";
	234	aliasNames[25] = "ZDC_ZEM_HV1.actual.vMon";
	235	//
	236	aliasNames[26] = "ZDC_REFA_HV.actual.vMon";
	237	aliasNames[27] = "ZDC_REFC_HV.actual.vMon";
	238	//
	239	for(int nAlias=4;nAlias<28;nAlias++){
	240	// if(nAlias<14 \|\| nAlias>18){
	241	TObjArray* valueSet = new TObjArray;
	242	valueSet->SetOwner(1);
	243
	244	TString aliasName = aliasNames[nAlias];
	245	//printf("\n\n alias: %s\n\n",aliasName.Data());
	246
	247	for(int timeStamp=0;timeStamp<=2000;timeStamp+=500){
	248	Float_t simVal = (Float_t) (random.Gaus()*600.+1800.);
	249	AliDCSValue* dcsVal = new AliDCSValue(simVal, timeStamp);
	250	//printf("%s\n",dcsVal->ToString());
	251	valueSet->Add(dcsVal);
	252	}
	253	aliasMap->Add(new TObjString(aliasName), valueSet);
	254	// }
	255	}
	256
	257	return aliasMap;
	258	}
	259
	260	TMap* ReadDCSAliasMap()
	261	{
	262	// Open a file that contains DCS input data
	263	// The CDB framework is used to open the file, this means the file is located
	264	// in $ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/<detector>/DCS/Data
	265	// The file contains an AliCDBEntry that contains a TMap with the DCS structure.
	266	// An explanation of the structure can be found in CreateDCSAliasMap()
	267
	268	AliCDBManager *manager = AliCDBManager::Instance();
	269	AliCDBStorage *sto = manager->GetStorage("local://$ALICE_ROOT/SHUTTLE/TestShuttle/TestCDB/");
	270	AliCDBId id("ZDC/DCS/Data",0,999999999);
	271	AliCDBEntry *entry = sto->Get("ZDC/DCS/Data", 0);
	272	if(!entry) printf("TestZDCPreprocessor.C -> ERROR! No entry found as DCS Map! \n");
	273	return dynamic_cast<TMap*> (entry->GetObject());
	274	}
	275
	276	void WriteDCSAliasMap()
	277	{
	278	// This writes the output from CreateDCSAliasMap to a CDB file
	279
	280	TMap* dcsAliasMap = CreateDCSAliasMap();
	281
	282	AliCDBMetaData metaData;
	283	metaData.SetBeamPeriod(0);
	284	metaData.SetResponsible("Chiara Oppedisano");
	285	metaData.SetComment("Test object for TestZDCPreprocessor.C");
	286
	287	AliCDBId id("ZDC/DCS/Data", 0, 999999999);
	288
	289	// initialize location of CDB
	290	AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB/SHUTTLE/TestShuttle/TestCDB");
	291
	292	AliCDBManager::Instance()->Put(dcsAliasMap, id, &metaData);
	293	}