/* TPC DA for online calibration Contact: Haavard.Helstrup@cern.ch Link: Run Type: PHYSICS STANDALONE DAQ DA Type: MON Number of events needed: 500 Input Files: Output Files: tpcCE.root, to be exported to the DAQ FXS fileId: CE Trigger types used: PHYSICS_EVENT */ /* TPCCEda.cxx - calibration algorithm for TPC Central Electrode events 10/06/2007 sylvain.chapeland@cern.ch : first version - clean skeleton based on DAQ DA case1 06/12/2007 haavard.helstrup@cern.ch : created CE DA based on pulser code 19/09/2008 J.Wiechula@gsi.de: Added support for configuration files. contact: marian.ivanov@cern.ch This process reads RAW data from the files provided as command line arguments and save results in a file (named from RESULT_FILE define - see below). */ #define RESULT_FILE "tpcCE.root" #define FILE_ID "CE" #define MAPPING_FILE "tpcMapping.root" #define CONFIG_FILE "TPCCEda.conf" #include #include "event.h" #include "monitor.h" #include #include // //Root includes // #include #include "TROOT.h" #include "TPluginManager.h" #include "TSystem.h" #include "TString.h" #include "TObjString.h" #include "TDatime.h" // //AliRoot includes // #include "AliRawReader.h" #include "AliRawReaderDate.h" #include "AliTPCmapper.h" #include "AliTPCRawStream.h" #include "AliTPCROC.h" #include "AliTPCCalROC.h" #include "AliTPCCalPad.h" #include "AliMathBase.h" #include "TTreeStream.h" #include "AliLog.h" #include "AliTPCConfigDA.h" // //AMORE // #include // // TPC calibration algorithm includes // #include "AliTPCCalibCE.h" /* Main routine Arguments: list of DATE raw data files */ int main(int argc, char **argv) { /* log start of process */ printf("TPC CE DA started - %s\n",__FILE__); if (argc<2) { printf("Wrong number of arguments\n"); return -1; } AliLog::SetClassDebugLevel("AliTPCRawStream",-5); AliLog::SetClassDebugLevel("AliRawReaderDate",-5); AliLog::SetClassDebugLevel("AliTPCAltroMapping",-5); AliLog::SetModuleDebugLevel("RAW",-5); gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo", "*", "TStreamerInfo", "RIO", "TStreamerInfo()"); /* declare monitoring program */ int i,status; status=monitorDeclareMp( __FILE__ ); if (status!=0) { printf("monitorDeclareMp() failed : %s\n",monitorDecodeError(status)); return -1; } monitorSetNowait(); monitorSetNoWaitNetworkTimeout(1000); //variables AliTPCmapper *mapping = 0; // The TPC mapping char localfile[255]; unsigned long32 runNb=0; //run number // configuration options Bool_t fastDecoding = kFALSE; // if test setup get parameters from $DAQDA_TEST_DIR if (!mapping){ /* copy locally the mapping file from daq detector config db */ sprintf(localfile,"./%s",MAPPING_FILE); status = daqDA_DB_getFile(MAPPING_FILE,localfile); if (status) { printf("Failed to get mapping file (%s) from DAQdetDB, status=%d\n", MAPPING_FILE, status); return -1; } /* open the mapping file and retrieve mapping object */ TFile *fileMapping = new TFile(MAPPING_FILE, "read"); mapping = (AliTPCmapper*) fileMapping->Get("tpcMapping"); delete fileMapping; } if (mapping == 0) { printf("Failed to get mapping object from %s. ...\n", MAPPING_FILE); return -1; } else { printf("Got mapping object from %s\n", MAPPING_FILE); } // // DA configuration from configuration file // //retrieve configuration file sprintf(localfile,"./%s",CONFIG_FILE); status = daqDA_DB_getFile(CONFIG_FILE,localfile); if (status) { printf("Failed to get configuration file (%s) from DAQdetDB, status=%d\n", CONFIG_FILE, status); return -1; } AliTPCConfigDA config(CONFIG_FILE); // check configuration if ( (Int_t)config.GetValue("UseFastDecoder") == 1 ){ printf("Info: The fast decoder will be used for the processing.\n"); fastDecoding=kTRUE; } //create calibration object AliTPCCalibCE calibCE(config.GetConfigurationMap()); // central electrode calibration calibCE.SetAltroMapping(mapping->GetAltroMapping()); // Use altro mapping we got from daqDetDb //===========================// // loop over RAW data files // //==========================// int nevents=0; for ( i=1; ieventType != physicsEvent) && (event->eventType != calibrationEvent) ) continue; nevents++; // get the run number runNb = event->eventRunNb; // CE calibration calibCE.ProcessEvent(event); /* free resources */ free(event); } } // // Analyse CE data and write them to rootfile // calibCE.Analyse(); printf ("%d events processed\n",nevents); TFile * fileTPC = new TFile (RESULT_FILE,"recreate"); calibCE.Write("tpcCalibCE"); delete fileTPC; printf("Wrote %s\n",RESULT_FILE); /* store the result file on FES */ status=daqDA_FES_storeFile(RESULT_FILE,FILE_ID); if (status) { status = -2; } // //Send objects to the AMORE DB // printf ("AMORE part\n"); const char *amoreDANameorig=gSystem->Getenv("AMORE_DA_NAME"); //cheet a little -- temporary solution (hopefully) // //currently amoreDA uses the environment variable AMORE_DA_NAME to create the mysql //table in which the calib objects are stored. This table is dropped each time AmoreDA //is initialised. This of course makes a problem if we would like to store different //calibration entries in the AMORE DB. Therefore in each DA which writes to the AMORE DB //the AMORE_DA_NAME env variable is overwritten. gSystem->Setenv("AMORE_DA_NAME",Form("TPC-%s",FILE_ID)); // // end cheet TDatime time; TObjString info(Form("Run: %u; Date: %s",runNb,time.AsSQLString())); amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender); Int_t statusDA=0; statusDA+=amoreDA.Send("CET0",calibCE.GetCalPadT0()); statusDA+=amoreDA.Send("CEQ",calibCE.GetCalPadQ()); statusDA+=amoreDA.Send("CERMS",calibCE.GetCalPadRMS()); statusDA+=amoreDA.Send("Info",&info); if ( statusDA!=0 ) printf("Waring: Failed to write one of the calib objects to the AMORE database\n"); if (amoreDANameorig) gSystem->Setenv("AMORE_DA_NAME",amoreDANameorig); return status; }