[u/mrichter/AliRoot.git] / TPC / TPCPEDESTALda.cxx

/*
TPC DA for online calibration

Contact: Haavard.Helstrup@cern.ch
Link:
Run Type: PEDESTAL
DA Type: LDC
Number of events needed: 100
Input Files: 
Output Files: tpcPedestal.root, to be exported to the DAQ FXS
fileId:   pedestals    
Trigger types used: CALIBRATION_EVENT

*/

/*

TPCda_pedestal.cxx - calibration algorithm for TPC pedestal runs

10/06/2007  sylvain.chapeland@cern.ch :  first version - clean skeleton based on DAQ DA case1
19/10/2007  christian.lippmann@cern.ch :  Possibility to write output to ASCII file
24/10/2007  christian.lippmann@cern.ch :  Including pedestal calibration for time bins
23/11/2007  christian.lippmann@cern.ch :  Fix in order to avoid streamer problems in case of
                                          invalid ROOTSTYS. The famous magic line provided by Rene.
28/11/2007  christian.lippmann@cern.ch :  TPC mapping file is read from DaqDetDB
18/09/2008  christian.lippmann@cern.ch :  Noisy channels are output to ASCII file. Use max noise in ALTRO.
19/09/2008  J.Wiechula@gsi.de:            Added export of the calibration data to the AMORE data base.
                                          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  "tpcPedestal.root"
#define FILE_ID "pedestals"
#define MAPPING_FILE "tpcMapping.root"
#define CONFIG_FILE "TPCPEDESTALda.conf"
#define AliDebugLevel() -1

extern "C" {
#include <daqDA.h>
}
#include "event.h"
#include "monitor.h"

#include "stdio.h"
#include "stdlib.h"
#include <fstream>

//
//Root includes
//
#include "TFile.h"
#include "TArrayF.h"
#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 <AmoreDA.h>

//
// TPC calibration algorithm includes
//
#include "AliTPCCalibPedestal.h"

/*
  Main routine, TPC pedestal detector algorithm to be run on TPC LDC
  Arguments: list of DATE raw data files
*/

int main(int argc, char **argv) {
  //
  // Main for TPC pedestal detector algorithm
  //
  /* log start of process */
  printf("TPC 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);

  /* magic line */
  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;
  }
  
  // variables
  AliTPCmapper *mapping = 0;   // The TPC mapping
  char localfile[255];
  unsigned long32 runNb=0;     // run number
  // configuration options 
  Bool_t timeAnalysis = kTRUE;
  Bool_t fastDecoding = kFALSE;

  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("NoTimeAnalysis") == 1 ) {
    printf("WARNING: Time analysis was switched off in the configuration file!\n");
    timeAnalysis=kFALSE;
  }
  if ( (Int_t)config.GetValue("UseFastDecoder") == 1 ){
    printf("Info: The fast decoder will be used for the processing.\n");
    fastDecoding=kTRUE;
  }
  
  // create calibration object
  AliTPCCalibPedestal calibPedestal(config.GetConfigurationMap()); // pedestal and noise calibration
  calibPedestal.SetAltroMapping(mapping->GetAltroMapping()); // Use altro mapping we got from daqDetDb
  
  //===========================//
  // loop over RAW data files //
  //==========================//
  int nevents=0;
  for ( i=1; i<argc; i++ ) {
    
    /* define data source : this is argument i */
    printf("Processing file %s\n", argv[i]);
    status=monitorSetDataSource( argv[i] );
    if (status!=0) {
      printf("monitorSetDataSource() failed. Error=%s. Exiting ...\n", monitorDecodeError(status));
      return -1;
    }
    
    /* read until EOF */
    for ( ; ; ) {
      struct eventHeaderStruct *event;
      
      /* check shutdown condition */
      if (daqDA_checkShutdown()) {break;}
      
      /* get next event (blocking call until timeout) */
      status=monitorGetEventDynamic((void **)&event);
      if (status==MON_ERR_EOF) {
        printf ("End of File %d (%s) detected\n", i, argv[i]);
        break; /* end of monitoring file has been reached */
      }
      
      if (status!=0) {
        printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));
        break;
      }

      /* skip start/end of run events */
      if ( (event->eventType != physicsEvent) && (event->eventType != calibrationEvent) )
        continue;

      /* retry if got no event */
      if (event==NULL)
        continue;
      
      nevents++;
      // get the run number
      runNb = event->eventRunNb;
      //  Pedestal calibration
      AliRawReader *rawReader = new AliRawReaderDate((void*)event);
      if ( fastDecoding ) calibPedestal.ProcessEventFast(rawReader);
      else calibPedestal.ProcessEvent(rawReader);
      delete rawReader;

      /* free resources */
      free(event);
    }
  }

  //
  // Analyse pedestals and write them to rootfile
  //
  calibPedestal.Analyse();
  calibPedestal.AnalyseTime(nevents);
  printf ("%d physics/calibration events processed.\n",nevents);

  TFile *fileTPC = new TFile(RESULT_FILE, "recreate");
  calibPedestal.Write("tpcCalibPedestal");
  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.  

  //find processed sector
  Char_t sideName='A';
  Int_t sector = 0;
  for ( Int_t roc = 0; roc < 72; roc++ ) {
    if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
    if (mapping->GetSideFromRoc(roc)==1) sideName='C';
    sector = mapping->GetSectorFromRoc(roc);
  }
  gSystem->Setenv("AMORE_DA_NAME",Form("TPC-%c%02d-%s",sideName,sector,FILE_ID));

  //
  // end cheet
  TDatime time;
  TObjString info(Form("Run: %u; Date: %s",runNb,time.AsString()));

  amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender);
  Int_t statusDA=0;  
  statusDA+=amoreDA.Send("Pedestals",calibPedestal.GetCalPadPedestal());
  statusDA+=amoreDA.Send("Noise",calibPedestal.GetCalPadRMS());
  statusDA+=amoreDA.Send("Info",&info);
  if ( statusDA )
    printf("Waring: Failed to write one of the calib objects to the AMORE database\n");
  // reset env var
  if (amoreDANameorig) gSystem->Setenv("AMORE_DA_NAME",amoreDANameorig);


  //
  // Now prepare ASCII files for local ALTRO configuration through DDL.
  //
  ofstream pedfile;
  ofstream noisefile;
  ofstream pedmemfile;
  ofstream noisychannelfile;

  char filename[255];
  sprintf(filename,"tpcPedestals.data");
  pedfile.open(filename);
  sprintf(filename,"tpcNoise.data");
  noisefile.open(filename);
  sprintf(filename,"tpcPedestalMem.data");
  pedmemfile.open(filename);
  sprintf(filename,"tpcNoisyChannels.data");
  noisychannelfile.open(filename);

  TArrayF **timePed = calibPedestal.GetTimePedestals();  // pedestal values for each time bin

  Int_t ctr_channel = 0;
  Int_t ctr_altro   = 0;
  Int_t ctr_pattern = 0;
  Int_t ctr_noisy   = 0;

  pedfile          << 10 << std::endl; // Mark file to contain PEDESTALS per channel
  noisefile        << 11 << std::endl; // Mark file to contain NOISE per altro
  pedmemfile       << 12 << std::endl; // Mark file to contain PEDESTALs per time bin
  noisychannelfile << 14 << std::endl; // Mark file to contain NOISY CHANNELS

  for ( Int_t roc = 0; roc < 72; roc++ ) {
    if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
    Int_t side   = mapping->GetSideFromRoc(roc);
    Int_t sector = mapping->GetSectorFromRoc(roc);
    //printf("Analysing ROC %d (side %d, sector %d) ...\n", roc, side, sector);
    Int_t nru = mapping->IsIROC(roc) ? 2 : 4;
    for ( int rcu = 0; rcu < nru; rcu++ ) {
      Int_t patch = mapping->IsIROC(roc) ? rcu : rcu+2;
      for ( int branch = 0; branch < 2; branch++ ) {
        for ( int fec = 0; fec < mapping->GetNfec(patch, branch); fec++ ) {
          for ( int altro = 0; altro < 8; altro++ ) {
            Float_t rms = 0.;
            Float_t maxrms = 0.;
            Float_t ctr_altrochannel = 0.;
            for ( int channel = 0; channel < 16; channel++ ) {
              Int_t hwadd     = mapping->CodeHWAddress(branch, fec, altro, channel);
              Int_t row       = mapping->GetPadRow(patch, hwadd);        // row in a ROC
              Int_t globalrow = mapping->GetGlobalPadRow(patch, hwadd);  // row in full sector
              Int_t pad       = mapping->GetPad(patch, hwadd);
              Float_t ped     = calibPedestal.GetCalRocPedestal(roc)->GetValue(row,pad);
              // fixed pedestal
              pedfile << ctr_channel++ << "\t" << side << "\t" << sector << "\t" << patch << "\t"
                  << hwadd << "\t" << ped << std::endl;
              // pedestal(t)
              if ( timePed && fabs(timePed[globalrow][pad].GetSum()) > 1e-10 ) {
                pedmemfile << ctr_pattern++ << "\t" << side << "\t" << sector << "\t" << patch
                    << "\t" << hwadd;
                for ( Int_t timebin = 0; timebin < 1024; timebin++ )
                  pedmemfile << "\t" << timePed[globalrow][pad].At(timebin);
                pedmemfile << std::endl;
              }
              // rms=noise
              Float_t rms2 = calibPedestal.GetCalRocRMS(roc)->GetValue(row,pad);
              if ( fabs(ped) < 1.e-10 ) {                        // dead channel
                noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
                    << patch << "\t" << hwadd << "\t" << rms2 << std::endl;
              } else if ( (ped > 1.e-10) && (rms2 > 1.e-10) ) {  // not dead
              // Find noisy channels
                if ( ((roc<36)             && (rms2 > 2.0))  ||  // IROC
                       ((roc>35) && (row<65) && (rms2 > 2.0))  ||  // OROC, small pads
                       ((roc>35) && (row>64) && (rms2 > 3.0)) ) {  // OROC, large pads (50% more signal)
                  noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
                      << patch << "\t" << hwadd << "\t" << rms2 << std::endl;
                       } else {
                       // Not noisy. Get average and maximum noise in this ALTRO
                         rms += rms2;
                         ctr_altrochannel += 1.;
                         if (rms2 > maxrms) maxrms = rms2;
                       } // end if noisy
              } // end if some signal
            } // end channel for loop
            Int_t hwadd = mapping->CodeHWAddress(branch, fec, altro, 0);   // ALTRO address
      // Noise data (rms) averaged over all channels in this ALTRO.
            if ( ctr_altrochannel > 1.e-10 ) {
        /*
        // average noise of this ALTRO (excluding high-noise channels)
              noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
              << hwadd << "\t" << rms/ctr_altrochannel << std::endl;
        */
        // maximum noise of this ALTRO (excluding high-noise channels)
              noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
                  << hwadd << "\t" << maxrms << std::endl;
              ctr_altro++;
            }
          } // end altro for loop
        } // end fec for loop
      } // end branch for loop
    } // end rcu for loop
  } // end roc loop
  
  pedfile.close();
  noisefile.close();
  pedmemfile.close();
  noisychannelfile.close();
  printf("Wrote ASCII files. Found %d noisy channels.\n", ctr_noisy);

  return status;

}
Commit	Line	Data
	1	/*
	2	TPC DA for online calibration
	3
	4	Contact: Haavard.Helstrup@cern.ch
	5	Link:
	6	Run Type: PEDESTAL
	7	DA Type: LDC
	8	Number of events needed: 100
	9	Input Files:
	10	Output Files: tpcPedestal.root, to be exported to the DAQ FXS
	11	fileId: pedestals
	12	Trigger types used: CALIBRATION_EVENT
	13
	14	*/
	15
	16	/*
	17
	18	TPCda_pedestal.cxx - calibration algorithm for TPC pedestal runs
	19
	20	10/06/2007 sylvain.chapeland@cern.ch : first version - clean skeleton based on DAQ DA case1
	21	19/10/2007 christian.lippmann@cern.ch : Possibility to write output to ASCII file
	22	24/10/2007 christian.lippmann@cern.ch : Including pedestal calibration for time bins
	23	23/11/2007 christian.lippmann@cern.ch : Fix in order to avoid streamer problems in case of
	24	invalid ROOTSTYS. The famous magic line provided by Rene.
	25	28/11/2007 christian.lippmann@cern.ch : TPC mapping file is read from DaqDetDB
	26	18/09/2008 christian.lippmann@cern.ch : Noisy channels are output to ASCII file. Use max noise in ALTRO.
	27	19/09/2008 J.Wiechula@gsi.de: Added export of the calibration data to the AMORE data base.
	28	Added support for configuration files.
	29
	30	contact: marian.ivanov@cern.ch
	31
	32	This process reads RAW data from the files provided as command line arguments
	33	and save results in a file (named from RESULT_FILE define - see below).
	34
	35	*/
	36
	37	#define RESULT_FILE "tpcPedestal.root"
	38	#define FILE_ID "pedestals"
	39	#define MAPPING_FILE "tpcMapping.root"
	40	#define CONFIG_FILE "TPCPEDESTALda.conf"
	41	#define AliDebugLevel() -1
	42
	43	extern "C" {
	44	#include <daqDA.h>
	45	}
	46	#include "event.h"
	47	#include "monitor.h"
	48
	49	#include "stdio.h"
	50	#include "stdlib.h"
	51	#include <fstream>
	52
	53	//
	54	//Root includes
	55	//
	56	#include "TFile.h"
	57	#include "TArrayF.h"
	58	#include "TROOT.h"
	59	#include "TPluginManager.h"
	60	#include "TSystem.h"
	61	#include "TString.h"
	62	#include "TObjString.h"
	63	#include "TDatime.h"
	64	//
	65	//AliRoot includes
	66	//
	67	#include "AliRawReader.h"
	68	#include "AliRawReaderDate.h"
	69	#include "AliTPCmapper.h"
	70	#include "AliTPCRawStream.h"
	71	#include "AliTPCROC.h"
	72	#include "AliTPCCalROC.h"
	73	#include "AliTPCCalPad.h"
	74	#include "AliMathBase.h"
	75	#include "TTreeStream.h"
	76	#include "AliLog.h"
	77	#include "AliTPCConfigDA.h"
	78
	79	//
	80	//AMORE
	81	//
	82	#include <AmoreDA.h>
	83
	84	//
	85	// TPC calibration algorithm includes
	86	//
	87	#include "AliTPCCalibPedestal.h"
	88
	89	/*
	90	Main routine, TPC pedestal detector algorithm to be run on TPC LDC
	91	Arguments: list of DATE raw data files
	92	*/
	93
	94	int main(int argc, char **argv) {
	95	//
	96	// Main for TPC pedestal detector algorithm
	97	//
	98	/* log start of process */
	99	printf("TPC DA started - %s\n",__FILE__);
	100
	101	if (argc<2) {
	102	printf("Wrong number of arguments\n");
	103	return -1;
	104	}
	105	AliLog::SetClassDebugLevel("AliTPCRawStream",-5);
	106	AliLog::SetClassDebugLevel("AliRawReaderDate",-5);
	107	AliLog::SetClassDebugLevel("AliTPCAltroMapping",-5);
	108	AliLog::SetModuleDebugLevel("RAW",-5);
	109
	110	/* magic line */
	111	gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",
	112	"*",
	113	"TStreamerInfo",
	114	"RIO",
	115	"TStreamerInfo()");
	116
	117	/* declare monitoring program */
	118	int i, status;
	119	status=monitorDeclareMp( __FILE__ );
	120	if (status!=0) {
	121	printf("monitorDeclareMp() failed : %s\n",monitorDecodeError(status));
	122	return -1;
	123	}
	124
	125	// variables
	126	AliTPCmapper *mapping = 0; // The TPC mapping
	127	char localfile[255];
	128	unsigned long32 runNb=0; // run number
	129	// configuration options
	130	Bool_t timeAnalysis = kTRUE;
	131	Bool_t fastDecoding = kFALSE;
	132
	133	if (!mapping){
	134	/* copy locally the mapping file from daq detector config db */
	135	sprintf(localfile,"./%s",MAPPING_FILE);
	136	status = daqDA_DB_getFile(MAPPING_FILE,localfile);
	137	if (status) {
	138	printf("Failed to get mapping file (%s) from DAQdetDB, status=%d\n", MAPPING_FILE, status);
	139	return -1;
	140	}
	141
	142	/* open the mapping file and retrieve mapping object */
	143	TFile *fileMapping = new TFile(MAPPING_FILE, "read");
	144	mapping = (AliTPCmapper*) fileMapping->Get("tpcMapping");
	145	delete fileMapping;
	146	}
	147
	148	if (mapping == 0) {
	149	printf("Failed to get mapping object from %s. ...\n", MAPPING_FILE);
	150	return -1;
	151	} else {
	152	printf("Got mapping object from %s\n", MAPPING_FILE);
	153	}
	154
	155	//
	156	// DA configuration from configuration file
	157	//
	158	// retrieve configuration file
	159	sprintf(localfile,"./%s",CONFIG_FILE);
	160	status = daqDA_DB_getFile(CONFIG_FILE,localfile);
	161	if (status) {
	162	printf("Failed to get configuration file (%s) from DAQdetDB, status=%d\n", CONFIG_FILE, status);
	163	return -1;
	164	}
	165	AliTPCConfigDA config(CONFIG_FILE);
	166	// check configuration
	167	if ( (Int_t)config.GetValue("NoTimeAnalysis") == 1 ) {
	168	printf("WARNING: Time analysis was switched off in the configuration file!\n");
	169	timeAnalysis=kFALSE;
	170	}
	171	if ( (Int_t)config.GetValue("UseFastDecoder") == 1 ){
	172	printf("Info: The fast decoder will be used for the processing.\n");
	173	fastDecoding=kTRUE;
	174	}
	175
	176	// create calibration object
	177	AliTPCCalibPedestal calibPedestal(config.GetConfigurationMap()); // pedestal and noise calibration
	178	calibPedestal.SetAltroMapping(mapping->GetAltroMapping()); // Use altro mapping we got from daqDetDb
	179
	180	//===========================//
	181	// loop over RAW data files //
	182	//==========================//
	183	int nevents=0;
	184	for ( i=1; i<argc; i++ ) {
	185
	186	/* define data source : this is argument i */
	187	printf("Processing file %s\n", argv[i]);
	188	status=monitorSetDataSource( argv[i] );
	189	if (status!=0) {
	190	printf("monitorSetDataSource() failed. Error=%s. Exiting ...\n", monitorDecodeError(status));
	191	return -1;
	192	}
	193
	194	/* read until EOF */
	195	for ( ; ; ) {
	196	struct eventHeaderStruct *event;
	197
	198	/* check shutdown condition */
	199	if (daqDA_checkShutdown()) {break;}
	200
	201	/* get next event (blocking call until timeout) */
	202	status=monitorGetEventDynamic((void **)&event);
	203	if (status==MON_ERR_EOF) {
	204	printf ("End of File %d (%s) detected\n", i, argv[i]);
	205	break; /* end of monitoring file has been reached */
	206	}
	207
	208	if (status!=0) {
	209	printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));
	210	break;
	211	}
	212
	213	/* skip start/end of run events */
	214	if ( (event->eventType != physicsEvent) && (event->eventType != calibrationEvent) )
	215	continue;
	216
	217	/* retry if got no event */
	218	if (event==NULL)
	219	continue;
	220
	221	nevents++;
	222	// get the run number
	223	runNb = event->eventRunNb;
	224	// Pedestal calibration
	225	AliRawReader rawReader = new AliRawReaderDate((void)event);
	226	if ( fastDecoding ) calibPedestal.ProcessEventFast(rawReader);
	227	else calibPedestal.ProcessEvent(rawReader);
	228	delete rawReader;
	229
	230	/* free resources */
	231	free(event);
	232	}
	233	}
	234
	235	//
	236	// Analyse pedestals and write them to rootfile
	237	//
	238	calibPedestal.Analyse();
	239	calibPedestal.AnalyseTime(nevents);
	240	printf ("%d physics/calibration events processed.\n",nevents);
	241
	242	TFile *fileTPC = new TFile(RESULT_FILE, "recreate");
	243	calibPedestal.Write("tpcCalibPedestal");
	244	delete fileTPC;
	245	printf("Wrote %s.\n",RESULT_FILE);
	246
	247	/* store the result file on FES */
	248	status=daqDA_FES_storeFile(RESULT_FILE,FILE_ID);
	249	if (status) {
	250	status = -2;
	251	}
	252	//
	253	//Send objects to the AMORE DB
	254	//
	255	printf ("AMORE part\n");
	256	const char *amoreDANameorig=gSystem->Getenv("AMORE_DA_NAME");
	257	//cheet a little -- temporary solution (hopefully)
	258	//
	259	//currently amoreDA uses the environment variable AMORE_DA_NAME to create the mysql
	260	//table in which the calib objects are stored. This table is dropped each time AmoreDA
	261	//is initialised. This of course makes a problem if we would like to store different
	262	//calibration entries in the AMORE DB. Therefore in each DA which writes to the AMORE DB
	263	//the AMORE_DA_NAME env variable is overwritten.
	264
	265	//find processed sector
	266	Char_t sideName='A';
	267	Int_t sector = 0;
	268	for ( Int_t roc = 0; roc < 72; roc++ ) {
	269	if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
	270	if (mapping->GetSideFromRoc(roc)==1) sideName='C';
	271	sector = mapping->GetSectorFromRoc(roc);
	272	}
	273	gSystem->Setenv("AMORE_DA_NAME",Form("TPC-%c%02d-%s",sideName,sector,FILE_ID));
	274
	275	//
	276	// end cheet
	277	TDatime time;
	278	TObjString info(Form("Run: %u; Date: %s",runNb,time.AsString()));
	279
	280	amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender);
	281	Int_t statusDA=0;
	282	statusDA+=amoreDA.Send("Pedestals",calibPedestal.GetCalPadPedestal());
	283	statusDA+=amoreDA.Send("Noise",calibPedestal.GetCalPadRMS());
	284	statusDA+=amoreDA.Send("Info",&info);
	285	if ( statusDA )
	286	printf("Waring: Failed to write one of the calib objects to the AMORE database\n");
	287	// reset env var
	288	if (amoreDANameorig) gSystem->Setenv("AMORE_DA_NAME",amoreDANameorig);
	289
	290
	291	//
	292	// Now prepare ASCII files for local ALTRO configuration through DDL.
	293	//
	294	ofstream pedfile;
	295	ofstream noisefile;
	296	ofstream pedmemfile;
	297	ofstream noisychannelfile;
	298
	299	char filename[255];
	300	sprintf(filename,"tpcPedestals.data");
	301	pedfile.open(filename);
	302	sprintf(filename,"tpcNoise.data");
	303	noisefile.open(filename);
	304	sprintf(filename,"tpcPedestalMem.data");
	305	pedmemfile.open(filename);
	306	sprintf(filename,"tpcNoisyChannels.data");
	307	noisychannelfile.open(filename);
	308
	309	TArrayF **timePed = calibPedestal.GetTimePedestals(); // pedestal values for each time bin
	310
	311	Int_t ctr_channel = 0;
	312	Int_t ctr_altro = 0;
	313	Int_t ctr_pattern = 0;
	314	Int_t ctr_noisy = 0;
	315
	316	pedfile << 10 << std::endl; // Mark file to contain PEDESTALS per channel
	317	noisefile << 11 << std::endl; // Mark file to contain NOISE per altro
	318	pedmemfile << 12 << std::endl; // Mark file to contain PEDESTALs per time bin
	319	noisychannelfile << 14 << std::endl; // Mark file to contain NOISY CHANNELS
	320
	321	for ( Int_t roc = 0; roc < 72; roc++ ) {
	322	if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
	323	Int_t side = mapping->GetSideFromRoc(roc);
	324	Int_t sector = mapping->GetSectorFromRoc(roc);
	325	//printf("Analysing ROC %d (side %d, sector %d) ...\n", roc, side, sector);
	326	Int_t nru = mapping->IsIROC(roc) ? 2 : 4;
	327	for ( int rcu = 0; rcu < nru; rcu++ ) {
	328	Int_t patch = mapping->IsIROC(roc) ? rcu : rcu+2;
	329	for ( int branch = 0; branch < 2; branch++ ) {
	330	for ( int fec = 0; fec < mapping->GetNfec(patch, branch); fec++ ) {
	331	for ( int altro = 0; altro < 8; altro++ ) {
	332	Float_t rms = 0.;
	333	Float_t maxrms = 0.;
	334	Float_t ctr_altrochannel = 0.;
	335	for ( int channel = 0; channel < 16; channel++ ) {
	336	Int_t hwadd = mapping->CodeHWAddress(branch, fec, altro, channel);
	337	Int_t row = mapping->GetPadRow(patch, hwadd); // row in a ROC
	338	Int_t globalrow = mapping->GetGlobalPadRow(patch, hwadd); // row in full sector
	339	Int_t pad = mapping->GetPad(patch, hwadd);
	340	Float_t ped = calibPedestal.GetCalRocPedestal(roc)->GetValue(row,pad);
	341	// fixed pedestal
	342	pedfile << ctr_channel++ << "\t" << side << "\t" << sector << "\t" << patch << "\t"
	343	<< hwadd << "\t" << ped << std::endl;
	344	// pedestal(t)
	345	if ( timePed && fabs(timePed[globalrow][pad].GetSum()) > 1e-10 ) {
	346	pedmemfile << ctr_pattern++ << "\t" << side << "\t" << sector << "\t" << patch
	347	<< "\t" << hwadd;
	348	for ( Int_t timebin = 0; timebin < 1024; timebin++ )
	349	pedmemfile << "\t" << timePed[globalrow][pad].At(timebin);
	350	pedmemfile << std::endl;
	351	}
	352	// rms=noise
	353	Float_t rms2 = calibPedestal.GetCalRocRMS(roc)->GetValue(row,pad);
	354	if ( fabs(ped) < 1.e-10 ) { // dead channel
	355	noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
	356	<< patch << "\t" << hwadd << "\t" << rms2 << std::endl;
	357	} else if ( (ped > 1.e-10) && (rms2 > 1.e-10) ) { // not dead
	358	// Find noisy channels
	359	if ( ((roc<36) && (rms2 > 2.0)) \|\| // IROC
	360	((roc>35) && (row<65) && (rms2 > 2.0)) \|\| // OROC, small pads
	361	((roc>35) && (row>64) && (rms2 > 3.0)) ) { // OROC, large pads (50% more signal)
	362	noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
	363	<< patch << "\t" << hwadd << "\t" << rms2 << std::endl;
	364	} else {
	365	// Not noisy. Get average and maximum noise in this ALTRO
	366	rms += rms2;
	367	ctr_altrochannel += 1.;
	368	if (rms2 > maxrms) maxrms = rms2;
	369	} // end if noisy
	370	} // end if some signal
	371	} // end channel for loop
	372	Int_t hwadd = mapping->CodeHWAddress(branch, fec, altro, 0); // ALTRO address
	373	// Noise data (rms) averaged over all channels in this ALTRO.
	374	if ( ctr_altrochannel > 1.e-10 ) {
	375	/*
	376	// average noise of this ALTRO (excluding high-noise channels)
	377	noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
	378	<< hwadd << "\t" << rms/ctr_altrochannel << std::endl;
	379	*/
	380	// maximum noise of this ALTRO (excluding high-noise channels)
	381	noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
	382	<< hwadd << "\t" << maxrms << std::endl;
	383	ctr_altro++;
	384	}
	385	} // end altro for loop
	386	} // end fec for loop
	387	} // end branch for loop
	388	} // end rcu for loop
	389	} // end roc loop
	390
	391	pedfile.close();
	392	noisefile.close();
	393	pedmemfile.close();
	394	noisychannelfile.close();
	395	printf("Wrote ASCII files. Found %d noisy channels.\n", ctr_noisy);
	396
	397	return status;
	398
	399	}