/[PAMELA software]/yoda/techmodel/CalibTrk1Reader.cpp
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Diff of /yoda/techmodel/CalibTrk1Reader.cpp

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revision 1.4 by kusanagi, Thu Aug 19 15:24:46 2004 UTC revision 4.2 by kusanagi, Wed Mar 16 22:49:51 2005 UTC
# Line 1  Line 1 
1  /** @file  /** @file
2   * $Source: /home/cvsmanager/yoda/techmodel/CalibTrk1Reader.cpp,v $   * $Source: /home/cvsmanager/yoda/techmodel/CalibTrk1Reader.cpp,v $
3   * $Id: CalibTrk1Reader.cpp,v 1.3 2004/07/17 20:03:38 kusanagi Exp $   * $Id: CalibTrk1Reader.cpp,v 4.1 2005/03/09 19:39:47 kusanagi Exp $
4   * $Author: kusanagi $   * $Author: kusanagi $
5   *   *
6   * Implementation of the LogReader class.   * Implementation of the LogReader class.
# Line 11  Line 11 
11  #define UINT unsigned int  #define UINT unsigned int
12  #define BYTE  unsigned char  #define BYTE  unsigned char
13  #include <string>  #include <string>
14  #include <log4cpp/Category.hh>  #include <log4cxx/logger.h>
15  extern "C" {  extern "C" {
16      #include "CRC.h"      #include "CRC.h"
17      //The int* return the error code      //The int* return the error code
# Line 34  extern "C" { Line 34  extern "C" {
34        int   nbad_l2[6];        int   nbad_l2[6];
35        int   nbad_l3[6];        int   nbad_l3[6];
36        int   cal_flag[6];        int   cal_flag[6];
37        int   DSPped_par[6][3072];        float DSPped_par[6][3072];
38        float DSPsig_par[6][3072];        float DSPsig_par[6][3072];
39        float DSPbad_par[6][3072];        int   DSPbad_par[6][3072];
40      } trkcalib_;      } trkcalib_;
   
41  #include <dirent.h>  #include <dirent.h>
42  }  }
43    
# Line 52  extern "C" { Line 51  extern "C" {
51  using namespace pamela;  using namespace pamela;
52  using namespace pamela::techmodel;  using namespace pamela::techmodel;
53    
54  static log4cpp::Category& cat = log4cpp::Category::getInstance("pamela.techmodel.CalibTrk1Reader");    static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.CalibTrk1Reader"));
55    
56  /**  /**
57   * Constructor.   * Constructor.
58   */   */
59  CalibTrk1Reader::CalibTrk1Reader(void):  CalibTrk1Reader::CalibTrk1Reader(void):
60    TechmodelAlgorithm(PacketType::CalibTrk1, "TechmodelCalibTrk1Reader") {    TechmodelAlgorithm(PacketType::CalibTrk1, "TechmodelCalibTrk1Reader") {
61    cat <<  log4cpp::Priority::DEBUG    logger->debug(_T("Constructor"));
       <<  "Constructor "  
       <<  "\n " << log4cpp::CategoryStream::ENDLINE;  
62    calibTrk1 = new CalibTrk1Event();    calibTrk1 = new CalibTrk1Event();
63  }  }
64    
# Line 70  CalibTrk1Reader::CalibTrk1Reader(void): Line 67  CalibTrk1Reader::CalibTrk1Reader(void):
67   */   */
68  std::string CalibTrk1Reader::GetVersionInfo(void) const {  std::string CalibTrk1Reader::GetVersionInfo(void) const {
69    return    return
70      "$Header: /home/cvsmanager/yoda/techmodel/CalibTrk1Reader.cpp,v 1.3 2004/07/17 20:03:38 kusanagi Exp $\n";      "$Header: /home/cvsmanager/yoda/techmodel/CalibTrk1Reader.cpp,v 4.1 2005/03/09 19:39:47 kusanagi Exp $\n";
71  }  }
72    
73  /**  /**
# Line 78  std::string CalibTrk1Reader::GetVersionI Line 75  std::string CalibTrk1Reader::GetVersionI
75   * event reader routines for all packet types.   * event reader routines for all packet types.
76   */   */
77  void CalibTrk1Reader::Init(PamelaRun *run) {  void CalibTrk1Reader::Init(PamelaRun *run) {
78      logger->debug(_T("Initialize"));
79    SetInputStream(run);    SetInputStream(run);
80    run->WriteSubPacket(this, &calibTrk1, calibTrk1->Class());    run->WriteSubPacket(this, &calibTrk1, calibTrk1->Class());
81  }  }
# Line 86  void CalibTrk1Reader::Init(PamelaRun *ru Line 84  void CalibTrk1Reader::Init(PamelaRun *ru
84   * Unpack the CalibTrk event from an input file.   * Unpack the CalibTrk event from an input file.
85   */   */
86  //void CalibTrkReader::RunEvent(int EventNumber, long int length, char *subData) {  //void CalibTrkReader::RunEvent(int EventNumber, long int length, char *subData) {
87  void CalibTrk1Reader::RunEvent(int EventNumber, long int length) {  void CalibTrk1Reader::RunEvent(int EventNumber, long int dataLength) throw (Exception){
88        std::stringstream oss;    
89      char     *subData;      char     subData[dataLength];
90      char      eventCRC[2];      int       ERROR;
     UINT16    subCRC;      //CRC of the data  
     UINT16    readCRC;     //CRC read from the end of the subpacket  
     long int  dataLength;  
   
     //the 2 bytes subtracted belong to the final event CRC bytes  
     dataLength = length - (long int)2;  
   
     subData = new char[dataLength];  
91      InputFile->read(subData, sizeof(unsigned char)*dataLength);      InputFile->read(subData, sizeof(unsigned char)*dataLength);
92      subCRC = CM_Compute_CRC16(0, (BYTE*)subData, dataLength);    
93        //Scrivo un file temporaneo per passarlo alla routine
94        //Speriamo di cambiare la routine per passargli un buffer.....
95        oss.str("");
96        oss << getenv("YODA_DATA") << "/" << time(NULL) << "trc1.dat";
97        FILE *pfile;
98        pfile = fopen(oss.str().c_str(), "wb");
99        fwrite(subData, 1, dataLength, pfile);
100        fclose(pfile);
101    
102        //Call to the FORTRAN routin that unpack tracker events
103        trkcalibpkt_(&ERROR, (char*)oss.str().c_str());
104    
105        calibTrk1->unpackError = ERROR;
106        remove(oss.str().c_str());
107        if (ERROR != 0) {
108            oss.str("");
109            oss <<  "Fortran77 function trkcalibpkt error code = " << ERROR;
110            logger->warn(oss.str().c_str());
111        }
112    
113      //took the final CRC to compare it with the previous calculated CRC of the data      remove((char*)oss.str().c_str());
     InputFile->read(eventCRC, sizeof(eventCRC));  
     readCRC = (((UINT16)(eventCRC[0]<<8))&0xFF00) + (((UINT16)eventCRC[1])&0x00FF);  
       
     if (subCRC == readCRC){  
         int       ERROR;  
         //Scrivo un file temporaneo per passarlo alla routine  
         //Speriamo di cambiare la routine per passargli un buffer.....  
         DIR *dirp;  
         std::string pathDir((char*)getenv("YODA_DATA"));  
         pathDir = pathDir + "/todatemp.dat";;  
         FILE *pfile;  
         pfile = fopen((char*)pathDir.c_str(), "wb");  
         fwrite(subData, 1, dataLength, pfile);  
         fclose(pfile);  
   
         //Call to the FORTRAN routin that unpack tracker events  
         trkcalibpkt_(&ERROR, (char*)pathDir.c_str());  
       
         remove((char*)pathDir.c_str());  
       
         //Store the unpacked data  
         memcpy(calibTrk1->DAQmode,     trkcalib_.DAQmode,     sizeof(calibTrk1->DAQmode));  
         memcpy(calibTrk1->DSPnumber,   trkcalib_.DSPnumber,   sizeof(calibTrk1->DSPnumber));  
         memcpy(calibTrk1->calibnumber, trkcalib_.calibnumber, sizeof(calibTrk1->calibnumber));  
         memcpy(calibTrk1->DSPnumber, trkcalib_.ncalib_event,  sizeof(calibTrk1->ncalib_event));  
         memcpy(calibTrk1->ped_l1,    trkcalib_.ped_l1,     sizeof(calibTrk1->ped_l1));  
         memcpy(calibTrk1->ped_l2,    trkcalib_.ped_l2,     sizeof(calibTrk1->ped_l2));  
         memcpy(calibTrk1->ped_l3,    trkcalib_.ped_l3,     sizeof(calibTrk1->ped_l3));  
         memcpy(calibTrk1->sig_l1,    trkcalib_.sig_l1,     sizeof(calibTrk1->sig_l1));  
         memcpy(calibTrk1->sig_l2,    trkcalib_.sig_l2,     sizeof(calibTrk1->sig_l2));  
         memcpy(calibTrk1->sig_l3,    trkcalib_.sig_l3,     sizeof(calibTrk1->sig_l3));  
         memcpy(calibTrk1->nbad_l1,   trkcalib_.nbad_l1,    sizeof(calibTrk1->nbad_l1));  
         memcpy(calibTrk1->nbad_l2,   trkcalib_.nbad_l2,    sizeof(calibTrk1->nbad_l2));  
         memcpy(calibTrk1->nbad_l3,   trkcalib_.nbad_l3,    sizeof(calibTrk1->nbad_l3));  
         memcpy(calibTrk1->cal_flag,  trkcalib_.cal_flag,   sizeof(calibTrk1->cal_flag));        
114    
115        //Store the unpacked data
116        memcpy(calibTrk1->DAQmode,      trkcalib_.DAQmode,      sizeof(calibTrk1->DAQmode));
117        memcpy(calibTrk1->DSPnumber,    trkcalib_.DSPnumber,    sizeof(calibTrk1->DSPnumber));
118        memcpy(calibTrk1->calibnumber,  trkcalib_.calibnumber,  sizeof(calibTrk1->calibnumber));
119        memcpy(calibTrk1->DSPnumber,    trkcalib_.ncalib_event, sizeof(calibTrk1->ncalib_event));
120        memcpy(calibTrk1->ped_l1,       trkcalib_.ped_l1,       sizeof(calibTrk1->ped_l1));
121        memcpy(calibTrk1->ped_l2,       trkcalib_.ped_l2,       sizeof(calibTrk1->ped_l2));
122        memcpy(calibTrk1->ped_l3,       trkcalib_.ped_l3,       sizeof(calibTrk1->ped_l3));
123        memcpy(calibTrk1->sig_l1,       trkcalib_.sig_l1,       sizeof(calibTrk1->sig_l1));
124        memcpy(calibTrk1->sig_l2,       trkcalib_.sig_l2,       sizeof(calibTrk1->sig_l2));
125        memcpy(calibTrk1->sig_l3,       trkcalib_.sig_l3,       sizeof(calibTrk1->sig_l3));
126        memcpy(calibTrk1->nbad_l1,      trkcalib_.nbad_l1,      sizeof(calibTrk1->nbad_l1));
127        memcpy(calibTrk1->nbad_l2,      trkcalib_.nbad_l2,      sizeof(calibTrk1->nbad_l2));
128        memcpy(calibTrk1->nbad_l3,      trkcalib_.nbad_l3,      sizeof(calibTrk1->nbad_l3));
129        memcpy(calibTrk1->cal_flag,     trkcalib_.cal_flag,     sizeof(calibTrk1->cal_flag));      
130    //        memcpy(calibTrk1->DSPbad_par,   trkcalib_.DSPbad_par,   sizeof(calibTrk1->DSPbad_par));      
131    //        memcpy(calibTrk1->DSPped_par,   trkcalib_.DSPped_par,   sizeof(calibTrk1->DSPped_par));      
132    //        memcpy(calibTrk1->DSPsig_par,   trkcalib_.DSPsig_par,   sizeof(calibTrk1->DSPsig_par));      
133  //--------have to invert array because of FORTRAN <-> C different management of the indexes  //--------have to invert array because of FORTRAN <-> C different management of the indexes
134          int tempBad_par[3072][6];      int     tempBad_par[3072][6];
135          int tempPed_par[3072][6];      float   tempPed_par[3072][6];
136          int tempSig_par[3072][6];      float   tempSig_par[3072][6];
137          memcpy(calibTrk1->DSPbad_par,trkcalib_.DSPbad_par, sizeof(calibTrk1->DSPbad_par));            memcpy(tempBad_par->DSPbad_par,trkcalib_.DSPbad_par, sizeof(calibTrk1->DSPbad_par));      
138          memcpy(calibTrk1->DSPped_par,trkcalib_.DSPped_par, sizeof(calibTrk1->DSPped_par));            memcpy(tempPed_par->DSPped_par,trkcalib_.DSPped_par, sizeof(calibTrk1->DSPped_par));      
139          memcpy(calibTrk1->DSPsig_par,trkcalib_.DSPsig_par, sizeof(calibTrk1->DSPsig_par));            memcpy(tempSig_par->DSPsig_par,trkcalib_.DSPsig_par, sizeof(calibTrk1->DSPsig_par));      
140    
141          for (int i = 0; i < 6; i++){      for (int i = 0; i < 6; i++){
142              for (int j = 0; j < 3072; j++){          for (int j = 0; j < 3072; j++){
143                  calibTrk1->DSPbad_par[i][j] = tempBad_par[j][i];              calibTrk1->DSPbad_par[i][j] = tempBad_par[j][i];
144                  calibTrk1->DSPped_par[i][j] = tempPed_par[j][i];              calibTrk1->DSPped_par[i][j] = tempPed_par[j][i];
145                  calibTrk1->DSPsig_par[i][j] = tempSig_par[j][i];              calibTrk1->DSPsig_par[i][j] = tempSig_par[j][i];
             }  
146          }          }
 //-----------------------------------------------------------------------------------------  
           
   
         cat <<  log4cpp::Priority::ERROR  
         <<  "Fortran77 function trkcalibpkt error code = " << ERROR  
         <<  "\n " << log4cpp::CategoryStream::ENDLINE;  
         free(subData);      
     } else {  
         cat <<  log4cpp::Priority::ERROR  
             <<  "Wrong CRC for CalibTrk1 Packet "  
             <<  "\n " << log4cpp::CategoryStream::ENDLINE;  
147      }      }
148    //-----------------------------------------------------------------------------------------
149        //delete [] subData;
150  }  }
151    
152    

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