/[PAMELA software]/yoda/techmodel/CalibCalPulse1Reader.cpp
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Diff of /yoda/techmodel/CalibCalPulse1Reader.cpp

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revision 1.2 by kusanagi, Fri Aug 20 15:01:41 2004 UTC revision 6.0 by kusanagi, Tue Feb 7 17:11:09 2006 UTC
# Line 5  Line 5 
5  #define UINT unsigned int  #define UINT unsigned int
6  #define BYTE  unsigned char  #define BYTE  unsigned char
7  #include <string>  #include <string>
8  #include <log4cpp/Category.hh>  #include <log4cxx/logger.h>
9  extern "C" {  extern "C" {
10  #include "CRC.h"    #include "CRC.h"  
11      //Struct per il passaggio di dati da e verso la chiamata fortran      //Struct per il passaggio di dati da e verso la chiamata fortran
12  extern struct {  extern struct {
13          int IEV2;          int   iev;
14          int calped[4][11][96];          int   pstwerr[4];
15          int calgood[4][11][96];          float pperror[4];
16          int calthr[4][11][6];          float calpuls[4][11][96];
17          int calrms[4][11][96];      } calpul_;
         int calbase[4][11][6];  
         int calvar[4][11][6];  
         int calpuls[4][11][96];  
     } calib_;  
18            
19      //external declaration of the Fortran function      //external declaration of the Fortran function
20      void calpulse_(short[], long int*, int*);      void calpulse_(char*, long int*, int*);
21  }  }
22    
23  #include <fstream>  #include <fstream>
# Line 33  extern struct { Line 29  extern struct {
29  using namespace pamela;  using namespace pamela;
30  using namespace pamela::techmodel;  using namespace pamela::techmodel;
31    
32  static log4cpp::Category& cat = log4cpp::Category::getInstance("pamela.techmodel.CalibCalPulse1Reader");    static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.CalibCalPulse1Reader"));
33    
34  /**  /**
35   * Constructor.   * Constructor.
36   */   */
37  CalibCalPulse1Reader::CalibCalPulse1Reader(void):  CalibCalPulse1Reader::CalibCalPulse1Reader(void):
38    TechmodelAlgorithm(PacketType::CalibCalPulse1, "TechmodelCalibCalPulse1Reader") {    TechmodelAlgorithm(PacketType::CalibCalPulse1, "TechmodelCalibCalPulse1Reader") {
39    cat <<  log4cpp::Priority::DEBUG    logger->debug(_T("Constructor"));
       <<  "Constructor "  
       <<  "\n " << log4cpp::CategoryStream::ENDLINE;  
40    calibCalPulse1 = new CalibCalPulse1Event();    calibCalPulse1 = new CalibCalPulse1Event();
41  }  }
42    
# Line 51  CalibCalPulse1Reader::CalibCalPulse1Read Line 45  CalibCalPulse1Reader::CalibCalPulse1Read
45   */   */
46  std::string CalibCalPulse1Reader::GetVersionInfo(void) const {  std::string CalibCalPulse1Reader::GetVersionInfo(void) const {
47    return    return
48      "$Header: /home/cvsmanager/yoda/techmodel/CalibCalPulse1Reader.cpp,v 1.1 2004/08/19 15:24:46 kusanagi Exp $\n";      "$Header: /home/cvsmanager/yoda/techmodel/CalibCalPulse1Reader.cpp,v 5.1 2006/02/04 12:37:44 kusanagi Exp $\n";
49  }  }
50    
51  /**  /**
# Line 59  std::string CalibCalPulse1Reader::GetVer Line 53  std::string CalibCalPulse1Reader::GetVer
53   * event reader routines for all packet types.   * event reader routines for all packet types.
54   */   */
55  void CalibCalPulse1Reader::Init(PamelaRun *run) {  void CalibCalPulse1Reader::Init(PamelaRun *run) {
56      logger->debug(_T("Initialize"));
57    SetInputStream(run);    SetInputStream(run);
58    run->WriteSubPacket(this, &calibCalPulse1, calibCalPulse1->Class());    run->WriteSubPacket(this, &calibCalPulse1, calibCalPulse1->Class());
59  }  }
# Line 66  void CalibCalPulse1Reader::Init(PamelaRu Line 61  void CalibCalPulse1Reader::Init(PamelaRu
61  /**  /**
62   * Unpack the CalibCalPulse1 event from an input file.   * Unpack the CalibCalPulse1 event from an input file.
63   */   */
64  void CalibCalPulse1Reader::RunEvent(int EventNumber, long int length) {  void CalibCalPulse1Reader::RunEvent(int EventNumber, long int dataLength) throw (Exception){
65            std::stringstream oss;      
66      char        packetData[length-2];      char        packetData[dataLength];
     char        CRCevent[2];  
     UINT16      calculatedCRC    = 0;   //calculated CRC  
     UINT16      readCRC          = 0;   //read CRC  
     long int    dataLength;  
67      int         ERROR;      int         ERROR;
   
     dataLength = length - 2;  
68      InputFile->read(packetData, sizeof(packetData));      InputFile->read(packetData, sizeof(packetData));
     InputFile->read(CRCevent, sizeof(CRCevent));  
69    
70      calculatedCRC = CM_Compute_CRC16(0, (BYTE*)packetData, dataLength);      calpulse_(packetData, &dataLength, &ERROR);
     readCRC = ((UINT16)(CRCevent[0]<<8)&0xFF00) + ((UINT16)(CRCevent[1])&0x00FF);  
71            
72      if (calculatedCRC == readCRC) {      calibCalPulse1->unpackError = ERROR;
73          calpulse_((short*)packetData, &dataLength, &ERROR);      oss.str("");    
74          if (ERROR != 0) {      if (ERROR != 0) {
75                      char *errmsg;          char *errmsg;
76                      switch (ERROR){          switch (ERROR){
77                          case 1: errmsg = "CALORIMETER NOT FOUND";              case 1: errmsg = "CALORIMETER NOT FOUND";
78                      }          }
79                      cat <<  log4cpp::Priority::ERROR          oss << "Fortran77 function calpulse error code = " << ERROR
80                          <<  "Fortran77 function calpulse error code = " << ERROR              <<  " " << errmsg;
81                          <<  errmsg          logger->warn(oss.str().c_str());
82                          <<  "\n " << log4cpp::CategoryStream::ENDLINE;      } //else {
83          } else {        //Store the unpacked data
84            //Store the unpacked data          calibCalPulse1->iev = calpul_.iev;
85              calibCalPulse1->IEV2 = calib_.IEV2;          memcpy(calibCalPulse1->pstwerr, calpul_.pstwerr, sizeof(calibCalPulse1->pstwerr));
86          //--------have to invert array because of FORTRAN <-> C different management of the indexes          memcpy(calibCalPulse1->pperror, calpul_.pperror, sizeof(calibCalPulse1->pperror));
87              int tempCalped[96][11][4];      //--------have to invert array because of FORTRAN <-> C different management of the indexes
88              int tempCalgood[96][11][4];          float tempCalpuls[96][11][4];
89              int tempCalthr[6][11][4];          memcpy(tempCalpuls, calpul_.calpuls, sizeof(tempCalpuls));
90              int tempCalrms[96][11][4];          for (int i = 0; i < 4; i++){
91              int tempCalbase[6][11][4];              for (int j = 0; j <11; j++){
92              int tempCalvar[6][11][4];                  for (int z = 0; z < 96; z++){
93              int tempCalpuls[96][11][4];                      calibCalPulse1->calpuls[i][j][z]  = tempCalpuls[z][j][i];
   
             memcpy(tempCalped,  calib_.calped,  sizeof(tempCalped));  
             memcpy(tempCalgood, calib_.calgood, sizeof(tempCalgood));  
             memcpy(tempCalthr,  calib_.calthr,  sizeof(tempCalthr));  
             memcpy(tempCalrms,  calib_.calrms,  sizeof(tempCalrms));  
             memcpy(tempCalbase, calib_.calbase, sizeof(tempCalbase));  
             memcpy(tempCalvar,  calib_.calvar,  sizeof(tempCalvar));  
             memcpy(tempCalpuls, calib_.calpuls, sizeof(tempCalpuls));  
   
             for (int i = 0; i < 4; i++){  
                 for (int j = 0; j <11; j++){  
                     for (int z = 0; z < 96; z++){  
                         calibCalPulse1->calped[i][j][z]    = tempCalped[z][j][i];  
                         calibCalPulse1->calgood[i][j][z]   = tempCalgood[z][j][i];  
                         calibCalPulse1->calrms[i][j][z]    = tempCalrms[z][j][i];  
                         calibCalPulse1->calpuls[i][j][z]  = tempCalpuls[z][j][i];  
                     }  
                 }  
             }  
   
             for (int i = 0; i < 4; i++){  
                 for (int j = 0; j <11; j++){  
                     for (int z = 0; z < 6; z++){  
                         calibCalPulse1->calthr[i][j][z]    = tempCalthr[z][j][i];  
                         calibCalPulse1->calbase[i][j][z]   = tempCalbase[z][j][i];  
                         calibCalPulse1->calvar[i][j][z]    = tempCalvar[z][j][i];  
                     }  
94                  }                  }
95              }              }
         //-----------------------------------------------------------------------------------------  
96          }          }
97      } else {     //-----------------------------------------------------------------------------------------
98              cat <<  log4cpp::Priority::ERROR      //}
             <<  "The test of calculated CRC with one wrote on file FAILED!!"  
             <<  "\n " << log4cpp::CategoryStream::ENDLINE;      
     }  
     free(packetData);  
99  }  }
100    

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