/[PAMELA software]/yoda/techmodel/physics/AnticounterReader.cpp
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Diff of /yoda/techmodel/physics/AnticounterReader.cpp

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revision 2.1 by kusanagi, Sun Oct 17 12:28:46 2004 UTC revision 5.0 by kusanagi, Mon Aug 29 09:46:13 2005 UTC
# Line 1  Line 1 
1  /** @file  /** @file
2   * $Source: /home/cvsmanager/yoda/techmodel/physics/AnticounterReader.cpp,v $   * $Source: /home/cvsmanager/yoda/techmodel/physics/AnticounterReader.cpp,v $
3   * $Id: AnticounterReader.cpp,v 2.0 2004/09/21 20:51:22 kusanagi Exp $   * $Id: AnticounterReader.cpp,v 4.4 2005/05/28 10:44:13 kusanagi Exp $
4   * $Author: kusanagi $   * $Author: kusanagi $
5   *   *
6   * Implementation of the AnticounterReader class.   * Implementation of the AnticounterReader class.
# Line 12  Line 12 
12    
13  extern "C" {  extern "C" {
14      #include "../forroutines/anticounter/AC.h"      #include "../forroutines/anticounter/AC.h"
15      extern int ACphysics(int length, unsigned char* physicspointer, struct physicsstruct* physicspointer);      extern int ACphysics(int, unsigned char[] , struct physicsstruct*);
16  }  }
17    
18  using namespace pamela;  using namespace pamela;
# Line 34  AnticounterReader::AnticounterReader(voi Line 34  AnticounterReader::AnticounterReader(voi
34   */   */
35  std::string AnticounterReader::GetVersionInfo(void) const {  std::string AnticounterReader::GetVersionInfo(void) const {
36    return    return
37      "$Header: /home/cvsmanager/yoda/techmodel/physics/AnticounterReader.cpp,v 2.0 2004/09/21 20:51:22 kusanagi Exp $";      "$Header: /home/cvsmanager/yoda/techmodel/physics/AnticounterReader.cpp,v 4.4 2005/05/28 10:44:13 kusanagi Exp $";
38  }  }
39    
40  /**  /**
# Line 58  void AnticounterReader::RunEvent(int Eve Line 58  void AnticounterReader::RunEvent(int Eve
58   * Unpack the Anticounter data event from the physical packet.   * Unpack the Anticounter data event from the physical packet.
59   */   */
60  void AnticounterReader::RunEvent(int EventNumber, const char subData[], long int length) {  void AnticounterReader::RunEvent(int EventNumber, const char subData[], long int length) {
61        std::stringstream oss;
62      char *data = new char[length];      char *data = new char[length];
63      memcpy(data, subData, length);      memcpy(data, subData, length);
64      int        ERROR;      struct physicsstruct output[2] = {0};
65      physicsstruct output;      
66        
67            
68      //Call to the routine that unpack anitocounter events      //Call to the routine that unpack anitocounter events
69      ERROR = ACphysics(length, (unsigned char*) data, &output);      //anticounter->ERROR = ACphysics(length, (unsigned char*) data, &(*output));
70        anticounter->unpackError = ACphysics(length, (unsigned char*) data, output);
71      //TO BE activated as soon i will know what codes means "error"      
72      /*if (ERROR != 0) {      //if (ERROR != 0) {
73          char *errmsg;          char *errmsg;
74          switch (ERROR){          switch (anticounter->unpackError){
75              case 1: errmsg = "---------------------";              case 0xFF: errmsg = "data (physics or calibration) from both cards found";
76                break;
77                case 0xF0: errmsg = "only data from main card found";
78                break;
79                case 0x0F: errmsg = "only data from extra card found";
80                break;
81                case 0x00: errmsg = "no data found";
82                break;
83                default: errmsg = "ANTICOUNTER ERRROR CODE UNIDENTIFIED";
84          }          }
85      } else {*/          oss.str("");
86          memcpy(anticounter->header, output.header, sizeof(anticounter->header));          oss << "Fortran77 function tofunpack: " <<  errmsg;
87          anticounter->status = output.status;          logger->warn(oss.str().c_str());
88          anticounter->hitmap = output.hitmap;      //}
89          memcpy(anticounter->regist,     output.regist,    sizeof(anticounter->regist));  
90          memcpy(anticounter->shift,      output.shift,     sizeof(anticounter->shift));      for(int i = 0; i<2; i++){
91          memcpy(anticounter->counters,   output.counters,  sizeof(anticounter->counters));          memcpy(anticounter->header[i], output[i].header, sizeof(anticounter->header[i]));
92          memcpy(anticounter->coinc,      output.coinc,     sizeof(anticounter->coinc));          anticounter->status[i] = output[i].status;
93          anticounter->trigg = output.trigg;          anticounter->hitmap[i] = output[i].hitmap;
94          memcpy(anticounter->clock,      output.clock,     sizeof(anticounter->clock));          memcpy(anticounter->regist[i],     output[i].regist,    sizeof(output[i].regist));
95          memcpy(anticounter->temp,       output.temp,      sizeof(anticounter->temp));          memcpy(anticounter->shift[i],      output[i].shift,     sizeof(output[i].shift));
96          memcpy(anticounter->DAC,        output.DAC,       sizeof(anticounter->DAC));          memcpy(anticounter->counters[i],   output[i].counters,  sizeof(output[i].counters));
97          anticounter->CRC = output.CRC;          memcpy(anticounter->coinc[i],      output[i].coinc,     sizeof(output[i].coinc));
98            anticounter->trigg[i] = output[i].trigg;
99            memcpy(anticounter->clock[i],      output[i].clock,     sizeof(output[i].clock));
100            memcpy(anticounter->temp[i],       output[i].temp,      sizeof(output[i].temp));
101            memcpy(anticounter->DAC[i],        output[i].DAC,       sizeof(output[i].DAC));
102            anticounter->CRC[i]         = output[i].CRC;
103            anticounter->CRCcheck[i]    = output[i].CRCcheck;
104        }
105    
106      //}      //}
107      delete[] data;      delete [] data;
108  }  }
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