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

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revision 1.1 by kusanagi, Thu Aug 19 15:24:58 2004 UTC revision 5.0 by kusanagi, Mon Aug 29 09:46:13 2005 UTC
# Line 1  Line 1 
1    
2  #include <string>  #include <string>
3  #include <log4cpp/Category.hh>  #include <log4cxx/logger.h>
4  #include "NeutronDetectorReader.h"  #include "NeutronDetectorReader.h"
5    
6  using namespace pamela;  using namespace pamela;
7  using namespace pamela::neutron;  using namespace pamela::neutron;
8    
9  static log4cpp::Category& cat = log4cpp::Category::getInstance("pamela.techmodel.neutron.NeutronDetectorReader");    static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.neutron.NeutronDetectorReader"));
10    
11  /**  /**
12   * Constructor.   * Constructor.
13   */   */
14  NeutronDetectorReader::NeutronDetectorReader(void):  NeutronDetectorReader::NeutronDetectorReader(void):
15    TechmodelAlgorithm(PacketType::Physics, "TechmodelNeutronDetectorReader") {    TechmodelAlgorithm(PacketType::Physics, "TechmodelNeutronDetectorReader") {
16    cat.debug("Constructor");    logger->debug(_T("Constructor"));
17    neutronEvent = new NeutronEvent();    neutronEvent = new NeutronEvent();
18  }  }
19    
# Line 22  NeutronDetectorReader::NeutronDetectorRe Line 22  NeutronDetectorReader::NeutronDetectorRe
22   */   */
23  std::string NeutronDetectorReader::GetVersionInfo(void) const {  std::string NeutronDetectorReader::GetVersionInfo(void) const {
24    return    return
25      "$Header: /home/cvsmanager/yoda/techmodel/physics/NeutronDetectorReader.cpp,v 1.1 2004/07/20 13:27:07 kusanagi Exp $";      "$Header: /home/cvsmanager/yoda/techmodel/physics/NeutronDetectorReader.cpp,v 4.4 2005/05/28 10:44:13 kusanagi Exp $";
26  }  }
27    
28  /**  /**
29   * Initialize the algorithm with a special run. This will initialize the   * Initialize the algorithm with a special run. This will initialize the
30   * event reader routines for all packet types.   * event reader routines for all packet types.
31     * For definition the definition for Neutron detector data is located in the
32     * end of the physics packet.
33     * More explicitely the neutronData is composed by 4 bytes;
34     * a pattern 00 0F TR BK
35     * where:
36     * 00 0f is a fixed pattern
37     * TR is the NeutronCounter for a trigger event
38     * BK is the NeutronCounter beetween two trigger events
39   */   */
40  void NeutronDetectorReader::Init(PamelaRun *run) {  void NeutronDetectorReader::Init(PamelaRun *run) {
41      logger->debug(_T("Initialize"));
42    SetInputStream(run);    SetInputStream(run);
43    run->WriteSubPacket(this, &neutronEvent, neutronEvent->Class());    run->WriteSubPacket(this, &neutronEvent, neutronEvent->Class());
44  }  }
# Line 44  void NeutronDetectorReader::RunEvent(int Line 53  void NeutronDetectorReader::RunEvent(int
53  /**  /**
54   * Unpack the NeutronDetector data event from the physical packet.   * Unpack the NeutronDetector data event from the physical packet.
55   */   */
56  void NeutronDetectorReader::RunEvent(int EventNumber, const char subData[], long int lenght) {  void NeutronDetectorReader::RunEvent(int EventNumber, const char subData[], long int length) {
57      NeutronRecord *rec;     NeutronRecord *rec;
58      int offset = 0;     const int lenNeutronData = 12;
59      char data[lenght];     //char *data = new char[lenght];
60      //the 2 bytes subtracted belong to the final event CRC bytes     //memcpy(data, subData, lenght);
     memcpy(data, subData, lenght);  
61     neutronEvent->Records->Clear();     neutronEvent->Records->Clear();
62     TClonesArray &recs = *(neutronEvent->Records);     TClonesArray &recs = *(neutronEvent->Records);
63     offset = 12;     int offset;
64     if (haveData(data, lenght)){     if (haveData(&*subData, length)){
65          for (int i = 0; i < 3; i++){          for (int i = 0; i < 3; i++){
66                offset = lenNeutronData - 4*i;
67              rec = new(recs[i]) NeutronRecord(); //aggiungo un nuovo NeutronRecord all'evento              rec = new(recs[i]) NeutronRecord(); //aggiungo un nuovo NeutronRecord all'evento
68              rec->upperTrig   = (((BYTE)data[lenght-offset])>>4);              rec->trigPhysics = (UINT8)subData[length-offset];
69              rec->bottomTrig  = (((BYTE)data[lenght-offset])&0x0F);              rec->upperBack   = (((UINT8)subData[length-offset+1])>>4);
70              rec->upperBack   = (((BYTE)data[lenght-offset+1])>>4);              rec->bottomBack  = (((UINT8)subData[length-offset+1])&0x0F);
             rec->bottomBack  = (((BYTE)data[lenght-offset+1])&0x0F);  
             offset = offset - 4*(i+1);  
71          }          }
72            neutronEvent->unpackError = 0;
73        } else {
74            neutronEvent->unpackError = 1;
75      }      }
76  }  }
77    
78  bool NeutronDetectorReader::haveData(const char data[], long int lenght){  
79    bool NeutronDetectorReader::haveData(const char data[], long int length){
80      bool ret = false;      bool ret = false;
81      if (((data[lenght-1] && data[lenght - 5] && data[lenght - 9]) && 0x0F) &&      if (((UINT8)data[length - 1] == 0x0F)&&((UINT8)data[length - 5] == 0x0F)&&((UINT8)data[length - 9] == 0x0F) &&
82          ((data[lenght-2] | data[lenght - 6] | data[lenght - 10]) == 0x00)) ret = true;          ((UINT8)data[length - 2] == 0x00)&&((UINT8)data[length - 6] == 0x00)&&((UINT8)data[length - 10] == 0x00)) ret = true;
83      return ret;      return ret;
84  }  }

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