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

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Revision 3.1 - (hide annotations) (download)
Sun Mar 6 04:29:24 2005 UTC (19 years, 9 months ago) by kusanagi
Branch: MAIN
Changes since 3.0: +2 -2 lines
Stable version 4.0 - 6 March 2005

1 kusanagi 1.1
2     #include <string>
3 kusanagi 1.2 #include <log4cxx/logger.h>
4 kusanagi 1.1 #include "NeutronDetectorReader.h"
5    
6     using namespace pamela;
7     using namespace pamela::neutron;
8    
9 kusanagi 1.2 static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.neutron.NeutronDetectorReader"));
10 kusanagi 1.1
11     /**
12     * Constructor.
13     */
14     NeutronDetectorReader::NeutronDetectorReader(void):
15     TechmodelAlgorithm(PacketType::Physics, "TechmodelNeutronDetectorReader") {
16 kusanagi 1.2 logger->debug(_T("Constructor"));
17 kusanagi 1.1 neutronEvent = new NeutronEvent();
18     }
19    
20     /**
21     * Get a string with the version info of the algorithm.
22     */
23     std::string NeutronDetectorReader::GetVersionInfo(void) const {
24     return
25 kusanagi 3.1 "$Header: /home/cvsmanager/yoda/techmodel/physics/NeutronDetectorReader.cpp,v 3.0 2005/03/04 15:54:11 kusanagi Exp $";
26 kusanagi 1.1 }
27    
28     /**
29     * Initialize the algorithm with a special run. This will initialize the
30     * event reader routines for all packet types.
31 kusanagi 2.4 * 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 kusanagi 1.1 */
40     void NeutronDetectorReader::Init(PamelaRun *run) {
41 kusanagi 1.2 logger->debug(_T("Initialize"));
42 kusanagi 1.1 SetInputStream(run);
43     run->WriteSubPacket(this, &neutronEvent, neutronEvent->Class());
44     }
45    
46     /**
47     * Unpack the anticounter event from an input file.
48     */
49     void NeutronDetectorReader::RunEvent(int EventNumber) {
50    
51     }
52    
53     /**
54     * Unpack the NeutronDetector data event from the physical packet.
55     */
56     void NeutronDetectorReader::RunEvent(int EventNumber, const char subData[], long int lenght) {
57 kusanagi 2.2 NeutronRecord *rec;
58     const int lenNeutronData = 12;
59     char *data = new char[lenght];
60     memcpy(data, subData, lenght);
61 kusanagi 1.1 neutronEvent->Records->Clear();
62     TClonesArray &recs = *(neutronEvent->Records);
63 kusanagi 2.1 int offset;
64 kusanagi 1.1 if (haveData(data, lenght)){
65     for (int i = 0; i < 3; i++){
66 kusanagi 2.1 offset = lenNeutronData - 4*i;
67 kusanagi 1.1 rec = new(recs[i]) NeutronRecord(); //aggiungo un nuovo NeutronRecord all'evento
68 kusanagi 2.5 rec->trigPhysics = (UINT8)data[lenght-offset];
69 kusanagi 2.3 rec->upperBack = (((UINT8)data[lenght-offset+1])>>4);
70     rec->bottomBack = (((UINT8)data[lenght-offset+1])&0x0F);
71 kusanagi 1.1 }
72 kusanagi 2.3 neutronEvent->unpackError = 0;
73     } else {
74     neutronEvent->unpackError = 1;
75 kusanagi 1.1 }
76 kusanagi 3.1 //delete[] data;
77 kusanagi 1.1 }
78    
79 kusanagi 2.4
80 kusanagi 1.1 bool NeutronDetectorReader::haveData(const char data[], long int lenght){
81     bool ret = false;
82     if (((data[lenght-1] && data[lenght - 5] && data[lenght - 9]) && 0x0F) &&
83     ((data[lenght-2] | data[lenght - 6] | data[lenght - 10]) == 0x00)) ret = true;
84     return ret;
85     }

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