/[PAMELA software]/yoda/techmodel/CalibCalPedReader.cpp
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Annotation of /yoda/techmodel/CalibCalPedReader.cpp

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Revision 5.2 - (hide annotations) (download)
Sat Feb 4 12:37:44 2006 UTC (18 years, 10 months ago) by kusanagi
Branch: MAIN
Changes since 5.1: +3 -3 lines
Several new features in this release:
a) all the packets are conform to the Mass Memory Format specifications (http://people.roma2.infn.it/~cpu/Mass_Memory_Format.html)
b) unpacking either using the old files structure OR the new one file unpacking.
c) parametrized root files compression factor
d) deleting of the following packet: TofTest, TrkTest, TrkEvent.
e) the Tracker routines now work without the use of temp files.

The point a) allow Yoda to unpack in the root file all the packets generated by the CPU. According to the MassMemoryFormat; that is three possible data are available:

1) almost explicit structure of the packet (like for Log, Tracker, Mcmd, etc....);
2) dummy data collection structure (InitHeader, InitTrailer, CalibHeader, CalibTrailer);
3) just the data of the packet (almost all Alarm and Init procedures). The class regarding this packets have only one parameters, a TArrayC class, which contain the data-block included in the packet (tat is the data below the packet Header).

The point b) has been implemented as a consequence of an agreement about a more compact structure of the unpacked data. Up to now the structure of each unpacked data consisted of a folder, named after the packet type, and three files: xxx.Header.root, xxx.NamePacket.root, xxx.Registry.root.
Starting from this release YODA, by default will unpack the data in a unique root file. The structure of this file will consist of:
- several TTree(s) named after the packet type;
- into each TTree are foreseen three TBranche(s):
    - 'Header'  (the old xxx.Header.root file)
    - 'NameOfThePacket' (the old xxx.Event.root file or the xxx.Event.DETECTOR.root)
    - 'Registry' (the old xxx.Registry.root file)

Anyway is still possible, but deprecated, to unpack using the old structure, passing to the "yoda" command the optional parameter "-multifile"

The point c) has been implemented because is well know that writing time in a TTree is as much fast as much lower is the compression factor for the root file; anyway for a PAMELA dat file, a compression equal to 0 will generate a root file which will be more than two times the original size. To modify the compression parameter just add the optional parameter "-c [0-9]" to the yoda command line.

1 kusanagi 1.7 #include <log4cxx/logger.h>
2 kusanagi 1.1 #include <fstream>
3 kusanagi 2.4
4 kusanagi 1.2 extern "C" {
5 kusanagi 2.4
6 kusanagi 1.2 //Struct per il passaggio di dati da e verso la chiamata fortran
7     extern struct {
8 kusanagi 2.2 int iev;
9     int cstwerr[4];
10     float cperror[4];
11     float calped[4][11][96];
12     float calgood[4][11][96];
13     float calthr[4][11][6];
14     float calrms[4][11][96];
15     float calbase[4][11][6];
16     float calvar[4][11][6];
17 kusanagi 4.1 //float calpuls[4][11][96];
18 kusanagi 1.2 } calib_;
19 kusanagi 1.1 //external declaration of the Fortran function
20 kusanagi 2.2 void calpedestal_(char*, long int*, int*);
21 kusanagi 1.2 }
22 kusanagi 1.1
23     #include "ReaderAlgorithms.h"
24     #include "event/CalibCalPedEvent.h"
25    
26     using namespace pamela;
27     using namespace pamela::techmodel;
28    
29 kusanagi 1.7 static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.CalibCalPedReader"));
30 kusanagi 1.1
31     /**
32     * Constructor.
33     */
34     CalibCalPedReader::CalibCalPedReader(void):
35     TechmodelAlgorithm(PacketType::Log, "TechmodelCalibCalPedReader") {
36 kusanagi 1.7 logger->debug(_T("Constructor"));
37 kusanagi 1.3 calibCalPed = new CalibCalPedEvent();
38 kusanagi 1.1 }
39    
40     /**
41     * Get a string with the version info of the algorithm.
42     */
43     std::string CalibCalPedReader::GetVersionInfo(void) const {
44     return
45 kusanagi 5.2 "$Header: /opt/cvsmanager/yoda/techmodel/CalibCalPedReader.cpp,v 5.1 2005/11/30 13:39:58 Maurizio Nagni Exp $\n";
46 kusanagi 1.1 }
47    
48     /**
49     * Initialize the algorithm with a special run. This will initialize the
50     * event reader routines for all packet types.
51     */
52     void CalibCalPedReader::Init(PamelaRun *run) {
53 kusanagi 1.7 logger->debug(_T("Initialize"));
54 kusanagi 1.1 SetInputStream(run);
55 kusanagi 1.3 run->WriteSubPacket(this, &calibCalPed, calibCalPed->Class());
56 kusanagi 1.1 }
57    
58     /**
59     * Unpack the CalibCalPed event from an input file.
60     */
61 kusanagi 2.2 void CalibCalPedReader::RunEvent(int EventNumber, long int dataLength) throw (Exception){
62 kusanagi 1.7 stringstream oss;
63 kusanagi 1.3 int ERROR;
64 kusanagi 2.2 char packetData[dataLength];
65 kusanagi 1.3 InputFile->read(packetData, sizeof(packetData));
66    
67 kusanagi 2.3 calpedestal_((char*)packetData, &dataLength, &ERROR);
68 kusanagi 2.4
69     calibCalPed->unpackError = ERROR;
70 kusanagi 2.2 if (ERROR != 0) {
71     char *errmsg;
72     switch (ERROR){
73     case 1: errmsg = "CALORIMETER NOT FOUND";
74     }
75     oss.str("");
76     oss << "Fortran77 function calpedestal error code = " << ERROR
77 kusanagi 2.5 << " " << errmsg;
78 kusanagi 2.2 logger->warn(oss.str().c_str());
79 kusanagi 5.2 } //else {
80 kusanagi 2.2 //Store the unpacked data
81     calibCalPed->iev = calib_.iev;
82     memcpy(calibCalPed->cstwerr, calib_.cstwerr, sizeof(calibCalPed->cstwerr));
83     memcpy(calibCalPed->cperror, calib_.cperror, sizeof(calibCalPed->cperror));
84     //--------have to invert array because of FORTRAN <-> C different management of the indexes
85     float tempCalped[96][11][4];
86     float tempCalgood[96][11][4];
87     float tempCalthr[6][11][4];
88     float tempCalrms[96][11][4];
89     float tempCalbase[6][11][4];
90     float tempCalvar[6][11][4];
91 kusanagi 4.1 //float tempCalpuls[96][11][4];
92 kusanagi 2.2
93     memcpy(tempCalped, calib_.calped, sizeof(tempCalped));
94     memcpy(tempCalgood, calib_.calgood, sizeof(tempCalgood));
95     memcpy(tempCalthr, calib_.calthr, sizeof(tempCalthr));
96     memcpy(tempCalrms, calib_.calrms, sizeof(tempCalrms));
97     memcpy(tempCalbase, calib_.calbase, sizeof(tempCalbase));
98     memcpy(tempCalvar, calib_.calvar, sizeof(tempCalvar));
99 kusanagi 4.1 //memcpy(tempCalpuls, calib_.calpuls, sizeof(tempCalpuls));
100 kusanagi 2.2
101     for (int i = 0; i < 4; i++){
102     for (int j = 0; j <11; j++){
103     for (int z = 0; z < 96; z++){
104     calibCalPed->calped[i][j][z] = tempCalped[z][j][i];
105     calibCalPed->calgood[i][j][z] = tempCalgood[z][j][i];
106     calibCalPed->calrms[i][j][z] = tempCalrms[z][j][i];
107 kusanagi 4.1 //calibCalPed->calpuls[i][j][z] = tempCalpuls[z][j][i];
108 kusanagi 1.5 }
109 kusanagi 1.4 }
110 kusanagi 2.2 }
111 kusanagi 1.4
112 kusanagi 2.2 for (int i = 0; i < 4; i++){
113     for (int j = 0; j <11; j++){
114     for (int z = 0; z < 6; z++){
115     calibCalPed->calthr[i][j][z] = tempCalthr[z][j][i];
116     calibCalPed->calbase[i][j][z] = tempCalbase[z][j][i];
117     calibCalPed->calvar[i][j][z] = tempCalvar[z][j][i];
118 kusanagi 1.5 }
119 kusanagi 1.4 }
120     }
121 kusanagi 2.2 //-----------------------------------------------------------------------------------------
122 kusanagi 5.2 //}
123 kusanagi 1.3 }
124 kusanagi 1.1
125    

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