PamOffLineSW/techmodel/EventTrkReader.cpp


// Implementation of the EventTrkReader class.

#include "ReaderAlgorithms.h"

extern "C" {
    //Passo il path verso la il file temporaneo
    extern void trkeventpkt_(int*, unsigned char[], long int*, int*);
    //Struct per il passaggio di dati da e verso la chiamata fortran
    extern struct {
        int DAQmode[12];
        int DSPnumber[12];
        int DATAlength[12];
        int eventn[12];
        int nclust[12];
        int cutc[12];
        int cutcl[12];
        int addrcluster[3][12];
        int signcluster[3][12];
        int fc[12];
        int compressiontime[12];
        int fl5[12];
        int fl4[12];
        int fl3[12];
        int fl2[12];
        int fl1[12];
        int fl6[12];
        int checksum[12];
        int TOTDATAlength;
        int datatracker[49152];
        int pnum[12];
        int cmdnum[12];
        int bid[12];
        int alarm[12];
        int aswr[12];
        int good0;          
        int crc[12];        
    } level0_; 
#include <dirent.h>
}

using namespace pamela;
using namespace pamela::techmodel;

/**
 * Constructor. 
 */
EventTrkReader::EventTrkReader(void): 
  TechmodelAlgorithm(PacketType::EventTrk, "TechmodelEventTrkReader") { 
  eventTrk = new EventTrkEvent();
}

/**
 * Get a string with the version info of the algorithm.
 */
std::string EventTrkReader::GetVersionInfo(void) const {
  return 
    "$Trailer: /home/cvsmanager/yoda/techmodel/EventTrkReader.cpp,v 1.1.1.1 2004/07/06 12:20:23 kusanagi Exp $\n";
}

/**
 * Initialize the algorithm with a special run. This will initialize the
 * event reader routines for all packet types.
 */
void EventTrkReader::Init(PamelaRun *run) {
  run->WriteSubPacket(this, &eventTrk, eventTrk->Class());
}

/**
 * Unpack the EventTrk event from an input file.
 */
void EventTrkReader::PKT_RunEvent(char* subData, long int length) throw (Exception){
    int       ERROR=0;
    stringstream oss;   
    string msg;    

    int curpos=1;
    
    //Call to the FORTRAN routin that unpack tracker events
    trkeventpkt_( &ERROR,(unsigned char*)subData, &length, &curpos); 

   if (ERROR != 0) {
        const char *errmsg;
        switch (ERROR){
            case 1: errmsg = "GENERIC TRACKER ERROR";
            break;
            default: errmsg = "TRACKER ERRROR CODE UNIDENTIFIED";
        }
        oss.str("");
        oss << "EventTrk: Fortran77 function trkeventpkt: " <<  errmsg;
      msg=oss.str();
      PamOffLineSW::mainLogUtil->logWarning(msg);       
        
    }
    //Store the unpacked data
    eventTrk->unpackError    = ERROR;
    eventTrk->good0          = level0_.good0;
    memcpy(eventTrk->DAQmode,    level0_.DAQmode,    sizeof(eventTrk->DAQmode));
    memcpy(eventTrk->DSPnumber,  level0_.DSPnumber,  sizeof(eventTrk->DSPnumber));
    memcpy(eventTrk->DATAlength, level0_.DATAlength, sizeof(eventTrk->DATAlength));
    memcpy(eventTrk->eventn,     level0_.eventn,     sizeof(eventTrk->eventn));
    memcpy(eventTrk->nclust,     level0_.nclust,     sizeof(eventTrk->nclust));
    memcpy(eventTrk->cutc,       level0_.cutc,       sizeof(eventTrk->cutc));
    memcpy(eventTrk->cutcl,      level0_.cutcl,      sizeof(eventTrk->cutcl));
//--------have to invert array because of FORTRAN <-> C different management of the indexes
    int tempAddr[3][12];
    int tempSign[3][12];
    memcpy(tempAddr, (level0_.addrcluster), sizeof(tempAddr));
    memcpy(tempSign, (level0_.signcluster), sizeof(tempSign));
    for (int j = 0; j < 12; j++){
        for (int i = 0; i < 3; i++){
            eventTrk->addrcluster[j][i] = tempAddr[i][j];
            eventTrk->signcluster[j][i] = tempSign[i][j];
        }
    }
//-----------------------------------------------------------------------------------------
    
    memcpy(eventTrk->fc,                 level0_.fc,              sizeof(eventTrk->fc));
    memcpy(eventTrk->compressiontime,    level0_.compressiontime, sizeof(eventTrk->compressiontime));
    memcpy(eventTrk->fl1,                level0_.fl1,             sizeof(eventTrk->fl1));
    memcpy(eventTrk->fl2,                level0_.fl2,             sizeof(eventTrk->fl2));
    memcpy(eventTrk->fl3,                level0_.fl3,             sizeof(eventTrk->fl3));
    memcpy(eventTrk->fl4,                level0_.fl4,             sizeof(eventTrk->fl4));
    memcpy(eventTrk->fl5,                level0_.fl5,             sizeof(eventTrk->fl5));
    memcpy(eventTrk->fl6,                level0_.fl6,             sizeof(eventTrk->fl6));
    memcpy(eventTrk->checksum,           level0_.checksum,        sizeof(eventTrk->checksum));
    memcpy(eventTrk->pnum,               level0_.pnum,            sizeof(eventTrk->pnum));
    memcpy(eventTrk->cmdnum,             level0_.cmdnum,          sizeof(eventTrk->cmdnum));    
    memcpy(eventTrk->bid,                level0_.bid,             sizeof(eventTrk->bid));    
    memcpy(eventTrk->alarm,              level0_.alarm,           sizeof(eventTrk->alarm));    
    memcpy(eventTrk->aswr,               level0_.aswr,            sizeof(eventTrk->aswr));          
    memcpy(eventTrk->crc,                level0_.crc,             sizeof(eventTrk->crc));          
    
    eventTrk->TOTDATAlength = level0_.TOTDATAlength;
    eventTrk->TrackerData   = TArrayI(level0_.TOTDATAlength, level0_.datatracker);
}
1
2	// Implementation of the EventTrkReader class.
3
4	#include "ReaderAlgorithms.h"
5
6	extern "C" {
7	//Passo il path verso la il file temporaneo
8	extern void trkeventpkt_(int, unsigned char[], long int, int*);
9	//Struct per il passaggio di dati da e verso la chiamata fortran
10	extern struct {
11	int DAQmode[12];
12	int DSPnumber[12];
13	int DATAlength[12];
14	int eventn[12];
15	int nclust[12];
16	int cutc[12];
17	int cutcl[12];
18	int addrcluster[3][12];
19	int signcluster[3][12];
20	int fc[12];
21	int compressiontime[12];
22	int fl5[12];
23	int fl4[12];
24	int fl3[12];
25	int fl2[12];
26	int fl1[12];
27	int fl6[12];
28	int checksum[12];
29	int TOTDATAlength;
30	int datatracker[49152];
31	int pnum[12];
32	int cmdnum[12];
33	int bid[12];
34	int alarm[12];
35	int aswr[12];
36	int good0;
37	int crc[12];
38	} level0_;
39	#include <dirent.h>
40	}
41
42	using namespace pamela;
43	using namespace pamela::techmodel;
44
45	/**
46	* Constructor.
47	*/
48	EventTrkReader::EventTrkReader(void):
49	TechmodelAlgorithm(PacketType::EventTrk, "TechmodelEventTrkReader") {
50	eventTrk = new EventTrkEvent();
51	}
52
53	/**
54	* Get a string with the version info of the algorithm.
55	*/
56	std::string EventTrkReader::GetVersionInfo(void) const {
57	return
58	"$Trailer: /home/cvsmanager/yoda/techmodel/EventTrkReader.cpp,v 1.1.1.1 2004/07/06 12:20:23 kusanagi Exp $\n";
59	}
60
61	/**
62	* Initialize the algorithm with a special run. This will initialize the
63	* event reader routines for all packet types.
64	*/
65	void EventTrkReader::Init(PamelaRun *run) {
66	run->WriteSubPacket(this, &eventTrk, eventTrk->Class());
67	}
68
69	/**
70	* Unpack the EventTrk event from an input file.
71	*/
72	void EventTrkReader::PKT_RunEvent(char* subData, long int length) throw (Exception){
73	int ERROR=0;
74	stringstream oss;
75	string msg;
76
77	int curpos=1;
78
79	//Call to the FORTRAN routin that unpack tracker events
80	trkeventpkt_( &ERROR,(unsigned char*)subData, &length, &curpos);
81
82	if (ERROR != 0) {
83	const char *errmsg;
84	switch (ERROR){
85	case 1: errmsg = "GENERIC TRACKER ERROR";
86	break;
87	default: errmsg = "TRACKER ERRROR CODE UNIDENTIFIED";
88	}
89	oss.str("");
90	oss << "EventTrk: Fortran77 function trkeventpkt: " << errmsg;
91	msg=oss.str();
92	PamOffLineSW::mainLogUtil->logWarning(msg);
93
94	}
95	//Store the unpacked data
96	eventTrk->unpackError = ERROR;
97	eventTrk->good0 = level0_.good0;
98	memcpy(eventTrk->DAQmode, level0_.DAQmode, sizeof(eventTrk->DAQmode));
99	memcpy(eventTrk->DSPnumber, level0_.DSPnumber, sizeof(eventTrk->DSPnumber));
100	memcpy(eventTrk->DATAlength, level0_.DATAlength, sizeof(eventTrk->DATAlength));
101	memcpy(eventTrk->eventn, level0_.eventn, sizeof(eventTrk->eventn));
102	memcpy(eventTrk->nclust, level0_.nclust, sizeof(eventTrk->nclust));
103	memcpy(eventTrk->cutc, level0_.cutc, sizeof(eventTrk->cutc));
104	memcpy(eventTrk->cutcl, level0_.cutcl, sizeof(eventTrk->cutcl));
105	//--------have to invert array because of FORTRAN <-> C different management of the indexes
106	int tempAddr[3][12];
107	int tempSign[3][12];
108	memcpy(tempAddr, (level0_.addrcluster), sizeof(tempAddr));
109	memcpy(tempSign, (level0_.signcluster), sizeof(tempSign));
110	for (int j = 0; j < 12; j++){
111	for (int i = 0; i < 3; i++){
112	eventTrk->addrcluster[j][i] = tempAddr[i][j];
113	eventTrk->signcluster[j][i] = tempSign[i][j];
114	}
115	}
116	//-----------------------------------------------------------------------------------------
117
118	memcpy(eventTrk->fc, level0_.fc, sizeof(eventTrk->fc));
119	memcpy(eventTrk->compressiontime, level0_.compressiontime, sizeof(eventTrk->compressiontime));
120	memcpy(eventTrk->fl1, level0_.fl1, sizeof(eventTrk->fl1));
121	memcpy(eventTrk->fl2, level0_.fl2, sizeof(eventTrk->fl2));
122	memcpy(eventTrk->fl3, level0_.fl3, sizeof(eventTrk->fl3));
123	memcpy(eventTrk->fl4, level0_.fl4, sizeof(eventTrk->fl4));
124	memcpy(eventTrk->fl5, level0_.fl5, sizeof(eventTrk->fl5));
125	memcpy(eventTrk->fl6, level0_.fl6, sizeof(eventTrk->fl6));
126	memcpy(eventTrk->checksum, level0_.checksum, sizeof(eventTrk->checksum));
127	memcpy(eventTrk->pnum, level0_.pnum, sizeof(eventTrk->pnum));
128	memcpy(eventTrk->cmdnum, level0_.cmdnum, sizeof(eventTrk->cmdnum));
129	memcpy(eventTrk->bid, level0_.bid, sizeof(eventTrk->bid));
130	memcpy(eventTrk->alarm, level0_.alarm, sizeof(eventTrk->alarm));
131	memcpy(eventTrk->aswr, level0_.aswr, sizeof(eventTrk->aswr));
132	memcpy(eventTrk->crc, level0_.crc, sizeof(eventTrk->crc));
133
134	eventTrk->TOTDATAlength = level0_.TOTDATAlength;
135	eventTrk->TrackerData = TArrayI(level0_.TOTDATAlength, level0_.datatracker);
136	}