PamOffLineSW/techmodel/CalibCalPulse1Reader.cpp


// Implementation of the CalibCalPulse1Reader class.
 

extern "C" {
#include "CRC.h"  
    //Struct per il passaggio di dati da e verso la chiamata fortran
extern struct {
        int   iev;
        int   pstwerr[4];
        float pperror[4];
        float calpuls[4][11][96];
    } calpul_; 
    
    //external declaration of the Fortran function 
    void calpulse_(char*, long int*, int*);
}

#include "ReaderAlgorithms.h"

using namespace pamela::techmodel;


/**
 * Constructor. 
 */
CalibCalPulse1Reader::CalibCalPulse1Reader(void): 
  TechmodelAlgorithm(PacketType::CalibCalPulse1, "TechmodelCalibCalPulse1Reader") { 
  calibCalPulse1 = new CalibCalPulse1Event();
}

/**
 * Get a string with the version info of the algorithm.
 */
std::string CalibCalPulse1Reader::GetVersionInfo(void) const {
  return 
    "$Header: /afs/ba.infn.it/user/pamela/src/CVS/chewbacca/PamOffLineSW/techmodel/CalibCalPulse1Reader.cpp,v 1.1.1.1 2008/09/23 07:20:26 mocchiut Exp $\n";
}

/**
 * Initialize the algorithm with a special run. This will initialize the
 * event reader routines for all packet types.
 */
void CalibCalPulse1Reader::Init(PamelaRun *run) {
  run->WriteSubPacket(this, &calibCalPulse1, calibCalPulse1->Class());
}

/**
 * Unpack the CalibCalPulse1 event
 */
void CalibCalPulse1Reader::PKT_RunEvent(char* packetData, long int dataLength) throw (Exception){
  
  string msg;    
  std::stringstream oss;       
  int         ERROR;

  //
  // FAFEDE0808 is used to store two different data set: when length = 6 we store the calorimeter answer to commands CAL_RESET, WRITE_FPGA_REG_CH, WRITE_FPGA_REG_VCAL
  // else when length > 6 we store calpulse1 data
  //  
  if ( dataLength == 6 ){
    if ( calpul_.iev != calpul_.iev || calpul_.iev < 0 || calpul_.iev > 9000000 ) calpul_.iev = 0;
    calpul_.iev++;
    calibCalPulse1->iev = calpul_.iev;    
    //
    calibCalPulse1->pstwerr[0] = 0;
    calibCalPulse1->pstwerr[1] = 0;
    calibCalPulse1->pstwerr[2] = 0;
    calibCalPulse1->pstwerr[3] = 0;
    //
    calibCalPulse1->pperror[0] = 129.;
    calibCalPulse1->pperror[1] = 129.;
    calibCalPulse1->pperror[2] = 129.;
    calibCalPulse1->pperror[3] = 129.;
    //
    float tempCalpuls[96][11][4];
    memset(calpul_.calpuls,0,sizeof(tempCalpuls));
    memcpy(tempCalpuls, calpul_.calpuls, sizeof(tempCalpuls));
    for (int i = 0; i < 4; i++){
      for (int j = 0; j <11; j++){
        for (int z = 0; z < 96; z++){
          calibCalPulse1->calpuls[i][j][z]  = tempCalpuls[z][j][i];
        }
      }
    }
    //
    calibCalPulse1->CAL_RESET = (((UINT16)(packetData[0]<<8))&0xFF00) + (((UINT16)(packetData[1]))&0x00FF);
    calibCalPulse1->WRITE_FPGA_REG_CH = (((UINT16)(packetData[2]<<8))&0xFF00) + (((UINT16)(packetData[3]))&0x00FF);
    calibCalPulse1->WRITE_FPGA_REG_VCAL = (((UINT16)(packetData[4]<<8))&0xFF00) + (((UINT16)(packetData[5]))&0x00FF);
    calibCalPulse1->unpackError = 1;
    //
  } else {
    //
    calpulse_(packetData, &dataLength, &ERROR);
    
    calibCalPulse1->unpackError = ERROR;
    oss.str("");    
    if (ERROR != 0) {
      char *errmsg;
      switch (ERROR){
      case 1: errmsg = "CALORIMETER NOT FOUND";
      }
      oss << "CalibCalPulse1: Fortran77 function calpulse error code = " << ERROR
          <<  " " << errmsg;
      msg=oss.str();
      if ( dataLength > 6 ) PamOffLineSW::mainLogUtil->logWarning(msg); 
    } //else {
    //Store the unpacked data
    calibCalPulse1->iev = calpul_.iev;
    memcpy(calibCalPulse1->pstwerr, calpul_.pstwerr, sizeof(calibCalPulse1->pstwerr));
    memcpy(calibCalPulse1->pperror, calpul_.pperror, sizeof(calibCalPulse1->pperror));
    //--------have to invert array because of FORTRAN <-> C different management of the indexes
    float tempCalpuls[96][11][4];
    memcpy(tempCalpuls, calpul_.calpuls, sizeof(tempCalpuls));
    for (int i = 0; i < 4; i++){
      for (int j = 0; j <11; j++){
        for (int z = 0; z < 96; z++){
          calibCalPulse1->calpuls[i][j][z]  = tempCalpuls[z][j][i];
        }
      }
    }
    //
    calibCalPulse1->CAL_RESET = 0;
    calibCalPulse1->WRITE_FPGA_REG_CH = 0;
    calibCalPulse1->WRITE_FPGA_REG_VCAL = 0;
    //
  };
  //-----------------------------------------------------------------------------------------
  //}
}
1
2	// Implementation of the CalibCalPulse1Reader class.
3
4
5	extern "C" {
6	#include "CRC.h"
7	//Struct per il passaggio di dati da e verso la chiamata fortran
8	extern struct {
9	int iev;
10	int pstwerr[4];
11	float pperror[4];
12	float calpuls[4][11][96];
13	} calpul_;
14
15	//external declaration of the Fortran function
16	void calpulse_(char, long int, int*);
17	}
18
19	#include "ReaderAlgorithms.h"
20
21	using namespace pamela::techmodel;
22
23
24	/**
25	* Constructor.
26	*/
27	CalibCalPulse1Reader::CalibCalPulse1Reader(void):
28	TechmodelAlgorithm(PacketType::CalibCalPulse1, "TechmodelCalibCalPulse1Reader") {
29	calibCalPulse1 = new CalibCalPulse1Event();
30	}
31
32	/**
33	* Get a string with the version info of the algorithm.
34	*/
35	std::string CalibCalPulse1Reader::GetVersionInfo(void) const {
36	return
37	"$Header: /afs/ba.infn.it/user/pamela/src/CVS/chewbacca/PamOffLineSW/techmodel/CalibCalPulse1Reader.cpp,v 1.1.1.1 2008/09/23 07:20:26 mocchiut Exp $\n";
38	}
39
40	/**
41	* Initialize the algorithm with a special run. This will initialize the
42	* event reader routines for all packet types.
43	*/
44	void CalibCalPulse1Reader::Init(PamelaRun *run) {
45	run->WriteSubPacket(this, &calibCalPulse1, calibCalPulse1->Class());
46	}
47
48	/**
49	* Unpack the CalibCalPulse1 event
50	*/
51	void CalibCalPulse1Reader::PKT_RunEvent(char* packetData, long int dataLength) throw (Exception){
52
53	string msg;
54	std::stringstream oss;
55	int ERROR;
56
57	//
58	// FAFEDE0808 is used to store two different data set: when length = 6 we store the calorimeter answer to commands CAL_RESET, WRITE_FPGA_REG_CH, WRITE_FPGA_REG_VCAL
59	// else when length > 6 we store calpulse1 data
60	//
61	if ( dataLength == 6 ){
62	if ( calpul_.iev != calpul_.iev \|\| calpul_.iev < 0 \|\| calpul_.iev > 9000000 ) calpul_.iev = 0;
63	calpul_.iev++;
64	calibCalPulse1->iev = calpul_.iev;
65	//
66	calibCalPulse1->pstwerr[0] = 0;
67	calibCalPulse1->pstwerr[1] = 0;
68	calibCalPulse1->pstwerr[2] = 0;
69	calibCalPulse1->pstwerr[3] = 0;
70	//
71	calibCalPulse1->pperror[0] = 129.;
72	calibCalPulse1->pperror[1] = 129.;
73	calibCalPulse1->pperror[2] = 129.;
74	calibCalPulse1->pperror[3] = 129.;
75	//
76	float tempCalpuls[96][11][4];
77	memset(calpul_.calpuls,0,sizeof(tempCalpuls));
78	memcpy(tempCalpuls, calpul_.calpuls, sizeof(tempCalpuls));
79	for (int i = 0; i < 4; i++){
80	for (int j = 0; j <11; j++){
81	for (int z = 0; z < 96; z++){
82	calibCalPulse1->calpuls[i][j][z] = tempCalpuls[z][j][i];
83	}
84	}
85	}
86	//
87	calibCalPulse1->CAL_RESET = (((UINT16)(packetData[0]<<8))&0xFF00) + (((UINT16)(packetData[1]))&0x00FF);
88	calibCalPulse1->WRITE_FPGA_REG_CH = (((UINT16)(packetData[2]<<8))&0xFF00) + (((UINT16)(packetData[3]))&0x00FF);
89	calibCalPulse1->WRITE_FPGA_REG_VCAL = (((UINT16)(packetData[4]<<8))&0xFF00) + (((UINT16)(packetData[5]))&0x00FF);
90	calibCalPulse1->unpackError = 1;
91	//
92	} else {
93	//
94	calpulse_(packetData, &dataLength, &ERROR);
95
96	calibCalPulse1->unpackError = ERROR;
97	oss.str("");
98	if (ERROR != 0) {
99	char *errmsg;
100	switch (ERROR){
101	case 1: errmsg = "CALORIMETER NOT FOUND";
102	}
103	oss << "CalibCalPulse1: Fortran77 function calpulse error code = " << ERROR
104	<< " " << errmsg;
105	msg=oss.str();
106	if ( dataLength > 6 ) PamOffLineSW::mainLogUtil->logWarning(msg);
107	} //else {
108	//Store the unpacked data
109	calibCalPulse1->iev = calpul_.iev;
110	memcpy(calibCalPulse1->pstwerr, calpul_.pstwerr, sizeof(calibCalPulse1->pstwerr));
111	memcpy(calibCalPulse1->pperror, calpul_.pperror, sizeof(calibCalPulse1->pperror));
112	//--------have to invert array because of FORTRAN <-> C different management of the indexes
113	float tempCalpuls[96][11][4];
114	memcpy(tempCalpuls, calpul_.calpuls, sizeof(tempCalpuls));
115	for (int i = 0; i < 4; i++){
116	for (int j = 0; j <11; j++){
117	for (int z = 0; z < 96; z++){
118	calibCalPulse1->calpuls[i][j][z] = tempCalpuls[z][j][i];
119	}
120	}
121	}
122	//
123	calibCalPulse1->CAL_RESET = 0;
124	calibCalPulse1->WRITE_FPGA_REG_CH = 0;
125	calibCalPulse1->WRITE_FPGA_REG_VCAL = 0;
126	//
127	};
128	//-----------------------------------------------------------------------------------------
129	//}
130	}