/** @file * $Source: /home/cvsmanager/yoda/techmodel/physics/S4Reader.cpp,v $ * $Id: S4Reader.cpp,v 2.4 2005/01/13 14:50:01 kusanagi Exp $ * $Author: kusanagi $ * * Implementation of the S4Reader class. */ #include #include #include "S4Reader.h" using namespace pamela; using namespace pamela::S4; static log4cxx::LoggerPtr logger = log4cxx::Logger::getLogger(_T("pamela.techmodel.S4.S4Reader")); /** * Constructor. */ S4Reader::S4Reader(void): TechmodelAlgorithm(PacketType::Physics, "TechmodelS4Reader") { logger->debug(_T("Constructor")); s4 = new S4Event(); } /** * Get a string with the version info of the algorithm. */ std::string S4Reader::GetVersionInfo(void) const { return "$Header: /home/cvsmanager/yoda/techmodel/physics/S4Reader.cpp,v 2.4 2005/01/13 14:50:01 kusanagi Exp $"; } /** * Initialize the algorithm with a special run. This will initialize the * event reader routines for all packet types. */ void S4Reader::Init(PamelaRun *run) { logger->debug(_T("Initialize")); SetInputStream(run); run->WriteSubPacket(this, &s4, s4->Class()); } /** * Unpack the S4 event from an input file. */ void S4Reader::RunEvent(int EventNumber) { } /** * Unpack the S4 data event from the physical packet. * Unfortunately the only definition available for S4 is "Rigth before the Neutron detector data" * consequently supposing the Neutron data (12 Bytes) always present S4 start 18 Bytes before the end of the packet */ void S4Reader::RunEvent(int EventNumber, const char subData[], long int length) { const int lenS4Data = 6; char *data = new char[length]; int offset; int index = haveData(data, length); if (index > -1){ int offset = length - index; s4->S4_REG_STATUS = (((UINT8)subData[offset])&0xF0); s4->S4_DATA = ((((UINT16)subData[offset]<<8)&0x0FFF) + (((UINT16)subData[offset+1])&0x00FF)); s4->S4_CMD_NUM = (((UINT8)subData[offset+2])&0xFF); s4->S4_RESP_LENGHT = ((((UINT16)subData[offset+3]<<8)&0xFF00) + (((UINT16)subData[offset+4])&0x00FF)); s4->S4_OVERALL_CHKCODE = (((UINT8)subData[offset+5])&0xFF); s4->unpackError = 0; } else { s4->unpackError = 1; } delete[] data; } /* * * @return int * It return the index, starting from the end of data[] parameter, which * is the starting byte of the S4 data. * */ /** * Check if S4Data are present. * @param const char data[] - Physics data * @param long int lenght - Lenght of data[] * @return int - -1 if S4 has not been found, otherwise it represent the * index from the end of data[] from which S4 data starts */ int S4Reader::haveData(const char data[], long int length){ int ret = -1; /* I start 20 bytes from the end because we have three cases: * * 1) S4 (4bytes) + NeutronDetector (12bytes) //END PACKET * 2) S4 (4bytes) //END PACKET * 3) //END PACKET * * so in anycase I expect to find the data into the last 20 bytes * Anyway, it will be a MUST to implements also the check of the CRC * on the S4 data to have a better confidence on the data; the crc algorithm * sholud be the same of the Tracker * */ int index = 0; char dataByte; int subIndex = 0; const int subDataDepth = 20; int offset = length - subDataDepth; const int subSignDim = 3; const unsigned char subSign[subSignDim]={0xD8, 0x00, 0x03}; while (index < subDataDepth){ dataByte = data[offset + index++]; if (dataByte == (char)(*(subSign+subIndex))){ if (subIndex++ == (subSignDim-1)) { //If here i catch it!!! return subDataDepth - index + subSignDim + 2; } } else { index = index - (subIndex); subIndex = 0; } } return ret; }