CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_0/src/DataFormats/L1CaloTrigger/src/L1CaloRegion.cc

Go to the documentation of this file.
00001 
00002 
00003 #include "DataFormats/L1CaloTrigger/interface/L1CaloRegion.h"
00004 
00005 using std::ostream;
00006 using std::endl;
00007 using std::hex;
00008 using std::dec;
00009 
00010 // default constructor
00011 L1CaloRegion::L1CaloRegion() : m_id(), m_data(0), m_bx(0) { }
00012 
00013 
00014 // constructor for RCT emulator (HB/HE regions)
00015 L1CaloRegion::L1CaloRegion(unsigned et, bool overFlow, bool tauVeto, bool mip, bool quiet, unsigned crate, unsigned card, unsigned rgn) :
00016   m_id(crate, card, rgn),
00017   m_data(0), // over-ridden below
00018   m_bx(0)
00019 {
00020   pack(et, overFlow, tauVeto, mip, quiet);
00021 }
00022 
00023 // constructor for RCT emulator (HF regions)
00024 L1CaloRegion::L1CaloRegion(unsigned et, bool fineGrain, unsigned crate, unsigned rgn) :
00025   m_id(crate, 999, rgn),
00026   m_data(0), // over-ridden below
00027   m_bx(0)
00028 {
00029   pack((et & 0xff), (et >= 0xff), fineGrain, false, false);
00030 }
00031 
00032 // construct from global eta, phi indices
00033 L1CaloRegion::L1CaloRegion(unsigned et,
00034                            bool overFlow, 
00035                            bool fineGrain, 
00036                            bool mip, 
00037                            bool quiet, 
00038                            unsigned ieta, 
00039                            unsigned iphi) :
00040   m_id(ieta, iphi),
00041   m_data(0), // over-ridden below
00042   m_bx(0)
00043 {
00044   pack(et, overFlow, fineGrain, mip, quiet);
00045 }
00046 
00047 //constructor for unpacking
00048 L1CaloRegion::L1CaloRegion(uint16_t data, unsigned ieta, unsigned iphi, int16_t bx) :
00049   m_id(ieta, iphi),
00050   m_data(data),
00051   m_bx(bx)
00052 {
00053 
00054 }
00055 
00056 // destructor
00057 L1CaloRegion::~L1CaloRegion() { }
00058 
00059 // named ctors
00060 
00061 // for HB/HE from RCT indices
00062 L1CaloRegion L1CaloRegion::makeHBHERegion(unsigned et, 
00063                                           bool overFlow, 
00064                                           bool tauVeto, 
00065                                           bool mip, 
00066                                           bool quiet, 
00067                                           unsigned crate, 
00068                                           unsigned card, 
00069                                           unsigned rgn) {
00070   L1CaloRegion r;
00071   r.setRegionId( L1CaloRegionDetId(crate, card, rgn) );
00072   r.setBx(0);
00073   r.pack(et, overFlow, tauVeto, mip, quiet);
00074   return r;
00075 }
00076 
00077 // for HF from RCT indices
00078 L1CaloRegion L1CaloRegion::makeHFRegion(unsigned et, 
00079                                          bool fineGrain, 
00080                                          unsigned crate, 
00081                                          unsigned rgn) {
00082   L1CaloRegion r;
00083   r.setRegionId( L1CaloRegionDetId(crate, 999, rgn) );
00084   r.setBx(0);
00085   r.pack((et & 0xff), (et >= 0xff), fineGrain, false, false);
00086   return r;
00087 }
00088 
00089 // HB/HE/HF from GCT indices
00090 L1CaloRegion L1CaloRegion::makeRegionFromGctIndices(unsigned et, 
00091                                                     bool overFlow, 
00092                                                     bool fineGrain, 
00093                                                     bool mip, 
00094                                                     bool quiet, 
00095                                                     unsigned ieta, 
00096                                                     unsigned iphi) {
00097   L1CaloRegion r;
00098   r.setRegionId( L1CaloRegionDetId(ieta, iphi) );
00099   r.setBx(0);
00100   r.pack(et, overFlow, fineGrain, mip, quiet);
00101   return r;
00102 }
00103 
00104 //constructor for unpacking
00105 L1CaloRegion L1CaloRegion::makeRegionFromUnpacker(uint16_t data, 
00106                                                   unsigned ieta, 
00107                                                   unsigned iphi, 
00108                                                   uint16_t block, 
00109                                                   uint16_t index, 
00110                                                   int16_t bx)
00111 {
00112   L1CaloRegion r;
00113   r.setRegionId( L1CaloRegionDetId(ieta,iphi) );
00114   r.setRawData(data);
00115   r.setCaptureBlock(block);
00116   r.setCaptureIndex(index);
00117   r.setBx(bx);
00118   return r;
00119 }
00120 
00121 L1CaloRegion L1CaloRegion::makeGctJetRegion(const unsigned et, 
00122                                             const bool overFlow, 
00123                                             const bool fineGrain,
00124                                             const unsigned ieta, 
00125                                             const unsigned iphi,
00126                                             const int16_t bx) {
00127   L1CaloRegion r;
00128   r.setRegionId( L1CaloRegionDetId(ieta, iphi) );
00129   r.setBx(bx);
00130   r.pack12BitsEt(et, overFlow, fineGrain, false, false);
00131   return r;
00132 
00133 }
00134 
00135 // set BX
00136 void L1CaloRegion::setBx(int16_t bx) {
00137   m_bx = bx;
00138 }
00139 
00140 // set mip bit
00141 void L1CaloRegion::setMip(bool mip) {
00142   if (mip) { m_data |= 0x1000; }
00143   else { m_data &= 0xefff; }
00144 }
00145 
00146 // set quiet bit
00147 void L1CaloRegion::setQuiet(bool quiet) {
00148   if (quiet) { m_data |= 0x2000; }
00149   else { m_data &= 0xdfff; }
00150 }
00151 
00152 void L1CaloRegion::pack(unsigned et, bool overFlow, bool fineGrain, bool mip, bool quiet) {
00153   bool checkOvF = overFlow || (et>=0x400);
00154   m_data = 
00155     (et & 0x3ff) | 
00156     ((checkOvF)  ? 0x400  : 0x0) |
00157     ((fineGrain) ? 0x800  : 0x0) |
00158     ((mip)       ? 0x1000 : 0x0) |
00159     ((quiet)     ? 0x2000 : 0x0);
00160 }
00161 
00162 void L1CaloRegion::pack12BitsEt(unsigned et, bool overFlow, bool fineGrain, bool mip, bool quiet) {
00163   bool checkOvF = overFlow || (et>=0x400);
00164   m_data = 
00165     (et & 0xfff) | 
00166     ((checkOvF)  ? 0x400  : 0x0) |
00167     ((fineGrain) ? 0x800  : 0x0) |
00168     ((mip)       ? 0x1000 : 0x0) |
00169     ((quiet)     ? 0x2000 : 0x0);
00170 }
00171 
00172 // print to stream
00173 ostream& operator << (ostream& os, const L1CaloRegion& reg) {
00174   os << "L1CaloRegion:";
00175   os << " Et=" << reg.et();
00176   os << " o/f=" << reg.overFlow();
00177   os << " f/g=" << reg.fineGrain();
00178   os << " tau=" << reg.tauVeto() << endl;
00179   os << " RCT crate=" << reg.rctCrate();
00180   os << " RCT card=" << reg.rctCard();
00181   os << " RCT rgn=" << reg.rctRegionIndex();
00182   os << " RCT eta=" << reg.rctEta();
00183   os << " RCT phi=" << reg.rctPhi() << endl;
00184   os << " GCT eta=" << reg.gctEta();
00185   os << " GCT phi=" << reg.gctPhi() << endl;
00186   os << hex << " cap block=" << reg.capBlock() << dec << ", index=" << reg.capIndex() << ", BX=" << reg.bx();
00187   return os;
00188 }
00189