CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_4_4_5_patch3/src/L1Trigger/GlobalCaloTrigger/src/L1GctLut.h

Go to the documentation of this file.
00001 #ifndef L1GCTLUT_H_
00002 #define L1GCTLUT_H_
00003 
00004 #include <boost/cstdint.hpp> //for uint16_t
00005 
00006 #include <iostream>
00007 #include <iomanip>
00008 #include <sstream>
00009  
00020 template <int NAddressBits, int NDataBits>
00021 class L1GctLut
00022 {
00023 public:
00024   static const uint16_t MAX_ADDRESS_BITMASK;
00025   static const uint16_t MAX_DATA_BITMASK;
00026   
00027   virtual ~L1GctLut();
00028 
00030   friend std::ostream& operator << (std::ostream& os, const L1GctLut<NAddressBits, NDataBits>& lut)
00031   {
00032     //----------------------------------------------------------------------------------------
00033     // Define the code here for the friend template function to get around
00034     // compiler/linker problems when instantiating the template class.
00035     // See http://www.parashift.com/c++-faq-lite/templates.html#faq-35.16
00036     static const int maxAddress=L1GctLut<NAddressBits, NDataBits>::MAX_ADDRESS_BITMASK;
00037     static const int width=L1GctLut<NAddressBits, NDataBits>::printWidth;
00038 
00039     os << lut.printHeader();
00040 
00041     for (int a=0; a<=maxAddress; a += width) {
00042       os << lut.printLine(a);
00043     }
00044     return os;
00045     // End of friend function definition
00046     //----------------------------------------------------------------------------------------
00047   }
00048 
00050   uint16_t lutValue (const uint16_t lutAddress) const;
00051 
00053   uint16_t operator[] (const uint16_t lutAddress) const { return lutValue(lutAddress); } 
00054 
00056   template <int KAddressBits, int KDataBits>
00057   int operator==(const L1GctLut<KAddressBits, KDataBits>& rhsLut) const { return equalityCheck(rhsLut); }
00058 
00060   template <int KAddressBits, int KDataBits>
00061   int operator!=(const L1GctLut<KAddressBits, KDataBits>& rhsLut) const { return !equalityCheck(rhsLut); }
00062 
00063   bool setupOk() { return m_setupOk; }
00064 
00066   void setVerbose() { m_verbose = true; }
00067   void setTerse() { m_verbose = false; }
00068 
00069 protected:
00070   
00071   L1GctLut();
00072 
00073   virtual uint16_t value (const uint16_t lutAddress) const=0;
00074 
00075   template <int KAddressBits, int KDataBits>
00076   bool equalityCheck(const L1GctLut<KAddressBits, KDataBits>& c) const;
00077 
00078   bool m_setupOk;
00079   bool m_verbose;
00080 
00081 private:
00082 
00083   // For use by the friend function to print the lut contents
00084   static const int printWidth;
00085   std::string printHeader() const;
00086   std::string printLine(const int add) const;
00087 
00088 };
00089 
00090 template <int NAddressBits, int NDataBits>
00091 const uint16_t L1GctLut<NAddressBits, NDataBits>::MAX_ADDRESS_BITMASK = (1 << NAddressBits) - 1;
00092 template <int NAddressBits, int NDataBits>
00093 const uint16_t L1GctLut<NAddressBits, NDataBits>::MAX_DATA_BITMASK = (1 << NDataBits) - 1;
00094 
00095 template <int NAddressBits, int NDataBits>
00096 const int L1GctLut<NAddressBits, NDataBits>::printWidth = 16;
00097 
00098 template <int NAddressBits, int NDataBits>
00099 L1GctLut<NAddressBits, NDataBits>::L1GctLut() : m_setupOk(false) {}
00100 
00101 template <int NAddressBits, int NDataBits>
00102 L1GctLut<NAddressBits, NDataBits>::~L1GctLut() {}
00103 
00104 template <int NAddressBits, int NDataBits>
00105 uint16_t L1GctLut<NAddressBits, NDataBits>::lutValue(const uint16_t lutAddress) const
00106 {
00107   if (!m_setupOk) return (uint16_t) 0;
00108   uint16_t address=(lutAddress & MAX_ADDRESS_BITMASK);
00109   uint16_t data=(value(address) & MAX_DATA_BITMASK);
00110   return data;
00111 }
00112 
00113 template <int NAddressBits, int NDataBits>
00114 template <int KAddressBits, int KDataBits>
00115 bool L1GctLut<NAddressBits, NDataBits>::equalityCheck(const L1GctLut<KAddressBits, KDataBits>& rhsLut) const
00116 {
00117   if (KAddressBits==NAddressBits && KDataBits==NDataBits) {
00118     bool match=true;
00119     for (uint16_t address=0; address<=MAX_ADDRESS_BITMASK; address++) {
00120       if (this->lutValue(address)!=rhsLut.lutValue(address)) { match = false; break; }
00121     }
00122     return match;
00123   } else {
00124     return false;
00125   }
00126 }
00127 
00128 template <int NAddressBits, int NDataBits>
00129 std::string L1GctLut<NAddressBits, NDataBits>::printHeader() const
00130 {
00131   std::stringstream ss;
00132   ss << std::hex << std::showbase; 
00133   ss << std::setw(8) << "|";
00134   for (int a=0; ((a<printWidth) && (a<=MAX_ADDRESS_BITMASK)); ++a) {
00135     ss << std::setw(7) << a;
00136   }
00137   ss << std::endl;
00138   ss << std::setfill('-') << std::setw(8) << "+";
00139   for (int a=0; ((a<printWidth) && (a<=MAX_ADDRESS_BITMASK)); ++a) {
00140     ss << std::setw(7) << "-";
00141   }
00142   ss << std::endl;
00143 
00144   return ss.str();
00145 }
00146 
00147 template <int NAddressBits, int NDataBits>
00148 std::string L1GctLut<NAddressBits, NDataBits>::printLine(const int add) const
00149 {
00150   std::stringstream ss;
00151   ss << std::hex << std::showbase; 
00152   int a=add;
00153   ss << std::setw(7) << a << "|";
00154   for (int c=0; ((c<printWidth) && (a<=MAX_ADDRESS_BITMASK)); ++c) {
00155     uint16_t address = static_cast<uint16_t>(a++);
00156     ss << std::setw(7) << lutValue(address);
00157   }
00158   ss << std::endl;
00159 
00160   return ss.str();
00161 }
00162 
00163 #endif /*L1GCTLUT_H_*/