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/data/refman/pasoursint/CMSSW_6_1_2_SLHC2/src/CondFormats/L1TObjects/interface/L1MuScale.h

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00001 //-------------------------------------------------
00002 //
00003 //   \class L1MuScale
00004 //
00005 //   Description:  A Scale for use in the L1 muon trigger
00006 //                 
00007 //                  
00008 //                
00009 //   $Date: 2011/05/30 04:59:35 $
00010 //   $Revision: 1.8 $ 
00011 //
00012 //   Original Author :
00013 //   Hannes Sakulin      HEPHY / Vienna
00014 //
00015 //   Migrated to CMSSW:
00016 //   I. Mikulec
00017 //
00018 //--------------------------------------------------
00019 #ifndef CondFormatsL1TObjects_L1MuScale_h
00020 #define CondFormatsL1TObjects_L1MuScale_h
00021 
00022 #include <iostream>
00023 #include <sstream>
00024 #include <iomanip>
00025 #include <vector>
00026 #include <math.h>
00027 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00028 #include "CondFormats/L1TObjects/interface/L1MuPacking.h"
00029 
00036 class L1MuScale {
00037  public:
00038   L1MuScale() {}
00039 
00040   virtual ~L1MuScale() {}
00041 
00043   virtual float getCenter(unsigned packed) const = 0;
00044 
00046   virtual float getLowEdge(unsigned packed) const = 0; 
00047 
00049   virtual float getHighEdge(unsigned packed) const = 0;
00050   
00052   virtual float getScaleMax() const = 0;
00053 
00055   virtual float getScaleMin() const = 0;
00056   
00058   virtual unsigned getPacked(float value) const = 0;
00059 
00061   virtual unsigned getNBins() const = 0;
00062 
00064   virtual float getValue(unsigned i) const = 0;
00065 
00066   virtual std::string print() const = 0;
00067 
00068  private:
00069 };
00070 
00071 //
00072 // define default scale implementations
00073 //
00074 
00075 
00091 class L1MuBinnedScale : public L1MuScale {
00092  public:
00093 
00101   L1MuBinnedScale():
00102     m_nbits( 0 ),
00103     m_signedPacking( false ),
00104     m_NBins( 0 ),
00105     m_idxoffset( 0 )
00106       {}
00107 
00110         //  L1MuBinnedScale(unsigned int nbits, bool signedPacking, int NBins, const float* Scale, int idx_offset=0) 
00111         L1MuBinnedScale(unsigned int nbits, bool signedPacking, int NBins, const std::vector<double> Scale, int idx_offset=0) 
00112       : m_nbits( nbits ),
00113         m_signedPacking( signedPacking )
00114   {
00115     m_NBins = NBins;
00116     m_idxoffset = idx_offset;
00117 
00118     m_Scale.reserve(m_NBins + 1);
00119     for (int i=0; i<m_NBins + 1; i++) 
00120         //m_Scale[i] = Scale[i];
00121         m_Scale.push_back( Scale[i] ) ;
00122   };
00123 
00134   L1MuBinnedScale(unsigned int nbits, bool signedPacking, int NBins, float xmin, float xmax, int idx_offset=0)
00135     : m_nbits( nbits ),
00136       m_signedPacking( signedPacking )
00137   {
00138     m_NBins = NBins;
00139     m_idxoffset = idx_offset;
00140 
00141     m_Scale.reserve(m_NBins + 1);
00142     for (int i=0; i<m_NBins + 1; i++) 
00143       //      m_Scale[i] = xmin + i * (xmax-xmin) / m_NBins;
00144       m_Scale.push_back( xmin + i * (xmax-xmin) / m_NBins ) ;
00145   };
00146 
00148   virtual ~L1MuBinnedScale() {
00149 //    delete m_packing;
00150   };
00151 
00152  
00154   virtual float getCenter(unsigned packed) const {
00155     int idx = get_idx(packed);
00156     return (m_Scale[idx] + m_Scale[idx+1] )/ 2.;    
00157   };
00158 
00160   virtual float getLowEdge(unsigned packed) const{
00161     return m_Scale[get_idx(packed)];
00162   };
00163 
00165   virtual float getHighEdge(unsigned packed) const{
00166     return m_Scale[get_idx(packed)+1];
00167   };
00168   
00170 
00171   virtual unsigned getPacked(float value) const {
00172     if (value < m_Scale[0] || value > m_Scale[m_NBins]) 
00173       edm::LogWarning("ScaleRangeViolation") << "L1MuBinnedScale::getPacked: value out of scale range: " << value << std::endl;
00174     int idx = 0;
00175     if (value < m_Scale[0]) idx=0;
00176     else if (value >= m_Scale[m_NBins]) idx = m_NBins-1;
00177     else {
00178       for (; idx<m_NBins; idx++) 
00179         if (value >= m_Scale[idx] && value < m_Scale[idx+1]) break;
00180     }
00181 
00182     return ( m_signedPacking ?
00183              L1MuSignedPackingGeneric::packedFromIdx(idx-m_idxoffset, m_nbits) :
00184              L1MuUnsignedPackingGeneric::packedFromIdx(idx-m_idxoffset, m_nbits) ) ;
00185   };
00186 
00188   virtual float getScaleMax() const { return m_Scale[m_NBins]; }
00189 
00191   virtual float getScaleMin() const { return m_Scale[0]; }
00192 
00194   virtual unsigned getNBins() const { return m_NBins; }
00195 
00197   virtual float getValue(unsigned i) const { return m_Scale[i]; }
00198 
00199   virtual std::string print() const {
00200     std::ostringstream str;
00201 
00202     str << " ind |   low edge |     center |  high edge" << std::endl;
00203     str << "-------------------------------------------" << std::endl;
00204     for(int i=0; i<m_NBins; i++){
00205       unsigned int ipack = getPacked(m_Scale[i]);
00206       str << std::setw(4) << ipack << 
00207         " | " << std::setw(10) << getLowEdge(ipack) <<
00208         " | " << std::setw(10) << getCenter(ipack) <<
00209         " | " << std::setw(10) << getHighEdge(ipack) << std::endl;
00210     }
00211 
00212     return str.str();
00213   }
00214   
00215 
00216  protected:
00217   int get_idx (unsigned packed) const {
00218      int idxFromPacked = m_signedPacking ?
00219         L1MuSignedPackingGeneric::idxFromPacked( packed, m_nbits ) :
00220         L1MuUnsignedPackingGeneric::idxFromPacked( packed, m_nbits ) ;
00221     int idx = idxFromPacked + m_idxoffset;
00222     if (idx<0) idx=0;
00223     if (idx>=m_NBins) idx=m_NBins-1;
00224     return idx;
00225   }
00226 
00227       unsigned int m_nbits ;
00228       bool m_signedPacking ;
00229   int m_NBins;
00230   int m_idxoffset;
00231   std::vector<float> m_Scale;
00232 };
00233 
00245 class L1MuSymmetricBinnedScale : public L1MuScale {
00246  public:
00247   
00255 
00256   L1MuSymmetricBinnedScale() :
00257     m_NBins( 0 )
00258     {}
00259 
00262         //  L1MuSymmetricBinnedScale(int nbits, int NBins, const float* Scale) 
00263         L1MuSymmetricBinnedScale(int nbits, int NBins, const std::vector<double> Scale) 
00264     : m_packing (L1MuPseudoSignedPacking(nbits)) {
00265     m_NBins = NBins;
00266     m_Scale.reserve(m_NBins + 1);
00267     for (int i=0; i<m_NBins + 1; i++) 
00268       //      m_Scale[i] = Scale[i];
00269       m_Scale.push_back( Scale[i] ) ;
00270   };
00271 
00282   L1MuSymmetricBinnedScale(int nbits, int NBins, float xmin, float xmax) 
00283     : m_packing (L1MuPseudoSignedPacking(nbits)) {
00284     m_NBins = NBins;
00285     m_Scale.reserve(m_NBins + 1);
00286     for (int i=0; i<m_NBins + 1; i++) 
00287       //      m_Scale[i] = xmin + i * (xmax-xmin) / m_NBins;
00288       m_Scale.push_back( xmin + i * (xmax-xmin) / m_NBins ) ;
00289   };
00290 
00292   virtual ~L1MuSymmetricBinnedScale() {
00293 //    delete m_packing;
00294   };
00295 
00297   virtual float getCenter(unsigned packed) const {
00298     int absidx = abs ( m_packing.idxFromPacked( packed ) );
00299     if (absidx>=m_NBins) absidx=m_NBins-1;
00300     float center = (m_Scale[absidx] + m_Scale[absidx+1] )/ 2.;    
00301     float fsign = m_packing.signFromPacked( packed ) == 0 ? 1. : -1.;
00302     return center * fsign;
00303   };
00304 
00306   virtual float getLowEdge(unsigned packed) const{ // === edge towards 0 
00307     int absidx = abs ( m_packing.idxFromPacked( packed ) );
00308     if (absidx>=m_NBins) absidx=m_NBins-1;
00309     float low = m_Scale[absidx];    
00310     float fsign = m_packing.signFromPacked( packed ) == 0 ? 1. : -1.;
00311     return low * fsign;
00312   };
00313 
00315   virtual float getHighEdge(unsigned packed) const{
00316     edm::LogWarning("NotImplemented") << "L1MuSymmetricBinnedScale::getHighEdge not implemented" << std::endl;
00317     return 0;
00318   };
00319 
00321   virtual unsigned getPacked(float value) const {
00322     float absval = fabs ( value );
00323     if (absval < m_Scale[0] || absval > m_Scale[m_NBins]) edm::LogWarning("ScaleRangeViolation") 
00324                  << "L1MuSymmetricBinnedScale::getPacked: value out of scale range!!! abs(val) = " 
00325                  << absval << " min= " << m_Scale[0] << " max = " << m_Scale[m_NBins] << std::endl;
00326     int idx = 0;
00327     for (; idx<m_NBins; idx++) 
00328       if (absval >= m_Scale[idx] && absval < m_Scale[idx+1]) break;
00329     if (idx >= m_NBins) idx = m_NBins-1;
00330     return m_packing.packedFromIdx(idx, (value>=0) ? 0 : 1);
00331   };
00333   virtual float getScaleMax() const { return m_Scale[m_NBins]; }
00334 
00336   virtual float getScaleMin() const { return m_Scale[0]; }
00337 
00339   virtual unsigned getNBins() const { return m_NBins; }
00340 
00342   virtual float getValue(unsigned i) const { return m_Scale[i]; }
00343 
00344   virtual std::string print() const {
00345     std::ostringstream str;
00346     
00347     str << " ind |   low edge |     center" << std::endl;
00348     str << "-------------------------------------------" << std::endl;
00349     for(int i=0; i<m_NBins; i++){
00350       unsigned int ipack = getPacked(m_Scale[i]);
00351       str << std::setw(4) << ipack << 
00352         " | " << std::setw(10) << getLowEdge(ipack) <<
00353         " | " << std::setw(10) << getCenter(ipack) << std::endl;
00354     }
00355 
00356     return str.str();
00357   }
00358   
00359  protected:
00360   L1MuPseudoSignedPacking m_packing;
00361   int m_NBins;
00362   std::vector<float> m_Scale;
00363 };
00364 #endif
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