00001 00008 #include <iostream> 00009 00010 #include "CalibFormats/CastorObjects/interface/CastorChannelCoder.h" 00011 #include "CalibFormats/CastorObjects/interface/QieShape.h" 00012 00013 CastorChannelCoder::CastorChannelCoder (const float fOffset [16], const float fSlope [16]) { // [CapId][Range] 00014 for (int range = 0; range < 4; range++) { 00015 for (int capId = 0; capId < 4; capId++) { 00016 mOffset [capId][range] = fOffset [index (capId, range)]; 00017 mSlope [capId][range] = fSlope [index (capId, range)]; 00018 } 00019 } 00020 } 00021 00022 double CastorChannelCoder::charge (const QieShape& fShape, int fAdc, int fCapId) const { 00023 int range = (fAdc >> 6) & 0x3; 00024 double charge = fShape.linearization (fAdc) / mSlope [fCapId][range] + mOffset [fCapId][range]; 00025 // std::cout << "CastorChannelCoder::charge-> " << fAdc << '/' << fCapId 00026 // << " result: " << charge << std::endl; 00027 return charge; 00028 } 00029 00030 int CastorChannelCoder::adc (const QieShape& fShape, double fCharge, int fCapId) const { 00031 00032 int adc = -1; //nothing found yet 00033 // search for the range 00034 for (int range = 0; range < 4; range++) { 00035 double qieCharge = (fCharge - mOffset [fCapId][range]) * mSlope [fCapId][range]; 00036 double qieChargeMax = fShape.linearization (32*range+31) + 0.5 * fShape.binSize (32*range+31); 00037 if (range == 3 && qieCharge > qieChargeMax) adc = 127; // overflow 00038 if (qieCharge > qieChargeMax) continue; // next range 00039 for (int bin = 32*range; bin < 32*(range+1); bin++) { 00040 if (qieCharge < fShape.linearization (bin) + 0.5 * fShape.binSize (bin)) { 00041 adc = bin; 00042 break; 00043 } 00044 } 00045 if (adc >= 0) break; // found 00046 } 00047 if (adc < 0) adc = 0; // underflow 00048 00049 // std::cout << "CastorChannelCoder::adc-> " << fCharge << '/' << fCapId 00050 // << " result: " << adc << std::endl; 00051 return adc; 00052 } 00053