#ifndef FACT_PixelMap #define FACT_PixelMap #include #include #include #include #include "tools.h" #ifdef DEBUG #include // cerr -- to be removed? #endif // FIXME: Replace 416 by BIAS::kNumChannels struct PixelMapEntry { int index; /// Software index int cbpx; /// Hardware index as CBPX int gapd; /// gAPD index // float Vgapd; /// gAPD Bias voltage int hv_board; /// Bias suppply board int hv_channel; /// Bias supply channel int crate() const { return cbpx/1000; } int board() const { return (cbpx/100)%10; } int patch() const { return (cbpx/10)%10; } int pixel() const { return cbpx%10; } int hw() const { return pixel()+patch()*9+board()*36+crate()*360; } int group() const { return pixel()>3; } int hv() const { return hv_channel+hv_board*32; } operator bool() const { return index>=0; } }; class PixelMap : public std::vector { public: static const PixelMapEntry empty; PixelMap() : std::vector(1440) { } bool Read(const std::string &fname) { std::ifstream fin(fname); int l = 0; std::string buf; while (getline(fin, buf, '\n')) { if (l>1439) break; buf = Tools::Trim(buf); if (buf[0]=='#') continue; std::stringstream str(buf); int idummy; float fdummy; PixelMapEntry entry; str >> entry.index; str >> entry.cbpx; str >> idummy; str >> idummy; str >> entry.gapd; str >> fdummy; //entry.Vgapd; str >> entry.hv_board; str >> entry.hv_channel; //str >> fdummy; //str >> fdummy; //str >> fdummy; if (entry.hv_channel+32*entry.hv_board>=416/*BIAS::kNumChannels*/) { #ifdef DEBUG cerr << "Invalid board/channel read from FACTmapV5.txt." << endl; #endif return false; } (*this)[l++] = entry; } return l==1440; } const PixelMapEntry &index(int idx) const { for (std::vector::const_iterator it=begin(); it!=end(); it++) if (it->index==idx) return *it; #ifdef DEBUG std::cerr << "PixelMap: index " << idx << " not found" << std::endl; #endif return empty; } const PixelMapEntry &cbpx(int c) const { for (std::vector::const_iterator it=begin(); it!=end(); it++) if (it->cbpx==c) return *it; #ifdef DEBUG std::cerr << "PixelMap: cbpx " << c << " not found" << std::endl; #endif return empty; } const PixelMapEntry &cbpx(int c, int b, int p, int px) const { return cbpx(px + p*10 + b*100 + c*1000); } const PixelMapEntry &hw(int idx) const { return cbpx(idx/360, (idx/36)%10, (idx/9)%4, idx%9); } const PixelMapEntry &hv(int board, int channel) const { for (std::vector::const_iterator it=begin(); it!=end(); it++) if (it->hv_board==board && it->hv_channel==channel) return *it; #ifdef DEBUG std::cerr << "PixelMap: hv " << board << "/" << channel << " not found" << std::endl; #endif return empty; } const PixelMapEntry &hv(int idx) const { return hv(idx/32, idx%32); } /* float Vgapd(int board, int channel) const { float avg = 0; int num = 0; for (std::vector::const_iterator it=begin(); it!=end(); it++) if (it->hv_board==board && it->hv_channel==channel) { avg += it->Vgapd; num ++; } return num==0 ? 0 : avg/num; } float Vgapd(int idx) const { return Vgapd(idx/32, idx%32); } std::vector Vgapd() const { std::vector avg(416); std::vector num(416); for (std::vector::const_iterator it=begin(); it!=end(); it++) { const int ch = it->hv_board*32 + it->hv_channel; avg[ch] += it->Vgapd; num[ch] ++; } for (int ch=0; ch<416; ch++) { if (num[ch]) avg[ch] /= num[ch]; } return avg; }*/ }; struct BiasMapEntry { int hv_board; /// Bias suppply board int hv_channel; /// Bias supply channel float Vnom; /// Channel bias voltage nominal float Voff; /// Channel bias voltage offset int hv() const { return hv_channel+hv_board*32; } }; class BiasMap : public std::vector { public: static const BiasMapEntry empty; BiasMap() : std::vector(416) { } void Retrieve(const std::string &database); void Read(const std::string &fname); const BiasMapEntry &hv(int board, int channel) const { for (std::vector::const_iterator it=begin(); it!=end(); it++) if (it->hv_board==board && it->hv_channel==channel) return *it; #ifdef DEBUG std::cerr << "PixelMap: hv " << board << "/" << channel << " not found" << std::endl; #endif return empty; } const BiasMapEntry &hv(int idx) const { return hv(idx/32, idx%32); } float Vgapd(int board, int channel) const { const BiasMapEntry &entry = hv(board, channel); //return entry.Vnom/*-entry.Voff*/; // for testing purposes only return entry.Vnom - entry.Voff; // use this with GAPDmap_20111126.txt } float Vgapd(int idx) const { return Vgapd(idx/32, idx%32); } std::vector Vgapd() const { std::vector volt(416); for (std::vector::const_iterator it=begin(); it!=end(); it++) { const int ch = it->hv_board*32 + it->hv_channel; //volt[ch] += it->Vnom/*-it->Voff*/; // for testing purposes only volt[ch] += it->Vnom - it->Voff; // use this with GAPDmap_20111126.txt } return volt; } }; #endif