This class implements the steps that are used in a scan over Threshold and CalDelay. More...
#include <interface/PixelCalibConfiguration.h>
Public Member Functions | |
void | buildROCAndModuleLists (const PixelNameTranslation *translation, const PixelDetectorConfig *detconfig) |
const std::set< PixelChannel > & | channelList () const |
const std::vector< std::vector < unsigned int > > & | columnList () const |
bool | containsScan (std::string name) const |
std::vector< std::pair < unsigned int, std::vector < unsigned int > > > & | fedCardsAndChannels (unsigned int crate, PixelNameTranslation *translation, PixelFEDConfig *fedconfig, PixelDetectorConfig *detconfig) const |
std::set< unsigned int > | getFECCrates (const PixelNameTranslation *translation, const PixelFECConfig *fecconfig) const |
std::set< unsigned int > | getFEDCrates (const PixelNameTranslation *translation, const PixelFEDConfig *fedconfig) const |
std::map< unsigned int, std::set< unsigned int > > | getFEDsAndChannels (PixelNameTranslation *translation) |
std::string | getStreamedContent (void) const |
std::set< unsigned int > | getTKFECCrates (const PixelPortcardMap *portcardmap, const std::map< std::string, PixelPortCardConfig * > &mapNamePortCard, const PixelTKFECConfig *tkfecconfig) const |
unsigned int | iScan (std::string dac) const |
unsigned int | maxNumHitsPerROC () const |
std::string | mode () const |
const std::set< PixelModuleName > & | moduleList () const |
unsigned int | nConfigurations () const |
void | nextFECState (std::map< unsigned int, PixelFECConfigInterface * > &pixelFECs, PixelDetectorConfig *detconfig, PixelNameTranslation *trans, std::map< pos::PixelModuleName, pos::PixelMaskBase * > *masks, std::map< pos::PixelModuleName, pos::PixelTrimBase * > *trims, std::map< pos::PixelModuleName, pos::PixelDACSettings * > *dacss, unsigned int state) const |
bool | noHits () const |
unsigned int | nParameters () const |
unsigned int | nPixelPatterns () const |
unsigned int | nROC () const |
unsigned int | nScanPoints (std::string dac) const |
unsigned int | nScanPoints () const |
unsigned int | nTriggersPerPattern () const |
unsigned int | nTriggersTotal () const |
unsigned int | numberOfScanVariables () const |
std::map< std::string, std::string > | parametersList () const |
std::string | parameterValue (std::string parameterName) const |
PixelCalibConfiguration (std::vector< std::vector< std::string > > &) | |
PixelCalibConfiguration (std::string filename="") | |
std::set< std::pair< unsigned int, unsigned int > > | pixelsWithHits (unsigned int state) const |
const std::vector< PixelROCName > & | rocList () const |
const std::vector< std::vector < unsigned int > > & | rowList () const |
unsigned int | scanCounter (std::string dac, unsigned int state) const |
std::string | scanName (unsigned int iscan) const |
bool | scanningROCForState (PixelROCName roc, unsigned int state) const |
unsigned int | scanValue (std::string dac, unsigned int state, PixelROCName roc) const |
unsigned int | scanValue (std::string dac, unsigned int state) const |
double | scanValueMax (std::string dac) const |
double | scanValueMin (std::string dac) const |
std::vector< unsigned int > | scanValues (std::string dac) const |
bool | scanValuesMixedAcrossROCs (std::string dac) const |
double | scanValueStep (std::string dac) const |
bool | singleROC () const |
virtual void | writeASCII (std::string dir="") const |
void | writeXML (pos::PixelConfigKey key, int version, std::string path) const |
virtual void | writeXML (std::ofstream *out, std::ofstream *out1=NULL, std::ofstream *out2=NULL) const |
virtual void | writeXMLHeader (pos::PixelConfigKey key, int version, std::string path, std::ofstream *out, std::ofstream *out1=NULL, std::ofstream *out2=NULL) const |
virtual void | writeXMLTrailer (std::ofstream *out, std::ofstream *out1=NULL, std::ofstream *out2=NULL) const |
virtual | ~PixelCalibConfiguration () |
Private Member Functions | |
void | buildObjectsDependingOnTheNameTranslation (const PixelNameTranslation *aNameTranslation) |
void | buildROCAndModuleListsFromROCSet (const std::set< PixelROCName > &rocSet) |
unsigned int | colCounter (unsigned int state) const |
void | disablePixels (PixelFECConfigInterface *pixelFEC, unsigned int irows, unsigned int icols, pos::PixelROCTrimBits *trims, PixelHdwAddress theROC) const |
void | disablePixels (PixelFECConfigInterface *pixelFEC, pos::PixelROCTrimBits *trims, PixelHdwAddress theROC) const |
void | enablePixels (PixelFECConfigInterface *pixelFEC, unsigned int irows, unsigned int icols, pos::PixelROCMaskBits *masks, pos::PixelROCTrimBits *trims, PixelHdwAddress theROC) const |
unsigned int | nScanPoints (unsigned int iscan) const |
unsigned int | numROCsCalibratedOnChannel (PixelROCName roc) const |
unsigned int | ROCNumberOnChannelAmongThoseCalibrated (PixelROCName roc) const |
unsigned int | rowCounter (unsigned int state) const |
unsigned int | scanCounter (unsigned int iscan, unsigned int state) const |
unsigned int | scanROC (unsigned int state) const |
unsigned int | scanValue (unsigned int iscan, unsigned int state, unsigned int ROCNumber, unsigned int ROCsOnChannel) const |
unsigned int | scanValue (unsigned int iscan, unsigned int state, PixelROCName roc) const |
double | scanValueMax (unsigned int iscan) const |
double | scanValueMin (unsigned int iscan) const |
std::vector< unsigned int > | scanValues (unsigned int iscan) const |
bool | scanValuesMixedAcrossROCs (unsigned int iscan) const |
double | scanValueStep (unsigned int iscan) const |
Private Attributes | |
bool | _bufferData |
std::string | calibFileContent_ |
std::set< PixelChannel > | channels_ |
std::vector< std::vector < unsigned int > > | cols_ |
std::vector< PixelDACScanRange > | dacs_ |
std::vector< std::pair < unsigned int, std::vector < unsigned int > > > | fedCardsAndChannels_ |
bool | highVCalRange_ |
std::set< PixelModuleName > | modules_ |
unsigned int | nROC_ |
unsigned int | ntrigger_ |
std::map< PixelROCName, unsigned int > | numROCsCalibratedOnChannel_ |
bool | objectsDependingOnTheNameTranslationBuilt_ |
std::vector< int > | old_icols |
std::vector< int > | old_irows |
std::map< std::string, std::string > | parameters_ |
bool | rocAndModuleListsBuilt_ |
std::vector< PixelROCInfo > | rocInfo_ |
std::vector< std::string > | rocListInstructions_ |
std::map< PixelROCName, unsigned int > | ROCNumberOnChannelAmongThoseCalibrated_ |
std::vector< PixelROCName > | rocs_ |
std::vector< std::vector < unsigned int > > | rows_ |
bool | singleROC_ |
bool | usesROCList_ |
Friends | |
std::ostream & | pos::operator<< (std::ostream &s, const PixelCalibConfiguration &calib) |
This class implements the steps that are used in a scan over Threshold and CalDelay.
" " " " It features a double inheritance, both from ConfigurationObjects and CalibrationObjects
A longer explanation will be placed here later
Definition at line 67 of file PixelCalibConfiguration.h.
PixelCalibConfiguration::PixelCalibConfiguration | ( | std::string | filename = "" | ) |
Definition at line 300 of file PixelCalibConfiguration.cc.
References _bufferData, abs, buildROCAndModuleListsFromROCSet(), calibFileContent_, cols_, gather_cfg::cout, dacs_, first, highVCalRange_, recoMuon::in, getHLTprescales::index, pos::k_DACName_Vcal, prof2calltree::last, reco_application_tbsim_DetSim-Digi_cfg::mix, pos::PixelCalibBase::mode_, mergeVDriftHistosByStation::name, ntrigger_, objectsDependingOnTheNameTranslationBuilt_, parameters_, rocAndModuleListsBuilt_, rocListInstructions_, UserOptions_cff::rows, rows_, pos::PixelDACScanRange::setNegative(), pos::PixelDACScanRange::setRelative(), singleROC_, relval_parameters_module::step, AlCaHLTBitMon_QueryRunRegistry::string, tmp, usesROCList_, and makeHLTPrescaleTable::values.
: PixelCalibBase(), PixelConfigBase("","","") { std::string mthn = "[PixelCalibConfiguration::PixelCalibConfiguration()]\t " ; _bufferData=true; std::ifstream in(filename.c_str()); if (!in.good()){ std::cout << __LINE__ << "]\t" << mthn << "Could not open:"<<filename<<std::endl; assert(0); } else { std::cout << __LINE__ << "]\t" << mthn << "Opened:"<<filename<<std::endl; } std::string tmp; in >> tmp; if (tmp=="Mode:"){ in >> mode_; std::cout << __LINE__ << "]\t" << mthn << "PixelCalibConfiguration mode="<<mode_<< std::endl; in >>tmp; } else { mode_="FEDChannelOffsetPixel"; std::cout << __LINE__ << "]\t" << mthn << "PixelCalibConfiguration mode not set, is this an old file? " << __LINE__ << "]\t" << std::endl; assert(0); } singleROC_=false; if (tmp=="SingleROC") { singleROC_=true; in >> tmp; } // Read in parameters, if any. if (tmp=="Parameters:") { in >> tmp; while (tmp!="Rows:") { assert( !in.eof() ); std::string paramName = tmp; in >> tmp; // tmp contains the parameter value parameters_[paramName] = tmp; in >> tmp; // tmp contains the next parameter's name, or "Rows:" } } assert(tmp=="Rows:"); in >> tmp; std::vector <unsigned int> rows; while (tmp!="Cols:"){ if (tmp=="|") { rows_.push_back(rows); rows.clear(); } else{ if (tmp!="*"){ rows.push_back(atoi(tmp.c_str())); } } in >> tmp; } rows_.push_back(rows); rows.clear(); in >> tmp; std::vector <unsigned int> cols; while ((tmp!="VcalLow:")&&(tmp!="VcalHigh:")&& (tmp!="Vcal:")&&(tmp!="VcalHigh")&&(tmp!="VcalLow")){ if (tmp=="|") { cols_.push_back(cols); cols.clear(); } else{ if (tmp!="*"){ cols.push_back(atoi(tmp.c_str())); } } in >> tmp; } cols_.push_back(cols); cols.clear(); highVCalRange_=true; if (tmp=="VcalLow") { highVCalRange_=false; in >> tmp; } if (tmp=="VcalHigh") { highVCalRange_=true; in >> tmp; } if (tmp=="VcalLow:") { highVCalRange_=false; } if ((tmp=="VcalLow:")||(tmp=="VcalHigh:")||(tmp=="Vcal:")){ unsigned int first,last,step; in >> first >> last >> step; unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } in >> tmp; bool mix = false; if ( tmp=="mix" ) { mix = true; in >> tmp; } PixelDACScanRange dacrange(pos::k_DACName_Vcal,first,last,step,index,mix); dacs_.push_back(dacrange); } else{ //in >> tmp; while(tmp=="Scan:"||tmp=="ScanValues:"){ if (tmp=="ScanValues:"){ std::string dacname; in >> dacname; vector<unsigned int> values; int val; in >> val; while (val!=-1) { values.push_back(val); in >> val; } unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } PixelDACScanRange dacrange(dacname,values,index,false); dacs_.push_back(dacrange); in >> tmp; } else { std::string dacname; in >> dacname; unsigned int first,last,step; in >> first >> last >> step; unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } in >> tmp; bool mix = false; if ( tmp=="mix" ) { mix = true; in >> tmp; } PixelDACScanRange dacrange(dacname,first,last,step,index,mix); dacs_.push_back(dacrange); } } while ((tmp=="Set:")||(tmp=="SetRelative:")){ string name; in >> name; int val; in >> val; unsigned int absval=std::abs(val); unsigned int index=1; if (dacs_.size()>0) index=dacs_.back().index()*dacs_.back().getNPoints(); PixelDACScanRange dacrange(name,absval,absval,1,index,false); if (tmp=="SetRelative:") { dacrange.setRelative(); if (val<0) { dacrange.setNegative(); } } dacs_.push_back(dacrange); in >> tmp; } } assert(tmp=="Repeat:"); in >> ntrigger_; in >> tmp; usesROCList_=false; bool buildROCListNow = false; if ( tmp=="Rocs:" ) { buildROCListNow = true; usesROCList_=true; } else { assert(tmp=="ToCalibrate:"); buildROCListNow = false; } while (!in.eof()) { tmp = ""; in >> tmp; // added by F.Blekman to be able to deal with POS245 style calib.dat files in CMSSW // these files use the syntax: // Rocs: // all if( tmp=="all" || tmp=="+" || tmp=="-" ){ buildROCListNow=false; } // end of addition by F.B. if ( tmp=="" ) continue; rocListInstructions_.push_back(tmp); } in.close(); rocAndModuleListsBuilt_ = false; if ( buildROCListNow ) { std::set<PixelROCName> rocSet; for(std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin(); rocListInstructions_itr != rocListInstructions_.end(); rocListInstructions_itr++) { PixelROCName rocname(*rocListInstructions_itr); rocSet.insert(rocname); } buildROCAndModuleListsFromROCSet(rocSet); } objectsDependingOnTheNameTranslationBuilt_ = false; // Added by Dario as a temporary patch for Debbie (this will disappear in the future) std::ifstream inTmp(filename.c_str()); calibFileContent_ = "" ; while(!inTmp.eof()) { std::string tmpString ; getline (inTmp, tmpString); calibFileContent_ += tmpString + "\n"; //cout << __LINE__ << "]\t" << "[PixelCalibConfiguration::~PixelCalibConfiguration()]\t\t" << calibFileContent_ << endl ; } inTmp.close() ; // End of temporary patch return; }
PixelCalibConfiguration::PixelCalibConfiguration | ( | std::vector< std::vector< std::string > > & | tableMat | ) |
EXTENSION_TABLE_NAME: PIXEL_CALIB_CLOB (VIEW: CONF_KEY_PIXEL_CALIB_V)
CONFIG_KEY NOT NULL VARCHAR2(80) KEY_TYPE NOT NULL VARCHAR2(80) KEY_ALIAS NOT NULL VARCHAR2(80) VERSION VARCHAR2(40) KIND_OF_COND NOT NULL VARCHAR2(40) CALIB_TYPE VARCHAR2(200) CALIB_OBJ_DATA_FILE NOT NULL VARCHAR2(200) CALIB_OBJ_DATA_CLOB NOT NULL CLOB
Definition at line 24 of file PixelCalibConfiguration.cc.
References _bufferData, buildROCAndModuleListsFromROCSet(), trackerHits::c, calibFileContent_, dtNoiseDBValidation_cfg::cerr, cols_, gather_cfg::cout, dacs_, first, highVCalRange_, recoMuon::in, getHLTprescales::index, pos::k_DACName_Vcal, prof2calltree::last, reco_application_tbsim_DetSim-Digi_cfg::mix, pos::PixelCalibBase::mode_, n, mergeVDriftHistosByStation::name, ntrigger_, objectsDependingOnTheNameTranslationBuilt_, parameters_, rocAndModuleListsBuilt_, rocListInstructions_, UserOptions_cff::rows, rows_, pos::PixelDACScanRange::setRelative(), singleROC_, relval_parameters_module::step, AlCaHLTBitMon_QueryRunRegistry::string, tmp, usesROCList_, and makeHLTPrescaleTable::values.
: PixelCalibBase(), PixelConfigBase("","","") { std::string mthn = "[PixelCalibConfiguration::PixelCalibConfiguration()]\t " ; std::map<std::string , int > colM; std::vector<std::string > colNames; colNames.push_back("CONFIG_KEY" ); colNames.push_back("KEY_TYPE" ); colNames.push_back("KEY_ALIAS" ); colNames.push_back("VERSION" ); colNames.push_back("KIND_OF_COND" ); colNames.push_back("CALIB_TYPE" ); colNames.push_back("CALIB_OBJ_DATA_FILE"); colNames.push_back("CALIB_OBJ_DATA_CLOB"); for(unsigned int c = 0 ; c < tableMat[0].size() ; c++) { for(unsigned int n=0; n<colNames.size(); n++) { if(tableMat[0][c] == colNames[n]) { colM[colNames[n]] = c; break; } } }//end for for(unsigned int n=0; n<colNames.size(); n++) { if(colM.find(colNames[n]) == colM.end()) { std::cerr << mthn << "Couldn't find in the database the column with name " << colNames[n] << std::endl; assert(0); } } _bufferData=true; std::istringstream in ; in.str(tableMat[1][colM["CALIB_OBJ_DATA_CLOB"]]) ; std::string tmp; in >> tmp; if (tmp=="Mode:"){ in >> mode_; std::cout << __LINE__ << "]\t" << mthn << "mode=" << mode_ << std::endl; in >>tmp; } else { mode_="FEDChannelOffsetPixel"; std::cout << __LINE__ << "]\t" << mthn << "mode not set, is this an old file? " << std::endl; assert(0); } singleROC_=false; if (tmp=="SingleROC") { singleROC_=true; in >> tmp; } // Read in parameters, if any. if (tmp=="Parameters:") { in >> tmp; while (tmp!="Rows:") { assert( !in.eof() ); std::string paramName = tmp; in >> tmp; // tmp contains the parameter value parameters_[paramName] = tmp; in >> tmp; // tmp contains the next parameter's name, or "Rows:" } } assert(tmp=="Rows:"); in >> tmp; std::vector <unsigned int> rows; while (tmp!="Cols:"){ if (tmp=="|") { rows_.push_back(rows); rows.clear(); } else{ if (tmp!="*"){ rows.push_back(atoi(tmp.c_str())); } } in >> tmp; } rows_.push_back(rows); rows.clear(); in >> tmp; std::vector <unsigned int> cols; while ((tmp!="VcalLow:")&&(tmp!="VcalHigh:")&& (tmp!="Vcal:")&&(tmp!="VcalHigh")&&(tmp!="VcalLow")){ if (tmp=="|") { cols_.push_back(cols); cols.clear(); } else{ if (tmp!="*"){ cols.push_back(atoi(tmp.c_str())); } } in >> tmp; } cols_.push_back(cols); cols.clear(); highVCalRange_=true; if (tmp=="VcalLow") { highVCalRange_=false; in >> tmp; } if (tmp=="VcalHigh") { highVCalRange_=true; in >> tmp; } if (tmp=="VcalLow:") { highVCalRange_=false; } if ((tmp=="VcalLow:")||(tmp=="VcalHigh:")||(tmp=="Vcal:")){ unsigned int first,last,step; in >> first >> last >> step; unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } in >> tmp; bool mix = false; if ( tmp=="mix" ) { mix = true; in >> tmp; } PixelDACScanRange dacrange(pos::k_DACName_Vcal,first,last,step,index,mix); dacs_.push_back(dacrange); } else{ //in >> tmp; while(tmp=="Scan:"||tmp=="ScanValues:"){ if (tmp=="ScanValues:"){ std::string dacname; in >> dacname; vector<unsigned int> values; int val; in >> val; while (val!=-1) { values.push_back(val); in >> val; } unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } PixelDACScanRange dacrange(dacname,values,index,false); dacs_.push_back(dacrange); in >> tmp; } else { std::string dacname; in >> dacname; unsigned int first,last,step; in >> first >> last >> step; unsigned int index=1; if (dacs_.size()>0) { index=dacs_.back().index()*dacs_.back().getNPoints(); } in >> tmp; bool mix = false; if ( tmp=="mix" ) { mix = true; in >> tmp; } PixelDACScanRange dacrange(dacname,first,last,step,index,mix); dacs_.push_back(dacrange); } } while ((tmp=="Set:")||(tmp=="SetRelative:")){ string name; in >> name; int val; in >> val; unsigned int index=1; if (dacs_.size()>0) index=dacs_.back().index()*dacs_.back().getNPoints(); PixelDACScanRange dacrange(name,val,val,1,index,false); if (tmp=="SetRelative:") { dacrange.setRelative(); } dacs_.push_back(dacrange); in >> tmp; } } assert(tmp=="Repeat:"); in >> ntrigger_; in >> tmp; usesROCList_=false; bool buildROCListNow = false; if ( tmp=="Rocs:" ) { buildROCListNow = true; usesROCList_=true; } else { assert(tmp=="ToCalibrate:"); buildROCListNow = false; } while (!in.eof()) { tmp = ""; in >> tmp; // added by F.Blekman to be able to deal with POS245 style calib.dat files in CMSSW // these files use the syntax: // Rocs: // all if( tmp=="all" || tmp=="+" || tmp=="-" ){ buildROCListNow=false; } // end of addition by F.B. if ( tmp=="" ) continue; rocListInstructions_.push_back(tmp); } rocAndModuleListsBuilt_ = false; if ( buildROCListNow ) { std::set<PixelROCName> rocSet; for(std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin(); rocListInstructions_itr != rocListInstructions_.end(); rocListInstructions_itr++) { PixelROCName rocname(*rocListInstructions_itr); rocSet.insert(rocname); } buildROCAndModuleListsFromROCSet(rocSet); } objectsDependingOnTheNameTranslationBuilt_ = false; // Added by Dario as a temporary patch for Debbie (this will disappear in the future) calibFileContent_ = in.str() ; // End of temporary patch return; }
PixelCalibConfiguration::~PixelCalibConfiguration | ( | ) | [virtual] |
Definition at line 553 of file PixelCalibConfiguration.cc.
{}
void PixelCalibConfiguration::buildObjectsDependingOnTheNameTranslation | ( | const PixelNameTranslation * | aNameTranslation | ) | [private] |
Definition at line 747 of file PixelCalibConfiguration.cc.
References channels_, pos::PixelNameTranslation::getChannelForROC(), pos::PixelNameTranslation::getROCsFromChannel(), numROCsCalibratedOnChannel_, objectsDependingOnTheNameTranslationBuilt_, rocAndModuleListsBuilt_, ROCNumberOnChannelAmongThoseCalibrated_, and rocs_.
Referenced by buildROCAndModuleLists().
{ assert( !objectsDependingOnTheNameTranslationBuilt_ ); assert( rocAndModuleListsBuilt_ ); assert( aNameTranslation != 0 ); // Build the channel list. assert ( channels_.empty() ); for (std::vector<PixelROCName>::const_iterator rocs_itr = rocs_.begin(); rocs_itr != rocs_.end(); ++rocs_itr) { channels_.insert( aNameTranslation->getChannelForROC(*rocs_itr) ); } // Build the maps from ROC to ROC number. assert ( ROCNumberOnChannelAmongThoseCalibrated_.empty() && numROCsCalibratedOnChannel_.empty() ); std::set<PixelROCName> tempROCs; for(std::vector<PixelROCName>::const_iterator it=rocs_.begin();it!=rocs_.end();it++){ tempROCs.insert(*it); } for ( std::set<PixelChannel>::const_iterator channels_itr = channels_.begin(); channels_itr != channels_.end(); channels_itr++ ) { std::vector<PixelROCName> rocsOnChannel = aNameTranslation->getROCsFromChannel(*channels_itr); std::set<PixelROCName> foundROCs; for ( std::vector<PixelROCName>::const_iterator rocsOnChannel_itr = rocsOnChannel.begin(); rocsOnChannel_itr != rocsOnChannel.end(); rocsOnChannel_itr++ ) { if ( tempROCs.find(*rocsOnChannel_itr) != tempROCs.end() ){ ROCNumberOnChannelAmongThoseCalibrated_[*rocsOnChannel_itr] = foundROCs.size(); foundROCs.insert(*rocsOnChannel_itr); } } for ( std::set<PixelROCName>::const_iterator foundROCs_itr = foundROCs.begin(); foundROCs_itr != foundROCs.end(); foundROCs_itr++ ) { numROCsCalibratedOnChannel_[*foundROCs_itr] = foundROCs.size(); } } objectsDependingOnTheNameTranslationBuilt_ = true; }
void PixelCalibConfiguration::buildROCAndModuleLists | ( | const PixelNameTranslation * | translation, |
const PixelDetectorConfig * | detconfig | ||
) |
Definition at line 555 of file PixelCalibConfiguration.cc.
References buildObjectsDependingOnTheNameTranslation(), buildROCAndModuleListsFromROCSet(), pos::PixelDetectorConfig::containsModule(), pos::PixelDetectorConfig::getModuleList(), pos::PixelNameTranslation::getROCs(), pos::PixelNameTranslation::getROCsFromModule(), pos::PixelDetectorConfig::getROCsList(), moduleList(), pos::PixelModuleName::modulename(), pos::PixelROCStatus::noAnalogSignal, rocAndModuleListsBuilt_, rocListInstructions_, and AlCaHLTBitMon_QueryRunRegistry::string.
{ assert( translation != 0 ); assert( detconfig != 0 ); if ( rocAndModuleListsBuilt_ ) { buildObjectsDependingOnTheNameTranslation(translation); return; } // Build the ROC set from the instructions. std::set<PixelROCName> rocSet; bool addNext = true; const map<PixelROCName, PixelROCStatus>& iroclist=detconfig->getROCsList(); for(std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin(); rocListInstructions_itr != rocListInstructions_.end(); rocListInstructions_itr++) { std::string instruction = *rocListInstructions_itr; if ( instruction == "+" ) { addNext = true; continue; } if ( instruction == "-" ) { addNext = false; continue; } if ( instruction == "all" ) { if ( addNext ) // add all ROCs in the configuration { const std::vector <PixelModuleName>& moduleList = detconfig->getModuleList(); for ( std::vector <PixelModuleName>::const_iterator moduleList_itr = moduleList.begin(); moduleList_itr != moduleList.end(); moduleList_itr++ ) { std::vector<PixelROCName> ROCsOnThisModule = translation->getROCsFromModule( *moduleList_itr ); for ( std::vector<PixelROCName>::const_iterator ROCsOnThisModule_itr = ROCsOnThisModule.begin(); ROCsOnThisModule_itr != ROCsOnThisModule.end(); ROCsOnThisModule_itr++ ) { map<PixelROCName, PixelROCStatus>::const_iterator it= iroclist.find(*ROCsOnThisModule_itr); assert(it!=iroclist.end()); PixelROCStatus istatus = it->second; if ( !istatus.get(PixelROCStatus::noAnalogSignal) ) rocSet.insert(*ROCsOnThisModule_itr); } } } else // remove all ROCs { rocSet.clear(); } addNext = true; continue; } // Assume it's a ROC or module name. PixelModuleName modulename(instruction); // Skip if this module (or the module this ROC is on) isn't in the detector config. if ( !(detconfig->containsModule(modulename)) ) { addNext = true; continue; } if ( modulename.modulename() == instruction ) // it's a module { std::vector<PixelROCName> ROCsOnThisModule = translation->getROCsFromModule( modulename ); for ( std::vector<PixelROCName>::iterator ROCsOnThisModule_itr = ROCsOnThisModule.begin(); ROCsOnThisModule_itr != ROCsOnThisModule.end(); ROCsOnThisModule_itr++ ) { if ( addNext ) { map<PixelROCName, PixelROCStatus>::const_iterator it= iroclist.find(*ROCsOnThisModule_itr); assert(it!=iroclist.end()); PixelROCStatus istatus = it->second; if ( !istatus.get(PixelROCStatus::noAnalogSignal) ) rocSet.insert(*ROCsOnThisModule_itr); } else rocSet.erase( *ROCsOnThisModule_itr); } addNext = true; continue; } else // it's a ROC { PixelROCName rocname(instruction); if ( addNext ) { // Only add this ROC if it's in the configuration. bool foundIt = false; std::list<const PixelROCName*> allROCs = translation->getROCs(); for ( std::list<const PixelROCName*>::iterator allROCs_itr = allROCs.begin(); allROCs_itr != allROCs.end(); allROCs_itr++ ) { if ( (*(*allROCs_itr)) == rocname ) { foundIt = true; break; } } if (foundIt) { map<PixelROCName, PixelROCStatus>::const_iterator it= iroclist.find(rocname); assert(it!=iroclist.end()); PixelROCStatus istatus = it->second; if ( !istatus.get(PixelROCStatus::noAnalogSignal) ) rocSet.insert(rocname); } } else { rocSet.erase(rocname); } addNext = true; continue; } // should never get here assert(0); } // done building ROC set buildROCAndModuleListsFromROCSet(rocSet); buildObjectsDependingOnTheNameTranslation(translation); }
void PixelCalibConfiguration::buildROCAndModuleListsFromROCSet | ( | const std::set< PixelROCName > & | rocSet | ) | [private] |
Definition at line 679 of file PixelCalibConfiguration.cc.
References gather_cfg::cout, modules_, nROC_, old_icols, old_irows, rocAndModuleListsBuilt_, rocs_, singleROC_, and AlCaHLTBitMon_QueryRunRegistry::string.
Referenced by buildROCAndModuleLists(), and PixelCalibConfiguration().
{ assert( !rocAndModuleListsBuilt_ ); std::string mthn = "[PixelCalibConfiguration::buildROCAndModuleListsFromROCSet()] " ; // Build the ROC list from the ROC set. for (std::set<PixelROCName>::iterator rocSet_itr = rocSet.begin(); rocSet_itr != rocSet.end(); rocSet_itr++ ) { rocs_.push_back(*rocSet_itr); } //t.stop(); //cout << "buildROCAndModuleListsFromROCSet 1 time="<<t.tottime()<<endl; //t.start(); // Build the module set from the ROC set. std::map <PixelModuleName,unsigned int> countROC; for (std::set<PixelROCName>::iterator rocSet_itr = rocSet.begin(); rocSet_itr != rocSet.end(); rocSet_itr++ ){ //t1.start(); PixelModuleName modulename(*rocSet_itr); //t1.stop(); //t2.start(); modules_.insert( modulename ); countROC[modulename]++; //t2.stop(); } //t.stop(); //cout << "buildROCAndModuleListsFromROCSet 2 time="<<t.tottime()<<endl; //cout << "buildROCAndModuleListsFromROCSet t1="<<t1.tottime()<<endl; //cout << "buildROCAndModuleListsFromROCSet t2="<<t2.tottime()<<endl; //t.start(); // Test printout. /*cout << "\nROC list:\n"; for ( std::vector<PixelROCName>::iterator rocs_itr = rocs_.begin(); rocs_itr != rocs_.end(); rocs_itr++ ){ cout << rocs_itr->rocname() << "\n"; } cout << "\nModule list:\n"; for ( std::set<PixelModuleName>::iterator modules_itr = modules_.begin(); modules_itr != modules_.end(); modules_itr++ ) { cout << modules_itr->modulename() << "\n"; } cout << "\n";*/ // Determine max ROCs on a module for singleROC mode. nROC_=1; if (singleROC_) { unsigned maxROCs=0; for (std::map<PixelModuleName,unsigned int>::iterator imodule=countROC.begin();imodule!=countROC.end();++imodule) { if (imodule->second>maxROCs) maxROCs=imodule->second; } nROC_=maxROCs; std::cout << __LINE__ << "]\t" << mthn << "Max ROCs on a module="<<nROC_<<std::endl; } for(unsigned int irocs=0;irocs<rocs_.size();irocs++){ old_irows.push_back(-1); old_icols.push_back(-1); } rocAndModuleListsBuilt_ = true; }
const std::set<PixelChannel>& pos::PixelCalibConfiguration::channelList | ( | ) | const [inline] |
Definition at line 157 of file PixelCalibConfiguration.h.
References channels_, and objectsDependingOnTheNameTranslationBuilt_.
{assert( objectsDependingOnTheNameTranslationBuilt_ ); return channels_;}
unsigned int PixelCalibConfiguration::colCounter | ( | unsigned int | state | ) | const [private] |
Definition at line 903 of file PixelCalibConfiguration.cc.
References cols_, nScanPoints(), rowCounter(), rows_, and scanROC().
Referenced by nextFECState(), and pixelsWithHits().
{ unsigned int i_col=( state - scanROC(state)*cols_.size()*rows_.size()*nScanPoints() - rowCounter(state)*cols_.size()*nScanPoints() )/(nScanPoints()); assert(i_col<cols_.size()); return i_col; }
const std::vector<std::vector<unsigned int> >& pos::PixelCalibConfiguration::columnList | ( | ) | const [inline] |
Definition at line 153 of file PixelCalibConfiguration.h.
References cols_.
Referenced by SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{return cols_;}
bool PixelCalibConfiguration::containsScan | ( | std::string | name | ) | const |
Definition at line 1663 of file PixelCalibConfiguration.cc.
References i, mergeVDriftHistosByStation::name, numberOfScanVariables(), and scanName().
void PixelCalibConfiguration::disablePixels | ( | PixelFECConfigInterface * | pixelFEC, |
unsigned int | irows, | ||
unsigned int | icols, | ||
pos::PixelROCTrimBits * | trims, | ||
PixelHdwAddress | theROC | ||
) | const [private] |
Definition at line 1486 of file PixelCalibConfiguration.cc.
References _bufferData, bits, cols_, pos::PixelHdwAddress::hubaddress(), pos::PixelHdwAddress::mfec(), pos::PixelHdwAddress::mfecchannel(), pos::PixelHdwAddress::portaddress(), pos::PixelFECConfigInterface::progpix(), pos::PixelHdwAddress::rocid(), rows_, and pos::PixelROCTrimBits::trim().
Referenced by nextFECState().
{ for (unsigned int irow=0;irow<rows_[irows].size();irow++){ for (unsigned int icol=0;icol<cols_[icols].size();icol++){ /* std::cout << "Will turn off pixel col=" <<cols_[old_icols][icol] <<" row="<<rows_[old_irows][irow]<<std::endl; */ unsigned int bits=trims->trim(cols_[icols][icol],rows_[irows][irow]); pixelFEC->progpix(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), cols_[icols][icol], rows_[irows][irow], bits,_bufferData); } } }
void PixelCalibConfiguration::disablePixels | ( | PixelFECConfigInterface * | pixelFEC, |
pos::PixelROCTrimBits * | trims, | ||
PixelHdwAddress | theROC | ||
) | const [private] |
Definition at line 1511 of file PixelCalibConfiguration.cc.
References _bufferData, bits, pos::PixelHdwAddress::hubaddress(), pos::PixelHdwAddress::mfec(), pos::PixelHdwAddress::mfecchannel(), pos::PixelHdwAddress::portaddress(), pos::PixelFECConfigInterface::progpix(), pos::PixelHdwAddress::rocid(), and pos::PixelROCTrimBits::trim().
{ //cout<<" disable ROC "<<theROC.hubaddress()<<" "<<theROC.rocid()<<endl; //FIXME This should be done with more efficient commands! for (unsigned int row=0;row<80;row++){ for (unsigned int col=0;col<52;col++){ unsigned int bits=trims->trim(col,row); pixelFEC->progpix(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), col, row, bits,_bufferData); } } }
void PixelCalibConfiguration::enablePixels | ( | PixelFECConfigInterface * | pixelFEC, |
unsigned int | irows, | ||
unsigned int | icols, | ||
pos::PixelROCMaskBits * | masks, | ||
pos::PixelROCTrimBits * | trims, | ||
PixelHdwAddress | theROC | ||
) | const [private] |
Definition at line 1455 of file PixelCalibConfiguration.cc.
References _bufferData, bits, cols_, pos::PixelHdwAddress::hubaddress(), pos::PixelROCMaskBits::mask(), pos::PixelHdwAddress::mfec(), pos::PixelHdwAddress::mfecchannel(), pos::PixelHdwAddress::portaddress(), pos::PixelFECConfigInterface::progpix(), pos::PixelHdwAddress::rocid(), rows_, and pos::PixelROCTrimBits::trim().
Referenced by nextFECState().
{ for (unsigned int irow=0;irow<rows_[irows].size();irow++){ for (unsigned int icol=0;icol<cols_[icols].size();icol++){ /* std::cout << "Will turn on pixel col=" <<cols_[icols][icol] <<" row="<<rows_[irows][irow]<<std::endl; */ unsigned int bits=trims->trim(cols_[icols][icol],rows_[irows][irow]); //if masks==0 always enable pixel if (masks==0|| masks->mask(cols_[icols][icol],rows_[irows][irow])) bits|=0x80; pixelFEC->progpix(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), cols_[icols][icol], rows_[irows][irow], bits,_bufferData); } } }
std::vector< std::pair< unsigned int, std::vector< unsigned int > > > & PixelCalibConfiguration::fedCardsAndChannels | ( | unsigned int | crate, |
PixelNameTranslation * | translation, | ||
PixelFEDConfig * | fedconfig, | ||
PixelDetectorConfig * | detconfig | ||
) | const |
Definition at line 1265 of file PixelCalibConfiguration.cc.
References pos::PixelDetectorConfig::containsModule(), pos::PixelFEDConfig::crateFromFEDNumber(), fedCardsAndChannels_, pos::PixelHdwAddress::fedchannel(), pos::PixelHdwAddress::fednumber(), first, newFWLiteAna::found, pos::PixelNameTranslation::getHdwAddress(), i, getHLTprescales::index, j, gen::k, python::rootplot::argparse::module, rocAndModuleListsBuilt_, rocs_, and tmp.
{ assert(rocAndModuleListsBuilt_); assert(rocs_.size()!=0); for(unsigned int i=0;i<rocs_.size();i++){ PixelModuleName module(rocs_[i].rocname()); if (!detconfig->containsModule(module)) continue; const PixelHdwAddress* hdw=translation->getHdwAddress(rocs_[i]); assert(hdw!=0); //std::cout << "ROC, fednumber:"<<rocs_[i]<<" "<<hdw->fednumber() // << std::endl; //first check if fed associated with the roc is in the right crate if (fedconfig->crateFromFEDNumber(hdw->fednumber())!=crate) continue; //next look if we have already found fed number unsigned int index=fedCardsAndChannels_.size(); for(unsigned int j=0;j<fedCardsAndChannels_.size();j++){ if (fedCardsAndChannels_[j].first==hdw->fednumber()){ index=j; break; } } //If we didn't find the fedcard we will create it if (index==fedCardsAndChannels_.size()){ std::vector<unsigned int> tmp; tmp.push_back(hdw->fedchannel()); std::pair<unsigned int, std::vector<unsigned int> > tmp2(hdw->fednumber(),tmp); fedCardsAndChannels_.push_back(tmp2); continue; } //Now look and see if the channel has been added std::vector<unsigned int>& channels=fedCardsAndChannels_[index].second; bool found=false; for(unsigned int k=0;k<channels.size();k++){ if (channels[k]==hdw->fedchannel()) { found=true; break; } } if (found) continue; channels.push_back(hdw->fedchannel()); } return fedCardsAndChannels_; }
std::set< unsigned int > PixelCalibConfiguration::getFECCrates | ( | const PixelNameTranslation * | translation, |
const PixelFECConfig * | fecconfig | ||
) | const |
Definition at line 1358 of file PixelCalibConfiguration.cc.
References pos::PixelFECConfig::crateFromFECNumber(), pos::PixelHdwAddress::fecnumber(), pos::PixelNameTranslation::getChannelsOnModule(), pos::PixelNameTranslation::getHdwAddress(), modules_, and rocAndModuleListsBuilt_.
{ assert(rocAndModuleListsBuilt_); std::set<unsigned int> feccrates; assert(modules_.size()!=0); std::set<PixelModuleName>::iterator imodule=modules_.begin(); for (;imodule!=modules_.end();++imodule) { std::set<PixelChannel> channelsOnThisModule = translation->getChannelsOnModule(*imodule); for ( std::set<PixelChannel>::const_iterator channelsOnThisModule_itr = channelsOnThisModule.begin(); channelsOnThisModule_itr != channelsOnThisModule.end(); channelsOnThisModule_itr++ ) { const PixelHdwAddress& channel_hdwaddress = translation->getHdwAddress(*channelsOnThisModule_itr); unsigned int fecnumber=channel_hdwaddress.fecnumber(); feccrates.insert(fecconfig->crateFromFECNumber(fecnumber)); } } return feccrates; }
std::set< unsigned int > PixelCalibConfiguration::getFEDCrates | ( | const PixelNameTranslation * | translation, |
const PixelFEDConfig * | fedconfig | ||
) | const |
Definition at line 1336 of file PixelCalibConfiguration.cc.
References pos::PixelFEDConfig::crateFromFEDNumber(), pos::PixelHdwAddress::fednumber(), pos::PixelNameTranslation::getChannelsOnModule(), pos::PixelNameTranslation::getHdwAddress(), modules_, and rocAndModuleListsBuilt_.
{ assert(rocAndModuleListsBuilt_); std::set<unsigned int> fedcrates; assert(modules_.size()!=0); std::set<PixelModuleName>::iterator imodule=modules_.begin(); for (;imodule!=modules_.end();++imodule) { std::set<PixelChannel> channelsOnThisModule = translation->getChannelsOnModule(*imodule); for ( std::set<PixelChannel>::const_iterator channelsOnThisModule_itr = channelsOnThisModule.begin(); channelsOnThisModule_itr != channelsOnThisModule.end(); channelsOnThisModule_itr++ ) { const PixelHdwAddress& channel_hdwaddress = translation->getHdwAddress(*channelsOnThisModule_itr); unsigned int fednumber=channel_hdwaddress.fednumber(); fedcrates.insert(fedconfig->crateFromFEDNumber(fednumber)); } } return fedcrates; }
std::map< unsigned int, std::set< unsigned int > > PixelCalibConfiguration::getFEDsAndChannels | ( | PixelNameTranslation * | translation | ) |
Definition at line 1318 of file PixelCalibConfiguration.cc.
References pos::PixelHdwAddress::fedchannel(), pos::PixelHdwAddress::fednumber(), pos::PixelNameTranslation::getHdwAddress(), rocAndModuleListsBuilt_, and rocs_.
{ assert(rocAndModuleListsBuilt_); std::map <unsigned int, std::set<unsigned int> > fedsChannels; assert(rocs_.size()!=0); std::vector<PixelROCName>::iterator iroc=rocs_.begin(); for (;iroc!=rocs_.end();++iroc){ const PixelHdwAddress *roc_hdwaddress=translation->getHdwAddress(*iroc); unsigned int fednumber=roc_hdwaddress->fednumber(); unsigned int fedchannel=roc_hdwaddress->fedchannel(); fedsChannels[fednumber].insert(fedchannel); } return fedsChannels; }
std::string pos::PixelCalibConfiguration::getStreamedContent | ( | void | ) | const [inline] |
Definition at line 171 of file PixelCalibConfiguration.h.
References calibFileContent_.
{return calibFileContent_;} ;
std::set< unsigned int > PixelCalibConfiguration::getTKFECCrates | ( | const PixelPortcardMap * | portcardmap, |
const std::map< std::string, PixelPortCardConfig * > & | mapNamePortCard, | ||
const PixelTKFECConfig * | tkfecconfig | ||
) | const |
Definition at line 1380 of file PixelCalibConfiguration.cc.
References pos::PixelTKFECConfig::crateFromTKFECID(), modules_, pos::PixelPortcardMap::portcards(), rocAndModuleListsBuilt_, and AlCaHLTBitMon_QueryRunRegistry::string.
{ assert(rocAndModuleListsBuilt_); std::set<unsigned int> tkfeccrates; assert(modules_.size()!=0); std::set<PixelModuleName>::iterator imodule=modules_.begin(); for (;imodule!=modules_.end();++imodule) { // implement this by module --(PixelPortcardMap)-> port card(s) --(PixelPortCardConfig)-> FEC # --(PixelFECConfig theTKFECConfiguration_)-> crate const std::set< std::string > portCards = portcardmap->portcards(*imodule); for ( std::set< std::string >::const_iterator portCards_itr = portCards.begin(); portCards_itr != portCards.end(); ++portCards_itr) { const std::string portcardname=*portCards_itr; std::map<std::string,PixelPortCardConfig*>::const_iterator portcardconfig_itr = mapNamePortCard.find(portcardname); assert(portcardconfig_itr != mapNamePortCard.end()); PixelPortCardConfig* portcardconfig = portcardconfig_itr->second; std::string TKFECID = portcardconfig->getTKFECID(); tkfeccrates.insert(tkfecconfig->crateFromTKFECID(TKFECID)); } } return tkfeccrates; }
unsigned int PixelCalibConfiguration::iScan | ( | std::string | dac | ) | const |
Definition at line 801 of file PixelCalibConfiguration.cc.
References gather_cfg::cout, dacs_, i, and mergeVDriftHistosByStation::name.
Referenced by nScanPoints(), scanCounter(), scanValue(), scanValueMax(), scanValueMin(), scanValues(), scanValuesMixedAcrossROCs(), and scanValueStep().
unsigned int PixelCalibConfiguration::maxNumHitsPerROC | ( | ) | const |
Definition at line 1633 of file PixelCalibConfiguration.cc.
References cols_, max(), and rows_.
Referenced by noHits().
{ unsigned int returnValue = 0; for ( std::vector<std::vector<unsigned int> >::const_iterator rows_itr = rows_.begin(); rows_itr != rows_.end(); rows_itr++ ) { for ( std::vector<std::vector<unsigned int> >::const_iterator cols_itr = cols_.begin(); cols_itr != cols_.end(); cols_itr++ ) { unsigned int theSize = rows_itr->size()*cols_itr->size(); returnValue = max( returnValue, theSize ); } } return returnValue; }
std::string pos::PixelCalibConfiguration::mode | ( | ) | const [inline, virtual] |
Reimplemented from pos::PixelCalibBase.
Definition at line 159 of file PixelCalibConfiguration.h.
References pos::PixelCalibBase::mode_.
Referenced by nextFECState(), and SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{return mode_;}
const std::set<PixelModuleName>& pos::PixelCalibConfiguration::moduleList | ( | ) | const [inline] |
Definition at line 156 of file PixelCalibConfiguration.h.
References modules_, and rocAndModuleListsBuilt_.
Referenced by buildROCAndModuleLists().
{assert(rocAndModuleListsBuilt_); return modules_;}
unsigned int pos::PixelCalibConfiguration::nConfigurations | ( | ) | const [inline] |
Definition at line 112 of file PixelCalibConfiguration.h.
References nPixelPatterns(), nROC(), and nScanPoints().
Referenced by nextFECState(), nTriggersTotal(), scanCounter(), and scanROC().
{ return nPixelPatterns()*nScanPoints()*nROC();}
void PixelCalibConfiguration::nextFECState | ( | std::map< unsigned int, PixelFECConfigInterface * > & | pixelFECs, |
PixelDetectorConfig * | detconfig, | ||
PixelNameTranslation * | trans, | ||
std::map< pos::PixelModuleName, pos::PixelMaskBase * > * | masks, | ||
std::map< pos::PixelModuleName, pos::PixelTrimBase * > * | trims, | ||
std::map< pos::PixelModuleName, pos::PixelDACSettings * > * | dacss, | ||
unsigned int | state | ||
) | const |
Definition at line 910 of file PixelCalibConfiguration.cc.
References _bufferData, colCounter(), cols_, gather_cfg::cout, dacs_, pos::PixelROCInfo::defaultDACs_, disablePixels(), enablePixels(), pos::PixelHdwAddress::fecnumber(), first, pos::PixelNameTranslation::getChannelForROC(), pos::PixelNameTranslation::getHdwAddress(), pos::PixelROCInfo::hdwadd_, highVCalRange_, pos::PixelHdwAddress::hubaddress(), i, j, pos::k_DACAddress_WBC, pos::PixelROCInfo::masks_, max(), pos::PixelHdwAddress::mfec(), pos::PixelHdwAddress::mfecchannel(), mode(), python::rootplot::argparse::module, n, mergeVDriftHistosByStation::name, nConfigurations(), parameterValue(), pos::PixelHdwAddress::portaddress(), relativeConstraints::relative, rocAndModuleListsBuilt_, pos::PixelHdwAddress::rocid(), rocInfo_, rocs_, rowCounter(), rows_, scanCounter(), scanningROCForState(), scanValue(), AlCaHLTBitMon_QueryRunRegistry::string, pos::PixelROCInfo::tbmChannel_, pos::PixelChannel::TBMChannelString(), pos::PixelROCInfo::trims_, and pos::PixelROCInfo::use_.
{ std::string mthn = "[PixelCalibConfiguration::nextFECState()]\t\t " ; std::string modeName=parameterValue("ScanMode"); int mode=-1; if (modeName=="maskAllPixel") mode=0; if (modeName=="useAllPixel"||modeName=="") mode=1; if (modeName=="default") mode=2; static bool first=true; if (first) { cout << __LINE__ << "]\t" << mthn << "mode="<<mode<<endl; first=false; } if (mode==-1) { cout << __LINE__ << "]\t" << mthn << "ScanMode=" << modeName << " not understood."<< endl; ::abort(); } if (rocInfo_.size()==0){ //here we will do some initialization... for(unsigned int i=0;i<rocs_.size();i++){ const PixelHdwAddress* hdwadd=trans->getHdwAddress(rocs_[i]); PixelROCInfo rocInfo; rocInfo.use_=true; //FIXME This is very inefficient PixelModuleName module(rocs_[i].rocname()); std::map<pos::PixelModuleName,pos::PixelMaskBase*>::const_iterator foundMask = masks->find(module); if (foundMask==masks->end()){ rocInfo.use_=false; rocInfo_.push_back(rocInfo); continue; } rocInfo.hdwadd_=hdwadd; rocInfo.trims_=(*trims)[module]->getTrimBits(rocs_[i]); rocInfo.masks_=(*masks)[module]->getMaskBits(rocs_[i]); #ifdef BPIX const PixelChannel channel = trans->getChannelForROC(rocs_[i]); string tbmChannel = channel.TBMChannelString(); //cout<<" tbm channel "<<tbmChannel<<endl; rocInfo.tbmChannel_ = tbmChannel; #endif std::map<std::string, unsigned int> defaultDACValues; (*dacs)[PixelModuleName(rocs_[i].rocname())]->getDACSettings(rocs_[i])->getDACs(defaultDACValues); for ( std::vector<PixelDACScanRange>::const_iterator dacs_itr = dacs_.begin(); dacs_itr != dacs_.end(); dacs_itr++ ) { std::map<std::string, unsigned int>::const_iterator foundThisDAC = defaultDACValues.find(dacs_itr->name()); assert( foundThisDAC != defaultDACValues.end() ); pair<unsigned int, unsigned int> dacchannelAndValue(dacs_itr->dacchannel(), foundThisDAC->second); rocInfo.defaultDACs_.push_back(dacchannelAndValue); } rocInfo_.push_back(rocInfo); } } assert(rocs_.size()==rocInfo_.size()); bool changedWBC=false; //std::map<unsigned int, PixelFECConfigInterface*>::iterator iPixelFEC=pixelFECs.begin(); //for(;iPixelFEC!=pixelFECs.end();++iPixelFEC){ //iPixelFEC->second->fecDebug(1); //} //unsigned long version=0; //pixelFEC->getversion(&version); //std::cout<<"mfec firmware version:"<<version<<std::endl; assert(rocAndModuleListsBuilt_); assert(state<nConfigurations()); // Which set of rows we're on. unsigned int i_row=rowCounter(state); // Which set of columns we're on. unsigned int i_col=colCounter(state); // Whether we're beginning a new scan over the DACs after changing which ROC or which pixel pattern. unsigned int first_scan=true; for (unsigned int i=0;i<dacs_.size();i++){ if (scanCounter(i,state)!=0) first_scan=false; } // Disable all pixels at the beginning. if (state==0&&(mode==0||mode==1)) { for(unsigned int i=0;i<rocs_.size();i++){ if (!rocInfo_[i].use_) continue; PixelHdwAddress theROC=*rocInfo_[i].hdwadd_; PixelROCTrimBits* rocTrims=rocInfo_[i].trims_; //Turn off all pixels disablePixels(pixelFECs[theROC.fecnumber()], rocTrims, theROC); } // reset //cout<<"finish init"<<endl; //sleep(1); //pixelFEC->injectrstroc(7,1); // or do pixelFEC->rocreset(theROC.mfec(), // theROC.mfecchannel(), // 14, //FIXME hardcode for Channel A // theROC.hubaddress()); } // When a scan is complete for a given ROC or pixel pattern, reset the DACs to default values and disable the previously-enabled pixels. if (first_scan && state!=0 && mode!=2){ unsigned int previousState=state-1; unsigned int i_row_previous=rowCounter(previousState); unsigned int i_col_previous=colCounter(previousState); for(unsigned int i=0;i<rocs_.size();i++){ if (!rocInfo_[i].use_) continue; PixelHdwAddress theROC=*rocInfo_[i].hdwadd_; if ( !scanningROCForState(rocs_[i], previousState) ) continue; // Set the DACs back to their default values when we're done with a scan. for ( unsigned int j=0; j< dacs_.size(); j++ ) { //Try to not reprogram DACs as often.. if (state!=0){ if (scanCounter(dacs_[j].name(),state)==scanCounter(dacs_[j].name(),state-1)){ continue; } } pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), rocInfo_[i].defaultDACs_[j].first, rocInfo_[i].defaultDACs_[j].second, _bufferData); if (dacs_[j].dacchannel()==k_DACAddress_WBC) { changedWBC=true; //cout << "Changed WBC 1"<<endl; } } PixelROCTrimBits* rocTrims=rocInfo_[i].trims_; disablePixels(pixelFECs[theROC.fecnumber()], i_row_previous, i_col_previous, rocTrims, theROC); } } // Set each ROC with the new settings for this state. for(unsigned int i=0;i<rocs_.size();i++){ if (!rocInfo_[i].use_) continue; PixelHdwAddress theROC=*rocInfo_[i].hdwadd_; // Skip this ROC if we're in SingleROC mode and we're not on this ROC number. if ( !scanningROCForState(rocs_[i], state) ) continue; // std::cout << "Will call progdac for vcal:"<< vcal << std::endl; // Program all the DAC values. for (unsigned int ii=0;ii<dacs_.size();ii++){ //Try to not reprogram DACs as often.. if (state!=0){ if (scanCounter(dacs_[ii].name(),state)==scanCounter(dacs_[ii].name(),state-1)){ continue; } } int dacvalue = scanValue(ii, state, rocs_[i]); //cout << "dacname ii:"<<dacs_[ii].name()<<" "<<ii<<endl; if (dacs_[ii].relative()){ //We have to find the default DAC setting so that we can //add the offset as we are in relative mode. if (dacs_[ii].negative()) dacvalue=-dacvalue; dacvalue+=rocInfo_[i].defaultDACs_[ii].second; //cout << "[PixelCalibConfiguration::nextFECState] ROC="<<rocs_[i] // << " dac="<<dacs_[ii].name()<<" new value="<<dacvalue<<endl; } pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), rocInfo_[i].defaultDACs_[ii].first, dacvalue,_bufferData); if (dacs_[ii].dacchannel()==k_DACAddress_WBC) { changedWBC=true; //cout << "Changed WBC 2"<<endl; } } // At the beginning of a scan, set the pixel pattern. if (first_scan){ // Set masks and trims. if (mode!=2){ PixelROCMaskBits* rocMasks=rocInfo_[i].masks_; PixelROCTrimBits* rocTrims=rocInfo_[i].trims_; if (mode==1) rocMasks=0; //std::cout << "Will enable pixels!" <<std::endl; enablePixels(pixelFECs[theROC.fecnumber()], i_row, i_col, rocMasks, rocTrims, theROC); } // Set high or low Vcal range. if (state==0) { PixelModuleName module(rocs_[i].rocname()); unsigned int roccontrolword=(*dacs)[module]->getDACSettings(rocs_[i])->getControlRegister(); //range is controlled here by one bit, but rest must match config //bit 0 on/off= 20/40 MHz speed; bit 1 on/off=disabled/enable; bit 3=Vcal range if (highVCalRange_) roccontrolword|=0x4; //turn range bit on else roccontrolword&=0xfb; //turn range bit off pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), 0xfd, roccontrolword,_bufferData); } // Clear all pixels before setting the pixel pattern. pixelFECs[theROC.fecnumber()]->clrcal(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(),_bufferData); // Program the pixel pattern. unsigned int nrow=rows_[i_row].size(); unsigned int ncol=cols_[i_col].size(); unsigned int nmax=std::max(nrow,ncol); if (nrow==0||ncol==0) nmax=0; for (unsigned int n=0;n<nmax;n++){ unsigned int irow=n; unsigned int icol=n; if (irow>=nrow) irow=nrow-1; if (icol>=ncol) icol=ncol-1; unsigned int row=rows_[i_row][irow]; unsigned int col=cols_[i_col][icol]; pixelFECs[theROC.fecnumber()]->calpix(theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), col, row, 1,_bufferData); } } // end of instructions for the beginning of a scan } // end of loop over ROCs if (_bufferData) { std::map<unsigned int, PixelFECConfigInterface*>::iterator iPixelFEC=pixelFECs.begin(); for(;iPixelFEC!=pixelFECs.end();++iPixelFEC){ iPixelFEC->second->qbufsend(); } } if (changedWBC){ for(unsigned int i=0;i<rocs_.size();i++){ if (!rocInfo_[i].use_) continue; PixelHdwAddress theROC=*rocInfo_[i].hdwadd_; int tbmRegister = 14; // define for TBM-A #ifdef BPIX string tbmChannel = rocInfo_[i].tbmChannel_; // get TBM channel if( tbmChannel=="B") tbmRegister = 15; // for TBM=B #endif pixelFECs[theROC.fecnumber()]->rocreset(theROC.mfec(), theROC.mfecchannel(), tbmRegister, theROC.hubaddress()); } // for rocs } return; }
bool pos::PixelCalibConfiguration::noHits | ( | ) | const [inline] |
Definition at line 115 of file PixelCalibConfiguration.h.
References maxNumHitsPerROC().
{return (maxNumHitsPerROC()==0);} // returns true if no hits will be produced
unsigned int pos::PixelCalibConfiguration::nParameters | ( | ) | const [inline] |
Definition at line 163 of file PixelCalibConfiguration.h.
References parameters_.
{return parameters_.size();}
unsigned int pos::PixelCalibConfiguration::nPixelPatterns | ( | ) | const [inline] |
Definition at line 102 of file PixelCalibConfiguration.h.
Referenced by nConfigurations().
unsigned int pos::PixelCalibConfiguration::nROC | ( | ) | const [inline] |
Definition at line 101 of file PixelCalibConfiguration.h.
References nROC_, and rocAndModuleListsBuilt_.
Referenced by nConfigurations().
{ assert(rocAndModuleListsBuilt_); return nROC_; }
unsigned int pos::PixelCalibConfiguration::nScanPoints | ( | std::string | dac | ) | const [inline] |
Definition at line 104 of file PixelCalibConfiguration.h.
References iScan(), and nScanPoints().
Referenced by nScanPoints().
{ return nScanPoints(iScan(dac)); }
unsigned int pos::PixelCalibConfiguration::nScanPoints | ( | ) | const [inline] |
Definition at line 106 of file PixelCalibConfiguration.h.
Referenced by colCounter(), nConfigurations(), rowCounter(), scanCounter(), scanROC(), scanValue(), and scanValueMax().
unsigned int pos::PixelCalibConfiguration::nScanPoints | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 204 of file PixelCalibConfiguration.h.
References dacs_.
{ return dacs_[iscan].getNPoints(); }
unsigned int pos::PixelCalibConfiguration::nTriggersPerPattern | ( | ) | const [inline] |
Definition at line 103 of file PixelCalibConfiguration.h.
References ntrigger_.
Referenced by nTriggersTotal(), and SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{ return ntrigger_; }
unsigned int pos::PixelCalibConfiguration::nTriggersTotal | ( | ) | const [inline] |
Definition at line 113 of file PixelCalibConfiguration.h.
References nConfigurations(), and nTriggersPerPattern().
{return nConfigurations()*nTriggersPerPattern();}
unsigned int pos::PixelCalibConfiguration::numberOfScanVariables | ( | ) | const [inline] |
Definition at line 139 of file PixelCalibConfiguration.h.
References dacs_.
Referenced by containsScan().
{return dacs_.size();}
unsigned int PixelCalibConfiguration::numROCsCalibratedOnChannel | ( | PixelROCName | roc | ) | const [private] |
Definition at line 870 of file PixelCalibConfiguration.cc.
References numROCsCalibratedOnChannel_, and objectsDependingOnTheNameTranslationBuilt_.
Referenced by scanValue().
{ assert( objectsDependingOnTheNameTranslationBuilt_ ); std::map <PixelROCName, unsigned int>::const_iterator foundROC = numROCsCalibratedOnChannel_.find(roc); assert( foundROC != numROCsCalibratedOnChannel_.end() ); return foundROC->second; }
std::map<std::string, std::string> pos::PixelCalibConfiguration::parametersList | ( | ) | const [inline] |
Definition at line 166 of file PixelCalibConfiguration.h.
References parameters_.
{return parameters_;}
std::string PixelCalibConfiguration::parameterValue | ( | std::string | parameterName | ) | const |
Definition at line 1532 of file PixelCalibConfiguration.cc.
References parameters_.
Referenced by nextFECState().
{ std::map<std::string, std::string>::const_iterator itr = parameters_.find(parameterName); if (itr == parameters_.end()) // parameterName is not in the list { return ""; } else { return itr->second; } }
std::set< std::pair< unsigned int, unsigned int > > PixelCalibConfiguration::pixelsWithHits | ( | unsigned int | state | ) | const |
Definition at line 1647 of file PixelCalibConfiguration.cc.
References begin, colCounter(), cols_, rowCounter(), and rows_.
{ std::set< std::pair<unsigned int, unsigned int> > pixels; // column # row # for ( std::vector<unsigned int>::const_iterator col_itr = cols_[colCounter(state)].begin(); col_itr != cols_[colCounter(state)].end(); col_itr++ ) { for ( std::vector<unsigned int>::const_iterator row_itr = rows_[rowCounter(state)].begin(); row_itr != rows_[rowCounter(state)].end(); row_itr++ ) { pixels.insert( std::pair<unsigned int, unsigned int>( *col_itr, *row_itr ) ); } } return pixels; }
const std::vector<PixelROCName>& pos::PixelCalibConfiguration::rocList | ( | ) | const [inline] |
Definition at line 155 of file PixelCalibConfiguration.h.
References rocAndModuleListsBuilt_, and rocs_.
{assert(rocAndModuleListsBuilt_); return rocs_;}
unsigned int PixelCalibConfiguration::ROCNumberOnChannelAmongThoseCalibrated | ( | PixelROCName | roc | ) | const [private] |
Definition at line 862 of file PixelCalibConfiguration.cc.
References objectsDependingOnTheNameTranslationBuilt_, and ROCNumberOnChannelAmongThoseCalibrated_.
Referenced by scanningROCForState(), and scanValue().
{ assert( objectsDependingOnTheNameTranslationBuilt_ ); std::map <PixelROCName, unsigned int>::const_iterator foundROC = ROCNumberOnChannelAmongThoseCalibrated_.find(roc); assert( foundROC != ROCNumberOnChannelAmongThoseCalibrated_.end() ); return foundROC->second; }
unsigned int PixelCalibConfiguration::rowCounter | ( | unsigned int | state | ) | const [private] |
Definition at line 896 of file PixelCalibConfiguration.cc.
References cols_, nScanPoints(), rows_, and scanROC().
Referenced by colCounter(), nextFECState(), and pixelsWithHits().
{ unsigned int i_row=( state - scanROC(state)*cols_.size()*rows_.size()*nScanPoints() )/( cols_.size()*nScanPoints() ); assert(i_row<rows_.size()); return i_row; }
const std::vector<std::vector<unsigned int> >& pos::PixelCalibConfiguration::rowList | ( | ) | const [inline] |
Definition at line 154 of file PixelCalibConfiguration.h.
References rows_.
Referenced by SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{return rows_;}
unsigned int pos::PixelCalibConfiguration::scanCounter | ( | std::string | dac, |
unsigned int | state | ||
) | const [inline] |
Definition at line 125 of file PixelCalibConfiguration.h.
References iScan().
Referenced by nextFECState(), and scanValue().
{ return scanCounter(iScan(dac),state); }
unsigned int PixelCalibConfiguration::scanCounter | ( | unsigned int | iscan, |
unsigned int | state | ||
) | const [private] |
Definition at line 878 of file PixelCalibConfiguration.cc.
References i, nConfigurations(), and nScanPoints().
{ assert(state<nConfigurations()); unsigned int i_scan=state%nScanPoints(); for(unsigned int i=0;i<iscan;i++){ i_scan/=nScanPoints(i); } unsigned int i_threshold=i_scan%nScanPoints(iscan); return i_threshold; }
std::string pos::PixelCalibConfiguration::scanName | ( | unsigned int | iscan | ) | const [inline] |
Definition at line 143 of file PixelCalibConfiguration.h.
References dacs_.
Referenced by containsScan(), and SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{return dacs_[iscan].name();}
bool PixelCalibConfiguration::scanningROCForState | ( | PixelROCName | roc, |
unsigned int | state | ||
) | const |
Definition at line 846 of file PixelCalibConfiguration.cc.
References ROCNumberOnChannelAmongThoseCalibrated(), scanROC(), and singleROC_.
Referenced by nextFECState().
{ if (!singleROC_) return true; return scanROC(state) == ROCNumberOnChannelAmongThoseCalibrated(roc); }
unsigned int PixelCalibConfiguration::scanROC | ( | unsigned int | state | ) | const [private] |
Definition at line 818 of file PixelCalibConfiguration.cc.
References cols_, nConfigurations(), nScanPoints(), and rows_.
Referenced by colCounter(), rowCounter(), and scanningROCForState().
{ assert(state<nConfigurations()); unsigned int i_ROC=state/(cols_.size()*rows_.size()*nScanPoints()); return i_ROC; }
unsigned int pos::PixelCalibConfiguration::scanValue | ( | std::string | dac, |
unsigned int | state, | ||
PixelROCName | roc | ||
) | const [inline] |
Definition at line 129 of file PixelCalibConfiguration.h.
References iScan().
Referenced by nextFECState(), and scanValue().
unsigned int pos::PixelCalibConfiguration::scanValue | ( | std::string | dac, |
unsigned int | state | ||
) | const [inline] |
Definition at line 134 of file PixelCalibConfiguration.h.
References dacs_, iScan(), and scanValue().
unsigned int PixelCalibConfiguration::scanValue | ( | unsigned int | iscan, |
unsigned int | state, | ||
unsigned int | ROCNumber, | ||
unsigned int | ROCsOnChannel | ||
) | const [private] |
Definition at line 828 of file PixelCalibConfiguration.cc.
References dacs_, nScanPoints(), scanCounter(), and dtDQMClient_cfg::threshold.
{ unsigned int i_threshold = scanCounter(iscan, state); // Spread the DAC values on the different ROCs uniformly across the scan range. if ( dacs_[iscan].mixValuesAcrossROCs() ) i_threshold = (i_threshold + (nScanPoints(iscan)*ROCNumber)/ROCsOnChannel)%nScanPoints(iscan); unsigned int threshold=dacs_[iscan].value(i_threshold); //assert(threshold==dacs_[iscan].first()+i_threshold*dacs_[iscan].step()); return threshold; }
unsigned int PixelCalibConfiguration::scanValue | ( | unsigned int | iscan, |
unsigned int | state, | ||
PixelROCName | roc | ||
) | const [private] |
Definition at line 852 of file PixelCalibConfiguration.cc.
References numROCsCalibratedOnChannel(), ROCNumberOnChannelAmongThoseCalibrated(), and scanValue().
{ unsigned int ROCNumber = ROCNumberOnChannelAmongThoseCalibrated(roc); unsigned int ROCsOnChannel = numROCsCalibratedOnChannel(roc); return scanValue( iscan, state, ROCNumber, ROCsOnChannel ); }
double pos::PixelCalibConfiguration::scanValueMax | ( | std::string | dac | ) | const [inline] |
Definition at line 147 of file PixelCalibConfiguration.h.
References iScan(), and scanValueMax().
Referenced by scanValueMax().
{return scanValueMax(iScan(dac));}
double pos::PixelCalibConfiguration::scanValueMax | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 214 of file PixelCalibConfiguration.h.
References dacs_, and nScanPoints().
{return dacs_[iscan].first()+ dacs_[iscan].step()*(nScanPoints(iscan)-1);}
double pos::PixelCalibConfiguration::scanValueMin | ( | std::string | dac | ) | const [inline] |
Definition at line 146 of file PixelCalibConfiguration.h.
References iScan(), and scanValueMin().
Referenced by scanValueMin().
{return scanValueMin(iScan(dac));}
double pos::PixelCalibConfiguration::scanValueMin | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 213 of file PixelCalibConfiguration.h.
References dacs_.
{return dacs_[iscan].first();}
std::vector<unsigned int> pos::PixelCalibConfiguration::scanValues | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 211 of file PixelCalibConfiguration.h.
References dacs_.
{return dacs_[iscan].values();}
std::vector<unsigned int> pos::PixelCalibConfiguration::scanValues | ( | std::string | dac | ) | const [inline] |
Definition at line 144 of file PixelCalibConfiguration.h.
References iScan(), and scanValues().
Referenced by scanValues(), and SiPixelCalibConfiguration::SiPixelCalibConfiguration().
{return scanValues(iScan(dac));}
bool pos::PixelCalibConfiguration::scanValuesMixedAcrossROCs | ( | std::string | dac | ) | const [inline] |
Definition at line 149 of file PixelCalibConfiguration.h.
References iScan(), and scanValuesMixedAcrossROCs().
Referenced by scanValuesMixedAcrossROCs().
{return scanValuesMixedAcrossROCs(iScan(dac));}
bool pos::PixelCalibConfiguration::scanValuesMixedAcrossROCs | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 217 of file PixelCalibConfiguration.h.
References dacs_.
{return dacs_[iscan].mixValuesAcrossROCs();}
double pos::PixelCalibConfiguration::scanValueStep | ( | unsigned int | iscan | ) | const [inline, private] |
Definition at line 216 of file PixelCalibConfiguration.h.
References dacs_.
{return dacs_[iscan].step();}
double pos::PixelCalibConfiguration::scanValueStep | ( | std::string | dac | ) | const [inline] |
Definition at line 148 of file PixelCalibConfiguration.h.
References iScan(), and scanValueStep().
Referenced by scanValueStep().
{return scanValueStep(iScan(dac));}
bool pos::PixelCalibConfiguration::singleROC | ( | ) | const [inline] |
Definition at line 161 of file PixelCalibConfiguration.h.
References singleROC_.
{return singleROC_;}
void PixelCalibConfiguration::writeASCII | ( | std::string | dir = "" | ) | const [virtual] |
Implements pos::PixelConfigBase.
Definition at line 1545 of file PixelCalibConfiguration.cc.
References cols_, dacs_, lut2db_cfg::filename, first, highVCalRange_, i, j, pos::PixelCalibBase::mode_, ntrigger_, dbtoconf::out, parameters_, rocListInstructions_, rows_, singleROC_, AlCaHLTBitMon_QueryRunRegistry::string, and usesROCList_.
Referenced by writeXMLHeader().
{ //FIXME this is not tested for all the use cases... if (dir!="") dir+="/"; std::string filename=dir+"calib.dat"; std::ofstream out(filename.c_str()); out << "Mode: "<<mode_<<endl; if (singleROC_) out << "SingleROC"<<endl; if (!parameters_.empty()){ out << "Parameters:"<<endl; std::map<std::string, std::string>::const_iterator it=parameters_.begin(); for (;it!=parameters_.end();++it){ out << it->first << " " << it->second <<endl; } } out << "Rows:" <<endl; for (unsigned int i=0;i<rows_.size();i++){ for (unsigned int j=0;j<rows_[i].size();j++){ out << rows_[i][j] <<" "; } if (i!=rows_.size()-1) out <<"|"; out <<endl; } out << "Cols:" <<endl; for (unsigned int i=0;i<cols_.size();i++){ for (unsigned int j=0;j<cols_[i].size();j++){ out << cols_[i][j] <<" "; } if (i!=cols_.size()-1) out <<"|"; out <<endl; } if (highVCalRange_) { out << "VcalHigh" << endl; } else { out << "VcalLow" << endl; } for (unsigned int i=0;i<dacs_.size();i++){ if (dacs_[i].uniformSteps()) { if (dacs_[i].first()!=dacs_[i].last()) { out << "Scan: "<<dacs_[i].name()<<" "; out <<dacs_[i].first()<<" "; out <<dacs_[i].last()<<" "; out <<dacs_[i].step()<<endl; } else { out << "Set: "<<dacs_[i].name()<<" "; out <<dacs_[i].first()<<endl; } } else { out << "ScanValues: "<<dacs_[i].name()<<" "; for(unsigned int ival=0;ival<dacs_[i].getNPoints();ival++){ out << dacs_[i].value(ival)<<" "; } out<<" -1"<<endl; } } out << "Repeat:" <<endl; out << ntrigger_ << endl; if (usesROCList_){ out << "Rocs:"<< endl; } else{ out << "ToCalibrate:"<< endl; } for (unsigned int i=0;i<rocListInstructions_.size();i++){ out << rocListInstructions_[i] <<endl; if (rocListInstructions_[i]=="+"||rocListInstructions_[i]=="-"){ out << " "; } else { out << endl; } } out.close(); }
void PixelCalibConfiguration::writeXML | ( | std::ofstream * | out, |
std::ofstream * | out1 = NULL , |
||
std::ofstream * | out2 = NULL |
||
) | const [virtual] |
Reimplemented from pos::PixelCalibBase.
Definition at line 1725 of file PixelCalibConfiguration.cc.
References AlCaHLTBitMon_QueryRunRegistry::string.
{ std::string mthn = "[PixelCalibConfiguration::writeXML()]\t\t " ; *outstream << " " << std::endl ; *outstream << " <DATA>" << std::endl ; *outstream << " <CALIB_OBJ_DATA_FILE>./calib.dat</CALIB_OBJ_DATA_FILE>" << std::endl ; *outstream << " <CALIB_TYPE>calib</CALIB_TYPE>" << std::endl ; *outstream << " </DATA>" << std::endl ; *outstream << " " << std::endl ; }
void pos::PixelCalibConfiguration::writeXML | ( | pos::PixelConfigKey | key, |
int | version, | ||
std::string | path | ||
) | const [inline, virtual] |
Reimplemented from pos::PixelConfigBase.
Definition at line 176 of file PixelCalibConfiguration.h.
{;}
void PixelCalibConfiguration::writeXMLHeader | ( | pos::PixelConfigKey | key, |
int | version, | ||
std::string | path, | ||
std::ofstream * | out, | ||
std::ofstream * | out1 = NULL , |
||
std::ofstream * | out2 = NULL |
||
) | const [virtual] |
Reimplemented from pos::PixelConfigBase.
Definition at line 1676 of file PixelCalibConfiguration.cc.
References gather_cfg::cout, pos::PixelConfigBase::getAuthor(), pos::PixelConfigBase::getComment(), pos::PixelTimeFormatter::getmSecTime(), edm::service::getTime(), AlCaHLTBitMon_QueryRunRegistry::string, and writeASCII().
{ std::string mthn = "[PixelCalibConfiguration::writeXMLHeader()]\t\t " ; std::stringstream maskFullPath ; writeASCII(path) ; maskFullPath << path << "/PixelCalib_Test_" << PixelTimeFormatter::getmSecTime() << ".xml"; std::cout << __LINE__ << "]\t" << mthn << "Writing to: " << maskFullPath.str() << std::endl ; outstream->open(maskFullPath.str().c_str()) ; *outstream << "<?xml version='1.0' encoding='UTF-8' standalone='yes'?>" << std::endl ; *outstream << "<ROOT xmlns:xsi='https://www.w3.org/2001/XMLSchema-instance'>" << std::endl ; *outstream << "" << std::endl ; *outstream << " <!-- " << mthn << "-->" << std::endl ; *outstream << "" << std::endl ; *outstream << " <HEADER>" << std::endl ; *outstream << " <TYPE>" << std::endl ; *outstream << " <EXTENSION_TABLE_NAME>PIXEL_CALIB_CLOB</EXTENSION_TABLE_NAME>" << std::endl ; *outstream << " <NAME>Calibration Object Clob</NAME>" << std::endl ; *outstream << " </TYPE>" << std::endl ; *outstream << " <RUN>" << std::endl ; *outstream << " <RUN_TYPE>Gain Calibration</RUN_TYPE>" << std::endl ; *outstream << " <RUN_NUMBER>1</RUN_NUMBER>" << std::endl ; *outstream << " <RUN_BEGIN_TIMESTAMP>" << PixelTimeFormatter::getTime() << "</RUN_BEGIN_TIMESTAMP>" << std::endl ; *outstream << " <LOCATION>CERN P5</LOCATION>" << std::endl ; *outstream << " </RUN>" << std::endl ; *outstream << " </HEADER>" << std::endl ; *outstream << "" << std::endl ; *outstream << " <DATA_SET>" << std::endl ; *outstream << "" << std::endl ; *outstream << " <VERSION>" << version << "</VERSION>" << std::endl ; *outstream << " <COMMENT_DESCRIPTION>" << getComment() << "</COMMENT_DESCRIPTION>" << std::endl ; *outstream << " <CREATED_BY_USER>" << getAuthor() << "</CREATED_BY_USER>" << std::endl ; *outstream << "" << std::endl ; *outstream << " <PART>" << std::endl ; *outstream << " <NAME_LABEL>CMS-PIXEL-ROOT</NAME_LABEL>" << std::endl ; *outstream << " <KIND_OF_PART>Detector ROOT</KIND_OF_PART>" << std::endl ; *outstream << " </PART>" << std::endl ; }
void PixelCalibConfiguration::writeXMLTrailer | ( | std::ofstream * | out, |
std::ofstream * | out1 = NULL , |
||
std::ofstream * | out2 = NULL |
||
) | const [virtual] |
Reimplemented from pos::PixelCalibBase.
Definition at line 1741 of file PixelCalibConfiguration.cc.
References gather_cfg::cout, and AlCaHLTBitMon_QueryRunRegistry::string.
{ std::string mthn = "[PixelCalibConfiguration::writeXMLTrailer()]\t\t " ; *outstream << " </DATA_SET>" << std::endl ; *outstream << "</ROOT>" << std::endl ; outstream->close() ; std::cout << __LINE__ << "]\t" << mthn << "Data written " << std::endl ; }
std::ostream& pos::operator<< | ( | std::ostream & | s, |
const PixelCalibConfiguration & | calib | ||
) | [friend] |
bool pos::PixelCalibConfiguration::_bufferData [private] |
Definition at line 283 of file PixelCalibConfiguration.h.
Referenced by disablePixels(), enablePixels(), nextFECState(), and PixelCalibConfiguration().
std::string pos::PixelCalibConfiguration::calibFileContent_ [private] |
Definition at line 288 of file PixelCalibConfiguration.h.
Referenced by getStreamedContent(), and PixelCalibConfiguration().
std::set<PixelChannel> pos::PixelCalibConfiguration::channels_ [private] |
Definition at line 239 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), and channelList().
std::vector<std::vector<unsigned int> > pos::PixelCalibConfiguration::cols_ [private] |
Definition at line 230 of file PixelCalibConfiguration.h.
Referenced by colCounter(), columnList(), disablePixels(), enablePixels(), maxNumHitsPerROC(), nextFECState(), nPixelPatterns(), pos::operator<<(), PixelCalibConfiguration(), pixelsWithHits(), rowCounter(), scanROC(), and writeASCII().
std::vector<PixelDACScanRange> pos::PixelCalibConfiguration::dacs_ [private] |
Definition at line 249 of file PixelCalibConfiguration.h.
Referenced by iScan(), nextFECState(), nScanPoints(), numberOfScanVariables(), pos::operator<<(), PixelCalibConfiguration(), scanName(), scanValue(), scanValueMax(), scanValueMin(), scanValues(), scanValuesMixedAcrossROCs(), scanValueStep(), and writeASCII().
std::vector<std::pair<unsigned int, std::vector<unsigned int> > > pos::PixelCalibConfiguration::fedCardsAndChannels_ [mutable, private] |
Definition at line 244 of file PixelCalibConfiguration.h.
Referenced by fedCardsAndChannels().
bool pos::PixelCalibConfiguration::highVCalRange_ [private] |
Definition at line 260 of file PixelCalibConfiguration.h.
Referenced by nextFECState(), PixelCalibConfiguration(), and writeASCII().
std::set<PixelModuleName> pos::PixelCalibConfiguration::modules_ [private] |
Definition at line 234 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleListsFromROCSet(), getFECCrates(), getFEDCrates(), getTKFECCrates(), and moduleList().
unsigned int pos::PixelCalibConfiguration::nROC_ [private] |
Definition at line 258 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleListsFromROCSet(), and nROC().
unsigned int pos::PixelCalibConfiguration::ntrigger_ [private] |
Definition at line 257 of file PixelCalibConfiguration.h.
Referenced by nTriggersPerPattern(), pos::operator<<(), PixelCalibConfiguration(), and writeASCII().
std::map<PixelROCName, unsigned int> pos::PixelCalibConfiguration::numROCsCalibratedOnChannel_ [private] |
Definition at line 241 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), and numROCsCalibratedOnChannel().
Definition at line 242 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), channelList(), numROCsCalibratedOnChannel(), PixelCalibConfiguration(), and ROCNumberOnChannelAmongThoseCalibrated().
std::vector<int> pos::PixelCalibConfiguration::old_icols [mutable, private] |
Definition at line 278 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleListsFromROCSet().
std::vector<int> pos::PixelCalibConfiguration::old_irows [mutable, private] |
Definition at line 277 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleListsFromROCSet().
std::map<std::string, std::string> pos::PixelCalibConfiguration::parameters_ [private] |
Definition at line 280 of file PixelCalibConfiguration.h.
Referenced by nParameters(), pos::operator<<(), parametersList(), parameterValue(), PixelCalibConfiguration(), and writeASCII().
bool pos::PixelCalibConfiguration::rocAndModuleListsBuilt_ [private] |
Definition at line 235 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), buildROCAndModuleLists(), buildROCAndModuleListsFromROCSet(), fedCardsAndChannels(), getFECCrates(), getFEDCrates(), getFEDsAndChannels(), getTKFECCrates(), moduleList(), nextFECState(), nROC(), PixelCalibConfiguration(), and rocList().
std::vector<PixelROCInfo> pos::PixelCalibConfiguration::rocInfo_ [mutable, private] |
Definition at line 233 of file PixelCalibConfiguration.h.
Referenced by nextFECState().
std::vector<std::string> pos::PixelCalibConfiguration::rocListInstructions_ [private] |
Definition at line 236 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleLists(), PixelCalibConfiguration(), and writeASCII().
std::map<PixelROCName, unsigned int> pos::PixelCalibConfiguration::ROCNumberOnChannelAmongThoseCalibrated_ [private] |
Definition at line 240 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), and ROCNumberOnChannelAmongThoseCalibrated().
std::vector<PixelROCName> pos::PixelCalibConfiguration::rocs_ [mutable, private] |
Definition at line 232 of file PixelCalibConfiguration.h.
Referenced by buildObjectsDependingOnTheNameTranslation(), buildROCAndModuleListsFromROCSet(), fedCardsAndChannels(), getFEDsAndChannels(), nextFECState(), and rocList().
std::vector<std::vector<unsigned int> > pos::PixelCalibConfiguration::rows_ [private] |
Definition at line 229 of file PixelCalibConfiguration.h.
Referenced by colCounter(), disablePixels(), enablePixels(), maxNumHitsPerROC(), nextFECState(), nPixelPatterns(), pos::operator<<(), PixelCalibConfiguration(), pixelsWithHits(), rowCounter(), rowList(), scanROC(), and writeASCII().
bool pos::PixelCalibConfiguration::singleROC_ [private] |
Definition at line 227 of file PixelCalibConfiguration.h.
Referenced by buildROCAndModuleListsFromROCSet(), PixelCalibConfiguration(), scanningROCForState(), singleROC(), and writeASCII().
bool pos::PixelCalibConfiguration::usesROCList_ [private] |
Definition at line 285 of file PixelCalibConfiguration.h.
Referenced by PixelCalibConfiguration(), and writeASCII().