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#include "CondFormats/BeamSpotObjects/interface/BeamSpotOnlineObjects.h"
#include <iostream>
namespace BeamSpotOnlineObjectsImpl {
template <typename T>
const T& getParams(const std::vector<T>& params, size_t index) {
if (index >= params.size())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " is out of range.");
return params[index];
}
template <typename T>
T& accessParams(std::vector<T>& params, size_t index) {
if (index >= params.size())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " is out of range.");
return params[index];
}
template <typename T>
const T& getOneParam(const std::vector<std::vector<T> >& params, size_t index) {
if (index >= params.size())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " is out of range.");
const std::vector<T>& inner = params[index];
if (inner.empty())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " type=" + typeid(T).name() +
" has no value stored.");
return inner[0];
}
template <typename T>
void setOneParam(std::vector<std::vector<T> >& params, size_t index, const T& value) {
if (index >= params.size())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " is out of range.");
params[index] = std::vector<T>(1, value);
}
template <typename T>
void setParams(std::vector<T>& params, size_t index, const T& value) {
if (index >= params.size())
throw std::out_of_range("Parameter with index " + std::to_string(index) + " is out of range.");
params[index] = value;
}
} //namespace BeamSpotOnlineObjectsImpl
// getters
int BeamSpotOnlineObjects::numTracks() const { return BeamSpotOnlineObjectsImpl::getOneParam(intParams_, NUM_TRACKS); }
int BeamSpotOnlineObjects::numPVs() const { return BeamSpotOnlineObjectsImpl::getOneParam(intParams_, NUM_PVS); }
int BeamSpotOnlineObjects::usedEvents() const {
return BeamSpotOnlineObjectsImpl::getOneParam(intParams_, USED_EVENTS);
}
int BeamSpotOnlineObjects::maxPVs() const { return BeamSpotOnlineObjectsImpl::getOneParam(intParams_, MAX_PVS); }
float BeamSpotOnlineObjects::meanPV() const { return BeamSpotOnlineObjectsImpl::getOneParam(floatParams_, MEAN_PV); }
float BeamSpotOnlineObjects::meanErrorPV() const {
return BeamSpotOnlineObjectsImpl::getOneParam(floatParams_, ERR_MEAN_PV);
}
float BeamSpotOnlineObjects::rmsPV() const { return BeamSpotOnlineObjectsImpl::getOneParam(floatParams_, RMS_PV); }
float BeamSpotOnlineObjects::rmsErrorPV() const {
return BeamSpotOnlineObjectsImpl::getOneParam(floatParams_, ERR_RMS_PV);
}
std::string BeamSpotOnlineObjects::startTime() const {
return BeamSpotOnlineObjectsImpl::getOneParam(stringParams_, START_TIME);
}
std::string BeamSpotOnlineObjects::endTime() const {
return BeamSpotOnlineObjectsImpl::getOneParam(stringParams_, END_TIME);
}
std::string BeamSpotOnlineObjects::lumiRange() const {
return BeamSpotOnlineObjectsImpl::getOneParam(stringParams_, LUMI_RANGE);
}
cond::Time_t BeamSpotOnlineObjects::creationTime() const {
return BeamSpotOnlineObjectsImpl::getOneParam(timeParams_, CREATE_TIME);
}
cond::Time_t BeamSpotOnlineObjects::startTimeStamp() const {
return BeamSpotOnlineObjectsImpl::getOneParam(timeParams_, START_TIMESTAMP);
}
cond::Time_t BeamSpotOnlineObjects::endTimeStamp() const {
return BeamSpotOnlineObjectsImpl::getOneParam(timeParams_, END_TIMESTAMP);
}
// setters
void BeamSpotOnlineObjects::copyFromBeamSpotObject(const BeamSpotObjects& bs) {
setType(bs.beamType());
setPosition(bs.x(), bs.y(), bs.z());
setSigmaZ(bs.sigmaZ());
setdxdz(bs.dxdz());
setdydz(bs.dydz());
setBeamWidthX(bs.beamWidthX());
setBeamWidthY(bs.beamWidthY());
setBeamWidthXError(bs.beamWidthXError());
setBeamWidthYError(bs.beamWidthYError());
setEmittanceX(bs.emittanceX());
setEmittanceY(bs.emittanceY());
setBetaStar(bs.betaStar());
for (int i = 0; i < 7; ++i) {
for (int j = 0; j < 7; ++j) {
setCovariance(i, j, bs.covariance(i, j));
}
}
}
void BeamSpotOnlineObjects::setNumTracks(int nTracks) {
BeamSpotOnlineObjectsImpl::setOneParam(intParams_, NUM_TRACKS, nTracks);
}
void BeamSpotOnlineObjects::setNumPVs(int nPVs) { BeamSpotOnlineObjectsImpl::setOneParam(intParams_, NUM_PVS, nPVs); }
void BeamSpotOnlineObjects::setUsedEvents(int usedEvents) {
BeamSpotOnlineObjectsImpl::setOneParam(intParams_, USED_EVENTS, usedEvents);
}
void BeamSpotOnlineObjects::setMaxPVs(int maxPVs) {
BeamSpotOnlineObjectsImpl::setOneParam(intParams_, MAX_PVS, maxPVs);
}
void BeamSpotOnlineObjects::setMeanPV(float meanPVs) {
BeamSpotOnlineObjectsImpl::setOneParam(floatParams_, MEAN_PV, meanPVs);
}
void BeamSpotOnlineObjects::setMeanErrorPV(float errMeanPVs) {
BeamSpotOnlineObjectsImpl::setOneParam(floatParams_, ERR_MEAN_PV, errMeanPVs);
}
void BeamSpotOnlineObjects::setRmsPV(float rmsPVs) {
BeamSpotOnlineObjectsImpl::setOneParam(floatParams_, RMS_PV, rmsPVs);
}
void BeamSpotOnlineObjects::setRmsErrorPV(float errRmsPVs) {
BeamSpotOnlineObjectsImpl::setOneParam(floatParams_, ERR_RMS_PV, errRmsPVs);
}
void BeamSpotOnlineObjects::setStartTime(std::string startTime) {
BeamSpotOnlineObjectsImpl::setOneParam(stringParams_, START_TIME, startTime);
}
void BeamSpotOnlineObjects::setEndTime(std::string endTime) {
BeamSpotOnlineObjectsImpl::setOneParam(stringParams_, END_TIME, endTime);
}
void BeamSpotOnlineObjects::setLumiRange(std::string lumiRange) {
BeamSpotOnlineObjectsImpl::setOneParam(stringParams_, LUMI_RANGE, lumiRange);
}
void BeamSpotOnlineObjects::setCreationTime(cond::Time_t createTime) {
BeamSpotOnlineObjectsImpl::setOneParam(timeParams_, CREATE_TIME, createTime);
}
void BeamSpotOnlineObjects::setStartTimeStamp(cond::Time_t starTimeStamp) {
BeamSpotOnlineObjectsImpl::setOneParam(timeParams_, START_TIMESTAMP, starTimeStamp);
}
void BeamSpotOnlineObjects::setEndTimeStamp(cond::Time_t endTimeStamp) {
BeamSpotOnlineObjectsImpl::setOneParam(timeParams_, END_TIMESTAMP, endTimeStamp);
}
// printers
void BeamSpotOnlineObjects::print(std::stringstream& ss) const {
ss << "-----------------------------------------------------\n"
<< " BeamSpotOnline Data\n\n"
<< " Beam type = " << beamType() << "\n"
<< " X0 = " << x() << " +/- " << xError() << " [cm]\n"
<< " Y0 = " << y() << " +/- " << yError() << " [cm]\n"
<< " Z0 = " << z() << " +/- " << zError() << " [cm]\n"
<< " Sigma Z0 = " << sigmaZ() << " +/- " << sigmaZError() << " [cm]\n"
<< " dxdz = " << dxdz() << " +/- " << dxdzError() << " [radians]\n"
<< " dydz = " << dydz() << " +/- " << dydzError() << " [radians]\n"
<< " Beam Width X = " << beamWidthX() << " +/- " << beamWidthXError() << " [cm]\n"
<< " Beam Width Y = " << beamWidthY() << " +/- " << beamWidthYError() << " [cm]\n"
<< " Emittance X = " << emittanceX() << " [cm]\n"
<< " Emittance Y = " << emittanceY() << " [cm]\n"
<< " Beta star = " << betaStar() << " [cm]\n"
<< " Last Lumi = " << lastAnalyzedLumi() << "\n"
<< " Last Run = " << lastAnalyzedRun() << "\n"
<< " Last Fill = " << lastAnalyzedFill() << "\n"
<< "-----------------------------------------------------\n\n";
}
std::ostream& operator<<(std::ostream& os, BeamSpotOnlineObjects beam) {
std::stringstream ss;
beam.print(ss);
os << ss.str();
return os;
}
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