#include <iostream>
#include <string>
#include <cstdlib>
#include <vector>
#include <map>
#include <iterator>
#include <boost/shared_ptr.hpp>
#include "TROOT.h"
#include "pbarpUtils/pbarpParser.hh"
#include "Particle/ParticleTable.hh"
#include "Particle/Particle.hh"
#include "Particle/PdtParser.hh"
#include "ErrLogger/ErrLogger.hh"
#include "pbarpUtils/pbarpStatesLS.hh"
#include "PwaUtils/AbsLh.hh"
#include "PwaUtils/FitParamsBase.hh"
#include "PwaUtils/StreamFitParmsBase.hh"
#include "PwaUtils/PwaFcnBase.hh"
#include "Utils/PawianCollectionUtils.hh"
#include "Utils/ErrLogUtils.hh"
#include "PwaUtils/IsobarDecay.hh"
#include "PwaUtils/IsobarDecayList.hh"
#include "pbarpUtils/pbarpEnv.hh"
#include "pbarpUtils/pbarpReaction.hh"
#include "pbarpUtils/pbarpBaseLh.hh"
#include "pbarpUtils/pbarpEvtReader.hh"
#include "pbarpUtils/pbarpEventList.hh"
#include "pbarpUtils/pbarpHist.hh"
#include "Event/Event.hh"
#include "Event/EventList.hh"
#include "Minuit2/MnUserParameters.h"
#include "Minuit2/MnMigrad.h"
#include "Minuit2/FunctionMinimum.h"
#include "Minuit2/MnMinos.h"
#include "Minuit2/MnStrategy.h"
#include "Minuit2/MnPrint.h"
#include "Minuit2/MnScan.h"
#ifdef _OPENMP
#include <omp.h>
#endif
int main(int __argc,char *__argv[]){
clock_t start, end;
start= clock();
// Disable output buffering
setvbuf(stdout, NULL, _IONBF, 0);
// Parse the command line
pbarpParser* theAppParams=new pbarpParser(__argc, __argv);
// Set the desired error logging mode
setErrLogMode(theAppParams->getErrLogMode());
#ifdef _OPENMP
const int noOfThreads=theAppParams->noOfThreads();
omp_set_num_threads(noOfThreads);
#endif
pbarpEnv::instance()->setup(theAppParams);
boost::shared_ptr<pbarpReaction> thepbarpReaction=pbarpEnv::instance()->reaction();
thepbarpReaction->print(std::cout);
// boost::shared_ptr<pbarpDataBaseList> thepbarbDataBaseListPtr(new pbarpDataBaseList());
// boost::shared_ptr<AbsLh> theLhPtr(new pbarpBaseLh(thepbarbDataBaseListPtr));
std::string mode=theAppParams->mode();
boost::shared_ptr<FitParamsBase> theFitParamBase=boost::shared_ptr<FitParamsBase>(new FitParamsBase());
const std::string datFile=theAppParams->dataFile();
const std::string mcFile=theAppParams->mcFile();
Info << "data file: " << datFile ; // << endmsg;
Info << "mc file: " << mcFile ; // << endmsg;
std::vector<std::string> dataFileNames;
dataFileNames.push_back(datFile);
std::vector<std::string> mcFileNames;
mcFileNames.push_back(mcFile);
bool withEvtWeight=theAppParams->useEvtWeight();
Info << "EvtWeight: " << withEvtWeight << endmsg;
int noFinalStateParticles=pbarpEnv::instance()->noFinalStateParticles();
pbarpEvtReader eventReaderData(dataFileNames, noFinalStateParticles, 0, withEvtWeight);
EventList eventsData;
eventReaderData.fillAll(eventsData);
Info << "\nFile has " << eventsData.size() << " events. Each event has "
<< eventsData.nextEvent()->size() << " final state particles.\n" ; // << endmsg;
eventsData.rewind();
Event* anEvent;
int evtCount = 0;
while ((anEvent = eventsData.nextEvent()) != 0 && evtCount < 10) {
Info << "\n";
for(int i=0; i<noFinalStateParticles; ++i){
Info << (*anEvent->p4(i)) << "\tm = " << anEvent->p4(i)->Mass() << "\n";
}
Info << "\n" << endmsg;
; // << endmsg;
++evtCount;
}
eventsData.rewind();
pbarpEvtReader eventReaderMc(mcFileNames, noFinalStateParticles, 0, false);
EventList mcData;
eventReaderMc.fillAll(mcData);
Info << "\nFile has " << mcData.size() << " events. Each event has "
<< mcData.nextEvent()->size() << " final state particles.\n" ; // << endmsg;
mcData.rewind();
evtCount = 0;
while ((anEvent = mcData.nextEvent()) != 0 && evtCount < 10) {
Info << "\n";
for(int i=0; i<noFinalStateParticles; ++i){
Info << (*anEvent->p4(i)) << "\tm = " << anEvent->p4(i)->Mass() << "\n";
}
Info << "\n" << endmsg;
; // << endmsg;
++evtCount;
}
mcData.rewind();
boost::shared_ptr<pbarpEventList> pbarpEventListPtr(new pbarpEventList());
pbarpEventListPtr->ratioMcToData(theAppParams->ratioMcToData());
pbarpEventListPtr->read(eventsData, mcData);
// pbarpEventListPtr->read4Vecs();
boost::shared_ptr<AbsLh> theLhPtr(new pbarpBaseLh(pbarpEventListPtr));
if (mode=="dumpDefaultParams"){
fitParams defaultVal;
fitParams defaultErr;
theLhPtr->getDefaultParams(defaultVal, defaultErr);
std::stringstream defaultparamsname;
defaultparamsname << "defaultparams" << pbarpEnv::instance()->outputFileNameSuffix() << ".dat";
std::ofstream theStreamDefault ( defaultparamsname.str().c_str() );
theFitParamBase->dumpParams(theStreamDefault, defaultVal, defaultErr);
return 0;
}
std::string paramStreamerPath=theAppParams->fitParamFile();
std::string outputFileNameSuffix= pbarpEnv::instance()->outputFileNameSuffix();
StreamFitParmsBase theParamStreamer(paramStreamerPath, theLhPtr);
fitParams theStartparams=theParamStreamer.getFitParamVal();
fitParams theErrorparams=theParamStreamer.getFitParamErr();
PwaFcnBase theFcn(theLhPtr, theFitParamBase, outputFileNameSuffix);
MnUserParameters upar;
theFitParamBase->setMnUsrParams(upar, theStartparams, theErrorparams);
std::cout << "\n\n**************** Minuit Fit parameter **************************" << std::endl;
for (int i=0; i<int(upar.Params().size()); ++i){
std::cout << upar.Name(i) << "\t" << upar.Value(i) << "\t" << upar.Error(i) << std::endl;
}
const std::vector<std::string> fixedParams=theAppParams->fixedParams();
const unsigned int noOfFreeFitParams = upar.Params().size()-fixedParams.size();
if (mode=="qaMode"){
Info << "\nThe parameter values are: " << "\n" << endmsg;
theFitParamBase->printParams(theStartparams);
Info << "\nThe parameter errors are: " << "\n" << endmsg;
theFitParamBase->printParams(theErrorparams);
double theLh=theLhPtr->calcLogLh(theStartparams);
Info <<"theLh = "<< theLh << endmsg;
pbarpHist theHist(theLhPtr, theStartparams);
double evtWeightSumData = pbarpEventListPtr->NoOfWeightedDataEvts();
double BICcriterion=2.*theLh+noOfFreeFitParams*log(evtWeightSumData);
double AICcriterion=2.*theLh+2.*noOfFreeFitParams;
double AICccriterion=AICcriterion+2.*noOfFreeFitParams*(noOfFreeFitParams+1)/(evtWeightSumData-noOfFreeFitParams-1);
Info << "noOfFreeFitParams:\t" <<noOfFreeFitParams;
Info << "evtWeightSumData:\t" <<evtWeightSumData;
Info << "BIC:\t" << BICcriterion << endmsg;
Info << "AIC:\t" << AICcriterion << endmsg;
Info << "AICc:\t" << AICccriterion << endmsg;
std::ostringstream qaSummaryFileName;
qaSummaryFileName << "qaSummary" << outputFileNameSuffix << ".dat";
std::ofstream theQaStream ( qaSummaryFileName.str().c_str() );
theQaStream << "BIC\t" << BICcriterion << "\n";
theQaStream << "AICa\t" << AICcriterion << "\n";
theQaStream << "AICc\t" << AICccriterion << "\n";
theQaStream << "logLh\t" << theLh << "\n";
theQaStream << "free parameter\t" << noOfFreeFitParams << "\n";
theQaStream.close();
end= clock();
double cpuTime= (end-start)/ (CLOCKS_PER_SEC);
Info << "cpuTime:\t" << cpuTime << "\tsec" << endmsg;
return 1;
}
if (mode=="pwa"){
bool cacheAmps = theAppParams->cacheAmps();
Info << "caching amplitudes enabled / disabled:\t" << cacheAmps << endmsg;
if (cacheAmps) theLhPtr->cacheAmplitudes();
std::vector<std::string>::const_iterator itFix;
for (itFix=fixedParams.begin(); itFix!=fixedParams.end(); ++itFix){
upar.Fix( (*itFix) );
}
MnMigrad migrad(theFcn, upar);
Info <<"start migrad "<< endmsg;
FunctionMinimum min = migrad();
if(!min.IsValid()) {
//try with higher strategy
Info <<"FM is invalid, try with strategy = 2."<< endmsg;
MnMigrad migrad2(theFcn, min.UserState(), MnStrategy(2));
min = migrad2();
}
MnUserParameters finalUsrParameters=min.UserParameters();
const std::vector<double> finalParamVec=finalUsrParameters.Params();
fitParams finalFitParams=theStartparams;
theFitParamBase->getFitParamVal(finalParamVec, finalFitParams);
theFitParamBase->printParams(finalFitParams);
double theLh=theLhPtr->calcLogLh(finalFitParams);
Info <<"theLh = "<< theLh << endmsg;
const std::vector<double> finalParamErrorVec=finalUsrParameters.Errors();
fitParams finalFitErrs=theErrorparams;
theFitParamBase->getFitParamVal(finalParamErrorVec, finalFitErrs);
std::ostringstream finalResultname;
finalResultname << "finalResult" << outputFileNameSuffix << ".dat";
std::ofstream theStream ( finalResultname.str().c_str() );
theFitParamBase->dumpParams(theStream, finalFitParams, finalFitErrs);
MnUserCovariance theCovMatrix = min.UserCovariance();
std::cout << min << std::endl;
return 0;
}
}