analyse.cpp 2.81 KB
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#include <fstream>

#include "TString.h"
#include "TFile.h"
#include "TError.h"
#include "TTree.h"
#include <stdio.h>
#include <stdlib.h>

#include "../dataClasses/RawEvent.h"
#include "../dataClasses/AEvent.h"

int main(int argc, char* argv[])
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{
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	//to be extracted from the source as parameters
	const Int_t noBranches = 4;
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	const Double_t cfRatio = 0.7;
	const Int_t cfTD = 3;
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	Double_t noiseMin = 5;
	Double_t noiseMax = 25;




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	if ( (argc < 3) || (argc > 4) ) {
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		// Tell the user how to run the program
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		std::cerr << "Usage: " << argv[0] << " [list with input files] [outputfile] [number of points in one event (1000)]" << std::endl;
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		/* "Usage messages" are a conventional way of telling the user
		 * how to run a program if they enter the command incorrectly.
		 */
		return 1;
	}
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	TString infiles = argv[1];
	TString ofile = argv[2];
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	TString Asize = argv[3];
	Int_t kEventSize;

	if(argc==3) {
		kEventSize = 1024;
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		noiseMin = 10.;
		noiseMax = 100.;
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		Info("convertRawToAnalyzed", "Event size was set to %d", kEventSize);
	}
	if(argc==4) {
		kEventSize = Asize.Atoi();
		if(kEventSize!=1000) {
			std::cerr<< argv[0] << " the size of Events should be 1000 in this case " << std::endl;
			return 1;
		} 
	}
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	TFile *f = new TFile(infiles.Data());
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	if (/*f == 0 || */f->IsZombie()) {
		Error("convertRawToAnalyzed", "Input file was not opened. Program will be terminated");
		return 2;
	}
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	TTree *tr = (TTree*)f->Get("rtree");

	TString bName;
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	RawEvent *revent[noBranches];
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	for (Int_t j = 0; j<noBranches; j++) {
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		revent[j] = new RawEvent(kEventSize);	//each Aevent element is of class AEvent()
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		bName.Form("ch%d.", j);
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		tr->SetBranchAddress(bName.Data(), &revent[j]);
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	}

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	TFile *fw = new TFile(ofile.Data(), "RECREATE");	//create .root file with somehow analyzed data
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	TTree *tw = new TTree("atree", "title of drs4 analysis tree");	//create analysis tree atree in it

	AEvent *wevent[noBranches];	// pointer to the array (of AEvent class) in which analyzed data for each channel will be put
	for (Int_t j = 0; j<noBranches; j++) {
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		wevent[j] = new AEvent(kEventSize);
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		bName.Form("Ach%d.", j);
		wevent[j]->SetInputEvent(&revent[j]);	//takes raw event from RawEvent
		wevent[j]->SetCFratio(cfRatio);
		wevent[j]->SetCFtimeDelay(cfTD);
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		wevent[j]->SetNoiseRange(noiseMin, noiseMax);
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		tw->Bronch(bName.Data(), "AEvent", &wevent[j]);	// create branches in atree to hold analyzed data
	}
//----event loop in tr input tree
	Long64_t nentries = tr->GetEntries();

	for(Long64_t i = 0; i < nentries; i++) {
		tr->GetEntry(i);

		for (Int_t j = 0; j<noBranches; j++) {
			wevent[j]->Reset();
			wevent[j]->ProcessEvent();	//here all the analysis is going on so far
		}

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		if ( !(i%100) ) { printf("Found event #%lld\n", i); }
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		tw->Fill();
	}

//----end of event loop
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	printf("%lld events are processed\n", nentries);
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	tw->Write();
	fw->Close();

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	return 0;
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}