AEvent.h 3 KB
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/*
 * AEvent.h
 *
 *  Created on: Dec 28, 2016
 *      Author: daria
 */

#ifndef DATACLASSES_AEVENT_H_
#define DATACLASSES_AEVENT_H_

#include <iostream>
#include <fstream>
#include <iomanip>
#include <sstream>

#include "TError.h"
#include "TString.h"
#include "TTree.h"
#include "TFile.h"
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#include "TF1.h"
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//#include "TMath.h"


#include "RawEvent.h"

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//#define NCELLS 1024
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using std::cout;
using std::endl;

class AEvent {

private:

	const Int_t fNPoints;	//!
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	TArrayD fAmpPos;	//array for raw amplitudes
	TArrayD fTime;		//array for raw times

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	Double_t fAmpMax;
	Double_t fTimeAmpMax;
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	Double_t fZeroLevel;
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	Double_t fEdgeXi;
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	Double_t fEdgeSlope;	//slope coefficient for the rising edge of the signal
	Double_t fTime10;		//time of 10% of rising edge amplitude in ns
	Double_t fTime90;		//time of 10% of rising edge amplitude in ns
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	TArrayD fAmpCFD;	//array for CFD amplitudes (attenuated, inversed and delayed)
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	Double_t fTimeCFD;			//zero-crossing time
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	Double_t fChargeCFD;	//!
	Double_t fChargeLED;	//charge of the signal in Coulomb
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	Double_t fTimeLED;	//time of LED threshold crossing

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	TGraph *fGraphSignal;
	TGraph *fGraphCFD;
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	RawEvent *fInputEvent;		//!

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	Double_t fCFratio;		//!
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	Double_t fCFtimeDelay;		//!

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	Double_t fNoiseRangeMin;	//!
	Double_t fNoiseRangeMax;	//!

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public:
	AEvent();
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	AEvent(const Int_t npoints);
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	virtual ~AEvent();
	ClassDef(AEvent,1);
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	Double_t GetT_10();
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	//returns time of 10% of rising edge amplitude in ns

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	Double_t GetT_90();
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	//returns time of 90% of rising edge amplitude in ns

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	Double_t GetEdgeSlope();
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	//returns slope coefficient for the rising edge of the signal

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	Double_t GetEdgeXi();

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	Double_t GetfCFD();
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	Double_t GetOnefTime(Int_t i);
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	Double_t GetOnefAmpPos(Int_t i);
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	void ProcessEvent();
	void SetInputEvent(RawEvent** event);
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	void SetCFratio(Double_t ratio) { fCFratio = ratio; };	
	//CFD set attenuation coefficient

	void SetCFtimeDelay(Double_t timeDelay) { fCFtimeDelay = timeDelay; };	
	//CFD set time delay (in points)
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	void SetNoiseRange(Double_t min, Double_t max) { fNoiseRangeMin = min; fNoiseRangeMax = max; };
	//Set noise range to be used in FindZeroLevel()

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	void Reset();
	 //Resets arrays to zeros

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	TGraph* GetGraphCFD() {

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		return fGraphCFD;
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	}
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	//draws CFD graphs

	TGraph* GetGraphSignal() {

		return fGraphSignal;
	}
	//draws signal shape graphs

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	void FindFrontProperties();

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	Double_t FindZeroLevel();
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	//for zero level correction. one parameter fit between pmin and pmax
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	//returns fit parameter i.e. number on which amplitude should be corrected
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	void SetChargeCFD(Int_t tmin = -3, Int_t tmax = 17);
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	//calculates charge of the signal (i.e. its integral 
	//in range of (tmin,tmax) in ns)
	//CFD time is taken as a start point

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	void SetChargeLED(Int_t tmin = -3, Int_t tmax = 17);


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	//void SetLED(Double_t threshold = 0.001);
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	void SetLED(Double_t threshold = 0.002);

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	//leading edge discriminator

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private:
	void Init();
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	void SetMaxAmplitudes();
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	void SetGraphs();
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	void SetCFD(); 	//constant fraction discriminator method
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};

#endif /* DATACLASSES_AEVENT_H_ */