X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=ITS%2FAliITSsimulationSSD.cxx;h=b38fcce28890e705f740a49494bfc588003a618e;hb=d2f55a221d7219c098055810b41496c204004f0c;hp=410d13034e9a2bc29d9bb6611dc6f6824abd2b9a;hpb=b48af42837326738183c8897f1d4c55c382d00c2;p=u%2Fmrichter%2FAliRoot.git diff --git a/ITS/AliITSsimulationSSD.cxx b/ITS/AliITSsimulationSSD.cxx index 410d13034e9..b38fcce2889 100644 --- a/ITS/AliITSsimulationSSD.cxx +++ b/ITS/AliITSsimulationSSD.cxx @@ -12,15 +12,17 @@ * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ + /* $Id$ */ #include #include -#include -#include +#include #include +#include #include #include +#include #include "AliITSmodule.h" #include "AliITSMapA2.h" @@ -29,11 +31,14 @@ #include "AliITSsegmentationSSD.h" #include "AliITSdcsSSD.h" #include "AliITS.h" +#include "AliITShit.h" +#include "AliITSdigitSSD.h" #include "AliRun.h" #include "AliITSgeom.h" #include "AliITSsimulationSSD.h" +#include "AliITSTableSSD.h" -ClassImp(AliITSsimulationSSD); +ClassImp(AliITSsimulationSSD) //////////////////////////////////////////////////////////////////////// // Version: 0 // Written by Enrico Fragiacomo @@ -42,113 +47,169 @@ ClassImp(AliITSsimulationSSD); // AliITSsimulationSSD is the simulation of SSDs. //---------------------------------------------------------------------- -AliITSsimulationSSD::AliITSsimulationSSD(){ +AliITSsimulationSSD::AliITSsimulationSSD():AliITSsimulation(), +fDCS(0), +fMapA2(0), +fIonE(0.0), +fDifConst(), +fDriftVel(){ //default Constructor - - fDCS = 0; - fDifConst[0] = fDifConst[1] = 0.0; - fDriftVel[0] = fDriftVel[1] = 0.0; - fMapA2 = 0; + //Inputs: + // none. + // Outputs: + // none. + // Return: + // A default construction AliITSsimulationSSD class } //---------------------------------------------------------------------- AliITSsimulationSSD::AliITSsimulationSSD(AliITSsegmentation *seg, - AliITSresponse *resp){ - // Constructor - - fDCS = 0; - fDifConst[0] = fDifConst[1] = 0.0; - fDriftVel[0] = fDriftVel[1] = 0.0; - fMapA2 = 0; - Init((AliITSsegmentationSSD*)seg,(AliITSresponseSSD*)resp); + AliITSresponse *res): +AliITSsimulation(seg,res), +fDCS(0), +fMapA2(0), +fIonE(0.0), +fDifConst(), +fDriftVel(){ + // Constructor + // Input: + // AliITSsegmentationSSD *seg Pointer to the SSD segmentation to be used + // AliITSresponseSSD *resp Pointer to the SSD responce class to be used + // Outputs: + // none. + // Return + // A standard constructed AliITSsimulationSSD class + + Init(); } //---------------------------------------------------------------------- -void AliITSsimulationSSD::Init(AliITSsegmentationSSD *seg, - AliITSresponseSSD *resp){ - // Constructor - - fSegmentation = seg; - fResponse = resp; - Float_t noise[2] = {0.,0.}; - fResponse->GetNoiseParam(noise[0],noise[1]); // retrieves noise parameters - fDCS = new AliITSdcsSSD(seg,resp); +void AliITSsimulationSSD::Init(){ + // Inilizer, Inilizes all of the variable as needed in a standard place. + // Input: + // AliITSsegmentationSSD *seg Pointer to the SSD segmentation to be used + // AliITSresponseSSD *resp Pointer to the SSD responce class to be used + // Outputs: + // none. + // Return + // none. + + Double_t noise[2] = {0.,0.}; + GetResp()->GetNoiseParam(noise[0],noise[1]); // retrieves noise parameters + fDCS = new AliITSdcsSSD((AliITSsegmentationSSD*)GetSegmentationModel(), + (AliITSresponseSSD*)GetResponseModel()); SetDriftVelocity(); // use default values in .h file SetIonizeE(); // use default values in .h file SetDiffConst(); // use default values in .h file - fMapA2 = new AliITSMapA2(fSegmentation); + fpList = new AliITSpList(2,GetNStrips()); + fMapA2 = new AliITSMapA2(GetSegmentationModel()); } //______________________________________________________________________ AliITSsimulationSSD& AliITSsimulationSSD::operator=( - const AliITSsimulationSSD &s){ - // Operator = - - if(this==&s) return *this; - - this->fDCS = new AliITSdcsSSD(*(s.fDCS)); - this->fMapA2 = s.fMapA2; - this->fIonE = s.fIonE; - this->fDifConst[0] = s.fDifConst[0]; - this->fDifConst[1] = s.fDifConst[1]; - this->fDriftVel[0] = s.fDriftVel[0]; - this->fDriftVel[1] = s.fDriftVel[1]; - return *this; + const AliITSsimulationSSD &s){ + // Operator = + + if(this==&s) return *this; + + this->fDCS = new AliITSdcsSSD(*(s.fDCS)); + this->fMapA2 = s.fMapA2; + this->fIonE = s.fIonE; + this->fDifConst[0] = s.fDifConst[0]; + this->fDifConst[1] = s.fDifConst[1]; + this->fDriftVel[0] = s.fDriftVel[0]; + this->fDriftVel[1] = s.fDriftVel[1]; + return *this; } //______________________________________________________________________ -AliITSsimulationSSD::AliITSsimulationSSD(const AliITSsimulationSSD &source){ - // copy constructor +AliITSsimulationSSD& AliITSsimulationSSD::operator=( + const AliITSsimulation &s){ + // Operator = - *this = source; + if(this==&s) return *this; + Error("AliITSsimulationSSD","Not allowed to make a = with " + "AliITSsimulationSSD Using default creater instead"); + + return *this; +} +//______________________________________________________________________ +AliITSsimulationSSD::AliITSsimulationSSD(const AliITSsimulationSSD &source): + AliITSsimulation(source){ + // copy constructor + + *this = source; } //______________________________________________________________________ AliITSsimulationSSD::~AliITSsimulationSSD() { - // destructor - delete fMapA2; - delete fDCS; + // destructor + delete fMapA2; + delete fDCS; +} +//______________________________________________________________________ +void AliITSsimulationSSD::InitSimulationModule(Int_t module,Int_t event){ + // Creates maps to build the list of tracks for each sumable digit + // Inputs: + // Int_t module // Module number to be simulated + // Int_t event // Event number to be simulated + // Outputs: + // none. + // Return + // none. + + SetModuleNumber(module); + SetEventNumber(event); + fMapA2->ClearMap(); + fpList->ClearMap(); +} +//______________________________________________________________________ +void AliITSsimulationSSD::FinishSDigitiseModule(){ + // Does the Sdigits to Digits work + // Inputs: + // none. + // Outputs: + // none. + // Return: + // none. + + FillMapFrompList(fpList); // need to check if needed here or not???? + SDigitToDigit(fModule,fpList); + fpList->ClearMap(); + fMapA2->ClearMap(); } //______________________________________________________________________ -void AliITSsimulationSSD::DigitiseModule(AliITSmodule *mod, - Int_t dummy0,Int_t dummy1) { - // Digitizes hits for one SSD module - Int_t module = mod->GetIndex(); - AliITSpList *pList = new AliITSpList(2,GetNStrips()); +void AliITSsimulationSSD::DigitiseModule(AliITSmodule *mod,Int_t,Int_t) { + // Digitizes hits for one SSD module + SetModuleNumber(mod->GetIndex()); - HitsToAnalogDigits(mod,pList); - SDigitToDigit(module,pList); + HitsToAnalogDigits(mod,fpList); + SDigitToDigit(GetModuleNumber(),fpList); - delete pList; - fMapA2->ClearMap(); + fpList->ClearMap(); + fMapA2->ClearMap(); } //______________________________________________________________________ -void AliITSsimulationSSD::SDigitiseModule(AliITSmodule *mod,Int_t dummy0, - Int_t dummy1) { - // Produces Summable/Analog digits and writes them to the SDigit tree. - AliITSpList *pList = new AliITSpList(2,GetNStrips()); +void AliITSsimulationSSD::SDigitiseModule(AliITSmodule *mod,Int_t,Int_t) { + // Produces Summable/Analog digits and writes them to the SDigit tree. - HitsToAnalogDigits(mod,pList); + HitsToAnalogDigits(mod,fpList); - WriteSDigits(pList); + WriteSDigits(fpList); - delete pList; + fpList->ClearMap(); fMapA2->ClearMap(); } //______________________________________________________________________ void AliITSsimulationSSD::SDigitToDigit(Int_t module,AliITSpList *pList){ - // Takes the pList and finishes the digitization. - - FillMapFrompList(pList); + // Takes the pList and finishes the digitization. - ApplyNoise(pList,module); - ApplyCoupling(pList,module); + ApplyNoise(pList,module); + ApplyCoupling(pList,module); - ChargeToSignal(pList); + ChargeToSignal(pList); } //______________________________________________________________________ void AliITSsimulationSSD::HitsToAnalogDigits(AliITSmodule *mod, - AliITSpList *pList){ + AliITSpList *pList){ // Loops over all hits to produce Analog/floating point digits. This // is also the first task in producing standard digits. - Int_t indexRange[4] = {0,0,0,0}; - static Bool_t first = kTRUE; Int_t lasttrack = -2; Int_t idtrack = -2; Double_t x0=0.0, y0=0.0, z0=0.0; @@ -159,39 +220,41 @@ void AliITSsimulationSSD::HitsToAnalogDigits(AliITSmodule *mod, TObjArray *hits = mod->GetHits(); Int_t nhits = hits->GetEntriesFast(); if (nhits<=0) return; - + AliITSTableSSD * tav = new AliITSTableSSD(GetNStrips()); module = mod->GetIndex(); if ( mod->GetLayer() == 6 ) GetSegmentation()->SetLayer(6); if ( mod->GetLayer() == 5 ) GetSegmentation()->SetLayer(5); - for(Int_t i=0; iLineSegmentL(i, x0, x1, y0, y1, z0, z1, de, idtrack)) { - HitToDigit(module, x0, y0, z0, x1, y1, z1, de, indexRange, first); - - if (lasttrack != idtrack || i==(nhits-1)) { - GetList(idtrack,i,module,pList,indexRange); - first=kTRUE; - } // end if - lasttrack=idtrack; - } // end if + // LineSegmentL returns 0 if the hit is entering + // If hits is exiting returns positions of entering and exiting hits + // Returns also energy loss + if(GetDebug(4)){ + cout << i << " "; + cout << mod->GetHit(i)->GetXL() << " "<GetHit(i)->GetYL(); + cout << " " << mod->GetHit(i)->GetZL(); + cout << endl; + } // end if + if (mod->LineSegmentL(i, x0, x1, y0, y1, z0, z1, de, idtrack)) { + HitToDigit(module, x0, y0, z0, x1, y1, z1, de,tav); + if (lasttrack != idtrack || i==(nhits-1)) { + GetList(idtrack,i,module,pList,tav); + } // end if + lasttrack=idtrack; + } // end if } // end loop over hits + delete tav; tav=0; return; } //---------------------------------------------------------------------- void AliITSsimulationSSD::HitToDigit(Int_t module, Double_t x0, Double_t y0, - Double_t z0, Double_t x1, Double_t y1, - Double_t z1, Double_t de, - Int_t *indexRange, Bool_t first) { + Double_t z0, Double_t x1, Double_t y1, + Double_t z1, Double_t de, + AliITSTableSSD *tav) { // Turns hits in SSD module into one or more digits. - Float_t tang[2] = {0.0,0.0}; GetSegmentation()->Angles(tang[0], tang[1]);//stereo<<->tan(stereo)~=stereo Double_t x, y, z; - Double_t dex=0.0, dey=0.0, dez=0.0; + Double_t dex=0.0, dey=0.0, dez=0.0; Double_t pairs; // pair generation energy per step. Double_t sigma[2] = {0.,0.};// standard deviation of the diffusion gaussian Double_t tdrift[2] = {0.,0.}; // time of drift @@ -201,74 +264,75 @@ void AliITSsimulationSSD::HitToDigit(Int_t module, Double_t x0, Double_t y0, // Steps in the module are determined "manually" (i.e. No Geant) // NumOfSteps divide path between entering and exiting hits in steps Int_t numOfSteps = NumOfSteps(x1, y1, z1, dex, dey, dez); - // Enery loss is equally distributed among steps de = de/numOfSteps; pairs = de/GetIonizeE(); // e-h pairs generated - for(Int_t j=0; j (GetSegmentation()->Dy()/2+10)*1.0E-4 ) { - // check if particle is within the detector - cout<<"AliITSsimulationSSD::HitToDigit: Warning: hit " - "out of detector y0,y,dey,j =" - <Dy()*1.0E-4)/2)/GetDriftVelocity(0); - tdrift[1] = ((GetSegmentation()->Dy()*1.0E-4)/2-y)/GetDriftVelocity(1); - - for(Int_t k=0; k<2; k++) { // both sides remember: 0=Pside 1=Nside - - tang[k]=TMath::Tan(tang[k]); - - // w is the coord. perpendicular to the strips - if(k==0) { - w = (x+(GetSegmentation()->Dx()*1.0E-4)/2) - + x = x0 + (j+0.5)*dex; + y = y0 + (j+0.5)*dey; + if ( y > (GetSegmentation()->Dy()/2+10)*1.0E-4 ) { + // check if particle is within the detector + Warning("HitToDigit", + "hit out of detector y0=%e,y=%e,dey=%e,j =%e module=%d", + y0,y,dey,j,module); + return; + } // end if + z = z0 + (j+0.5)*dez; + if(GetDebug(4)) cout <<"HitToDigit "<Dy()*1.0E-4)/2)/GetDriftVelocity(0); + tdrift[1] = ((GetSegmentation()->Dy()*1.0E-4)/2-y)/GetDriftVelocity(1); + + for(Int_t k=0; k<2; k++) { // both sides remember: 0=Pside 1=Nside + + tang[k]=TMath::Tan(tang[k]); + + // w is the coord. perpendicular to the strips + /* + if(k==0) { + w = (x+(GetSegmentation()->Dx()*1.0E-4)/2) - (z+(GetSegmentation()->Dz()*1.0E-4)/2)*tang[k]; - }else{ - w = (x+(GetSegmentation()->Dx()*1.0E-4)/2) + + }else{ + w = (x+(GetSegmentation()->Dx()*1.0E-4)/2) + (z-(GetSegmentation()->Dz()*1.0E-4)/2)*tang[k]; - } // end if - w /= (GetStripPitch()*1.0E-4); // w is converted in units of pitch - - if((w<(-0.5)) || (w>(GetNStrips()-0.5))) { - // this check rejects hits in regions not covered by strips - // 0.5 takes into account boundaries - if(k==0) cout<<"AliITSsimulationSSD::HitToDigit: " - "Warning: no strip in this region of P side" - <GetPadTxz(xp,zp); + if(k==0) w = xp; // P side strip number + else w = zp; // N side strip number + } // end test block + + if((w<(-0.5)) || (w>(GetNStrips()-0.5))) { + // this check rejects hits in regions not covered by strips + // 0.5 takes into account boundaries + if(GetDebug(4)) cout << "x,z="<GetNoiseParam(a,b); // retrieves noise parameters - noiseP[0] = (Double_t) a; noiseP[1] = (Double_t) b; + GetResp()->GetNoiseParam(a,b); // retrieves noise parameters + noiseP[0] = a; noiseP[1] = b; for(k=0;k<2;k++){ // both sides (0=Pside, 1=Nside) - for(ix=0;ixGaus(0,noiseP[k]);// get noise to signal - signal = noise + fMapA2->GetSignal(k,ix);//get signal from map - if(signal<0.) signal=0.0; // in case noise is negative... - fMapA2->SetHit(k,ix,signal); // give back signal to map - if(signal>0.0) pList->AddNoise(k,ix,module,noise); - } // loop over strip + for(ix=0;ixGaus(0,noiseP[k]);// get noise to signal + signal = noise + fMapA2->GetSignal(k,ix);//get signal from map + if(signal<0.) signal=0.0; // in case noise is negative... + fMapA2->SetHit(k,ix,signal); // give back signal to map + if(signal>0.0) pList->AddNoise(k,ix,module,noise); + } // loop over strip } // loop over k (P or N side) } //______________________________________________________________________ @@ -297,26 +361,26 @@ void AliITSsimulationSSD::ApplyCoupling(AliITSpList *pList,Int_t module) { Double_t signalLeft=0, signalRight=0,signal=0; for(ix=0;ix0.)signalLeft = fMapA2->GetSignal(0,ix-1)*fDCS->GetCouplingPL(); - else signalLeft = 0.0; - if(ix<(GetNStrips()-1)) signalRight = fMapA2->GetSignal(0,ix+1)* - fDCS->GetCouplingPR(); - else signalRight = 0.0; - signal = signalLeft + signalRight; - fMapA2->AddSignal(0,ix,signal); - if(signal>0.0) pList->AddNoise(0,ix,module,signal); - - signalLeft = signalRight = signal = 0.0; - // N side coupling - if(ix>0.) signalLeft = fMapA2->GetSignal(1,ix-1)*fDCS->GetCouplingNL(); - else signalLeft = 0.0; - if(ix<(GetNStrips()-1)) signalRight = fMapA2->GetSignal(1,ix+1)* - fDCS->GetCouplingNR(); - else signalRight = 0.0; - signal = signalLeft + signalRight; - fMapA2->AddSignal(1,ix,signal); - if(signal>0.0) pList->AddNoise(1,ix,module,signal); + // P side coupling + if(ix>0.)signalLeft = fMapA2->GetSignal(0,ix-1)*fDCS->GetCouplingPL(); + else signalLeft = 0.0; + if(ix<(GetNStrips()-1)) signalRight = fMapA2->GetSignal(0,ix+1)* + fDCS->GetCouplingPR(); + else signalRight = 0.0; + signal = signalLeft + signalRight; + fMapA2->AddSignal(0,ix,signal); + if(signal>0.0) pList->AddNoise(0,ix,module,signal); + + signalLeft = signalRight = signal = 0.0; + // N side coupling + if(ix>0.) signalLeft = fMapA2->GetSignal(1,ix-1)*fDCS->GetCouplingNL(); + else signalLeft = 0.0; + if(ix<(GetNStrips()-1)) signalRight = fMapA2->GetSignal(1,ix+1)* + fDCS->GetCouplingNR(); + else signalRight = 0.0; + signal = signalLeft + signalRight; + fMapA2->AddSignal(1,ix,signal); + if(signal>0.0) pList->AddNoise(1,ix,module,signal); } // loop over strips } //______________________________________________________________________ @@ -331,9 +395,9 @@ Float_t AliITSsimulationSSD::F(Float_t av, Float_t x, Float_t s) { } //______________________________________________________________________ void AliITSsimulationSSD::IntegrateGaussian(Int_t k,Double_t par, Double_t w, - Double_t sigma, - Double_t inf, Double_t sup, - Int_t *indexRange, Bool_t first) { + Double_t sigma, + Double_t inf, Double_t sup, + AliITSTableSSD *tav) { // integrate the diffusion gaussian // remind: inf and sup are w-3sigma and w+3sigma // we could define them here instead of passing them @@ -345,90 +409,71 @@ void AliITSsimulationSSD::IntegrateGaussian(Int_t k,Double_t par, Double_t w, // Watch that we only involve at least two strips // Numbers greater than 2 of strips in a cluster depend on // geometry of the track and delta rays, not charge diffusion! - - Double_t strip = TMath::Floor(w); // clostest strip on the left - if ( TMath::Abs((strip - w)) < 0.5) { - // gaussian mean is closer to strip on the left - a = inf; // integration starting point - if((strip+0.5)<=sup) { - // this means that the tail of the gaussian goes beyond - // the middle point between strips ---> part of the signal - // is given to the strip on the right - b = strip + 0.5; // integration stopping point - dXCharge1 = F( w, b, sigma) - F(w, a, sigma); - dXCharge2 = F( w, sup, sigma) - F(w ,b, sigma); - }else { - // this means that all the charge is given to the strip on the left - b = sup; - dXCharge1 = 0.9973; // gaussian integral at 3 sigmas - dXCharge2 = 0.0; - } // end if - - dXCharge1 = par * dXCharge1;// normalize by mean of number of carriers - dXCharge2 = par * dXCharge2; - - // for the time being, signal is the charge - // in ChargeToSignal signal is converted in ADC channel - fMapA2->AddSignal(k,(Int_t)strip,dXCharge1); - if(((Int_t) strip) < (GetNStrips()-1)) { - // strip doesn't have to be the last (remind: last=GetNStrips()-1) - // otherwise part of the charge is lost - fMapA2->AddSignal(k,((Int_t)strip+1),dXCharge2); - } // end if - - if(dXCharge1 > 1.) { - if (first) { - indexRange[k*2+0] = indexRange[k*2+1]=(Int_t) strip; - first=kFALSE; - } // end if first - - indexRange[k*2+0]=TMath::Min(indexRange[k*2+0],(Int_t) strip); - indexRange[k*2+1]=TMath::Max(indexRange[k*2+1],(Int_t) strip); - } // dXCharge > 1 e- + Double_t strip = TMath::Floor(w); // closest strip on the left + if ( TMath::Abs((strip - w)) < 0.5) { + // gaussian mean is closer to strip on the left + a = inf; // integration starting point + if((strip+0.5)<=sup) { + // this means that the tail of the gaussian goes beyond + // the middle point between strips ---> part of the signal + // is given to the strip on the right + b = strip + 0.5; // integration stopping point + dXCharge1 = F( w, b, sigma) - F(w, a, sigma); + dXCharge2 = F( w, sup, sigma) - F(w ,b, sigma); + }else { + // this means that all the charge is given to the strip on the left + b = sup; + dXCharge1 = 0.9973; // gaussian integral at 3 sigmas + dXCharge2 = 0.0; + } // end if + dXCharge1 = par * dXCharge1;// normalize by mean of number of carriers + dXCharge2 = par * dXCharge2; + + // for the time being, signal is the charge + // in ChargeToSignal signal is converted in ADC channel + fMapA2->AddSignal(k,(Int_t)strip,dXCharge1); + tav->Add(k,(Int_t)strip); + if(((Int_t) strip) < (GetNStrips()-1)) { + // strip doesn't have to be the last (remind: last=GetNStrips()-1) + // otherwise part of the charge is lost + fMapA2->AddSignal(k,((Int_t)strip+1),dXCharge2); + tav->Add(k,((Int_t)(strip+1))); + } // end if }else{ - // gaussian mean is closer to strip on the right - strip++; // move to strip on the rigth - b = sup; // now you know where to stop integrating - if((strip-0.5)>=inf) { - // tail of diffusion gaussian on the left goes left of - // middle point between strips - a = strip - 0.5; // integration starting point - dXCharge1 = F(w, b, sigma) - F(w, a, sigma); - dXCharge2 = F(w, a, sigma) - F(w, inf, sigma); - }else { - a = inf; - dXCharge1 = 0.9973; // gaussian integral at 3 sigmas - dXCharge2 = 0.0; - } // end if - - dXCharge1 = par * dXCharge1; // normalize by means of carriers - dXCharge2 = par * dXCharge2; - - // for the time being, signal is the charge - // in ChargeToSignal signal is converted in ADC channel - fMapA2->AddSignal(k,(Int_t)strip,dXCharge1); - if(((Int_t) strip) > 0) { - // strip doesn't have to be the first - // otherwise part of the charge is lost - fMapA2->AddSignal(k,((Int_t)strip-1),dXCharge2); - } // end if - - if(dXCharge1 > 1.) { - if (first) { - indexRange[k*2+0]=indexRange[k*2+1]=(Int_t) strip; - first=kFALSE; - } // end if first - - indexRange[k*2+0]=TMath::Min(indexRange[k*2+0],(Int_t) strip); - indexRange[k*2+1]=TMath::Max(indexRange[k*2+1],(Int_t) strip); - } // dXCharge > 1 e- + // gaussian mean is closer to strip on the right + strip++; // move to strip on the rigth + b = sup; // now you know where to stop integrating + if((strip-0.5)>=inf) { + // tail of diffusion gaussian on the left goes left of + // middle point between strips + a = strip - 0.5; // integration starting point + dXCharge1 = F(w, b, sigma) - F(w, a, sigma); + dXCharge2 = F(w, a, sigma) - F(w, inf, sigma); + }else { + a = inf; + dXCharge1 = 0.9973; // gaussian integral at 3 sigmas + dXCharge2 = 0.0; + } // end if + dXCharge1 = par * dXCharge1; // normalize by means of carriers + dXCharge2 = par * dXCharge2; + // for the time being, signal is the charge + // in ChargeToSignal signal is converted in ADC channel + fMapA2->AddSignal(k,(Int_t)strip,dXCharge1); + tav->Add(k,(Int_t)strip); + if(((Int_t) strip) > 0) { + // strip doesn't have to be the first + // otherwise part of the charge is lost + fMapA2->AddSignal(k,((Int_t)strip-1),dXCharge2); + tav->Add(k,((Int_t)(strip-1))); + } // end if } // end if } //______________________________________________________________________ Int_t AliITSsimulationSSD::NumOfSteps(Double_t x, Double_t y, Double_t z, - Double_t & dex,Double_t & dey,Double_t & dez){ + Double_t &dex,Double_t &dey, + Double_t &dez){ // number of steps // it also returns steps for each coord //AliITSsegmentationSSD *seg = new AliITSsegmentationSSD(); @@ -444,65 +489,82 @@ Int_t AliITSsimulationSSD::NumOfSteps(Double_t x, Double_t y, Double_t z, dex = x/numOfSteps; dey = y/numOfSteps; dez = z/numOfSteps; - + return numOfSteps; } //---------------------------------------------------------------------- void AliITSsimulationSSD::GetList(Int_t label,Int_t hit,Int_t mod, - AliITSpList *pList,Int_t *indexRange) { + AliITSpList *pList,AliITSTableSSD *tav) { // loop over nonzero digits Int_t ix,i; Double_t signal=0.; for(Int_t k=0; k<2; k++) { - for(ix=indexRange[k*2+0];ixGetSignal(k,ix); - if(signal==0.0) continue; - // check the signal magnitude - for(i=0;iGetNSignals(k,ix);i++) - signal -= pList->GetTSignal(k,ix,i); - // compare the new signal with already existing list - pList->AddSignal(k,ix,label,hit,mod,signal); - } // end of loop pixels in x - } // end of loop over pixels in z + ix=tav->Use(k); + while(ix>-1){ + signal = fMapA2->GetSignal(k,ix); + if(signal==0.0) { + ix=tav->Use(k); + continue; + } // end if signal==0.0 + // check the signal magnitude + for(i=0;iGetNSignals(k,ix);i++){ + signal -= pList->GetTSignal(k,ix,i); + } // end for i + // compare the new signal with already existing list + if(signal>0)pList->AddSignal(k,ix,label,hit,mod,signal); + ix=tav->Use(k); + } // end of loop on strips + } // end of loop on P/N side + tav->Clear(); } //---------------------------------------------------------------------- void AliITSsimulationSSD::ChargeToSignal(AliITSpList *pList) { // charge to signal static AliITS *aliITS = (AliITS*)gAlice->GetModule("ITS"); Float_t threshold = 0.; - Int_t digits[3], tracks[3],hits[3],j1; + Int_t size = AliITSdigitSSD::GetNTracks(); + Int_t * digits = new Int_t[size]; + Int_t * tracks = new Int_t[size]; + Int_t * hits = new Int_t[size]; + Int_t j1; Float_t charges[3] = {0.0,0.0,0.0}; Float_t signal; - Float_t noise[2] = {0.,0.}; + Double_t noise[2] = {0.,0.}; - ((AliITSresponseSSD*)fResponse)->GetNoiseParam(noise[0],noise[1]); + GetResp()->GetNoiseParam(noise[0],noise[1]); for(Int_t k=0;k<2;k++){ // both sides (0=Pside, 1=Nside) - // Threshold for zero-suppression - // It can be defined in AliITSresponseSSD - // threshold = (Float_t)fResponse->MinVal(k); - // I prefer to think adjusting the threshold "manually", looking - // at the scope, and considering noise standard deviation - threshold = 4.0*noise[k]; // 4 times noise is a choice - for(Int_t ix=0;ixGetSignal(k,ix) <= threshold) continue; - // convert to ADC signal - signal = ((AliITSresponseSSD*)fResponse)->DEvToADC( - fMapA2->GetSignal(k,ix)); - if(signal>1024.) signal = 1024.;//if exceeding, accumulate last one - digits[0] = k; - digits[1] = ix; - digits[2] = (Int_t) signal; - for(j1=0;j1<3;j1++){ // only three in digit. - tracks[j1] = pList->GetTrack(k,ix,j1); - hits[j1] = pList->GetHit(k,ix,j1); - } // end for j1 - // finally add digit - aliITS->AddSimDigit(2,0,digits,tracks,hits,charges); - } // end for ix + // Threshold for zero-suppression + // It can be defined in AliITSresponseSSD + // threshold = (Float_t)GetResp()->MinVal(k); + // I prefer to think adjusting the threshold "manually", looking + // at the scope, and considering noise standard deviation + threshold = 4.0*noise[k]; // 4 times noise is a choice + for(Int_t ix=0;ixGetSignal(k,ix) <= threshold)continue; + // convert to ADC signal + signal = GetResp()->DEvToADC( + fMapA2->GetSignal(k,ix)); + if(signal>1024.) signal = 1024.;//if exceeding, accumulate last one + digits[0] = k; + digits[1] = ix; + digits[2] = (Int_t) signal; + for(j1=0;j1GetNEnteries()){ + // only three in digit. + tracks[j1] = pList->GetTrack(k,ix,j1); + hits[j1] = pList->GetHit(k,ix,j1); + }else{ + tracks[j1] = -3; + hits[j1] = -1; + } // end for j1 + // finally add digit + aliITS->AddSimDigit(2,0,digits,tracks,hits,charges); + } // end for ix } // end for k + delete [] digits; + delete [] tracks; + delete [] hits; } //______________________________________________________________________ void AliITSsimulationSSD::WriteSDigits(AliITSpList *pList){ @@ -512,12 +574,13 @@ void AliITSsimulationSSD::WriteSDigits(AliITSpList *pList){ pList->GetMaxMapIndex(ni,nj); for(i=0;iGetSignalOnly(i,j)>0.0){ - aliITS->AddSumDigit(*(pList->GetpListItem(i,j))); -// cout << "pListSSD: " << *(pList->GetpListItem(i,j)) << endl; - } // end if + if(pList->GetSignalOnly(i,j)>0.0){ + aliITS->AddSumDigit(*(pList->GetpListItem(i,j))); + if(GetDebug(4)) cout << "pListSSD: "<<*(pList->GetpListItem(i,j)) + << endl; + } // end if } // end for i,j - return; + return; } //______________________________________________________________________ void AliITSsimulationSSD::FillMapFrompList(AliITSpList *pList){ @@ -525,7 +588,7 @@ void AliITSsimulationSSD::FillMapFrompList(AliITSpList *pList){ Int_t k,ix; for(k=0;k<2;k++)for(ix=0;ixAddSignal(k,ix,pList->GetSignal(k,ix)); + fMapA2->AddSignal(k,ix,pList->GetSignal(k,ix)); return; } //______________________________________________________________________ @@ -565,3 +628,8 @@ istream &operator>>(istream &os,AliITSsimulationSSD &source){ return os; } //______________________________________________________________________ + + + + +