/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * 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 "AliITSsegmentationSSD.h" ////////////////////////////////////////////////////// // Segmentation class for // // silicon strips // // // ////////////////////////////////////////////////////// const Float_t AliITSsegmentationSSD::fgkDxDefault = 73000.; const Float_t AliITSsegmentationSSD::fgkDzDefault = 40000.; const Float_t AliITSsegmentationSSD::fgkDyDefault = 300.; const Float_t AliITSsegmentationSSD::fgkPitchDefault = 95.; const Int_t AliITSsegmentationSSD::fgkNstripsDefault = 768; const Int_t AliITSsegmentationSSD::fgkNchipsPerSide = 6; const Int_t AliITSsegmentationSSD::fgkNstripsPerChip = 128; ClassImp(AliITSsegmentationSSD) AliITSsegmentationSSD::AliITSsegmentationSSD(Option_t *opt): AliITSsegmentation(), fNstrips(0), fStereoP(0), fStereoN(0), fPitch(0), fLayer(0){ // default constructor SetDetSize(fgkDxDefault,fgkDzDefault,fgkDyDefault); SetPadSize(fgkPitchDefault,0.); SetNPads(fgkNstripsDefault,0); SetAngles(); if(strstr(opt,"TGeo")){ if(!gGeoManager){ AliError("Geometry is not initialized\n"); return; } TGeoVolume *v=NULL; v = gGeoManager->GetVolume("ITSssdSensitivL5"); if(!v){ AliWarning("TGeo volumeITSssdSensitivL5 not found (hint: use v11Hybrid geometry)\n Using hardwired default values"); } else { TGeoBBox *s=(TGeoBBox*)v->GetShape(); SetDetSize(s->GetDX()*20000.,s->GetDZ()*20000.,s->GetDY()*20000.); } } } //______________________________________________________________________ void AliITSsegmentationSSD::Copy(TObject &obj) const { // protected method. copy this to obj AliITSsegmentation::Copy(obj); ((AliITSsegmentationSSD& ) obj).Clear(); ((AliITSsegmentationSSD& ) obj).fNstrips = fNstrips; ((AliITSsegmentationSSD& ) obj).fStereoP = fStereoP; ((AliITSsegmentationSSD& ) obj).fStereoN = fStereoN; ((AliITSsegmentationSSD& ) obj).fLayer = fLayer; ((AliITSsegmentationSSD& ) obj).fPitch = fPitch; ((AliITSsegmentationSSD& ) obj).fLayer = fLayer; } //______________________________________________________________________ AliITSsegmentationSSD& AliITSsegmentationSSD::operator=( const AliITSsegmentationSSD &source){ // Operator = if(this != &source){ source.Copy(*this); } return *this; } //______________________________________________________________________ AliITSsegmentationSSD::AliITSsegmentationSSD(const AliITSsegmentationSSD &source): AliITSsegmentation(source), fNstrips(0), fStereoP(0), fStereoN(0), fPitch(0), fLayer(0){ // copy constructor source.Copy(*this); } //---------------------------------------------------------------------- void AliITSsegmentationSSD::Init(){ // standard initalizer SetPadSize(fgkPitchDefault,0.); SetNPads(fgkNstripsDefault,0); SetAngles(); } //---------------------------------------------------------------------- void AliITSsegmentationSSD::Angles(Float_t &aP,Float_t &aN) const{ // P and N side stereo angles aP = fStereoP; aN = fStereoN; } //---------------------------------------------------------------------- void AliITSsegmentationSSD::SetLayer(Int_t l){ //set fLayer data member (only 5 or 6 are allowed) if (l==5) fLayer =5; else if (l==6) fLayer =6; else AliError(Form("Layer can be 5 or 6, not %d",l)); } //---------------------------------------------------------------------- void AliITSsegmentationSSD::GetPadTxz(Float_t &x,Float_t &z) const{ // returns P and N sided strip numbers for a given location. // Transformation from microns detector center local coordinates // to detector P and N side strip numbers.. /* _- Z + angle / ^ fNstrips v | N-Side ...0 \-------/------------|-----------\--------\ |\\\\\\/////////////.|\\\\\\\\\\\\\\\\\\\\| |0\\\\/////////////..|.\\\\\\\\\\\\\\\\\\\| |00\\/////////////...|..\\\\\\\\\\\\\\\\\\| X <--|000/////////////... |...\\\\\\\\\\\\\\\\\| |00/////////////... | ...\\\\\\\\\\\\\\\\| |0/////////////... | ...\\\\\\\\\\\\\\\| |//////////////... | ...\\\\\\\\\\\\\\\| /-----\--------------|--------------------/ fNstrips-1 P-Side ...0 |0\ |00\ Dead region: |000/ |00/ |0/ // expects x, z in cm */ /* Float_t stereoP, stereoN; Angles(stereoP,stereoN); Float_t tanP = TMath::Tan(stereoP); Float_t tanN = TMath::Tan(-stereoN); Float_t x1 = x; Float_t z1 = z; x1 += fDx/2; z1 += fDz/2; x = (x1 - z1*tanP)/fPitch; z = (x1 - tanN*(z1 - fDz))/fPitch; */ Float_t P=0; Float_t N=0; if(fLayer==5) { P = 105.26*x - 0.7895*z + 382.000; //- 0.79*z + 381.89; N = P + 3.684*z - 4; } else if(fLayer==6) { P = -105.26*x - 0.7895*z + 385.000; //- 0.79*z + 384.66; N = P + 3.684*z + 4; } else AliError("Layer can be 5 or 6"); x=P; z=N; } //---------------------------------------------------------------------- void AliITSsegmentationSSD::GetPadIxz(Float_t x,Float_t z,Int_t &iP,Int_t &iN) const { // returns P and N sided strip numbers for a given location. // expects x, z in cm GetPadTxz(x,z); iP = Int_t(x+0.5); iN = Int_t(z+0.5); } //------------------------------------------------------- void AliITSsegmentationSSD::GetPadCxz(Float_t iP,Float_t iN,Float_t &x,Float_t &z) const { // actually this is the GetCrossing(Float_t &,Float_t &) // returns local x, z in cm const Float_t kStartXzero=3.64325; const Float_t kDeltaXzero5or6=0.02239; const Float_t kDeltaZ5to6=7.6/7.0; z = 1.9*(iN-iP)/7.0; x = kStartXzero-(285*iN + 1045*iP)/140000.0; if (fLayer==5){ z += kDeltaZ5to6; x = -x + kDeltaXzero5or6; } else if (fLayer==6) { z -= kDeltaZ5to6; x += kDeltaXzero5or6; } else { AliWarning("Layer shoudl be 5 or 6"); x = -99999; z = -99999; } } //______________________________________________________________________ Bool_t AliITSsegmentationSSD::LocalToDet(Float_t x,Float_t z, Int_t &iP,Int_t &iN) const { // Transformation from Geant cm detector center local coordinates // to detector P and N side strip numbers.. /* _- Z + angle / ^ fNstrips v | N-Side ...0 \-------/------------|-----------\--------\ |\\\\\\/////////////.|\\\\\\\\\\\\\\\\\\\\| |0\\\\/////////////..|.\\\\\\\\\\\\\\\\\\\| |00\\/////////////...|..\\\\\\\\\\\\\\\\\\| X <--|000/////////////... |...\\\\\\\\\\\\\\\\\| |00/////////////... | ...\\\\\\\\\\\\\\\\| |0/////////////... | ...\\\\\\\\\\\\\\\| |//////////////... | ...\\\\\\\\\\\\\\\| /-----\--------------|--------------------/ fNstrips-1 P-Side ...0 |0\ |00\ Dead region: |000/ |00/ |0/ */ Float_t dx,dz; const Double_t kconst = 1.0E-04; // convert microns to cm. dx = 0.5*kconst*Dx(); dz = 0.5*kconst*Dz(); if( (x<-dx) || (x>dx) ) { iP=-1; AliWarning(Form("Input argument %f out of range (%f, %f)",x,dx,-dx)); return kFALSE; // outside of defined volume. } // outside x range. if( (z<-dz) || (z>dz) ) { iN=-1; AliWarning(Form("Input argument %f out of range (%f, %f)",z,dz,-dz)); return kFALSE; // outside of defined volume. } //x /= kconst; // convert to microns //z /= kconst; // convert to microns this->GetPadTxz(x,z); // first for P side iP = (Int_t) x; if(iP<0 || iP>=fNstrips) iP=-1; // strip number must be in range. // Now for N side) iN = (Int_t) z; if(iN<0 || iN>=fNstrips) iN=-1; // strip number must be in range. return kTRUE; } //---------------------------------------------------------------------- void AliITSsegmentationSSD::DetToLocal(Int_t ix,Int_t iPN, Float_t &x,Float_t &z) const{ // Transformation from detector segmentation/cell coordiantes starting // from 0. iPN=0 for P side and 1 for N side strip. Returned is z=0.0 // and the corresponding x value.. /* _- Z + angle / ^ fNstrips v | N-Side ...0 \-------/------------|-----------\--------\ |\\\\\\/////////////.|\\\\\\\\\\\\\\\\\\\\| |0\\\\/////////////..|.\\\\\\\\\\\\\\\\\\\| |00\\/////////////...|..\\\\\\\\\\\\\\\\\\| X <--|000/////////////... |...\\\\\\\\\\\\\\\\\| |00/////////////... | ...\\\\\\\\\\\\\\\\| |0/////////////... | ...\\\\\\\\\\\\\\\| |//////////////... | ...\\\\\\\\\\\\\\\| /-----\--------------|--------------------/ fNstrips-1 P-Side ...0 |0\ |00\ Dead region: |000/ |00/ |0/ */ // for strips p-side // x = a + b + z*tan(fStereoP); a = Dpx(iP)*(iP+0.5)-dx; b = dz*th; // for strips n-side // x = a + b + z*tan(fStereoP); a = Dpx(iN)*(iN+0.5)-dx; b = -dz*th; AliWarning("This function has not been verified. Should probably use GetPadCxz"); const Double_t kconst = 1.0E-04; // convert microns to cm. Float_t flag=kconst*Dx(); // error value Double_t th=0.0,dx,dz,i,a,b=0.0,xb[4],zb[4]; Float_t stereoP, stereoN; Angles(stereoP,stereoN); z = 0.0; // Strip center in z. if(iPN<0 || iPN>1){// if error return full detector size in x. x = z = flag; return; } // end if if(ix<0 || ix>=fNstrips) { // if error return full detector size in x. x = z = flag; return; } // end if i = (Double_t) ix; // convert to double dx = 0.5*kconst*Dx(); // half distance in x in cm dz = 0.5*kconst*Dz(); // half distance in z in cm a = kconst*Dpx(ix)*(i+0.5)-dx; // Min x value. if(iPN==0){ //P-side angle defined backwards. th = TMath::Tan(stereoP); b = dz*th; }else if(iPN==1){ // N-side th = TMath::Tan(-stereoN); b = -dz*th; } // end if // compute average/center position of the strip. xb[0] = +dx; if(th!=0.0) zb[0] = (+dx-a-b)/th; else zb[0] = 0.0; xb[1] = -dx; if(th!=0.0) zb[1] = (-dx-a-b)/th; else zb[1] = 0.0; xb[2] = a+b+dz*th; zb[2] = +dz; xb[3] = a+b-dz*th; zb[3] = -dz; x = 0.0; z = 0.0; for(Int_t j=0;j<4;j++){ if(xb[j]>=-dx && xb[j]<=dx && zb[j]>=-dz && zb[j]<=dz){ x += xb[j]; z += zb[j]; } // end if } // end for x *= 0.5; z *= 0.5; return; } //---------------------------------------------------------------------- Int_t AliITSsegmentationSSD::GetChipFromChannel(Int_t ix, Int_t iz) const { // returns chip number (in range 0-11) starting from channel number if( (iz>=fgkNstripsDefault) || (iz<0) || (ix<0) || (ix>1) ) { AliError("Bad cell number"); return -1; } if(ix==1) iz = 1535-iz; Int_t theChip =iz/fgkNstripsPerChip; return theChip; } //---------------------------------------------------------------------- Int_t AliITSsegmentationSSD::GetChipFromLocal(Float_t xloc, Float_t zloc) const { // returns chip numbers starting from local coordinates // The two Nside chip number and Pside chip number are // coded as chip=Nchip*10+Pchip Int_t iP=0; Int_t iN=0; if (!LocalToDet(xloc,zloc,iP,iN) || (iP<0) || (iP>=fNstrips) || (iN<0) || (iN>=fNstrips) ) { //AliWarning("Bad local coordinate"); return -1; } Int_t iChip = GetChipFromChannel(0,iP); iChip += 10*GetChipFromChannel(1,iN); // add Nside return iChip; } // Int_t AliITSsegmentationSSD::GetChipsInLocalWindow(Int_t* array, Float_t zmin, Float_t zmax, Float_t xmin, Float_t xmax) const { // returns chip number in a given xz window Int_t nChipInW = 0; Float_t zminDet=-fDz*1.0E-04/2.; Float_t zmaxDet=fDz*1.0E-04/2.; if(zminzmaxDet) zmax=zmaxDet; Float_t xminDet=-fDx*1.0E-04/2; Float_t xmaxDet=fDx*1.0E-04/2; if(xminxmaxDet) xmax=xmaxDet; Int_t n1N=-1; Int_t n1P=-1; Int_t n1=GetChipFromLocal(xmin,zmin); if(n1!=-1) { // Note! Recpoint can be on the sensor but in the dead area not covered by strips! n1N = (Int_t) (n1/10); // N-side chip coded as 10*chip_index n1P = n1 - 10 * n1N; // P-side chip coded 0-5 array[nChipInW]=n1P; nChipInW++; array[nChipInW]=n1N; nChipInW++; } Int_t n2N=-1; Int_t n2P=-1; Int_t n2=GetChipFromLocal(xmin,zmax); if(n2!=-1) { // Note! Recpoint can be on the sensor but in the dead area not covered by strips! n2N = (Int_t) (n2/10); // N-side chip coded as 10*chip_index n2P = n2 - 10 * n2N; // P-side chip coded 0-5 if(n2P!=n1P) { array[nChipInW]=n2P; nChipInW++;} if(n2N!=n1N) { array[nChipInW]=n2N; nChipInW++;} } Int_t n3N=-1; Int_t n3P=-1; Int_t n3=GetChipFromLocal(xmax,zmin); if(n3!=-1) { n3N=(Int_t) (n3/10); // N-side chip coded as 10*chip_index n3P=n3 - 10 * n3N; // P-side chip coded 0-5 if((n3P!=n1P)&&(n3P!=n2P)) { array[nChipInW]=n3P; nChipInW++;} if((n3N!=n1N)&&(n3N!=n2N)) { array[nChipInW]=n3N; nChipInW++;} } Int_t n4N=-1; Int_t n4P=-1; Int_t n4=GetChipFromLocal(xmax,zmax); if(n4!=-1) { n4N=(Int_t) (n4/10); // N-side chip coded as 10*chip_index n4P=n4 - 10 * n4N; // P-side chip coded 0-5 if((n4P!=n1P)&&(n4P!=n2P)&&(n4P!=n3P)) { array[nChipInW]=n4P; nChipInW++;} if((n4N!=n1N)&&(n4N!=n2N)&&(n4N!=n3N)) { array[nChipInW]=n4N; nChipInW++;} } return nChipInW; } //---------------------------------------------------------------------- void AliITSsegmentationSSD::PrintDefaultParameters() const { // Print default values for parameters. // Values specified as static const data members are shown cout<<"fgkDxDefault = "<