/************************************************************************** * 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. * **************************************************************************/ /* $Id$ */ //_________________________________________________________________________ // Implementation version v0 of EMCAL Manager class // An object of this class does not produce hits nor digits // It is the one to use if you do not want to produce outputs in TREEH or TREED // This class places a Geometry of the EMCAL in the ALICE Detector as defined in AliEMCALGeometry.cxx //*-- Author: Yves Schutz (SUBATECH) //*-- and : Sahal Yacoob (LBL / UCT) // : Alexei Pavlinov (WSU) SHASHLYK // : Adapted for DCAL by M.L. Wang CCNU & Subatech Oct-19-2012 // --- ROOT system --- #include #include #include #include #include #include #include #include #include #include #include // --- Standard library --- //#include // --- AliRoot header files --- #include "AliRun.h" #include "AliLog.h" #include "AliGeomManager.h" //--- EMCAL system--- #include "AliEMCALShishKebabTrd1Module.h" #include "AliEMCALv0.h" #include "AliEMCALGeometry.h" #include "AliEMCALSpaceFrame.h" ClassImp(AliEMCALv0) // EMCAL material: look to the AliEMCAL.cxx enum { kIdAIR = 1599, kIdPB = 1600, kIdSC = 1601, kIdAL = 1602, kIdSTEEL = 1603, kIdPAPER = 1604 }; //______________________________________________________________________ AliEMCALv0::AliEMCALv0() : AliEMCAL(), fShishKebabModules(),fEnvelop1(0),fIdRotm(0),fIdTmedArr(0), fSampleWidth(0),fSmodPar0(0),fSmodPar1(0),fSmodPar2(0), fInnerEdge(0),fCalFrame(0) { //default ctor for(Int_t i = 0; i < 5 ; i++) fParEMOD[i]=0.0; } //______________________________________________________________________ AliEMCALv0::AliEMCALv0(const char *name, const char *title, const Bool_t checkGeoAndRun) : AliEMCAL(name,title,checkGeoAndRun), fShishKebabModules(),fEnvelop1(0),fIdRotm(0),fIdTmedArr(0), fSampleWidth(0),fSmodPar0(0),fSmodPar1(0),fSmodPar2(0), fInnerEdge(0),fCalFrame(0) { // ctor : title is used to identify the layout // Apr 25, 2006 // Nov 22, 2006 - case of 1X1 for(Int_t i = 0; i < 5 ; i++) fParEMOD[i]=0.0; TString ntmp(GetTitle()); ntmp.ToUpper(); AliEMCALGeometry *g = GetGeometry() ; TString gn(g->GetName()); gn.ToUpper(); fShishKebabModules = g->GetShishKebabTrd1Modules(); fGeometry = g; fSampleWidth = Double_t(g->GetECPbRadThick()+g->GetECScintThick()); if(gn.Contains("V1")) fSampleWidth += 2.*g->GetTrd1BondPaperThick(); AliDebug(2,Form("fGeometry %p : TVirtualMC::GetMC() %p : fSampleWidth %5.4f\n", fGeometry, TVirtualMC::GetMC(), fSampleWidth)); //Set geometry name again, in case it was changed during the initialization of the geometry. SetTitle(fGeometry->GetEMCGeometry()->GetName()); } //______________________________________________________________________ void AliEMCALv0::CreateGeometry() { // Create the EMCAL geometry for Geant // Geometry of a tower AliEMCALGeometry * geom = GetGeometry() ; TString gn(geom->GetName()); gn.ToUpper(); if(!(geom->IsInitialized())){ Error("CreateGeometry","EMCAL Geometry class has not been set up."); } // end if // Get pointer to the array containing media indices fIdTmedArr = fIdtmed->GetArray() - 1599 ; fIdRotm = 1; // TVirtualMC::GetMC()->Matrix(nmat, theta1, phi1, theta2, phi2, theta3, phi3) - see AliModule AliMatrix(fIdRotm, 90.0, 0., 90.0, 90.0, 0.0, 0.0) ; // Create the EMCAL Mother Volume (a polygone) within which to place the Detector and named XEN1 Float_t envelopA[10]; if(gn.Contains("WSUC") ) { // TRD1 for WSUC facility // Nov 25,2010 envelopA[0] = 30.; envelopA[1] = 30; envelopA[2] = 20; TVirtualMC::GetMC()->Gsvolu("XEN1", "BOX", fIdTmedArr[kIdSC], envelopA, 3) ; fEnvelop1.Set(3); for(Int_t i=0; i<3; i++) fEnvelop1[i] = envelopA[i]; // 23-may-05 // Position the EMCAL Mother Volume (XEN1) in WSUC. // Look to AliEMCALWsuCosmicRaySetUp. TVirtualMC::GetMC()->Gspos("XEN1", 1, "WSUC", 0.0, 0.0, + 265., fIdRotm, "ONLY") ; } else { envelopA[0] = geom->GetArm1PhiMin(); // minimum phi angle envelopA[1] = geom->GetArm1PhiMax() - geom->GetArm1PhiMin(); // angular range in phi envelopA[2] = envelopA[1]/geom->GetEMCGeometry()->GetPhiSuperModule(); // Section of that envelopA[3] = 2; // 2: z coordinates envelopA[4] = -geom->GetEnvelop(2)/2.; // zmin - includes padding envelopA[5] = geom->GetEnvelop(0) ; // rmin at z1 - includes padding envelopA[6] = geom->GetEnvelop(1) ; // rmax at z1 - includes padding envelopA[7] = geom->GetEnvelop(2)/2.; // zmax includes padding envelopA[8] = envelopA[5] ; // radii are the same. envelopA[9] = envelopA[6] ; // radii are the same. TVirtualMC::GetMC()->Gsvolu("XEN1", "PGON", fIdTmedArr[kIdAIR], envelopA, 10) ; // Polygone filled with air fEnvelop1.Set(10, envelopA); if (gDebug==2) { printf("CreateGeometry: XEN1 = %f, %f\n", envelopA[5], envelopA[6]); printf("CreateGeometry: XU0 = %f, %f\n", envelopA[5], envelopA[6]); } // Position the EMCAL Mother Volume (XEN1) in Alice (ALIC) TVirtualMC::GetMC()->Gspos(geom->GetNameOfEMCALEnvelope(), 1, "ALIC", 0.0, 0.0, 0.0, fIdRotm, "ONLY") ; } // COMPACT, TRD1 AliDebug(2,Form("Shish-Kebab geometry : %s", GetTitle())); CreateShishKebabGeometry(); if(gn.Contains("WSUC")==0) { // Nov 24,2010 for TB //Space Frame AliDebug(2,"Creating EMCAL Space Frame"); fCalFrame = new AliEMCALSpaceFrame(); fCalFrame->CreateGeometry(); } } //______________________________________________________________________ void AliEMCALv0::Init(void) { // Just prints an information message AliEMCAL::Init(); if(AliLog::GetGlobalDebugLevel()>0) { TString message("\n") ; message += "*****************************************\n" ; // Here the EMCAL initialisation code (if any!) AliEMCALGeometry * geom = GetGeometry() ; if (geom!=0) { message += "AliEMCAL " ; message += Version() ; message += "EMCAL geometry initialized for " ; message += geom->GetName() ; } else { message += "AliEMCAL " ; message += Version() ; message += "EMCAL geometry initialization failed !" ; } message += "\n*****************************************" ; printf("%s",message.Data() ) ; } } // 24-aug-04 by PAI //______________________________________________________________________ void AliEMCALv0::CreateShishKebabGeometry() { // Oct 26,2010 // TRD1 AliEMCALGeometry * g = GetGeometry(); TString gn(g->GetName()); gn.ToUpper(); Double_t trd1Angle = g->GetTrd1Angle()*TMath::DegToRad(), tanTrd1 = TMath::Tan(trd1Angle/2.); // see AliModule::fFIdTmedArr // fIdTmedArr = fIdtmed->GetArray() - 1599 ; // see AliEMCAL::::CreateMaterials() // Int_t kIdAIR=1599, kIdPB = 1600, kIdSC = 1601, kIdSTEEL = 1603; // idAL = 1602; Double_t par[10], xpos=0., ypos=0., zpos=0.; CreateSmod(g->GetNameOfEMCALEnvelope()); Int_t * SMTypeList = g->GetEMCSystem(); Int_t tmpType = -1; for(Int_t i = 0 ; i < g->GetNumberOfSuperModules(); i++) { if( SMTypeList[i] == tmpType) continue; else tmpType = SMTypeList[i]; if( tmpType == AliEMCALGeometry::kEMCAL_Standard ) CreateEmod("SMOD","EMOD"); // 18-may-05 else if( tmpType == AliEMCALGeometry::kEMCAL_Half ) CreateEmod("SM10","EMOD"); // Nov 1,2006 1/2 SM else if( tmpType == AliEMCALGeometry::kEMCAL_3rd ) CreateEmod("SM3rd","EMOD"); // Feb 1,2012 1/3 SM else if( tmpType == AliEMCALGeometry::kDCAL_Standard ) CreateEmod("DCSM","EMOD"); // Mar 13, 2012, 6 or 10 DCSM else if( tmpType == AliEMCALGeometry::kDCAL_Ext ) CreateEmod("DCEXT","EMOD"); // Mar 13, 2012, DCAL extension SM else AliError("Unkown SM Type!!"); } // Sensitive SC (2x2 tiles) Double_t parSCM0[5]={0,0,0,0}, *dummy = 0, parTRAP[11]; if(!gn.Contains("V1")) { Double_t wallThickness = g->GetPhiModuleSize()/g->GetNPHIdiv() - g->GetPhiTileSize(); for(Int_t i=0; i<3; i++) parSCM0[i] = fParEMOD[i] - wallThickness; parSCM0[3] = fParEMOD[3]; TVirtualMC::GetMC()->Gsvolu("SCM0", "TRD1", fIdTmedArr[kIdAIR], parSCM0, 4); TVirtualMC::GetMC()->Gspos("SCM0", 1, "EMOD", 0., 0., 0., 0, "ONLY") ; } else { Double_t wTh = g->GetLateralSteelStrip(); parSCM0[0] = fParEMOD[0] - wTh + tanTrd1*g->GetTrd1AlFrontThick(); parSCM0[1] = fParEMOD[1] - wTh; parSCM0[2] = fParEMOD[2] - wTh; parSCM0[3] = fParEMOD[3] - g->GetTrd1AlFrontThick()/2.; TVirtualMC::GetMC()->Gsvolu("SCM0", "TRD1", fIdTmedArr[kIdAIR], parSCM0, 4); Double_t zshift = g->GetTrd1AlFrontThick()/2.; TVirtualMC::GetMC()->Gspos("SCM0", 1, "EMOD", 0., 0., zshift, 0, "ONLY"); // CreateAlFrontPlate("EMOD","ALFP"); } if(g->GetNPHIdiv()==2 && g->GetNETAdiv()==2) { // Division to tile size - 1-oct-04 AliDebug(2,Form(" Divide SCM0 on y-axis %i\n", g->GetNETAdiv())); TVirtualMC::GetMC()->Gsdvn("SCMY","SCM0", g->GetNETAdiv(), 2); // y-axis // Trapesoid 2x2 parTRAP[0] = parSCM0[3]; // dz parTRAP[1] = TMath::ATan2((parSCM0[1]-parSCM0[0])/2.,2.*parSCM0[3])*180./TMath::Pi(); // theta parTRAP[2] = 0.; // phi // bottom parTRAP[3] = parSCM0[2]/2.; // H1 parTRAP[4] = parSCM0[0]/2.; // BL1 parTRAP[5] = parTRAP[4]; // TL1 parTRAP[6] = 0.0; // ALP1 // top parTRAP[7] = parSCM0[2]/2.; // H2 parTRAP[8] = parSCM0[1]/2.; // BL2 parTRAP[9] = parTRAP[8]; // TL2 parTRAP[10]= 0.0; // ALP2 AliDebug(2,Form(" ** TRAP ** \n")); for(Int_t i=0; i<11; i++) AliDebug(3, Form(" par[%2.2i] %9.4f\n", i, parTRAP[i])); TVirtualMC::GetMC()->Gsvolu("SCMX", "TRAP", fIdTmedArr[kIdSC], parTRAP, 11); xpos = +(parSCM0[1]+parSCM0[0])/4.; TVirtualMC::GetMC()->Gspos("SCMX", 1, "SCMY", xpos, 0.0, 0.0, 0, "ONLY") ; // Using rotation because SCMX should be the same due to Pb tiles xpos = -xpos; AliMatrix(fIdRotm, 90.0,180., 90.0, 270.0, 0.0,0.0) ; TVirtualMC::GetMC()->Gspos("SCMX", 2, "SCMY", xpos, 0.0, 0.0, fIdRotm, "ONLY"); // put LED to the SCM0 AliEMCALShishKebabTrd1Module *mod = (AliEMCALShishKebabTrd1Module*)fShishKebabModules->At(0); Double_t tanBetta = mod->GetTanBetta(); Int_t nr=0; ypos = 0.0; Double_t xCenterSCMX = (parTRAP[4] + parTRAP[8])/2.; if(!gn.Contains("V1")) { par[1] = parSCM0[2]/2; // y par[2] = g->GetECPbRadThick()/2.; // z TVirtualMC::GetMC()->Gsvolu("PBTI", "BOX", fIdTmedArr[kIdPB], dummy, 0); zpos = -fSampleWidth*g->GetNECLayers()/2. + g->GetECPbRadThick()/2.; AliDebug(2,Form(" Pb tiles \n")); for(Int_t iz=0; izGetNECLayers(); iz++){ par[0] = (parSCM0[0] + tanBetta*fSampleWidth*iz)/2.; xpos = par[0] - xCenterSCMX; TVirtualMC::GetMC()->Gsposp("PBTI", ++nr, "SCMX", xpos, ypos, zpos, 0, "ONLY", par, 3) ; AliDebug(3,Form(" %i xpos %f zpos %f par[0] %f \n", iz+1, xpos, zpos, par[0])); zpos += fSampleWidth; } AliDebug(2,Form(" Number of Pb tiles in SCMX %i \n", nr)); } else { // Oct 26, 2010 // First sheet of paper par[1] = parSCM0[2]/2.; // y par[2] = g->GetTrd1BondPaperThick()/2.; // z par[0] = parSCM0[0]/2.; // x TVirtualMC::GetMC()->Gsvolu("PAP1", "BOX", fIdTmedArr[kIdPAPER], par, 3); xpos = par[0] - xCenterSCMX; zpos = -parSCM0[3] + g->GetTrd1BondPaperThick()/2.; TVirtualMC::GetMC()->Gspos("PAP1", 1, "SCMX", xpos, ypos, zpos, 0, "ONLY"); for(Int_t iz=0; izGetNECLayers()-1; iz++){ nr = iz + 1; Double_t dz = g->GetECScintThick() + g->GetTrd1BondPaperThick() + fSampleWidth*iz; // PB + 2 paper sheets par[2] = g->GetECPbRadThick()/2. + g->GetTrd1BondPaperThick(); // z par[0] = (parSCM0[0] + tanBetta*dz)/2.; TString pa(Form("PA%2.2i",nr)); TVirtualMC::GetMC()->Gsvolu(pa.Data(), "BOX", fIdTmedArr[kIdPAPER], par, 3); xpos = par[0] - xCenterSCMX; zpos = -parSCM0[3] + dz + par[2]; TVirtualMC::GetMC()->Gspos(pa.Data(), 1, "SCMX", xpos, ypos, zpos, 0, "ONLY") ; // Pb TString pb(Form("PB%2.2i",nr)); par[2] = g->GetECPbRadThick()/2.; // z TVirtualMC::GetMC()->Gsvolu(pb.Data(), "BOX", fIdTmedArr[kIdPB], par, 3); TVirtualMC::GetMC()->Gspos(pb.Data(), 1, pa.Data(), 0.0, 0.0, 0.0, 0, "ONLY") ; } } } else if(g->GetNPHIdiv()==3 && g->GetNETAdiv()==3) { printf(" before AliEMCALv0::Trd1Tower3X3() : parSCM0"); for(Int_t i=0; i<4; i++) printf(" %7.4f ", parSCM0[i]); printf("\n"); Trd1Tower3X3(parSCM0); } else if(g->GetNPHIdiv()==1 && g->GetNETAdiv()==1) { // no division in SCM0 Trd1Tower1X1(parSCM0); } } //______________________________________________________________________ void AliEMCALv0::CreateSmod(const char* mother) { // 18-may-05; mother="XEN1"; // child="SMOD" from first to 10th, "SM10" (11th and 12th) // "DCSM" from 13th to 18/22th (TRD1 case), "DCEXT"(18th and 19th) adapted for DCAL, Oct-23-2012 AliEMCALGeometry * g = GetGeometry(); TString gn(g->GetName()); gn.ToUpper(); Double_t par[3], xpos=0., ypos=0., zpos=0., rpos=0., dphi=0., phi=0.0, phiRad=0.; Double_t parC[3] = {0}; TString smName; Int_t tmpType = -1; // ===== define Super Module from air - 14x30 module ==== ; AliDebug(2,Form("\n ## Super Module | fSampleWidth %5.3f ## %s \n", fSampleWidth, gn.Data())); par[0] = g->GetShellThickness()/2.; par[1] = g->GetPhiModuleSize()*g->GetNPhi()/2.; par[2] = g->GetEtaModuleSize()*g->GetNEta()/2.; fIdRotm=0; Int_t nSMod = g->GetNumberOfSuperModules(); Int_t nphism = nSMod/2; // 20-may-05 if(nphism > 0) { dphi = g->GetEMCGeometry()->GetPhiSuperModule(); rpos = (g->GetEnvelop(0) + g->GetEnvelop(1))/2.; AliDebug(2,Form(" rpos %8.2f : dphi %6.1f degree \n", rpos, dphi)); } if(gn.Contains("WSUC")) { Int_t nr=0; par[0] = g->GetPhiModuleSize()*g->GetNPhi()/2.; par[1] = g->GetShellThickness()/2.; par[2] = g->GetEtaModuleSize()*g->GetNZ()/2. + 5; TVirtualMC::GetMC()->Gsvolu("SMOD", "BOX", fIdTmedArr[kIdAIR], par, 3); AliDebug(2,Form("SMOD in WSUC : tmed %i | dx %7.2f dy %7.2f dz %7.2f (SMOD, BOX)\n", fIdTmedArr[kIdAIR], par[0],par[1],par[2])); fSmodPar0 = par[0]; fSmodPar1 = par[1]; fSmodPar2 = par[2]; nphism = g->GetNumberOfSuperModules(); for(Int_t i=0; iGspos("SMOD", 1, mother, xpos, ypos, zpos, fIdRotm, "ONLY") ; printf(" fIdRotm %3i phi %6.1f(%5.3f) xpos %7.2f ypos %7.2f zpos %7.2f \n", fIdRotm, phi, phiRad, xpos, ypos, zpos); nr++; } } else {// ALICE AliDebug(2,Form(" par[0] %7.2f (old) \n", par[0])); for(Int_t i=0; i<3; i++) par[i] = g->GetSuperModulesPar(i); fSmodPar0 = par[0]; fSmodPar2 = par[2]; Int_t SMOrder = -1; tmpType = -1; for (Int_t smodnum = 0; smodnum < nSMod; ++smodnum) { for(Int_t i=0; i<3; i++) parC[i] = par[i]; if(g->GetSMType(smodnum) == tmpType) { SMOrder++; } else { tmpType = g->GetSMType(smodnum); SMOrder = 1; } phiRad = g->GetPhiCenterOfSMSec(smodnum); // NEED phi= 90, 110, 130, 150, 170, 190(not center)... phi = phiRad *180./TMath::Pi(); Double_t phiy = 90. + phi; Double_t phiz = 0.; xpos = rpos * TMath::Cos(phiRad); ypos = rpos * TMath::Sin(phiRad); zpos = fSmodPar2; // 21-sep-04 if( tmpType == AliEMCALGeometry::kEMCAL_Standard ) { smName="SMOD"; } else if( tmpType == AliEMCALGeometry::kEMCAL_Half ) { smName="SM10"; parC[1] /= 2.; xpos += (par[1]/2. * TMath::Sin(phiRad)); ypos -= (par[1]/2. * TMath::Cos(phiRad)); } else if( tmpType == AliEMCALGeometry::kEMCAL_3rd ) { smName="SM3rd"; parC[1] /= 3.; xpos += (2.*par[1]/3. * TMath::Sin(phiRad)); ypos -= (2.*par[1]/3. * TMath::Cos(phiRad)); } else if( tmpType == AliEMCALGeometry::kDCAL_Standard ) { smName="DCSM"; parC[2] *= 2./3.; zpos = fSmodPar2 + g->GetDCALInnerEdge()/2.; // 21-sep-04 } else if( tmpType == AliEMCALGeometry::kDCAL_Ext ) { smName="DCEXT"; parC[1] /= 3.; xpos += (2.*par[1]/3. * TMath::Sin(phiRad)); ypos -= (2.*par[1]/3. * TMath::Cos(phiRad)); } else AliError("Unkown SM Type!!"); if(SMOrder == 1) {//first time, create the SM TVirtualMC::GetMC()->Gsvolu(smName.Data(), "BOX", fIdTmedArr[kIdAIR], parC, 3); AliDebug(2,Form(" Super module with name \"%s\" was created in \"box\" with: par[0] = %f, par[1] = %f, par[2] = %f\n", smName.Data(), parC[0], parC[1], parC[2])); } if( smodnum%2 == 1) { phiy += 180.; if(phiy>=360.) phiy -= 360.; phiz = 180.; zpos *= -1.; } AliMatrix(fIdRotm, 90.0, phi, 90.0, phiy, phiz, 0.0); TVirtualMC::GetMC()->Gspos(smName.Data(), SMOrder, mother, xpos, ypos, zpos, fIdRotm, "ONLY") ; AliDebug(3, Form(" %s : %2i, fIdRotm %3i phi %6.1f(%5.3f) xpos %7.2f ypos %7.2f zpos %7.2f : i %i \n", smName.Data(), SMOrder, fIdRotm, phi, phiRad, xpos, ypos, zpos, smodnum)); } } AliDebug(2,Form(" Number of Super Modules %i \n", nSMod)); // Steel plate if(g->GetSteelFrontThickness() > 0.0) { // 28-mar-05 par[0] = g->GetSteelFrontThickness()/2.; TVirtualMC::GetMC()->Gsvolu("STPL", "BOX", fIdTmedArr[kIdSTEEL], par, 3); printf("tmed %i | dx %7.2f dy %7.2f dz %7.2f (STPL) \n", fIdTmedArr[kIdSTEEL], par[0],par[1],par[2]); xpos = -(g->GetShellThickness() - g->GetSteelFrontThickness())/2.; TVirtualMC::GetMC()->Gspos("STPL", 1, "SMOD", xpos, 0.0, 0.0, 0, "ONLY") ; } } //______________________________________________________________________ void AliEMCALv0::CreateEmod(const char* mother, const char* child) { // 17-may-05; mother="SMOD"; child="EMOD" // Oct 26,2010 AliEMCALGeometry * g = GetGeometry(); TString gn(g->GetName()); gn.ToUpper(); // Module definition Double_t xpos=0., ypos=0., zpos=0.; //Double_t trd1Angle = g->GetTrd1Angle()*TMath::DegToRad();tanTrd1 = TMath::Tan(trd1Angle/2.); if(strcmp(mother,"SMOD")==0) { fParEMOD[0] = g->GetEtaModuleSize()/2.; // dx1 fParEMOD[1] = g->Get2Trd1Dx2()/2.; // dx2 fParEMOD[2] = g->GetPhiModuleSize()/2.;; // dy fParEMOD[3] = g->GetLongModuleSize()/2.; // dz TVirtualMC::GetMC()->Gsvolu(child, "TRD1", fIdTmedArr[kIdSTEEL], fParEMOD, 4); } Int_t nr=0; fIdRotm=0; // X->Z(0, 0); Y->Y(90, 90); Z->X(90, 0) AliEMCALShishKebabTrd1Module *mod=0; // current module for(Int_t iz=0; izGetNZ(); iz++) { Double_t angle=90., phiOK=0; mod = (AliEMCALShishKebabTrd1Module*)fShishKebabModules->At(iz); angle = mod->GetThetaInDegree(); if(!gn.Contains("WSUC")) { // ALICE AliMatrix(fIdRotm, 90.-angle,180., 90.0,90.0, angle, 0.); phiOK = mod->GetCenterOfModule().Phi()*180./TMath::Pi(); AliDebug(4,Form(" %2i | angle | %6.3f - %6.3f = %6.3f(eta %5.3f)\n", iz+1, angle, phiOK, angle-phiOK, mod->GetEtaOfCenterOfModule())); xpos = mod->GetPosXfromR() + g->GetSteelFrontThickness() - fSmodPar0; zpos = mod->GetPosZ() - fSmodPar2; Int_t iyMax = g->GetNPhi(); if(strcmp(mother,"SM10") == 0 ) { iyMax /= 2; } else if(strcmp(mother,"SM3rd") == 0 ) { iyMax /= 3; } else if(strcmp(mother,"DCEXT") == 0 ) { iyMax /= 3; } else if(strcmp(mother,"DCSM") == 0 ) { if(iz < 8 ) continue;//!!!DCSM from 8th to 23th zpos = mod->GetPosZ() - fSmodPar2 - g->GetDCALInnerEdge()/2.; } else if(strcmp(mother,"SMOD") != 0 ) AliError("Unknown super module Type!!"); for(Int_t iy=0; iyGetPhiModuleSize()*(2*iy+1 - iyMax)/2.; TVirtualMC::GetMC()->Gspos(child, ++nr, mother, xpos, ypos, zpos, fIdRotm, "ONLY") ; // //printf(" %2i xpos %7.2f ypos %7.2f zpos %7.2f fIdRotm %i\n", nr, xpos, ypos, zpos, fIdRotm); AliDebug(3,Form("%3.3i(%2.2i,%2.2i) ", nr,iy+1,iz+1)); } //PH printf("\n"); } else { //WSUC if(iz == 0) AliMatrix(fIdRotm, 0.,0., 90.,0., 90.,90.); // (x')z; y'(x); z'(y) else AliMatrix(fIdRotm, 90-angle,270., 90.0,0.0, angle,90.); phiOK = mod->GetCenterOfModule().Phi()*180./TMath::Pi(); AliDebug(4,Form(" %2i | angle -phiOK | %6.3f - %6.3f = %6.3f(eta %5.3f)\n", iz+1, angle, phiOK, angle-phiOK, mod->GetEtaOfCenterOfModule())); zpos = mod->GetPosZ() - fSmodPar2; ypos = mod->GetPosXfromR() - fSmodPar1; //printf(" zpos %7.2f ypos %7.2f fIdRotm %i\n xpos ", zpos, xpos, fIdRotm); for(Int_t ix=0; ixGetNPhi(); ix++) { // flat in phi xpos = g->GetPhiModuleSize()*(2*ix+1 - g->GetNPhi())/2.; TVirtualMC::GetMC()->Gspos(child, ++nr, mother, xpos, ypos, zpos, fIdRotm, "ONLY") ; //printf(" %7.2f ", xpos); } //printf("\n"); } } AliDebug(2,Form(" Number of modules in Super Module(%s) %i \n", mother, nr)); } void AliEMCALv0::CreateAlFrontPlate(const char* mother, const char* child) { // Oct 26,2010 : Al front plate : ALFP AliEMCALGeometry * g = GetGeometry(); TString gn(g->GetName()); gn.ToUpper(); Double_t trd1Angle = g->GetTrd1Angle()*TMath::DegToRad(), tanTrd1 = TMath::Tan(trd1Angle/2.); Double_t parALFP[5], zposALFP=0.; parALFP[0] = g->GetEtaModuleSize()/2. - g->GetLateralSteelStrip(); // dx1 parALFP[1] = parALFP[0] + tanTrd1*g->GetTrd1AlFrontThick(); // dx2 parALFP[2] = g->GetPhiModuleSize()/2. - g->GetLateralSteelStrip(); // dy parALFP[3] = g->GetTrd1AlFrontThick()/2.; // dz TVirtualMC::GetMC()->Gsvolu(child, "TRD1", fIdTmedArr[kIdAL], parALFP, 4); zposALFP = -fParEMOD[3] + g->GetTrd1AlFrontThick()/2.; TVirtualMC::GetMC()->Gspos (child, 1, mother, 0.0, 0.0, zposALFP, 0, "ONLY"); } //______________________________________________________________________ void AliEMCALv0::Trd1Tower3X3(const Double_t *parSCM0) { // Started Dec 8,2004 by PAI // Fixed Nov 13,2006 printf(" AliEMCALv0::Trd1Tower3X3() : parSCM0"); for(Int_t i=0; i<4; i++) printf(" %7.4f ", parSCM0[i]); printf("\n"); // Nov 10, 2006 - different name of SCMX Double_t parTRAP[11], *dummy=0; AliEMCALGeometry * g = GetGeometry(); TString gn(g->GetName()), scmx; gn.ToUpper(); // Division to tile size AliDebug(2,Form("Trd1Tower3X3() : Divide SCM0 on y-axis %i", g->GetNETAdiv())); TVirtualMC::GetMC()->Gsdvn("SCMY","SCM0", g->GetNETAdiv(), 2); // y-axis Double_t dx1=parSCM0[0], dx2=parSCM0[1], dy=parSCM0[2], dz=parSCM0[3]; Double_t ndiv=3., xpos=0.0; // should be defined once TVirtualMC::GetMC()->Gsvolu("PBTI", "BOX", fIdTmedArr[kIdPB], dummy, 0); for(Int_t ix=1; ix<=3; ix++) { // 3X3 scmx = "SCX"; // Nov 10,2006 // ix=1 parTRAP[0] = dz; Double_t xCentBot = 2.*dx1/3.; Double_t xCentTop = 2.*(dx2/4. + dx1/12.); parTRAP[1] = TMath::ATan2((xCentTop-xCentBot),2.*dz)*TMath::RadToDeg(); // theta parTRAP[2] = 0.; // phi // bottom parTRAP[3] = dy/ndiv; // H1 parTRAP[4] = dx1/ndiv; // BL1 parTRAP[5] = parTRAP[4]; // TL1 parTRAP[6] = 0.0; // ALP1 // top parTRAP[7] = dy/ndiv; // H2 parTRAP[8] = dx2/2 - dx1/6.;// BL2 parTRAP[9] = parTRAP[8]; // TL2 parTRAP[10]= 0.0; // ALP2 xpos = (xCentBot+xCentTop)/2.; if (ix==3) { parTRAP[1] = -parTRAP[1]; xpos = -xpos; } else if(ix==2) { // central part is box but we treat as trapesoid due to numbering parTRAP[1] = 0.; parTRAP[8] = dx1/ndiv; // BL2 parTRAP[9] = parTRAP[8]; // TL2 xpos = 0.0; } AliDebug(2,Form(" ** TRAP ** xpos %9.3f\n", xpos)); for(Int_t i=0; i<11; i++) AliDebug(2,Form(" par[%2.2i] %9.4f\n", i, parTRAP[i])); scmx += ix; TVirtualMC::GetMC()->Gsvolu(scmx.Data(), "TRAP", fIdTmedArr[kIdSC], parTRAP, 11); TVirtualMC::GetMC()->Gspos(scmx.Data(), 1, "SCMY", xpos, 0.0, 0.0, 0, "ONLY") ; PbInTrap(parTRAP, scmx); } AliDebug(2,"Trd1Tower3X3 - Ver. 1.0 : was tested."); } // 8-dec-04 by PAI //______________________________________________________________________ void AliEMCALv0::PbInTrap(const Double_t parTRAP[11], TString n) { // see for example CreateShishKebabGeometry(); just for case TRD1 static Int_t nr=0; AliDebug(2,Form(" Pb tiles : nrstart %i\n", nr)); AliEMCALGeometry * g = GetGeometry(); Double_t par[3]; Double_t xpos = 0.0, ypos = 0.0; Double_t zpos = -fSampleWidth*g->GetNECLayers()/2. + g->GetECPbRadThick()/2.; Double_t coef = (parTRAP[8] - parTRAP[4]) / (2.*parTRAP[0]); Double_t xCenterSCMX = (parTRAP[4] + parTRAP[8])/2.; // ?? // Double_t tan = TMath::Tan(parTRAP[1]*TMath::DegToRad()); par[1] = parTRAP[3]; // y par[2] = g->GetECPbRadThick()/2.; // z for(Int_t iz=0; izGetNECLayers(); iz++){ par[0] = parTRAP[4] + coef*fSampleWidth*iz; xpos = par[0] - xCenterSCMX; if(parTRAP[1] < 0.) xpos = -xpos; TVirtualMC::GetMC()->Gsposp("PBTI", ++nr, n.Data(), xpos, ypos, zpos, 0, "ONLY", par, 3) ; AliDebug(2,Form(" %i xpos %9.3f zpos %9.3f par[0] %9.3f |", iz+1, xpos, zpos, par[0])); zpos += fSampleWidth; if(iz%2>0) printf("\n"); } AliDebug(2,Form(" Number of Pb tiles in SCMX %i coef %9.7f \n", nr, coef)); AliDebug(2,Form(" par[1] %9.3f par[2] %9.3f ypos %9.3f \n", par[1], par[2], ypos)); AliDebug(2,Form(" PbInTrap Ver. 1.0 : was tested.")); } //______________________________________________________________________ void AliEMCALv0::Trd1Tower1X1(Double_t *parSCM0) { // Started Nov 22,2006 by PAI AliDebug(1," AliEMCALv0::Trd1Tower1X1() : parSCM0"); for(Int_t i=0; i<4; i++) printf(" %7.4f ", parSCM0[i]); printf("\n"); // No division - keeping the same volume logic // and as consequence the same abs is scheme AliDebug(2,"Trd1Tower1X1() : Create SCMX(SCMY) as SCM0"); TVirtualMC::GetMC()->Gsvolu("SCMY", "TRD1", fIdTmedArr[kIdAIR], parSCM0, 4); TVirtualMC::GetMC()->Gspos("SCMY", 1, "SCM0", 0.0, 0.0, 0.0, 0, "ONLY"); TVirtualMC::GetMC()->Gsvolu("SCMX", "TRD1", fIdTmedArr[kIdSC], parSCM0, 4); TVirtualMC::GetMC()->Gspos("SCMX", 1, "SCMY", 0.0, 0.0, 0.0, 0, "ONLY"); // should be defined once Double_t *dummy=0; TVirtualMC::GetMC()->Gsvolu("PBTI", "BOX", fIdTmedArr[kIdPB], dummy, 0); PbInTrd1(parSCM0, "SCMX"); AliDebug(1,"Trd1Tower1X1() : Ver. 0.1 : was tested."); } //______________________________________________________________________ void AliEMCALv0::PbInTrd1(const Double_t *parTrd1, TString n) { // see PbInTrap(const Double_t parTrd1[11], TString n) static Int_t nr=0, ndeb=2; AliDebug(ndeb,Form(" Pb tiles : nrstart %i\n", nr)); AliEMCALGeometry * g = GetGeometry(); Double_t par[3]; Double_t xpos = 0.0, ypos = 0.0; Double_t zpos = -fSampleWidth*g->GetNECLayers()/2. + g->GetECPbRadThick()/2.; Double_t coef = (parTrd1[1] - parTrd1[0]) / (2.*parTrd1[3]); par[1] = parTrd1[2]; // y par[2] = g->GetECPbRadThick()/2.; // z for(Int_t iz=0; izGetNECLayers(); iz++){ par[0] = parTrd1[0] + coef*fSampleWidth*iz; TVirtualMC::GetMC()->Gsposp("PBTI", ++nr, n.Data(), xpos, ypos, zpos, 0, "ONLY", par, 3) ; AliDebug(2,Form(" %i xpos %9.3f zpos %9.3f par[0] %9.3f |", iz+1, xpos, zpos, par[0])); zpos += fSampleWidth; if(iz%2>0) printf("\n"); } AliDebug(ndeb,Form(" Number of Pb tiles in SCMX %i coef %9.7f ", nr, coef)); AliDebug(ndeb,Form(" PbInTrd1 Ver. 0.1 : was tested.")); } //______________________________________________________________________ AliEMCALShishKebabTrd1Module* AliEMCALv0::GetShishKebabModule(Int_t neta) { // 28-oct-05 AliEMCALShishKebabTrd1Module* trd1=0; if(fShishKebabModules && neta>=0 && netaGetSize()) { trd1 = (AliEMCALShishKebabTrd1Module*)fShishKebabModules->At(neta); } return trd1; } //_____________________________________________________________________________ void AliEMCALv0::AddAlignableVolumes() const { //Add volumes which are alignable (?) TString ntmp(GetTitle()); // name of EMCAL geometry if(ntmp.Contains("WSUC")) { AddAlignableVolumesInWSUC(); // WSUC case } else { AddAlignableVolumesInALICE(); // ALICE case } } //______________________________________________________________________ void AliEMCALv0::AddAlignableVolumesInALICE() const { // // Create entries for alignable volumes associating the symbolic volume // name with the corresponding volume path. Needs to be synchronized with // eventual changes in the geometry. // Float_t pars[] = {GetGeometry()->GetSuperModulesPar(0),GetGeometry()->GetSuperModulesPar(1),GetGeometry()->GetSuperModulesPar(2)}; Double_t rpos = (GetGeometry()->GetEnvelop(0) + GetGeometry()->GetEnvelop(1))/2.; Double_t phi, phiRad, xpos, ypos, zpos; AliGeomManager::ELayerID idEMCAL = AliGeomManager::kEMCAL; Int_t modUID, modnum = 0; TString volpath, symname; AliEMCALGeometry * geom = GetGeometry(); Int_t nSMod = geom->GetNumberOfSuperModules(); TString SMPathName; TString SMName; Int_t tmpType = -1; Int_t SMOrder = 0; for (Int_t smodnum = 0; smodnum < nSMod; ++smodnum) { modUID = AliGeomManager::LayerToVolUID(idEMCAL,modnum++); if(geom->GetSMType(smodnum) == AliEMCALGeometry::kEMCAL_Standard ) { SMPathName = "SMOD"; SMName = "FullSupermodule";} else if(geom->GetSMType(smodnum) == AliEMCALGeometry::kEMCAL_Half ) { SMPathName = "SM10"; SMName = "HalfSupermodule";} else if(geom->GetSMType(smodnum) == AliEMCALGeometry::kEMCAL_3rd ) { SMPathName = "SM3rd"; SMName = "OneThrdSupermodule";} else if( geom->GetSMType(smodnum) == AliEMCALGeometry::kDCAL_Standard ) { SMPathName = "DCSM"; SMName = "DCALSupermodule";} else if( geom->GetSMType(smodnum) == AliEMCALGeometry::kDCAL_Ext ) { SMPathName = "DCEXT"; SMName = "DCALExtensionSM";} else AliError("Unkown SM Type!!"); if(geom->GetSMType(smodnum) == tmpType) { SMOrder++; } else { tmpType = geom->GetSMType(smodnum); SMOrder = 1; } volpath.Form("ALIC_1/XEN1_1/%s_%d",SMPathName.Data(), SMOrder); symname.Form("EMCAL/%s%d",SMName.Data(), SMOrder); if(!gGeoManager->SetAlignableEntry(symname.Data(),volpath.Data(),modUID)) AliFatal(Form("AliEMCALv0::Unable to set alignable entry!!\nName: %s\t Path: %s\t ModuleID: %d\n",symname.Data(),volpath.Data(), modUID)); // Creates the Tracking to Local transformation matrix for EMCAL // modules TGeoPNEntry *alignableEntry = gGeoManager->GetAlignableEntryByUID(modUID) ; phiRad = GetGeometry()->GetPhiCenterOfSM(smodnum); //comes in radians, not degrees phi = phiRad*180./TMath::Pi(); //need degrees for rot. matrix xpos = rpos * TMath::Cos(phiRad); ypos = rpos * TMath::Sin(phiRad); zpos = pars[2]; if( geom->GetSMType(smodnum) == AliEMCALGeometry::kEMCAL_Half ) { xpos += (pars[1]/2. * TMath::Sin(phiRad)); // half SM! ypos -= (pars[1]/2. * TMath::Cos(phiRad)); } else if ( geom->GetSMType(smodnum) == AliEMCALGeometry::kEMCAL_3rd || geom->GetSMType(smodnum) == AliEMCALGeometry::kDCAL_Ext ) { xpos += (pars[1]/3. * TMath::Sin(phiRad)); // one_third SM ! ypos -= (pars[1]/3. * TMath::Cos(phiRad)); } else if( geom->GetSMType(smodnum) == AliEMCALGeometry::kDCAL_Standard ) { zpos = pars[2]*2./3. + GetGeometry()->GetDCALInnerEdge()/2.; } AliDebug(3, Form(" fIdRotm %3i phi %6.13f(%5.3f) xpos %7.2f ypos %7.2f zpos %7.2f : smodnum %i \n", fIdRotm, phi, phiRad, xpos, ypos, zpos, smodnum)); TGeoHMatrix *matTtoL; TGeoHMatrix *globMatrix = alignableEntry->GetGlobalOrig(); if(smodnum%2 == 0) { // pozitive z TGeoTranslation geoTran0(xpos, ypos, zpos); TGeoRotation geoRot0("geoRot0", 90.0, phi, 90.0, 90.0+phi, 0.0, 0.0); TGeoCombiTrans mat0(geoTran0, geoRot0); matTtoL = new TGeoHMatrix(mat0); matTtoL->MultiplyLeft(&(globMatrix->Inverse())); alignableEntry->SetMatrix(matTtoL); } else { // negative z Double_t phiy = 90. + phi + 180.; if(phiy>=360.) phiy -= 360.; TGeoTranslation geoTran1(xpos,ypos,-zpos); TGeoRotation geoRot1("geoRot1", 90.0, phi, 90.0, phiy, 180.0, 0.0); TGeoCombiTrans mat1(geoTran1, geoRot1); matTtoL = new TGeoHMatrix(mat1); matTtoL->MultiplyLeft(&(globMatrix->Inverse())); alignableEntry->SetMatrix(matTtoL); } } } //______________________________________________________________________ void AliEMCALv0::AddAlignableVolumesInWSUC() const { // // Create entries for alignable volumes associating the symbolic volume // name with the corresponding volume path. Needs to be synchronized with // eventual changes in the geometry. // TString vpstr1 = "WSUC_1/XEN1_1/SMOD_"; TString snstr1 = "EMCAL/CosmicTestSupermodule"; TString volpath, symname; // #SM is just one for (Int_t smodnum=0; smodnum < 1; smodnum++) { symname = snstr1; symname += (smodnum+1); volpath = vpstr1; volpath += (smodnum+1); if(!gGeoManager->SetAlignableEntry(symname.Data(),volpath.Data())) AliFatal("Unable to set alignable entry!!"); } }