// @(#)root/eve:$Id: text_test.C 26717 2008-12-07 22:07:55Z matevz $ // Author: Alja Mrak-Tadel // Demonstrates usage of TEveTrackPRopagator with different magnetic // field configurations. // Needs to be run in compiled mode. // root // .L track.C+ // track(3, kTRUE) // // void track(Int_t mode = 5, Bool_t isRungeKutta = kTRUE) // Modes are // 0 - B = 0, no difference btween signed and charge particles; // 1 - constant B field (along z, but could have arbitrary direction); // 2 - variable B field, sign change at R = 200 cm; // 3 - magnetic field with a zero-field region; // 4 - CMS magnetic field - simple track; // 5 - CMS magnetic field - track with different path-marks. // 6 - Concpetual ILC detector, problematic track #if defined(__CINT__) && !defined(__MAKECINT__) { Info("track.C", "Has to be run in compiled mode, esp. if you want to pass parameters."); gSystem->CompileMacro("track.C"); track(); } #else #include "TEveTrackPropagator.h" #include "TEveTrack.h" #include "TEveVSDStructs.h" #include "TEveManager.h" #include "TEveViewer.h" #include "TSystem.h" #include "TGLViewer.h" #include "TMath.h" #include "TEveViewer.h" #include "TEvePointSet.h" #include TEveTrackPropagator* g_prop = 0; class GappedField : public TEveMagField { public: GappedField():TEveMagField(){} ~GappedField(){}; using TEveMagField::GetField; virtual TEveVectorD GetFieldD(Double_t /*x*/, Double_t /*y*/, Double_t z) const { if (TMath::Abs(z) < 300) return TEveVectorD(0, 0, -4); if (TMath::Abs(z) < 600) return TEveVectorD(0, 0, 0); return TEveVectorD(0, 0, 4); } }; //============================================================================== class CmsMagField: public TEveMagField { bool m_magnetIsOn; bool m_reverse; bool m_simpleModel; public: CmsMagField(): m_magnetIsOn(true), m_reverse(false), m_simpleModel(true){} virtual ~CmsMagField(){} virtual Double_t GetMaxFieldMagD() const { return m_magnetIsOn ? 3.8 : 0.0; } void setMagnetState( bool state ) { if (state != m_magnetIsOn) { if ( state ) std::cout << "Magnet state is changed to ON" << std::endl; else std::cout << "Magnet state is changed to OFF" << std::endl; } m_magnetIsOn = state; } bool isMagnetOn() const { return m_magnetIsOn;} void setReverseState(bool state) { m_reverse = state; } bool isReverse() const { return m_reverse;} void setSimpleModel(bool simpleModel) { m_simpleModel = simpleModel; } bool isSimpleModel() const { return m_simpleModel;} using TEveMagField::GetField; virtual TEveVectorD GetFieldD(Double_t x, Double_t y, Double_t z) const { double R = sqrt(x*x+y*y); double field = m_reverse?-GetMaxFieldMag():GetMaxFieldMag(); //barrel if ( TMath::Abs(z)<724 ) { //inside solenoid if ( R < 300) return TEveVectorD(0,0,field); // outside solinoid if ( m_simpleModel || ( R>461.0 && R<490.5 ) || ( R>534.5 && R<597.5 ) || ( R>637.0 && R<700.0 ) ) return TEveVectorD(0,0,-field/3.8*1.2); } else { // endcaps if (m_simpleModel) { if ( R < 50 ) return TEveVectorD(0,0,field); if ( z > 0 ) return TEveVectorD(x/R*field/3.8*2.0, y/R*field/3.8*2.0, 0); else return TEveVectorD(-x/R*field/3.8*2.0, -y/R*field/3.8*2.0, 0); } // proper model if ( ( TMath::Abs(z)>724 && TMath::Abs(z)<786 ) || ( TMath::Abs(z)>850 && TMath::Abs(z)<910 ) || ( TMath::Abs(z)>975 && TMath::Abs(z)<1003 ) ) { if ( z > 0 ) return TEveVectorD(x/R*field/3.8*2.0, y/R*field/3.8*2.0, 0); else return TEveVectorD(-x/R*field/3.8*2.0, -y/R*field/3.8*2.0, 0); } } return TEveVectorD(0,0,0); } }; //============================================================================== //============================================================================== //______________________________________________________________________________ TEveTrack* make_track(TEveTrackPropagator* prop, Int_t sign) { // Make track with given propagator. // Add to math-marks to test fit. TEveRecTrackD *rc = new TEveRecTrackD(); rc->fV.Set(0.028558, -0.000918, 3.691919); rc->fP.Set(0.767095, -2.400006, -0.313103); rc->fSign = sign; TEveTrack* track = new TEveTrack(rc, prop); track->SetName(Form("Charge %d", sign)); // daughter 0 TEvePathMarkD* pm1 = new TEvePathMarkD(TEvePathMarkD::kDaughter); pm1->fV.Set(1.479084, -4.370661, 3.119761); track->AddPathMark(*pm1); // daughter 1 TEvePathMarkD* pm2 = new TEvePathMarkD(TEvePathMarkD::kDaughter); pm2->fV.Set(57.72345, -89.77011, -9.783746); track->AddPathMark(*pm2); return track; } void track(Int_t mode = 1, Bool_t isRungeKutta = kTRUE) { #if defined (__CINT__) Error("track.C", "Must be run in compiled mode!"); return; #endif gSystem->IgnoreSignal(kSigSegmentationViolation, true); TEveManager::Create(); TEveTrackList *list = new TEveTrackList(); TEveTrackPropagator* prop = g_prop = list->GetPropagator(); prop->SetFitDaughters(kFALSE); prop->SetMaxZ(1000); if (isRungeKutta) { prop->SetStepper(TEveTrackPropagator::kRungeKutta); list->SetName("RK Propagator"); } else { list->SetName("Heix Propagator"); } TEveTrack *track = 0; switch (mode) { case 0: { // B = 0 no difference btween signed and charge particles prop->SetMagField(0.); list->SetElementName(Form("%s, zeroB", list->GetElementName())); track = make_track(prop, 1); break; } case 1: { // constant B field, const angle prop->SetMagFieldObj(new TEveMagFieldConst(0., 0., -3.8)); list->SetElementName(Form("%s, constB", list->GetElementName())); track = make_track(prop, 1); break; } case 2: { // variable B field, sign change at R = 200 cm prop->SetMagFieldObj(new TEveMagFieldDuo(200, -4.4, 2)); list->SetElementName(Form("%s, duoB", list->GetElementName())); track = make_track(prop, 1); break; } case 3: { // gapped field prop->SetMagFieldObj(new GappedField()); list->SetElementName(Form("%s, gappedB", list->GetElementName())); TEveRecTrackD *rc = new TEveRecTrackD(); rc->fV.Set(0.028558, -0.000918, 3.691919); rc->fP.Set(0.767095, -0.400006, 2.313103); rc->fSign = 1; track = new TEveTrack(rc, prop); TEvePointSet* marker = new TEvePointSet(2); marker->SetElementName("B field break points"); marker->SetPoint(0, 0., 0., 300.f); marker->SetPoint(1, 0., 0., 600.f); marker->SetMarkerColor(3); gEve->AddElement(marker); break; } case 4: { // Magnetic field of CMS I. CmsMagField* mf = new CmsMagField; mf->setReverseState(true); prop->SetMagFieldObj(mf); prop->SetMaxR(1000); prop->SetMaxZ(1000); prop->SetRnrDaughters(kTRUE); prop->SetRnrDecay(kTRUE); prop->RefPMAtt().SetMarkerStyle(4); list->SetElementName(Form("%s, CMS field", list->GetElementName())); TEveRecTrackD *rc = new TEveRecTrackD(); rc->fV.Set(0.027667, 0.007919, 0.895964); rc->fP.Set(3.903134, 2.252232, -3.731366); rc->fSign = -1; track = new TEveTrack(rc, prop); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(3.576755e+00, 2.080579e+00, -2.507230e+00))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(8.440379e+01, 6.548286e+01, -8.788129e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.841321e+02, 3.915693e+02, -3.843072e+02))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.946167e+02, 4.793932e+02, -4.615060e+02))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDecay, TEveVectorD(2.249656e+02, 5.835767e+02, -5.565275e+02))); track->SetRnrPoints(kTRUE); track->SetMarkerStyle(4); break; } case 5: { // Magnetic field of CMS I. CmsMagField* mf = new CmsMagField; mf->setReverseState(true); mf->setSimpleModel(false); prop->SetMagFieldObj(mf); prop->SetMaxR(1000); prop->SetMaxZ(1000); prop->SetRnrReferences(kTRUE); prop->SetRnrDaughters(kTRUE); prop->SetRnrDecay(kTRUE); prop->RefPMAtt().SetMarkerStyle(4); list->SetElementName(Form("%s, CMS field", list->GetElementName())); TEveRecTrackD *rc = new TEveRecTrackD(); rc->fV.Set(-16.426592, 16.403185, -19.782692); rc->fP.Set(3.631100, 3.643450, 0.682254); rc->fSign = -1; track = new TEveTrack(rc, prop); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kReference, TEveVectorD(-1.642659e+01, 1.640318e+01, -1.978269e+01), TEveVectorD(3.631100, 3.643450, 0.682254))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kReference, TEveVectorD(-1.859987e+00, 3.172243e+01, -1.697866e+01), TEveVectorD(3.456056, 3.809894, 0.682254))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kReference, TEveVectorD(4.847579e+01, 9.871711e+01, -5.835719e+00), TEveVectorD(2.711614, 4.409945, 0.687656))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.342045e+02, 4.203950e+02, 3.846268e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.483827e+02, 5.124750e+02, 5.064311e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.674676e+02, 6.167731e+02, 6.517403e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDecay, TEveVectorD(1.884976e+02, 7.202000e+02, 7.919290e+01))); track->SetRnrPoints(kTRUE); track->SetMarkerStyle(4); break; } case 6: { // Problematic track from Druid prop->SetMagFieldObj(new TEveMagFieldDuo(350, -3.5, 2.0)); prop->SetMaxR(1000); prop->SetMaxZ(1000); prop->SetRnrReferences(kTRUE); prop->SetRnrDaughters(kTRUE); prop->SetRnrDecay(kTRUE); prop->RefPMAtt().SetMarkerStyle(4); list->SetElementName(Form("%s, Some ILC Detector field", list->GetElementName())); TEveRecTrackD *rc = new TEveRecTrackD(); rc->fV.Set(57.1068, 31.2401, -7.07629); rc->fP.Set(4.82895, 2.35083, -0.611757); rc->fSign = 1; track = new TEveTrack(rc, prop); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(1.692235e+02, 7.047929e+01, -2.064785e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDaughter, TEveVectorD(5.806180e+02, 6.990633e+01, -6.450000e+01))); track->AddPathMark(TEvePathMarkD(TEvePathMarkD::kDecay, TEveVectorD(6.527213e+02, 1.473249e+02, -8.348498e+01))); track->SetRnrPoints(kTRUE); track->SetMarkerStyle(4); break; } }; if (isRungeKutta) list->SetLineColor(kMagenta); else list->SetLineColor(kCyan); track->SetLineColor(list->GetLineColor()); gEve->AddElement(list); list->AddElement(track); track->MakeTrack(); TEveViewer *ev = gEve->GetDefaultViewer(); TGLViewer *gv = ev->GetGLViewer(); gv->SetGuideState(TGLUtil::kAxesOrigin, kTRUE, kFALSE, 0); gEve->Redraw3D(kTRUE); gSystem->ProcessEvents(); gv->CurrentCamera().RotateRad(-0.5, 1.4); gv->RequestDraw(); } #endif