// @(#)root/vmc:$Id: TGeoMCGeometry.h 20882 2007-11-19 11:31:26Z rdm $ // Authors: Al;ice collaboration 25/06/2002 /************************************************************************* * Copyright (C) 2006, Rene Brun and Fons Rademakers. * * Copyright (C) 2002, ALICE Experiment at CERN. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TGeoMCGeometry #define ROOT_TGeoMCGeometry // // Class TGeoMCGeometry // -------------------- // Implementation of the TVirtualMCGeometry interface // for building TGeo geometry. // #include "TVirtualMCGeometry.h" class TGeoHMatrix; class TArrayD; class TString; class TGeoMCGeometry : public TVirtualMCGeometry { public: TGeoMCGeometry(const char* name, const char* title, Bool_t g3CompatibleVolumeNames = false); TGeoMCGeometry(); virtual ~TGeoMCGeometry(); // detector composition virtual void Material(Int_t& kmat, const char* name, Double_t a, Double_t z, Double_t dens, Double_t radl, Double_t absl, Float_t* buf, Int_t nwbuf); virtual void Material(Int_t& kmat, const char* name, Double_t a, Double_t z, Double_t dens, Double_t radl, Double_t absl, Double_t* buf, Int_t nwbuf); virtual void Mixture(Int_t& kmat, const char *name, Float_t *a, Float_t *z, Double_t dens, Int_t nlmat, Float_t *wmat); virtual void Mixture(Int_t& kmat, const char *name, Double_t *a, Double_t *z, Double_t dens, Int_t nlmat, Double_t *wmat); virtual void Medium(Int_t& kmed, const char *name, Int_t nmat, Int_t isvol, Int_t ifield, Double_t fieldm, Double_t tmaxfd, Double_t stemax, Double_t deemax, Double_t epsil, Double_t stmin, Float_t* ubuf, Int_t nbuf); virtual void Medium(Int_t& kmed, const char *name, Int_t nmat, Int_t isvol, Int_t ifield, Double_t fieldm, Double_t tmaxfd, Double_t stemax, Double_t deemax, Double_t epsil, Double_t stmin, Double_t* ubuf, Int_t nbuf); virtual void Matrix(Int_t& krot, Double_t thetaX, Double_t phiX, Double_t thetaY, Double_t phiY, Double_t thetaZ, Double_t phiZ); // functions from GGEOM virtual Int_t Gsvolu(const char *name, const char *shape, Int_t nmed, Float_t *upar, Int_t np); virtual Int_t Gsvolu(const char *name, const char *shape, Int_t nmed, Double_t *upar, Int_t np); virtual void Gsdvn(const char *name, const char *mother, Int_t ndiv, Int_t iaxis); virtual void Gsdvn2(const char *name, const char *mother, Int_t ndiv, Int_t iaxis, Double_t c0i, Int_t numed); virtual void Gsdvt(const char *name, const char *mother, Double_t step, Int_t iaxis, Int_t numed, Int_t ndvmx); virtual void Gsdvt2(const char *name, const char *mother, Double_t step, Int_t iaxis, Double_t c0, Int_t numed, Int_t ndvmx); virtual void Gsord(const char *name, Int_t iax); virtual void Gspos(const char *name, Int_t nr, const char *mother, Double_t x, Double_t y, Double_t z, Int_t irot, const char *konly); virtual void Gsposp(const char *name, Int_t nr, const char *mother, Double_t x, Double_t y, Double_t z, Int_t irot, const char *konly, Float_t *upar, Int_t np); virtual void Gsposp(const char *name, Int_t nr, const char *mother, Double_t x, Double_t y, Double_t z, Int_t irot, const char *konly, Double_t *upar, Int_t np); virtual void Gsbool(const char* /*onlyVolName*/, const char* /*manyVolName*/) {} // functions for access to geometry // // Return the Transformation matrix between the volume specified by // the path volumePath and the top or master volume. virtual Bool_t GetTransformation(const TString& volumePath, TGeoHMatrix& matrix); // Return the name of the shape and its parameters for the volume // specified by the volume name. virtual Bool_t GetShape(const TString& volumePath, TString& shapeType, TArrayD& par); // Returns the material parameters for the volume specified by // the volume name. virtual Bool_t GetMaterial(const TString& volumeName, TString& name, Int_t& imat, Double_t& a, Double_t& z, Double_t& density, Double_t& radl, Double_t& inter, TArrayD& par); // Returns the medium parameters for the volume specified by the // volume name. virtual Bool_t GetMedium(const TString& volumeName, TString& name, Int_t& imed, Int_t& nmat, Int_t& isvol, Int_t& ifield, Double_t& fieldm, Double_t& tmaxfd, Double_t& stemax, Double_t& deemax, Double_t& epsil, Double_t& stmin, TArrayD& par); // functions for drawing //virtual void DrawOneSpec(const char* name); //virtual void Gsatt(const char* name, const char* att, Int_t val); //virtual void Gdraw(const char*,Double_t theta, Double_t phi, // Double_t psi, Double_t u0, Double_t v0, // Double_t ul, Double_t vl); // Euclid //virtual void WriteEuclid(const char*, const char*, Int_t, Int_t); // get methods virtual Int_t VolId(const Text_t* volName) const; virtual const char* VolName(Int_t id) const; virtual Int_t MediumId(const Text_t* mediumName) const; virtual Int_t NofVolumes() const; virtual Int_t NofVolDaughters(const char* volName) const; virtual const char* VolDaughterName(const char* volName, Int_t i) const; virtual Int_t VolDaughterCopyNo(const char* volName, Int_t i) const; virtual Int_t VolId2Mate(Int_t id) const; private: TGeoMCGeometry(const TGeoMCGeometry& /*rhs*/); TGeoMCGeometry& operator=(const TGeoMCGeometry& /*rhs*/); Double_t* CreateDoubleArray(Float_t* array, Int_t size) const; void Vname(const char *name, char *vname) const; Bool_t fG3CompatibleVolumeNames; // option to convert volumes names to // be compatible with G3 static TGeoMCGeometry* fgInstance; // singleton instance ClassDef(TGeoMCGeometry,2) // VMC TGeo Geometry builder }; #endif