Geant4 Cross Reference |
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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** 25 // 22 // 26 // G4VTrajectory << 27 // 23 // 28 // Class description: << 24 // $Id: G4VTrajectory.hh,v 1.6 2001/07/11 10:08:42 gunter Exp $ >> 25 // GEANT4 tag $Name: geant4-04-00 $ >> 26 // >> 27 // >> 28 //--------------------------------------------------------------- >> 29 // >> 30 // G4VTrajectory.hh >> 31 // >> 32 // class description: >> 33 // This is the abstract base class of a trajectory. 29 // 34 // 30 // This class is the abstract base class repre << 31 // a particle being tracked. << 32 // Its concrete class includes information of: << 33 // 1) List of trajectory points composing << 34 // 2) Static information of the particle w << 35 // 3) Track ID and parent particle ID of t << 36 << 37 // Contact: 35 // Contact: 38 // Questions and comments to this code shoul 36 // Questions and comments to this code should be sent to 39 // Katsuya Amako (e-mail: Katsuya.Amako@k 37 // Katsuya Amako (e-mail: Katsuya.Amako@kek.jp) 40 // Makoto Asai (e-mail: asai@slac.stanf << 38 // Makoto Asai (e-mail: asai@kekvax.kek.jp) 41 // Takashi Sasaki (e-mail: Takashi.Sasaki@ 39 // Takashi Sasaki (e-mail: Takashi.Sasaki@kek.jp) 42 // ------------------------------------------- << 40 // 43 #ifndef G4VTrajectory_hh << 41 // --------------------------------------------------------------- 44 #define G4VTrajectory_hh 1 << 45 << 46 #include "G4ThreeVector.hh" << 47 #include "globals.hh" << 48 42 49 #include <map> << 43 #ifndef G4VTrajectory_h 50 #include <vector> << 44 #define G4VTrajectory_h 1 51 45 52 class G4Step; 46 class G4Step; 53 class G4VTrajectoryPoint; << 47 #include "G4VTrajectoryPoint.hh" 54 class G4AttDef; << 48 #include "globals.hh" 55 class G4AttValue; << 56 49 57 class G4VTrajectory 50 class G4VTrajectory 58 { 51 { 59 public: << 52 public: // without description 60 // Constructor/Destrcutor << 53 61 G4VTrajectory() = default; << 54 G4VTrajectory() {;} 62 virtual ~G4VTrajectory() = default; << 55 virtual ~G4VTrajectory() {;} 63 << 56 64 // Equality operator << 57 inline int operator == (const G4VTrajectory& right){return (this==&right);} 65 G4bool operator==(const G4VTrajectory& right << 58 66 << 59 virtual void ShowTrajectory() const = 0; 67 // Cloning with the master thread allocator << 60 virtual void DrawTrajectory(G4int i_mode=0) const = 0; 68 // Each concrete class should implement its << 61 virtual void AppendStep(const G4Step*) = 0; 69 // This method is used only in the sub-event << 62 virtual int GetPointEntries() const = 0; 70 virtual G4VTrajectory* CloneForMaster() cons << 63 virtual G4VTrajectoryPoint* GetPoint(int) const = 0; 71 << 64 virtual void MergeTrajectory(G4VTrajectory*) = 0; 72 // Accessors << 73 virtual G4int GetTrackID() const = 0; << 74 virtual G4int GetParentID() const = 0; << 75 virtual G4String GetParticleName() const = 0 << 76 << 77 // Charge is that of G4DynamicParticle << 78 virtual G4double GetCharge() const = 0; << 79 << 80 // Zero will be returned if the particle doe << 81 virtual G4int GetPDGEncoding() const = 0; << 82 << 83 // Momentum at the origin of the track in gl << 84 virtual G4ThreeVector GetInitialMomentum() c << 85 << 86 // Returns the number of trajectory points << 87 virtual G4int GetPointEntries() const = 0; << 88 << 89 // Returns i-th trajectory point << 90 virtual G4VTrajectoryPoint* GetPoint(G4int i << 91 << 92 // Converts attributes in trajectory (and tr << 93 // needed) to ostream. A default implementat << 94 // may be used or may be overridden in the c << 95 // the user needs to follow with new-line or << 96 // depending on the nature of os << 97 virtual void ShowTrajectory(std::ostream& os << 98 << 99 // Draw the trajectory. A default implementa << 100 // class may be used or may be overridden in << 101 virtual void DrawTrajectory() const; << 102 << 103 // If implemented by a derived class, return << 104 // attribute definitions for the attribute v << 105 // must test the validity of this pointer. S << 106 // example of a concrete implementation of t << 107 virtual const std::map<G4String, G4AttDef>* << 108 << 109 // If implemented by a derived class, return << 110 // of attribute values suitable, e.g., for p << 111 // refer to an attribute definition in the a << 112 // the key. The user must test the validity << 113 // must be non-zero and conform to the G4Att << 114 // checked with G4AttCheck) and delete the l << 115 // G4Trajectory for an example of a concrete << 116 // method and G4VTrajectory::ShowTrajectory << 117 virtual std::vector<G4AttValue>* CreateAttVa << 118 << 119 // Methods invoked exclusively by G4Tracking << 120 virtual void AppendStep(const G4Step* aStep) << 121 virtual void MergeTrajectory(G4VTrajectory* << 122 }; 65 }; 123 66 124 #endif 67 #endif >> 68 >> 69 >> 70 >> 71 >> 72 >> 73 >> 74 >> 75 >> 76 >> 77 125 78