Geant4 Cross Reference

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Geant4/geometry/management/include/G4VPhysicalVolume.hh

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Differences between /geometry/management/include/G4VPhysicalVolume.hh (Version 11.3.0) and /geometry/management/include/G4VPhysicalVolume.hh (Version 9.4.p3)


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 25 //                                                 25 //
 26 // G4VPhysicalVolume                           <<  26 //
                                                   >>  27 // $Id: G4VPhysicalVolume.hh,v 1.17 2007-04-11 08:00:12 gcosmo Exp $
                                                   >>  28 // GEANT4 tag $Name: not supported by cvs2svn $
                                                   >>  29 //
                                                   >>  30 //
                                                   >>  31 // class G4VPhysicalVolume
 27 //                                                 32 //
 28 // Class description:                              33 // Class description:
 29 //                                                 34 //
 30 // This is an Abstract Base class for the repr     35 // This is an Abstract Base class for the representation of positioned volume.  
 31 // The volume is placed within a mother volume     36 // The volume is placed within a mother volume,  relative to its coordinate 
 32 // system.  Either a single positioned volume      37 // system.  Either a single positioned volume or many positioned volume can 
 33 // be represented by a particular G4VPhysicalV     38 // be represented by a particular G4VPhysicalVolume.
 34                                                    39 
 35 // 15.01.13, G.Cosmo, A.Dotti: Modified for th <<  40 // History:
 36 // 28.08.96, P.Kent: Replaced transform by rot <<  41 // 09.11.99 J.Apostolakis  Added GetObjectRotationValue() method & redid comments.
 37 // 25.07.96, P.Kent: Modified interface for ne <<  42 // 28.08.96 P.Kent Replaced transform by rotmat + vector
 38 // 24.07.95, P.Kent: First non-stub version    <<  43 // 25.07.96 P.Kent Modified interface for new `Replica' capable geometry 
                                                   >>  44 // 24.07.95 P.Kent First non-stub version
 39 // -------------------------------------------     45 // --------------------------------------------------------------------
 40 #ifndef G4VPHYSICALVOLUME_HH                       46 #ifndef G4VPHYSICALVOLUME_HH
 41 #define G4VPHYSICALVOLUME_HH 1                 <<  47 #define G4VPHYSICALVOLUME_HH
 42                                                    48 
 43 #include "G4Types.hh"                              49 #include "G4Types.hh"
 44 #include "G4String.hh"                             50 #include "G4String.hh"
 45                                                    51 
 46 #include "geomdefs.hh"                             52 #include "geomdefs.hh"
 47                                                    53 
 48 #include "G4RotationMatrix.hh"                     54 #include "G4RotationMatrix.hh"
 49 #include "G4ThreeVector.hh"                        55 #include "G4ThreeVector.hh"
 50 #include "G4GeomSplitter.hh"                   << 
 51                                                    56 
 52 class G4LogicalVolume;                             57 class G4LogicalVolume;
 53 class G4VPVParameterisation;                       58 class G4VPVParameterisation;
 54                                                    59 
 55 class G4PVData                                 << 
 56 {                                              << 
 57   // Encapsulates the fields associated to G4V << 
 58   // that are not read-only - they will change << 
 59   // and must have a per-thread state.         << 
 60                                                << 
 61   public:                                      << 
 62                                                << 
 63     G4PVData() = default;                      << 
 64                                                << 
 65     void initialize()                          << 
 66     {                                          << 
 67       frot = nullptr;                          << 
 68       tx = 0.; ty = 0.; tz = 0.;               << 
 69     }                                          << 
 70                                                << 
 71     G4RotationMatrix* frot = nullptr;          << 
 72     G4double tx = 0., ty = 0., tz = 0.;        << 
 73 };                                             << 
 74                                                << 
 75 using G4PVManager = G4GeomSplitter<G4PVData>;  << 
 76 // Implementation detail for use of G4PVData o << 
 77                                                << 
 78 class G4VPhysicalVolume                            60 class G4VPhysicalVolume
 79 {                                                  61 {
 80   public:                                      <<  62   public:  // with description
 81                                                    63 
 82     G4VPhysicalVolume(G4RotationMatrix* pRot,  <<  64     G4VPhysicalVolume(G4RotationMatrix *pRot,
 83                 const G4ThreeVector& tlate,    <<  65                 const G4ThreeVector &tlate,
 84                 const G4String& pName,         <<  66                 const G4String &pName,
 85                       G4LogicalVolume* pLogica <<  67                       G4LogicalVolume *pLogical,
 86                       G4VPhysicalVolume* pMoth <<  68                       G4VPhysicalVolume *pMother);
 87       // Initialise volume, positioned in a fr     69       // Initialise volume, positioned in a frame which is rotated by *pRot, 
 88       // relative to the coordinate system of      70       // relative to the coordinate system of the mother volume pMother.
 89       // The center of the object is then plac     71       // The center of the object is then placed at tlate in the new
 90       // coordinates. If pRot=0 the volume is      72       // coordinates. If pRot=0 the volume is unrotated with respect to its
 91       // mother. The physical volume is added      73       // mother. The physical volume is added to the mother's logical volume.
 92       //                                           74       //
 93       // Must be called by all subclasses. pMo     75       // Must be called by all subclasses. pMother must point to a valid parent
 94       // volume, except in the case of the wor     76       // volume, except in the case of the world/top volume, when it =0.
 95       //                                           77       // 
 96       // The constructor also registers volume     78       // The constructor also registers volume with physical volume Store.
 97       // Note that the Store may be removed or     79       // Note that the Store may be removed or dynamically built in future
 98       // because of memory constraints.            80       // because of memory constraints.
 99                                                    81 
100     virtual ~G4VPhysicalVolume();                  82     virtual ~G4VPhysicalVolume();
101       // Destructor, will be subclassed. Remov     83       // Destructor, will be subclassed. Removes volume from volume Store.
102                                                    84 
103     G4VPhysicalVolume(const G4VPhysicalVolume& << 
104     G4VPhysicalVolume& operator=(const G4VPhys << 
105       // No copy constructor and assignment op << 
106                                                << 
107     inline G4bool operator == (const G4VPhysic     85     inline G4bool operator == (const G4VPhysicalVolume& p) const;
108       // Equality defined by equal addresses o     86       // Equality defined by equal addresses only.
109                                                    87 
110     // Access functions                            88     // Access functions
111     //                                         <<  89 
112     // The following are accessor functions th <<  90       // The following are accessor functions that make a distinction
113     // between whether the rotation/translatio <<  91       // between whether the rotation/translation is being made for the
114     // frame or the object/volume that is bein <<  92       // frame or the object/volume that is being placed.
115     // (They are the inverse of each other).   <<  93       // (They are the inverse of each other).
116                                                <<  94     G4RotationMatrix* GetObjectRotation() const;              //  Obsolete 
117     G4RotationMatrix* GetObjectRotation() cons <<  95     inline G4RotationMatrix  GetObjectRotationValue() const;  //  Replacement
118     G4RotationMatrix  GetObjectRotationValue() <<  96     inline G4ThreeVector  GetObjectTranslation() const;
119     G4ThreeVector  GetObjectTranslation() cons << 
120       // Return the rotation/translation of th     97       // Return the rotation/translation of the Object relative to the mother.
121     const G4RotationMatrix* GetFrameRotation() <<  98     inline const G4RotationMatrix* GetFrameRotation() const;
122     G4ThreeVector GetFrameTranslation() const; <<  99     inline G4ThreeVector  GetFrameTranslation() const;
123       // Return the rotation/translation of th    100       // Return the rotation/translation of the Frame used to position 
124       // this volume in its mother volume (opp    101       // this volume in its mother volume (opposite of object rot/trans).
125                                                   102 
126     // Older access functions, that do not dis    103     // Older access functions, that do not distinguish between frame/object!
127                                                   104 
128     const G4ThreeVector GetTranslation() const << 105     inline const G4ThreeVector& GetTranslation() const;
129     const G4RotationMatrix* GetRotation() cons << 106     inline const G4RotationMatrix* GetRotation() const;
130       // Old access functions, that do not dis    107       // Old access functions, that do not distinguish between frame/object!
131       // They return the translation/rotation     108       // They return the translation/rotation of the volume.
132                                                   109 
133     // Set functions                              110     // Set functions
134                                                   111 
135     void SetTranslation(const G4ThreeVector& v << 112     inline void SetTranslation(const G4ThreeVector &v);
136     G4RotationMatrix* GetRotation();           << 113     inline G4RotationMatrix* GetRotation();
137     void SetRotation(G4RotationMatrix*);       << 114     inline void SetRotation(G4RotationMatrix*);
138       // NOT INTENDED FOR GENERAL USE.            115       // NOT INTENDED FOR GENERAL USE.
139       // Non constant versions of above. Used     116       // Non constant versions of above. Used to change transformation
140       // for replication/parameterisation mech    117       // for replication/parameterisation mechanism.
141                                                   118 
142     inline G4LogicalVolume* GetLogicalVolume()    119     inline G4LogicalVolume* GetLogicalVolume() const;
143       // Return the associated logical volume.    120       // Return the associated logical volume.
144     inline void SetLogicalVolume(G4LogicalVolu << 121     inline void SetLogicalVolume(G4LogicalVolume *pLogical);
145       // Set the logical volume. Must not be c    122       // Set the logical volume. Must not be called when geometry closed.
146                                                   123 
147     inline G4LogicalVolume* GetMotherLogical()    124     inline G4LogicalVolume* GetMotherLogical() const;
148       // Return the current mother logical vol    125       // Return the current mother logical volume pointer.
149     inline void SetMotherLogical(G4LogicalVolu << 126     inline void SetMotherLogical(G4LogicalVolume *pMother);
150       // Set the mother logical volume. Must n    127       // Set the mother logical volume. Must not be called when geometry closed.
151                                                   128 
152     inline const G4String& GetName() const;       129     inline const G4String& GetName() const;
153       // Return the volume's name.                130       // Return the volume's name.
154     void SetName(const G4String& pName);       << 131     inline void SetName(const G4String& pName);
155       // Set the volume's name.                   132       // Set the volume's name.
156                                                   133 
157     virtual G4int GetMultiplicity() const;        134     virtual G4int GetMultiplicity() const;
158       // Returns number of object entities (1     135       // Returns number of object entities (1 for normal placements,
159       // n for replicas or parameterised).        136       // n for replicas or parameterised).
160                                                   137 
161     // Functions required of subclasses           138     // Functions required of subclasses
162                                                   139 
163     virtual EVolume VolumeType() const = 0;    << 
164       // Characterise the type of volume - nor << 
165     virtual G4bool IsMany() const = 0;            140     virtual G4bool IsMany() const = 0;
166       // Return true if the volume is MANY (no    141       // Return true if the volume is MANY (not implemented yet).
167     virtual G4int GetCopyNo() const = 0;          142     virtual G4int GetCopyNo() const = 0;
168       // Return the volumes copy number.          143       // Return the volumes copy number.
169     virtual void  SetCopyNo(G4int CopyNo) = 0;    144     virtual void  SetCopyNo(G4int CopyNo) = 0;
170       // Set the volumes copy number.             145       // Set the volumes copy number.
171     virtual G4bool IsReplicated() const = 0;      146     virtual G4bool IsReplicated() const = 0;
172       // Return true if replicated (single obj    147       // Return true if replicated (single object instance represents
173       // many real volumes), else false.          148       // many real volumes), else false.
174     virtual G4bool IsParameterised() const = 0    149     virtual G4bool IsParameterised() const = 0;
175       // Return true if parameterised (single     150       // Return true if parameterised (single object instance represents
176       // many real parameterised volumes), els    151       // many real parameterised volumes), else false.
177     virtual G4VPVParameterisation* GetParamete    152     virtual G4VPVParameterisation* GetParameterisation() const = 0;
178       // Return replicas parameterisation obje    153       // Return replicas parameterisation object (able to compute dimensions
179       // and transformations of replicas), or     154       // and transformations of replicas), or NULL if not applicable.
180     virtual void GetReplicationData(EAxis& axi    155     virtual void GetReplicationData(EAxis& axis,
181                                     G4int& nRe    156                                     G4int& nReplicas,
182                                     G4double&     157                                     G4double& width,
183                                     G4double&     158                                     G4double& offset,
184                                     G4bool& co    159                                     G4bool& consuming) const = 0;
185       // Return replication information. No-op    160       // Return replication information. No-op for no replicated volumes.
186     virtual G4bool IsRegularStructure() const  << 161     virtual G4bool  IsRegularStructure() const = 0;
187       // Returns true if the underlying volume    162       // Returns true if the underlying volume structure is regular.
188     virtual G4int GetRegularStructureId() cons << 163     virtual G4int  GetRegularStructureId() const = 0;
189       // Returns non-zero code in case the und    164       // Returns non-zero code in case the underlying volume structure 
190       //  is regular, voxel-like.  Value is id    165       //  is regular, voxel-like.  Value is id for structure type.
191       //  If non-zero the volume is a candidat    166       //  If non-zero the volume is a candidate for specialised 
192       //  navigation such as 'nearest neighbou    167       //  navigation such as 'nearest neighbour' directly on volumes.
193     virtual G4bool CheckOverlaps(G4int res=100    168     virtual G4bool CheckOverlaps(G4int res=1000, G4double tol=0.,
194                                  G4bool verbos << 169                                  G4bool verbose=true);
195       // Verifies if the placed volume is over    170       // Verifies if the placed volume is overlapping with existing
196       // daughters or with the mother volume.     171       // daughters or with the mother volume. Provides default resolution
197       // for the number of points to be genera    172       // for the number of points to be generated and verified.
198       // Concrete implementation is done and r    173       // Concrete implementation is done and required only for placed and
199       // parameterised volumes. Returns true i    174       // parameterised volumes. Returns true if the volume is overlapping.
200                                                   175 
201   public:                                      << 176   public:  // without description
202                                                   177 
203     G4VPhysicalVolume(__void__&);                 178     G4VPhysicalVolume(__void__&);
204       // Fake default constructor for usage re    179       // Fake default constructor for usage restricted to direct object
205       // persistency for clients requiring pre    180       // persistency for clients requiring preallocation of memory for
206       // persistifiable objects.                  181       // persistifiable objects.
207                                                   182 
208     inline G4int GetInstanceID() const;        << 183   private:
209       // Returns the instance ID.              << 
210                                                << 
211     static const G4PVManager& GetSubInstanceMa << 
212       // Returns the private data instance man << 
213                                                << 
214     static void Clean();                       << 
215       // Clear memory allocated by sub-instanc << 
216                                                << 
217     inline EVolume DeduceVolumeType() const;   << 
218       // Old VolumeType() method, replaced by  << 
219       // kept for checking                     << 
220                                                << 
221   protected:                                   << 
222                                                   184 
223     void InitialiseWorker(G4VPhysicalVolume* p << 185     G4VPhysicalVolume(const G4VPhysicalVolume&);
224                           G4RotationMatrix* pR << 186     G4VPhysicalVolume& operator=(const G4VPhysicalVolume&);
225       // This method is similar to the constru << 187       // Private copy constructor and assignment operator.
226       // thread to achieve the partial effect  << 
227                                                << 
228     void TerminateWorker(G4VPhysicalVolume* pM << 
229       // This method is similar to the destruc << 
230       // thread to achieve the partial effect  << 
231                                                   188 
232   protected:                                      189   protected:
233                                                   190 
234     G4int instanceID;                          << 191     G4RotationMatrix *frot;
235       // For use in implementing the per-threa << 192     G4ThreeVector ftrans;
236       //   It is equivalent to a pointer to a  << 
237     G4GEOM_DLL static G4PVManager subInstanceM << 
238       //  Needed to use G4PVManager for the G4 << 
239                                                   193 
240   private:                                        194   private:
241                                                   195 
242     G4LogicalVolume* flogical = nullptr; // Th << 196     G4LogicalVolume *flogical;   // The logical volume representing the
243                                          // ph << 197                                  // physical and tracking attributes of
244                                          // th << 198                                  // the volume
245     G4String fname;                      // Th << 199     G4String fname;              // The name of the volume
246     G4LogicalVolume* flmother = nullptr; // Th << 200     G4LogicalVolume   *flmother; // The current mother logical volume
247                                                << 
248     G4PVData* pvdata = nullptr; // Shadow poin << 
249 };                                                201 };
250                                                << 
251 // NOTE:                                       << 
252 // The type G4PVManager is introduced to encap << 
253 // both the master thread and worker threads t << 
254 // the fields encapsulated by the class G4PVDa << 
255 // initializes the value for these fields, it  << 
256 // definition defined below. For every G4VPhys << 
257 // a corresponding G4PVData instance. All G4PV << 
258 // by the class G4PVManager as an array.       << 
259 // The field "int instanceID" is added to the  << 
260 // The value of this field in each G4VPhysical << 
261 // of the corresponding G4PVData instance.     << 
262 // In order to use the class G4PVManager, we a << 
263 // G4VPhysicalVolume as follows: "static G4PVM << 
264 // For the master thread, the array for G4PVDa << 
265 // along with G4VPhysicalVolume instances are  << 
266 // it copies the array of G4PVData instances f << 
267 // In addition, it invokes a method similiar t << 
268 // to achieve the partial effect for each inst << 
269                                                   202 
270 #include "G4VPhysicalVolume.icc"                  203 #include "G4VPhysicalVolume.icc"
271                                                   204 
272 #endif                                            205 #endif
273                                                   206