Geant4  10.00.p03
G4PhysicalVolumeModel.hh
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27 // $Id: G4PhysicalVolumeModel.hh 66373 2012-12-18 09:41:34Z gcosmo $
28 //
29 //
30 // John Allison 31st December 1997.
31 //
32 // Class Description:
33 //
34 // Model for physical volumes. It describes a physical volume and its
35 // daughters to any desired depth. Note: the "requested depth" is
36 // specified in the modeling parameters; enum {UNLIMITED = -1}.
37 //
38 // For access to base class information, e.g., modeling parameters,
39 // use GetModelingParameters() inherited from G4VModel. See Class
40 // Description of the base class G4VModel.
41 //
42 // G4PhysicalVolumeModel assumes the modeling parameters have been set
43 // up with meaningful information - default vis attributes and culling
44 // policy in particular.
45 //
46 // The volumes are unpacked and sent to the scene handler. They are,
47 // in effect, "touchables" as defined by G4TouchableHistory. A
48 // touchable is defined not only by its physical volume name and copy
49 // number but also by its position in the geometry hierarchy.
50 //
51 // It is guaranteed that touchables are presented to the scene handler
52 // in top-down hierarchy order, i.e., ancesters first, mothers before
53 // daughters, so the scene handler can be assured that, if it is
54 // building its own scene graph tree, a mother, if any, will have
55 // already been encountered and there will already be a node in place
56 // on which to hang the current volume. But be aware that the
57 // visibility and culling policy might mean that some touchables are
58 // not passed to the scene handler so the drawn tree might have
59 // missing layers. GetFullPVPath allows you to know the full
60 // hierarchy.
61 
62 #ifndef G4PHYSICALVOLUMEMODEL_HH
63 #define G4PHYSICALVOLUMEMODEL_HH
64 
65 #include "G4VModel.hh"
66 #include "G4VTouchable.hh"
67 
68 #include "G4Transform3D.hh"
69 #include "G4Plane3D.hh"
70 #include <iostream>
71 #include <vector>
72 #include <map>
73 
74 class G4VPhysicalVolume;
75 class G4LogicalVolume;
76 class G4VSolid;
77 class G4Material;
78 class G4VisAttributes;
79 class G4AttDef;
80 class G4AttValue;
81 
83 
84 public: // With description
85 
86  enum {UNLIMITED = -1};
87 
89 
91  public:
93  (G4VPhysicalVolume* pPV = 0,
94  G4int iCopyNo = 0,
95  G4int depth = 0,
96  const G4Transform3D& transform = G4Transform3D(),
97  G4bool drawn = true):
98  fpPV(pPV),
99  fCopyNo(iCopyNo),
100  fNonCulledDepth(depth),
101  fTransform(transform),
102  fDrawn(drawn) {}
104  G4int GetCopyNo() const {return fCopyNo;}
106  const G4Transform3D& GetTransform() const {return fTransform;}
107  G4bool GetDrawn() const {return fDrawn;}
108  void SetDrawn(G4bool drawn) {fDrawn = drawn;}
110  private:
116  };
117  // Nested class for identifying physical volume nodes.
118 
120  public:
122  (const std::vector<G4PhysicalVolumeNodeID>& fullPVPath);
123  const G4ThreeVector& GetTranslation(G4int depth) const;
124  const G4RotationMatrix* GetRotation(G4int depth) const;
125  G4VPhysicalVolume* GetVolume(G4int depth) const;
126  G4VSolid* GetSolid(G4int depth) const;
127  G4int GetReplicaNumber(G4int depth) const;
128  G4int GetHistoryDepth() const {return fFullPVPath.size();}
129  private:
130  const std::vector<G4PhysicalVolumeNodeID>& fFullPVPath;
131  };
132  // Nested class for handling nested parameterisations.
133 
135  (G4VPhysicalVolume* = 0,
136  G4int requestedDepth = UNLIMITED,
137  const G4Transform3D& modelTransformation = G4Transform3D(),
138  const G4ModelingParameters* = 0,
139  G4bool useFullExtent = false);
140 
141  virtual ~G4PhysicalVolumeModel ();
142 
144  // The main task of a model is to describe itself to the graphics scene
145  // handler (a object which inherits G4VSceneHandler, which inherits
146  // G4VGraphicsScene).
147 
149  // A description which depends on the current state of the model.
150 
151  G4String GetCurrentTag () const;
152  // A tag which depends on the current state of the model.
153 
155 
157 
158  const G4VSolid* GetClippingSolid () const
159  {return fpClippingSolid;}
160 
162  // Current depth of geom. hierarchy.
163 
165  // Current physical volume.
166 
168  // Current logical volume.
169 
171  // Current material.
172 
173  const std::vector<G4PhysicalVolumeNodeID>& GetFullPVPath() const
174  {return fFullPVPath;}
175  // Vector of physical volume node identifiers for the current
176  // touchable. It is its path in the geometry hierarchy, similar to
177  // the concept of "touchable history" available from the navigator
178  // during tracking.
179 
180  const std::vector<G4PhysicalVolumeNodeID>& GetDrawnPVPath() const
181  {return fDrawnPVPath;}
182  // Path of the current drawn (non-culled) touchable in terms of
183  // drawn (non-culled) ancesters. It is a vector of physical volume
184  // node identifiers corresponding to the geometry hierarchy actually
185  // selected, i.e., not culled.
186 
187  const std::map<G4String,G4AttDef>* GetAttDefs() const;
188  // Attribute definitions for current solid.
189 
190  std::vector<G4AttValue>* CreateCurrentAttValues() const;
191  // Attribute values for current solid. Each must refer to an
192  // attribute definition in the above map; its name is the key. The
193  // user must test the validity of this pointer (it must be non-zero
194  // and conform to the G4AttDefs, which may be checked with
195  // G4AttCheck) and delete the list after use. See
196  // G4XXXStoredSceneHandler::PreAddSolid for how to access and
197  // G4VTrajectory::ShowTrajectory for an example of the use of
198  // G4Atts.
199 
200  void SetBaseFullPVPath
201  (const std::vector<G4PhysicalVolumeNodeID>&
202  baseFullPVPath) {
203  fBaseFullPVPath = baseFullPVPath;
204  fFullPVPath = baseFullPVPath;
205  }
206 
207  void SetRequestedDepth (G4int requestedDepth) {
208  fRequestedDepth = requestedDepth;
209  }
210 
211  void SetClippingSolid (G4VSolid* pClippingSolid) {
212  fpClippingSolid = pClippingSolid;
213  }
214 
216  fClippingMode = mode;
217  }
218 
219  G4bool Validate (G4bool warn);
220  // Validate, but allow internal changes (hence non-const function).
221 
223 
224 protected:
225 
227  G4int requestedDepth,
228  const G4Transform3D&,
230 
232  G4int requestedDepth,
234  G4VSolid*,
235  G4Material*,
236  const G4Transform3D&,
238 
239  virtual void DescribeSolid (const G4Transform3D& theAT,
240  G4VSolid* pSol,
241  const G4VisAttributes* pVisAttribs,
242  G4VGraphicsScene& sceneHandler);
243 
244  void CalculateExtent ();
245 
247  // Data members...
248 
249  G4VPhysicalVolume* fpTopPV; // The physical volume.
250  G4String fTopPVName; // ...of the physical volume.
251  G4int fTopPVCopyNo; // ...of the physical volume.
253  // Requested depth of geom. hierarchy search.
254  G4bool fUseFullExtent; // ...if requested.
255  G4int fCurrentDepth; // Current depth of geom. hierarchy.
256  G4VPhysicalVolume* fpCurrentPV; // Current physical volume.
257  G4LogicalVolume* fpCurrentLV; // Current logical volume.
258  G4Material* fpCurrentMaterial; // Current material.
259  G4Transform3D* fpCurrentTransform; // Current transform.
260  std::vector<G4PhysicalVolumeNodeID> fBaseFullPVPath;
261  std::vector<G4PhysicalVolumeNodeID> fFullPVPath;
262  std::vector<G4PhysicalVolumeNodeID> fDrawnPVPath;
263  G4bool fCurtailDescent;// Can be set to curtail descent.
266 
267 private:
268 
269  // Private copy constructor and assigment operator - copying and
270  // assignment not allowed. Keeps CodeWizard happy.
273 };
274 
275 std::ostream& operator<<
276  (std::ostream& os, const G4PhysicalVolumeModel::G4PhysicalVolumeNodeID);
277 
278 #endif
G4bool operator<(const G4PhysicalVolumeNodeID &right) const
void SetClippingSolid(G4VSolid *pClippingSolid)
const std::map< G4String, G4AttDef > * GetAttDefs() const
CLHEP::Hep3Vector G4ThreeVector
const std::vector< G4PhysicalVolumeNodeID > & fFullPVPath
CLHEP::HepRotation G4RotationMatrix
G4Material * GetCurrentMaterial() const
const G4ThreeVector & GetTranslation(G4int depth) const
G4bool Validate(G4bool warn)
G4Transform3D * fpCurrentTransform
const std::vector< G4PhysicalVolumeNodeID > & GetDrawnPVPath() const
G4PhysicalVolumeModel & operator=(const G4PhysicalVolumeModel &)
int G4int
Definition: G4Types.hh:78
G4VPhysicalVolume * fpCurrentPV
std::vector< G4PhysicalVolumeNodeID > fFullPVPath
std::vector< G4PhysicalVolumeNodeID > fBaseFullPVPath
bool G4bool
Definition: G4Types.hh:79
const G4VSolid * GetClippingSolid() const
G4String GetCurrentDescription() const
HepGeom::Transform3D G4Transform3D
G4PhysicalVolumeNodeID(G4VPhysicalVolume *pPV=0, G4int iCopyNo=0, G4int depth=0, const G4Transform3D &transform=G4Transform3D(), G4bool drawn=true)
void SetBaseFullPVPath(const std::vector< G4PhysicalVolumeNodeID > &baseFullPVPath)
virtual void DescribeSolid(const G4Transform3D &theAT, G4VSolid *pSol, const G4VisAttributes *pVisAttribs, G4VGraphicsScene &sceneHandler)
G4VPhysicalVolume * GetTopPhysicalVolume() const
const std::vector< G4PhysicalVolumeNodeID > & GetFullPVPath() const
G4VPhysicalVolume * fpTopPV
G4PhysicalVolumeModelTouchable(const std::vector< G4PhysicalVolumeNodeID > &fullPVPath)
std::vector< G4AttValue > * CreateCurrentAttValues() const
void SetClippingMode(ClippingMode mode)
G4String GetCurrentTag() const
G4PhysicalVolumeModel(G4VPhysicalVolume *=0, G4int requestedDepth=UNLIMITED, const G4Transform3D &modelTransformation=G4Transform3D(), const G4ModelingParameters *=0, G4bool useFullExtent=false)
std::vector< G4PhysicalVolumeNodeID > fDrawnPVPath
void VisitGeometryAndGetVisReps(G4VPhysicalVolume *, G4int requestedDepth, const G4Transform3D &, G4VGraphicsScene &)
G4LogicalVolume * GetCurrentLV() const
G4VPhysicalVolume * GetCurrentPV() const
void DescribeAndDescend(G4VPhysicalVolume *, G4int requestedDepth, G4LogicalVolume *, G4VSolid *, G4Material *, const G4Transform3D &, G4VGraphicsScene &)
const G4RotationMatrix * GetRotation(G4int depth) const
void SetRequestedDepth(G4int requestedDepth)
void DescribeYourselfTo(G4VGraphicsScene &)