Logo ROOT   6.12/07
Reference Guide
TGeoVoxelFinder.h
Go to the documentation of this file.
1 // @(#)root/geom:$Id$
2 // Author: Andrei Gheata 04/02/02
3 
4 /*************************************************************************
5  * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6  * All rights reserved. *
7  * *
8  * For the licensing terms see $ROOTSYS/LICENSE. *
9  * For the list of contributors see $ROOTSYS/README/CREDITS. *
10  *************************************************************************/
11 
12 #ifndef ROOT_TGeoVoxelFinder
13 #define ROOT_TGeoVoxelFinder
14 
15 #include "TObject.h"
16 
17 class TGeoVolume;
18 struct TGeoStateInfo;
19 
20 class TGeoVoxelFinder : public TObject
21 {
22 public:
26 };
27 
28 protected:
29  TGeoVolume *fVolume; // volume to which applies
30 
31  Int_t fIbx; // number of different boundaries on X axis
32  Int_t fIby; // number of different boundaries on Y axis
33  Int_t fIbz; // number of different boundaries on Z axis
34  Int_t fNboxes; // length of boxes array
35  Int_t fNox; // length of array of X offsets
36  Int_t fNoy; // length of array of Y offsets
37  Int_t fNoz; // length of array of Z offsets
38  Int_t fNex; // length of array of X extra offsets
39  Int_t fNey; // length of array of Y extra offsets
40  Int_t fNez; // length of array of Z extra offsets
41  Int_t fNx; // length of array of X voxels
42  Int_t fNy; // length of array of Y voxels
43  Int_t fNz; // length of array of Z voxels
44  Int_t fPriority[3]; // priority for each axis
45  Double_t *fBoxes; //[fNboxes] list of bounding boxes
46  Double_t *fXb; //[fIbx] ordered array of X box boundaries
47  Double_t *fYb; //[fIby] ordered array of Y box boundaries
48  Double_t *fZb; //[fIbz] ordered array of Z box boundaries
49  Int_t *fOBx; //[fNox] offsets of daughter indices for slices X
50  Int_t *fOBy; //[fNoy] offsets of daughter indices for slices Y
51  Int_t *fOBz; //[fNoz] offsets of daughter indices for slices Z
52  Int_t *fOEx; //[fNox] offsets of extra indices for slices X
53  Int_t *fOEy; //[fNoy] offsets of extra indices for slices Y
54  Int_t *fOEz; //[fNoz] offsets of extra indices for slices Z
55  Int_t *fExtraX; //[fNex] indices of extra daughters in X slices
56  Int_t *fExtraY; //[fNey] indices of extra daughters in Y slices
57  Int_t *fExtraZ; //[fNez] indices of extra daughters in Z slices
58  Int_t *fNsliceX; //[fNox] number of candidates in X slice
59  Int_t *fNsliceY; //[fNoy] number of candidates in Y slice
60  Int_t *fNsliceZ; //[fNoz] number of candidates in Z slice
61  UChar_t *fIndcX; //[fNx] array of slices bits on X
62  UChar_t *fIndcY; //[fNy] array of slices bits on Y
63  UChar_t *fIndcZ; //[fNz] array of slices bits on Z
64 
67 
68  void BuildVoxelLimits();
69  Int_t *GetExtraX(Int_t islice, Bool_t left, Int_t &nextra) const;
70  Int_t *GetExtraY(Int_t islice, Bool_t left, Int_t &nextra) const;
71  Int_t *GetExtraZ(Int_t islice, Bool_t left, Int_t &nextra) const;
72  Bool_t GetIndices(const Double_t *point, TGeoStateInfo &td);
73  Int_t GetPriority(Int_t iaxis) const {return fPriority[iaxis];}
75  Int_t *GetValidExtra(Int_t *list, Int_t &ncheck, TGeoStateInfo &td);
76  Int_t *GetValidExtra(Int_t n1, UChar_t *array1, Int_t *list, Int_t &ncheck, TGeoStateInfo &td);
77  Int_t *GetValidExtra(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2, Int_t *list, Int_t &ncheck, TGeoStateInfo &td);
79  Bool_t Intersect(Int_t n1, UChar_t *array1, Int_t &nf, Int_t *result);
80  Bool_t Intersect(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2,
81  Int_t &nf, Int_t *result);
82  Bool_t Intersect(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2,
83  Int_t n3, UChar_t *array3, Int_t &nf, Int_t *result);
85  Bool_t IntersectAndStore(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2, TGeoStateInfo &td);
86  Bool_t IntersectAndStore(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2,
87  Int_t n3, UChar_t *array3, TGeoStateInfo &td);
88  void SortAll(Option_t *option="");
89  Bool_t Union(Int_t n1, UChar_t *array1, TGeoStateInfo &td);
90  Bool_t Union(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2, TGeoStateInfo &td);
91  Bool_t Union(Int_t n1, UChar_t *array1, Int_t n2, UChar_t *array2,
92  Int_t n3, UChar_t *array3, TGeoStateInfo &td);
93 public :
96  virtual ~TGeoVoxelFinder();
97  void DaughterToMother(Int_t id, const Double_t *local, Double_t *master) const;
98  virtual Double_t Efficiency();
99  virtual Int_t *GetCheckList(const Double_t *point, Int_t &nelem, TGeoStateInfo &td);
100  Int_t *GetCheckList(Int_t &nelem, TGeoStateInfo &td) const;
101  virtual Int_t *GetNextCandidates(const Double_t *point, Int_t &ncheck, TGeoStateInfo &td);
102  virtual void FindOverlaps(Int_t inode) const;
105  Double_t *GetBoxes() const {return fBoxes;}
106  Bool_t IsSafeVoxel(const Double_t *point, Int_t inode, Double_t minsafe) const;
107  virtual void Print(Option_t *option="") const;
108  void PrintVoxelLimits(const Double_t *point) const;
111  virtual Int_t *GetNextVoxel(const Double_t *point, const Double_t *dir, Int_t &ncheck, TGeoStateInfo &td);
112  virtual void SortCrossedVoxels(const Double_t *point, const Double_t *dir, TGeoStateInfo &td);
113  virtual void Voxelize(Option_t *option="");
114 
115  ClassDef(TGeoVoxelFinder, 4) // voxel finder class
116 };
117 
118 #endif
Statefull info for the current geometry level.
Definition: TGeoStateInfo.h:21
Bool_t Union(Int_t n1, UChar_t *array1, TGeoStateInfo &td)
make union of older bits with new array printf("Union - one slice\n");
virtual void Voxelize(Option_t *option="")
Voxelize attached volume according to option If the volume is an assembly, make sure the bbox is comp...
const char Option_t
Definition: RtypesCore.h:62
virtual Int_t * GetCheckList(const Double_t *point, Int_t &nelem, TGeoStateInfo &td)
get the list of daughter indices for which point is inside their bbox
Int_t * GetExtraZ(Int_t islice, Bool_t left, Int_t &nextra) const
Return the list of extra candidates in a given Z slice compared to another (left or right) ...
#define BIT(n)
Definition: Rtypes.h:78
TGeoVolume, TGeoVolumeMulti, TGeoVolumeAssembly are the volume classes.
Definition: TGeoVolume.h:48
Bool_t Intersect(Int_t n1, UChar_t *array1, Int_t &nf, Int_t *result)
return the list of nodes corresponding to one array of bits
R__ALWAYS_INLINE Bool_t TestBit(UInt_t f) const
Definition: TObject.h:172
Int_t * GetExtraX(Int_t islice, Bool_t left, Int_t &nextra) const
Return the list of extra candidates in a given X slice compared to another (left or right) ...
int Int_t
Definition: RtypesCore.h:41
bool Bool_t
Definition: RtypesCore.h:59
TGeoVoxelFinder & operator=(const TGeoVoxelFinder &)
assignment operator
virtual void SortCrossedVoxels(const Double_t *point, const Double_t *dir, TGeoStateInfo &td)
get the list in the next voxel crossed by a ray
void SetBit(UInt_t f, Bool_t set)
Set or unset the user status bits as specified in f.
Definition: TObject.cxx:694
Bool_t NeedRebuild() const
virtual Int_t * GetNextVoxel(const Double_t *point, const Double_t *dir, Int_t &ncheck, TGeoStateInfo &td)
get the list of new candidates for the next voxel crossed by current ray printf("### GetNextVoxel\n")...
void SetInvalid(Bool_t flag=kTRUE)
void PrintVoxelLimits(const Double_t *point) const
print the voxel containing point
#define ClassDef(name, id)
Definition: Rtypes.h:320
virtual void Print(Option_t *option="") const
Print the voxels.
Int_t * GetExtraY(Int_t islice, Bool_t left, Int_t &nextra) const
Return the list of extra candidates in a given Y slice compared to another (left or right) ...
Int_t GetPriority(Int_t iaxis) const
Double_t * fBoxes
void SortAll(Option_t *option="")
order bounding boxes along x, y, z
Int_t * GetVoxelCandidates(Int_t i, Int_t j, Int_t k, Int_t &ncheck, TGeoStateInfo &td)
get the list of candidates in voxel (i,j,k) - no check
void SetNeedRebuild(Bool_t flag=kTRUE)
virtual void FindOverlaps(Int_t inode) const
create the list of nodes for which the bboxes overlap with inode's bbox
Double_t * GetBoxes() const
TGeoVoxelFinder()
Default constructor.
Bool_t IsInvalid() const
Bool_t GetIndices(const Double_t *point, TGeoStateInfo &td)
Get indices for current slices on x, y, z.
Bool_t IsSafeVoxel(const Double_t *point, Int_t inode, Double_t minsafe) const
Computes squared distance from POINT to the voxel(s) containing node INODE.
virtual Double_t Efficiency()
Compute voxelization efficiency.
TGeoVolume * fVolume
Int_t * GetValidExtra(Int_t *list, Int_t &ncheck, TGeoStateInfo &td)
Get extra candidates that are not contained in current check list.
double Double_t
Definition: RtypesCore.h:55
virtual Int_t * GetNextCandidates(const Double_t *point, Int_t &ncheck, TGeoStateInfo &td)
Returns list of new candidates in next voxel.
void DaughterToMother(Int_t id, const Double_t *local, Double_t *master) const
convert a point from the local reference system of node id to reference system of mother volume ...
Finder class handling voxels.
Mother of all ROOT objects.
Definition: TObject.h:37
void BuildVoxelLimits()
build the array of bounding boxes of the nodes inside
Bool_t IntersectAndStore(Int_t n1, UChar_t *array1, TGeoStateInfo &td)
return the list of nodes corresponding to one array of bits
virtual ~TGeoVoxelFinder()
Destructor.
Int_t GetNcandidates(TGeoStateInfo &td) const
unsigned char UChar_t
Definition: RtypesCore.h:34
const Bool_t kTRUE
Definition: RtypesCore.h:87