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TGeoCache.cxx
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1// @(#)root/geom:$Id$
2// Author: Andrei Gheata 18/03/02
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#include "TGeoCache.h"
13
14#include "TGeoManager.h"
15#include "TGeoStateInfo.h"
16#include "TGeoMatrix.h"
17#include "TGeoVolume.h"
18#include "TObject.h"
19
20//const Int_t kN3 = 3*sizeof(Double_t);
21
23
24/** \class TGeoNodeCache
25\ingroup Geometry_classes
26
27Special pool of reusable nodes
28
29*/
30
31////////////////////////////////////////////////////////////////////////////////
32/// Dummy constructor
33
35{
39 fLevel = 0;
40 fStackLevel = 0;
41 fInfoLevel = 0;
42 fCurrentID = 0;
43 fIndex = 0;
44 fPath = "";
45 fTop = 0;
46 fNode = 0;
47 fMatrix = 0;
48 fStack = 0;
49 fMatrixBranch = 0;
50 fMPB = 0;
51 fNodeBranch = 0;
52 fInfoBranch = 0;
53 fPWInfo = 0;
54 fNodeIdArray = 0;
55 for (Int_t i=0; i<100; i++) fIdBranch[i] = 0;
56}
57
58////////////////////////////////////////////////////////////////////////////////
59/// Default constructor
60
62{
63 fGeoCacheMaxLevels = capacity;
66 fLevel = 0;
67 fStackLevel = 0;
68 fInfoLevel = 0;
69 fCurrentID = 0;
70 fIndex = 0;
71 fPath = "";
72 fTop = top;
73 fNode = top;
75 for (Int_t ist=0; ist<fGeoCacheStackSize; ist++)
76 fStack->Add(new TGeoCacheState(fGeoCacheMaxLevels)); // !obsolete 100
81 for (Int_t i=0; i<fGeoCacheMaxLevels; i++) {
82 fMPB[i] = new TGeoHMatrix(TString::Format("global_%d",i));
83 fMatrixBranch[i] = 0;
84 fNodeBranch[i] = 0;
85 }
86 for (Int_t i=0; i<fGeoInfoStackSize; i++) {
87 fInfoBranch[i] = 0;
88 }
89 fPWInfo = 0;
90 fMatrix = fMatrixBranch[0] = fMPB[0];
91 fNodeBranch[0] = top;
92 fNodeIdArray = 0;
93 for (Int_t i=0; i<100; i++) fIdBranch[i] = 0;
94 if (nodeid) BuildIdArray();
95 CdTop();
96}
97
98////////////////////////////////////////////////////////////////////////////////
99/// Destructor
100
102{
103 if (fStack) {
104 fStack->Delete();
105 delete fStack;
106 }
107 if (fMatrixBranch) delete [] fMatrixBranch;
108 if (fMPB) {
109 for (Int_t i=0; i<fGeoCacheMaxLevels; i++) delete fMPB[i];
110 delete [] fMPB;
111 }
112 delete [] fNodeBranch;
113 if (fInfoBranch) {
114 for (Int_t i=0; i<fGeoInfoStackSize; i++) delete fInfoBranch[i];
115 }
116 delete [] fInfoBranch;
117 if (fNodeIdArray) delete [] fNodeIdArray;
118 delete fPWInfo;
119}
120
121////////////////////////////////////////////////////////////////////////////////
122/// Builds node id array.
123
125{
126 Int_t nnodes = gGeoManager->GetNNodes();
127 //if (nnodes>3E7) return;
128 if (fNodeIdArray) delete [] fNodeIdArray;
129 Info("BuildIDArray","--- node ID tracking enabled, size=%lu Bytes\n", ULong_t((2*nnodes+1)*sizeof(Int_t)));
130 fNodeIdArray = new Int_t[2*nnodes+1];
131 fNodeIdArray[0] = 0;
132 Int_t ifree = 1;
133 Int_t nodeid = 0;
136 fIdBranch[0] = 0;
137}
138
139////////////////////////////////////////////////////////////////////////////////
140/// Builds info branch. Navigation is possible only after this step.
141
143{
145 else if (fInfoBranch[0]) return;
146 for (Int_t i=0; i<fGeoInfoStackSize; i++) {
147 fInfoBranch[i] = new TGeoStateInfo();
148 }
149}
150
151////////////////////////////////////////////////////////////////////////////////
152/// Get the PW info, if none create one
153
155{
156 if (fPWInfo) return fPWInfo;
157 fPWInfo = new TGeoStateInfo(nd);
158 return fPWInfo;
159}
160
161////////////////////////////////////////////////////////////////////////////////
162/// Change current path to point to the node having this id.
163/// Node id has to be in range : 0 to fNNodes-1 (no check for performance reasons)
164
166 if (!fNodeIdArray) {
167 Error("CdNode", "Navigation based on physical node unique id disabled.\n To enable, use: gGeoManager->GetCache()->BuildIdArray()");
168 return;
169 }
170 Int_t *arr = fNodeIdArray;
171 if (nodeid == arr[fIndex]) return;
172 while (fLevel>0) {
173 gGeoManager->CdUp();
174 if (nodeid == arr[fIndex]) return;
175 }
177 Int_t currentID = 0;
178 Int_t nd = GetNode()->GetNdaughters();
179 Int_t nabove, nbelow, middle;
180 while (nodeid!=currentID && nd) {
181 nabove = nd+1;
182 nbelow = 0;
183 while (nabove-nbelow > 1) {
184 middle = (nabove+nbelow)>>1;
185 currentID = arr[arr[fIndex+middle]];
186 if (nodeid == currentID) {
187 gGeoManager->CdDown(middle-1);
188 return;
189 }
190 if (nodeid < currentID) nabove = middle;
191 else nbelow = middle;
192 }
193 gGeoManager->CdDown(nbelow-1);
194 currentID = arr[fIndex];
195 nd = GetNode()->GetNdaughters();
196 }
197}
198
199////////////////////////////////////////////////////////////////////////////////
200/// Make daughter INDEX of current node the active state. Compute global matrix.
201
203{
204 TGeoNode *newnode = fNode->GetDaughter(index);
205 if (!newnode) return kFALSE;
206 fLevel++;
207 if (fNodeIdArray) {
208 fIndex = fNodeIdArray[fIndex+index+1];
210 }
211 fNode = newnode;
213 TGeoMatrix *local = newnode->GetMatrix();
214 TGeoHMatrix *newmat = fMPB[fLevel];
215 if (!local->IsIdentity()) {
216 newmat->CopyFrom(fMatrix);
217 newmat->Multiply(local);
218 fMatrix = newmat;
219 }
221 return kTRUE;
222}
223
224////////////////////////////////////////////////////////////////////////////////
225/// Make daughter INDEX of current node the active state. Compute global matrix.
226
228{
229 if (!newnode) return kFALSE;
230 fLevel++;
231 if (fNodeIdArray) {
232 Int_t index = fNode->GetVolume()->GetIndex(newnode);
233 fIndex = fNodeIdArray[fIndex+index+1];
235 }
236 fNode = newnode;
238 TGeoMatrix *local = newnode->GetMatrix();
239 TGeoHMatrix *newmat = fMPB[fLevel];
240 if (!local->IsIdentity()) {
241 newmat->CopyFrom(fMatrix);
242 newmat->Multiply(local);
243 fMatrix = newmat;
244 }
246 return kTRUE;
247}
248
249////////////////////////////////////////////////////////////////////////////////
250/// Make mother of current node the active state.
251
253{
254 if (!fLevel) return;
255 fLevel--;
259}
260
261////////////////////////////////////////////////////////////////////////////////
262/// Returns a fixed ID for current physical node
263
265{
266 if (fNodeIdArray) return fNodeIdArray[fIndex];
267 return GetNodeId();
268}
269
270////////////////////////////////////////////////////////////////////////////////
271/// Get unique node id.
272
274{
275 Long_t id=0;
276 for (Int_t level=0;level<fLevel+1; level++)
277 id += (Long_t)fNodeBranch[level];
278 return (Int_t)id;
279}
280
281////////////////////////////////////////////////////////////////////////////////
282/// Fill names with current branch volume names (4 char - used by GEANT3 interface).
283
285{
286 const char *name;
287 for (Int_t i=0; i<fLevel+1; i++) {
289 memcpy(&names[i], name, sizeof(Int_t));
290 }
291}
292
293////////////////////////////////////////////////////////////////////////////////
294/// Fill copy numbers of current branch nodes.
295
296void TGeoNodeCache::GetBranchNumbers(Int_t *copyNumbers, Int_t *volumeNumbers) const
297{
298 for (Int_t i=0; i<fLevel+1; i++) {
299 copyNumbers[i] = fNodeBranch[i]->GetNumber();
300 volumeNumbers[i] = fNodeBranch[i]->GetVolume()->GetNumber();
301 }
302}
303
304////////////////////////////////////////////////////////////////////////////////
305/// Fill copy numbers of current branch nodes.
306
308{
309 Bool_t ismany = kFALSE;
310 for (Int_t i=0; i<fLevel+1; i++) {
311 if (!fNodeBranch[i]->IsOffset()) ismany=fNodeBranch[i]->IsOverlapping();
312 isonly[i] = (ismany)?0:1;
313 }
314}
315
316////////////////////////////////////////////////////////////////////////////////
317/// Get next state info pointer.
318
320{
322 TGeoStateInfo **infoBranch = new TGeoStateInfo*[2*fGeoInfoStackSize];
323 memcpy(infoBranch, fInfoBranch, fGeoInfoStackSize*sizeof(TGeoStateInfo*));
325 infoBranch[i] = new TGeoStateInfo();
326 delete [] fInfoBranch;
327 fInfoBranch = infoBranch;
329 }
330 return fInfoBranch[fInfoLevel++];
331}
332
333////////////////////////////////////////////////////////////////////////////////
334/// Release last used state info pointer.
335
337{
338 fInfoLevel--;
339}
340
341////////////////////////////////////////////////////////////////////////////////
342/// Returns the current geometry path.
343
345{
346 fPath = "";
347 for (Int_t level=0;level<fLevel+1; level++) {
348 fPath += "/";
349 fPath += fNodeBranch[level]->GetName();
350 }
351 return fPath.Data();
352}
353
354////////////////////////////////////////////////////////////////////////////////
355/// Push current state into heap.
356
357Int_t TGeoNodeCache::PushState(Bool_t ovlp, Int_t startlevel, Int_t nmany, Double_t *point)
358{
360 for (Int_t ist=0; ist<fGeoCacheStackSize; ist++)
362 }
363 ((TGeoCacheState*)fStack->At(fStackLevel))->SetState(fLevel,startlevel,nmany,ovlp,point);
364 return ++fStackLevel;
365}
366
367////////////////////////////////////////////////////////////////////////////////
368/// Pop next state/point from heap.
369
371{
372 if (!fStackLevel) return 0;
373 Bool_t ovlp = ((TGeoCacheState*)fStack->At(--fStackLevel))->GetState(fLevel,nmany,point);
374 Refresh();
375// return (fStackLevel+1);
376 return ovlp;
377}
378
379////////////////////////////////////////////////////////////////////////////////
380/// Pop next state/point from heap and restore matrices starting from LEVEL.
381
383{
384 if (level<=0) return 0;
385 Bool_t ovlp = ((TGeoCacheState*)fStack->At(level-1))->GetState(fLevel,nmany,point);
386 Refresh();
387 return ovlp;
388}
389
390////////////////////////////////////////////////////////////////////////////////
391/// Pop next state/point from a backed-up state.
392
394{
395 Bool_t ovlp = state->GetState(fLevel,nmany,point);
396 Refresh();
397 return ovlp;
398}
399
400////////////////////////////////////////////////////////////////////////////////
401/// Local point converted to master frame defined by current matrix.
402
403void TGeoNodeCache::LocalToMaster(const Double_t *local, Double_t *master) const
404{
405 fMatrix->LocalToMaster(local, master);
406}
407
408////////////////////////////////////////////////////////////////////////////////
409/// Point in master frame defined by current matrix converted to local one.
410
411void TGeoNodeCache::MasterToLocal(const Double_t *master, Double_t *local) const
412{
413 fMatrix->MasterToLocal(master, local);
414}
415
416////////////////////////////////////////////////////////////////////////////////
417/// Local vector converted to master frame defined by current matrix.
418
419void TGeoNodeCache::LocalToMasterVect(const Double_t *local, Double_t *master) const
420{
421 fMatrix->LocalToMasterVect(local, master);
422}
423
424////////////////////////////////////////////////////////////////////////////////
425/// Vector in master frame defined by current matrix converted to local one.
426
427void TGeoNodeCache::MasterToLocalVect(const Double_t *master, Double_t *local) const
428{
429 fMatrix->MasterToLocalVect(master,local);
430}
431
432////////////////////////////////////////////////////////////////////////////////
433/// Local point converted to master frame defined by current matrix and rescaled with bomb factor.
434
435void TGeoNodeCache::LocalToMasterBomb(const Double_t *local, Double_t *master) const
436{
437 fMatrix->LocalToMasterBomb(local, master);
438}
439
440////////////////////////////////////////////////////////////////////////////////
441/// Point in master frame defined by current matrix converted to local one and rescaled with bomb factor.
442
443void TGeoNodeCache::MasterToLocalBomb(const Double_t *master, Double_t *local) const
444{
445 fMatrix->MasterToLocalBomb(master, local);
446}
447
449
450/** \class TGeoCacheState
451\ingroup Geometry_classes
452
453Class storing the state of the cache at a given moment
454
455*/
456
457////////////////////////////////////////////////////////////////////////////////
458/// Default ctor.
459
461{
462 fCapacity = 0;
463 fLevel = 0;
464 fNmany = 0;
465 fStart = 0;
466 memset(fIdBranch, 0, 30*sizeof(Int_t));
467 memset(fPoint, 0, 3*sizeof(Int_t));
469 fNodeBranch = 0;
470 fMatrixBranch = 0;
471 fMatPtr = 0;
472}
473
474////////////////////////////////////////////////////////////////////////////////
475/// Ctor.
476
478{
479 fCapacity = capacity;
480 fLevel = 0;
481 fNmany = 0;
482 fStart = 0;
483 memset(fIdBranch, 0, 30*sizeof(Int_t));
484 memset(fPoint, 0, 3*sizeof(Int_t));
486 fNodeBranch = new TGeoNode *[capacity];
487 fMatrixBranch = new TGeoHMatrix *[capacity];
488 fMatPtr = new TGeoHMatrix *[capacity];
489 for (Int_t i=0; i<capacity; i++) {
490 fMatrixBranch[i] = new TGeoHMatrix("global");
491 fNodeBranch[i] = 0;
492 }
493}
494
495////////////////////////////////////////////////////////////////////////////////
496///copy constructor
497
499 TObject(gcs),
500 fCapacity(gcs.fCapacity),
501 fLevel(gcs.fLevel),
502 fNmany(gcs.fNmany),
503 fStart(gcs.fStart),
504 fOverlapping(gcs.fOverlapping)
505{
506 Int_t i;
507 for (i=0; i<3; i++) fPoint[i]=gcs.fPoint[i];
508 for(i=0; i<30; i++) fIdBranch[i]=gcs.fIdBranch[i];
512 for (i=0; i<fCapacity; i++) {
513 fNodeBranch[i] = gcs.fNodeBranch[i];
514 fMatrixBranch[i] = new TGeoHMatrix(*gcs.fMatrixBranch[i]);
515 fMatPtr[i] = gcs.fMatPtr[i];
516 }
517}
518
519////////////////////////////////////////////////////////////////////////////////
520///assignment operator
521
523{
524 Int_t i;
525 if(this!=&gcs) {
528 fLevel=gcs.fLevel;
529 fNmany=gcs.fNmany;
530 fStart=gcs.fStart;
531 for(i=0; i<30; i++) fIdBranch[i]=gcs.fIdBranch[i];
532 for(i=0; i<3; i++) fPoint[i]=gcs.fPoint[i];
537 for (i=0; i<fCapacity; i++) {
538 fNodeBranch[i] = gcs.fNodeBranch[i];
539 fMatrixBranch[i] = new TGeoHMatrix(*gcs.fMatrixBranch[i]);
540 fMatPtr[i] = gcs.fMatPtr[i];
541 }
542 }
543 return *this;
544}
545
546////////////////////////////////////////////////////////////////////////////////
547/// Dtor.
548
550{
551 if (fNodeBranch) {
552 for (Int_t i=0; i<fCapacity; i++) {
553 delete fMatrixBranch[i];
554 }
555 delete [] fNodeBranch;
556 delete [] fMatrixBranch;
557 delete [] fMatPtr;
558 }
559}
560
561////////////////////////////////////////////////////////////////////////////////
562/// Fill current modeller state.
563
564void TGeoCacheState::SetState(Int_t level, Int_t startlevel, Int_t nmany, Bool_t ovlp, Double_t *point)
565{
566 fLevel = level;
567 fStart = startlevel;
568 fNmany = nmany;
570 if (cache->HasIdArray()) memcpy(fIdBranch, cache->GetIdBranch()+fStart, (level+1-fStart)*sizeof(Int_t));
571 TGeoNode **node_branch = (TGeoNode **) cache->GetBranch();
572 TGeoHMatrix **mat_branch = (TGeoHMatrix **) cache->GetMatrices();
573 Int_t nelem = level+1-fStart;
574 memcpy(fNodeBranch, node_branch+fStart, nelem*sizeof(TGeoNode *));
575 memcpy(fMatPtr, mat_branch+fStart, nelem*sizeof(TGeoHMatrix *));
576 TGeoHMatrix *last = 0;
577 TGeoHMatrix *current;
578 for (Int_t i=0; i<nelem; i++) {
579 current = mat_branch[i+fStart];
580 if (current == last) continue;
581 *fMatrixBranch[i] = current;
582 last = current;
583 }
584 fOverlapping = ovlp;
585 if (point) memcpy(fPoint, point, 3*sizeof(Double_t));
586}
587
588////////////////////////////////////////////////////////////////////////////////
589/// Restore a modeler state.
590
592{
593 level = fLevel;
594 nmany = fNmany;
596 if (cache->HasIdArray()) cache->FillIdBranch(fIdBranch, fStart);
597 TGeoNode **node_branch = (TGeoNode **) cache->GetBranch();
598 TGeoHMatrix **mat_branch = (TGeoHMatrix **) cache->GetMatrices();
599 Int_t nelem = level+1-fStart;
600 memcpy(node_branch+fStart, fNodeBranch, nelem*sizeof(TGeoNode *));
601 memcpy(mat_branch+fStart, fMatPtr, (level+1-fStart)*sizeof(TGeoHMatrix *));
602 TGeoHMatrix *last = 0;
603 TGeoHMatrix *current;
604 for (Int_t i=0; i<nelem; i++) {
605 current = mat_branch[i+fStart];
606 if (current == last) continue;
607 *current = fMatrixBranch[i];
608 last = current;
609 }
610 if (point) memcpy(point, fPoint, 3*sizeof(Double_t));
611 return fOverlapping;
612}
const Bool_t kFALSE
Definition RtypesCore.h:92
unsigned long ULong_t
Definition RtypesCore.h:55
long Long_t
Definition RtypesCore.h:54
double Double_t
Definition RtypesCore.h:59
const Bool_t kTRUE
Definition RtypesCore.h:91
#define ClassImp(name)
Definition Rtypes.h:364
XFontStruct * id
Definition TGX11.cxx:109
char name[80]
Definition TGX11.cxx:110
R__EXTERN TGeoManager * gGeoManager
Class storing the state of the cache at a given moment.
Definition TGeoCache.h:29
TGeoHMatrix ** fMatPtr
Definition TGeoCache.h:41
Bool_t GetState(Int_t &level, Int_t &nmany, Double_t *point) const
Restore a modeler state.
Int_t fIdBranch[30]
Definition TGeoCache.h:35
Bool_t fOverlapping
Definition TGeoCache.h:37
TGeoHMatrix ** fMatrixBranch
Definition TGeoCache.h:40
void SetState(Int_t level, Int_t startlevel, Int_t nmany, Bool_t ovlp, Double_t *point=0)
Fill current modeller state.
Int_t fCapacity
Definition TGeoCache.h:31
TGeoNode ** fNodeBranch
Definition TGeoCache.h:39
TGeoCacheState()
Default ctor.
Double_t fPoint[3]
Definition TGeoCache.h:36
virtual ~TGeoCacheState()
Dtor.
TGeoCacheState & operator=(const TGeoCacheState &)
assignment operator
Matrix class used for computing global transformations Should NOT be used for node definition.
Definition TGeoMatrix.h:421
void CopyFrom(const TGeoMatrix *other)
Fast copy method.
void Multiply(const TGeoMatrix *right)
multiply to the right with an other transformation if right is identity matrix, just return
void CdUp()
Go one level up in geometry.
TGeoNode * GetTopNode() const
Int_t GetNNodes()
TGeoNodeCache * GetCache() const
void CdTop()
Make top level node the current node.
void CdDown(Int_t index)
Make a daughter of current node current.
Geometrical transformation package.
Definition TGeoMatrix.h:41
virtual void LocalToMasterVect(const Double_t *local, Double_t *master) const
convert a vector by multiplying its column vector (x, y, z, 1) to matrix inverse
virtual void MasterToLocal(const Double_t *master, Double_t *local) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix
virtual void MasterToLocalVect(const Double_t *master, Double_t *local) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix
virtual void LocalToMasterBomb(const Double_t *local, Double_t *master) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix inverse
virtual void LocalToMaster(const Double_t *local, Double_t *master) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix inverse
virtual void MasterToLocalBomb(const Double_t *master, Double_t *local) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix
Bool_t IsIdentity() const
Definition TGeoMatrix.h:66
Special pool of reusable nodes.
Definition TGeoCache.h:58
virtual ~TGeoNodeCache()
Destructor.
void * GetMatrices() const
Definition TGeoCache.h:102
Int_t fGeoCacheStackSize
Definition TGeoCache.h:61
TGeoHMatrix ** fMPB
Definition TGeoCache.h:75
TGeoNode * GetNode() const
Definition TGeoCache.h:107
void CdNode(Int_t nodeid)
Change current path to point to the node having this id.
void * GetBranch() const
Definition TGeoCache.h:98
TGeoNodeCache()
Dummy constructor.
Definition TGeoCache.cxx:34
void CdTop()
Definition TGeoCache.h:94
void GetBranchOnlys(Int_t *isonly) const
Fill copy numbers of current branch nodes.
const char * GetPath()
Returns the current geometry path.
void MasterToLocal(const Double_t *master, Double_t *local) const
Point in master frame defined by current matrix converted to local one.
TGeoStateInfo * fPWInfo
Definition TGeoCache.h:78
Int_t fIdBranch[100]
Definition TGeoCache.h:68
void BuildIdArray()
Builds node id array.
Int_t fInfoLevel
Definition TGeoCache.h:65
Int_t * fNodeIdArray
State info for the parallel world.
Definition TGeoCache.h:79
void BuildInfoBranch()
Builds info branch. Navigation is possible only after this step.
const Int_t * GetIdBranch() const
Definition TGeoCache.h:97
TGeoHMatrix ** fMatrixBranch
Definition TGeoCache.h:74
void GetBranchNumbers(Int_t *copyNumbers, Int_t *volumeNumbers) const
Fill copy numbers of current branch nodes.
TGeoStateInfo ** fInfoBranch
Definition TGeoCache.h:77
TObjArray * fStack
current matrix
Definition TGeoCache.h:73
Int_t GetNodeId() const
Get unique node id.
TGeoStateInfo * GetInfo()
Get next state info pointer.
TGeoStateInfo * GetMakePWInfo(Int_t nd)
Get the PW info, if none create one.
Int_t fStackLevel
Definition TGeoCache.h:64
void MasterToLocalVect(const Double_t *master, Double_t *local) const
Vector in master frame defined by current matrix converted to local one.
void MasterToLocalBomb(const Double_t *master, Double_t *local) const
Point in master frame defined by current matrix converted to local one and rescaled with bomb factor.
Int_t fCurrentID
Definition TGeoCache.h:66
Bool_t PopState(Int_t &nmany, Double_t *point=0)
Pop next state/point from heap.
Bool_t HasIdArray() const
Definition TGeoCache.h:116
TGeoHMatrix * fMatrix
current node
Definition TGeoCache.h:72
Bool_t CdDown(Int_t index)
Make daughter INDEX of current node the active state. Compute global matrix.
void LocalToMaster(const Double_t *local, Double_t *master) const
Local point converted to master frame defined by current matrix.
void LocalToMasterVect(const Double_t *local, Double_t *master) const
Local vector converted to master frame defined by current matrix.
Int_t GetCurrentNodeId() const
Returns a fixed ID for current physical node.
Int_t PushState(Bool_t ovlp, Int_t ntmany=0, Int_t startlevel=0, Double_t *point=0)
Push current state into heap.
TGeoNode ** fNodeBranch
Definition TGeoCache.h:76
TGeoNode * fTop
Definition TGeoCache.h:70
TString fPath
Definition TGeoCache.h:69
TGeoNode * fNode
Definition TGeoCache.h:71
void LocalToMasterBomb(const Double_t *local, Double_t *master) const
Local point converted to master frame defined by current matrix and rescaled with bomb factor.
void CdUp()
Make mother of current node the active state.
void GetBranchNames(Int_t *names) const
Fill names with current branch volume names (4 char - used by GEANT3 interface).
void FillIdBranch(const Int_t *br, Int_t startlevel=0)
Definition TGeoCache.h:96
void ReleaseInfo()
Release last used state info pointer.
void Refresh()
Definition TGeoCache.h:129
Int_t fGeoCacheMaxLevels
Definition TGeoCache.h:60
Bool_t RestoreState(Int_t &nmany, TGeoCacheState *state, Double_t *point=0)
Pop next state/point from a backed-up state.
Int_t fGeoInfoStackSize
Definition TGeoCache.h:62
A node represent a volume positioned inside another.They store links to both volumes and to the TGeoM...
Definition TGeoNode.h:41
Bool_t IsOverlapping() const
Definition TGeoNode.h:105
TGeoVolume * GetVolume() const
Definition TGeoNode.h:97
Int_t GetNdaughters() const
Definition TGeoNode.h:93
TGeoNode * GetDaughter(Int_t ind) const
Definition TGeoNode.h:85
virtual TGeoMatrix * GetMatrix() const =0
Int_t GetNumber() const
Definition TGeoNode.h:95
void FillIdArray(Int_t &ifree, Int_t &nodeid, Int_t *array) const
Fill array with node id. Recursive on node branch.
Definition TGeoNode.cxx:358
Int_t GetIndex(const TGeoNode *node) const
get index number for a given daughter
Int_t GetNumber() const
Definition TGeoVolume.h:183
virtual const char * GetName() const
Returns name of object.
Definition TNamed.h:47
An array of TObjects.
Definition TObjArray.h:37
void Add(TObject *obj)
Definition TObjArray.h:74
virtual void Delete(Option_t *option="")
Remove all objects from the array AND delete all heap based objects.
TObject * At(Int_t idx) const
Definition TObjArray.h:166
Mother of all ROOT objects.
Definition TObject.h:37
TObject & operator=(const TObject &rhs)
TObject assignment operator.
Definition TObject.h:283
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
Definition TObject.cxx:893
virtual void Info(const char *method, const char *msgfmt,...) const
Issue info message.
Definition TObject.cxx:867
const char * Data() const
Definition TString.h:369
static TString Format(const char *fmt,...)
Static method which formats a string using a printf style format descriptor and return a TString.
Definition TString.cxx:2331
Statefull info for the current geometry level.