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CheckOverlap.cc
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2 
4 
9 
10 #include "G4Run.hh"
11 #include "G4LogicalVolumeStore.hh"
12 #include "G4PVPlacement.hh"
13 #include "G4PVParameterised.hh"
14 #include "G4LogicalVolume.hh"
15 #include "G4Material.hh"
16 #include "G4TransportationManager.hh"
17 
18 #include <set>
19 
21  std::vector<std::string> defNames;
22  nodeNames = p.getUntrackedParameter<std::vector<std::string> >("NodeNames", defNames);
23  nPoints = p.getUntrackedParameter<int>("Resolution", 1000);
24  G4cout << "CheckOverlap:: initialised with "
25  << nodeNames.size() << " Node Names and Resolution "
26  << nPoints << " the names are:" << G4endl;
27  for (unsigned int ii=0; ii<nodeNames.size(); ii++)
28  G4cout << "CheckOverlap:: Node[" << ii << "] : " << nodeNames[ii] << G4endl;
29 }
30 
32 
34 
35  if (!nodeNames.empty()) {
36  const G4LogicalVolumeStore * lvs = G4LogicalVolumeStore::GetInstance();
37  G4cout << "CheckOverlap::update nLV= " << lvs->size() << G4endl;
38  std::vector<G4LogicalVolume *>::const_iterator lvcite;
39  int i = 0;
40  for (lvcite = lvs->begin(); lvcite != lvs->end(); lvcite++) {
41  for (unsigned int ii=0; ii<nodeNames.size(); ii++) {
42  if ((*lvcite)->GetName() == (G4String)(nodeNames[ii])) {
43  topLV.push_back((*lvcite));
44  break;
45  }
46  }
47  G4cout << "Name of node " << (++i) << " : "
48  << (*lvcite)->GetName() << G4endl;
49  if (topLV.size() == nodeNames.size()) break;
50  }
51  } else {
52  G4VPhysicalVolume * theTopPV = getTopPV();
53  topLV.push_back(theTopPV->GetLogicalVolume());
54  }
55 
56  if (topLV.empty()) {
57  G4cout << "No Top LV Found" << G4endl;
58  } else {
59  for (unsigned int ii=0; ii<topLV.size(); ++ii) {
60  G4cout << "Top LV Name " << topLV[ii]->GetName() << G4endl;
62  }
63  }
64 }
65 
66 void CheckOverlap::checkHierarchyLeafPVLV(G4LogicalVolume * lv,
67  unsigned int leafDepth) {
68 
69  //----- Get LV daughters from list of PV daughters
70  mmlvpv lvpvDaughters;
71  std::set< G4LogicalVolume * > lvDaughters;
72  int NoDaughters = lv->GetNoDaughters();
73  while ((NoDaughters--)>0) {
74  G4VPhysicalVolume * pvD = lv->GetDaughter(NoDaughters);
75  lvpvDaughters.insert(mmlvpv::value_type(pvD->GetLogicalVolume(), pvD));
76  lvDaughters.insert(pvD->GetLogicalVolume());
77  }
78 
79  std::set< G4LogicalVolume * >::const_iterator scite;
80  mmlvpv::const_iterator mmcite;
81 
82  //----- Check daughters of LV
83  for (scite = lvDaughters.begin(); scite != lvDaughters.end(); scite++) {
84  std::pair< mmlvpv::iterator, mmlvpv::iterator > mmER = lvpvDaughters.equal_range(*scite);
85  //----- Check daughters PV of this LV
86  for (mmcite = mmER.first ; mmcite != mmER.second; mmcite++)
87  checkPV((*mmcite).second, leafDepth+1);
88  //----- Check daughters LV
89  checkHierarchyLeafPVLV(*scite, leafDepth+1);
90  }
91 }
92 
93 void CheckOverlap::checkPV(G4VPhysicalVolume * pv, unsigned int leafDepth) {
94 
95  //----- PV info
96 #ifndef G4V7
97  std::string mother = "DDDWorld";
98  if (pv->GetMotherLogical()) mother = pv->GetMotherLogical()->GetName();
99  if (!pv->IsReplicated()) {
100  G4PVPlacement* pvplace = dynamic_cast<G4PVPlacement* >(pv);
101  G4bool ok = pvplace->CheckOverlaps(nPoints);
102  G4cout << "Placed PV " << pvplace->GetName()
103  << " Number " << pvplace->GetCopyNo()
104  << " in mother " << mother << " at depth "
105  << leafDepth << " Status " << ok << G4endl;
106  if (ok) {
107  if(pv->GetRotation() == nullptr) {
108  G4cout << "Translation " << pv->GetTranslation()
109  << " and with no rotation" << G4endl;
110  } else {
111  G4cout << "Translation " << pv->GetTranslation()
112  << " and with rotation "<< *(pv->GetRotation()) << G4endl;
113  }
114  G4LogicalVolume* lv = pv->GetLogicalVolume();
115  dumpLV(lv, "Self");
116  if (pv->GetMotherLogical()) {
117  lv = pv->GetMotherLogical();
118  dumpLV (lv, "Mother");
119  }
120  }
121  } else {
122  if (pv->GetParameterisation() != nullptr) {
123  G4PVParameterised* pvparam = dynamic_cast<G4PVParameterised* >(pv);
124  G4bool ok = pvparam->CheckOverlaps(nPoints);
125  G4cout << "Parametrized PV " << pvparam->GetName()
126  << " in mother " << mother << " at depth "
127  << leafDepth << " Status " << ok << G4endl;
128  }
129  }
130 #endif
131 }
132 
133 G4VPhysicalVolume * CheckOverlap::getTopPV() {
134  return G4TransportationManager::GetTransportationManager()
135  ->GetNavigatorForTracking()->GetWorldVolume();
136 }
137 
138 void CheckOverlap::dumpLV(G4LogicalVolume* lv, std::string str) {
139  G4cout << "Dump of " << str << " Logical Volume "
140  << lv->GetName() << " Solid: "
141  << lv->GetSolid()->GetName() << " Material: "
142  << lv->GetMaterial()->GetName() << G4endl;
143  G4cout << *(lv->GetSolid()) << G4endl;
144 }
145 
std::multimap< G4LogicalVolume *, G4VPhysicalVolume *, std::less< G4LogicalVolume * > > mmlvpv
void checkPV(G4VPhysicalVolume *pv, unsigned int leafDepth)
Definition: CheckOverlap.cc:93
T getUntrackedParameter(std::string const &, T const &) const
void checkHierarchyLeafPVLV(G4LogicalVolume *lv, unsigned int leafDepth)
Definition: CheckOverlap.cc:66
~CheckOverlap() override
Definition: CheckOverlap.cc:31
void dumpLV(G4LogicalVolume *lv, std::string str)
std::vector< G4LogicalVolume * > topLV
Definition: CheckOverlap.h:38
def pv(vc)
Definition: MetAnalyzer.py:7
void update(const BeginOfRun *run) override
This routine will be called when the appropriate signal arrives.
Definition: CheckOverlap.cc:33
std::vector< std::string > nodeNames
Definition: CheckOverlap.h:36
ii
Definition: cuy.py:590
CheckOverlap(edm::ParameterSet const &p)
Definition: CheckOverlap.cc:20
G4VPhysicalVolume * getTopPV()
#define str(s)