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DDG4Builder.cc
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2 
4 
10 
11 #include "G4VSolid.hh"
12 #include "G4Box.hh"
13 #include "G4Tubs.hh"
14 #include "G4Cons.hh"
15 #include "G4Trap.hh"
16 #include "G4Material.hh"
17 #include "G4LogicalVolume.hh"
18 #include "G4VPhysicalVolume.hh"
19 #include "G4PVPlacement.hh"
20 #include "G4ReflectionFactory.hh"
21 
22 #include "G4UnitsTable.hh"
23 
24 #include <sstream>
25 
27 
29 
32 }
33 
35  solidConverter_(new DDG4SolidConverter), compactView(cpv), check_(check) {
37 }
38 
40  delete solidConverter_;
41 }
42 
43 G4LogicalVolume * DDG4Builder::convertLV(const DDLogicalPart & part) {
44  LogDebug("SimG4CoreGeometry") << "DDG4Builder::convertLV(): DDLogicalPart = " << part;
45  G4LogicalVolume * result = logs_[part];
46  if (!result) {
47  G4VSolid * s = convertSolid(part.solid());
48  G4Material * m = convertMaterial(part.material());
49  result = new G4LogicalVolume(s,m,part.name().name());
50  map_.insert(result,part);
51  DDG4Dispatchable * disp = new DDG4Dispatchable(&part,result);
52  theVectorOfDDG4Dispatchables_->push_back(disp);
53  LogDebug("SimG4CoreGeometry") << "DDG4Builder::convertLV(): new G4LogicalVolume " << part.name().name()
54  << "\nDDG4Builder: newEvent: dd=" << part.ddname() << " g4=" << result->GetName();
55  logs_[part] = result; // DDD -> GEANT4
56  }
57  return result;
58 }
59 
60 G4VSolid * DDG4Builder::convertSolid(const DDSolid & solid) {
61  G4VSolid * result = sols_[solid];
62  if (!result) {
63  result = solidConverter_->convert(solid); sols_[solid] = result;
64  }
65  return result;
66 }
67 
68 G4Material * DDG4Builder::convertMaterial(const DDMaterial & material) {
69  LogDebug("SimG4CoreGeometry") << "DDDetConstr::ConvertMaterial: material=" << material;
70  G4Material * result = 0;
71  if (material) {
72  // only if it's a valid DDD-material
73  if ((result = mats_[material])) {
74  LogDebug("SimG4CoreGeometry") << " is already converted";
75  return result; }
76  } else {
77  // only if it's NOT a valid DDD-material
78  edm::LogError("SimG4CoreGeometry") << "DDG4Builder:: material " << material.toString() << " is not valid (in the DDD sense!)";
79  throw cms::Exception("SimG4CoreGeometry", " material is not valid from the Detector Description: " + material.toString());
80  }
81  int c = 0;
82  if ((c = material.noOfConstituents())) {
83  // it's a composite material
84  LogDebug("SimG4CoreGeometry") << " creating a G4-composite material. c=" << c
85  << " d=" << material.density()/g*mole ;
86  result = new G4Material(material.name().name(),material.density(),c);
87  for (int i=0 ; i<c; ++i) {
88  // recursive building of constituents
89  LogDebug("SimG4CoreGeometry") << " adding the composite=" << material.name()
90  << " fm=" << material.constituent(i).second;
91  result->AddMaterial
92  (convertMaterial(material.constituent(i).first),
93  material.constituent(i).second);// fractionmass
94  }
95  } else {
96  // it's an elementary material
97  LogDebug("SimG4CoreGeometry") << " building an elementary material"
98  << " z=" << material.z()
99  << " a=" << material.a()/g*mole
100  << " d=" << material.density()/g*cm3 ;
101  result = new G4Material
102  (material.name().name(),material.z(),material.a(),material.density());
103  }
104  mats_[material] = result;
105  return result;
106 }
107 
109  G4ReflectionFactory * refFact = G4ReflectionFactory::Instance();
110  refFact->SetScalePrecision(100.*refFact->GetScalePrecision());
111 
112  typedef DDCompactView::graph_type graph_type;
113  const graph_type & gra = compactView->graph();
114  typedef graph_type::const_adj_iterator adjl_iterator;
115  adjl_iterator git = gra.begin();
116  adjl_iterator gend = gra.end();
117 
118  graph_type::index_type i=0;
119  for (; git != gend; ++git) {
120  const DDLogicalPart & ddLP = gra.nodeData(git);
121  if ( !(ddLP.isDefined().second) ) {
122  edm::LogError("SimG4CoreGeometry") << "DDG4Builder::BuildGeometry() has encountered an undefined DDLogicalPart named " << ddLP.toString();
123  throw cms::Exception("SimG4CoreGeometry", " DDG4Builder::BuildGeometry() has encountered an undefined DDLogicalPart named " + ddLP.toString());
124  }
125  G4LogicalVolume * g4LV = convertLV(ddLP);
126  ++i;
127  if (git->size()) {
128  // ask for children of ddLP
129  graph_type::edge_list::const_iterator cit = git->begin();
130  graph_type::edge_list::const_iterator cend = git->end();
131  for (; cit != cend; ++cit) {
132  // fetch specific data
133  const DDLogicalPart & ddcurLP = gra.nodeData(cit->first);
134  if ( !ddcurLP.isDefined().second ) {
135  std::string err = " DDG4Builder::BuildGeometry() in processing \"children\" has ";
136  err += "encountered an undefined DDLogicalPart named " + ddLP.toString();
137  edm::LogError("SimG4CoreGeometry") << err;
138  throw cms::Exception("SimG4CoreGeometry", err) ;
139  }
140  int offset = getInt("CopyNoOffset",ddcurLP);
141  int tag = getInt("CopyNoTag",ddcurLP);
142  DDRotationMatrix rm(gra.edgeData(cit->second)->rot());
143  DD3Vector x, y, z;
144  rm.GetComponents(x, y, z);
145  if ((x.Cross(y)).Dot(z)<0)
146  LogDebug("SimG4CoreGeometry") << ">>Reflection encountered: " << gra.edgeData(cit->second)->rot_ ;
147  LogDebug("SimG4CoreGeometry") << ">>Placement d=" << gra.nodeData(cit->first).ddname()
148  << " m=" << ddLP.ddname() << " cp=" << gra.edgeData(cit->second)->copyno_
149  << " r=" << gra.edgeData(cit->second)->rot_.ddname() ;
150  G4ThreeVector tempTran(gra.edgeData(cit->second)->trans_.X(), gra.edgeData(cit->second)->trans_.Y(), gra.edgeData(cit->second)->trans_.Z());
151  G4Translate3D transl = tempTran;
152  CLHEP::HepRep3x3 temp( x.X(), x.Y(), x.Z(), y.X(), y.Y(), y.Z(), z.X(), z.Y(), z.Z() ); //matrix representation
153  CLHEP::HepRotation hr ( temp );
154 
155  // G3 convention of defining rot-matrices ...
156  G4Transform3D trfrm = transl * G4Rotate3D(hr.inverse());//.inverse();
157 
158  refFact->Place(trfrm, // transformation containing a possible reflection
159  gra.nodeData(cit->first).name().name(),
160  convertLV(gra.nodeData(cit->first)), // daugther
161  g4LV, // mother
162  false, // 'ONLY'
163  gra.edgeData(cit->second)->copyno_+offset+tag, // copy number
164  check_);
165  } // iterate over children
166  } // if (children)
167  } // iterate over graph nodes
168 
169  // Looking for in the G4ReflectionFactory secretly created reflected G4LogicalVolumes
170  std::map<DDLogicalPart, G4LogicalVolume*>::const_iterator ddg4_it = logs_.begin();
171  for (; ddg4_it != logs_.end(); ++ddg4_it) {
172  G4LogicalVolume * reflLogicalVolume = refFact->GetReflectedLV(ddg4_it->second);
173  if (reflLogicalVolume) {
174  DDLogicalPart ddlv = ddg4_it->first;
175  map_.insert(reflLogicalVolume,ddlv);
176  DDG4Dispatchable * disp = new DDG4Dispatchable(&(ddg4_it->first),reflLogicalVolume);
177  theVectorOfDDG4Dispatchables_->push_back(disp);
178  LogDebug("SimG4CoreGeometry") << "DDG4Builder: newEvent: dd="
179  << ddlv.ddname() << " g4="
180  << reflLogicalVolume->GetName();
181  }
182  }
183 
184  G4LogicalVolume * world = logs_[compactView->root()];
185 
186  //
187  // needed for building sensitive detectors
188  //
191 
192  return DDGeometryReturnType(world,map_,catalog);
193 }
194 
195 int DDG4Builder::getInt(const std::string & s, const DDLogicalPart & part)
196 {
197  DDValue val(s);
198  std::vector<const DDsvalues_type *> result = part.specifics();
199  std::vector<const DDsvalues_type *>::iterator it = result.begin();
200  bool foundIt = false;
201  for (; it != result.end(); ++it) {
202  foundIt = DDfetch(*it,val);
203  if (foundIt) break;
204  }
205  if (foundIt) {
206  std::vector<double> temp = val.doubles();
207  if (temp.size() != 1) {
208  edm::LogError("SimG4CoreGeometry") << " DDG4Builder - ERROR: I need only 1 " << s ;
209  throw SimG4Exception("DDG4Builder: Problem with Region tags - one and only one allowed");
210  }
211  return int(temp[0]);
212  }
213  else return 0;
214 }
215 
216 double DDG4Builder::getDouble(const std::string & s,
217  const DDLogicalPart & part) {
218  DDValue val(s);
219  std::vector<const DDsvalues_type *> result = part.specifics();
220  std::vector<const DDsvalues_type *>::iterator it = result.begin();
221  bool foundIt = false;
222  for (; it != result.end(); ++it) {
223  foundIt = DDfetch(*it,val);
224  if (foundIt) break;
225  }
226  if (foundIt) {
227  std::vector<std::string> temp = val.strings();
228  if (temp.size() != 1) {
229  edm::LogError("SimG4CoreGeometry") << " DDG4Builder - ERROR: I need only 1 " << s ;
230  throw SimG4Exception("DDG4Builder: Problem with Region tags - one and only one allowed");
231  }
232  double v;
233  std::string unit;
234  std::istringstream is(temp[0].c_str());
235  is >> v >> unit;
236  v = v*G4UnitDefinition::GetValueOf(unit.substr(1,unit.size()));
237  return v;
238  }
239  else return 0;
240 }
#define LogDebug(id)
double a() const
returns the atomic mass
Definition: DDMaterial.cc:97
int i
Definition: DBlmapReader.cc:9
std::vector< DDG4Dispatchable * > DDG4DispContainer
def_type isDefined() const
Definition: DDBase.h:115
G4LogicalVolume * convertLV(const DDLogicalPart &dLogical)
Definition: DDG4Builder.cc:43
const std::vector< double > & doubles() const
a reference to the double-valued values stored in the given instance of DDValue
Definition: DDValue.cc:134
const N & name() const
Definition: DDBase.h:82
std::map< DDSolid, G4VSolid * > sols_
Definition: DDG4Builder.h:43
double getDouble(const std::string &s, const DDLogicalPart &dLogical)
Definition: DDG4Builder.cc:216
DDMaterial is used to define and access material information.
Definition: DDMaterial.h:41
std::map< DDLogicalPart, G4LogicalVolume * > logs_
Definition: DDG4Builder.h:44
const DDCompactView * compactView
Definition: DDG4Builder.h:47
const graph_type & graph() const
Provides read-only access to the data structure of the compact-view.
static DDG4DispContainer * theVectorOfDDG4Dispatchables_
Definition: DDG4Builder.h:48
const DDSolid & solid(void) const
Returns a reference object of the solid being the shape of this LogicalPart.
type of data representation of DDCompactView
Definition: DDCompactView.h:77
bool DDfetch(const DDsvalues_type *, DDValue &)
helper for retrieving DDValues from DDsvalues_type *.
Definition: DDsvalues.cc:102
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
double double double z
A DDSolid represents the shape of a part.
Definition: DDSolid.h:35
std::vector< const DDsvalues_type * > specifics(void) const
returns the specific-data attached to the LogicalPart only (not to a DDExpandedNode) ...
double z() const
retruns the atomic number
Definition: DDMaterial.cc:103
G4Material * convertMaterial(const DDMaterial &dMaterial)
Definition: DDG4Builder.cc:68
ROOT::Math::DisplacementVector3D< ROOT::Math::Cartesian3D< double > > DD3Vector
A DD Translation is currently implemented with Root Vector3D.
Definition: DDTranslation.h:6
string unit
Definition: csvLumiCalc.py:46
bool check(const DataFrame &df, bool capcheck, bool dvercheck)
tuple result
Definition: query.py:137
string rm
Definition: submit.py:76
FractionV::value_type constituent(int i) const
returns the i-th compound material and its fraction-mass
Definition: DDMaterial.cc:89
A DDLogicalPart aggregates information concerning material, solid and sensitveness ...
Definition: DDLogicalPart.h:88
unsigned int offset(bool)
const std::vector< std::string > & strings() const
a reference to the std::string-valued values stored in the given instance of DDValue ...
Definition: DDValue.h:71
static DDG4DispContainer * theVectorOfDDG4Dispatchables()
Definition: DDG4Builder.cc:30
std::string toString() const
Definition: DDBase.h:86
double density() const
returns the density
Definition: DDMaterial.cc:109
DDG4SolidConverter * solidConverter_
Definition: DDG4Builder.h:41
part
Definition: HCALResponse.h:21
G4VSolid * convert(const DDSolid &)
SensitiveDetectorCatalog upDate(const DDG4DispContainer &ddg4s)
int noOfConstituents() const
returns the number of compound materials or 0 for elementary materials
Definition: DDMaterial.cc:83
DDGeometryReturnType BuildGeometry()
Definition: DDG4Builder.cc:108
G4VSolid * convertSolid(const DDSolid &dSolid)
Definition: DDG4Builder.cc:60
DDG4Builder(const DDCompactView *, bool check=false)
Definition: DDG4Builder.cc:34
const DDLogicalPart & root() const
returns the DDLogicalPart representing the root of the geometrical hierarchy
std::map< DDMaterial, G4Material * > mats_
Definition: DDG4Builder.h:42
adj_iterator begin()
Definition: adjgraph.h:197
void insert(const KeyType &, const ValueType &)
insert a new key-value-pair
Definition: DDMapper.h:77
Definition: DDAxes.h:10
ROOT::Math::Rotation3D DDRotationMatrix
A DDRotationMatrix is currently implemented with a ROOT Rotation3D.
const std::string & name() const
Returns the name.
Definition: DDName.cc:87
mathSSE::Vec4< T > v
const DDMaterial & material(void) const
Returns a reference object of the material this LogicalPart is made of.
G4LogicalVolumeToDDLogicalPartMap map_
Definition: DDG4Builder.h:49
int getInt(const std::string &s, const DDLogicalPart &dLogical)
Definition: DDG4Builder.cc:195
const N & ddname() const
Definition: DDBase.h:84