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Geant4/examples/extended/persistency/gdml/G02/src/G02DetectorConstruction.cc

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Differences between /examples/extended/persistency/gdml/G02/src/G02DetectorConstruction.cc (Version 11.3.0) and /examples/extended/persistency/gdml/G02/src/G02DetectorConstruction.cc (Version 9.6.p3)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
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 10 // *                                               10 // *                                                                  *
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 24 // *******************************************     24 // ********************************************************************
 25 // g                                           <<  25 //g
 26 /// \file persistency/gdml/G02/src/G02Detector     26 /// \file persistency/gdml/G02/src/G02DetectorConstruction.cc
 27 /// \brief Implementation of the G02DetectorCo     27 /// \brief Implementation of the G02DetectorConstruction class
 28 //                                                 28 //
 29 //                                                 29 //
                                                   >>  30 // $Id$
 30 //                                                 31 //
 31 // Class G02DetectorConstruction implementatio     32 // Class G02DetectorConstruction implementation
 32 //                                                 33 //
 33 // -------------------------------------------     34 // ----------------------------------------------------------------------------
 34                                                    35 
 35 #include "G02DetectorConstruction.hh"              36 #include "G02DetectorConstruction.hh"
 36                                                    37 
 37 // Geant4 includes                                 38 // Geant4 includes
 38 //                                                 39 //
                                                   >>  40 #include "globals.hh"
 39 #include "G4GeometryManager.hh"                    41 #include "G4GeometryManager.hh"
 40 #include "G4VisAttributes.hh"                      42 #include "G4VisAttributes.hh"
 41 #include "globals.hh"                          << 
 42                                                    43 
 43 // Materials                                       44 // Materials
 44 //                                                 45 //
 45 #include "G4Material.hh"                           46 #include "G4Material.hh"
 46                                                    47 
 47 // Geometry includes                               48 // Geometry includes
 48 //                                                 49 //
 49 #include "G4Box.hh"                            << 
 50 #include "G4LogicalVolume.hh"                      50 #include "G4LogicalVolume.hh"
                                                   >>  51 #include "G4VPhysicalVolume.hh"
 51 #include "G4PVParameterised.hh"                    52 #include "G4PVParameterised.hh"
 52 #include "G4PVPlacement.hh"                        53 #include "G4PVPlacement.hh"
                                                   >>  54 #include "G4Box.hh"
 53 #include "G4Tubs.hh"                               55 #include "G4Tubs.hh"
 54 #include "G4VPhysicalVolume.hh"                << 
 55                                                    56 
 56 // Reflected solids                                57 // Reflected solids
 57 //                                                 58 //
 58 #include "G4AffineTransform.hh"                << 
 59 #include "G4DisplacedSolid.hh"                 << 
 60 #include "G4ReflectedSolid.hh"                     59 #include "G4ReflectedSolid.hh"
                                                   >>  60 #include "G4DisplacedSolid.hh"
 61 #include "G4ReflectionFactory.hh"                  61 #include "G4ReflectionFactory.hh"
 62 #include "G4RotationMatrix.hh"                     62 #include "G4RotationMatrix.hh"
                                                   >>  63 #include "G4AffineTransform.hh"
 63 #include "G4Transform3D.hh"                        64 #include "G4Transform3D.hh"
 64                                                    65 
 65 // Assembly volumes                                66 // Assembly volumes
 66 //                                                 67 //
 67 #include "G4AssemblyVolume.hh"                     68 #include "G4AssemblyVolume.hh"
 68                                                    69 
 69 // Volume parameterisations                        70 // Volume parameterisations
 70 //                                                 71 //
 71 #include "G02ChamberParameterisation.hh"           72 #include "G02ChamberParameterisation.hh"
 72                                                    73 
 73 // Messenger                                       74 // Messenger
 74 //                                                 75 //
 75 #include "G02DetectorMessenger.hh"                 76 #include "G02DetectorMessenger.hh"
 76                                                    77 
 77 // GDML parser include                             78 // GDML parser include
 78 //                                                 79 //
 79 #include "G4GDMLParser.hh"                         80 #include "G4GDMLParser.hh"
                                                   >>  81 
 80 #include "G4PhysicalConstants.hh"                  82 #include "G4PhysicalConstants.hh"
 81 #include "G4SystemOfUnits.hh"                      83 #include "G4SystemOfUnits.hh"
 82                                                    84 
 83 //....oooOO0OOooo........oooOO0OOooo........oo     85 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 84 //                                                 86 //
 85 // Constructor                                     87 // Constructor
 86 //                                                 88 //
 87 G02DetectorConstruction::G02DetectorConstructi     89 G02DetectorConstruction::G02DetectorConstruction()
 88   : G4VUserDetectorConstruction(), fAir(0), fA <<  90   : fAir(0), fAluminum(0), fPb(0), fXenon(0)
 89 {                                                  91 {
 90   fExpHall_x = 5. * m;                         <<  92   fExpHall_x=5.*m;
 91                                                <<  93   
 92   fReadFile = "test.gdml";                     <<  94   fReadFile ="test.gdml";
 93   fWriteFile = "wtest.gdml";                   <<  95   fWriteFile="wtest.gdml";
 94   fStepFile = "mbb";                           <<  96   fStepFile ="mbb";
 95   fWritingChoice = 1;                          <<  97   fWritingChoice=1;
 96                                                <<  98  
 97   fDetectorMessenger = new G02DetectorMessenge <<  99   fDetectorMessenger = new G02DetectorMessenger( this );
 98 }                                                 100 }
 99                                                   101 
100 //....oooOO0OOooo........oooOO0OOooo........oo    102 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
101 //                                                103 //
102 // Destructor                                     104 // Destructor
103 //                                                105 //
104 G02DetectorConstruction::~G02DetectorConstruct    106 G02DetectorConstruction::~G02DetectorConstruction()
105 {                                                 107 {
106   if (fDetectorMessenger) delete fDetectorMess << 108   if(fDetectorMessenger) delete fDetectorMessenger;
107 }                                                 109 }
108                                                   110 
109 //....oooOO0OOooo........oooOO0OOooo........oo    111 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
110 //                                                112 //
111 // Constructs geometries and materials            113 // Constructs geometries and materials
112 //                                                114 //
113 G4VPhysicalVolume* G02DetectorConstruction::Co    115 G4VPhysicalVolume* G02DetectorConstruction::Construct()
114 {                                              << 116 { 
115   // Writing or Reading of Geometry using G4GD    117   // Writing or Reading of Geometry using G4GDML
116                                                   118 
117   G4VPhysicalVolume* fWorldPhysVol;               119   G4VPhysicalVolume* fWorldPhysVol;
118                                                   120 
119   if (fWritingChoice == 0) {                   << 121   if(fWritingChoice==0)
                                                   >> 122   {
120     // **** LOOK HERE*** FOR READING GDML FILE    123     // **** LOOK HERE*** FOR READING GDML FILES
121     //                                            124     //
122                                                << 125     
123     // ACTIVATING OVERLAP CHECK when read volu    126     // ACTIVATING OVERLAP CHECK when read volumes are placed.
124     // Can take long time in case of complex g    127     // Can take long time in case of complex geometries
125     //                                            128     //
126     // fParser.SetOverlapCheck(true);             129     // fParser.SetOverlapCheck(true);
127                                                   130 
128     fParser.Read(fReadFile);                      131     fParser.Read(fReadFile);
129                                                   132 
130     // READING GDML FILES OPTION: 2nd Boolean     133     // READING GDML FILES OPTION: 2nd Boolean argument "Validate".
131     // Flag to "false" disables check with the    134     // Flag to "false" disables check with the Schema when reading GDML file.
132     // See the GDML Documentation for more inf    135     // See the GDML Documentation for more information.
133     //                                            136     //
134     // fParser.Read(fReadFile,false);             137     // fParser.Read(fReadFile,false);
135                                                << 138      
136     // Prints the material information            139     // Prints the material information
137     //                                            140     //
138     G4cout << *(G4Material::GetMaterialTable() << 141     G4cout << *(G4Material::GetMaterialTable() ) << G4endl;
139                                                << 142          
140     // Giving World Physical Volume from GDML     143     // Giving World Physical Volume from GDML Parser
141     //                                            144     //
142     fWorldPhysVol = fParser.GetWorldVolume();  << 145     fWorldPhysVol = fParser.GetWorldVolume();     
143   }                                               146   }
144   else if (fWritingChoice == 1) {              << 147   else if(fWritingChoice==1)
                                                   >> 148   {
145     // **** LOOK HERE*** FOR WRITING GDML FILE    149     // **** LOOK HERE*** FOR WRITING GDML FILES
146     // Detector Construction and WRITING to GD    150     // Detector Construction and WRITING to GDML
147     //                                            151     //
148     ListOfMaterials();                            152     ListOfMaterials();
149     fWorldPhysVol = ConstructDetector();          153     fWorldPhysVol = ConstructDetector();
150                                                   154 
151     // OPTION: TO ADD MODULE AT DEPTH LEVEL ..    155     // OPTION: TO ADD MODULE AT DEPTH LEVEL ...
152     //                                            156     //
153     // Can be a integer or a pointer to the to    157     // Can be a integer or a pointer to the top Physical Volume:
154     //                                            158     //
155     // G4int depth=1;                             159     // G4int depth=1;
156     // fParser.AddModule(depth);               << 160     // parser.AddModule(depth);
157                                                << 161      
158     // OPTION: SETTING ADDITION OF POINTER TO     162     // OPTION: SETTING ADDITION OF POINTER TO NAME TO FALSE
159     //                                            163     //
160     // By default, written names in GDML consi    164     // By default, written names in GDML consist of the given name with
161     // appended the pointer reference to it, i    165     // appended the pointer reference to it, in order to make it unique.
162     // Naming policy can be changed by using t    166     // Naming policy can be changed by using the following method, or
163     // calling Write with additional Boolean a    167     // calling Write with additional Boolean argument to "false".
164     // NOTE: you have to be sure not to have d    168     // NOTE: you have to be sure not to have duplication of names in your
165     //       Geometry Setup.                      169     //       Geometry Setup.
166     //                                         << 170     // 
167     // fParser.SetAddPointerToName(false);     << 171     // parser.SetAddPointerToName(false);
168     //                                            172     //
169     // or                                         173     // or
170     //                                            174     //
171     // fParser.Write(fWriteFile, fWorldPhysVol    175     // fParser.Write(fWriteFile, fWorldPhysVol, false);
172                                                << 176     
173     // OPTION: SET MAXIMUM LEVEL TO EXPORT (RE << 
174     //                                         << 
175     // Can be a integer greater than zero:     << 
176     //                                         << 
177     // G4int maxlevel=3;                       << 
178     // fParser.SetMaxExportLevel(maxlevel);    << 
179                                                << 
180     // Writing Geometry to GDML File              177     // Writing Geometry to GDML File
181     //                                            178     //
182     fParser.Write(fWriteFile, fWorldPhysVol);     179     fParser.Write(fWriteFile, fWorldPhysVol);
183                                                << 180      
184     // OPTION: SPECIFYING THE SCHEMA LOCATION     181     // OPTION: SPECIFYING THE SCHEMA LOCATION
185     //                                            182     //
186     // When writing GDML file the default the     183     // When writing GDML file the default the Schema Location from the
187     // GDML web site will be used:                184     // GDML web site will be used:
188     // "http://cern.ch/service-spi/app/release << 185     // "http://cern.ch/service-spi/app/releases/GDML/GDML_2_10_0/src/GDMLSchema/gdml.xsd"
189     //                                            186     //
190     // NOTE: GDML Schema is distributed in Gea    187     // NOTE: GDML Schema is distributed in Geant4 in the directory:
191     //    $G4INSTALL/source/persistency/gdml/s    188     //    $G4INSTALL/source/persistency/gdml/schema
192     //                                            189     //
193     // You can change the Schema path by addin    190     // You can change the Schema path by adding a parameter to the Write
194     // command, as follows:                       191     // command, as follows:
195     //                                            192     //
196     // fParser.Write(fWriteFile, fWorldPhysVol    193     // fParser.Write(fWriteFile, fWorldPhysVol, "your-path-to-schema/gdml.xsd");
197   }                                               194   }
198   else  // Demonstration how to Read STEP file << 195   else   // Demonstration how to Read STEP files using GDML 
199   {                                               196   {
200     // Some printout...                        << 197      // Some printout...
201     //                                         << 198      //
202     ListOfMaterials();                         << 199      ListOfMaterials();
203                                                << 200 
204     // Arbitrary values that should enclose an << 201      // Arbitrary values that should enclose any reasonable geometry
205     //                                         << 202      //
206     const G4double expHall_y = fExpHall_x / 50 << 203      const G4double expHall_y = fExpHall_x/50.;
207     const G4double expHall_z = fExpHall_x / 50 << 204      const G4double expHall_z = fExpHall_x/50.;
208                                                << 205 
209     // Create the hall                         << 206      // Create the hall
210     //                                         << 207      //
211     G4Box* experimentalHallBox = new G4Box("Ex << 208      G4Box * experimentalHallBox
212     G4LogicalVolume* experimentalHallLV =      << 209        = new G4Box("ExpHallBox",fExpHall_x/50.,expHall_y,expHall_z);
213       new G4LogicalVolume(experimentalHallBox, << 210      G4LogicalVolume * experimentalHallLV
214     fWorldPhysVol = new G4PVPlacement(0, G4Thr << 211        = new G4LogicalVolume(experimentalHallBox, fAir,"ExpHallLV");
215                                       "ExpHall << 212      fWorldPhysVol
216                                                << 213        = new G4PVPlacement(0, G4ThreeVector(0.0,0.0,0.0),
217     // G02DetectorConstruction via reading STE << 214                            experimentalHallLV, "ExpHallPhys", 0, false, 0);
218     //                                         << 215 
219     G4LogicalVolume* LogicalVolST = fParser.Pa << 216      // G02DetectorConstruction via reading STEP File
220                                                << 217      //
221     // Placement inside of the hall            << 218      G4LogicalVolume* LogicalVolST
222     //                                         << 219        = fParser.ParseST(fStepFile,fAir,fAluminum);
223     new G4PVPlacement(0, G4ThreeVector(10.0, 0 << 220 
224                       experimentalHallLV, fals << 221      // Placement inside of the hall
                                                   >> 222      //
                                                   >> 223      new G4PVPlacement(0, G4ThreeVector(10.0,0.0,0.0), LogicalVolST,
                                                   >> 224                        "StepPhys", experimentalHallLV, false, 0);
225   }                                               225   }
226                                                   226 
227   // Set Visualization attributes to world        227   // Set Visualization attributes to world
228   //                                              228   //
229   G4VisAttributes* BoxVisAtt = new G4VisAttrib << 229   G4VisAttributes* BoxVisAtt= new G4VisAttributes(G4Colour(1.0,1.0,1.0));
230   fWorldPhysVol->GetLogicalVolume()->SetVisAtt << 230   fWorldPhysVol->GetLogicalVolume()->SetVisAttributes(BoxVisAtt);  
231                                                   231 
232   return fWorldPhysVol;                           232   return fWorldPhysVol;
233 }                                                 233 }
234                                                   234 
235 //....oooOO0OOooo........oooOO0OOooo........oo    235 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
236 //                                                236 //
237 // Utility to build and list necessary materia    237 // Utility to build and list necessary materials
238 //                                                238 //
239 void G02DetectorConstruction::ListOfMaterials(    239 void G02DetectorConstruction::ListOfMaterials()
240 {                                                 240 {
241   G4double a;  // atomic mass                     241   G4double a;  // atomic mass
242   G4double z;  // atomic number                   242   G4double z;  // atomic number
243   G4double density, temperature, pressure;     << 243   G4double density,temperature,pressure;
244   G4double fractionmass;                          244   G4double fractionmass;
245   G4String name, symbol;                          245   G4String name, symbol;
246   G4int ncomponents;                              246   G4int ncomponents;
247                                                   247 
248   // Elements needed for the materials            248   // Elements needed for the materials
249                                                   249 
250   a = 14.01 * g / mole;                        << 250   a = 14.01*g/mole;
251   G4Element* elN = new G4Element(name = "Nitro << 251   G4Element* elN = new G4Element(name="Nitrogen", symbol="N", z=7., a);
252                                                << 
253   a = 16.00 * g / mole;                        << 
254   G4Element* elO = new G4Element(name = "Oxyge << 
255                                                << 
256   a = 26.98 * g / mole;                        << 
257   G4Element* elAl = new G4Element(name = "Alum << 
258                                                   252 
                                                   >> 253   a = 16.00*g/mole;
                                                   >> 254   G4Element* elO = new G4Element(name="Oxygen", symbol="O", z=8., a);
                                                   >> 255           
                                                   >> 256   a = 26.98*g/mole;
                                                   >> 257   G4Element* elAl = new G4Element(name="Aluminum", symbol="Al", z=13., a);
                                                   >> 258         
259   // Print the Element information                259   // Print the Element information
260   //                                              260   //
261   G4cout << *(G4Element::GetElementTable()) <<    261   G4cout << *(G4Element::GetElementTable()) << G4endl;
262                                                   262 
263   // Air                                          263   // Air
264   //                                              264   //
265   density = 1.29 * mg / cm3;                   << 265   density = 1.29*mg/cm3;
266   fAir = new G4Material(name = "Air", density, << 266   fAir = new G4Material(name="Air", density, ncomponents=2);
267   fAir->AddElement(elN, fractionmass = 0.7);   << 267   fAir->AddElement(elN, fractionmass=0.7);
268   fAir->AddElement(elO, fractionmass = 0.3);   << 268   fAir->AddElement(elO, fractionmass=0.3);
269                                                   269 
270   // Aluminum                                     270   // Aluminum
271   //                                              271   //
272   density = 2.70 * g / cm3;                    << 272   density = 2.70*g/cm3;
273   fAluminum = new G4Material(name = "Aluminum" << 273   fAluminum = new G4Material(name="Aluminum", density, ncomponents=1);
274   fAluminum->AddElement(elAl, fractionmass = 1 << 274   fAluminum->AddElement(elAl, fractionmass=1.0);
275                                                   275 
276   // Lead                                         276   // Lead
277   //                                              277   //
278   fPb = new G4Material("Lead", z = 82., a = 20 << 278   fPb = new G4Material("Lead", z=82., a= 207.19*g/mole, density= 11.35*g/cm3);
279                                                   279 
280   // Xenon gas                                    280   // Xenon gas
281   //                                              281   //
282   fXenon = new G4Material("XenonGas", z = 54., << 282   fXenon = new G4Material("XenonGas", z=54., a=131.29*g/mole,
283                           kStateGas, temperatu << 283                          density= 5.458*mg/cm3, kStateGas,
                                                   >> 284                          temperature= 293.15*kelvin, pressure= 1*atmosphere);
284                                                   285 
285   // Prints the material information              286   // Prints the material information
286   //                                              287   //
287   G4cout << *(G4Material::GetMaterialTable())  << 288   G4cout << *(G4Material::GetMaterialTable() ) << G4endl;
288 }                                                 289 }
289                                                   290 
290 //....oooOO0OOooo........oooOO0OOooo........oo    291 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
291 //                                                292 //
292 // Detector Construction                          293 // Detector Construction
293 //                                                294 //
294 // Detector consist from DetectorBox, Conrol R    295 // Detector consist from DetectorBox, Conrol Room and 4 SubDetectors
295 // SubDetectors1 and 2 show how to use Reflect    296 // SubDetectors1 and 2 show how to use Reflection Factory and Assembly
296 // SubDetectors 3 and 4 show how to use Parame    297 // SubDetectors 3 and 4 show how to use Parameterisation
297 //                                                298 //
298 G4VPhysicalVolume* G02DetectorConstruction::Co    299 G4VPhysicalVolume* G02DetectorConstruction::ConstructDetector()
299 {                                                 300 {
300   // Arbitary values that should enclose any r    301   // Arbitary values that should enclose any reasonable geometry
301   //                                              302   //
302   const G4double expHall_y = fExpHall_x;          303   const G4double expHall_y = fExpHall_x;
303   const G4double expHall_z = fExpHall_x;          304   const G4double expHall_z = fExpHall_x;
304                                                   305 
305   // Create the hall                              306   // Create the hall
306   //                                              307   //
307   G4Box* experimentalHallBox = new G4Box("ExpH << 308   G4Box * experimentalHallBox =
308   G4LogicalVolume* experimentalHallLV = new G4 << 309       new G4Box("ExpHallBox", fExpHall_x, expHall_y, expHall_z);
309   G4PVPlacement* experimentalHallPhys = new G4 << 310   G4LogicalVolume * experimentalHallLV =
310     0, G4ThreeVector(0.0, 0.0, 0.0), experimen << 311       new G4LogicalVolume(experimentalHallBox, fAir, "ExpHallLV");
                                                   >> 312   G4PVPlacement * experimentalHallPhys =
                                                   >> 313       new G4PVPlacement(0, G4ThreeVector(0.0,0.0,0.0), experimentalHallLV,
                                                   >> 314                         "ExpHallPhys", 0, false, 0);
311                                                   315 
312   // G02DetectorConstruction                      316   // G02DetectorConstruction
313                                                   317 
314   const G4double det_x = fExpHall_x * 0.8;     << 318   const G4double det_x = fExpHall_x*0.8;
315   const G4double det_y = fExpHall_x * 0.7;     << 319   const G4double det_y = fExpHall_x*0.7;
316   const G4double det_z = det_y;                   320   const G4double det_z = det_y;
317                                                   321 
318   // Create the detector box                      322   // Create the detector box
319   //                                              323   //
320   G4Box* detectorBox = new G4Box("detectorBox" << 324   G4Box * detectorBox =
321   G4LogicalVolume* detectorLV = new G4LogicalV << 325       new G4Box("detectorBox", det_x, det_y, det_z);
322   // G4PVPlacement * detectorPhys =            << 326   G4LogicalVolume * detectorLV =
323   new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, << 327       new G4LogicalVolume(detectorBox, fAir, "detLV");
324                     false, 0);                 << 328   // G4PVPlacement * detectorPhys = 
                                                   >> 329       new G4PVPlacement(0, G4ThreeVector(0.0,0.0,0.0), detectorLV,
                                                   >> 330                         "detPhys", experimentalHallLV, false, 0);
325                                                   331 
326   // Create the Control room box                  332   // Create the Control room box
327   //                                              333   //
328   const G4double room_x = fExpHall_x / 20.;    << 334   const G4double room_x = fExpHall_x/20.;
329   const G4double room_y = room_x;                 335   const G4double room_y = room_x;
330   const G4double room_z = room_x;                 336   const G4double room_z = room_x;
331                                                   337 
332   G4Box* roomBox = new G4Box("roomBox", room_x << 338   G4Box * roomBox =
333   G4LogicalVolume* roomLV = new G4LogicalVolum << 339       new G4Box("roomBox", room_x, room_y, room_z);
                                                   >> 340   G4LogicalVolume * roomLV =
                                                   >> 341       new G4LogicalVolume(roomBox, fAir, "roomLV");
334   // G4PVPlacement * roomPhys =                   342   // G4PVPlacement * roomPhys =
335   new G4PVPlacement(0, G4ThreeVector(fExpHall_ << 343       new G4PVPlacement(0, G4ThreeVector(fExpHall_x-room_x-10.,0.0,0.0), roomLV,
336                     experimentalHallLV, false, << 344                         "roomPhys", experimentalHallLV, false, 0);
337                                                << 345   
338   // SubDetector1                                 346   // SubDetector1
339   //                                              347   //
340   const G4double bigL = fExpHall_x / 5. + 50.; << 348   const G4double bigL=fExpHall_x/5.+50.;
341   G4LogicalVolume* subDetectorLV1 = ConstructS    349   G4LogicalVolume* subDetectorLV1 = ConstructSubDetector1();
342   // G4PVPlacement * detPhys1 =                   350   // G4PVPlacement * detPhys1 =
343   new G4PVPlacement(0, G4ThreeVector(bigL, 0.0 << 351       new G4PVPlacement(0, G4ThreeVector(bigL,0.0,0.0), subDetectorLV1,
344                     detectorLV, false, 0);     << 352                         "PhysSubDetector1", detectorLV, false, 0); 
345                                                << 353         
346   //                                              354   //
347   // LOOK HERE FOR REFLECTIONS                    355   // LOOK HERE FOR REFLECTIONS
348   //                                           << 356   //   
349                                                   357 
350   // SubDetector2                                 358   // SubDetector2
351   //                                           << 359   //     
352   G4Translate3D translation(-bigL, 0., 0.);       360   G4Translate3D translation(-bigL, 0., 0.);
353   G4RotationMatrix* rotD3 = new G4RotationMatr    361   G4RotationMatrix* rotD3 = new G4RotationMatrix();
354   G4Transform3D rotation = G4Rotate3D(*rotD3);    362   G4Transform3D rotation = G4Rotate3D(*rotD3);
355   G4ReflectX3D reflection;                     << 363   G4ReflectX3D  reflection;
356   G4Transform3D transform = translation * rota << 364   G4Transform3D transform = translation*rotation*reflection;
357                                                   365 
358   // Place the reflected part using G4Reflecti    366   // Place the reflected part using G4ReflectionFactory
359   //                                              367   //
360   G4ReflectionFactory::Instance()->Place(trans << 368   G4ReflectionFactory::Instance()->Place(transform, "reflSubDetector",
361                                          false << 369                                          subDetectorLV1, detectorLV, false, 0);
362                                                   370 
363   // SubDetector3                                 371   // SubDetector3
364   //                                              372   //
365   G4LogicalVolume* subDetectorLV3 = ConstructS    373   G4LogicalVolume* subDetectorLV3 = ConstructSubDetector2();
366   // G4PVPlacement * detPhys3 =                   374   // G4PVPlacement * detPhys3 =
367   new G4PVPlacement(0, G4ThreeVector(0.0, bigL << 375       new G4PVPlacement(0, G4ThreeVector(0.0,bigL,0.0), subDetectorLV3,
368                     detectorLV, false, 0);     << 376                         "PhysSubDetectorFirst3", detectorLV, false, 0); 
369                                                << 377          
370   // SubDetector4, placement of parameterised     378   // SubDetector4, placement of parameterised chambers
371   //                                              379   //
372   G4LogicalVolume* subDetectorLV4 = ConstructS    380   G4LogicalVolume* subDetectorLV4 = ConstructSubDetector2();
373   G4LogicalVolume* subChamberLV = ConstructPar << 381   G4LogicalVolume* subChamberLV   = ConstructParametrisationChamber();
374   // G4PVPlacement * detChamb =                   382   // G4PVPlacement * detChamb =
375   new G4PVPlacement(0, G4ThreeVector(0, 0.0, 0 << 383       new G4PVPlacement(0, G4ThreeVector(0,0.0,0.0), subChamberLV,
376                     false, 0);                 << 384                         "AssemblyPhys", subDetectorLV4, false, 0);
377   // G4PVPlacement * detPhys4 =                   385   // G4PVPlacement * detPhys4 =
378   new G4PVPlacement(0, G4ThreeVector(0.0, -big << 386       new G4PVPlacement(0, G4ThreeVector(0.0,-bigL,0.0), subDetectorLV4,
379                     detectorLV, false, 0);     << 387                         "PhysSubDetectorSecond3", detectorLV, false, 0);
380                                                   388 
381   return experimentalHallPhys;                    389   return experimentalHallPhys;
382 }                                                 390 }
383                                                   391 
384 //....oooOO0OOooo........oooOO0OOooo........oo    392 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
385 //                                                393 //
386 // SubDetector1                                   394 // SubDetector1
387 //                                                395 //
388 G4LogicalVolume* G02DetectorConstruction::Cons    396 G4LogicalVolume* G02DetectorConstruction::ConstructSubDetector1()
389 {                                              << 397 {    
390   const G4double sub_x = fExpHall_x / 5.;      << 398   const G4double sub_x = fExpHall_x/5.;
391   const G4double sub_y = sub_x;                   399   const G4double sub_y = sub_x;
392                                                   400 
393   // Create the hall                              401   // Create the hall
394   //                                              402   //
395   G4Tubs* subTub = new G4Tubs("subTub", 0., su << 403   G4Tubs * subTub =
396   G4LogicalVolume* subTubLV = new G4LogicalVol << 404     new G4Tubs("subTub", 0., sub_x, sub_y, -90.*deg, 180*deg);
397   G4LogicalVolume* AssemblyLV = ConstructAssem << 405   G4LogicalVolume * subTubLV =
                                                   >> 406     new G4LogicalVolume(subTub, fPb, "tubLV");
                                                   >> 407   G4LogicalVolume *AssemblyLV = ConstructAssembly();
398   // G4PVPlacement * detAss =                     408   // G4PVPlacement * detAss =
399   new G4PVPlacement(0, G4ThreeVector(sub_x / 3 << 409     new G4PVPlacement(0, G4ThreeVector(sub_x/3,0.0,0.0), AssemblyLV,
400                     false, 0);                 << 410                       "AssemblyPhys", subTubLV, false, 0);
401   return subTubLV;                             << 411   return subTubLV;  
402 }                                              << 412 }  
403                                                   413 
404 //....oooOO0OOooo........oooOO0OOooo........oo    414 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
405 //                                                415 //
406 // SubDetector2                                   416 // SubDetector2
407 //                                                417 //
408 G4LogicalVolume* G02DetectorConstruction::Cons    418 G4LogicalVolume* G02DetectorConstruction::ConstructSubDetector2()
409 {                                              << 419 {    
410   const G4double sub_x = fExpHall_x / 10.;     << 420   const G4double sub_x = fExpHall_x/10.;
411   const G4double sub_y = sub_x * 2.;           << 421   const G4double sub_y = sub_x*2.;
412   const G4double sub_z = sub_x;                   422   const G4double sub_z = sub_x;
413                                                   423 
414   // Create the hall                              424   // Create the hall
415   //                                              425   //
416   G4Box* detHallBox = new G4Box("detHallBox",  << 426   G4Box * detHallBox =
417   G4LogicalVolume* detHallLV = new G4LogicalVo << 427     new G4Box("detHallBox", sub_x, sub_y, sub_z);
                                                   >> 428   G4LogicalVolume * detHallLV =
                                                   >> 429     new G4LogicalVolume(detHallBox, fAluminum, "detHallLV");
418                                                   430 
419   return detHallLV;                            << 431   return detHallLV;  
420 }                                              << 432 } 
421                                                   433 
422 //....oooOO0OOooo........oooOO0OOooo........oo    434 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
423 //                                                435 //
424 // Assembly                                       436 // Assembly
425 //                                                437 //
426 G4LogicalVolume* G02DetectorConstruction::Cons    438 G4LogicalVolume* G02DetectorConstruction::ConstructAssembly()
427 {                                              << 439 {    
428   const G4double big_x = fExpHall_x / 17;      << 440   const G4double big_x = fExpHall_x/17;
429   const G4double big_y = big_x;                   441   const G4double big_y = big_x;
430   const G4double big_z = big_x;                   442   const G4double big_z = big_x;
431                                                   443 
432   // Create the Box                               444   // Create the Box
433   //                                              445   //
434   G4Box* OuterBox = new G4Box("OuterBox", big_ << 446   G4Box * OuterBox =
435   G4LogicalVolume* OuterBoxLV = new G4LogicalV << 447     new G4Box("OuterBox", big_x, big_y, big_z);
436   // G4PVPlacement * OuterBoxPhys =            << 448   G4LogicalVolume * OuterBoxLV =
437   new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, << 449     new G4LogicalVolume(OuterBox, fAir, "OuterBoxLV");
                                                   >> 450   // G4PVPlacement * OuterBoxPhys = 
                                                   >> 451     new G4PVPlacement(0, G4ThreeVector(0.0,0.0,0.0), OuterBoxLV,
                                                   >> 452                       "OuterBoxPhys", 0, false, 0);
438                                                   453 
439   // The aluminum object's logical volume         454   // The aluminum object's logical volume
440   //                                              455   //
441   const G4double bigL = big_x / 2.5;           << 456   const G4double bigL=big_x/2.5;
442   const G4double medL = big_x / 8;             << 457   const G4double medL=big_x/8;
443   const G4double smalL = big_x / 12;           << 458   const G4double smalL=big_x/12;
444                                                << 459 
445   G4Box* BigBox = new G4Box("BBox", bigL, bigL << 460   G4Box * BigBox =
446   G4LogicalVolume* BigBoxLV = new G4LogicalVol << 461     new G4Box("BBox", bigL, bigL, bigL);
447   G4Box* MedBox = new G4Box("MBox", medL, medL << 462   G4LogicalVolume * BigBoxLV =
448   G4LogicalVolume* MedBoxLV1 = new G4LogicalVo << 463     new G4LogicalVolume(BigBox, fAluminum, "AlBigBoxLV");
449   G4Box* SmallBox = new G4Box("SBox", smalL, s << 464   G4Box * MedBox =
450   G4LogicalVolume* SmallBoxLV = new G4LogicalV << 465     new G4Box("MBox", medL, medL, medL);
451                                                << 466   G4LogicalVolume * MedBoxLV1 =
452   const G4double bigPlace = bigL + 10.;        << 467     new G4LogicalVolume(MedBox, fAluminum, "AlMedBoxLV1");
453   const G4double medPlace = medL + 10.;        << 468   G4Box * SmallBox =
454   // G4PVPlacement * BigBoxPhys =              << 469     new G4Box("SBox", smalL, smalL, smalL);
455   new G4PVPlacement(0, G4ThreeVector(bigPlace, << 470   G4LogicalVolume * SmallBoxLV =
456                     0);                        << 471     new G4LogicalVolume(SmallBox, fAluminum, "AlSmaBoxLV");
                                                   >> 472 
                                                   >> 473   const G4double bigPlace=bigL+10.;
                                                   >> 474   const G4double medPlace=medL+10.;
                                                   >> 475   // G4PVPlacement * BigBoxPhys = 
                                                   >> 476     new G4PVPlacement(0, G4ThreeVector(bigPlace,0.0,0.0), BigBoxLV,
                                                   >> 477                       "AlPhysBig", OuterBoxLV, false, 0); 
457                                                   478 
458   // Construction of Tub                       << 479   // Construction of Tub 
459   //                                              480   //
460   G4Tubs* BigTube = new G4Tubs("BTube", 0, sma << 481   G4Tubs * BigTube =
                                                   >> 482     new G4Tubs("BTube",0,smalL,smalL,-pi/2.,pi);
461                                                   483 
462   // Construction of Reflection of Tub            484   // Construction of Reflection of Tub
463   //                                              485   //
464   G4ReflectX3D Xreflection;                    << 486   G4ReflectX3D  Xreflection;
465   G4Translate3D translation(-bigPlace, 0., 0.)    487   G4Translate3D translation(-bigPlace, 0., 0.);
466   G4Transform3D transform = Xreflection;       << 488   G4Transform3D transform =Xreflection;
467                                                   489 
468   G4ReflectedSolid* ReflBig = new G4ReflectedS << 490   G4ReflectedSolid * ReflBig =
469   G4LogicalVolume* ReflBigLV = new G4LogicalVo << 491     new G4ReflectedSolid("Refll_Big", BigTube, transform);
470   new G4PVPlacement(0, G4ThreeVector(0., 0.0,  << 492   G4LogicalVolume * ReflBigLV =
471                     0);                        << 493     new G4LogicalVolume(ReflBig, fXenon, "ReflBigAl");
                                                   >> 494    new G4PVPlacement(0, G4ThreeVector(0.,0.0,0.0), ReflBigLV,
                                                   >> 495                       "AlPhysBigTube", SmallBoxLV, false, 0); 
472   //                                              496   //
473   // LOOK HERE FOR ASSEMBLY                    << 497   // LOOK HERE FOR ASSEMBLY 
474   //                                              498   //
475                                                   499 
476   // create Assembly of Boxes and Tubs            500   // create Assembly of Boxes and Tubs
477   //                                              501   //
478   G4AssemblyVolume* assembly = new G4AssemblyV    502   G4AssemblyVolume* assembly = new G4AssemblyVolume();
479   G4RotationMatrix* rot = new G4RotationMatrix    503   G4RotationMatrix* rot = new G4RotationMatrix();
480   G4ThreeVector posBig(-bigPlace, 0, 0);          504   G4ThreeVector posBig(-bigPlace, 0, 0);
481   G4ThreeVector posBig0(bigPlace / 4, 0, 0);   << 505   G4ThreeVector posBig0(bigPlace/4, 0, 0);
482   G4ThreeVector posMed(-medPlace, 0, 0);          506   G4ThreeVector posMed(-medPlace, 0, 0);
483   G4ThreeVector posMed0(medPlace, 0, 0);          507   G4ThreeVector posMed0(medPlace, 0, 0);
484   G4ThreeVector position(0., 0., 0.);             508   G4ThreeVector position(0., 0., 0.);
485                                                   509 
486   // Add to Assembly the MediumBox1               510   // Add to Assembly the MediumBox1
487   //                                              511   //
488   assembly->AddPlacedVolume(MedBoxLV1, posMed0    512   assembly->AddPlacedVolume(MedBoxLV1, posMed0, rot);
489                                                   513 
490   // Add to Assembly the Small Box                514   // Add to Assembly the Small Box
491   //                                              515   //
492   assembly->AddPlacedVolume(SmallBoxLV, posMed    516   assembly->AddPlacedVolume(SmallBoxLV, posMed, rot);
493                                                << 517   
494   // Place the Assembly                           518   // Place the Assembly
495   //                                              519   //
496   assembly->MakeImprint(BigBoxLV, posBig0, rot    520   assembly->MakeImprint(BigBoxLV, posBig0, rot, 0);
497                                                   521 
498   //                                              522   //
499   // LOOK HERE FOR ASSEMBLY with REFLECTION    << 523   // LOOK HERE FOR ASSEMBLY with REFLECTION 
500   //                                           << 524   //   
501                                                   525 
502   G4Translate3D translation1(-bigPlace, 0., 0.    526   G4Translate3D translation1(-bigPlace, 0., 0.);
503   G4RotationMatrix* rotD3 = new G4RotationMatr    527   G4RotationMatrix* rotD3 = new G4RotationMatrix();
504   G4Transform3D rotation = G4Rotate3D(*rotD3);    528   G4Transform3D rotation = G4Rotate3D(*rotD3);
505   G4ReflectX3D reflection;                     << 529   G4ReflectX3D  reflection;
506   G4Transform3D transform1 = translation1 * ro << 530   G4Transform3D transform1 = translation1*rotation*reflection;
507                                                   531 
508   assembly->MakeImprint(OuterBoxLV, transform1    532   assembly->MakeImprint(OuterBoxLV, transform1, 0, 0);
509                                                   533 
510   return OuterBoxLV;                           << 534   return OuterBoxLV;  
511 }                                                 535 }
512                                                   536 
513 //....oooOO0OOooo........oooOO0OOooo........oo    537 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
514 //                                                538 //
515 // Parameterised Chamber                          539 // Parameterised Chamber
516 //                                                540 //
517 G4LogicalVolume* G02DetectorConstruction::Cons    541 G4LogicalVolume* G02DetectorConstruction::ConstructParametrisationChamber()
518 {                                              << 542 {    
519   const G4double chamber_x = fExpHall_x / 12.; << 543   const G4double chamber_x = fExpHall_x/12.;
520   const G4double chamber_y = chamber_x;           544   const G4double chamber_y = chamber_x;
521   const G4double chamber_z = chamber_x;           545   const G4double chamber_z = chamber_x;
522                                                   546 
523   // Create the hall                              547   // Create the hall
524   //                                              548   //
525   G4Box* paramChamberBox = new G4Box("ChamberB << 549   G4Box * paramChamberBox =
526   G4LogicalVolume* paramChamberLV = new G4Logi << 550     new G4Box("ChamberBox", chamber_x, chamber_y, chamber_z);
                                                   >> 551   G4LogicalVolume * paramChamberLV =
                                                   >> 552     new G4LogicalVolume(paramChamberBox, fAir, "ChamberLV");
527                                                   553 
528   // Parametrisation Chamber (taken from N02 n    554   // Parametrisation Chamber (taken from N02 novice example)
529   //                                              555   //
530   G4int NbOfChambers = 5;                         556   G4int NbOfChambers = 5;
531   G4double ChamberWidth = 2 * cm;              << 557   G4double ChamberWidth = 2*cm;
532   G4double ChamberSpacing = 8 * cm;            << 558   G4double ChamberSpacing = 8*cm;
533   G4double fTrackerLength = (NbOfChambers + 1) << 559   G4double fTrackerLength = (NbOfChambers+1)*ChamberSpacing; // Full length
534   G4double trackerSize = 0.5 * fTrackerLength; << 560   G4double trackerSize = 0.5*fTrackerLength;
535                                                   561 
536   // An example of parameterised volume           562   // An example of parameterised volume
537   // dummy values for G4Box -- modified by par    563   // dummy values for G4Box -- modified by parameterised volume
538   //                                              564   //
539   G4Box* solidChamber = new G4Box("chamber", 1 << 565   G4Box *solidChamber =
540   G4LogicalVolume* logicChamber = new G4Logica << 566     new G4Box("chamber", 10*cm, 10*cm, 1*cm); 
541                                                << 567   G4LogicalVolume* logicChamber =
542   G4double firstPosition = -trackerSize + 0.5  << 568     new G4LogicalVolume(solidChamber, fAluminum, "Chamber", 0, 0, 0);
543   G4double firstLength = fTrackerLength / 10;  << 569     
544   G4double lastLength = fTrackerLength;        << 570   G4double firstPosition = -trackerSize + 0.5*ChamberWidth;
                                                   >> 571   G4double firstLength = fTrackerLength/10;
                                                   >> 572   G4double lastLength  = fTrackerLength;
545                                                   573 
546   G4VPVParameterisation* chamberParam =           574   G4VPVParameterisation* chamberParam =
547     new G02ChamberParameterisation(NbOfChamber << 575     new G02ChamberParameterisation( NbOfChambers,          // NoChambers 
548                                    firstPositi << 576                                  firstPosition,         // Z of center of first 
549                                    ChamberSpac << 577                                  ChamberSpacing,        // Z spacing of centers
550                                    ChamberWidt << 578                                  ChamberWidth,          // Width Chamber 
551                                    firstLength << 579                                  firstLength,           // lengthInitial 
552                                    lastLength) << 580                                  lastLength);           // lengthFinal
553   // G4VPhysicalVolume* physiChamber =         << 581   // G4VPhysicalVolume* physiChamber = 
554   new G4PVParameterised("Chamber",  // their n << 582     new G4PVParameterised( "Chamber",          // their name
555                         logicChamber,  // thei << 583                            logicChamber,       // their logical volume
556                         paramChamberLV,  // mo << 584                            paramChamberLV,     // mother logical volume      
557                         kZAxis,  // Are placed << 585                            kZAxis,             // Are placed along this axis 
558                         NbOfChambers,  // Numb << 586                            NbOfChambers,       // Number of chambers
559                         chamberParam);  // The << 587                            chamberParam);      // The parametrisation
560   return paramChamberLV;                          588   return paramChamberLV;
561 }                                              << 589 } 
562                                                   590 
563 //....oooOO0OOooo........oooOO0OOooo........oo    591 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
564 //                                                592 //
565 // SetReadFile                                    593 // SetReadFile
566 //                                                594 //
567 void G02DetectorConstruction::SetReadFile(cons << 595 void G02DetectorConstruction::SetReadFile( const G4String& File )
568 {                                                 596 {
569   fReadFile = File;                            << 597   fReadFile=File;
570   fWritingChoice = 0;                          << 598   fWritingChoice=0;
571 }                                                 599 }
572                                                   600 
573 //....oooOO0OOooo........oooOO0OOooo........oo    601 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
574 //                                                602 //
575 // SetWriteFile                                   603 // SetWriteFile
576 //                                                604 //
577 void G02DetectorConstruction::SetWriteFile(con << 605 void G02DetectorConstruction::SetWriteFile( const G4String& File )
578 {                                                 606 {
579   fWriteFile = File;                           << 607   fWriteFile=File;
580   fWritingChoice = 1;                          << 608   fWritingChoice=1;
581 }                                                 609 }
582                                                   610 
583 //....oooOO0OOooo........oooOO0OOooo........oo    611 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
584 //                                                612 //
585 // SetStepFile                                    613 // SetStepFile
586 //                                                614 //
587 void G02DetectorConstruction::SetStepFile(cons << 615 void G02DetectorConstruction::SetStepFile( const G4String& File )
588 {                                                 616 {
589   fStepFile = File;                            << 617   fStepFile=File;
590   fWritingChoice = 3;                          << 618   fWritingChoice=3;
591 }                                                 619 }
592                                                   620