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Geant4/examples/extended/medical/dna/wholeNuclearDNA/src/DetectorConstruction.cc

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Differences between /examples/extended/medical/dna/wholeNuclearDNA/src/DetectorConstruction.cc (Version 11.3.0) and /examples/extended/medical/dna/wholeNuclearDNA/src/DetectorConstruction.cc (Version 10.6)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
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  8 // * LICENSE and available at  http://cern.ch/      8 // * LICENSE and available at  http://cern.ch/geant4/license .  These *
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 11 // * Neither the authors of this software syst     11 // * Neither the authors of this software system, nor their employing *
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 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
 16 // * for the full disclaimer and the limitatio     16 // * for the full disclaimer and the limitation of liability.         *
 17 // *                                               17 // *                                                                  *
 18 // * This  code  implementation is the result      18 // * This  code  implementation is the result of  the  scientific and *
 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
 20 // * By using,  copying,  modifying or  distri     20 // * By using,  copying,  modifying or  distributing the software (or *
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 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 // This example is provided by the Geant4-DNA      26 // This example is provided by the Geant4-DNA collaboration
 27 // Any report or published results obtained us <<  27 // Any report or published results obtained using the Geant4-DNA software 
 28 // and the DNA geometry given in the Geom_DNA  <<  28 // and the DNA geometry given in the Geom_DNA example 
 29 // shall cite the following Geant4-DNA collabo     29 // shall cite the following Geant4-DNA collaboration publications:
 30 // [1] NIM B 298 (2013) 47-54                      30 // [1] NIM B 298 (2013) 47-54
 31 // [2] Med. Phys. 37 (2010) 4692-4708              31 // [2] Med. Phys. 37 (2010) 4692-4708
 32 // The Geant4-DNA web site is available at htt     32 // The Geant4-DNA web site is available at http://geant4-dna.org
 33 //                                                 33 //
 34 /// \file DetectorConstruction.cc                  34 /// \file DetectorConstruction.cc
 35 /// \brief Implementation of the DetectorConst     35 /// \brief Implementation of the DetectorConstruction class
 36                                                    36 
 37 #include "DetectorConstruction.hh"                 37 #include "DetectorConstruction.hh"
 38                                                    38 
 39 // Geant4                                          39 // Geant4
                                                   >>  40 #include "globals.hh"
 40 #include "CLHEP/Units/SystemOfUnits.h"             41 #include "CLHEP/Units/SystemOfUnits.h"
 41 #include "ChromosomeParameterisation.hh"       << 
 42                                                << 
 43 #include "G4Box.hh"                            << 
 44 #include "G4Ellipsoid.hh"                      << 
 45 #include "G4LogicalVolume.hh"                      42 #include "G4LogicalVolume.hh"
 46 #include "G4NistManager.hh"                    <<  43 #include "G4UnionSolid.hh"
                                                   >>  44 #include "G4Box.hh"
 47 #include "G4Orb.hh"                                45 #include "G4Orb.hh"
                                                   >>  46 #include "G4Tubs.hh"
                                                   >>  47 #include "G4Ellipsoid.hh"
 48 #include "G4PVParameterised.hh"                    48 #include "G4PVParameterised.hh"
 49 #include "G4PVPlacement.hh"                        49 #include "G4PVPlacement.hh"
 50 #include "G4RotationMatrix.hh"                     50 #include "G4RotationMatrix.hh"
 51 #include "G4Tubs.hh"                           << 
 52 #include "G4UnionSolid.hh"                     << 
 53 #include "G4VisAttributes.hh"                      51 #include "G4VisAttributes.hh"
 54 #include "globals.hh"                          <<  52 #include "G4NistManager.hh"
                                                   >>  53 #include "ChromosomeParameterisation.hh"
 55                                                    54 
 56 #define countof(x) (sizeof(x) / sizeof(x[0]))      55 #define countof(x) (sizeof(x) / sizeof(x[0]))
 57                                                    56 
 58 using namespace std;                               57 using namespace std;
 59 using CLHEP::degree;                           << 
 60 using CLHEP::micrometer;                       << 
 61 using CLHEP::mm;                                   58 using CLHEP::mm;
                                                   >>  59 using CLHEP::degree;
 62 using CLHEP::nanometer;                            60 using CLHEP::nanometer;
                                                   >>  61 using CLHEP::micrometer;
 63                                                    62 
 64 static G4VisAttributes visInvBlue(false, G4Col     63 static G4VisAttributes visInvBlue(false, G4Colour(0.0, 0.0, 1.0));
 65 static G4VisAttributes visInvWhite(false, G4Co     64 static G4VisAttributes visInvWhite(false, G4Colour(1.0, 1.0, 1.0));
 66 static G4VisAttributes visInvPink(false, G4Col     65 static G4VisAttributes visInvPink(false, G4Colour(1.0, 0.0, 1.0));
 67 static G4VisAttributes visInvCyan(false, G4Col     66 static G4VisAttributes visInvCyan(false, G4Colour(0.0, 1.0, 1.0));
 68 static G4VisAttributes visInvRed(false, G4Colo     67 static G4VisAttributes visInvRed(false, G4Colour(1.0, 0.0, 0.0));
 69 static G4VisAttributes visInvGreen(false, G4Co     68 static G4VisAttributes visInvGreen(false, G4Colour(0.0, 1.0, 0.0));
 70 static G4VisAttributes visBlue(true, G4Colour(     69 static G4VisAttributes visBlue(true, G4Colour(0.0, 0.0, 1.0));
 71 static G4VisAttributes visWhite(true, G4Colour     70 static G4VisAttributes visWhite(true, G4Colour(1.0, 1.0, 1.0));
 72 static G4VisAttributes visPink(true, G4Colour(     71 static G4VisAttributes visPink(true, G4Colour(1.0, 0.0, 1.0));
 73 static G4VisAttributes visCyan(true, G4Colour(     72 static G4VisAttributes visCyan(true, G4Colour(0.0, 1.0, 1.0));
 74 static G4VisAttributes visRed(true, G4Colour(1     73 static G4VisAttributes visRed(true, G4Colour(1.0, 0.0, 0.0));
 75 static G4VisAttributes visGreen(true, G4Colour     74 static G4VisAttributes visGreen(true, G4Colour(0.0, 1.0, 0.0));
 76                                                    75 
                                                   >>  76 
 77 //....oooOO0OOooo........oooOO0OOooo........oo     77 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 78                                                    78 
 79 DetectorConstruction::DetectorConstruction()   <<  79 DetectorConstruction::DetectorConstruction() :
 80   : G4VUserDetectorConstruction(), fBuildChrom <<  80     G4VUserDetectorConstruction(),
 81 {}                                             <<  81     fBuildChromatineFiber(true),
                                                   >>  82     fBuildBases(false)
                                                   >>  83 {
                                                   >>  84 }
 82                                                    85 
 83 //....oooOO0OOooo........oooOO0OOooo........oo     86 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 84                                                    87 
 85 DetectorConstruction::~DetectorConstruction()  <<  88 DetectorConstruction::~DetectorConstruction()
                                                   >>  89 {
                                                   >>  90 }
 86                                                    91 
 87 //....oooOO0OOooo........oooOO0OOooo........oo     92 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 88                                                    93 
 89 G4VPhysicalVolume* DetectorConstruction::Const     94 G4VPhysicalVolume* DetectorConstruction::Construct()
 90 {                                                  95 {
 91   DefineMaterials();                               96   DefineMaterials();
 92   return ConstructDetector();                      97   return ConstructDetector();
 93 }                                                  98 }
 94                                                    99 
 95 //....oooOO0OOooo........oooOO0OOooo........oo    100 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 96                                                   101 
 97 void DetectorConstruction::DefineMaterials()      102 void DetectorConstruction::DefineMaterials()
 98 {                                                 103 {
 99   // Water is defined from NIST material datab    104   // Water is defined from NIST material database
100   G4NistManager* man = G4NistManager::Instance << 105   G4NistManager *man = G4NistManager::Instance();
101   man->FindOrBuildMaterial("G4_WATER");           106   man->FindOrBuildMaterial("G4_WATER");
102 }                                                 107 }
103                                                   108 
104 //....oooOO0OOooo........oooOO0OOooo........oo    109 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
105                                                   110 
106 void DetectorConstruction::LoadChromosome(cons << 111 void DetectorConstruction::LoadChromosome(const char* filename,
                                                   >> 112                                           G4VPhysicalVolume* chromBox,
107                                           G4Lo    113                                           G4LogicalVolume* logicBoxros)
108 {                                                 114 {
109   ChromosomeParameterisation* cp = new Chromos    115   ChromosomeParameterisation* cp = new ChromosomeParameterisation(filename);
110   new G4PVParameterised("box ros", logicBoxros << 116   new G4PVParameterised("box ros",
                                                   >> 117                         logicBoxros,
                                                   >> 118                         chromBox,
                                                   >> 119                         kUndefined,
                                                   >> 120                         cp->GetNumRosettes(),
                                                   >> 121                         cp);
111                                                   122 
112   G4cout << filename << " done" << G4endl;        123   G4cout << filename << " done" << G4endl;
113 }                                                 124 }
114                                                   125 
115 //....oooOO0OOooo........oooOO0OOooo........oo    126 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
116                                                   127 
117 G4VPhysicalVolume* DetectorConstruction::Const    128 G4VPhysicalVolume* DetectorConstruction::ConstructDetector()
118 {                                                 129 {
119   if (fBuildBases == false && fBuildChromatine << 130   if(fBuildBases == false && fBuildChromatineFiber == false)
120     G4cout << "=============================== << 131   {
121     G4cout << "WARNING from DetectorConstructi << 132    G4cout <<"======================================================" << G4endl;
122     G4cout << "As long as the flags fBuildBase << 133    G4cout <<"WARNING from DetectorConstruction::ConstructDetector:" << G4endl;
123               "false, the output root file wil << 134    G4cout << "As long as the flags fBuildBases and fBuildChromatineFiber are "
124            << G4endl;                          << 135        "false, the output root file will be empty" << G4endl;
125     G4cout << "This is intended for fast compu << 136    G4cout << "This is intended for fast computation, display, testing ..."
126     G4cout << "=============================== << 137           << G4endl;
                                                   >> 138    G4cout <<"======================================================" << G4endl;
127   }                                               139   }
128                                                   140 
129   G4String name;                                  141   G4String name;
130                                                   142 
131   /*******************************************    143   /***************************************************************************/
132   //                               World          144   //                               World
133   /*******************************************    145   /***************************************************************************/
134                                                   146 
135   DefineMaterials();                              147   DefineMaterials();
136   G4Material* waterMaterial = G4Material::GetM    148   G4Material* waterMaterial = G4Material::GetMaterial("G4_WATER");
137                                                   149 
138   G4Box* solidWorld = new G4Box("world", 10.0     150   G4Box* solidWorld = new G4Box("world", 10.0 * mm, 10.0 * mm, 10.0 * mm);
139   G4LogicalVolume* logicWorld = new G4LogicalV << 151   G4LogicalVolume* logicWorld = new G4LogicalVolume(solidWorld,
140   G4PVPlacement* physiWorld =                  << 152                                                     waterMaterial,
141     new G4PVPlacement(0, G4ThreeVector(), "wor << 153                                                     "world");
                                                   >> 154   G4PVPlacement* physiWorld = new G4PVPlacement(0,
                                                   >> 155                                                 G4ThreeVector(),
                                                   >> 156                                                 "world",
                                                   >> 157                                                 logicWorld,
                                                   >> 158                                                 0,
                                                   >> 159                                                 false,
                                                   >> 160                                                 0);
142   logicWorld->SetVisAttributes(&visInvWhite);     161   logicWorld->SetVisAttributes(&visInvWhite);
143                                                   162 
144   /*******************************************    163   /****************************************************************************/
145   //                             Box nucleus      164   //                             Box nucleus
146   /*******************************************    165   /****************************************************************************/
147                                                   166 
148   G4Box* solidTin = new G4Box("tin", 13 * micr << 167   G4Box* solidTin = new G4Box("tin",
149   G4LogicalVolume* logicTin = new G4LogicalVol << 168                               13 * micrometer,
150   G4VPhysicalVolume* physiTin =                << 169                               10 * micrometer,
151     new G4PVPlacement(0, G4ThreeVector(), "tin << 170                               5 * micrometer);
                                                   >> 171   G4LogicalVolume* logicTin = new G4LogicalVolume(solidTin,
                                                   >> 172                                                   waterMaterial,
                                                   >> 173                                                   "tin");
                                                   >> 174   G4VPhysicalVolume* physiTin = new G4PVPlacement(0,
                                                   >> 175                                                   G4ThreeVector(),
                                                   >> 176                                                   "tin",
                                                   >> 177                                                   logicTin,
                                                   >> 178                                                   physiWorld,
                                                   >> 179                                                   false,
                                                   >> 180                                                   0);
152   logicTin->SetVisAttributes(&visInvWhite);       181   logicTin->SetVisAttributes(&visInvWhite);
153                                                   182 
154   /*******************************************    183   /****************************************************************************/
155   //                            Cell nucleus      184   //                            Cell nucleus
156   /*******************************************    185   /****************************************************************************/
157                                                   186 
158   G4Ellipsoid* solidNucleus =                  << 187   G4Ellipsoid* solidNucleus = new G4Ellipsoid("nucleus",
159     new G4Ellipsoid("nucleus", 11.82 * microme << 188                                               11.82 * micrometer,
160   G4LogicalVolume* logicNucleus = new G4Logica << 189                                               8.52 * micrometer,
161   G4VPhysicalVolume* physiNucleus =            << 190                                               3 * micrometer,
162     new G4PVPlacement(0, G4ThreeVector(), "phy << 191                                               0,
                                                   >> 192                                               0);
                                                   >> 193   G4LogicalVolume* logicNucleus = new G4LogicalVolume(solidNucleus,
                                                   >> 194                                                       waterMaterial,
                                                   >> 195                                                       "logic nucleus");
                                                   >> 196   G4VPhysicalVolume* physiNucleus = new G4PVPlacement(0,
                                                   >> 197                                    G4ThreeVector(),
                                                   >> 198                                    "physi nucleus",
                                                   >> 199                                    logicNucleus,
                                                   >> 200                                    physiTin,
                                                   >> 201                                    false,
                                                   >> 202                                    0);
163   logicNucleus->SetVisAttributes(&visPink);       203   logicNucleus->SetVisAttributes(&visPink);
164                                                   204 
165   /*******************************************    205   /****************************************************************************/
166   //                        Chromosomes territ    206   //                        Chromosomes territories
167   /*******************************************    207   /****************************************************************************/
168   // NOTE: The only supported values for the r    208   // NOTE: The only supported values for the rotation are
169   // 0 and 90 degrees on the Y axis.              209   // 0 and 90 degrees on the Y axis.
170   G4double chromosomePositionSizeRotation[][7]    210   G4double chromosomePositionSizeRotation[][7] = {
171     {4.467, 2.835, 0, 1.557, 1.557, 1.557, 90} << 211       {4.467, 2.835, 0, 1.557, 1.557, 1.557, 90},
172     {-4.467, 2.835, 0, 1.557, 1.557, 1.557, 0} << 212       {-4.467, 2.835, 0, 1.557, 1.557, 1.557, 0},
173     {4.423, -2.831, 0, 1.553, 1.553, 1.553, 90 << 213       {4.423, -2.831, 0, 1.553, 1.553, 1.553, 90},
174     {-4.423, -2.831, 0, 1.553, 1.553, 1.553, 0 << 214       {-4.423, -2.831, 0, 1.553, 1.553, 1.553, 0},
175     {1.455, 5.63, 0, 1.455, 1.455, 1.455, 0},  << 215       {1.455, 5.63, 0, 1.455, 1.455, 1.455, 0},
176     {-1.455, 5.63, 0, 1.455, 1.455, 1.455, 90} << 216       {-1.455, 5.63, 0, 1.455, 1.455, 1.455, 90},
177     {1.435, 0, 1.392, 1.435, 1.435, 1.435, 0}, << 217       {1.435, 0, 1.392, 1.435, 1.435, 1.435, 0},
178     {-1.435, 0, 1.392, 1.435, 1.435, 1.435, 90 << 218       {-1.435, 0, 1.392, 1.435, 1.435, 1.435, 90},
179     {1.407, 0, -1.450, 1.407, 1.407, 1.407, 90 << 219       {1.407, 0, -1.450, 1.407, 1.407, 1.407, 90}, // 5 right
180     {-1.407, 0, -1.450, 1.407, 1.407, 1.407, 0 << 220       {-1.407, 0, -1.450, 1.407, 1.407, 1.407, 0}, // 5 left
181     {1.380, -5.437, 0, 1.380, 1.380, 1.380, 0} << 221       {1.380, -5.437, 0, 1.380, 1.380, 1.380, 0},
182     {-1.380, -5.437, 0, 1.380, 1.380, 1.380, 9 << 222       {-1.380, -5.437, 0, 1.380, 1.380, 1.380, 90},
183     {1.347, 2.782, -1.150, 1.347, 1.347, 1.347 << 223       {1.347, 2.782, -1.150, 1.347, 1.347, 1.347, 90},
184     {-1.347, 2.782, -1.150, 1.347, 1.347, 1.34 << 224       {-1.347, 2.782, -1.150, 1.347, 1.347, 1.347, 0},
185     {1.311, -2.746, -1.220, 1.311, 1.311, 1.31 << 225       {1.311, -2.746, -1.220, 1.311, 1.311, 1.311, 90},
186     {-1.311, -2.746, -1.220, 1.311, 1.311, 1.3 << 226       {-1.311, -2.746, -1.220, 1.311, 1.311, 1.311, 0},
187     {7.251, -2.541, 0, 1.275, 1.275, 1.275, 0} << 227       {7.251, -2.541, 0, 1.275, 1.275, 1.275, 0},
188     {-6.701, 0, -0.85, 1.275, 1.275, 1.275, 90 << 228       {-6.701, 0, -0.85, 1.275, 1.275, 1.275, 90},
189     {4.148, 0, 1.278, 1.278, 1.278, 1.278, 90} << 229       {4.148, 0, 1.278, 1.278, 1.278, 1.278, 90}, // 10 right
190     {-4.148, 0, 1.278, 1.278, 1.278, 1.278, 0} << 230       {-4.148, 0, 1.278, 1.278, 1.278, 1.278, 0}, // 10 left
191     {4.147, 0, -1.277, 1.277, 1.277, 1.277, 0} << 231       {4.147, 0, -1.277, 1.277, 1.277, 1.277, 0},
192     {-4.147, 0, -1.277, 1.277, 1.277, 1.277, 9 << 232       {-4.147, 0, -1.277, 1.277, 1.277, 1.277, 90},
193     {8.930, 0.006, 0, 1.272, 1.272, 1.272, 90} << 233       {8.930, 0.006, 0, 1.272, 1.272, 1.272, 90},
194     {-7.296, 2.547, 0, 1.272, 1.272, 1.272, 90 << 234       {-7.296, 2.547, 0, 1.272, 1.272, 1.272, 90},
195     {1.207, -2.642, 1.298, 1.207, 1.207, 1.207 << 235       {1.207, -2.642, 1.298, 1.207, 1.207, 1.207, 0},
196     {-1.207, -2.642, 1.298, 1.207, 1.207, 1.20 << 236       {-1.207, -2.642, 1.298, 1.207, 1.207, 1.207, 90},
197     {1.176, 2.611, 1.368, 1.176, 1.176, 1.176, << 237       {1.176, 2.611, 1.368, 1.176, 1.176, 1.176, 0},
198     {-1.176, 2.611, 1.368, 1.176, 1.176, 1.176 << 238       {-1.176, 2.611, 1.368, 1.176, 1.176, 1.176, 90},
199     {4.065, 5.547, 0, 1.155, 1.155, 1.155, 90} << 239       {4.065, 5.547, 0, 1.155, 1.155, 1.155, 90}, // 15 right
200     {-4.065, 5.547, 0, 1.155, 1.155, 1.155, 0} << 240       {-4.065, 5.547, 0, 1.155, 1.155, 1.155, 0}, // 15 left
201     {6.542, 0.159, 1.116, 1.116, 1.116, 1.116, << 241       {6.542, 0.159, 1.116, 1.116, 1.116, 1.116, 0},
202     {-9.092, 0, 0, 1.116, 1.116, 1.116, 0},    << 242       {-9.092, 0, 0, 1.116, 1.116, 1.116, 0},
203     {6.507, 0.159, -1.081, 1.081, 1.081, 1.081 << 243       {6.507, 0.159, -1.081, 1.081, 1.081, 1.081, 90},
204     {-7.057, -2.356, 0, 1.081, 1.081, 1.081, 9 << 244       {-7.057, -2.356, 0, 1.081, 1.081, 1.081, 90},
205     {3.824, -5.448, 0, 1.064, 1.064, 1.064, 90 << 245       {3.824, -5.448, 0, 1.064, 1.064, 1.064, 90},
206     {-3.824, -5.448, 0, 1.064, 1.064, 1.064, 0 << 246       {-3.824, -5.448, 0, 1.064, 1.064, 1.064, 0},
207     {5.883, -5.379, 0, 0.995, 0.995, 0.995, 0} << 247       {5.883, -5.379, 0, 0.995, 0.995, 0.995, 0},
208     {-9.133, -2.111, 0, 0.995, 0.995, 0.995, 0 << 248       {-9.133, -2.111, 0, 0.995, 0.995, 0.995, 0},
209     {6.215, 5.387, 0, 0.995, 0.995, 0.995, 0}, << 249       {6.215, 5.387, 0, 0.995, 0.995, 0.995, 0}, // 20 right
210     {-6.971, -4.432, 0, 0.995, 0.995, 0.995, 9 << 250       {-6.971, -4.432, 0, 0.995, 0.995, 0.995, 90}, // 20 left
211     {9.583, 2.177, 0, 0.899, 0.899, 0.899, 90} << 251       {9.583, 2.177, 0, 0.899, 0.899, 0.899, 90},
212     {-9.467, 2.03, 0, 0.899, 0.899, 0.899, 0}, << 252       {-9.467, 2.03, 0, 0.899, 0.899, 0.899, 0},
213     {9.440, -2.180, 0, 0.914, 0.914, 0.914, 90 << 253       {9.440, -2.180, 0, 0.914, 0.914, 0.914, 90},
214     {-6.34, 0, 1.339, 0.914, 0.914, 0.914, 0}, << 254       {-6.34, 0, 1.339, 0.914, 0.914, 0.914, 0},
215     {-6.947, 4.742, 0, 0.923, 0.923, 0.923, 90 << 255       {-6.947, 4.742, 0, 0.923, 0.923, 0.923, 90}, // Y
216     {7.354, 2.605, 0, 1.330, 1.330, 1.330, 0}  << 256       {7.354, 2.605, 0, 1.330, 1.330, 1.330, 0} // X
217   };                                              257   };
218                                                   258 
219   G4RotationMatrix* rotch = new G4RotationMatr    259   G4RotationMatrix* rotch = new G4RotationMatrix;
220   rotch->rotateY(90 * degree);                    260   rotch->rotateY(90 * degree);
221                                                   261 
222   vector<G4VPhysicalVolume*> physiBox(48);        262   vector<G4VPhysicalVolume*> physiBox(48);
223                                                   263 
224   for (unsigned int i = 0; i < countof(chromos << 264   for (unsigned int i = 0; i < countof(chromosomePositionSizeRotation); i++)
                                                   >> 265   {
225     G4double* p = &chromosomePositionSizeRotat    266     G4double* p = &chromosomePositionSizeRotation[i][0];
226     G4double* size = &chromosomePositionSizeRo    267     G4double* size = &chromosomePositionSizeRotation[i][3];
227     G4double rotation = chromosomePositionSize    268     G4double rotation = chromosomePositionSizeRotation[i][6];
228     G4ThreeVector pos(p[0] * micrometer, p[1]     269     G4ThreeVector pos(p[0] * micrometer, p[1] * micrometer, p[2] * micrometer);
229     G4RotationMatrix* rot = rotation == 0 ? 0     270     G4RotationMatrix* rot = rotation == 0 ? 0 : rotch;
230                                                   271 
231     ostringstream ss;                             272     ostringstream ss;
232     ss << "box" << (i / 2) + 1 << (i % 2 ? 'l'    273     ss << "box" << (i / 2) + 1 << (i % 2 ? 'l' : 'r');
233     name = ss.str();                              274     name = ss.str();
234     ss.str("");                                   275     ss.str("");
235     ss.clear();                                   276     ss.clear();
236                                                   277 
237     /*                                            278     /*
238      snprintf(name, countof(name), "box%d%c",     279      snprintf(name, countof(name), "box%d%c",
239      (i / 2) + 1, i % 2 ? 'l' : 'r');             280      (i / 2) + 1, i % 2 ? 'l' : 'r');
240      */                                           281      */
241     G4Box* solidBox =                          << 282     G4Box* solidBox = new G4Box(name,
242       new G4Box(name, size[0] * micrometer, si << 283                                 size[0] * micrometer,
243     G4LogicalVolume* logicBox = new G4LogicalV << 284                                 size[1] * micrometer,
244     physiBox[i] = new G4PVPlacement(rot, pos,  << 285                                 size[2] * micrometer);
                                                   >> 286     G4LogicalVolume* logicBox = new G4LogicalVolume(solidBox,
                                                   >> 287                                                     waterMaterial,
                                                   >> 288                                                     name);
                                                   >> 289     physiBox[i] = new G4PVPlacement(rot,
                                                   >> 290                                     pos,
                                                   >> 291                                     "chromo",
                                                   >> 292                                     logicBox,
                                                   >> 293                                     physiNucleus,
                                                   >> 294                                     false,
                                                   >> 295                                     0);
245     logicBox->SetVisAttributes(&visBlue);         296     logicBox->SetVisAttributes(&visBlue);
246   }                                               297   }
247                                                   298 
248   /*******************************************    299   /**************************************************************************/
249   //                 Box containing the chroma    300   //                 Box containing the chromatin flowers
250   /*******************************************    301   /**************************************************************************/
251                                                   302 
252   G4Tubs* solidBoxros = new G4Tubs("solid box  << 303   G4Tubs* solidBoxros = new G4Tubs("solid box ros",
253                                    0 * degree, << 304                                    0 * nanometer,
254   G4LogicalVolume* logicBoxros = new G4Logical << 305                                    399 * nanometer,
                                                   >> 306                                    20 * nanometer,
                                                   >> 307                                    0 * degree,
                                                   >> 308                                    360 * degree);
                                                   >> 309   G4LogicalVolume* logicBoxros = new G4LogicalVolume(solidBoxros,
                                                   >> 310                                                      waterMaterial,
                                                   >> 311                                                      "box ros");
255   logicBoxros->SetVisAttributes(&visInvBlue);     312   logicBoxros->SetVisAttributes(&visInvBlue);
256                                                   313 
257   // Loading flower box position for each chro << 314   //Loading flower box position for each chromosome territory
258                                                   315 
259   for (int k = 0; k < 22; k++) {               << 316   for (int k = 0; k < 22; k++)
                                                   >> 317   {
260     ostringstream oss;                            318     ostringstream oss;
261     oss << "chromo" << k + 1 << ".dat";           319     oss << "chromo" << k + 1 << ".dat";
262     name = oss.str();                             320     name = oss.str();
263     oss.str("");                                  321     oss.str("");
264     oss.clear();                                  322     oss.clear();
265     // snprintf(name, countof(name), "chromo%d << 323     //snprintf(name, countof(name), "chromo%d.dat", k + 1);
266     LoadChromosome(name.c_str(), physiBox[k *     324     LoadChromosome(name.c_str(), physiBox[k * 2], logicBoxros);
267     LoadChromosome(name.c_str(), physiBox[k *     325     LoadChromosome(name.c_str(), physiBox[k * 2 + 1], logicBoxros);
268   }                                               326   }
269                                                   327 
270   LoadChromosome("chromoY.dat", physiBox[44],     328   LoadChromosome("chromoY.dat", physiBox[44], logicBoxros);
271   LoadChromosome("chromoX.dat", physiBox[45],     329   LoadChromosome("chromoX.dat", physiBox[45], logicBoxros);
272                                                   330 
273   /*******************************************    331   /****************************************************************************/
274   if (fBuildChromatineFiber) {                 << 332   if (fBuildChromatineFiber)
                                                   >> 333   {
275     // chromatin fiber envelope                   334     // chromatin fiber envelope
276     G4Tubs* solidEnv = new G4Tubs("chromatin f << 335     G4Tubs* solidEnv = new G4Tubs("chromatin fiber",
277                                   0 * degree,  << 336                                   0,
278     G4LogicalVolume* logicEnv = new G4LogicalV << 337                                   15.4 * nanometer,
                                                   >> 338                                   80.5 * nanometer,
                                                   >> 339                                   0 * degree,
                                                   >> 340                                   360 * degree);
                                                   >> 341     G4LogicalVolume* logicEnv = new G4LogicalVolume(solidEnv,
                                                   >> 342                                                     waterMaterial,
                                                   >> 343                                                     "LV chromatin fiber");
279     logicEnv->SetVisAttributes(&visInvPink);      344     logicEnv->SetVisAttributes(&visInvPink);
280                                                   345 
281     // Chromatin fiber position                   346     // Chromatin fiber position
282     for (G4int i = 0; i < 7; i++) {            << 347     for (G4int i = 0; i < 7; i++)
                                                   >> 348     {
283       G4RotationMatrix* rotFiber = new G4Rotat    349       G4RotationMatrix* rotFiber = new G4RotationMatrix;
284       rotFiber->rotateX(90 * degree);             350       rotFiber->rotateX(90 * degree);
285       rotFiber->rotateY(i * 25.72 * degree);      351       rotFiber->rotateY(i * 25.72 * degree);
286       G4ThreeVector posFiber = G4ThreeVector(0    352       G4ThreeVector posFiber = G4ThreeVector(0, 152 * nanometer, 0);
287       posFiber.rotateZ(i * 25.72 * degree);       353       posFiber.rotateZ(i * 25.72 * degree);
288       new G4PVPlacement(rotFiber, posFiber, lo << 354       new G4PVPlacement(rotFiber,
                                                   >> 355                         posFiber,
                                                   >> 356                         logicEnv,
                                                   >> 357                         "physi env",
                                                   >> 358                         logicBoxros,
                                                   >> 359                         false,
                                                   >> 360                         0);
289                                                   361 
290       rotFiber = new G4RotationMatrix;            362       rotFiber = new G4RotationMatrix;
291       rotFiber->rotateX(90 * degree);             363       rotFiber->rotateX(90 * degree);
292       rotFiber->rotateY((7 + i) * 25.72 * degr    364       rotFiber->rotateY((7 + i) * 25.72 * degree);
293       posFiber = G4ThreeVector(0, 152 * nanome    365       posFiber = G4ThreeVector(0, 152 * nanometer, 0);
294       posFiber.rotateZ((7 + i) * 25.72 * degre    366       posFiber.rotateZ((7 + i) * 25.72 * degree);
295       new G4PVPlacement(rotFiber, posFiber, lo << 367       new G4PVPlacement(rotFiber,
                                                   >> 368                         posFiber,
                                                   >> 369                         logicEnv,
                                                   >> 370                         "physi env",
                                                   >> 371                         logicBoxros,
                                                   >> 372                         false,
                                                   >> 373                         0);
296                                                   374 
297       rotFiber = new G4RotationMatrix;            375       rotFiber = new G4RotationMatrix;
298       rotFiber->rotateX(90 * degree);             376       rotFiber->rotateX(90 * degree);
299       rotFiber->rotateY((25.72 + (i - 14) * 51    377       rotFiber->rotateY((25.72 + (i - 14) * 51.43) * degree);
300       posFiber = G4ThreeVector(-36.5 * nanomet    378       posFiber = G4ThreeVector(-36.5 * nanometer, 312 * nanometer, 0);
301       posFiber.rotateZ((i - 14) * 51.43 * degr    379       posFiber.rotateZ((i - 14) * 51.43 * degree);
302       new G4PVPlacement(rotFiber, posFiber, lo << 380       new G4PVPlacement(rotFiber,
                                                   >> 381                         posFiber,
                                                   >> 382                         logicEnv,
                                                   >> 383                         "physi env",
                                                   >> 384                         logicBoxros,
                                                   >> 385                         false,
                                                   >> 386                         0);
303                                                   387 
304       rotFiber = new G4RotationMatrix;            388       rotFiber = new G4RotationMatrix;
305       rotFiber->rotateX(90 * degree);             389       rotFiber->rotateX(90 * degree);
306       rotFiber->rotateY(180 * degree);            390       rotFiber->rotateY(180 * degree);
307       rotFiber->rotateY((i - 21) * 51.43 * deg    391       rotFiber->rotateY((i - 21) * 51.43 * degree);
308       posFiber = G4ThreeVector(-103 * nanomete    392       posFiber = G4ThreeVector(-103 * nanometer, 297 * nanometer, 0);
309       posFiber.rotateZ((i - 21) * 51.43 * degr    393       posFiber.rotateZ((i - 21) * 51.43 * degree);
310       new G4PVPlacement(rotFiber, posFiber, lo << 394       new G4PVPlacement(rotFiber,
                                                   >> 395                         posFiber,
                                                   >> 396                         logicEnv,
                                                   >> 397                         "physi env",
                                                   >> 398                         logicBoxros,
                                                   >> 399                         false,
                                                   >> 400                         0);
                                                   >> 401 
311     }                                             402     }
312                                                   403 
313     if (fBuildBases) {                         << 404     if (fBuildBases)
                                                   >> 405     {
314       // Histones                                 406       // Histones
315       G4Tubs* solidHistone = new G4Tubs("solid << 407       G4Tubs* solidHistone = new G4Tubs("solid histone",
316                                         0 * de << 408                                         0,
317       G4LogicalVolume* logicHistone =          << 409                                         3.25 * nanometer,
318         new G4LogicalVolume(solidHistone, wate << 410                                         2.85 * nanometer,
                                                   >> 411                                         0 * degree,
                                                   >> 412                                         360 * degree);
                                                   >> 413       G4LogicalVolume* logicHistone = new G4LogicalVolume(solidHistone,
                                                   >> 414                                                           waterMaterial,
                                                   >> 415                                                           "logic histone");
319                                                   416 
320       // Base pair                             << 417       //Base pair
321       G4Orb* solidBp1 = new G4Orb("blue sphere    418       G4Orb* solidBp1 = new G4Orb("blue sphere", 0.17 * nanometer);
322       G4LogicalVolume* logicBp1 = new G4Logica << 419       G4LogicalVolume* logicBp1 = new G4LogicalVolume(solidBp1,
                                                   >> 420                                                       waterMaterial,
                                                   >> 421                                                       "logic blue sphere");
323       G4Orb* solidBp2 = new G4Orb("pink sphere    422       G4Orb* solidBp2 = new G4Orb("pink sphere", 0.17 * nanometer);
324       G4LogicalVolume* logicBp2 = new G4Logica << 423       G4LogicalVolume* logicBp2 = new G4LogicalVolume(solidBp2,
                                                   >> 424                                                       waterMaterial,
                                                   >> 425                                                       "logic pink sphere");
325                                                   426 
326       // Phosphodiester group                  << 427       //Phosphodiester group
327                                                   428 
328       G4Orb* solidSugar_48em1_nm = new G4Orb("    429       G4Orb* solidSugar_48em1_nm = new G4Orb("sugar", 0.48 * nanometer);
329                                                   430 
330       G4ThreeVector posi(0.180248 * nanometer, << 431       G4ThreeVector posi(0.180248 * nanometer,
331       G4UnionSolid* uniDNA =                   << 432                          0.32422 * nanometer,
332         new G4UnionSolid("move", solidSugar_48 << 433                          0.00784 * nanometer);
333                                                << 434       G4UnionSolid* uniDNA = new G4UnionSolid("move",
334       G4ThreeVector posi2(-0.128248 * nanomete << 435                                               solidSugar_48em1_nm,
335       G4UnionSolid* uniDNA2 =                  << 436                                               solidSugar_48em1_nm,
336         new G4UnionSolid("move2", solidSugar_4 << 437                                               0,
                                                   >> 438                                               posi);
                                                   >> 439 
                                                   >> 440       G4ThreeVector posi2(-0.128248 * nanometer,
                                                   >> 441                           0.41227 * nanometer,
                                                   >> 442                           0.03584 * nanometer);
                                                   >> 443       G4UnionSolid* uniDNA2 = new G4UnionSolid("move2",
                                                   >> 444                                                solidSugar_48em1_nm,
                                                   >> 445                                                solidSugar_48em1_nm,
                                                   >> 446                                                0,
                                                   >> 447                                                posi2);
337                                                   448 
338       /***************************************    449       /************************************************************************
339        Phosphodiester group Position              450        Phosphodiester group Position
340        ***************************************    451        ************************************************************************/
341                                                   452 
342       for (G4int n = 2; n < 200; n++) {        << 453       for (G4int n = 2; n < 200; n++)
343         G4double SP1[2][3] = {                 << 454       {
344           {(-0.6 * nanometer) * cos(n * 0.26), << 455       G4double SP1[2][3] = {
345           {(0.6 * nanometer) * cos(n * 0.26),  << 456           { (-0.6 * nanometer) * cos(n * 0.26),
346         G4double matriceSP1[3][3] = {          << 457             0, (0.6* nanometer) * sin(n * 0.26) },
347           {cos(n * 0.076), -sin(n * 0.076), 0} << 458           { (0.6 * nanometer) * cos(n * 0.26),
348         G4double matriceSP2[2][3];             << 459             0, (-0.6 * nanometer) * sin(0.26 * n) }
349                                                << 460       };
350         for (G4int i = 0; i < 3; i++) {        << 461       G4double matriceSP1[3][3] = {
351           G4double sumSP1 = 0;                 << 462           { cos(n * 0.076), -sin(n * 0.076), 0 },
352           G4double sumSP2 = 0;                 << 463           { sin(n * 0.076), cos(n * 0.076), 0 },
353           for (G4int j = 0; j < 3; j++) {      << 464           { 0, 0, 1 }
354             sumSP1 += matriceSP1[i][j] * SP1[0 << 465       };
355             sumSP2 += matriceSP1[i][j] * SP1[1 << 466       G4double matriceSP2[2][3];
356           }                                    << 467 
357           matriceSP2[0][i] = sumSP1;           << 468       for (G4int i = 0; i < 3; i++)
358           matriceSP2[1][i] = sumSP2;           << 469       {
                                                   >> 470         G4double sumSP1 = 0;
                                                   >> 471         G4double sumSP2 = 0;
                                                   >> 472         for (G4int j = 0; j < 3; j++)
                                                   >> 473         {
                                                   >> 474           sumSP1 += matriceSP1[i][j] * SP1[0][j];
                                                   >> 475           sumSP2 += matriceSP1[i][j] * SP1[1][j];
359         }                                         476         }
360                                                << 477         matriceSP2[0][i] = sumSP1;
361         G4double heliceSP[3] = {(4.85 * nanome << 478         matriceSP2[1][i] = sumSP2;
362                                 (4.85 * nanome << 
363                                                << 
364         for (G4int i = 0; i < 3; i++) {        << 
365           matriceSP2[0][i] += heliceSP[i];     << 
366           matriceSP2[1][i] += heliceSP[i];     << 
367         }                                      << 
368         G4ThreeVector posSugar1(matriceSP2[0][ << 
369                                 (matriceSP2[0] << 
370         G4ThreeVector posSugar2(matriceSP2[1][ << 
371                                 (matriceSP2[1] << 
372                                                << 
373         ostringstream ss;                      << 
374         ss << "sugar_" << n;                   << 
375         name = ss.str().c_str();               << 
376         ss.str("");                            << 
377         ss.clear();                            << 
378                                                << 
379         //  snprintf(name, countof(name), "sug << 
380         uniDNA = new G4UnionSolid(name, uniDNA << 
381                                                << 
382         ss << "sugar_" << n;                   << 
383         name = ss.str().c_str();               << 
384         ss.str("");                            << 
385         ss.clear();                            << 
386                                                << 
387         //  snprintf(name, countof(name), "sug << 
388         uniDNA2 = new G4UnionSolid(name, uniDN << 
389       }                                           479       }
390       G4LogicalVolume* logicSphere3 = new G4Lo << 
391       G4LogicalVolume* logicSphere4 = new G4Lo << 
392                                                   480 
393       /*************************************** << 481       G4double heliceSP[3] = {
394        Base pair Position                      << 482           (4.85 * nanometer) * cos(n * 0.076),
395        *************************************** << 483           (4.85 * nanometer) * sin(n * 0.076),
396       for (G4int n = 0; n < 200; n++) {        << 484           (n * 0.026 * nanometer)
                                                   >> 485       };
                                                   >> 486 
                                                   >> 487       for (G4int i = 0; i < 3; i++)
                                                   >> 488       {
                                                   >> 489         matriceSP2[0][i] += heliceSP[i];
                                                   >> 490         matriceSP2[1][i] += heliceSP[i];
                                                   >> 491       }
                                                   >> 492       G4ThreeVector posSugar1(matriceSP2[0][2],
                                                   >> 493                               matriceSP2[0][1],
                                                   >> 494                               (matriceSP2[0][0]) - (4.25 * nanometer));
                                                   >> 495       G4ThreeVector posSugar2(matriceSP2[1][2],
                                                   >> 496                               matriceSP2[1][1],
                                                   >> 497                               (matriceSP2[1][0]) - (5.45 * nanometer));
                                                   >> 498 
                                                   >> 499       ostringstream ss;
                                                   >> 500       ss << "sugar_" << n;
                                                   >> 501       name = ss.str().c_str();
                                                   >> 502       ss.str("");
                                                   >> 503       ss.clear();
                                                   >> 504 
                                                   >> 505       //  snprintf(name, countof(name), "sugar %d", n);
                                                   >> 506       uniDNA = new G4UnionSolid(name,
                                                   >> 507                                 uniDNA,
                                                   >> 508                                 solidSugar_48em1_nm,
                                                   >> 509                                 0,
                                                   >> 510                                 posSugar1);
                                                   >> 511 
                                                   >> 512       ss << "sugar_" << n;
                                                   >> 513       name = ss.str().c_str();
                                                   >> 514       ss.str("");
                                                   >> 515       ss.clear();
                                                   >> 516 
                                                   >> 517       //  snprintf(name, countof(name), "sugar %d", n);
                                                   >> 518       uniDNA2 = new G4UnionSolid(name,
                                                   >> 519                                  uniDNA2,
                                                   >> 520                                  solidSugar_48em1_nm,
                                                   >> 521                                  0,
                                                   >> 522                                  posSugar2);
                                                   >> 523     }
                                                   >> 524     G4LogicalVolume* logicSphere3 = new G4LogicalVolume(uniDNA,
                                                   >> 525                                                         waterMaterial,
                                                   >> 526                                                         "logic sugar 2");
                                                   >> 527     G4LogicalVolume* logicSphere4 = new G4LogicalVolume(uniDNA2,
                                                   >> 528                                                         waterMaterial,
                                                   >> 529                                                         "logic sugar 4");
                                                   >> 530 
                                                   >> 531     /**************************************************************************
                                                   >> 532      Base pair Position
                                                   >> 533      **************************************************************************/
                                                   >> 534       for (G4int n = 0; n < 200; n++)
                                                   >> 535       {
397         G4double bp1[2][3] = {                    536         G4double bp1[2][3] = {
398           {(-0.34 * nanometer) * cos(n * 0.26) << 537             { (-0.34 * nanometer) * cos(n * 0.26),
399           {(0.34 * nanometer) * cos(n * 0.26), << 538             0, (0.34* nanometer) * sin(n * 0.26) },
                                                   >> 539             { (0.34 * nanometer) * cos(n * 0.26),
                                                   >> 540             0, (-0.34 * nanometer) * sin(0.26 * n) }
                                                   >> 541         };
400         G4double matriceBP1[3][3] = {             542         G4double matriceBP1[3][3] = {
401           {cos(n * 0.076), -sin(n * 0.076), 0} << 543             { cos(n * 0.076), -sin(n * 0.076), 0 },
                                                   >> 544             {sin(n * 0.076), cos(n * 0.076), 0 },
                                                   >> 545             { 0, 0, 1 }
                                                   >> 546         };
402         G4double matriceBP2[2][3];                547         G4double matriceBP2[2][3];
403                                                   548 
404         for (G4int i = 0; i < 3; i++) {        << 549         for (G4int i = 0; i < 3; i++)
                                                   >> 550         {
405           G4double sumBP1 = 0;                    551           G4double sumBP1 = 0;
406           G4double sumBP2 = 0;                    552           G4double sumBP2 = 0;
407           for (G4int j = 0; j < 3; j++) {      << 553           for (G4int j = 0; j < 3; j++)
                                                   >> 554           {
408             sumBP1 += matriceBP1[i][j] * bp1[0    555             sumBP1 += matriceBP1[i][j] * bp1[0][j];
409             sumBP2 += matriceBP1[i][j] * bp1[1    556             sumBP2 += matriceBP1[i][j] * bp1[1][j];
410           }                                       557           }
411           matriceBP2[0][i] = sumBP1;              558           matriceBP2[0][i] = sumBP1;
412           matriceBP2[1][i] = sumBP2;              559           matriceBP2[1][i] = sumBP2;
413         }                                         560         }
414         G4double heliceBP[3] = {(4.8 * nanomet << 561         G4double heliceBP[3] = {
415                                 (4.8 * nanomet << 562             (4.8 * nanometer) * cos(n * 0.076),
                                                   >> 563             (4.8 * nanometer) * sin(n * 0.076),
                                                   >> 564             n * 0.026 * nanometer
                                                   >> 565         };
416                                                   566 
417         for (G4int i = 0; i < 3; i++) {        << 567         for (G4int i = 0; i < 3; i++)
                                                   >> 568         {
418           matriceBP2[0][i] += heliceBP[i];        569           matriceBP2[0][i] += heliceBP[i];
419           matriceBP2[1][i] += heliceBP[i];        570           matriceBP2[1][i] += heliceBP[i];
420         }                                         571         }
421         G4ThreeVector position1(matriceBP2[0][ << 572         G4ThreeVector position1(matriceBP2[0][2],
                                                   >> 573                                 matriceBP2[0][1],
422                                 matriceBP2[0][    574                                 matriceBP2[0][0] - (4.25 * nanometer));
423         G4ThreeVector position2(matriceBP2[1][ << 575         G4ThreeVector position2(matriceBP2[1][2],
                                                   >> 576                                 matriceBP2[1][1],
424                                 matriceBP2[1][    577                                 matriceBP2[1][0] - (5.45 * nanometer));
425                                                   578 
426         new G4PVPlacement(0, position1, logicB << 579         new G4PVPlacement(0,
427         new G4PVPlacement(0, position2, logicB << 580                           position1,
428       }                                        << 581                           logicBp1,
                                                   >> 582                           "physi blue sphere",
                                                   >> 583                           logicSphere3,
                                                   >> 584                           false,
                                                   >> 585                           0);
                                                   >> 586         new G4PVPlacement(0,
                                                   >> 587                           position2,
                                                   >> 588                           logicBp2,
                                                   >> 589                           "physi pink sphere",
                                                   >> 590                           logicSphere4,
                                                   >> 591                           false,
                                                   >> 592                           0);
                                                   >> 593         }
429                                                   594 
430       /*************************************** << 595   /****************************************************************************/
431       //                 Initial position of d << 596   //                 Initial position of different elements
432       /*************************************** << 597   /****************************************************************************/
433       // DNA and histone positions                598       // DNA and histone positions
434       for (int j = 0; j < 90; j++) {           << 599       for (int j = 0; j < 90; j++)
                                                   >> 600       {
435         // DNA (bp-SP)                            601         // DNA (bp-SP)
436         G4RotationMatrix* rotStrand1 = new G4R    602         G4RotationMatrix* rotStrand1 = new G4RotationMatrix;
437         rotStrand1->rotateZ(j * -51.43 * degre    603         rotStrand1->rotateZ(j * -51.43 * degree);
438         G4ThreeVector posStrand1(-2.7 * nanome << 604         G4ThreeVector posStrand1(-2.7 * nanometer,
                                                   >> 605                                  9.35 * nanometer,
439                                  (-69.9 * nano    606                                  (-69.9 * nanometer) + (j * 1.67 * nanometer));
440         posStrand1.rotateZ(j * 51.43 * degree)    607         posStrand1.rotateZ(j * 51.43 * degree);
441         new G4PVPlacement(rotStrand1, posStran << 608         new G4PVPlacement(rotStrand1,
                                                   >> 609                           posStrand1,
                                                   >> 610                           logicSphere3,
                                                   >> 611                           "physi sugar 2",
                                                   >> 612                           logicEnv,
                                                   >> 613                           false,
442                           0);                     614                           0);
443                                                   615 
444         G4RotationMatrix* rotStrand2 = new G4R    616         G4RotationMatrix* rotStrand2 = new G4RotationMatrix;
445         rotStrand2->rotateZ(j * -51.43 * degre    617         rotStrand2->rotateZ(j * -51.43 * degree);
446         G4ThreeVector posStrand2(-2.7 * nanome << 618         G4ThreeVector posStrand2(-2.7 * nanometer,
                                                   >> 619                                  9.35 * nanometer,
447                                  (-68.7 * nano    620                                  (-68.7 * nanometer) + (j * 1.67 * nanometer));
448         posStrand2.rotateZ(j * 51.43 * degree)    621         posStrand2.rotateZ(j * 51.43 * degree);
449         new G4PVPlacement(rotStrand2, posStran << 622         new G4PVPlacement(rotStrand2,
                                                   >> 623                           posStrand2,
                                                   >> 624                           logicSphere4,
                                                   >> 625                           "physi sugar 4",
                                                   >> 626                           logicEnv,
                                                   >> 627                           false,
450                           0);                     628                           0);
451                                                   629 
452         // histones                               630         // histones
453         G4RotationMatrix* rotHistone = new G4R    631         G4RotationMatrix* rotHistone = new G4RotationMatrix;
454         rotHistone->rotateY(90 * degree);         632         rotHistone->rotateY(90 * degree);
455         rotHistone->rotateX(j * (-51.43 * degr    633         rotHistone->rotateX(j * (-51.43 * degree));
456         G4ThreeVector posHistone(0.0, 9.35 * n << 634         G4ThreeVector posHistone(0.0,
                                                   >> 635                                  9.35 * nanometer,
                                                   >> 636                                  (-74.15 + j * 1.67) * nanometer);
457         posHistone.rotateZ(j * 51.43 * degree)    637         posHistone.rotateZ(j * 51.43 * degree);
458         new G4PVPlacement(rotHistone, posHisto << 638         new G4PVPlacement(rotHistone,
                                                   >> 639                           posHistone,
                                                   >> 640                           logicHistone,
                                                   >> 641                           "PV histone",
                                                   >> 642                           logicEnv,
                                                   >> 643                           false,
                                                   >> 644                           0);
459       }                                           645       }
460       /***************************************    646       /************************************************************************/
461       //                        Visualisation     647       //                        Visualisation colors
462       /***************************************    648       /************************************************************************/
463                                                   649 
464       logicBp1->SetVisAttributes(&visInvCyan);    650       logicBp1->SetVisAttributes(&visInvCyan);
465       logicBp2->SetVisAttributes(&visInvPink);    651       logicBp2->SetVisAttributes(&visInvPink);
466                                                   652 
467       logicSphere3->SetVisAttributes(&visInvWh    653       logicSphere3->SetVisAttributes(&visInvWhite);
468       logicSphere4->SetVisAttributes(&visInvRe    654       logicSphere4->SetVisAttributes(&visInvRed);
469                                                   655 
470       logicHistone->SetVisAttributes(&visInvBl    656       logicHistone->SetVisAttributes(&visInvBlue);
471     }                                             657     }
472   }                                               658   }
473                                                   659 
474   G4cout << "Geometry has been loaded" << G4en    660   G4cout << "Geometry has been loaded" << G4endl;
475   return physiWorld;                              661   return physiWorld;
476 }                                                 662 }
477                                                   663