#include <G4PhysicsLinearVector.hh>
Inheritance diagram for G4PhysicsLinearVector:
Public Member Functions | |
G4PhysicsLinearVector () | |
G4PhysicsLinearVector (size_t theNbin) | |
G4PhysicsLinearVector (G4double theEmin, G4double theEmax, size_t theNbin) | |
virtual | ~G4PhysicsLinearVector () |
G4bool | Retrieve (std::ifstream &fIn, G4bool ascii) |
virtual void | ScaleVector (G4double factorE, G4double factorV) |
Protected Member Functions | |
virtual size_t | FindBinLocation (G4double theEnergy) const |
Definition at line 59 of file G4PhysicsLinearVector.hh.
G4PhysicsLinearVector::G4PhysicsLinearVector | ( | ) |
Definition at line 42 of file G4PhysicsLinearVector.cc.
References T_G4PhysicsLinearVector, and G4PhysicsVector::type.
00043 : G4PhysicsVector() 00044 { 00045 type = T_G4PhysicsLinearVector; 00046 }
G4PhysicsLinearVector::G4PhysicsLinearVector | ( | size_t | theNbin | ) | [explicit] |
Definition at line 48 of file G4PhysicsLinearVector.cc.
References G4PhysicsVector::binVector, G4PhysicsVector::dataVector, G4PhysicsVector::numberOfNodes, T_G4PhysicsLinearVector, and G4PhysicsVector::type.
00049 : G4PhysicsVector() 00050 { 00051 type = T_G4PhysicsLinearVector; 00052 00053 numberOfNodes = theNbin + 1; 00054 dataVector.reserve(numberOfNodes); 00055 binVector.reserve(numberOfNodes); 00056 00057 for (size_t i=0; i<numberOfNodes; i++) 00058 { 00059 binVector.push_back(0.0); 00060 dataVector.push_back(0.0); 00061 } 00062 }
Definition at line 64 of file G4PhysicsLinearVector.cc.
References G4PhysicsVector::baseBin, G4PhysicsVector::binVector, G4PhysicsVector::dataVector, G4PhysicsVector::dBin, G4PhysicsVector::edgeMax, G4PhysicsVector::edgeMin, G4PhysicsVector::numberOfNodes, T_G4PhysicsLinearVector, and G4PhysicsVector::type.
00066 : G4PhysicsVector() 00067 { 00068 type = T_G4PhysicsLinearVector; 00069 00070 dBin = (theEmax-theEmin)/theNbin; 00071 baseBin = theEmin/dBin; 00072 00073 numberOfNodes = theNbin + 1; 00074 dataVector.reserve(numberOfNodes); 00075 binVector.reserve(numberOfNodes); 00076 00077 binVector.push_back(theEmin); 00078 dataVector.push_back(0.0); 00079 00080 for (size_t i=1; i<numberOfNodes-1; i++) 00081 { 00082 binVector.push_back( theEmin + i*dBin ); 00083 dataVector.push_back(0.0); 00084 } 00085 binVector.push_back(theEmax); 00086 dataVector.push_back(0.0); 00087 00088 edgeMin = binVector[0]; 00089 edgeMax = binVector[numberOfNodes-1]; 00090 00091 }
G4PhysicsLinearVector::~G4PhysicsLinearVector | ( | ) | [virtual] |
size_t G4PhysicsLinearVector::FindBinLocation | ( | G4double | theEnergy | ) | const [protected, virtual] |
Implements G4PhysicsVector.
Definition at line 116 of file G4PhysicsLinearVector.cc.
References G4PhysicsVector::baseBin, and G4PhysicsVector::dBin.
00117 { 00118 // For G4PhysicsLinearVector, FindBinLocation is implemented using 00119 // a simple arithmetic calculation. 00120 // 00121 // Because this is a virtual function, it is accessed through a 00122 // pointer to the G4PhyiscsVector object for most usages. In this 00123 // case, 'inline' will not be invoked. However, there is a possibility 00124 // that the user access to the G4PhysicsLinearVector object directly and 00125 // not through pointers or references. In this case, the 'inline' will 00126 // be invoked. (See R.B.Murray, "C++ Strategies and Tactics", Chap.6.6) 00127 00128 return size_t( theEnergy/dBin - baseBin ); 00129 }
Reimplemented from G4PhysicsVector.
Definition at line 95 of file G4PhysicsLinearVector.cc.
References G4PhysicsVector::baseBin, G4PhysicsVector::binVector, G4PhysicsVector::dBin, and G4PhysicsVector::Retrieve().
00096 { 00097 G4bool success = G4PhysicsVector::Retrieve(fIn, ascii); 00098 if (success) 00099 { 00100 G4double theEmin = binVector[0]; 00101 dBin = binVector[1]-theEmin; 00102 baseBin = theEmin/dBin; 00103 } 00104 return success; 00105 }
Reimplemented from G4PhysicsVector.
Definition at line 107 of file G4PhysicsLinearVector.cc.
References G4PhysicsVector::baseBin, G4PhysicsVector::binVector, G4PhysicsVector::dBin, and G4PhysicsVector::ScaleVector().
00108 { 00109 G4PhysicsVector::ScaleVector(factorE, factorV); 00110 G4double theEmin = binVector[0]; 00111 dBin = binVector[1]-theEmin; 00112 baseBin = theEmin/dBin; 00113 }