Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4LinLogLogInterpolation.cc
Go to the documentation of this file.
1//
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25//
26//
27// Author: Vladimir Ivanchenko ([email protected])
28//
29// History:
30// -----------
31// 29 May 2002 VI Created
32//
33// -------------------------------------------------------------------
34
36
37// Constructor
38
40{ }
41
42// Destructor
43
45{ }
46
48{ return new G4LinLogLogInterpolation; }
49
50
52 const G4DataVector& points,
53 const G4DataVector& data) const
54{
55 //G4cout << "G4LinLogLogInterpolation is performed (2 arguments) " << G4endl;
56 G4int nBins = data.size() - 1;
57 G4double value = 0.;
58 if (x < points[0])
59 {
60 value = 0.;
61 }
62 else if (bin < nBins)
63 {
64 G4double e1 = points[bin];
65 G4double e2 = points[bin+1];
66 G4double d1 = data[bin];
67 G4double d2 = data[bin+1];
68 if(d1 > 0.0 && d2 > 0.0) {
69 value = (std::log10(d1)*std::log10(e2/x) + std::log10(d2)*std::log10(x/e1)) / std::log10(e2/e1);
70 value = std::pow(10.,value);
71 } else {
72 value = (d1*std::log10(e2/x) + d2*std::log10(x/e1)) / std::log10(e2/e1);
73 }
74 }
75 else
76 {
77 value = data[nBins];
78 }
79
80 return value;
81}
82
84 const G4DataVector& points,
85 const G4DataVector& data,
86 const G4DataVector& log_points,
87 const G4DataVector& log_data) const
88{
89 //G4cout << "G4LinLogLogInterpolation is performed(4 arguments) " << G4endl;
90 G4int nBins = data.size() - 1;
91 G4double value = 0.;
92 G4double log_x = std::log10(x);
93 if (x < points[0])
94 {
95 value = 0.;
96 }
97 else if (bin < nBins)
98 {
99 G4double e1 = points[bin];
100 G4double e2 = points[bin+1];
101 G4double d1 = data[bin];
102 G4double d2 = data[bin+1];
103 G4double log_e1 = log_points[bin];
104 G4double log_e2 = log_points[bin+1];
105 G4double log_d1 = log_data[bin];
106 G4double log_d2 = log_data[bin+1];
107 //G4cout << "x = " << x << " , log_x = " << log_x << " , bin = " << bin << G4endl;
108 //G4cout << "e1 = " << e1 << " , d1 = " << d1 << G4endl;
109 //G4cout << "e2 = " << e2 << " , d2 = " << d2 << G4endl;
110 //G4cout << "log_e1 = " << log_e1 << " , log_d1 = " << log_d1 << G4endl;
111 //G4cout << "log_e2 = " << log_e2 << " , log_d2 = " << log_d2 <<G4endl;
112 if (d1 > 0.0 && d2 > 0.0)
113 {
114 // Values e1, e2, d1 and d2 are the log values of the corresponding
115 // original energy and data values. Simple linear interpolation performed
116 // on loagarithmic data should be equivalent to log-log interpolation
117 value = log_d1 + (log_d2 - log_d1)*(log_x - log_e1)/(log_e2 - log_e1);
118
119 //G4cout << "Case of normal log-log interpolation" << G4endl;
120 //G4cout << "Temp log interpolated value: log_value = " << value << G4endl;
121
122 // Delogarithmize to obtain interpolated value
123 value = std::pow(10.,value);
124
125 //G4cout << "Final Interpolated value: " << value << G4endl << G4endl;
126 }
127 else
128 {
129 // Case of semi log-log interpolation
130 //G4cout << "G4LinLogLogInterpolation - Case of SemiLogInterpolation" << G4endl;
131 if (e1 == 0.0) e1 = 1e-300;
132 if (e2 == 0.0) e2 = 1e-300;
133 value = d1 + (d2 - d1)*(log_x - log_e1)/(log_e2 - log_e1);
134 //G4cout << "LinLogInterpolation: Final Interpolated value: " << value << G4endl << G4endl;
135 }
136 }
137 else
138 {
139 value = data[nBins];
140 }
141 return value;
142}
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
virtual G4VDataSetAlgorithm * Clone() const
G4double Calculate(G4double point, G4int bin, const G4DataVector &energies, const G4DataVector &data) const