41
42{
47 G4double alphaBeta = 0.0, alphaReduced = 0.0, betaReduced = 0.0, root1 = 0.0,
48 root2 = 0.0, root3 = 0.0;
49 G4double a = 0.0, b = 0.0, c = 0.0, newton1 = 0.0, newton2 = 0.0,
50 newton3 = 0.0, newton0 = 0.0, temp = 0.0, rootTemp = 0.0;
51
55
56 for(i = 1; i <= nJacobi; ++i)
57 {
58 if(i == 1)
59 {
60 alphaReduced =
alpha / nJacobi;
61 betaReduced = beta / nJacobi;
62 root1 = (1.0 +
alpha) * (2.78002 / (4.0 + nJacobi * nJacobi) +
63 0.767999 * alphaReduced / nJacobi);
64 root2 = 1.0 + 1.48 * alphaReduced + 0.96002 * betaReduced +
65 0.451998 * alphaReduced * alphaReduced +
66 0.83001 * alphaReduced * betaReduced;
67 root = 1.0 - root1 / root2;
68 }
69 else if(i == 2)
70 {
71 root1 = (4.1002 +
alpha) / ((1.0 + alpha) * (1.0 + 0.155998 *
alpha));
72 root2 = 1.0 + 0.06 * (nJacobi - 8.0) * (1.0 + 0.12 * alpha) / nJacobi;
73 root3 =
74 1.0 + 0.012002 * beta * (1.0 + 0.24997 * std::fabs(alpha)) / nJacobi;
75 root -= (1.0 - root) * root1 * root2 * root3;
76 }
77 else if(i == 3)
78 {
79 root1 = (1.67001 + 0.27998 *
alpha) / (1.0 + 0.37002 * alpha);
80 root2 = 1.0 + 0.22 * (nJacobi - 8.0) / nJacobi;
81 root3 = 1.0 + 8.0 * beta / ((6.28001 + beta) * nJacobi * nJacobi);
82 root -= (
fAbscissa[0] - root) * root1 * root2 * root3;
83 }
84 else if(i == nJacobi - 1)
85 {
86 root1 = (1.0 + 0.235002 * beta) / (0.766001 + 0.118998 * beta);
87 root2 = 1.0 / (1.0 + 0.639002 * (nJacobi - 4.0) /
88 (1.0 + 0.71001 * (nJacobi - 4.0)));
89 root3 = 1.0 / (1.0 + 20.0 *
alpha / ((7.5 +
alpha) * nJacobi * nJacobi));
90 root += (root -
fAbscissa[nJacobi - 4]) * root1 * root2 * root3;
91 }
92 else if(i == nJacobi)
93 {
94 root1 = (1.0 + 0.37002 * beta) / (1.67001 + 0.27998 * beta);
95 root2 = 1.0 / (1.0 + 0.22 * (nJacobi - 8.0) / nJacobi);
96 root3 =
97 1.0 / (1.0 + 8.0 *
alpha / ((6.28002 +
alpha) * nJacobi * nJacobi));
98 root += (root -
fAbscissa[nJacobi - 3]) * root1 * root2 * root3;
99 }
100 else
101 {
103 }
104 alphaBeta =
alpha + beta;
105 for(k = 1; k <= maxNumber; ++k)
106 {
107 temp = 2.0 + alphaBeta;
108 newton1 = (
alpha - beta + temp * root) / 2.0;
109 newton2 = 1.0;
110 for(
G4int j = 2; j <= nJacobi; ++j)
111 {
112 newton3 = newton2;
113 newton2 = newton1;
114 temp = 2 * j + alphaBeta;
115 a = 2 * j * (j + alphaBeta) * (temp - 2.0);
116 b = (temp - 1.0) *
117 (alpha * alpha - beta * beta + temp * (temp - 2.0) * root);
118 c = 2.0 * (j - 1 +
alpha) * (j - 1 + beta) * temp;
119 newton1 = (b * newton2 - c * newton3) / a;
120 }
121 newton0 = (nJacobi * (
alpha - beta - temp * root) * newton1 +
122 2.0 * (nJacobi + alpha) * (nJacobi + beta) * newton2) /
123 (temp * (1.0 - root * root));
124 rootTemp = root;
125 root = rootTemp - newton1 / newton0;
126 if(std::fabs(root - rootTemp) <= tolerance)
127 {
128 break;
129 }
130 }
131 if(k > maxNumber)
132 {
133 G4Exception(
"G4GaussJacobiQ::G4GaussJacobiQ()",
"OutOfRange",
135 }
142 temp * std::pow(2.0, alphaBeta) / (newton0 * newton2);
143 }
144}
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
G4double GammaLogarithm(G4double xx)