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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** 25 // 22 // 26 // G4GaussLaguerreQ class implementation << 27 // 23 // 28 // Author: V.Grichine, 13.05.1997 << 24 // $Id: G4GaussLaguerreQ.cc,v 1.4 2001/07/11 10:00:41 gunter Exp $ 29 // ------------------------------------------- << 25 // GEANT4 tag $Name: geant4-05-02-patch-01 $ 30 << 26 // 31 #include "G4GaussLaguerreQ.hh" 27 #include "G4GaussLaguerreQ.hh" 32 28 >> 29 >> 30 33 // ------------------------------------------- 31 // ------------------------------------------------------------ 34 // 32 // 35 // Constructor for Gauss-Laguerre quadrature m 33 // Constructor for Gauss-Laguerre quadrature method: integral from zero to 36 // infinity of std::pow(x,alpha)*std::exp(-x)* << 34 // infinity of pow(x,alpha)*exp(-x)*f(x). The value of nLaguerre sets the accuracy. 37 // The value of nLaguerre sets the accuracy. << 35 // The constructor creates arrays fAbscissa[0,..,nLaguerre-1] and 38 // The constructor creates arrays fAbscissa[0, << 36 // fWeight[0,..,nLaguerre-1] . 39 // fWeight[0,..,nLaguerre-1] . << 40 // 37 // 41 38 42 G4GaussLaguerreQ::G4GaussLaguerreQ(function pF << 39 G4GaussLaguerreQ::G4GaussLaguerreQ( function pFunction, 43 G4int nLagu << 40 G4double alpha, 44 : G4VGaussianQuadrature(pFunction) << 41 G4int nLaguerre ) >> 42 : G4VGaussianQuadrature(pFunction) 45 { 43 { 46 const G4double tolerance = 1.0e-10; << 44 const G4double tolerance = 1.0e-10 ; 47 const G4int maxNumber = 12; << 45 const G4int maxNumber = 12 ; 48 G4int i = 1, k = 1; << 46 G4int i, j, k ; 49 G4double newton0 = 0.0, newton1 = 0.0, temp1 << 47 G4double newton=0.; 50 temp = 0.0, cofi = 0.0; << 48 G4double newton1, temp1, temp2, temp3, temp, cofi ; 51 << 49 52 fNumber = nLaguerre; << 50 fNumber = nLaguerre ; 53 fAbscissa = new G4double[fNumber]; << 51 fAbscissa = new G4double[fNumber] ; 54 fWeight = new G4double[fNumber]; << 52 fWeight = new G4double[fNumber] ; 55 << 53 56 for(i = 1; i <= fNumber; ++i) // Loop over << 54 for(i=1;i<=fNumber;i++) // Loop over the desired roots 57 { << 55 { 58 if(i == 1) << 56 if(i == 1) 59 { << 57 { 60 newton0 = (1.0 + alpha) * (3.0 + 0.92 * << 58 newton = (1.0 + alpha)*(3.0 + 0.92*alpha)/(1.0 + 2.4*fNumber + 1.8*alpha) ; 61 (1.0 + 2.4 * fNumber + 1.8 * a << 59 } 62 } << 60 else if(i == 2) 63 else if(i == 2) << 61 { 64 { << 62 newton += (15.0 + 6.25*alpha)/(1.0 + 0.9*alpha + 2.5*fNumber) ; 65 newton0 += (15.0 + 6.25 * alpha) / (1.0 << 63 } 66 } << 64 else 67 else << 65 { 68 { << 66 cofi = i - 2 ; 69 cofi = i - 2; << 67 newton += ((1.0+2.55*cofi)/(1.9*cofi) + 1.26*cofi*alpha/(1.0+3.5*cofi))* 70 newton0 += ((1.0 + 2.55 * cofi) / (1.9 * << 68 (newton - fAbscissa[i-3])/(1.0 + 0.3*alpha) ; 71 1.26 * cofi * alpha / (1.0 + << 69 } 72 (newton0 - fAbscissa[i - 3]) << 70 for(k=1;k<=maxNumber;k++) 73 } << 74 for(k = 1; k <= maxNumber; ++k) << 75 { << 76 temp1 = 1.0; << 77 temp2 = 0.0; << 78 for(G4int j = 1; j <= fNumber; ++j) << 79 { 71 { 80 temp3 = temp2; << 72 temp1 = 1.0 ; 81 temp2 = temp1; << 73 temp2 = 0.0 ; 82 temp1 = << 74 for(j=1;j<=fNumber;j++) 83 ((2 * j - 1 + alpha - newton0) * tem << 75 { >> 76 temp3 = temp2 ; >> 77 temp2 = temp1 ; >> 78 temp1 = ((2*j - 1 + alpha - newton)*temp2 - (j - 1 + alpha)*temp3)/j ; >> 79 } >> 80 temp = (fNumber*temp1 - (fNumber +alpha)*temp2)/newton ; >> 81 newton1 = newton ; >> 82 newton = newton1 - temp1/temp ; >> 83 if(fabs(newton - newton1) <= tolerance) >> 84 { >> 85 break ; >> 86 } 84 } 87 } 85 temp = (fNumber * temp1 - (fNumber + << 88 if(k > maxNumber) 86 newton1 = newton0; << 87 newton0 = newton1 - temp1 / temp; << 88 if(std::fabs(newton0 - newton1) <= toler << 89 { 89 { 90 break; << 90 G4Exception("Too many iterations in Gauss-Laguerre constructor") ; 91 } 91 } 92 } << 92 93 if(k > maxNumber) << 93 fAbscissa[i-1] = newton ; 94 { << 94 fWeight[i-1] = -exp(GammaLogarithm(alpha + fNumber) - 95 G4Exception("G4GaussLaguerreQ::G4GaussLa << 95 GammaLogarithm((G4double)fNumber))/(temp*fNumber*temp2) ; 96 FatalException, << 96 } 97 "Too many iterations in Gaus << 98 } << 99 << 100 fAbscissa[i - 1] = newton0; << 101 fWeight[i - 1] = -std::exp(GammaLogarith << 102 GammaLogarithm( << 103 (temp * fNumber * temp2); << 104 } << 105 } 97 } 106 98 107 // ------------------------------------------- 99 // ----------------------------------------------------------------- 108 // 100 // 109 // Gauss-Laguerre method for integration of << 101 // Gauss-Laguerre method for integration of pow(x,alpha)*exp(-x)*pFunction(x) 110 // std::pow(x,alpha)*std::exp(-x)*pFunction(x) << 102 // from zero up to infinity. pFunction is evaluated in fNumber points for which 111 // from zero up to infinity. pFunction is eval << 103 // fAbscissa[i] and fWeight[i] arrays were created in 112 // for which fAbscissa[i] and fWeight[i] array << 113 // G4VGaussianQuadrature(double,int) construct 104 // G4VGaussianQuadrature(double,int) constructor 114 105 115 G4double G4GaussLaguerreQ::Integral() const << 106 G4double >> 107 G4GaussLaguerreQ::Integral() const 116 { 108 { 117 G4double integral = 0.0; << 109 G4int i ; 118 for(G4int i = 0; i < fNumber; ++i) << 110 G4double integral = 0.0 ; 119 { << 111 for(i=0;i<fNumber;i++) 120 integral += fWeight[i] * fFunction(fAbscis << 112 { 121 } << 113 integral += fWeight[i]*fFunction(fAbscissa[i]) ; 122 return integral; << 114 } >> 115 return integral ; 123 } 116 } 124 117