/* Author: G. Jungman * RCS: $Id: coupling.c,v 1.12 1999/08/30 10:35:59 bjg Exp $ */ #include #include #include #include "gsl_sf_gamma.h" #include "gsl_sf_coupling.h" inline static int locMax3(const int a, const int b, const int c) { int d = GSL_MAX(a, b); return GSL_MAX(d, c); } inline static int locMin3(const int a, const int b, const int c) { int d = GSL_MIN(a, b); return GSL_MIN(d, c); } inline static int locMin5(const int a, const int b, const int c, const int d, const int e) { int f = GSL_MIN(a, b); int g = GSL_MIN(c, d); int h = GSL_MIN(f, g); return GSL_MIN(e, h); } /* See: [Thompson, Atlas for Computing Mathematical Functions] */ static int delta(int ta, int tb, int tc, gsl_sf_result * d) { gsl_sf_result f1, f2, f3, f4; int status = 0; status += gsl_sf_fact_impl((ta + tb - tc)/2, &f1); status += gsl_sf_fact_impl((ta + tc - tb)/2, &f2); status += gsl_sf_fact_impl((tb + tc - ta)/2, &f3); status += gsl_sf_fact_impl((ta + tb + tc)/2 + 1, &f4); if(status != 0) { d->val = 0.0; d->err = 0.0; return GSL_EOVRFLW; } d->val = f1.val * f2.val * f3.val / f4.val; d->err = 4.0 * GSL_DBL_EPSILON * fabs(d->val); return GSL_SUCCESS; } static int triangle_selection_fails(int two_ja, int two_jb, int two_jc) { return ((two_jb < abs(two_ja - two_jc)) || (two_jb > two_ja + two_jc)); } static int m_selection_fails(int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc) { return ( abs(two_ma) > two_ja || abs(two_mb) > two_jb || abs(two_mc) > two_jc || GSL_IS_ODD(two_ja + two_ma) || GSL_IS_ODD(two_jb + two_mb) || GSL_IS_ODD(two_jc + two_mc) ); } /*-*-*-*-*-*-*-*-*-*-*-* (semi)Private Implementations *-*-*-*-*-*-*-*-*-*-*-*/ int gsl_sf_coupling_3j_impl(int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc, gsl_sf_result * result) { if(result == 0) { return GSL_EFAULT; } else if(two_ja < 0 || two_jb < 0 || two_jc < 0) { result->val = 0.0; result->err = 0.0; return GSL_EDOM; } else if( triangle_selection_fails(two_ja, two_jb, two_jc) || m_selection_fails(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc) ) { result->val = 0.0; result->err = 0.0; return GSL_SUCCESS; } else { gsl_sf_result n1_a, n1_b, n3_a, n3_b; gsl_sf_result d1_a, d1_b, d2_a, d2_b, d3_a, d3_b; gsl_sf_result n1, n2, n3; gsl_sf_result d1, d2, d3; double norm; double sign = (GSL_IS_ODD((two_ja - two_jb - two_mc)/2) ? -1.0 : 1.0); int tk, tkmin, tkmax; double sum_pos = 0.0; double sum_neg = 0.0; double phase; int status = 0; status += gsl_sf_fact_impl((two_jc + two_ja - two_jb)/2, &n1_a); status += gsl_sf_fact_impl((two_jc - two_ja + two_jb)/2, &n1_b); status += gsl_sf_fact_impl((two_ja + two_jb - two_jc)/2, &n2); status += gsl_sf_fact_impl((two_jc - two_mc)/2, &n3_a); status += gsl_sf_fact_impl((two_jc + two_mc)/2, &n3_b); status += gsl_sf_fact_impl((two_ja + two_jb + two_jc)/2 + 1, &d1); status += gsl_sf_fact_impl((two_ja - two_ma)/2, &d2_a); status += gsl_sf_fact_impl((two_ja + two_ma)/2, &d2_b); status += gsl_sf_fact_impl((two_jb - two_mb)/2, &d3_a); status += gsl_sf_fact_impl((two_jb + two_mb)/2, &d3_b); if(status != 0) { result->val = 0.0; result->err = 0.0; return GSL_EOVRFLW; } n1.val = n1_a.val * n1_b.val; n3.val = n3_a.val * n3_b.val; d2.val = d2_a.val * d2_b.val; d3.val = d3_a.val * d3_b.val; norm = sign * sqrt(n1.val*n2.val*n3.val)/sqrt(d1.val*d2.val*d3.val); tkmin = GSL_MAX(0, two_jb - two_ja - two_mc); tkmax = GSL_MIN(two_jc - two_ja + two_jb, two_jc - two_mc); phase = GSL_IS_ODD((tkmin + two_jb + two_mb)/2) ? -1.0 : 1.0; for(tk=tkmin; tk<=tkmax; tk += 2) { double term; status = 0; status += gsl_sf_fact_impl((two_jb + two_jc + two_ma - tk)/2, &n1); status += gsl_sf_fact_impl((two_ja - two_ma + tk)/2, &n2); status += gsl_sf_fact_impl(tk/2, &d1_a); status += gsl_sf_fact_impl((two_jc - two_ja + two_jb - tk)/2, &d1_b); status += gsl_sf_fact_impl((two_jc - two_mc - tk)/2, &d2); status += gsl_sf_fact_impl((two_ja - two_jb + two_mc + tk)/2, &d3); if(status != 0) { result->val = 0.0; result->err = 0.0; return GSL_EOVRFLW; } d1.val = d1_a.val * d1_b.val; term = phase * n1.val * n2.val / (d1.val * d2.val * d3.val); phase = -phase; if(norm*term >= 0.0) { sum_pos += norm*term; } else { sum_neg -= norm*term; } } result->val = sum_pos - sum_neg; result->err = 2.0 * GSL_DBL_EPSILON * (sum_pos + sum_neg); result->err += 2.0 * GSL_DBL_EPSILON * (tkmax - tkmin) * fabs(result->val); return GSL_SUCCESS; } } int gsl_sf_coupling_6j_impl(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, gsl_sf_result * result) { if(result == 0) { return GSL_EFAULT; } else if( two_ja < 0 || two_jb < 0 || two_jc < 0 || two_jd < 0 || two_je < 0 || two_je < 0 ) { result->val = 0.0; result->err = 0.0; return GSL_EDOM; } else if( triangle_selection_fails(two_ja, two_jb, two_je) || triangle_selection_fails(two_ja, two_jc, two_jf) || triangle_selection_fails(two_jb, two_jd, two_jf) || triangle_selection_fails(two_jc, two_jd, two_je) ) { result->val = 0.0; result->err = 0.0; return GSL_SUCCESS; } else { gsl_sf_result n1; gsl_sf_result d1, d2, d3, d4, d5, d6; double norm; int tk, tkmin, tkmax; double phase; double sum_pos = 0.0; double sum_neg = 0.0; double sumsq_err = 0.0; int status = 0; status += delta(two_ja, two_jb, two_je, &d1); status += delta(two_ja, two_jc, two_jf, &d2); status += delta(two_jb, two_jd, two_jf, &d3); status += delta(two_jc, two_jd, two_je, &d4); if(status != GSL_SUCCESS) { result->val = 0.0; result->err = 0.0; return GSL_EOVRFLW; } norm = sqrt(d1.val) * sqrt(d2.val) * sqrt(d3.val) * sqrt(d4.val); tkmin = locMax3(0, two_ja + two_jd - two_je - two_jf, two_jb + two_jc - two_je - two_jf); tkmax = locMin5(two_ja + two_jb + two_jc + two_jd + 2, two_ja + two_jb - two_je, two_jc + two_jd - two_je, two_ja + two_jc - two_jf, two_jb + two_jd - two_jf); phase = GSL_IS_ODD((two_ja + two_jb + two_jc + two_jd + tkmin)/2) ? -1.0 : 1.0; for(tk=tkmin; tk<=tkmax; tk += 2) { double term; double term_err; gsl_sf_result den_1, den_2; gsl_sf_result d1_a, d1_b; status = 0; status += gsl_sf_fact_impl((two_ja + two_jb + two_jc + two_jd - tk)/2 + 1, &n1); status += gsl_sf_fact_impl(tk/2, &d1_a); status += gsl_sf_fact_impl((two_je + two_jf - two_ja - two_jd + tk)/2, &d1_b); status += gsl_sf_fact_impl((two_je + two_jf - two_jb - two_jc + tk)/2, &d2); status += gsl_sf_fact_impl((two_ja + two_jb - two_je - tk)/2, &d3); status += gsl_sf_fact_impl((two_jc + two_jd - two_je - tk)/2, &d4); status += gsl_sf_fact_impl((two_ja + two_jc - two_jf - tk)/2, &d5); status += gsl_sf_fact_impl((two_jb + two_jd - two_jf - tk)/2, &d6); if(status != GSL_SUCCESS) { result->val = 0.0; result->err = 0.0; return GSL_EOVRFLW; } d1.val = d1_a.val * d1_b.val; d1.err = d1_a.err * fabs(d1_b.val) + fabs(d1_a.val) * d1_b.err; den_1.val = d1.val*d2.val*d3.val; den_1.err = d1.err * fabs(d2.val*d3.val); den_1.err += d2.err * fabs(d1.val*d3.val); den_1.err += d3.err * fabs(d1.val*d2.val); den_2.val = d4.val*d5.val*d6.val; den_2.err = d4.err * fabs(d5.val*d6.val); den_2.err += d5.err * fabs(d4.val*d6.val); den_2.err += d6.err * fabs(d4.val*d5.val); term = phase * n1.val / den_1.val / den_2.val; phase = -phase; term_err = n1.err / fabs(den_1.val) / fabs(den_2.val); term_err += fabs(term / den_1.val) * den_1.err; term_err += fabs(term / den_2.val) * den_2.err; if(term >= 0.0) { sum_pos += norm*term; } else { sum_neg -= norm*term; } sumsq_err += norm*norm * term_err*term_err; } result->val = sum_pos - sum_neg; result->err = 2.0 * GSL_DBL_EPSILON * (sum_pos + sum_neg); result->err += sqrt(sumsq_err / (0.5*(tkmax-tkmin)+1.0)); result->err += 2.0 * GSL_DBL_EPSILON * (tkmax - tkmin + 2.0) * fabs(result->val); return GSL_SUCCESS; } } int gsl_sf_coupling_9j_impl(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, int two_jg, int two_jh, int two_ji, gsl_sf_result * result) { if(result == 0) { return GSL_EFAULT; } else if( two_ja < 0 || two_jb < 0 || two_jc < 0 || two_jd < 0 || two_je < 0 || two_jf < 0 || two_jg < 0 || two_jh < 0 || two_ji < 0 ) { result->val = 0.0; result->err = 0.0; return GSL_EDOM; } else if( triangle_selection_fails(two_ja, two_jb, two_jc) || triangle_selection_fails(two_jd, two_je, two_jf) || triangle_selection_fails(two_jg, two_jh, two_ji) || triangle_selection_fails(two_ja, two_jd, two_jg) || triangle_selection_fails(two_jb, two_je, two_jh) || triangle_selection_fails(two_jc, two_jf, two_ji) ) { result->val = 0.0; result->err = 0.0; return GSL_SUCCESS; } else { int tk; int tkmin = locMax3(abs(two_ja-two_ji), abs(two_jh-two_jd), abs(two_jb-two_jf)); int tkmax = locMin3(two_ja + two_ji, two_jh + two_jd, two_jb + two_jf); double sum_pos = 0.0; double sum_neg = 0.0; double sumsq_err = 0.0; double phase; for(tk=tkmin; tk<=tkmax; tk += 2) { gsl_sf_result s1, s2, s3; double term; double term_err; int status = 0; status += gsl_sf_coupling_6j_impl(two_ja, two_ji, two_jd, two_jh, tk, two_jg, &s1); status += gsl_sf_coupling_6j_impl(two_jb, two_jf, two_jh, two_jd, tk, two_je, &s2); status += gsl_sf_coupling_6j_impl(two_ja, two_ji, two_jb, two_jf, tk, two_jc, &s3); if(status != GSL_SUCCESS) { result->val = 0.0; result->err = 0.0; return GSL_EOVRFLW; } term = s1.val * s2.val * s3.val; term_err = s1.err * fabs(s2.val*s3.val); term_err += s2.err * fabs(s1.val*s3.val); term_err += s3.err * fabs(s1.val*s2.val); if(term >= 0.0) { sum_pos += (tk + 1) * term; } else { sum_neg -= (tk + 1) * term; } sumsq_err += ((tk+1) * term_err) * ((tk+1) * term_err); } phase = GSL_IS_ODD(tkmin) ? -1.0 : 1.0; result->val = phase * (sum_pos - sum_neg); result->err = 2.0 * GSL_DBL_EPSILON * (sum_pos + sum_neg); result->err += sqrt(sumsq_err / (0.5*(tkmax-tkmin)+1.0)); result->err += 2.0 * GSL_DBL_EPSILON * (tkmax-tkmin + 2.0) * fabs(result->val); return GSL_SUCCESS; } } /*-*-*-*-*-*-*-*-*-*-*-* Functions w/ Error Handling *-*-*-*-*-*-*-*-*-*-*-*/ int gsl_sf_coupling_3j_e(int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc, gsl_sf_result * result) { int status = gsl_sf_coupling_3j_impl(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc, result); if(status != GSL_SUCCESS) { GSL_ERROR("gsl_sf_coupling_3j_e", status); } return status; } int gsl_sf_coupling_6j_e(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, gsl_sf_result * result) { int status = gsl_sf_coupling_6j_impl(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, result); if(status != GSL_SUCCESS) { GSL_ERROR("gsl_sf_coupling_6j_e", status); } return status; } int gsl_sf_coupling_9j_e(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, int two_jg, int two_jh, int two_ji, gsl_sf_result * result) { int status = gsl_sf_coupling_9j_impl(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji, result); if(status != GSL_SUCCESS) { GSL_ERROR("gsl_sf_coupling_9j_e", status); } return status; }