Revert accidentally deleted code
Former-commit-id: 0644367bdab1c407898a6e869c21b07f392c9c53
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@ -66,7 +66,75 @@ static const double sqrtpi = 1.7724538509055160272981674833411451827975494561223
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// Associated Legendre polynomial at zero argument (DLMF 14.5.1)
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// Associated Legendre polynomial at zero argument (DLMF 14.5.1)
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double qpms_legendre0(int m, int n) {
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double qpms_legendre0(int m, int n) {
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TAYLOR:
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return pow(2,m) * sqrtpi / tgamma(.5*n - .5*m + .5) / tgamma(.5*n-.5*m);
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}
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static inline int min1pow(int x) {
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return (x % 2) ? -1 : 1;
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}
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static inline complex double ipow(int x) {
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return cpow(I, x);
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}
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// Derivative of associated Legendre polynomial at zero argument (DLMF 14.5.2)
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double qpms_legendreD0(int m, int n) {
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return -2 * qpms_legendre0(m, n);
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}
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static inline int imin(int x, int y) {
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return x > y ? y : x;
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}
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// The uppermost value of q index for the B coefficient terms from [Xu](60).
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// N.B. this is different from [Xu_old](79) due to the n vs. n+1 difference.
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// However, the trailing terms in [Xu_old] are analytically zero (although
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// the numerical values will carry some non-zero rounding error).
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static inline int gauntB_Q_max(int M, int n, int mu, int nu) {
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return imin(n, imin(nu, (n+nu+1-abs(M+mu))/2));
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}
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int qpms_sph_bessel_fill(qpms_bessel_t typ, int lmax, double x, complex double *result_array) {
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int retval;
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double tmparr[lmax+1];
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switch(typ) {
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case QPMS_BESSEL_REGULAR:
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retval = gsl_sf_bessel_jl_steed_array(lmax, x, tmparr);
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for (int l = 0; l <= lmax; ++l) result_array[l] = tmparr[l];
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return retval;
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break;
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case QPMS_BESSEL_SINGULAR: //FIXME: is this precise enough? Would it be better to do it one-by-one?
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retval = gsl_sf_bessel_yl_array(lmax,x,tmparr);
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for (int l = 0; l <= lmax; ++l) result_array[l] = tmparr[l];
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return retval;
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break;
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case QPMS_HANKEL_PLUS:
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case QPMS_HANKEL_MINUS:
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retval = gsl_sf_bessel_jl_steed_array(lmax, x, tmparr);
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for (int l = 0; l <= lmax; ++l) result_array[l] = tmparr[l];
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if(retval) return retval;
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retval = gsl_sf_bessel_yl_array(lmax, x, tmparr);
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if (typ==QPMS_HANKEL_PLUS)
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for (int l = 0; l <= lmax; ++l) result_array[l] += I * tmparr[l];
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else
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for (int l = 0; l <= lmax; ++l) result_array[l] +=-I * tmparr[l];
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return retval;
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break;
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default:
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abort();
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//return GSL_EDOM;
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}
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assert(0);
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}
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static inline double qpms_trans_normlogfac(qpms_normalisation_t norm,
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int m, int n, int mu, int nu) {
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//int csphase = qpms_normalisation_t csphase(norm); // probably not needed here
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norm = qpms_normalisation_t_normonly(norm);
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switch(norm) {
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case QPMS_NORMALISATION_KRISTENSSON:
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case QPMS_NORMALISATION_TAYLOR:
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return -0.5*(lgamma(n+m+1)-lgamma(n-m+1)+lgamma(nu-mu+1)-lgamma(nu+mu+1));
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return -0.5*(lgamma(n+m+1)-lgamma(n-m+1)+lgamma(nu-mu+1)-lgamma(nu+mu+1));
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break;
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break;
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case QPMS_NORMALISATION_XU:
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case QPMS_NORMALISATION_XU:
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@ -74,11 +142,11 @@ TAYLOR:
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break;
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break;
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default:
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default:
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abort();
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abort();
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}
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}
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}
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}
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static inline double qpms_trans_normfac(qpms_normalisation_t norm,
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static inline double qpms_trans_normfac(qpms_normalisation_t norm,
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/*dest*/int m, int n, /*src*/int mu, int nu) {
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int m, int n, int mu, int nu) {
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int csphase = qpms_normalisation_t_csphase(norm); // FIXME USEME TODO
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int csphase = qpms_normalisation_t_csphase(norm); // FIXME USEME TODO
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norm = qpms_normalisation_t_normonly(norm);
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norm = qpms_normalisation_t_normonly(norm);
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double normfac = 1.;
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double normfac = 1.;
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