#include #include #include #include #include "integration.h" #include "err.h" void qk (const int n, const double xgk[], const double wg[], const double wgk[], double fv1[], double fv2[], const gsl_function * f, double a, double b, double *result, double *abserr, double *resabs, double *resasc) { const double center = 0.5 * (a + b); const double half_length = 0.5 * (b - a); const double abs_half_length = fabs (half_length); const double f_center = GSL_FN_EVAL (f, center); double result_gauss = 0; double result_kronrod = f_center * wgk[n - 1]; double result_abs = fabs (result_kronrod); double result_asc = 0; double mean = 0, err = 0; int j; if (n % 2 == 0) { result_gauss = f_center * wg[n / 2 - 1]; } for (j = 0; j < (n - 1) / 2; j++) { const int jtw = j * 2 + 1; /* j=1,2,3 jtw=2,4,6 */ const double abscissa = half_length * xgk[jtw]; const double fval1 = GSL_FN_EVAL (f, center - abscissa); const double fval2 = GSL_FN_EVAL (f, center + abscissa); const double fsum = fval1 + fval2; fv1[jtw] = fval1; fv2[jtw] = fval2; result_gauss += wg[j] * fsum; result_kronrod += wgk[jtw] * fsum; result_abs += wgk[jtw] * (fabs (fval1) + fabs (fval2)); } for (j = 0; j < n / 2; j++) { int jtwm1 = j * 2; const double abscissa = half_length * xgk[jtwm1]; const double fval1 = GSL_FN_EVAL (f, center - abscissa); const double fval2 = GSL_FN_EVAL (f, center + abscissa); fv1[jtwm1] = fval1; fv2[jtwm1] = fval2; result_kronrod += wgk[jtwm1] * (fval1 + fval2); result_abs += wgk[jtwm1] * (fabs (fval1) + fabs (fval2)); }; mean = result_kronrod * 0.5; result_asc = wgk[n - 1] * fabs (f_center - mean); for (j = 0; j < n - 1; j++) { result_asc += wgk[j] * (fabs (fv1[j] - mean) + fabs (fv2[j] - mean)); } /* scale by the width of the integration region */ err = (result_kronrod - result_gauss) * half_length; result_kronrod *= half_length; result_abs *= abs_half_length; result_asc *= abs_half_length; *result = result_kronrod; *resabs = result_abs; *resasc = result_asc; *abserr = rescale_error (err, result_abs, result_asc); }