/* * AUTHOR * Peter Ruckdeschel, peter.ruckdeschel@uni-bayreuth.de. * April 13, 2006. * * Merge in to R: * Copyright (C) 2006 The R Core Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, a copy is available at * https://www.R-project.org/Licenses/ * * * DESCRIPTION * * The density function of the non-central F distribution --- * obtained by differentiating the corresp. cumulative distribution function * using dnbeta. * For df1 < 2, since the F density has a singularity as x -> Inf. */ #include "nmath.h" #include "dpq.h" double dnf(double x, double df1, double df2, double ncp, int give_log) { double y, z, f; #ifdef IEEE_754 if (ISNAN(x) || ISNAN(df1) || ISNAN(df2) || ISNAN(ncp)) return x + df2 + df1 + ncp; #endif /* want to compare dnf(ncp=0) behavior with df() one, hence *NOT* : * if (ncp == 0) * return df(x, df1, df2, give_log); */ if (df1 <= 0. || df2 <= 0. || ncp < 0) ML_WARN_return_NAN; if (x < 0.) return(R_D__0); if (!R_FINITE(ncp)) /* ncp = +Inf -- FIXME?: in some cases, limit exists */ ML_WARN_return_NAN; /* This is not correct for df1 == 2, ncp > 0 - and seems unneeded: * if (x == 0.) return(df1 > 2 ? R_D__0 : (df1 == 2 ? R_D__1 : ML_POSINF)); */ if (!R_FINITE(df1) && !R_FINITE(df2)) { /* both +Inf */ /* PR: not sure about this (taken from ncp==0) -- FIXME ? */ if(x == 1.) return ML_POSINF; else return R_D__0; } if (!R_FINITE(df2)) /* i.e. = +Inf */ return df1* dnchisq(x*df1, df1, ncp, give_log); /* == dngamma(x, df1/2, 2./df1, ncp, give_log) -- but that does not exist */ if (df1 > 1e14 && ncp < 1e7) { /* includes df1 == +Inf: code below is inaccurate there */ f = 1 + ncp/df1; /* assumes ncp << df1 [ignores 2*ncp^(1/2)/df1*x term] */ z = dgamma(1./x/f, df2/2, 2./df2, give_log); return give_log ? z - 2*log(x) - log(f) : z / (x*x) / f; } y = (df1 / df2) * x; z = dnbeta(y/(1 + y), df1 / 2., df2 / 2., ncp, give_log); return give_log ? z + log(df1) - log(df2) - 2 * log1p(y) : z * (df1 / df2) /(1 + y) / (1 + y); }