{smcl} {* 25jun2007}{...} {cmd:help mata fexp()} {cmd:help mata Sexp()} {cmd:help mata fwei()} {cmd:help mata Swei()} {hline} {* index rpn cdf pdf mata}{...} {* index fexp()}{...} {* index Sexp()}{...} {* index fwei()}{...} {* index Swei()}{...} {title:Title} {p 4 4 2} {bf:Simple distribution functions for use with rpnfcn()} {title:Syntax} {p 16 12 2} {bf:{ul:Command name}}{space 5} {ul:Argument} {p 16 12 2} {cmd:&fexp()}{space 10} {it:&theta} {p 16 12 2} {cmd:&Sexp()}{space 10} {it:&theta} {p 16 12 2} {cmd:&fwei()}{space 10} {it:&theta} {p 16 12 2} {cmd:&Swei()}{space 10} {it:&theta} {title:Description} {p 4 4 2} These functions compute densities and survivor function for the Exponential and the Weibull density, respectively. The functions are to be used with {cmd:rpnfcn()}, and use the argument vector {it:theta} to evaluate the function on the matrix in the current top element of the stack in {cmd:rpnfcn()}. {it:theta} must be a column vector for the Exponential distribution, and a matrix with two columns for the Weibull distribution. {title:Remarks} {p 4 4 2} The parameterizations used can be described by the following forms of the survivor functions {p 18 8 8} S_exp (x; theta1) = exp(-x * exp(theta1)) {p 8 8 8} S_wei (x; (theta1, theta2)) = exp(-(x * exp(theta1))^exp(theta2)) {p 4 4 2} where theta1 and theta2 are columns of {it:theta}. Note that all parameters are log-transformed from their natural parameterization, so as to ensure that they are unbounded. {title:Source code} {p 4 4 2} {view rpndist.mata, adopath asis:rpndist.mata} {title:Author} {p 4 4 2}{browse "http://www.almen.dk/hstovring":Henrik Støvring}, Research Unit of General Practice, University of Southern Denmark. Please email {browse "mailto:hstovring@health.sdu.dk":hstovring@health.sdu.dk} if you have comments, questions or observe any problems. {title:Also see} {p 4 13 2} Manual: {hi:[M] Mata Reference Manual} {p 4 13 2} Online: help for {bf:{help mata:[M-0] mata}}, {bf:{help mf_rpnfcn: Evaluation of algorithm matrix using RPN}}, {bf:{help mf_rpnbinop:RPN stack manipulation functions}}, {bf:{help mf_rpndist:RPN distribution functions}}, {bf:{help mf_rpnint:RPN functions for integration}} {p_end}