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#' Logarithmic series distribution
#'
#' Density, distribution function, quantile function and random generation
#' for the logarithmic series distribution.
#'
#' @param x,q vector of quantiles.
#' @param p vector of probabilities.
#' @param n number of observations. If \code{length(n) > 1},
#' the length is taken to be the number required.
#' @param theta vector; concentration parameter; (\code{0 < theta < 1}).
#' @param log,log.p logical; if TRUE, probabilities p are given as log(p).
#' @param lower.tail logical; if TRUE (default), probabilities are \eqn{P[X \le x]}
#' otherwise, \eqn{P[X > x]}.
#'
#' @details
#'
#' Probability mass function
#' \deqn{
#' f(x) = \frac{-1}{\log(1-\theta)} \frac{\theta^x}{x}
#' }{
#' f(x) = (-1/log(1-\theta)*\theta^x) / x
#' }
#'
#' Cumulative distribution function
#' \deqn{
#' F(x) = \frac{-1}{\log(1-\theta)} \sum_{k=1}^x \frac{\theta^x}{x}
#' }{
#' F(x) = -1/log(1-\theta) * sum((\theta^x)/x)
#' }
#'
#' Quantile function and random generation are computed using
#' algorithm described in Krishnamoorthy (2006).
#'
#' @references
#' Krishnamoorthy, K. (2006). Handbook of Statistical Distributions
#' with Applications. Chapman & Hall/CRC
#'
#' @references
#' Forbes, C., Evans, M. Hastings, N., & Peacock, B. (2011).
#' Statistical Distributions. John Wiley & Sons.
#'
#' @examples
#'
#' x <- rlgser(1e5, 0.66)
#' xx <- seq(0, 100, by = 1)
#' plot(prop.table(table(x)), type = "h")
#' lines(xx, dlgser(xx, 0.66), col = "red")
#'
#' # Notice: distribution of F(X) is far from uniform:
#' hist(plgser(x, 0.66), 50)
#'
#' xx <- seq(0, 100, by = 0.01)
#' plot(ecdf(x))
#' lines(xx, plgser(xx, 0.66), col = "red", lwd = 2)
#'
#' @name LogSeries
#' @aliases LogSeries
#' @aliases dlgser
#'
#' @keywords distribution
#' @concept Univariate
#' @concept Discrete
#'
#' @export
dlgser <- function(x, theta, log = FALSE) {
cpp_dlgser(x, theta, log[1L])
}
#' @rdname LogSeries
#' @export
plgser <- function(q, theta, lower.tail = TRUE, log.p = FALSE) {
cpp_plgser(q, theta, lower.tail[1L], log.p[1L])
}
#' @rdname LogSeries
#' @export
qlgser <- function(p, theta, lower.tail = TRUE, log.p = FALSE) {
cpp_qlgser(p, theta, lower.tail[1L], log.p[1L])
}
#' @rdname LogSeries
#' @export
rlgser <- function (n, theta) {
if (length(n) > 1) n <- length(n)
cpp_rlgser(n, theta)
}
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