R/ZAGA.R

Defines functions meanZAGA plotZAGA rZAGA pZAGA dZAGA

Documented in dZAGA meanZAGA plotZAGA pZAGA rZAGA

# The inflated Gamma distribution
# created by Bob Rigby and Mikis Stasinopoulos and Gillian Heller
# Tuesday, July 14, 2009  
# ---------------------------------------------------------------------------------------
ZAGA <- function (mu.link ="log", sigma.link="log", nu.link ="logit")
{
    mstats <- checklink("mu.link", "ZAGA", substitute(mu.link), c("inverse", "log", "identity", "own"))
    dstats <- checklink("sigma.link", "ZAGA", substitute(sigma.link), c("inverse", "log", "identity", "own"))
    vstats <- checklink("nu.link", "ZAGA", substitute(nu.link),  c("logit", "probit", "cloglog", "cauchit", "log", "own"))
    structure(
          list(family = c("ZAGA", "Zero Adjusted GA"),
           parameters = list(mu=TRUE, sigma=TRUE, nu=TRUE), 
                nopar = 3, 
                 type = "Mixed",
              mu.link = as.character(substitute(mu.link)), 
           sigma.link = as.character(substitute(sigma.link)), 
              nu.link = as.character(substitute(nu.link)), 
           mu.linkfun = mstats$linkfun, 
        sigma.linkfun = dstats$linkfun, 
           nu.linkfun = vstats$linkfun, 
           mu.linkinv = mstats$linkinv, 
        sigma.linkinv = dstats$linkinv,
           nu.linkinv = vstats$linkinv, 
                mu.dr = mstats$mu.eta, 
             sigma.dr = dstats$mu.eta, 
                nu.dr = vstats$mu.eta, 
                 dldm = function(y,mu,sigma) ifelse(y==0,0,(y-mu)/((sigma^2)*(mu^2))),
               d2ldm2 = function(y,mu,sigma) ifelse(y==0,0, -1/((sigma^2)*(mu^2))),
                 dldd = function(y,mu,sigma) ifelse(y==0,0,(2/sigma^3)*((y/mu)-log(y)+log(mu)+log(sigma^2)-1+digamma(1/(sigma^2)))),
               d2ldd2 = function(y,sigma) ifelse(y==0,0,(4/sigma^4)-(4/sigma^6)*trigamma((1/sigma^2))),
                 dldv = function(y,nu) ifelse(y==0,1/nu,-1/(1-nu)),
               d2ldv2 = function(nu)  -1/(nu*(1-nu)) ,
              d2ldmdd = function(y)  rep(0,length(y)),
              d2ldmdv = function(y)  rep(0,length(y)),
              d2ldddv = function(y)   rep(0,length(y)),
          G.dev.incr  = function(y,mu,sigma,nu,...) 
                                 -2*dZAGA(y,mu,sigma,nu,log=TRUE),                           
                rqres = expression(rqres(pfun="pZAGA", type="Mixed",  mass.p=0,  
                             prob.mp=nu, y=y, mu=mu, sigma=sigma, nu=nu)),
           mu.initial =  expression(mu <- (y+mean(y))/2), 
         sigma.initial =  expression(sigma <- rep(1,length(y))),
            nu.initial =  expression(   nu <- rep(0.5, length(y))), 
              mu.valid = function(mu) TRUE , 
           sigma.valid = function(sigma)  all(sigma > 0),
              nu.valid = function(nu) all(nu > 0) && all(nu < 1), 
               y.valid = function(y)  all(y>=0),
                  mean = function(mu, sigma, nu) (1 - nu) * mu,
              variance = function(mu, sigma, nu) (1 - nu) * mu^2 * (sigma^2 + nu)
          ),
            class = c("gamlss.family","family"))
}
#----------------------------------------------------------------------------------------
dZAGA<-function(x, mu=1, sigma=1, nu=.1, log=FALSE)
 {        if (any(mu < 0))  stop(paste("mu must be positive", "\n", "")) 
          if (any(sigma < 0))  stop(paste("sigma must be positive", "\n", ""))
          if (any(nu < 0)|any(nu > 1))  stop(paste("nu must be between 0 and 1", "\n", ""))     
  #        if (any(x < 0))  stop(paste("x must be positive", "\n", ""))  
 log.lik <- ifelse(x==0, log(nu), log(1-nu)+(1/sigma^2)*log(x/(mu*sigma^2))-x/(mu*sigma^2)-log(x)-lgamma(1/sigma^2))
     if(log==FALSE) fy  <- exp(log.lik) else fy <- log.lik
      fy <- ifelse(x < 0, 0, fy)
      fy 
  }
#----------------------------------------------------------------------------------------
pZAGA <- function(q, mu=1, sigma=1, nu=0.1, lower.tail = TRUE, log.p = FALSE)
  {       if (any(mu < 0))  stop(paste("mu must be positive", "\n", "")) 
          if (any(sigma < 0))  stop(paste("sigma must be positive", "\n", ""))
          if (any(nu < 0)|any(nu > 1))  stop(paste("nu must be between 0 and 1", "\n", ""))     
    #      if (any(q < 0))  stop(paste("y must be positive", "\n", ""))  
     cdf <- pgamma(q,shape=1/sigma^2,scale=mu*sigma^2)
     cdf <- ifelse((q==0), nu, nu+(1-nu)*cdf)    
    if(lower.tail==TRUE) cdf  <- cdf else  cdf <- 1-cdf 
    if(log.p==FALSE) cdf  <- cdf else  cdf <- log(cdf) 
     cdf <- ifelse(q < 0, 0, cdf) 
     cdf
   }
#---------------------------------------------------------------------------------------- 
qZAGA <- function (p, mu = 1, sigma = 1, nu = 0.1, lower.tail = TRUE, 
                   log.p = FALSE) 
{
  # perform checks and preparations
  if (any(mu <= 0)) stop(paste("mu must be positive", "\n", ""))
  if (any(sigma <= 0)) stop(paste("sigma must be positive", "\n", ""))
  if (any(nu < 0) | any(nu > 1)) stop(paste("nu must be between 0 and 1", "\n", ""))
  ly <- max(length(p), length(mu), length(sigma), length(nu))
   p <- rep(p, length = ly)
  if (log.p == TRUE) p <- exp(p)
     else p <- p
  if (lower.tail == TRUE) 
    p <- p
  else p <- 1 - p
  if (any(p < 0) | any(p >= 1)) stop(paste("p must be between 0 and 1", "\n", ""))
  if(!(length(nu) %in% c(1, length(p)))) stop(paste("nu is of length", length(nu), "\n", "Must be of lenght 1 or length(p) =", length(p)))
  # handle zero quantiles
  which_zero <- which(p <= nu)
  if(length(nu) == 1) 
    p[which_zero] <- nu
  else p[which_zero] <- nu[which_zero] 
  # compute quantiles
  return( qgamma((p-nu)/(1-nu), shape = 1/sigma^2, scale = mu * sigma^2) )
}
#-----------------------------------------------------------------------------------------
rZAGA <- function(n, mu=1, sigma=1, nu=0.1, ...)
  { 
    if (any(mu <= 0))  stop(paste("mu must be positive", "\n", "")) 
    if (any(sigma <= 0))  stop(paste("sigma must be positive", "\n", "")) 
    if (any(nu < 0)|any(nu > 1))  stop(paste("nu must be between 0 and 1", "\n", ""))   
    if (any(n <= 0))  stop(paste("n must be a positive integer", "\n", ""))  
    n <- ceiling(n)
    p <- runif(n)
    r <- qZAGA(p,mu=mu,sigma=sigma, nu = nu, ...)
    r
  }
   
#----------------------------------------------------------------------------------------
plotZAGA <- function( mu =5 , sigma=1, nu = 0.1, from = 0, to=10, n = 101, main=NULL,
                      ...)
{
  y = seq(from=0.001, to=to, length.out=n )
  pdf<- dZAGA(y, mu = mu ,sigma = sigma, nu = nu) 
  pr0<-c(dZAGA(0, mu=mu ,sigma=sigma,  nu=nu))
  po<-c(0)
  if (is.null(main)) main = "Zero Adj. Gamma"
  plot(pdf~y, main=main, ylim=c(0,max(pdf,pr0)), type="l", ...)
  points(po,pr0,type="h", ...)
  points(po,pr0,type="p", col="blue")
}

#----------------------------------------------------------------------------------------
meanZAGA <- function(obj)
  {
  if ( obj$family[1]!="ZAGA") stop("the object do not have a ZAGA distribution")
  meanofY<-(1-fitted(obj,"nu"))*fitted(obj,"mu")
  meanofY
  }
#---------------------------------------------------------------------------------------- 
mstasinopoulos/GAMLSS-Distibutions documentation built on Nov. 3, 2023, 10:33 a.m.