R/ZINBF.R

Defines functions rZINBF qZINBF pZINBF dZINBF

Documented in dZINBF pZINBF qZINBF rZINBF

#----------------------------------------------------------------------------------------
#  created on 17_04_2017
#----------------------------------------------------------------------------------------
ZINBF <-function (mu.link ="log", sigma.link="log", nu.link="log", tau.link = "logit") 
{
     mstats <- checklink("mu.link", "ZINBF", substitute(mu.link), 
                         c("1/mu^2", "log", "identity"))
    dstats <- checklink("sigma.link", "ZINBF", substitute(sigma.link), 
                         c("inverse", "log", "identity"))
    vstats <- checklink("nu.link", "ZINBF",substitute(nu.link), 
                         c("1/nu^2", "log", "identity"))  
    tstats <- checklink("tau.link", "ZINBF", substitute(tau.link), 
                        c("logit", "probit", "cloglog", "log", "own"))
    structure(
          list(family = c("ZINBF"),
           parameters = list(mu = TRUE, sigma = TRUE, nu = TRUE, tau=TRUE), 
                nopar = 4, 
                 type = "Discrete",
              mu.link = as.character(substitute(mu.link)),  
           sigma.link = as.character(substitute(sigma.link)), 
              nu.link = as.character(substitute(nu.link)), 
             tau.link = as.character(substitute(tau.link)), 
           mu.linkfun = mstats$linkfun, 
        sigma.linkfun = dstats$linkfun, 
           nu.linkfun = vstats$linkfun,
          tau.linkfun = tstats$linkfun,  
           mu.linkinv = mstats$linkinv, 
        sigma.linkinv = dstats$linkinv,
           nu.linkinv = vstats$linkinv,
          tau.linkinv = tstats$linkinv, 
                mu.dr = mstats$mu.eta, 
             sigma.dr = dstats$mu.eta, 
                nu.dr = vstats$mu.eta,
               tau.dr = tstats$mu.eta, 
                 dldm = function(y,mu,sigma,nu,tau) 
                   {
                   dldm0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldm(0,mu,sigma,nu)
                    dldm <- ifelse(y==0, dldm0, NBF()$dldm(y,mu,sigma,nu))
                    dldm}, 
               d2ldm2 = function(y,mu,sigma,nu,tau) 
                           {
                   dldm0 <-  (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldm(0,mu,sigma,nu)
                    dldm <- ifelse(y==0, dldm0, NBF()$dldm(y,mu,sigma,nu))
                  d2ldm2 <- -dldm*dldm
                  d2ldm2 <- ifelse(d2ldm2 < -1e-15, d2ldm2,-1e-15)    
                           d2ldm2},
                 dldd = function(y,mu,sigma,nu,tau) 
                       { 
                   #cat("sigma",sigma[1], "\n")
                   dldd0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldd(0,mu,sigma,nu)
                    dldd <- ifelse(y==0, dldd0, NBF()$dldd(y,mu,sigma,nu))
                    dldd },
               d2ldd2 = function(y,mu,sigma,nu, tau)
                       {
                   dldd0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldd(0,mu,sigma,nu)
                    dldd <- ifelse(y==0, dldd0, NBF()$dldd(y,mu,sigma,nu))
                  d2ldd2 <- -dldd*dldd
                  d2ldd2 <- ifelse(d2ldd2 < -1e-15, d2ldd2,-1e-15)  
                  d2ldd2 },
                 dldv = function(y,mu,sigma,nu, tau) 
                      { 
                   dldv0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldv(0,mu,sigma,nu)
                    dldv <- ifelse(y==0, dldv0, NBF()$dldv(y,mu,sigma,nu))
                   dldv },
               d2ldv2 = function(y,mu,sigma,nu, tau){
                   dldv0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldv(0,mu,sigma,nu)
                    dldv <- ifelse(y==0, dldv0, NBF()$dldv(y,mu,sigma,nu))
                  d2ldv2 <- -dldv*dldv
                  d2ldv2 <- ifelse(d2ldv2 < -1e-15, d2ldv2,-1e-15)  
                  d2ldv2 },
                dldt = function(y,mu,sigma,nu, tau) {
                   dldt0 <- ((tau+(1-tau)*dNBF(0,mu,sigma, nu))^(-1))*(1-dNBF(0,mu,sigma, nu))
                    dldt <- ifelse(y==0, dldt0, -1/(1-tau))
                    dldt }, 
               d2ldt2 = function(y,mu,sigma,nu, tau){
                   dldt0 <- ((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*(1-dNBF(0,mu,sigma, nu))
                    dldt <- ifelse(y==0, dldt0, -1/(1-tau))      
                  d2ldt2 <- -dldt^2
                  d2ldt2 <- ifelse(d2ldt2 < -1e-15, d2ldt2,-1e-15)  
                 d2ldt2},
              d2ldmdd = function(y,mu,sigma,nu, tau) #1
                      {
            
                  dldm0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldm(0,mu,sigma,nu)
                   dldm <- ifelse(y==0, dldm0, NBF()$dldm(y,mu,sigma,nu))             
                  dldd0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldd(0,mu,sigma,nu)
                   dldd <- ifelse(y==0, dldd0, NBF()$dldd(y,mu,sigma,nu))
                d2ldmdd <- -dldm *dldd
                d2ldmdd <- ifelse( d2ldmdd < -1e-15,  d2ldmdd,-1e-15)  
               #  cat("mu-sigma", "\n")
                 d2ldmdd }, 
               d2ldmdv = function(y, mu, sigma, nu, tau) # 2
                     {
                  dldm0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldm(0,mu,sigma,nu)
                   dldm <- ifelse(y==0, dldm0, NBF()$dldm(y,mu,sigma,nu))       
                  dldv0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldv(0,mu,sigma,nu)
                   dldv <- ifelse(y==0, dldv0, NBF()$dldv(y,mu,sigma,nu))
                d2ldmdv <- -dldm *dldv
                d2ldmdv <- ifelse(d2ldmdv < -1e-15, d2ldmdv,-1e-15)  
                #cat("mu-nu", "\n")
                d2ldmdv }, 
               d2ldmdt = function(y, mu, sigma, nu, tau) # 3
        {
                  dldm0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldm(0,mu,sigma,nu)
                   dldm <- ifelse(y==0, dldm0, NBF()$dldm(y,mu,sigma,nu))             
                  dldt0 <- ((tau+(1-tau)*dNBF(0,mu,sigma, nu))^(-1))*(1-dNBF(0,mu,sigma, nu))
                   dldt <- ifelse(y==0, dldt0, -1/(1-tau))
                d2ldmdt <- -dldm *dldt
                d2ldmdt <- ifelse(d2ldmdt < -1e-15, d2ldmdt,-1e-15)  
                #cat("mu-tau", "\n")
                d2ldmdt }, 
              d2ldddv = function(y,mu,sigma,nu,tau) # 4
                        {
                  dldd0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldd(0,mu,sigma,nu)
                   dldd <- ifelse(y==0, dldd0, NBF()$dldd(y,mu,sigma,nu))
                  dldv0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldv(0,mu,sigma,nu)
                   dldv <- ifelse(y==0, dldv0, NBF()$dldv(y,mu,sigma,nu))
                d2ldddv <- -dldd *dldv
                d2ldddv <- ifelse(d2ldddv < -1e-15, d2ldddv,-1e-15) 
                #cat("sigma-nu", "\n")
                d2ldddv },               
              d2ldddt = function(y,mu,sigma,nu,tau) # 5
                      {
                  dldd0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldd(0,mu,sigma,nu)
                   dldd <- ifelse(y==0, dldd0, NBF()$dldd(y,mu,sigma,nu))
                  dldt0 <- ((tau+(1-tau)*dNBF(0,mu,sigma, nu))^(-1))*(1-dNBF(0,mu,sigma, nu))
                   dldt <- ifelse(y==0, dldt0, -1/(1-tau))
                d2ldddt <- -dldd *dldt
                d2ldddt <- ifelse(d2ldddt < -1e-15, d2ldddt,-1e-15) 
                #cat("sigma-tau", "\n")
               d2ldddt },   
              d2ldvdt = function(y,mu,sigma,nu,tau) # 6
                     {
                 dldv0 <- (1-tau)*((tau+(1-tau)*dNBF(0,mu,sigma,nu))^(-1))*dNBF(0,mu,sigma,nu)*NBF()$dldv(0,mu,sigma,nu)
                  dldv <- ifelse(y==0, dldv0, NBF()$dldv(y,mu,sigma,nu))
                 dldt0 <- ((tau+(1-tau)*dNBF(0,mu,sigma, nu))^(-1))*(1-dNBF(0,mu,sigma, nu))
                  dldt <- ifelse(y==0, dldt0, -1/(1-tau))
               d2ldvdt <- -dldv *dldt
               d2ldvdt <- ifelse(d2ldvdt < -1e-15, d2ldvdt,-1e-15) 
               #cat("nu-tau", "\n")
               d2ldvdt },      
          G.dev.incr  = function(y,mu,sigma,nu,tau, ...) -2*dZINBF(y, mu, sigma, nu, tau, log=TRUE),
                rqres = expression(    
                        rqres(pfun="pZINBF", type="Discrete", ymin=0, y=y, mu=mu, sigma=sigma, nu=nu, tau=tau)
                                  ), 
            mu.initial = expression(mu<- (y+mean(y))/2 ),
         sigma.initial = expression(
                      sigma <- rep( max( ((var(y)-mean(y))/(mean(y)^2)),0.1),length(y))),
            nu.initial = expression({  nu <- rep(2,length(y)) }), 
           tau.initial = expression({  tau <- rep(.1, length(y)) }), 
              mu.valid = function(mu) all(mu > 0) , 
           sigma.valid = function(sigma)  all(sigma > 0), 
              nu.valid = function(nu) all(nu > 0), 
             tau.valid = function(tau) all(tau > 0 & tau < 1),  
               y.valid = function(y)  all(y >= 0)
          ),
            class = c("gamlss.family","family"))
}
#----------------------------------------------------------------------------------------
#------------------------------------------------------------------------------------------
#------------------------------------------------------------------------------------------
dZINBF<-function(x, mu=1, sigma=1, nu=2, tau=0.1, log=FALSE)
  { 
   if (any(mu <= 0) )  stop(paste("mu must be greater than 0 ", "\n", "")) 
   if (any(sigma <= 0) )  stop(paste("sigma must be greater than 0 ", "\n", "")) 
   if (any(tau <= 0)|any(tau >= 1))  stop(paste("tau must be between 0 and 1 ", "\n", ""))
   if (any(x < 0) )  stop(paste("x must be >=0", "\n", ""))  
       ly <- max(length(x),length(mu),length(sigma),length(nu),length(tau)) 
        x <- rep(x, length = ly)      
    sigma <- rep(sigma, length = ly)
       mu <- rep(mu, length = ly)   
       nu <- rep(nu, length = ly)
      tau <- rep(tau, length = ly) 
     fy <- dNBF(x, mu = mu, sigma=sigma, nu=nu, log = T)
  logfy <- rep(0, length(x))
  logfy <- ifelse((x==0), log(tau+(1-tau)*exp(fy)), (log(1-tau) + fy ))          
  if(log == FALSE) fy2 <- exp(logfy) else fy2 <- logfy
  fy2  
  }
#----------------------------------------------------------------------------------------     
#-----------------------------------------------
pZINBF <- function(q, mu=1, sigma=1, nu=2, tau=0.1, lower.tail = TRUE, log.p = FALSE)
{ 
  
  if (any(mu <= 0) )  stop(paste("mu must be greater than 0 ", "\n", "")) 
  if (any(sigma <= 0) )  stop(paste("sigma must be greater than 0 ", "\n", "")) 
  if (any(tau <= 0)|any(tau >= 1)) #In this parametrization  nu = alpha
    stop(paste("tau must be between 0 and 1 ", "\n", ""))
  if (any(q < 0) )  stop(paste("y must be >=0", "\n", ""))
     ly <- max(length(q),length(mu),length(sigma),length(nu),length(tau)) 
      q <- rep(q, length = ly)      
  sigma <- rep(sigma, length = ly)
     mu <- rep(mu, length = ly)   
     nu <- rep(nu, length = ly) 
    tau <- rep(tau, length = ly) 
    cdf <- pNBF(q, mu = mu, sigma=sigma, nu=nu)
    cdf <- tau + (1-tau)*cdf
  if(lower.tail == TRUE) cdf <- cdf else cdf <-1-cdf
  if(log.p==FALSE) cdf <- cdf else cdf <- log(cdf)    
  cdf
}
#----------------------------------------------------------------------------------------
qZINBF <- function(p, mu=1, sigma=1, nu=2, tau=0.1, lower.tail = TRUE, log.p = FALSE)
  {      
        if (any(mu <= 0) )  stop(paste("mu must be greater than 0 ", "\n", "")) 
        if (any(sigma <= 0) )  stop(paste("sigma must be greater than 0 ", "\n", ""))
        if (any(tau <= 0)|any(tau >= 1))
         stop(paste("tau must be between 0 and 1 ", "\n", ""))
        if (any(p < 0) | any(p > 1.0001))  stop(paste("p must be between 0 and 1", "\n", ""))    
        if (log.p == TRUE) p <- exp(p)   else p <- p
        if (lower.tail == TRUE)  p <- p  else p <- 1 - p
        pnew <- (p-tau)/(1-tau)-(1e-7)# added 28-2-17
        pnew <- ifelse((pnew > 0 ),pnew, 0)
           q <- qNBF(pnew, mu = mu, sigma=sigma, nu)           
           q
   }
#----------------------------------------------------------------------------------------
rZINBF <- function(n, mu=1, sigma=1, nu=2, tau=0.1)
  { 
          if (any(mu <= 0))  stop(paste("mu must be greater than 0 ", "\n", "")) 
          if (any(sigma <= 0))  stop(paste("sigma must be greater than 0 ", "\n", "")) 
          if (any(tau <= 0)|any(tau >= 1))  #In this parametrization  nu = alpha
           stop(paste("tau 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 <- qZINBF(p, mu=mu, sigma=sigma, nu=nu)
             as.integer(r)
  }
#----------------------------------------------------------------------------------------
mstasinopoulos/GAMLSS-Distibutions documentation built on Nov. 3, 2023, 10:33 a.m.