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R/GeneralisedPoisson.R
In gamlss.dist: Distributions for Generalized Additive Models for Location Scale and Shape
Defines functions
rGPO
qGPO
pGPO
dGPO
Documented in
dGPO
pGPO
qGPO
rGPO
# MS
# last modification Feb 2018
# the
#------------------------------------------------------------------------------------------
GPO <- function (mu.link = "log", sigma.link = "log")
{
mstats <- checklink("mu.link", "Negative Binomial type I", substitute(mu.link),
c("inverse", "log", "identity", "sqrt"))
dstats <- checklink("sigma.link", "Negative Binomial type I", substitute(sigma.link),
c("inverse", "log", "identity", "sqrt"))
structure(
list(family = c("GPO", "Generalised Poisson"),
parameters = list(mu = TRUE,sigma = TRUE),
nopar = 2,
type = "Discrete",
mu.link = as.character(substitute(mu.link)),
sigma.link = as.character(substitute(sigma.link)),
mu.linkfun = mstats$linkfun,
sigma.linkfun = dstats$linkfun,
mu.linkinv = mstats$linkinv,
sigma.linkinv = dstats$linkinv,
mu.dr = mstats$mu.eta,
sigma.dr = dstats$mu.eta,
dldm = function(y,mu,sigma)
{ # that seems OK/
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
dldm
},
d2ldm2 = function(y, mu,sigma) {
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
d2ldm2 <- -dldm^2
d2ldm2
},
dldd = function(y,mu,sigma)
{
dldd <- -(mu*y)/(mu*sigma+1)+((mu^2)*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
dldd
},
d2ldd2 = function(y,mu,sigma) {# eval.parent(quote(-dldp*dldp))
dldd = -((mu*y)/(mu*sigma+1))+(mu*mu*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
d2ldd2 <- -dldd^2
d2ldd2 <- ifelse(d2ldd2 < -1e-15, d2ldd2,-1e-15)
d2ldd2
}, #change this
d2ldmdd = function(y, mu, sigma) {
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
dldd = -mu*y/(mu*sigma+1)+(mu*mu*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
d2ldmdd <- -(dldm) * (dldd)
d2ldmdd <- ifelse(d2ldmdd < -1e-15, d2ldmdd,-1e-15)
d2ldmdd
},
G.dev.incr = function(y,mu,sigma,...) -2*dGPO(y, mu = mu, sigma = sigma, log = TRUE),
rqres = expression(
rqres(pfun="pGPO", type="Discrete", ymin=0, y=y, mu=mu, sigma=sigma)
),
mu.initial = expression(mu <- (y+mean(y))/2),
sigma.initial = expression(
sigma <- rep( 0.1,length(y))),
mu.valid = function(mu) all(mu > 0) ,
sigma.valid = function(sigma) all(sigma > 0),
y.valid = function(y) all(y >= 0),
mean = function(mu, sigma) mu,
variance = function(mu, sigma) mu * (1 + sigma * mu)^2
),
class = c("gamlss.family","family"))
}
#-------------------------------------------------------------------------------------------
dGPO<-function(x, mu = 1, sigma = 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(x < 0) ) stop(paste("x must be >=0", "\n", ""))
ly <- max(length(x),length(mu),length(sigma))
x <- rep(x, length = ly)
sigma <- rep(sigma, length = ly)
mu <- rep(mu, length = ly)
logL <- x*log(mu/(1+sigma*mu))+(x-1)*log(1+sigma*x)+(-mu*(1+sigma*x))/(1+sigma*mu)-lgamma(x+1)
Lik <- if (log) logL else exp(logL)
if (length(sigma)>1) fy <- ifelse(sigma>0.0000001,
Lik,
dPO(x, mu = mu, log = log))
else fy <- if (sigma<0.0001) dPO(x, mu = mu, log = log)
else Lik
fy <-ifelse(x < 0, 0, fy)
fy
}
#------------------------------------------------------------------------------------------
pGPO <- function(q, mu = 1, sigma = 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(q < 0) ) stop(paste("y must be >=0", "\n", ""))
if (any(sigma <= 0) ) stop(paste("sigma must be greater than 0 ", "\n", ""))
ly <- length(q)
FFF <- rep(0,ly)
nsigma <- rep(sigma, length = ly)
nmu <- rep(mu, length = ly)
j <- seq(along=q)
for (i in j)
{
y.y <- q[i]
mm <- nmu[i]
nsig <- nsigma[i]
allval <- seq(0,y.y)
pdfall <- dGPO(allval, mu = mm, sigma = nsig, log = FALSE)
FFF[i] <- sum(pdfall)
}
cdf <- FFF
cdf <- if(lower.tail==TRUE) cdf else 1-cdf
cdf <- if(log.p==FALSE) cdf else log(cdf)
# cdf
if (length(sigma)>1) cdf <- ifelse(sigma>0.0001,
cdf,
pPO(q, mu = mu, log.p = log.p, lower.tail=lower.tail))
else cdf <- if (sigma<0.0001) pPO(q, mu = mu, log.p = log.p, lower.tail=lower.tail)
else cdf
cdf <-ifelse(q < 0, 0, cdf)
cdf
}
#------------------------------------------------------------------------------------------
qGPO <- function(p, mu = 1, sigma = 1, lower.tail = TRUE, log.p = FALSE, max.value = 10000)
{
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(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
ly <- length(p)
QQQ <- rep(0,ly)
nsigma <- rep(sigma, length = ly)
nmu <- rep(mu, length = ly)
for (i in seq(along=p))
{
cumpro <- 0
if (p[i]+0.000000001 >= 1) QQQ[i] <- Inf
else
{
for (j in seq(from = 0, to = max.value))
{
cumpro <- pGPO(j, mu = nmu[i], sigma = nsigma[i], log.p = FALSE)
# else cumpro+dSICHEL(j, mu = nmu[i], sigma = nsigma[i], nu = nnu[i], log = FALSE)# the above is faster
QQQ[i] <- j
if (p[i] <= cumpro ) break
}
}
}
QQQ
}
#------------------------------------------------------------------------------------------
rGPO <- function(n, mu = 1, sigma = 1, max.value = 10000)
{
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(n <= 0)) stop(paste("n must be a positive integer", "\n", ""))
n <- ceiling(n)
p <- runif(n)
r <- qGPO(p, mu=mu, sigma=sigma, , max.value = max.value)
r
}
#------------------------------------------------------------------------------------------
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gamlss.dist documentation built on Aug. 24, 2023, 1:06 a.m.
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Defines functions rGPO qGPO pGPO dGPO
Documented in dGPO pGPO qGPO rGPO
# MS
# last modification Feb 2018
# the
#------------------------------------------------------------------------------------------
GPO <- function (mu.link = "log", sigma.link = "log")
{
mstats <- checklink("mu.link", "Negative Binomial type I", substitute(mu.link),
c("inverse", "log", "identity", "sqrt"))
dstats <- checklink("sigma.link", "Negative Binomial type I", substitute(sigma.link),
c("inverse", "log", "identity", "sqrt"))
structure(
list(family = c("GPO", "Generalised Poisson"),
parameters = list(mu = TRUE,sigma = TRUE),
nopar = 2,
type = "Discrete",
mu.link = as.character(substitute(mu.link)),
sigma.link = as.character(substitute(sigma.link)),
mu.linkfun = mstats$linkfun,
sigma.linkfun = dstats$linkfun,
mu.linkinv = mstats$linkinv,
sigma.linkinv = dstats$linkinv,
mu.dr = mstats$mu.eta,
sigma.dr = dstats$mu.eta,
dldm = function(y,mu,sigma)
{ # that seems OK/
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
dldm
},
d2ldm2 = function(y, mu,sigma) {
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
d2ldm2 <- -dldm^2
d2ldm2
},
dldd = function(y,mu,sigma)
{
dldd <- -(mu*y)/(mu*sigma+1)+((mu^2)*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
dldd
},
d2ldd2 = function(y,mu,sigma) {# eval.parent(quote(-dldp*dldp))
dldd = -((mu*y)/(mu*sigma+1))+(mu*mu*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
d2ldd2 <- -dldd^2
d2ldd2 <- ifelse(d2ldd2 < -1e-15, d2ldd2,-1e-15)
d2ldd2
}, #change this
d2ldmdd = function(y, mu, sigma) {
dldm <- -(sigma*y+1)/(mu*sigma+1)+(sigma*mu*(sigma*y+1))/(mu*sigma+1)^2+
((mu*sigma+1)*(1/(mu*sigma+1)-(mu*sigma)/(mu*sigma+1)^2)*y)/mu
dldd = -mu*y/(mu*sigma+1)+(mu*mu*(sigma*y+1))/(mu*sigma+1)^2+
((y-1)*y)/(sigma*y+1)-(mu*y)/(mu*sigma+1)
d2ldmdd <- -(dldm) * (dldd)
d2ldmdd <- ifelse(d2ldmdd < -1e-15, d2ldmdd,-1e-15)
d2ldmdd
},
G.dev.incr = function(y,mu,sigma,...) -2*dGPO(y, mu = mu, sigma = sigma, log = TRUE),
rqres = expression(
rqres(pfun="pGPO", type="Discrete", ymin=0, y=y, mu=mu, sigma=sigma)
),
mu.initial = expression(mu <- (y+mean(y))/2),
sigma.initial = expression(
sigma <- rep( 0.1,length(y))),
mu.valid = function(mu) all(mu > 0) ,
sigma.valid = function(sigma) all(sigma > 0),
y.valid = function(y) all(y >= 0),
mean = function(mu, sigma) mu,
variance = function(mu, sigma) mu * (1 + sigma * mu)^2
),
class = c("gamlss.family","family"))
}
#-------------------------------------------------------------------------------------------
dGPO<-function(x, mu = 1, sigma = 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(x < 0) ) stop(paste("x must be >=0", "\n", ""))
ly <- max(length(x),length(mu),length(sigma))
x <- rep(x, length = ly)
sigma <- rep(sigma, length = ly)
mu <- rep(mu, length = ly)
logL <- x*log(mu/(1+sigma*mu))+(x-1)*log(1+sigma*x)+(-mu*(1+sigma*x))/(1+sigma*mu)-lgamma(x+1)
Lik <- if (log) logL else exp(logL)
if (length(sigma)>1) fy <- ifelse(sigma>0.0000001,
Lik,
dPO(x, mu = mu, log = log))
else fy <- if (sigma<0.0001) dPO(x, mu = mu, log = log)
else Lik
fy <-ifelse(x < 0, 0, fy)
fy
}
#------------------------------------------------------------------------------------------
pGPO <- function(q, mu = 1, sigma = 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(q < 0) ) stop(paste("y must be >=0", "\n", ""))
if (any(sigma <= 0) ) stop(paste("sigma must be greater than 0 ", "\n", ""))
ly <- length(q)
FFF <- rep(0,ly)
nsigma <- rep(sigma, length = ly)
nmu <- rep(mu, length = ly)
j <- seq(along=q)
for (i in j)
{
y.y <- q[i]
mm <- nmu[i]
nsig <- nsigma[i]
allval <- seq(0,y.y)
pdfall <- dGPO(allval, mu = mm, sigma = nsig, log = FALSE)
FFF[i] <- sum(pdfall)
}
cdf <- FFF
cdf <- if(lower.tail==TRUE) cdf else 1-cdf
cdf <- if(log.p==FALSE) cdf else log(cdf)
# cdf
if (length(sigma)>1) cdf <- ifelse(sigma>0.0001,
cdf,
pPO(q, mu = mu, log.p = log.p, lower.tail=lower.tail))
else cdf <- if (sigma<0.0001) pPO(q, mu = mu, log.p = log.p, lower.tail=lower.tail)
else cdf
cdf <-ifelse(q < 0, 0, cdf)
cdf
}
#------------------------------------------------------------------------------------------
qGPO <- function(p, mu = 1, sigma = 1, lower.tail = TRUE, log.p = FALSE, max.value = 10000)
{
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(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
ly <- length(p)
QQQ <- rep(0,ly)
nsigma <- rep(sigma, length = ly)
nmu <- rep(mu, length = ly)
for (i in seq(along=p))
{
cumpro <- 0
if (p[i]+0.000000001 >= 1) QQQ[i] <- Inf
else
{
for (j in seq(from = 0, to = max.value))
{
cumpro <- pGPO(j, mu = nmu[i], sigma = nsigma[i], log.p = FALSE)
# else cumpro+dSICHEL(j, mu = nmu[i], sigma = nsigma[i], nu = nnu[i], log = FALSE)# the above is faster
QQQ[i] <- j
if (p[i] <= cumpro ) break
}
}
}
QQQ
}
#------------------------------------------------------------------------------------------
rGPO <- function(n, mu = 1, sigma = 1, max.value = 10000)
{
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(n <= 0)) stop(paste("n must be a positive integer", "\n", ""))
n <- ceiling(n)
p <- runif(n)
r <- qGPO(p, mu=mu, sigma=sigma, , max.value = max.value)
r
}
#------------------------------------------------------------------------------------------
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