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R/cfit9.R
In demofit: Parametric Mortality Curve Fitting and Mortality Forecasting Tools
Defines functions
residuals.cFit9
deviance.cFit9
plot.cFit9
predict.cFit9
fitted.cFit9
coef.cFit9
cfit9
#' @importFrom minpack.lm nls.lm
#' @importFrom stats nlminb
#' @importFrom graphics lines legend
cfit9 <- function(x,m,w) {
if (!is.numeric(x)||!is.numeric(m)) { stop("x and m must be numeric") }
if (!is.vector(x)||!is.vector(m)) { stop("x and m must be vectors") }
if (length(x)!=length(m)) { stop("x and m must have the same length") }
if (is.unsorted(x,strictly=TRUE)) { stop("x must be in ascending order") }
if (any(x<0)) { stop("x must be non-negative") }
if (any(m<=0)) { stop("m must be positive") }
if (length(w)!=length(x)) { stop("w must have the same length as x and m") }
if (any(w<0)) { stop("w must be non-negative") }
f <- function(p) { sum(w *(log(m)-log(p[1]*exp(p[3]*x)/(1+p[2]*exp(p[3]*x))))^2) }
suppressWarnings(resulta <- nlminb(c(0.00001,0.00001,0.1),f,lower=c(0,0,0),upper=c(Inf,Inf,Inf)))
h <- function(p) { sqrt(w)*(log(m)-log(p[1]*exp(p[3]*x)/(1+p[2]*exp(p[3]*x)))) }
suppressWarnings(resultb <- nls.lm(c(0.00001,0.00001,0.1),h,lower=c(0,0,0),upper=c(Inf,Inf,Inf)))
oa = ifelse (is.finite(resulta$objective),resulta$objective,Inf)
ob = ifelse (is.finite(sum(resultb$fvec^2)),sum(resultb$fvec^2),Inf)
if (all(!is.finite(c(oa,ob)))) stop("all optimisation attempts are unsuccessful")
ind = which.min(c(oa,ob))
if (ind==1) {
A <- resulta$par[1]
B <- resulta$par[2]
C <- resulta$par[3]
} else if (ind==2) {
A <- resultb$par[1]
B <- resultb$par[2]
C <- resultb$par[3]
}
fitted <- A*exp(C*x)/(1+B*exp(C*x))
structure(
list(curve="Beard",x=x,m=m,w=w,A=A,B=B,C=C,fitted=fitted),
class="cFit9"
)
}
#' @export
coef.cFit9 <- function(object,...) {
c(A=object$A,B=object$B,C=object$C)
}
#' @export
fitted.cFit9 <- function(object,...) {
object$fitted
}
#' @export
predict.cFit9 <- function(object,newdata,...) {
object$A*exp(object$C*newdata)/(1+object$B*exp(object$C*newdata))
}
#' @export
plot.cFit9 <- function(x,...) {
plot(x$x,log(x$m),xlab="age",ylab="log death rate",pch=16,cex=0.5,bty="n")
lines(x$x,log(x$fitted))
legend("bottomright",legend=c("observed","fitted"),pch=c(16,NA),lty=c(NA,1),pt.cex=0.5,cex=0.8,bty="n")
}
#' @export
deviance.cFit9 <- function(object,...) {
sum(object$w*(log(object$m)-log(object$fitted))^2)
}
#' @export
residuals.cFit9 <- function(object,...) {
log(object$m)-log(object$fitted)
}
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demofit documentation built on April 9, 2026, 5:09 p.m.
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Defines functions residuals.cFit9 deviance.cFit9 plot.cFit9 predict.cFit9 fitted.cFit9 coef.cFit9 cfit9
#' @importFrom minpack.lm nls.lm
#' @importFrom stats nlminb
#' @importFrom graphics lines legend
cfit9 <- function(x,m,w) {
if (!is.numeric(x)||!is.numeric(m)) { stop("x and m must be numeric") }
if (!is.vector(x)||!is.vector(m)) { stop("x and m must be vectors") }
if (length(x)!=length(m)) { stop("x and m must have the same length") }
if (is.unsorted(x,strictly=TRUE)) { stop("x must be in ascending order") }
if (any(x<0)) { stop("x must be non-negative") }
if (any(m<=0)) { stop("m must be positive") }
if (length(w)!=length(x)) { stop("w must have the same length as x and m") }
if (any(w<0)) { stop("w must be non-negative") }
f <- function(p) { sum(w *(log(m)-log(p[1]*exp(p[3]*x)/(1+p[2]*exp(p[3]*x))))^2) }
suppressWarnings(resulta <- nlminb(c(0.00001,0.00001,0.1),f,lower=c(0,0,0),upper=c(Inf,Inf,Inf)))
h <- function(p) { sqrt(w)*(log(m)-log(p[1]*exp(p[3]*x)/(1+p[2]*exp(p[3]*x)))) }
suppressWarnings(resultb <- nls.lm(c(0.00001,0.00001,0.1),h,lower=c(0,0,0),upper=c(Inf,Inf,Inf)))
oa = ifelse (is.finite(resulta$objective),resulta$objective,Inf)
ob = ifelse (is.finite(sum(resultb$fvec^2)),sum(resultb$fvec^2),Inf)
if (all(!is.finite(c(oa,ob)))) stop("all optimisation attempts are unsuccessful")
ind = which.min(c(oa,ob))
if (ind==1) {
A <- resulta$par[1]
B <- resulta$par[2]
C <- resulta$par[3]
} else if (ind==2) {
A <- resultb$par[1]
B <- resultb$par[2]
C <- resultb$par[3]
}
fitted <- A*exp(C*x)/(1+B*exp(C*x))
structure(
list(curve="Beard",x=x,m=m,w=w,A=A,B=B,C=C,fitted=fitted),
class="cFit9"
)
}
#' @export
coef.cFit9 <- function(object,...) {
c(A=object$A,B=object$B,C=object$C)
}
#' @export
fitted.cFit9 <- function(object,...) {
object$fitted
}
#' @export
predict.cFit9 <- function(object,newdata,...) {
object$A*exp(object$C*newdata)/(1+object$B*exp(object$C*newdata))
}
#' @export
plot.cFit9 <- function(x,...) {
plot(x$x,log(x$m),xlab="age",ylab="log death rate",pch=16,cex=0.5,bty="n")
lines(x$x,log(x$fitted))
legend("bottomright",legend=c("observed","fitted"),pch=c(16,NA),lty=c(NA,1),pt.cex=0.5,cex=0.8,bty="n")
}
#' @export
deviance.cFit9 <- function(object,...) {
sum(object$w*(log(object$m)-log(object$fitted))^2)
}
#' @export
residuals.cFit9 <- function(object,...) {
log(object$m)-log(object$fitted)
}
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