R/sas.cmprsk.R
In jixccf/QHScrnomo: Construct nomograms for competing risk models
Defines functions
sas.cmprsk
Documented in
sas.cmprsk
##' Generate an equation to calculate X beta from a crr model fit
##' If specify a time point, the function also generates the subcumulative rate
##' at the time point.
##'
##' f should be fitted by the function \code{\link[QHScrnomo]{crr.fit}}
##'
##' @title generate prediction equation for a competing risks regression models
##' @param f a model fit from the competing risks regression.
##' @param time time point
##' @param baseonly logical variable. If true, only base survival probability
##' will be printed.
##' @param file A connection, or a character string naming the file to print to
##' @param append logical. Only used if the argument file is the name of file.
##' If TRUE output will be appended to file; otherwise, it will overwrite the
##' content of file
##' @return \item{out }{a character vector that can be output as a formula by
##' function cat} \item{Rout }{same as out except replacing
##' \code{"max"},\code{"min"},\code{"="} and \code{"**"} with
##' \code{"pmax"},\code{"pmin"}, \code{"=="} and
##' \eqn{\mbox{\textasciicircum}}{"^"} respectively so that the formula can
##' be pasted to R session and compute \code{X} beta directly without any
##' further modification}
##' @author changhong
##' @importFrom Hmisc Function sedit
##' @export
##' @seealso
##' \code{\link[rms]{sascode}},\code{\link[rms]{Function}},
##' \code{\link[QHScrnomo]{crr.fit}}
##' @keywords regression survival
##'
##' @examples
##'
##' data(prostate.dat)
##' dd <- datadist(prostate.dat)
##' options(datadist = "dd")
##' prostate.f <- cph(Surv(TIME_EVENT,EVENT_DOD == 1) ~ TX + rcs(PSA,3) +
##' BX_GLSN_CAT + CLIN_STG + rcs(AGE,3) +
##' RACE_AA, data = prostate.dat,
##' x = TRUE, y= TRUE, surv=TRUE,time.inc = 144)
##' prostate.crr <- crr.fit(prostate.f,cencode = 0,failcode = 1)
##' sas.cmprsk(prostate.crr, time = 60)
##'
sas.cmprsk <- function(
f, time = NA, baseonly = FALSE,
file = "", append = FALSE) {
call <- match.call()
call <- as.list(call)
if (!any(regexpr("cmprsk", attr(f, "class")) != -1)) {
stop(
call$f, " should be a model fitted by function crr.fit !")
}
# removed fill=F from command line
if (!is.na(time)) {
lhat <- cbind(f$uftime, exp(-cumsum(f$bfitj)))
if (time > max(lhat[, 1])) stop("choose a smaller predicting time")
lhat <- lhat[lhat[, 1.] <= time + 1e-10, ]
lhat <- lhat[dim(lhat)[1.], 2.]
if (file != "") {
cat("Base is ", lhat, "\n", file = file, append = append)
} else {
cat("Base is ", lhat, "\n")
}
}
if (!baseonly) {
cph.f <- f$cph.f
cph.f$coefficients <- f$coef
cph.f$var <- f$var
funout <- as.list(Function(cph.f))
n <- length(funout)
funout <- funout[[n]]
fn <- length(funout)
if (fn > 2) {
for (j in 2:(fn - 1)) {
trans <- deparse(funout[[j]])
trans <- sedit(
trans,
from = c("pmax", "pmin", "<-", "==", "^"),
to = c("max", "min", "=", "=", "**"),
wild.literal = TRUE
)
cat(trans, "\n")
}
}
out <- (funout)[[fn]]
out2 <- deparse(out)
pos <- gregexpr("[+-]", out2[1])[[1]]
pos2 <- pos[pos > 1][1]
# remove the intercept that is the center of cph model
# but unapplicable for crr
out2[1] <- ifelse(
substring(out2[1], pos2, pos2) == "+",
substring(out2[1], pos2 + 1),
substring(out2[1], pos2)
)
out3 <- out2
out4 <- sedit(
out3,
from = c("pmax", "pmin", "<-", "==", "^"),
to = c("max", "min", "=", "=", "**"), wild.literal = TRUE
)
if (file == "") {
cat(out4, sep = "\n")
} else {
cat(out4, sep = "\n", file = file, append = TRUE)
}
}
}
jixccf/QHScrnomo documentation built on Dec. 21, 2021, 12:08 a.m.
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Defines functions sas.cmprsk
Documented in sas.cmprsk
##' Generate an equation to calculate X beta from a crr model fit
##' If specify a time point, the function also generates the subcumulative rate
##' at the time point.
##'
##' f should be fitted by the function \code{\link[QHScrnomo]{crr.fit}}
##'
##' @title generate prediction equation for a competing risks regression models
##' @param f a model fit from the competing risks regression.
##' @param time time point
##' @param baseonly logical variable. If true, only base survival probability
##' will be printed.
##' @param file A connection, or a character string naming the file to print to
##' @param append logical. Only used if the argument file is the name of file.
##' If TRUE output will be appended to file; otherwise, it will overwrite the
##' content of file
##' @return \item{out }{a character vector that can be output as a formula by
##' function cat} \item{Rout }{same as out except replacing
##' \code{"max"},\code{"min"},\code{"="} and \code{"**"} with
##' \code{"pmax"},\code{"pmin"}, \code{"=="} and
##' \eqn{\mbox{\textasciicircum}}{"^"} respectively so that the formula can
##' be pasted to R session and compute \code{X} beta directly without any
##' further modification}
##' @author changhong
##' @importFrom Hmisc Function sedit
##' @export
##' @seealso
##' \code{\link[rms]{sascode}},\code{\link[rms]{Function}},
##' \code{\link[QHScrnomo]{crr.fit}}
##' @keywords regression survival
##'
##' @examples
##'
##' data(prostate.dat)
##' dd <- datadist(prostate.dat)
##' options(datadist = "dd")
##' prostate.f <- cph(Surv(TIME_EVENT,EVENT_DOD == 1) ~ TX + rcs(PSA,3) +
##' BX_GLSN_CAT + CLIN_STG + rcs(AGE,3) +
##' RACE_AA, data = prostate.dat,
##' x = TRUE, y= TRUE, surv=TRUE,time.inc = 144)
##' prostate.crr <- crr.fit(prostate.f,cencode = 0,failcode = 1)
##' sas.cmprsk(prostate.crr, time = 60)
##'
sas.cmprsk <- function(
f, time = NA, baseonly = FALSE,
file = "", append = FALSE) {
call <- match.call()
call <- as.list(call)
if (!any(regexpr("cmprsk", attr(f, "class")) != -1)) {
stop(
call$f, " should be a model fitted by function crr.fit !")
}
# removed fill=F from command line
if (!is.na(time)) {
lhat <- cbind(f$uftime, exp(-cumsum(f$bfitj)))
if (time > max(lhat[, 1])) stop("choose a smaller predicting time")
lhat <- lhat[lhat[, 1.] <= time + 1e-10, ]
lhat <- lhat[dim(lhat)[1.], 2.]
if (file != "") {
cat("Base is ", lhat, "\n", file = file, append = append)
} else {
cat("Base is ", lhat, "\n")
}
}
if (!baseonly) {
cph.f <- f$cph.f
cph.f$coefficients <- f$coef
cph.f$var <- f$var
funout <- as.list(Function(cph.f))
n <- length(funout)
funout <- funout[[n]]
fn <- length(funout)
if (fn > 2) {
for (j in 2:(fn - 1)) {
trans <- deparse(funout[[j]])
trans <- sedit(
trans,
from = c("pmax", "pmin", "<-", "==", "^"),
to = c("max", "min", "=", "=", "**"),
wild.literal = TRUE
)
cat(trans, "\n")
}
}
out <- (funout)[[fn]]
out2 <- deparse(out)
pos <- gregexpr("[+-]", out2[1])[[1]]
pos2 <- pos[pos > 1][1]
# remove the intercept that is the center of cph model
# but unapplicable for crr
out2[1] <- ifelse(
substring(out2[1], pos2, pos2) == "+",
substring(out2[1], pos2 + 1),
substring(out2[1], pos2)
)
out3 <- out2
out4 <- sedit(
out3,
from = c("pmax", "pmin", "<-", "==", "^"),
to = c("max", "min", "=", "=", "**"), wild.literal = TRUE
)
if (file == "") {
cat(out4, sep = "\n")
} else {
cat(out4, sep = "\n", file = file, append = TRUE)
}
}
}
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