* using log directory ‘/Volumes/Builds/packages/big-sur-x86_64/results/4.4/smoothROCtime.Rcheck’
* using R version 4.4.0 (2024-04-24)
* using platform: x86_64-apple-darwin20
* R was compiled by
    Apple clang version 14.0.0 (clang-1400.0.29.202)
    GNU Fortran (GCC) 12.2.0
* running under: macOS Ventura 13.3.1
* using session charset: UTF-8
* checking for file ‘smoothROCtime/DESCRIPTION’ ... OK
* checking extension type ... Package
* this is package ‘smoothROCtime’ version ‘0.1.0’
* checking package namespace information ... OK
* checking package dependencies ... OK
* checking if this is a source package ... OK
* checking if there is a namespace ... OK
* checking for executable files ... OK
* checking for hidden files and directories ... OK
* checking for portable file names ... OK
* checking for sufficient/correct file permissions ... OK
* checking whether package ‘smoothROCtime’ can be installed ... [5s/5s] OK
See 'https://www.r-project.org/nosvn/R.check/r-release-macos-x86_64/smoothROCtime-00install.html' for details.
* checking installed package size ... OK
* checking package directory ... OK
* checking DESCRIPTION meta-information ... OK
* checking top-level files ... OK
* checking for left-over files ... OK
* checking index information ... OK
* checking package subdirectories ... OK
* checking code files for non-ASCII characters ... OK
* checking R files for syntax errors ... OK
* checking whether the package can be loaded ... [1s/1s] OK
* checking whether the package can be loaded with stated dependencies ... [1s/1s] OK
* checking whether the package can be unloaded cleanly ... [1s/1s] OK
* checking whether the namespace can be loaded with stated dependencies ... [1s/1s] OK
* checking whether the namespace can be unloaded cleanly ... [1s/1s] OK
* checking loading without being on the library search path ... [1s/1s] OK
* checking dependencies in R code ... OK
* checking S3 generic/method consistency ... OK
* checking replacement functions ... OK
* checking foreign function calls ... OK
* checking R code for possible problems ... [4s/4s] OK
* checking Rd files ... [0s/0s] NOTE
checkRd: (-1) funcen.Rd:14: Lost braces; missing escapes or markup?
    14 |   \item{bw}{method for computing the bandwidth matrix. Most of the methods included in the \code{\link{kde}} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                           ^
checkRd: (-1) funcen.Rd:14: Lost braces; missing escapes or markup?
    14 |   \item{bw}{method for computing the bandwidth matrix. Most of the methods included in the \code{\link{kde}} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                     ^
checkRd: (-1) funcen.Rd:14: Lost braces; missing escapes or markup?
    14 |   \item{bw}{method for computing the bandwidth matrix. Most of the methods included in the \code{\link{kde}} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                                                      ^
checkRd: (-1) funcen.Rd:14: Lost braces; missing escapes or markup?
    14 |   \item{bw}{method for computing the bandwidth matrix. Most of the methods included in the \code{\link{kde}} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                                                                ^
checkRd: (-1) smoothROCtime-package.Rd:12: Lost braces
    12 |             \item \code{\link{funcen}}: {Bivariate kernel density estimation of the joint density function of the \eqn{(marker, time-to-event)} variable.}
       |                                         ^
checkRd: (-1) smoothROCtime-package.Rd:13: Lost braces; missing escapes or markup?
    13 |             \item \code{\link{stRoc}}: {Smooth estimations for Cumulative/Dynamic and Incident/Dynamic ROC curves.}
       |                                        ^
checkRd: (-1) smoothROCtime-package.Rd:14: Lost braces; missing escapes or markup?
    14 |             \item \code{\link{plot.sROCt}}: {Plots of Cumulative/Dynamic and Incident/Dyanmic ROC curve estimations.}
       |                                             ^
checkRd: (-1) stRoc.Rd:17: Lost braces; missing escapes or markup?
    17 |  \item{bw}{procedure for computing the bandwidth matrix. Most of the methods included at the \code{kde} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                      ^
checkRd: (-1) stRoc.Rd:17: Lost braces; missing escapes or markup?
    17 |  \item{bw}{procedure for computing the bandwidth matrix. Most of the methods included at the \code{kde} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                ^
checkRd: (-1) stRoc.Rd:17: Lost braces; missing escapes or markup?
    17 |  \item{bw}{procedure for computing the bandwidth matrix. Most of the methods included at the \code{kde} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                                                 ^
checkRd: (-1) stRoc.Rd:17: Lost braces; missing escapes or markup?
    17 |  \item{bw}{procedure for computing the bandwidth matrix. Most of the methods included at the \code{kde} function can be used: Hpi, Hpi.diag, Hlscv, Hlscv.diag, Hbcv, Hbcv.diag, Hscv, Hscv.diag, Hucv and Hucv.diag. Other considered methods are naive.pdf (diag(N^{-1/5}, N^{-1/5})^2) and naive.cdf (diag(N^{-1/3}, N^{-1/3})^2), where N is the sample size.}
       |                                                                                                                                                                                                                                                                                                                           ^
checkRd: (-1) stRoc.Rd:69: Lost braces; missing escapes or markup?
    69 |        \item {\code{time}} - {single point of time at which the estimation each the C/D ROC curve has been computed.}
       |                              ^
checkRd: (-1) stRoc.Rd:70: Lost braces; missing escapes or markup?
    70 |        \item {\code{obvt}} - {observed times for the individuals in the sample.}
       |                              ^
checkRd: (-1) stRoc.Rd:71: Lost braces; missing escapes or markup?
    71 |        \item {\code{p}} - {estimations of the probabilities computed and allocated to each subject.}
       |                           ^
* checking Rd metadata ... OK
* checking Rd cross-references ... OK
* checking for missing documentation entries ... OK
* checking for code/documentation mismatches ... OK
* checking Rd \usage sections ... OK
* checking Rd contents ... OK
* checking for unstated dependencies in examples ... OK
* checking LazyData ... NOTE
  'LazyData' is specified without a 'data' directory
* checking examples ... [18s/18s] OK
* checking PDF version of manual ... [5s/5s] OK
* DONE
Status: 2 NOTEs
* using check arguments '--no-clean-on-error '

* elapsed time (check, wall clock): 0:58