Check results for 'ExtremeRisks'

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 ‘ExtremeRisks/DESCRIPTION’ ... OK
this is package ‘ExtremeRisks’ version ‘0.0.4’
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 ‘ExtremeRisks’ can be installed ... [9s/9s] OK See the install log 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 ... [2s/2s] OK
checking whether the package can be loaded with stated dependencies ... [2s/2s] OK
checking whether the package can be unloaded cleanly ... [2s/2s] OK
checking whether the namespace can be loaded with stated dependencies ... [2s/2s] OK
checking whether the namespace can be unloaded cleanly ... [2s/2s] OK
checking loading without being on the library search path ... [2s/2s] 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 ... [10s/10s] OK
checking Rd files ... [1s/1s] NOTE checkRd: (-1) estMultiExpectiles.Rd:30: Lost braces 30 | \item If \code{var=TRUE} then an estimate of the asymptotic variance-covariance matrix of the \code{d}-dimensional expecile estimator is computed. If the data are regarded as \code{d}-dimensional temporal independent observations coming from dependent variables. Then, the asymptotic variance-covariance matrix is estimated by the formulas in section 3.1 of Padoan and Stupfler (2020). In particular, the variance-covariance matrix is computed exploiting the asymptotic behaviour of the relative explectile estimator appropriately normalized and using a suitable adjustment. This is achieved through \code{varType="asym-Ind-Adj"}. The data can also be regarded as code{d}-dimensional temporal independent observations coming from independent variables. In this case the asymptotic variance-covariance matrix is diagonal and is also computed exploiting the formulas in section 3.1 of Padoan and Stupfler (2020). This is achieved through \code{varType="asym-Ind"}. | ^ checkRd: (-1) predMultiExpectiles.Rd:33: Lost braces 33 | \item If \code{var=TRUE} then an estimate of the asymptotic variance-covariance matrix of the \eqn{tau'_n}-\emph{th} \code{d}-dimensional expectile is computed. Notice that the estimation of the asymptotic variance-covariance matrix \bold{is only available} when \eqn{\gamma} is estimated using the Hill estimator (see \link{MultiHTailIndex}). The data are regarded as temporal independent observations coming from dependent variables. The asymptotic variance-covariance matrix is estimated exploiting the formulas in Section 3.2 of Padoan and Stupfler (2020). The variance-covariance matrix is computed exploiting the asymptotic behaviour of the normalized expectile estimator which is expressed in logarithmic scale. In addition, a suitable adjustment is considered. This is achieved through \code{varType="asym-Ind-Adj-Log"}. The data can also be regarded as code{d}-dimensional temporal independent observations coming from independent variables. In this case the asymptotic variance-covariance matrix is diagonal and is also computed exploiting the formulas in Section 3.2 of Padoan and Stupfler (2020). This is achieved through \code{varType="asym-Ind-Log"}. If \code{varType="asym-Ind-Adj"}, then the variance-covariance matrix is computed exploiting the asymptotic behaviour of the relative expectile estimator appropriately normalized and exploiting a suitable adjustment. This concerns the case of dependent variables. The case of independent variables is achieved through \code{varType="asym-Ind"}. | ^ checkRd: (-1) sp500.Rd:5: Escaped LaTeX specials: \&
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 contents of ‘data’ directory ... OK
checking data for non-ASCII characters ... [0s/0s] OK
checking data for ASCII and uncompressed saves ... OK
checking examples ... [4s/4s] OK
checking PDF version of manual ... [7s/7s] OK
DONE Status: 1 NOTE
using check arguments '--no-clean-on-error '