* using log directory ‘/home/hornik/tmp/R.check/r-release-gcc/Work/PKGS/autoMFA.Rcheck’
* using R version 4.4.2 (2024-10-31)
* using platform: x86_64-pc-linux-gnu
* R was compiled by
    gcc-14 (Debian 14.2.0-16) 14.2.0
    GNU Fortran (Debian 14.2.0-16) 14.2.0
* running under: Debian GNU/Linux trixie/sid
* using session charset: UTF-8
* checking for file ‘autoMFA/DESCRIPTION’ ... OK
* this is package ‘autoMFA’ version ‘1.0.0’
* package encoding: UTF-8
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See 'https://www.r-project.org/nosvn/R.check/r-release-linux-x86_64/autoMFA-00install.html' for details.
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* checking Rd files ... [1s/1s] NOTE
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                              ^
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                          ^
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                      ^
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                       ^
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                   ^
checkRd: (-1) AMFA.Rd:37: Lost braces; missing escapes or markup?
    37 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                            ^
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checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                              ^
checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                          ^
checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                      ^
checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                       ^
checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                   ^
checkRd: (-1) AMFA.inc.Rd:30: Lost braces; missing escapes or markup?
    30 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                            ^
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checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                              ^
checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                          ^
checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                      ^
checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                       ^
checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                   ^
checkRd: (-1) MFA_ECM.Rd:43: Lost braces; missing escapes or markup?
    43 | \item{conv_measure}{The convergence criterion of the ECM algorithm. The default \code{'diff'} stops the ECM iterations if |l^{(k+1)} - l^{(k)}| < \code{tol} where l^{(k)} is the log-likelihood at the \emph{k}th ECM iteration. If \code{'ratio'}, then the convergence of the ECM iterations is measured using |(l^{(k+1)} - l^{(k)})/l^{(k+1)}|.}
       |                                                                                                                                                                                                                                                                                                                                            ^
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* checking Rd metadata ... OK
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Examples with CPU (user + system) or elapsed time > 5s
         user system elapsed
MFA_ECM 5.618  0.036   6.619
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* DONE
Status: 1 NOTE