* using log directory 'd:/Rcompile/CRANpkg/local/4.4/prodest.Rcheck' * using R version 4.4.0 RC (2024-04-16 r86468 ucrt) * using platform: x86_64-w64-mingw32 * R was compiled by gcc.exe (GCC) 13.2.0 GNU Fortran (GCC) 13.2.0 * running under: Windows Server 2022 x64 (build 20348) * using session charset: UTF-8 * checking for file 'prodest/DESCRIPTION' ... OK * checking extension type ... Package * this is package 'prodest' version '1.0.1' * 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 hidden files and directories ... OK * checking for portable file names ... OK * checking whether package 'prodest' can be installed ... OK * 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] OK * checking whether the package can be loaded with stated dependencies ... [2s] OK * checking whether the package can be unloaded cleanly ... [2s] OK * checking whether the namespace can be loaded with stated dependencies ... [2s] OK * checking whether the namespace can be unloaded cleanly ... [3s] OK * checking loading without being on the library search path ... [2s] OK * checking use of S3 registration ... 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 ... [8s] OK * checking Rd files ... [1s] NOTE checkRd: (-1) block.boot.resample.Rd:7: Lost braces; missing escapes or markup? 7 | Function to generate R vectors of resampled IDs. It works reshuffling the row number of the original data - which is stored in the input \code{idvar} along with the relative IDs. The output is a list (N_{i}x1xR), where N_{i} is a random number depending on the reshuffle. | ^ checkRd: (-1) block.boot.resample.Rd:7: Lost braces; missing escapes or markup? 7 | Function to generate R vectors of resampled IDs. It works reshuffling the row number of the original data - which is stored in the input \code{idvar} along with the relative IDs. The output is a list (N_{i}x1xR), where N_{i} is a random number depending on the reshuffle. | ^ checkRd: (-1) checkM.Rd:23: Lost braces 23 | \code{checkM()} accepts one input and - if code{input} is a matrix - returns it without column names, otherwise transforms it into a matrix and returns it without column names. | ^ checkRd: (-1) checkMD.Rd:23: Lost braces 23 | \code{checkMD()} accepts one input and - if code{input} is a matrix - returns it without column names, otherwise transforms it into a matrix and returns it without column names. In case any of the elements of input are different from 0 or 1, it stops the routine and throws an error. | ^ checkRd: (-1) gACF.Rd:47: Lost braces; missing escapes or markup? 47 | \code{gACF()} estimates the second stage of ACF routine. It accepts 7 inputs, generates and optimizes over the group of moment functions E(xi_{it}Z^{k}_{it}). | ^ checkRd: (-1) gACF.Rd:47: Lost braces; missing escapes or markup? 47 | \code{gACF()} estimates the second stage of ACF routine. It accepts 7 inputs, generates and optimizes over the group of moment functions E(xi_{it}Z^{k}_{it}). | ^ checkRd: (-1) gACF.Rd:47: Lost braces; missing escapes or markup? 47 | \code{gACF()} estimates the second stage of ACF routine. It accepts 7 inputs, generates and optimizes over the group of moment functions E(xi_{it}Z^{k}_{it}). | ^ checkRd: (-1) gOPLP.Rd:55: Lost braces; missing escapes or markup? 55 | \code{gOPLP()} estimates the second stage of OP and LP routines. It accepts 7 inputs, generates and optimizes over the group of moment functions E(e_{it}X^{k}_{it}). | ^ checkRd: (-1) gOPLP.Rd:55: Lost braces; missing escapes or markup? 55 | \code{gOPLP()} estimates the second stage of OP and LP routines. It accepts 7 inputs, generates and optimizes over the group of moment functions E(e_{it}X^{k}_{it}). | ^ checkRd: (-1) gOPLP.Rd:55: Lost braces; missing escapes or markup? 55 | \code{gOPLP()} estimates the second stage of OP and LP routines. It accepts 7 inputs, generates and optimizes over the group of moment functions E(e_{it}X^{k}_{it}). | ^ checkRd: (-1) lagPanel.Rd:31: Lost braces; missing escapes or markup? 31 | \code{lagPanel()} accepts three inputs (the ID, the time and the variable to be lagged) and returns the vector of lagged variable. Lagged inputs with no correspondence - i.e., X_{-1} - are returned as NA. | ^ checkRd: (-1) panelSim.Rd:53-55: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:56-58: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:59-61: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:62-64: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:65-67: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:68-70: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:71-73: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:74-76: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) panelSim.Rd:77-79: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) prodestACF.Rd:58: Lost braces; missing escapes or markup? 58 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestACF.Rd:58: Lost braces; missing escapes or markup? 58 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestLP.Rd:60: Lost braces; missing escapes or markup? 60 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestLP.Rd:60: Lost braces; missing escapes or markup? 60 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestOP.Rd:60: Lost braces; missing escapes or markup? 60 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestOP.Rd:60: Lost braces; missing escapes or markup? 60 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestROB.Rd:41: Lost braces; missing escapes or markup? 41 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestROB.Rd:41: Lost braces; missing escapes or markup? 41 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestWRDG.Rd:41: Lost braces; missing escapes or markup? 41 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestWRDG.Rd:41: Lost braces; missing escapes or markup? 41 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestWRDG_GMM.Rd:44: Lost braces; missing escapes or markup? 44 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) prodestWRDG_GMM.Rd:44: Lost braces; missing escapes or markup? 44 | where \eqn{y_{it}} is the (log) output, w_{it} a 1xJ vector of (log) free variables, k_{it} is a 1xK vector of state variables and \eqn{\epsilon_{it}} is a normally distributed idiosyncratic error term. | ^ checkRd: (-1) weightM.Rd:51: Lost braces; missing escapes or markup? 51 | \code{weightM()} accepts at least 7 inputs: Y, X1, X2, Z1, Z2, betas and numR. With these, computes the optimal weighting matrix in a system GMM framework, i.e. W* = sigma*Z'Z. If it is called during the first stage, it returns W*, otherwise will return an estimate of the parameters' standard errors, i.e., the square root of the diagonal of the variance-covariance matrix: 1/N( (X'Z) W* (Z'X) )^{-1}. | ^ * 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] OK * checking LazyData ... OK * checking data for ASCII and uncompressed saves ... OK * checking sizes of PDF files under 'inst/doc' ... OK * checking installed files from 'inst/doc' ... OK * checking examples ... [17s] OK * checking PDF version of manual ... [22s] OK * checking HTML version of manual ... [6s] OK * DONE Status: 1 NOTE