CRAN Package Check Results for Maintainer ‘Przemyslaw Biecek <przemyslaw.biecek at gmail.com>’

Last updated on 2024-12-18 19:49:44 CET.

Package FAIL NOTE OK
archivist 13
BetaBit 13
bgmm 1 12
breakDown 13
ceterisParibus 13
DALEX 10 3
ddst 10 3
drifter 8 5
iBreakDown 13
ingredients 13
localModel 13
PBImisc 13
PogromcyDanych 13
proton 13
Przewodnik 13
SmarterPoland 12 1

Package archivist

Current CRAN status: OK: 13

Package BetaBit

Current CRAN status: OK: 13

Package bgmm

Current CRAN status: FAIL: 1, NOTE: 12

Version: 1.8.5
Check: Rd files
Result: NOTE checkRd: (-1) bgmm-package.Rd:23: Escaped LaTeX specials: \& Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Version: 1.8.5
Check: PDF version of manual
Result: FAIL Check process probably crashed or hung up for 20 minutes ... killed Most likely this happened in the example checks (?), if not, ignore the following last lines of example output: > ### Title: Set of supplementary functions for bgmm package > ### Aliases: determinant.numeric map loglikelihood.mModel > > ### ** Examples > > data(genotypes) > > map(genotypes$B) known1 known2 known3 known4 known5 known6 known7 known8 known9 known10 1 1 1 1 1 3 3 3 3 3 known11 known12 known13 known14 known15 2 2 2 2 2 > > > > ### * <FOOTER> > ### > cleanEx() > options(digits = 7L) > base::cat("Time elapsed: ", proc.time() - base::get("ptime", pos = 'CheckExEnv'),"\n") Time elapsed: 3.95 0.3 4.29 NA NA > grDevices::dev.off() null device 1 > ### > ### Local variables: *** > ### mode: outline-minor *** > ### outline-regexp: "\\(> \\)?### [*]+" *** > ### End: *** > quit('no') ======== End of example output (where/before crash/hang up occured ?) ======== Flavor: r-release-windows-x86_64

Package breakDown

Current CRAN status: OK: 13

Package ceterisParibus

Current CRAN status: OK: 13

Package DALEX

Current CRAN status: NOTE: 10, OK: 3

Version: 2.4.3
Check: Rd files
Result: NOTE checkRd: (-1) plot.model_parts.Rd:25: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_parts.Rd:26: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_parts.Rd:27: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_parts.Rd:28: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_parts.Rd:29: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_parts.Rd:30-31: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.model_profile.Rd:21-22: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:23: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:24: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:25: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:26: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:27: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.model_profile.Rd:28: Lost braces in \itemize; \value handles \item{}{} directly checkRd: (-1) plot.predict_parts.Rd:25: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:26-27: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:28: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:29: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:30: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:31: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:32: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:33: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:34-35: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:36: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:37: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:38-39: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:40: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:45: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:46: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:47: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:48: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_parts.Rd:53: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:25: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:26: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:27: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:28: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:29: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:30-31: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:32: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:33-34: Lost braces in \itemize; meant \describe ? checkRd: (-1) plot.predict_profile.Rd:35: Lost braces in \itemize; meant \describe ? Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64

Version: 2.4.3
Check: Rd cross-references
Result: NOTE Found the following Rd file(s) with Rd \link{} targets missing package anchors: plot.predict_parts.Rd: break_down, local_attributions, local_interactions Please provide package anchors for all Rd \link{} targets not in the package itself and the base packages. Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-windows-x86_64

Package ddst

Current CRAN status: NOTE: 10, OK: 3

Version: 1.4
Check: Rd files
Result: NOTE checkRd: (-1) ddst-package.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$W_k=[1/sqrt(n) sum_{i=1}^n l(Z_i)]I^{-1}[1/sqrt(n) sum_{i=1}^n l(Z_i)]'$}, | ^ checkRd: (-1) ddst-package.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$W_k=[1/sqrt(n) sum_{i=1}^n l(Z_i)]I^{-1}[1/sqrt(n) sum_{i=1}^n l(Z_i)]'$}, | ^ checkRd: (-1) ddst-package.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$W_k=[1/sqrt(n) sum_{i=1}^n l(Z_i)]I^{-1}[1/sqrt(n) sum_{i=1}^n l(Z_i)]'$}, | ^ checkRd: (-1) ddst-package.Rd:31: Lost braces; missing escapes or markup? 31 | where \emph{$l(Z_i)$}, i=1,...,n, is \emph{k}-dimensional (row) score vector, the symbol \emph{'} denotes transposition while \emph{$I=Cov_{theta_0}[l(Z_1)]'[l(Z_1)]$}. Following Neyman's idea of modelling underlying distributions one gets \emph{$l(Z_i)=(phi_1(F(Z_i)),...,phi_k(F(Z_i)))$} and \emph{I} being the identity matrix, where \emph{$phi_j$}'s, j >= 1, are zero mean orthonormal functions on [0,1], while \emph{F} is the completely specified null distribution function. | ^ checkRd: (-1) ddst-package.Rd:35: Lost braces; missing escapes or markup? 35 | \emph{$W_k^{*}(tilde gamma)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)][I^*(tilde gamma)]^{-1}[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)]'$}, | ^ checkRd: (-1) ddst-package.Rd:35: Lost braces; missing escapes or markup? 35 | \emph{$W_k^{*}(tilde gamma)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)][I^*(tilde gamma)]^{-1}[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)]'$}, | ^ checkRd: (-1) ddst-package.Rd:35: Lost braces; missing escapes or markup? 35 | \emph{$W_k^{*}(tilde gamma)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)][I^*(tilde gamma)]^{-1}[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)]'$}, | ^ checkRd: (-1) ddst-package.Rd:35: Lost braces; missing escapes or markup? 35 | \emph{$W_k^{*}(tilde gamma)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)][I^*(tilde gamma)]^{-1}[1/sqrt(n) sum_{i=1}^n l^*(Z_i;tilde gamma)]'$}, | ^ checkRd: (-1) ddst-package.Rd:36: Lost braces; missing escapes or markup? 36 | where \emph{$tilde gamma$} is an appropriate estimator of \emph{$gamma$} while \emph{$I^*(gamma)=Cov_{theta_0}[l^*(Z_1;gamma)]'[l^*(Z_1;gamma)]$}. More details can be found in Janic and Ledwina (2008), Kallenberg and Ledwina (1997 a,b) as well as Inglot and Ledwina (2006 a,b). | ^ checkRd: (-1) ddst-package.Rd:40: Lost braces 40 | \emph{$T = min{1 <= k <= d: W_k-pi(k,n,c) >= W_j-pi(j,n,c), j=1,...,d}$} | ^ checkRd: (-1) ddst-package.Rd:45: Lost braces 45 | $T^* = min{1 <= k <= d: W_k^*(tilde gamma)-pi^*(k,n,c) >= W_j^*(tilde gamma)-pi^*(j,n,c), j=1,...,d}$}. | ^ checkRd: (-1) ddst-package.Rd:49: Lost braces 49 | \emph{$pi(j,n,c)={jlog n, if max{1 <= k <= d}|Y_k| <= sqrt(c log(n)), 2j, if max{1 <= k <= d}|Y_k|>sqrt(c log(n)). }$} | ^ checkRd: (-1) ddst-package.Rd:49: Lost braces 49 | \emph{$pi(j,n,c)={jlog n, if max{1 <= k <= d}|Y_k| <= sqrt(c log(n)), 2j, if max{1 <= k <= d}|Y_k|>sqrt(c log(n)). }$} | ^ checkRd: (-1) ddst-package.Rd:49: Lost braces 49 | \emph{$pi(j,n,c)={jlog n, if max{1 <= k <= d}|Y_k| <= sqrt(c log(n)), 2j, if max{1 <= k <= d}|Y_k|>sqrt(c log(n)). }$} | ^ checkRd: (-1) ddst-package.Rd:54: Lost braces 54 | $pi^*(j,n,c)={jlog n, if max{1 <= k <= d}|Y_k^*| <= sqrt(c log(n)),2j if max(1 <= k <= d)|Y_k^*| > sqrt(c log(n))}$}. | ^ checkRd: (-1) ddst-package.Rd:54: Lost braces 54 | $pi^*(j,n,c)={jlog n, if max{1 <= k <= d}|Y_k^*| <= sqrt(c log(n)),2j if max(1 <= k <= d)|Y_k^*| > sqrt(c log(n))}$}. | ^ checkRd: (-1) ddst-package.Rd:58: Lost braces; missing escapes or markup? 58 | \emph{$(Y_1,...,Y_k)=[1/sqrt(n) sum_{i=1}^n l(Z_i)]I^{-1/2}$} | ^ checkRd: (-1) ddst-package.Rd:58: Lost braces; missing escapes or markup? 58 | \emph{$(Y_1,...,Y_k)=[1/sqrt(n) sum_{i=1}^n l(Z_i)]I^{-1/2}$} | ^ checkRd: (-1) ddst-package.Rd:62: Lost braces; missing escapes or markup? 62 | \emph{$(Y_1^*,...,Y_k^*)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i; tilde gamma)][I^*(tilde gamma)]^{-1/2}$}. | ^ checkRd: (-1) ddst-package.Rd:62: Lost braces; missing escapes or markup? 62 | \emph{$(Y_1^*,...,Y_k^*)=[1/sqrt(n) sum_{i=1}^n l^*(Z_i; tilde gamma)][I^*(tilde gamma)]^{-1/2}$}. | ^ checkRd: (-1) ddst-package.Rd:65: Lost braces; missing escapes or markup? 65 | and \emph{$W_{T^*} = W_{T^*}(tilde gamma)$}, respectively. For details see Inglot and Ledwina (2006 a,b,c). | ^ checkRd: (-1) ddst-package.Rd:65: Lost braces; missing escapes or markup? 65 | and \emph{$W_{T^*} = W_{T^*}(tilde gamma)$}, respectively. For details see Inglot and Ledwina (2006 a,b,c). | ^ checkRd: (-1) ddst-package.Rd:67: Lost braces; missing escapes or markup? 67 | The choice of \emph{c} in \emph{T} and \emph{$T^*$} is decisive to finite sample behaviour of the selection rules and pertaining statistics \emph{$W_T$} and \emph{$W_{T^*}(tilde gamma)$}. In particular, under large \emph{c}'s the rules behave similarly as Schwarz's (1978) BIC while for \emph{c=0} they mimic Akaike's (1973) AIC. For moderate sample sizes, values \emph{c in (2,2.5)} guarantee, under `smooth' departures, only slightly smaller power as in case BIC were used and simultaneously give much higher power than BIC under multimodal alternatives. In genral, large \emph{c's} are recommended if changes in location, scale, skewness and kurtosis are in principle aimed to be detected. For evidence and discussion see Inglot and Ledwina (2006 c). | ^ checkRd: (-1) ddst-package.Rd:69: Lost braces; missing escapes or markup? 69 | It \emph{c>0} then the limiting null distribution of \emph{$W_T$} and \emph{$W_{T^*}(tilde gamma)$} is central chi-squared with one degree of freedom. In our implementation, for given \emph{n}, both critical values and \emph{p}-values are computed by MC method. | ^ checkRd: (-1) ddst-package.Rd:71: Lost braces; missing escapes or markup? 71 | Empirical distributions of \emph{T} and \emph{$T^*$} as well as \emph{$W_T$} and \emph{$W_{T^*}(tilde gamma)$} are not essentially influenced by the choice of reasonably large \emph{d}'s, provided that sample size is at least moderate. | ^ checkRd: (-1) ddst.exp.test.Rd:27: Lost braces; missing escapes or markup? 27 | Modelling alternatives similarly as in Kallenberg and Ledwina (1997 a,b), e.g., and estimating \emph{$gamma$} by \emph{$tilde gamma= 1/n sum_{i=1}^n Z_i$} yields the efficient score | ^ checkRd: (-1) ddst.exp.test.Rd:30: Lost braces; missing escapes or markup? 30 | The matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and computed in a numerical way in case of cosine basis. In the implementation the default value of \emph{c} in \emph{$T^*$} is set to be 100. | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:29: Lost braces; missing escapes or markup? 29 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=-1/n sum_{i=1}^n Z_i + varepsilon G$}, where \emph{$varepsilon approx 0.577216 $} is the Euler constant and \emph{$ G = tilde gamma_2 = [n(n-1) ln2]^{-1}sum_{1<= j < i <= n}(Z_{n:i}^o - Z_{n:j}^o) $} while \emph{$Z_{n:1}^o <= ... <= Z_{n:n}^o$} | ^ checkRd: (-1) ddst.extr.test.Rd:33: Lost braces; missing escapes or markup? 33 | The related matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and numerical methods for cosine functions. In the implementation the default value of \emph{c} in \emph{$T^*$} was fixed to be 100. Hence, \emph{$T^*$} is Schwarz-type model selection rule. The resulting data driven test statistic for extreme value distribution is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.extr.test.Rd:33: Lost braces; missing escapes or markup? 33 | The related matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and numerical methods for cosine functions. In the implementation the default value of \emph{c} in \emph{$T^*$} was fixed to be 100. Hence, \emph{$T^*$} is Schwarz-type model selection rule. The resulting data driven test statistic for extreme value distribution is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.extr.test.Rd:33: Lost braces; missing escapes or markup? 33 | The related matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and numerical methods for cosine functions. In the implementation the default value of \emph{c} in \emph{$T^*$} was fixed to be 100. Hence, \emph{$T^*$} is Schwarz-type model selection rule. The resulting data driven test statistic for extreme value distribution is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.norm.test.Rd:30: Lost braces; missing escapes or markup? 30 | \emph{$gamma=(gamma_1,gamma_2)$} is estimated by \emph{$tilde gamma=(tilde gamma_1,tilde gamma_2)$}, where \emph{$tilde gamma_1=1/n sum_{i=1}^n Z_i$} and | ^ checkRd: (-1) ddst.norm.test.Rd:31: Lost braces; missing escapes or markup? 31 | \emph{$tilde gamma_2 = 1/(n-1) sum_{i=1}^{n-1}(Z_{n:i+1}-Z_{n:i})(H_{i+1}-H_i)$}, | ^ checkRd: (-1) ddst.norm.test.Rd:31: Lost braces; missing escapes or markup? 31 | \emph{$tilde gamma_2 = 1/(n-1) sum_{i=1}^{n-1}(Z_{n:i+1}-Z_{n:i})(H_{i+1}-H_i)$}, | ^ checkRd: (-1) ddst.norm.test.Rd:31: Lost braces; missing escapes or markup? 31 | \emph{$tilde gamma_2 = 1/(n-1) sum_{i=1}^{n-1}(Z_{n:i+1}-Z_{n:i})(H_{i+1}-H_i)$}, | ^ checkRd: (-1) ddst.norm.test.Rd:31: Lost braces; missing escapes or markup? 31 | \emph{$tilde gamma_2 = 1/(n-1) sum_{i=1}^{n-1}(Z_{n:i+1}-Z_{n:i})(H_{i+1}-H_i)$}, | ^ checkRd: (-1) ddst.norm.test.Rd:31: Lost braces; missing escapes or markup? 31 | \emph{$tilde gamma_2 = 1/(n-1) sum_{i=1}^{n-1}(Z_{n:i+1}-Z_{n:i})(H_{i+1}-H_i)$}, | ^ checkRd: (-1) ddst.norm.test.Rd:32: Lost braces; missing escapes or markup? 32 | while \emph{$Z_{n:1}<= ... <= Z_{n:n}$} are ordered values of \emph{$Z_1, ..., Z_n$} and \emph{$H_i= phi^{-1}((i-3/8)(n+1/4))$}, cf. Chen and Shapiro (1995). | ^ checkRd: (-1) ddst.norm.test.Rd:32: Lost braces; missing escapes or markup? 32 | while \emph{$Z_{n:1}<= ... <= Z_{n:n}$} are ordered values of \emph{$Z_1, ..., Z_n$} and \emph{$H_i= phi^{-1}((i-3/8)(n+1/4))$}, cf. Chen and Shapiro (1995). | ^ checkRd: (-1) ddst.norm.test.Rd:32: Lost braces; missing escapes or markup? 32 | while \emph{$Z_{n:1}<= ... <= Z_{n:n}$} are ordered values of \emph{$Z_1, ..., Z_n$} and \emph{$H_i= phi^{-1}((i-3/8)(n+1/4))$}, cf. Chen and Shapiro (1995). | ^ checkRd: (-1) ddst.norm.test.Rd:35: Lost braces; missing escapes or markup? 35 | The pertaining matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and is computed in a numerical way in case of cosine basis. In the implementation of \emph{$T^*$} the default value of \emph{c} is set to be 100. Therefore, in practice, \emph{$T^*$} is Schwarz-type criterion. See Inglot and Ledwina (2006) as well as Janic and Ledwina (2008) for comments. The resulting data driven test statistic for normality is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.norm.test.Rd:35: Lost braces; missing escapes or markup? 35 | The pertaining matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and is computed in a numerical way in case of cosine basis. In the implementation of \emph{$T^*$} the default value of \emph{c} is set to be 100. Therefore, in practice, \emph{$T^*$} is Schwarz-type criterion. See Inglot and Ledwina (2006) as well as Janic and Ledwina (2008) for comments. The resulting data driven test statistic for normality is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.norm.test.Rd:35: Lost braces; missing escapes or markup? 35 | The pertaining matrix \emph{$[I^*(tilde gamma)]^{-1}$} does not depend on \emph{$tilde gamma$} and is calculated for succeding dimensions \emph{k} using some recurrent relations for Legendre's polynomials and is computed in a numerical way in case of cosine basis. In the implementation of \emph{$T^*$} the default value of \emph{c} is set to be 100. Therefore, in practice, \emph{$T^*$} is Schwarz-type criterion. See Inglot and Ledwina (2006) as well as Janic and Ledwina (2008) for comments. The resulting data driven test statistic for normality is \emph{$W_{T^*}=W_{T^*}(tilde gamma)$}. | ^ checkRd: (-1) ddst.uniform.test.Rd:25: Lost braces; missing escapes or markup? 25 | $W_k=[1/sqrt(n) sum_{j=1}^k sum_{i=1}^n phi_j(Z_i)]^2$}, | ^ checkRd: (-1) ddst.uniform.test.Rd:25: Lost braces; missing escapes or markup? 25 | $W_k=[1/sqrt(n) sum_{j=1}^k sum_{i=1}^n phi_j(Z_i)]^2$}, | ^ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64

Package drifter

Current CRAN status: NOTE: 8, OK: 5

Version: 0.2.1
Check: LazyData
Result: NOTE 'LazyData' is specified without a 'data' directory Flavors: r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package iBreakDown

Current CRAN status: OK: 13

Package ingredients

Current CRAN status: OK: 13

Package localModel

Current CRAN status: OK: 13

Package PBImisc

Current CRAN status: OK: 13

Package PogromcyDanych

Current CRAN status: OK: 13

Package proton

Current CRAN status: OK: 13

Package Przewodnik

Current CRAN status: OK: 13

Package SmarterPoland

Current CRAN status: NOTE: 12, OK: 1

Version: 1.8.1
Check: Rd files
Result: NOTE checkRd: (-1) cities_lon_lat.Rd:6: Lost braces 6 | A subset of world.cities{maps}. Extracted in order to shink number of dependencies. | ^ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64

Version: 1.8.1
Check: installed package size
Result: NOTE installed size is 5.3Mb sub-directories of 1Mb or more: data 5.1Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64