CRAN Package Check Results for Package PEtests

Last updated on 2023-12-09 00:52:48 CET.

Flavor	Version	Tinstall	Tcheck	Ttotal	Status	Flags
r-devel-linux-x86_64-debian-clang	0.1.0	4.22	50.66	54.88	OK
r-devel-linux-x86_64-debian-gcc	0.1.0	2.57	44.18	46.75	OK
r-devel-linux-x86_64-fedora-clang	0.1.0			67.21	OK
r-devel-linux-x86_64-fedora-gcc	0.1.0			72.59	OK
r-devel-windows-x86_64	0.1.0	4.00	67.00	71.00	OK
r-patched-linux-x86_64	0.1.0	4.60	57.62	62.22	OK
r-release-linux-x86_64	0.1.0	3.72	56.17	59.89	OK
r-release-macos-arm64	0.1.0			30.00	OK
r-release-macos-x86_64	0.1.0			65.00	OK
r-release-windows-x86_64	0.1.0	5.00	72.00	77.00	OK
r-oldrel-macos-arm64	0.1.0			29.00	OK
r-oldrel-macos-x86_64	0.1.0			48.00	ERROR
r-oldrel-windows-x86_64	0.1.0	6.00	72.00	78.00	OK

Check Details

Version: 0.1.0
Check: PDF version of manual
Result: WARN LaTeX errors when creating PDF version. This typically indicates Rd problems. LaTeX errors found: ! Undefined control sequence. <argument> \mathbf {X} \in \mathbb {R}^p l.108 Let \eqn{\mathbf{X} \in \mathbb{R}^p}{} and \eqn{\mathbf{Y} \in \mathb... ! Undefined control sequence. <argument> \mathbf {Y} \in \mathbb {R}^p l.108 ...} and \eqn{\mathbf{Y} \in \mathbb{R}^p}{} ! Undefined control sequence. <argument> ...\mathbf {X}_{n_1})^\top \in \mathbb {R}^{n_1\times p} l.118 ...{n_1})^\top\in\mathbb{R}^{n_1\times p}}{} ! Undefined control sequence. <argument> ...\mathbf {Y}_{n_2})^\top \in \mathbb {R}^{n_2\times p} l.119 ...{n_2})^\top\in\mathbb{R}^{n_2\times p}}{} . ! Undefined control sequence. <argument> p\text {-value} = 1-F_{Cauchy}(T_{Cauchy}), l.336 ...xt{-value} = 1-F_{Cauchy}(T_{Cauchy}),}{} ! Undefined control sequence. <argument> p\text {-value}=1-\Phi (T_{PE}), l.397 \deqn{p\text{-value}=1-\Phi(T_{PE}),}{} ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _4^2}(T_{Fisher}), l.461 ...{-value} = 1-F_{\chi_4^2}(T_{Fisher}),}{} ! Undefined control sequence. <argument> \mathbf {X} \in \mathbb {R}^p l.506 Let \eqn{\mathbf{X} \in \mathbb{R}^p}{} and \eqn{\mathbf{Y} \in \mathb... ! Undefined control sequence. <argument> \mathbf {Y} \in \mathbb {R}^p l.506 ...} and \eqn{\mathbf{Y} \in \mathbb{R}^p}{} ! Undefined control sequence. <argument> ...\mathbf {X}_{n_1})^\top \in \mathbb {R}^{n_1\times p} l.516 ...{n_1})^\top\in\mathbb{R}^{n_1\times p}}{} ! Undefined control sequence. <argument> ...\mathbf {Y}_{n_2})^\top \in \mathbb {R}^{n_2\times p} l.517 ...{n_2})^\top\in\mathbb{R}^{n_2\times p}}{} . ! Undefined control sequence. <argument> ...{M_{CQ}}=\frac {2}{n_1(n_1-1)}\text {tr}(\mathbf {\Sigma }_1^2... l.663 ...r}(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}{} , ! Undefined control sequence. <argument> ... }_1^2)+ \frac {2}{n_2(n_2-1)}\text {tr}(\mathbf {\Sigma }_2^2... l.663 ...r}(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}{} , ! Undefined control sequence. <argument> ...igma }_2^2)+ \frac {4}{n_1n_2}\text {tr}(\mathbf {\Sigma }_1\m... l.663 ...r}(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}{} , ! Undefined control sequence. <argument> ...frac {2}{n_1(n_1-1)}\widehat {\text {tr}(\mathbf {\Sigma }_1^2... l.667 ...(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}.}{} ! Undefined control sequence. <argument> ...frac {2}{n_2(n_2-1)}\widehat {\text {tr}(\mathbf {\Sigma }_2^2... l.667 ...(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}.}{} ! Undefined control sequence. <argument> ...}+ \frac {4}{n_1n_2}\widehat {\text {tr}(\mathbf {\Sigma }_1\m... l.667 ...(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}.}{} ! Undefined control sequence. <argument> \widehat {\text {tr}(\mathbf {\Sigma }_1^2)} l.668 ...idehat{\text{tr}(\mathbf{\Sigma}_1^2)}}{} , ! Undefined control sequence. <argument> \widehat {\text {tr}(\mathbf {\Sigma }_2^2)} l.669 ...idehat{\text{tr}(\mathbf{\Sigma}_2^2)}}{} , and ! Undefined control sequence. <argument> \widehat {\text {tr}(\mathbf {\Sigma }_1\mathbf {\Sigma }_2)} l.670 ...}(\mathbf{\Sigma}_1\mathbf{\Sigma}_2)}}{} ! Undefined control sequence. <argument> p\text {-value} = 1-F_{Cauchy}(M_{Cauchy}), l.736 ...xt{-value} = 1-F_{Cauchy}(M_{Cauchy}),}{} ! Undefined control sequence. <argument> p\text {-value}= 1-\Phi (M_{PE}), l.801 \deqn{p\text{-value}= 1-\Phi(M_{PE}),}{} ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _4^2}(M_{Fisher}), l.865 ...{-value} = 1-F_{\chi_4^2}(M_{Fisher}),}{} ! Undefined control sequence. <argument> \mathbf {X} \in \mathbb {R}^p l.914 Let \eqn{\mathbf{X} \in \mathbb{R}^p}{} and \eqn{\mathbf{Y} \in \mathb... ! Undefined control sequence. <argument> \mathbf {Y} \in \mathbb {R}^p l.914 ...} and \eqn{\mathbf{Y} \in \mathbb{R}^p}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.921 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2. }{} ! Undefined control sequence. <argument> ...\mathbf {X}_{n_1})^\top \in \mathbb {R}^{n_1\times p} l.925 ...{n_1})^\top\in\mathbb{R}^{n_1\times p}}{} ! Undefined control sequence. <argument> ...\mathbf {Y}_{n_2})^\top \in \mathbb {R}^{n_2\times p} l.926 ...{n_2})^\top\in\mathbb{R}^{n_2\times p}}{} . ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1031 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{Cauchy}(C_{n_1,n_2}), l.1036 ...{-value} = 1-F_{Cauchy}(C_{n_1,n_2}),}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1102 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _2^2}(S_{n_1,n_2}), l.1107 ...value} = 1-F_{\chi_2^2}(S_{n_1,n_2}),}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1166 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _4^2}(J_{n_1,n_2}), l.1171 ...value} = 1-F_{\chi_4^2}(J_{n_1,n_2}),}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1236 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{Cauchy}(C_{PE}), l.1241 ...\text{-value} = 1-F_{Cauchy}(C_{PE}),}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1304 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _2^2}(S_{PE}), l.1309 ...ext{-value} = 1-F_{\chi_2^2}(S_{PE}),}{} ! Undefined control sequence. <argument> ... }_1 = \boldsymbol {\mu }_2 \ \text { and } \ \mathbf {\Sigma ... l.1373 \ \mathbf{\Sigma}_1 = \mathbf{\Sigma}_2}{} , ! Undefined control sequence. <argument> p\text {-value} = 1-F_{\chi _4^2}(J_{PE}), l.1378 ...ext{-value} = 1-F_{\chi_4^2}(J_{PE}),}{} Flavor: r-oldrel-macos-x86_64

Version: 0.1.0
Check: PDF version of manual without index
Result: ERROR
Flavor: r-oldrel-macos-x86_64