Last updated on 2025-01-23 19:49:20 CET.
| Flavor | Version | Tinstall | Tcheck | Ttotal | Status | Flags |
|---|---|---|---|---|---|---|
| r-devel-linux-x86_64-debian-gcc | 1.0.2 | 12.78 | 194.63 | 207.41 | NOTE | |
| r-devel-linux-x86_64-fedora-clang | 1.0.2 | 498.23 | OK | |||
| r-devel-linux-x86_64-fedora-gcc | 1.0.2 | 501.91 | NOTE | |||
| r-devel-windows-x86_64 | 1.0.2 | 21.00 | 287.00 | 308.00 | OK | |
| r-patched-linux-x86_64 | 1.0.2 | 15.30 | 261.55 | 276.85 | OK | |
| r-release-linux-x86_64 | 1.0.2 | 16.89 | 261.88 | 278.77 | OK | |
| r-release-macos-x86_64 | 1.0.2 | 222.00 | ERROR | |||
| r-release-windows-x86_64 | 1.0.2 | 21.00 | 473.00 | 494.00 | OK | |
| r-oldrel-windows-x86_64 | 1.0.2 | 28.00 | 350.00 | 378.00 | OK |
Version: 1.0.2
Check: DESCRIPTION meta-information
Result: NOTE
Missing dependency on R >= 4.1.0 because package code uses the pipe
|> or function shorthand \(...) syntax added in R 4.1.0.
File(s) using such syntax:
‘Help_Func.R’ ‘age_shiny.R’
Flavors: r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-gcc
Version: 1.0.2
Check: tests
Result: ERROR
Running ‘testthat.R’ [100s/96s]
Running the tests in ‘tests/testthat.R’ failed.
Complete output:
> # This file is part of the standard setup for testthat.
> # It is recommended that you do not modify it.
> #
> # Where should you do additional test configuration?
> # Learn more about the roles of various files in:
> # * https://r-pkgs.org/testing-design.html#sec-tests-files-overview
> # * https://testthat.r-lib.org/articles/special-files.html
>
> library(testthat)
> library(ComBatFamQC)
>
> test_check("ComBatFamQC")
GAMLSS-RS iteration 1: Global Deviance = 11577.26
GAMLSS-RS iteration 2: Global Deviance = 11577.26
GAMLSS-RS iteration 3: Global Deviance = 11577.26
GAMLSS-RS iteration 1: Global Deviance = 11582.7
GAMLSS-RS iteration 2: Global Deviance = 11582.68
GAMLSS-RS iteration 3: Global Deviance = 11582.68
Starting data preparation for the batch effect diagnostic and harmonization stage...
Taking the result from the visual preparation stage as input...
No observation is dropped due to missing values.
Starting Empirical Bayes assumption check...
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting Empirical Bayes assumption check...
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
Starting data preparation for the batch effect diagnostic and harmonization stage...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
Starting data preparation for the batch effect diagnostic and harmonization stage...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
Starting data preparation for the batch effect diagnostic and harmonization stage...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
Starting data preparation for the batch effect diagnostic and harmonization stage...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting out-of-sample harmonization using the saved ComBat Model...
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: 1 level(s) are dropped, corresponding to 2 observations.
Starting out-of-sample harmonization using the reference dataset...
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
The reference data is included in the new unharmonized dataset
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: 1 level(s) are dropped, corresponding to 2 observations.
Starting out-of-sample harmonization using the reference dataset...
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
The reference data is included in the new unharmonized dataset
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
Joining with `by = join_by(ID, site, subid, IMAGE_ID, VISIT, visit, EXAM_DATE, dateAcquired, timedays, timeyrs, AGE, baselineAge, SEX, DIAGNOSIS, MMSCORE, manufac, manufac.model, manufac.model.site, manufac.model.strength.site, manufac.model.coil.site, manufac.model.coil.strength.site, manufac.model.strength.site.indicator, manufac.model.coil.strength.site.indicator, strength, Field_Strength, Manufacturer, Mfg_Model, Weighting, Pulse_Sequence, Slice_Thickness, TE, TR, TI, Coil, Flip_Angle, Acquisition_Plane, Matrix_X, Matrix_Y, Matrix_Z, Pixel_Spacing_X, Pixel_Spacing_Y, X, thickness.left.fusiform, thickness.left.inferior.parietal, thickness.left.inferior.temporal, thickness.left.isthmus.cingulate, thickness.left.lateral.occipital, thickness.left.lateral.orbitofrontal, thickness.left.lingual, thickness.left.medial.orbitofrontal, thickness.left.middle.temporal, thickness.left.parahippocampal, thickness.left.paracentral, thickness.left.pars.opercularis, thickness.left.pars.orbitalis, thickness.left.pars.triangularis, thickness.left.pericalcarine, thickness.left.postcentral, thickness.left.posterior.cingulate, thickness.left.precentral, thickness.left.precuneus, thickness.left.rostral.anterior.cingulate, thickness.left.rostral.middle.frontal, thickness.left.superior.frontal, thickness.left.superior.parietal, thickness.left.superior.temporal, thickness.left.supramarginal, thickness.left.transverse.temporal, thickness.left.insula, thickness.right.caudal.anterior.cingulate, thickness.right.caudal.middle.frontal, thickness.right.cuneus, thickness.right.entorhinal, thickness.right.fusiform, thickness.right.inferior.parietal, thickness.right.inferior.temporal, thickness.right.isthmus.cingulate, thickness.right.lateral.occipital, thickness.right.lateral.orbitofrontal, thickness.right.lingual, thickness.right.medial.orbitofrontal, thickness.right.middle.temporal, thickness.right.parahippocampal, thickness.right.paracentral, thickness.right.pars.opercularis, thickness.right.pars.orbitalis, thickness.right.pars.triangularis, thickness.right.pericalcarine, thickness.right.postcentral, thickness.right.posterior.cingulate, thickness.right.precentral, thickness.right.precuneus, thickness.right.rostral.anterior.cingulate, thickness.right.rostral.middle.frontal, thickness.right.superior.frontal, thickness.right.superior.parietal, thickness.right.superior.temporal, thickness.right.supramarginal, thickness.right.transverse.temporal, thickness.right.insula)`
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
fixed-effect model matrix is rank deficient so dropping 1 column / coefficient
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting data preparation for the batch effect diagnostic and harmonization stage...
Taking the result from the visual preparation stage as input...
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No observation is dropped due to missing values.
Template moved to: /var/folders/2b/t0kwbtmn3p7brv2mvx39c9cr0000gn/T//RtmpYaYjoP/file1828220d21144/diagnosis_report.qmd
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Starting first-time harmonization...
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
New names:
* `residual_y` -> `residual_y...1`
* `residual_y` -> `residual_y...2`
* `residual_y` -> `residual_y...3`
* `residual_y` -> `residual_y...4`
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
New names:
* `X3` -> `X3...1`
* `X3` -> `X3...2`
* `X3` -> `X3...3`
* `X3` -> `X3...4`
Starting data preparation for the post-harmonization stage...
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
New names:
* `residual_y` -> `residual_y...1`
* `residual_y` -> `residual_y...2`
* `residual_y` -> `residual_y...3`
* `residual_y` -> `residual_y...4`
Starting data preparation for the post-harmonization stage...
No observation is dropped due to missing values.
Starting data preparation for the post-harmonization stage...
No observation is dropped due to missing values.
New names:
* `residual_y` -> `residual_y...1`
* `residual_y` -> `residual_y...2`
* `residual_y` -> `residual_y...3`
* `residual_y` -> `residual_y...4`
Starting data preparation for the post-harmonization stage...
No existing model is provided. Fitting the regression model from scratch!
No observation is dropped due to missing values.
New names:
* `residual_y` -> `residual_y...1`
* `residual_y` -> `residual_y...2`
* `residual_y` -> `residual_y...3`
* `residual_y` -> `residual_y...4`
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Statistic Numer.DF Pseudo.R2 Analytic.p.value
(Omnibus) 0.0495 2 0.0472 < 1e-20 ***
manufacs 0.0495 2 0.0472 < 1e-20 ***
---
Signif. codes: 0 "***" 0.001 "**" 0.01 "*" 0.05 "." 0.1 " " 1Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Statistic Numer.DF Pseudo.R2 Analytic.p.value
(Omnibus) 0.363 2 0.266 < 1e-20 ***
manufacs 0.363 2 0.266 < 1e-20 ***
---
Signif. codes: 0 "***" 0.001 "**" 0.01 "*" 0.05 "." 0.1 " " 1refitting model(s) with ML (instead of REML)
refitting model(s) with ML (instead of REML)
refitting model(s) with ML (instead of REML)
refitting model(s) with ML (instead of REML)
Starting data preparation for the batch effect diagnostic and harmonization stage...
The result from the visual prepration stage is not provided! The required parameters should be specified...
No observation is dropped due to missing values.
Batch levels that contain less than 3 observations are dropped: no batch level is dropped.
Statistic Numer.DF Pseudo.R2 Analytic.p.value
(Omnibus) 0.0534 2 0.0507 < 1e-20 ***
manufacs 0.0534 2 0.0507 < 1e-20 ***
---
Signif. codes: 0 "***" 0.001 "**" 0.01 "*" 0.05 "." 0.1 " " 1[ FAIL 1 | WARN 98 | SKIP 2 | PASS 220 ]
══ Skipped tests (2) ═══════════════════════════════════════════════════════════
• On CRAN (2): 'test-age_shiny.R:22:3', 'test-comfam_shiny.R:13:3'
══ Failed tests ════════════════════════════════════════════════════════════════
── Error ('test-help_function.R:224:3'): Exporting diagnosis result works correctly ──
Error in `find_quarto()`: Quarto command-line tools path not found!
Please make sure you have installed and added Quarto to your PATH or set the QUARTO_PATH environment variable.
Backtrace:
▆
1. └─ComBatFamQC::diag_save(temp_dir, result, use_quarto = TRUE) at test-help_function.R:224:3
2. └─quarto::quarto_render(...)
3. └─quarto:::find_quarto()
4. └─cli::cli_abort(quarto_not_found_msg)
5. └─rlang::abort(...)
[ FAIL 1 | WARN 98 | SKIP 2 | PASS 220 ]
Error: Test failures
Execution halted
Flavor: r-release-macos-x86_64