changeset 0:ef64d3752050 draft

planemo upload for repository https://github.com/workflow4metabolomics/univariate.git commit ca0e312e1c986c45310f37effe031f60009fbcab

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/LICENSE.md	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,517 @@
+  CeCILL FREE SOFTWARE LICENSE AGREEMENT
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+Version 2.1 dated 2013-06-21
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/README.md	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,37 @@
+# Univariate parametric and non-parametric hypothesis testing with correction for multiple testing
+
+A Galaxy module from the [Workflow4metabolomics](http://workflow4metabolomics.org) project.
+
+Status: [![Build Status](https://travis-ci.org/workflow4metabolomics/univariate.svg?branch=master)](https://travis-ci.org/workflow4metabolomics/univariate).
+
+## Description
+
+**Version:** 2.1.1   
+**Date:** 2015-09-30  
+**Author:** Marie Tremblay-Franco (INRA, MetaToul, MetaboHUB, W4M Core Development Team) and Etienne A. Thevenot (CEA, LIST, MetaboHUB, W4M Core Development Team)    
+**Email:** [marie.tremblay-franco(at)toulouse.inra.fr](mailto:marie.tremblay-franco@toulouse.inra.fr); [etienne.thevenot(at)cea.fr](mailto:etienne.thevenot@cea.fr)  
+**Citation:** Thevenot E.A., Roux A., Xu Y., Ezan E. and Junot C. (2015). Analysis of the human adult urinary metabolome variations with age, body mass index and gender by implementing a comprehensive workflow for univariate and OPLS statistical analyses. *Journal of Proteome Research*, **14**:3322-3335. [doi:10.1021/acs.jproteome.5b00354](http://dx.doi.org/10.1021/acs.jproteome.5b00354)  
+**Reference history:** [W4M00001a_sacurine-subset-statistics](http://galaxy.workflow4metabolomics.org/history/list_published), [W4M00004_mtbls1](http://galaxy.workflow4metabolomics.org/history/list_published)  
+**Licence:** CeCILL  
+**Funding:** Agence Nationale de la Recherche ([MetaboHUB](http://www.metabohub.fr/index.php?lang=en&Itemid=473) national infrastructure for metabolomics and fluxomics, ANR-11-INBS-0010 grant)
+
+## Installation
+
+ * Configuration file: **univariate_config.xml**  
+ * Image file: 
+  + **static/images/univariate_workflowPositionImage.png**   
+ * Wrapper file: **univariate_wrapper.R**  
+ * Script file: **univariate_script.R**  
+ * R packages  
+  + **batch** from CRAN: `install.packages("batch", dep=TRUE)`.
+  + **PMCMR** from Bioconductor: `install.packages("PMCMR", dep=TRUE)`.
+
+## Tests
+
+The code in the wrapper can be tested by running the **tests/univariate_tests.R** in R  
+
+## News
+
+## CHANGES IN VERSION 2.1.1  
+
+ * Internal handling of 'NA' p-values (e.g. when intensities are identical in all samples).

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/build.xml	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,95 @@
+<project name="w4m.univariate" default="all">
+
+	<property name="tool.xml" value="univariate_config.xml"/>
+	<property name="conda.dir" value="${user.home}/w4m-conda"/>
+
+	<!--~~~
+	~ ALL ~
+	~~~~~-->
+
+	<target name="all"/>
+
+	<!--~~~~
+	~ TEST ~
+	~~~~~-->
+
+	<target name="test" depends="planemo.lint,planemo.test"/>
+
+	<!--~~~~~~~~~~~~
+	~ PLANEMO LINT ~
+	~~~~~~~~~~~~~-->
+
+	<target name="planemo.lint">
+		<exec executable="planemo" failonerror="true">
+			<arg value="lint"/>
+			<arg value="${tool.xml}"/>
+		</exec>
+	</target>
+
+	<!--~~~~~~~~~~~~
+	~ PLANEMO TEST ~
+	~~~~~~~~~~~~~-->
+
+	<target name="planemo.test" depends="planemo.conda.install">
+		<exec executable="planemo" failonerror="true">
+			<arg value="test"/>
+			<arg value="--conda_prefix"/>
+			<arg value="${conda.dir}"/>
+			<arg value="--galaxy_branch"/>
+			<arg value="release_16.01"/>
+			<arg value="--conda_dependency_resolution"/>
+			<arg value="${tool.xml}"/>
+		</exec>
+	</target>
+
+	<!--~~~~~~~~~~~~~~~~~~~~~
+	~ PLANEMO CONDA INSTALL ~
+	~~~~~~~~~~~~~~~~~~~~~~-->
+
+	<target name="planemo.conda.install" depends="planemo.conda.init">
+		<exec executable="planemo" failonerror="true">
+			<arg value="conda_install"/>
+			<arg value="--conda_prefix"/>
+			<arg value="${conda.dir}"/>
+			<arg value="${tool.xml}"/>
+		</exec>
+	</target>
+
+	<!--~~~~~~~~~~~~~~~~~~
+	~ PLANEMO CONDA INIT ~
+	~~~~~~~~~~~~~~~~~~~-->
+
+	<target name="planemo.conda.init">
+		<exec executable="planemo" failonerror="true">
+			<arg value="conda_init"/>
+			<arg value="--conda_prefix"/>
+			<arg value="${conda.dir}"/>
+		</exec>
+	</target>
+
+	<!--~~~~~~~~~~~~~
+	~ PLANEMO SERVE ~
+	~~~~~~~~~~~~~~-->
+
+	<target name="planemo.serve" depends="planemo.conda.install">
+		<exec executable="planemo" failonerror="true">
+			<arg value="serve"/>
+			<arg value="--conda_prefix"/>
+			<arg value="${conda.dir}"/>
+			<arg value="--galaxy_branch"/>
+			<arg value="release_16.01"/>
+			<arg value="--conda_dependency_resolution"/>
+			<arg value="${tool.xml}"/>
+		</exec>
+	</target>
+
+
+	<!--~~~~~
+	~ CLEAN ~
+	~~~~~~-->
+
+	<target name="clean">
+		<delete dir="${conda.dir}"/>
+	</target>
+
+</project>

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docker/Dockerfile	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,28 @@
+FROM ubuntu:14.04
+
+MAINTAINER Etienne Thevenot (etienne.thevenot@cea.fr)
+
+# Setup package repos
+RUN echo "deb http://mirrors.ebi.ac.uk/CRAN/bin/linux/ubuntu trusty/" >> /etc/apt/sources.list
+RUN apt-key adv --keyserver keyserver.ubuntu.com --recv-keys E084DAB9
+
+# Update and upgrade system
+RUN apt-get update
+RUN apt-get -y upgrade
+
+# Install R and other needed packages
+RUN apt-get -y install r-base
+RUN R -e "install.packages('batch', lib='/usr/lib/R/library', dependencies = TRUE, repos='http://mirrors.ebi.ac.uk/CRAN')"
+
+# Clone tool
+RUN apt-get -y install git
+RUN git clone -b docker https://github.com/workflow4metabolomics/univariate /files/univariate
+
+# Put univariate folder into PATH
+ENV PATH=$PATH:/files/univariate
+
+# Clean up
+RUN apt-get clean && apt-get autoremove -y && rm -rf /var/lib/{apt,dpkg,cache,log}/ /tmp/* /var/tmp/*
+
+# Define Entry point script
+ENTRYPOINT ["/files/univariate/univariate_wrapper.R"]

Binary file static/images/univariate_workflowPositionImage.png has changed

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/dataMatrix.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+profile	HU_017	HU_021	HU_027	HU_032	HU_041	HU_048	HU_049	HU_050	HU_052	HU_059	HU_060	HU_066	HU_072	HU_077	HU_090	HU_109	HU_110	HU_125	HU_126	HU_131	HU_134	HU_149	HU_150	HU_173	HU_179	HU_180	HU_182	HU_202	HU_204	HU_209
+HMDB01032	2569204.92420381	6222035.77434915	17070707.9912636	1258838.24348419	13039543.0754619	1909391.77026598	3495.09386434063	2293521.90928998	128503.275117713	81872.5276382213	8103557.56578035	149574887.036181	1544036.41049333	7103429.53933206	14138796.50382	4970265.57952158	263054.73056162	1671332.30008058	88433.1944958815	23602331.2894815	18648126.5206986	1554657.98756878	34152.3646391152	209372.71275317	33187733.370626	202438.591636003	13581070.0886437	354170.810678102	9120781.48986975	43419175.4051586
+HMDB03072	3628416.30251025	65626.9834353751	112170.118946651	3261804.34422417	42228.2787747563	343254.201250707	1958217.69317664	11983270.0435677	5932111.41638028	5511385.83359531	9154521.47755199	2632133.21209418	9500411.14556502	6551644.51726592	7204319.80891836	1273412.04795188	3260583.81592376	8932005.5351622	8340827.52597275	9256460.69197759	11217839.169041	5919262.81433556	11790077.0657915	9567977.80797097	73717.5811684739	9991787.29074293	4208098.14739633	623970.649925847	10904221.2642849	2171793.93621067
+HMDB00792	429568.609438384	3887629.50527037	1330692.11658995	1367446.73023821	844197.447472453	2948090.71886592	1614157.90566884	3740009.19379795	3292251.66531919	2310688.79492013	4404239.59008605	3043289.12780863	825736.467181043	2523241.91730649	6030501.02648005	474901.604069803	2885792.42617652	2955990.64049134	1917716.3427982	1767962.67737699	5926203.40397675	1639065.69474684	346810.763557826	1054776.22313737	2390258.27543894	1831346.37315857	1026696.36904362	7079792.50047866	4368341.01359769	3495986.87280275

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/sampleMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,31 @@
+sample	age	ageGroup
+HU_017	41	experienced
+HU_021	34	junior
+HU_027	37	experienced
+HU_032	38	experienced
+HU_041	28	junior
+HU_048	39	experienced
+HU_049	50	senior
+HU_050	30	junior
+HU_052	51	senior
+HU_059	81	senior
+HU_060	55	senior
+HU_066	25	junior
+HU_072	47	experienced
+HU_077	27	junior
+HU_090	46	experienced
+HU_109	32	junior
+HU_110	50	senior
+HU_125	58	senior
+HU_126	45	experienced
+HU_131	42	experienced
+HU_134	48	experienced
+HU_149	35	experienced
+HU_150	49	experienced
+HU_173	55	senior
+HU_179	33	junior
+HU_180	53	senior
+HU_182	43	experienced
+HU_202	42	experienced
+HU_204	31	junior
+HU_209	17.5	junior

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/variableMetadata-output.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+variableMetadata	name	ageGroup_kruskal_fdr	ageGroup_kruskal_sig	ageGroup_kruskal_junior-experienced_dif	ageGroup_kruskal_senior-experienced_dif	ageGroup_kruskal_senior-junior_dif	ageGroup_kruskal_junior-experienced_pva	ageGroup_kruskal_senior-experienced_pva	ageGroup_kruskal_senior-junior_pva	ageGroup_kruskal_junior-experienced_sig	ageGroup_kruskal_senior-experienced_sig	ageGroup_kruskal_senior-junior_sig
+HMDB01032	Dehydroepiandrosterone sulfate	0.0117826825222329	1	7211389.71960377	-1703486.11807139	-8914875.83767516	0.204550960009346	0.123124593762726	0.00251932966039092	0	0	1
+HMDB03072	Quinic acid	0.461634758626427	0	-3747468.87812489	1512795.66143568	5260264.53956057	NA	NA	NA	NA	NA	NA
+HMDB00792	Sebacic acid	0.469555338459932	0	1404223.43306179	959174.915801485	-445048.517260305	NA	NA	NA	NA	NA	NA

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/variableMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+variable	name
+HMDB01032	Dehydroepiandrosterone sulfate
+HMDB03072	Quinic acid
+HMDB00792	Sebacic acid

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/example1/dataMatrix.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+dataMatrix	Ech10	Ech11	Ech12	Ech13	Ech14	Ech15
+MT1	3.439956551	3.399847335	3.335401704	3.4201777	3.24585851	3.401256321
+MT2	5.008458405	4.461291924	4.068043169	4.42768414	4.406640829	4.500370048
+MT3	3.99527636	4.051758488	4.332552332	4.348474118	4.253679544	4.26823853

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/example1/sampleMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,7 @@
+sampleMetadata	jour
+Ech10	J10
+Ech11	J10
+Ech12	J10
+Ech13	J3
+Ech14	J3
+Ech15	J3

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/example1/variableMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+variableMetadata	PCA_XLOAD-h1	PCA_XLOAD-h2
+MT1	-0.048723936	0.05648187
+MT2	-0.067609139	0.084300327
+MT3	0.080335733	-0.0215397

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/input/dataMatrix.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+profile	HU_017	HU_021	HU_027	HU_032	HU_041	HU_048	HU_049	HU_050	HU_052	HU_059	HU_060	HU_066	HU_072	HU_077	HU_090	HU_109	HU_110	HU_125	HU_126	HU_131	HU_134	HU_149	HU_150	HU_173	HU_179	HU_180	HU_182	HU_202	HU_204	HU_209
+HMDB01032	2569204.92420381	6222035.77434915	17070707.9912636	1258838.24348419	13039543.0754619	1909391.77026598	3495.09386434063	2293521.90928998	128503.275117713	81872.5276382213	8103557.56578035	149574887.036181	1544036.41049333	7103429.53933206	14138796.50382	4970265.57952158	263054.73056162	1671332.30008058	88433.1944958815	23602331.2894815	18648126.5206986	1554657.98756878	34152.3646391152	209372.71275317	33187733.370626	202438.591636003	13581070.0886437	354170.810678102	9120781.48986975	43419175.4051586
+HMDB03072	3628416.30251025	65626.9834353751	112170.118946651	3261804.34422417	42228.2787747563	343254.201250707	1958217.69317664	11983270.0435677	5932111.41638028	5511385.83359531	9154521.47755199	2632133.21209418	9500411.14556502	6551644.51726592	7204319.80891836	1273412.04795188	3260583.81592376	8932005.5351622	8340827.52597275	9256460.69197759	11217839.169041	5919262.81433556	11790077.0657915	9567977.80797097	73717.5811684739	9991787.29074293	4208098.14739633	623970.649925847	10904221.2642849	2171793.93621067
+HMDB00792	429568.609438384	3887629.50527037	1330692.11658995	1367446.73023821	844197.447472453	2948090.71886592	1614157.90566884	3740009.19379795	3292251.66531919	2310688.79492013	4404239.59008605	3043289.12780863	825736.467181043	2523241.91730649	6030501.02648005	474901.604069803	2885792.42617652	2955990.64049134	1917716.3427982	1767962.67737699	5926203.40397675	1639065.69474684	346810.763557826	1054776.22313737	2390258.27543894	1831346.37315857	1026696.36904362	7079792.50047866	4368341.01359769	3495986.87280275

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/input/sampleMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,31 @@
+sample	age	ageGroup
+HU_017	41	experienced
+HU_021	34	junior
+HU_027	37	experienced
+HU_032	38	experienced
+HU_041	28	junior
+HU_048	39	experienced
+HU_049	50	senior
+HU_050	30	junior
+HU_052	51	senior
+HU_059	81	senior
+HU_060	55	senior
+HU_066	25	junior
+HU_072	47	experienced
+HU_077	27	junior
+HU_090	46	experienced
+HU_109	32	junior
+HU_110	50	senior
+HU_125	58	senior
+HU_126	45	experienced
+HU_131	42	experienced
+HU_134	48	experienced
+HU_149	35	experienced
+HU_150	49	experienced
+HU_173	55	senior
+HU_179	33	junior
+HU_180	53	senior
+HU_182	43	experienced
+HU_202	42	experienced
+HU_204	31	junior
+HU_209	17.5	junior

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/input/variableMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+variable	name
+HMDB01032	Dehydroepiandrosterone sulfate
+HMDB03072	Quinic acid
+HMDB00792	Sebacic acid

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/output/information.txt	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,8 @@
+
+Start of the 'Univariate' Galaxy module call: sam. 21 mai 2016 20:25:53
+
+Performing 'ttest'
+
+No significant variable found at the selected 0.05 level
+
+End of 'Univariate' Galaxy module call: 2016-05-21 20:25:53

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/output/variableMetadata.tsv	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,4 @@
+variableMetadata	PCA_XLOAD-h1	PCA_XLOAD-h2	jour_ttest_J3-J10_dif	jour_ttest_J3-J10_fdr	jour_ttest_J3-J10_sig
+MT1	-0.048723936	0.05648187	-0.0359710196666665	0.827558403950534	0
+MT2	-0.067609139	0.084300327	-0.0676994936666668	0.827558403950534	0
+MT3	0.080335733	-0.0215397	0.163601670666666	0.760596565270778	0

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/tests/univariate_tests.R	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,194 @@
+library(RUnit)
+
+wrapperF <- function(argVc) {
+
+
+    source("../univariate_script.R")
+
+
+#### Start_of_testing_code <- function() {}
+
+
+    ##------------------------------
+    ## Initializing
+    ##------------------------------
+
+    ## options
+    ##--------
+
+    strAsFacL <- options()$stringsAsFactors
+    options(stringsAsFactors = FALSE)
+
+    ## packages
+    ##---------
+
+    library(PMCMR)
+
+    ## constants
+    ##----------
+
+    modNamC <- "Univariate" ## module name
+
+    topEnvC <- environment()
+    flagC <- "\n"
+
+    ## functions
+    ##----------
+
+    flgF <- function(tesC,
+                     envC = topEnvC,
+                     txtC = NA) { ## management of warning and error messages
+
+        tesL <- eval(parse(text = tesC), envir = envC)
+
+        if(!tesL) {
+
+            sink(NULL)
+            stpTxtC <- ifelse(is.na(txtC),
+                              paste0(tesC, " is FALSE"),
+                              txtC)
+
+            stop(stpTxtC,
+                 call. = FALSE)
+
+        }
+
+    } ## flgF
+
+    ## log file
+    ##---------
+
+    sink(argVc["information"])
+
+    cat("\nStart of the '", modNamC, "' Galaxy module call: ",
+        format(Sys.time(), "%a %d %b %Y %X"), "\n", sep="")
+
+    ## loading
+    ##--------
+
+    datMN <- t(as.matrix(read.table(argVc["dataMatrix_in"],
+                                    check.names = FALSE,
+                                    header = TRUE,
+                                    row.names = 1,
+                                    sep = "\t")))
+
+    samDF <- read.table(argVc["sampleMetadata_in"],
+                        check.names = FALSE,
+                        header = TRUE,
+                        row.names = 1,
+                        sep = "\t")
+
+    varDF <- read.table(argVc["variableMetadata_in"],
+                        check.names = FALSE,
+                        header = TRUE,
+                        row.names = 1,
+                        sep = "\t")
+
+    tesC <- argVc["tesC"]
+
+    ## checking
+    ##---------
+
+    flgF("identical(rownames(datMN), rownames(samDF))", txtC = "Column names of the dataMatrix are not identical to the row names of the sampleMetadata; check your data with the 'Check Format' module in the 'Quality Control' section")
+    flgF("identical(colnames(datMN), rownames(varDF))", txtC = "Row names of the dataMatrix are not identical to the row names of the variableMetadata; check your data with the 'Check Format' module in the 'Quality Control' section")
+
+    flgF("argVc['facC'] %in% colnames(samDF)", txtC = paste0("Required factor of interest '", argVc['facC'], "' could not be found in the column names of the sampleMetadata"))
+    flgF("mode(samDF[, argVc['facC']]) %in% c('character', 'numeric')", txtC = paste0("The '", argVc['facC'], "' column of the sampleMetadata should contain either number only, or character only"))
+
+    flgF("!(tesC %in% c('ttest', 'wilcoxon')) || (mode(samDF[, argVc['facC']]) == 'character' && length(unique(samDF[, argVc['facC']])) == 2)", txtC = paste0("For 'ttest' and 'wilcoxon', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain characters with only two different classes"))
+    flgF("!(tesC %in% c('anova', 'kruskal')) || (mode(samDF[, argVc['facC']]) == 'character' && length(unique(samDF[, argVc['facC']])) > 2)", txtC = paste0("For 'anova' and 'kruskal', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain characters with at least three different classes"))
+    flgF("!(tesC %in% c('pearson', 'spearman')) || mode(samDF[, argVc['facC']]) == 'numeric'", txtC = paste0("For 'pearson' and 'spearman', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain numbers only"))
+
+    flgF("argVc['adjC'] %in% c('holm', 'hochberg', 'hommel', 'bonferroni', 'BH', 'BY', 'fdr', 'none')")
+
+    flgF("0 <= as.numeric(argVc['thrN']) && as.numeric(argVc['thrN']) <= 1",
+         txtC = "(corrected) p-value threshold must be between 0 and 1")
+
+
+    ##------------------------------
+    ## Computation
+    ##------------------------------
+
+
+    varDF <- univariateF(datMN = datMN,
+                         samDF = samDF,
+                         varDF = varDF,
+                         facC = argVc["facC"],
+                         tesC = tesC,
+                         adjC = argVc["adjC"],
+                         thrN = as.numeric(argVc["thrN"]))
+
+
+    ##------------------------------
+    ## Ending
+    ##------------------------------
+
+
+    ## saving
+    ##--------
+
+    varDF <- cbind.data.frame(variableMetadata = rownames(varDF),
+                              varDF)
+    write.table(varDF,
+                file = argVc["variableMetadata_out"],
+                quote = FALSE,
+                row.names = FALSE,
+                sep = "\t")
+
+    ## closing
+    ##--------
+
+    cat("\nEnd of '", modNamC, "' Galaxy module call: ",
+        as.character(Sys.time()), "\n", sep = "")
+
+    sink()
+
+    options(stringsAsFactors = strAsFacL)
+
+
+
+#### End_of_testing_code <- function() {}
+
+
+    return(list(varDF = varDF))
+
+    rm(list = ls())
+
+}
+
+exaDirOutC <- "output"
+if(!file.exists(exaDirOutC))
+   stop("Please create an 'output' subfolder into the (current) 'tests' folder")
+
+tesArgLs <- list(input_kruskal = c(facC = "ageGroup",
+                     tesC = "kruskal",
+                     adjC = "fdr",
+                     thrN = "0.05",
+                     .chkC = "checkEqualsNumeric(outLs[['varDF']]['HMDB01032', 'ageGroup_kruskal_senior-experienced_pva'], 0.1231246, tolerance = 1e-6)"),
+                 example1_wilcoxDif = c(facC = "jour",
+                     tesC = "wilcoxon",
+                     adjC = "fdr",
+                     thrN = "0.05",
+                     .chkC = "checkEqualsNumeric(outLs[['varDF']]['MT3', 'jour_wilcoxon_J3-J10_dif'], 0.216480042, tolerance = 1e-8)"),
+                 example1_ttestFdr = c(facC = "jour",
+                     tesC = "ttest",
+                     adjC = "fdr",
+                     thrN = "0.05",
+                     .chkC = "checkEqualsNumeric(outLs[['varDF']]['MT3', 'jour_ttest_J3-J10_fdr'], 0.7605966, tolerance = 1e-6)"))
+
+for(tesC in names(tesArgLs))
+    tesArgLs[[tesC]] <- c(tesArgLs[[tesC]],
+                          dataMatrix_in = file.path(unlist(strsplit(tesC, "_"))[1], "dataMatrix.tsv"),
+                          sampleMetadata_in = file.path(unlist(strsplit(tesC, "_"))[1], "sampleMetadata.tsv"),
+                          variableMetadata_in = file.path(unlist(strsplit(tesC, "_"))[1], "variableMetadata.tsv"),
+                          variableMetadata_out = file.path(exaDirOutC, "variableMetadata.tsv"),
+                          information = file.path(exaDirOutC, "information.txt"))
+
+for(tesC in names(tesArgLs)) {
+    print(tesC)
+    outLs <- wrapperF(tesArgLs[[tesC]])
+    if(".chkC" %in% names(tesArgLs[[tesC]]))
+        stopifnot(eval(parse(text = tesArgLs[[tesC]][[".chkC"]])))
+}
+
+message("Checks successfully completed")

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/univariate_config.xml	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,313 @@
+<tool id="Univariate" name="Univariate" version="2.1.1">
+  <description>Univariate statistics</description>
+
+	<requirements>
+		<requirement type="package" version="3.2.2">R</requirement>
+		<requirement type="package">r-batch</requirement>
+		<requirement type="package">r-pmcmr</requirement>
+	</requirements>
+
+  <command><![CDATA[
+	  $__tool_directory__/univariate_wrapper.R
+      dataMatrix_in "$dataMatrix_in"
+      sampleMetadata_in "$sampleMetadata_in"
+      variableMetadata_in "$variableMetadata_in"
+
+	  facC "$facC"
+	  tesC "$tesC"
+	  adjC "$adjC"
+	  thrN "$thrN"	  
+
+      variableMetadata_out "$variableMetadata_out"
+	  information "$information"
+  ]]></command>
+
+  <inputs>
+	<param name="dataMatrix_in" label="Data matrix file" type="data" format="tabular" help="variable x sample, decimal: '.', missing: NA, mode: numerical, sep: tabular" />
+	<param name="sampleMetadata_in" label="Sample metadata file" type="data" format="tabular" help="sample x metadata, decimal: '.', missing: NA, mode: character and numerical, sep: tabular" />
+	<param name="variableMetadata_in" label="Variable metadata file" type="data" format="tabular" help="variable x metadata, decimal: '.', missing: NA, mode: character and numerical, sep: tabular"  />
+    <param name="facC" label="Factor of interest" type="text" help="Name of the column of the sample metadata table corresponding to the qualitative or quantitative variable"/>
+    <param name="tesC" label="Test" type="select" help="">
+		<option value="ttest">ttest (qualitative, 2 levels)</option>
+        <option value="wilcoxon">Wilcoxon test (qualitative, 2 levels)</option>      
+		<option value="anova">Analysis of variance (qualitative, more than 2 levels)</option>
+		<option value="kruskal">Kruskal-Wallis rank test (qualitative, more than 2 levels)</option>
+		<option value="pearson">Pearson correlation test (quantitative)</option>
+		<option value="spearman">Spearman correlation rank test (quantitative)</option>
+    </param>
+    <param name="adjC" label="Method for multiple testing correction" type="select" help="">
+	    <option value="fdr">fdr</option>
+		<option value="BH">BH</option>
+		<option value="bonferroni">bonferroni</option>
+		<option value="BY">BY</option>
+		<option value="hochberg">hochberg</option>
+        <option value="holm">holm</option>
+		<option value="hommel">hommel</option>
+		<option value="none">none</option>
+    </param>
+    <param name="thrN" type="float" value="0.05" label="(Corrected) p-value significance threshold" help="Must be between 0 and 1"/>
+   </inputs>
+
+  <outputs>
+    <data name="variableMetadata_out" label="${tool.name}_${variableMetadata_in.name}" format="tabular" ></data>
+	<data name="information" label="${tool.name}_information.txt" format="txt"/>
+  </outputs>
+
+  <tests>
+	  <test>
+		  <param name="dataMatrix_in" value="dataMatrix.tsv"/>
+		  <param name="sampleMetadata_in" value="sampleMetadata.tsv"/>
+		  <param name="variableMetadata_in" value="variableMetadata.tsv"/>
+		  <param name="facC" value="ageGroup"/>
+		  <param name="tesC" value="kruskal"/>
+		  <param name="adjC" value="fdr"/>
+		  <param name="thrN" value="0.05"/>
+		  <output name="variableMetadata_out" file="variableMetadata-output.tsv"/>
+	  </test>
+  </tests>
+
+  <help>
+
+.. class:: infomark
+
+| **Tool update: See the 'NEWS' section at the bottom of the page**
+
+---------------------------------------------------
+
+.. class:: infomark
+
+**Authors**
+
+| **Marie Tremblay-Franco (marie.tremblay-franco@toulouse.inra.fr)** and **Etienne Thevenot (etienne.thevenot@cea.fr)** wrote this wrapper of R univariate statistical tests.
+| MetaboHUB: The French National Infrastructure for Metabolomics and Fluxomics (http://www.metabohub.fr/en)
+
+---------------------------------------------------
+
+.. class:: infomark
+
+**Please cite**
+
+R Core Team (2013). R: A language and Environment for Statistical Computing. http://www.r-project.org
+
+---------------------------------------------------
+
+.. class:: infomark
+
+**References**
+
+| Benjamini Y. and Hochberg Y. (1995). Controlling the false discovery rate: a practical and powerful approach for multiple testing. Journal of the Royal Statistical Society. Series B (Methodological), 57:289-300.
+| Dalgaard P. (2002). Introductory statistics with R. Springer.
+| Kvam P. and Vidakovic B. (2007). Nonparametric statistics with applications to science and engineering. Wiley.
+| Van Belle G., Fisher L., Heagerty P. and Lumley T. (2004). Biostatistics - a methodology for the health sciences. Wiley.
+| Pohlert T. (2015). PMCMR: Calculate pairwise multiple comparisons of mean rank sums. R package on CRAN.
+
+---------------------------------------------------
+
+=====================
+Univariate statistics
+=====================
+
+-----------
+Description
+-----------
+
+| The module performs two sample tests (t-test and Wilcoxon rank test), analysis of variance and Kruskal-Wallis rank test, and correlation tests (by using either the pearson or the spearman correlation)
+
+-----------------
+Workflow position
+-----------------
+
+.. image:: univariate_workflowPositionImage.png
+        :width: 584
+
+-----------
+Input files
+-----------
+
++------------------------------+------------+
+| File                         |   Format   |
++==============================+============+
+| 1)  Data matrix              |   tabular  |
++------------------------------+------------+
+| 2)  Sample metadata          |   tabular  |
++------------------------------+------------+
+| 3)  Variable metadata        |   tabular  |
++------------------------------+------------+
+
+----------
+Parameters
+----------
+	  
+Data matrix file
+	| variable x sample **dataMatrix** tabular separated file of the numeric data matrix, with . as decimal, and NA for missing values; the table must not contain metadata apart from row and column names; the row and column names must be identical to the rownames of the sample and variable metadata, respectively (see below)
+	|
+
+Sample metadata file
+	| sample x metadata **sampleMetadata** tabular separated file of the numeric and/or character sample metadata, with . as decimal and NA for missing values
+	|
+	
+Variable metadata file
+	| variable x metadata **variableMetadata** tabular separated file of the numeric and/or character variable metadata, with . as decimal and NA for missing values
+	|
+
+Factor
+	| Column of the sample metadata table to be used as qualitative factor (t-test, Wilcoxon test, Analysis of variance, Kruskal-Wallis test) or quantitative variable (correlation)
+	|
+
+Test
+	| Depending on the factor of interest (qualitative with 2 or more levels, or quantitative), and on the normality of the sample values (determining whether a parametric or nonparametric test is required), you can choose one of the 6 tests available:
+
+
++---------------------------+------------------+----------------------+----------------------+
+| Factor to be tested       | Number of levels |    Parametric test   |  Nonparametric test  |
++===========================+==================+======================+======================+
+| Qualitative               |         2        |       t-test         |    Wilcoxon test     |
++                           +------------------+----------------------+----------------------+
+|                           |        > 2       | Analysis of variance |    Kruskal-Wallis    |
++---------------------------+------------------+----------------------+----------------------+
+| Quantitative              |                  | Pearson correlation  | Spearman correlation |
++---------------------------+------------------+----------------------+----------------------+
+
+Method for multiple testing correction
+	| The 7 methods implemented in the 'p.adjust' R function are available and documented as follows:
+	| "The adjustment methods include the Bonferroni correction ("bonferroni") in which the p-values are multiplied by the number of comparisons. Less conservative corrections are also included by Holm (1979) ("holm"), Hochberg (1988) ("hochberg"), Hommel (1988) ("hommel"), Benjamini and Hochberg (1995) ("BH" or its alias "fdr"), and Benjamini and Yekutieli (2001) ("BY"), respectively. A pass-through option ("none") is also included. The set of methods are contained in the p.adjust.methods vector for the benefit of methods that need to have the method as an option and pass it on to p.adjust. The first four methods are designed to give strong control of the family-wise error rate. There seems no reason to use the unmodified Bonferroni correction because it is dominated by Holm's method, which is also valid under arbitrary assumptions. Hochberg's and Hommel's methods are valid when the hypothesis tests are independent or when they are non-negatively associated (Sarkar, 1998; Sarkar and Chang, 1997). Hommel's method is more powerful than Hochberg's, but the difference is usually small and the Hochberg p-values are faster to compute. The "BH" (aka "fdr") and "BY" method of Benjamini, Hochberg, and Yekutieli control the false discovery rate, the expected proportion of false discoveries amongst the rejected hypotheses. The false discovery rate is a less stringent condition than the family-wise error rate, so these methods are more powerful than the others."
+	|
+
+(Corrected) p-value significance threshold
+	|
+	|
+
+
+------------
+Output files
+------------
+	
+variableMetadata_out.tabular
+	| **variableMetadata** file identical to the file given as argument, except that (at least) three columns have been added:
+	| 1) [factor]_[test]_[class'a']-[class'b']_dif or [factor]_[test]_cor: difference of the means (ttest) or the medians (wilcoxon) between the two classes, or 'pearson' or 'spearman' correlations
+	| 2) [factor]_[test]_[class'a']-[class'b']_[method] or [factor]_[test]_[method]: adjusted p-values
+	| 3) [factor]_[test]_[class'a']-[class'b']_sig or [factor]_[test]_sig: significance (coded as '1' if below the threshold and '0' otherwise)
+	| In the case of 'anova' and 'kruskal', the columns 2) and 3) appear first to give the results from the ANOVA or Kruskal Wallis test, and, when these tests are significant, the results of the pairwise comparisons are reported in additional columns (otherwise NA in these columns): in the case of ANOVA, the Tukey HSD post-hoc analysis is used (for each comparison, the difference between means, p value, and significance are provided); in the case of Kruskal Wallis, the Nemenyi is performed (PMCMR package) (for each pairwise comparison, the difference between medians, p value and significance are provided)
+	|
+	
+information.txt
+	| File with all messages and warnings generated during the computation
+	|
+
+---------------------------------------------------
+
+---------------
+Working example
+---------------
+
+Input files
+===========
+
+| **To generate the "dataMatrix", "sampleMetadata" and "variableMetadata" files:**
+|   **1) copy/paste the values below in three distinct .txt files**
+|   **2) use the "Get Data" / "Upload File" in the "Tools" (left) panel from the Galaxy / ABiMS page by choosing:**
+|     **a) File Format: 'tabular'**
+|     **b) Convert spaces to tabs: 'Yes'**
+| 
+
+**dataMatrix file**::
+
+	dataMatrix HU_017 HU_021 HU_027 HU_032 HU_041 HU_048 HU_049 HU_050 HU_052 HU_059 HU_060 HU_066 HU_072 HU_077 HU_090 HU_109 HU_110 HU_125 HU_126 HU_131 HU_134 HU_149 HU_150 HU_173 HU_179 HU_180 HU_182 HU_202 HU_204 HU_209
+	HMDB01032 2569204.92420381 6222035.77434915 17070707.9912636 1258838.24348419 13039543.0754619 1909391.77026598 3495.09386434063 2293521.90928998 128503.275117713 81872.5276382213 8103557.56578035 149574887.036181 1544036.41049333 7103429.53933206 14138796.50382 4970265.57952158 263054.73056162 1671332.30008058 88433.1944958815 23602331.2894815 18648126.5206986 1554657.98756878 34152.3646391152 209372.71275317 33187733.370626 202438.591636003 13581070.0886437 354170.810678102 9120781.48986975 43419175.4051586
+	HMDB03072 3628416.30251025 65626.9834353751 112170.118946651 3261804.34422417 42228.2787747563 343254.201250707 1958217.69317664 11983270.0435677 5932111.41638028 5511385.83359531 9154521.47755199 2632133.21209418 9500411.14556502 6551644.51726592 7204319.80891836 1273412.04795188 3260583.81592376 8932005.5351622 8340827.52597275 9256460.69197759 11217839.169041 5919262.81433556 11790077.0657915 9567977.80797097 73717.5811684739 9991787.29074293 4208098.14739633 623970.649925847 10904221.2642849 2171793.93621067
+	HMDB00792 429568.609438384 3887629.50527037 1330692.11658995 1367446.73023821 844197.447472453 2948090.71886592 1614157.90566884 3740009.19379795 3292251.66531919 2310688.79492013 4404239.59008605 3043289.12780863 825736.467181043 2523241.91730649 6030501.02648005 474901.604069803 2885792.42617652 2955990.64049134 1917716.3427982 1767962.67737699 5926203.40397675 1639065.69474684 346810.763557826 1054776.22313737 2390258.27543894 1831346.37315857 1026696.36904362 7079792.50047866 4368341.01359769 3495986.87280275
+
+	
+**sampleMetadata file**::
+
+	sampleMetadata age ageGrp
+	HU_017 41 experienced
+	HU_021 34 junior
+	HU_027 37 experienced
+	HU_032 38 experienced
+	HU_041 28 junior
+	HU_048 39 experienced
+	HU_049 50 senior
+	HU_050 30 junior
+	HU_052 51 senior
+	HU_059 81 senior
+	HU_060 55 senior
+	HU_066 25 junior
+	HU_072 47 experienced
+	HU_077 27 junior
+	HU_090 46 experienced
+	HU_109 32 junior
+	HU_110 50 senior
+	HU_125 58 senior
+	HU_126 45 experienced
+	HU_131 42 experienced
+	HU_134 48 experienced
+	HU_149 35 experienced
+	HU_150 49 experienced
+	HU_173 55 senior
+	HU_179 33 junior
+	HU_180 53 senior
+	HU_182 43 experienced
+	HU_202 42 experienced
+	HU_204 31 junior
+	HU_209 17.5 junior
+
+	
+**variableMetadata file**::
+
+	variableMetadata name
+	HMDB01032        Dehydroepiandrosterone sulfate
+	HMDB03072        Quinic acid
+	HMDB00792        Sebacic acid
+
+	
+Parameters
+==========
+
+**Factor of interest:** "ageGroup"
+
+**Test:** "Kruskal-Wallis rank test (qualitative, > 2 levels)"
+ 
+**Method for multiple testing correction:** "fdr"
+
+**(Corrected) p-value significance threshold:** 0.05
+
+
+Output files
+============
+
++------------------------------+------------+
+| File                         |   Format   |
++==============================+============+
+| 1)  dataMatrix               |   tabular  |
++------------------------------+------------+
+| 2)  sampleMetadata           |   tabular  |
++------------------------------+------------+
+| 3)  variableMetadata         |   tabular  |
++------------------------------+------------+
+| 4)  information              |    text    |
++------------------------------+------------+
+
+
+---------------------------------------------------
+
+----
+NEWS
+----
+
+CHANGES IN VERSION 2.1.1
+========================
+
+Internal handling of 'NA' p-values (e.g. when intensities are identical in all samples)
+
+CHANGES IN VERSION 2.0.1
+========================
+
+(corrected) p-value threshold can be set to any value between 0 and 1
+
+
+  </help>
+
+  <citations/>
+
+</tool>

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/univariate_script.R	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,148 @@
+univariateF <- function(datMN,
+                        samDF,
+                        varDF,
+                        facC,
+                        tesC = c("ttest", "wilcoxon", "anova", "kruskal", "pearson", "spearman")[1],
+                        adjC = c("holm", "hochberg", "hommel", "bonferroni", "BH", "BY", "fdr", "none")[7],
+                        thrN = 0.05) {
+
+
+    ## Option
+    ##---------------
+
+    strAsFacL <- options()$stringsAsFactors
+    options(stingsAsFactors = FALSE)
+    options(warn = -1)
+
+    if(mode(samDF[, facC]) == "character") {
+        facFcVn <- factor(samDF[, facC])
+        facLevVc <- levels(facFcVn)
+    } else
+        facFcVn <- samDF[, facC]
+
+    cat("\nPerforming '", tesC, "'\n", sep="")
+
+    varPfxC <- paste0(make.names(facC), "_", tesC, "_")
+
+    if(tesC %in% c("ttest", "wilcoxon", "pearson", "spearman")) {
+
+        switch(tesC,
+               ttest = {
+                   staF <- function(y) diff(tapply(y, facFcVn, function(x) mean(x, na.rm = TRUE)))
+                   tesF <- function(y) t.test(y ~ facFcVn)[["p.value"]]
+               },
+               wilcoxon = {
+                   staF <- function(y) diff(tapply(y, facFcVn, function(x) median(x, na.rm = TRUE)))
+                   tesF <- function(y) wilcox.test(y ~ facFcVn)[["p.value"]]
+               },
+               pearson = {
+                   staF <- function(y) cor(facFcVn, y, method = "pearson", use = "pairwise.complete.obs")
+                   tesF <- function(y) cor.test(facFcVn, y, method = "pearson", use = "pairwise.complete.obs")[["p.value"]]
+               },
+               spearman = {
+                   staF <- function(y) cor(facFcVn, y, method = "spearman", use = "pairwise.complete.obs")
+                   tesF <- function(y) cor.test(facFcVn, y, method = "spearman", use = "pairwise.complete.obs")[["p.value"]]
+               })
+
+        staVn <- apply(datMN, 2, staF)
+
+        fdrVn <- p.adjust(apply(datMN,
+                                2,
+                                tesF),
+                          method = adjC)
+
+        sigVn <- as.numeric(fdrVn < thrN)
+
+        if(tesC %in% c("ttest", "wilcoxon"))
+            varPfxC <- paste0(varPfxC, paste(rev(facLevVc), collapse = "-"), "_")
+
+        varDF[, paste0(varPfxC, ifelse(tesC %in% c("ttest", "wilcoxon"), "dif", "cor"))] <- staVn
+
+        varDF[, paste0(varPfxC, adjC)] <- fdrVn
+
+        varDF[, paste0(varPfxC, "sig")] <- sigVn
+
+    } else if(tesC == "anova") {
+
+        ## getting the names of the pairwise comparisons 'class1Vclass2'
+        prwVc <- rownames(TukeyHSD(aov(datMN[, 1] ~ facFcVn))[["facFcVn"]])
+
+        aovMN <- t(apply(datMN, 2, function(varVn) {
+
+            aovMod <- aov(varVn ~ facFcVn)
+            pvaN <- summary(aovMod)[[1]][1, "Pr(>F)"]
+            hsdMN <- TukeyHSD(aovMod)[["facFcVn"]]
+            c(pvaN, c(hsdMN[, c("diff", "p adj")]), as.numeric(hsdMN[, "p adj"] < thrN))
+
+        }))
+
+        aovMN[, 1] <- p.adjust(aovMN[, 1], method = adjC)
+        sigVn <-  as.numeric(aovMN[, 1] < thrN)
+        aovMN <- cbind(aovMN[, 1], sigVn, aovMN[, 2:ncol(aovMN)])
+        ## aovMN[which(aovMN[, 2] < 1), (3 + length(prwVc)):ncol(aovMN)] <- NA
+        colnames(aovMN) <- paste0(varPfxC,
+                                  c(adjC,
+                                    "sig",
+                                    paste0(prwVc, "_dif"),
+                                    paste0(prwVc, "_pva"),
+                                    paste0(prwVc, "_sig")))
+        aovMN[which(aovMN[, paste0(varPfxC, "sig")] < 1), paste0(varPfxC, c(paste0(prwVc, "_pva"), paste0(prwVc, "_sig")))] <- NA
+
+        varDF <- cbind.data.frame(varDF, as.data.frame(aovMN))
+
+    } else if(tesC == "kruskal") {
+
+        ## getting the names of the pairwise comparisons 'class1Vclass2'
+        nemMN <- posthoc.kruskal.nemenyi.test(datMN[, 1], facFcVn, "Tukey")[["p.value"]]
+        nemVl <- c(lower.tri(nemMN, diag = TRUE))
+        nemClaMC <- cbind(rownames(nemMN)[c(row(nemMN))][nemVl],
+                          colnames(nemMN)[c(col(nemMN))][nemVl])
+        nemNamVc <- paste0(nemClaMC[, 1], "-", nemClaMC[, 2])
+        nemNamVc <- paste0(varPfxC, nemNamVc)
+
+        nemMN <- t(apply(datMN, 2, function(varVn) {
+
+            pvaN <- kruskal.test(varVn ~ facFcVn)[["p.value"]]
+            varNemMN <- posthoc.kruskal.nemenyi.test(varVn, facFcVn, "Tukey")[["p.value"]]
+            c(pvaN, c(varNemMN))
+
+        }))
+        pvaVn <- nemMN[, 1]
+        fdrVn <- p.adjust(pvaVn, method = adjC)
+        sigVn <- as.numeric(fdrVn < thrN)
+        nemMN <- nemMN[, c(FALSE, nemVl)]
+        colnames(nemMN) <- paste0(nemNamVc, "_pva")
+        nemSigMN <- nemMN < thrN
+        mode(nemSigMN) <- "numeric"
+        colnames(nemSigMN) <- paste0(nemNamVc, "_sig")
+        nemMN[sigVn < 1, ] <- NA
+        nemSigMN[sigVn < 1, ] <- NA
+
+        difMN <- sapply(1:nrow(nemClaMC), function(prwI) {
+            prwVc <- nemClaMC[prwI, ]
+            prwVi <- which(facFcVn %in% prwVc)
+            prwFacFc <- factor(as.character(facFcVn)[prwVi], levels = prwVc)
+            apply(datMN[prwVi, ], 2, function(varVn) -diff(as.numeric(tapply(varVn, prwFacFc, function(x) median(x, na.rm = TRUE)))))
+        })
+        colnames(difMN) <- gsub("_sig", "_dif", colnames(nemSigMN))
+
+        nemMN <- cbind(fdrVn, sigVn, difMN, nemMN, nemSigMN)
+        colnames(nemMN)[1:2] <- paste0(varPfxC, c(adjC, "sig"))
+
+        varDF <- cbind.data.frame(varDF, as.data.frame(nemMN))
+
+    }
+
+    names(sigVn) <- rownames(varDF)
+    sigSumN <- sum(sigVn, na.rm = TRUE)
+    if(sigSumN) {
+        cat("\nThe following ", sigSumN, " variable", ifelse(sigSumN > 1, "s", ""), " (", round(sigSumN / length(sigVn) * 100), "%) ", ifelse(sigSumN > 1, "were", "was"), " found significant at the ", thrN, " level:\n", sep = "")
+        cat(paste(rownames(varDF)[sigVn > 0], collapse = "\n"), "\n", sep = "")
+    } else
+        cat("\nNo significant variable found at the selected ", thrN, " level\n", sep = "")
+
+    options(stingsAsFactors = strAsFacL)
+
+    return(varDF)
+
+}

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/univariate_wrapper.R	Wed Jul 27 11:44:34 2016 -0400
@@ -0,0 +1,159 @@
+#!/usr/bin/env Rscript
+
+library(batch) ## parseCommandArgs
+
+source_local <- function(fname){
+    argv <- commandArgs(trailingOnly = FALSE)
+    base_dir <- dirname(substring(argv[grep("--file=", argv)], 8))
+    source(paste(base_dir, fname, sep="/"))
+}
+
+source_local("univariate_script.R")
+
+argVc <- unlist(parseCommandArgs(evaluate=FALSE))
+
+
+#### Start_of_tested_code  <- function() {}
+
+
+##------------------------------
+## Initializing
+##------------------------------
+
+## options
+##--------
+
+strAsFacL <- options()$stringsAsFactors
+options(stringsAsFactors = FALSE)
+
+## packages
+##---------
+
+library(PMCMR)
+
+## constants
+##----------
+
+modNamC <- "Univariate" ## module name
+
+topEnvC <- environment()
+flagC <- "\n"
+
+## functions
+##----------
+
+flgF <- function(tesC,
+                 envC = topEnvC,
+                 txtC = NA) { ## management of warning and error messages
+
+    tesL <- eval(parse(text = tesC), envir = envC)
+
+    if(!tesL) {
+
+        sink(NULL)
+        stpTxtC <- ifelse(is.na(txtC),
+                          paste0(tesC, " is FALSE"),
+                          txtC)
+
+        stop(stpTxtC,
+             call. = FALSE)
+
+    }
+
+} ## flgF
+
+## log file
+##---------
+
+sink(argVc["information"])
+
+cat("\nStart of the '", modNamC, "' Galaxy module call: ",
+    format(Sys.time(), "%a %d %b %Y %X"), "\n", sep="")
+
+## loading
+##--------
+
+datMN <- t(as.matrix(read.table(argVc["dataMatrix_in"],
+                                check.names = FALSE,
+                                header = TRUE,
+                                row.names = 1,
+                                sep = "\t")))
+
+samDF <- read.table(argVc["sampleMetadata_in"],
+                    check.names = FALSE,
+                    header = TRUE,
+                    row.names = 1,
+                    sep = "\t")
+
+varDF <- read.table(argVc["variableMetadata_in"],
+                    check.names = FALSE,
+                    header = TRUE,
+                    row.names = 1,
+                    sep = "\t")
+
+tesC <- argVc["tesC"]
+
+## checking
+##---------
+
+flgF("identical(rownames(datMN), rownames(samDF))", txtC = "Column names of the dataMatrix are not identical to the row names of the sampleMetadata; check your data with the 'Check Format' module in the 'Quality Control' section")
+flgF("identical(colnames(datMN), rownames(varDF))", txtC = "Row names of the dataMatrix are not identical to the row names of the variableMetadata; check your data with the 'Check Format' module in the 'Quality Control' section")
+
+flgF("argVc['facC'] %in% colnames(samDF)", txtC = paste0("Required factor of interest '", argVc['facC'], "' could not be found in the column names of the sampleMetadata"))
+flgF("mode(samDF[, argVc['facC']]) %in% c('character', 'numeric')", txtC = paste0("The '", argVc['facC'], "' column of the sampleMetadata should contain either number only, or character only"))
+
+flgF("!(tesC %in% c('ttest', 'wilcoxon')) || (mode(samDF[, argVc['facC']]) == 'character' && length(unique(samDF[, argVc['facC']])) == 2)", txtC = paste0("For 'ttest' and 'wilcoxon', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain characters with only two different classes"))
+flgF("!(tesC %in% c('anova', 'kruskal')) || (mode(samDF[, argVc['facC']]) == 'character' && length(unique(samDF[, argVc['facC']])) > 2)", txtC = paste0("For 'anova' and 'kruskal', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain characters with at least three different classes"))
+flgF("!(tesC %in% c('pearson', 'spearman')) || mode(samDF[, argVc['facC']]) == 'numeric'", txtC = paste0("For 'pearson' and 'spearman', the chosen factor column ('", argVc['facC'], "') of the sampleMetadata should contain numbers only"))
+
+flgF("argVc['adjC'] %in% c('holm', 'hochberg', 'hommel', 'bonferroni', 'BH', 'BY', 'fdr', 'none')")
+
+flgF("0 <= as.numeric(argVc['thrN']) && as.numeric(argVc['thrN']) <= 1",
+     txtC = "(corrected) p-value threshold must be between 0 and 1")
+
+
+##------------------------------
+## Computation
+##------------------------------
+
+
+varDF <- univariateF(datMN = datMN,
+                     samDF = samDF,
+                     varDF = varDF,
+                     facC = argVc["facC"],
+                     tesC = tesC,
+                     adjC = argVc["adjC"],
+                     thrN = as.numeric(argVc["thrN"]))
+
+
+##------------------------------
+## Ending
+##------------------------------
+
+
+## saving
+##--------
+
+varDF <- cbind.data.frame(variableMetadata = rownames(varDF),
+                          varDF)
+write.table(varDF,
+            file = argVc["variableMetadata_out"],
+            quote = FALSE,
+            row.names = FALSE,
+            sep = "\t")
+
+## closing
+##--------
+
+cat("\nEnd of '", modNamC, "' Galaxy module call: ",
+    as.character(Sys.time()), "\n", sep = "")
+
+sink()
+
+options(stringsAsFactors = strAsFacL)
+
+
+#### End_of_tested_code <- function() {}
+
+
+rm(list = ls())