Multiple platform build/check report for BioC 3.9 - CHECK report for MultiAssayExperiment on malbec2

Package: MultiAssayExperiment

Version: 1.10.4

Command: /home/biocbuild/bbs-3.9-bioc/R/bin/R CMD check --install=check:MultiAssayExperiment.install-out.txt --library=/home/biocbuild/bbs-3.9-bioc/R/library --no-vignettes --timings MultiAssayExperiment_1.10.4.tar.gz

StartedAt: 2019-10-16 03:25:01 -0400 (Wed, 16 Oct 2019)

EndedAt: 2019-10-16 03:28:36 -0400 (Wed, 16 Oct 2019)

EllapsedTime: 215.0 seconds

RetCode: 0

Status: OK

CheckDir: MultiAssayExperiment.Rcheck

Warnings: 0

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### Running command:
###
###   /home/biocbuild/bbs-3.9-bioc/R/bin/R CMD check --install=check:MultiAssayExperiment.install-out.txt --library=/home/biocbuild/bbs-3.9-bioc/R/library --no-vignettes --timings MultiAssayExperiment_1.10.4.tar.gz
###
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* using log directory ‘/home/biocbuild/bbs-3.9-bioc/meat/MultiAssayExperiment.Rcheck’
* using R version 3.6.1 (2019-07-05)
* using platform: x86_64-pc-linux-gnu (64-bit)
* using session charset: UTF-8
* using option ‘--no-vignettes’
* checking for file ‘MultiAssayExperiment/DESCRIPTION’ ... OK
* this is package ‘MultiAssayExperiment’ version ‘1.10.4’
* package encoding: UTF-8
* checking package namespace information ... OK
* checking package dependencies ... OK
* checking if this is a source package ... OK
* checking if there is a namespace ... OK
* checking for hidden files and directories ... OK
* checking for portable file names ... OK
* checking for sufficient/correct file permissions ... OK
* checking whether package ‘MultiAssayExperiment’ can be installed ... OK
* checking installed package size ... OK
* checking package directory ... OK
* checking ‘build’ directory ... OK
* checking DESCRIPTION meta-information ... OK
* checking top-level files ... OK
* checking for left-over files ... OK
* checking index information ... OK
* checking package subdirectories ... OK
* checking R files for non-ASCII characters ... OK
* checking R files for syntax errors ... OK
* checking whether the package can be loaded ... OK
* checking whether the package can be loaded with stated dependencies ... OK
* checking whether the package can be unloaded cleanly ... OK
* checking whether the namespace can be loaded with stated dependencies ... OK
* checking whether the namespace can be unloaded cleanly ... OK
* checking dependencies in R code ... NOTE
Unexported objects imported by ':::' calls:
  ‘BiocGenerics:::replaceSlots’ ‘S4Vectors:::selectSome’
  See the note in ?`:::` about the use of this operator.
* checking S3 generic/method consistency ... OK
* checking replacement functions ... OK
* checking foreign function calls ... OK
* checking R code for possible problems ... OK
* checking Rd files ... OK
* checking Rd metadata ... OK
* checking Rd cross-references ... OK
* checking for missing documentation entries ... OK
* checking for code/documentation mismatches ... OK
* checking Rd \usage sections ... OK
* checking Rd contents ... OK
* checking for unstated dependencies in examples ... OK
* checking contents of ‘data’ directory ... OK
* checking data for non-ASCII characters ... OK
* checking data for ASCII and uncompressed saves ... OK
* checking files in ‘vignettes’ ... OK
* checking examples ... OK
* checking for unstated dependencies in ‘tests’ ... OK
* checking tests ...
  Running ‘testthat.R’
 OK
* checking for unstated dependencies in vignettes ... OK
* checking package vignettes in ‘inst/doc’ ... OK
* checking running R code from vignettes ... SKIPPED
* checking re-building of vignette outputs ... SKIPPED
* checking PDF version of manual ... OK
* DONE

Status: 1 NOTE
See
  ‘/home/biocbuild/bbs-3.9-bioc/meat/MultiAssayExperiment.Rcheck/00check.log’
for details.

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###
### Running command:
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###   /home/biocbuild/bbs-3.9-bioc/R/bin/R CMD INSTALL MultiAssayExperiment
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* installing to library ‘/home/biocbuild/bbs-3.9-bioc/R/library’
* installing *source* package ‘MultiAssayExperiment’ ...
** using staged installation
** R
** data
*** moving datasets to lazyload DB
** inst
** byte-compile and prepare package for lazy loading
** help
*** installing help indices
** building package indices
** installing vignettes
** testing if installed package can be loaded from temporary location
** testing if installed package can be loaded from final location
** testing if installed package keeps a record of temporary installation path
* DONE (MultiAssayExperiment)


R version 3.6.1 (2019-07-05) -- "Action of the Toes"
Copyright (C) 2019 The R Foundation for Statistical Computing
Platform: x86_64-pc-linux-gnu (64-bit)

R is free software and comes with ABSOLUTELY NO WARRANTY.
You are welcome to redistribute it under certain conditions.
Type 'license()' or 'licence()' for distribution details.

R is a collaborative project with many contributors.
Type 'contributors()' for more information and
'citation()' on how to cite R or R packages in publications.

Type 'demo()' for some demos, 'help()' for on-line help, or
'help.start()' for an HTML browser interface to help.
Type 'q()' to quit R.

> library(testthat)
> library(MultiAssayExperiment)
Loading required package: SummarizedExperiment
Loading required package: GenomicRanges
Loading required package: stats4
Loading required package: BiocGenerics
Loading required package: parallel

Attaching package: 'BiocGenerics'

The following objects are masked from 'package:parallel':

    clusterApply, clusterApplyLB, clusterCall, clusterEvalQ,
    clusterExport, clusterMap, parApply, parCapply, parLapply,
    parLapplyLB, parRapply, parSapply, parSapplyLB

The following objects are masked from 'package:stats':

    IQR, mad, sd, var, xtabs

The following objects are masked from 'package:base':

    Filter, Find, Map, Position, Reduce, anyDuplicated, append,
    as.data.frame, basename, cbind, colnames, dirname, do.call,
    duplicated, eval, evalq, get, grep, grepl, intersect, is.unsorted,
    lapply, mapply, match, mget, order, paste, pmax, pmax.int, pmin,
    pmin.int, rank, rbind, rownames, sapply, setdiff, sort, table,
    tapply, union, unique, unsplit, which, which.max, which.min

Loading required package: S4Vectors

Attaching package: 'S4Vectors'

The following object is masked from 'package:base':

    expand.grid

Loading required package: IRanges
Loading required package: GenomeInfoDb
Loading required package: Biobase
Welcome to Bioconductor

    Vignettes contain introductory material; view with
    'browseVignettes()'. To cite Bioconductor, see
    'citation("Biobase")', and for packages 'citation("pkgname")'.

Loading required package: DelayedArray
Loading required package: matrixStats

Attaching package: 'matrixStats'

The following objects are masked from 'package:Biobase':

    anyMissing, rowMedians

Loading required package: BiocParallel

Attaching package: 'DelayedArray'

The following objects are masked from 'package:matrixStats':

    colMaxs, colMins, colRanges, rowMaxs, rowMins, rowRanges

The following objects are masked from 'package:base':

    aperm, apply, rowsum

> 
> test_check("MultiAssayExperiment")

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)
harmonizing input:
  removing 7 sampleMap rows not in names(experiments)
harmonizing input:
  removing 3 sampleMap rows not in names(experiments)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)

MltAsE> ## Run the example ExperimentList
MltAsE> example("ExperimentList")

ExprmL> ## Create an empty ExperimentList instance
ExprmL> ExperimentList()
ExperimentList class object of length 0:  

ExprmL> ## Create array matrix and AnnotatedDataFrame to create an ExpressionSet class
ExprmL> arraydat <- matrix(data = seq(101, length.out = 20), ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000294241", "ENST00000355076",
ExprmL+         "ENST00000383706","ENST00000234812", "ENST00000383323"),
ExprmL+         c("array1", "array2", "array3", "array4")
ExprmL+     ))

ExprmL> colDat <- data.frame(slope53 = rnorm(4),
ExprmL+     row.names = c("array1", "array2", "array3", "array4"))

ExprmL> ## SummarizedExperiment constructor
ExprmL> exprdat <- SummarizedExperiment::SummarizedExperiment(arraydat,
ExprmL+     colData = colDat)

ExprmL> ## Create a sample methylation dataset
ExprmL> methyldat <- matrix(data = seq(1, length.out = 25), ncol = 5,
ExprmL+     dimnames = list(
ExprmL+         c("ENST00000355076", "ENST00000383706",
ExprmL+           "ENST00000383323", "ENST00000234812", "ENST00000294241"),
ExprmL+         c("methyl1", "methyl2", "methyl3",
ExprmL+           "methyl4", "methyl5")
ExprmL+     ))

ExprmL> ## Create a sample RNASeqGene dataset
ExprmL> rnadat <- matrix(
ExprmL+     data = sample(c(46851, 5, 19, 13, 2197, 507,
ExprmL+         84318, 126, 17, 21, 23979, 614), size = 20, replace = TRUE),
ExprmL+     ncol = 4,
ExprmL+     dimnames = list(
ExprmL+         c("XIST", "RPS4Y1", "KDM5D", "ENST00000383323", "ENST00000234812"),
ExprmL+         c("samparray1", "samparray2", "samparray3", "samparray4")
ExprmL+     ))

ExprmL> ## Create a mock RangedSummarizedExperiment from a data.frame
ExprmL> rangedat <- data.frame(chr="chr2", start = 11:15, end = 12:16,
ExprmL+     strand = c("+", "-", "+", "*", "."),
ExprmL+     samp0 = c(0,0,1,1,1), samp1 = c(1,0,1,0,1), samp2 = c(0,1,0,1,0),
ExprmL+     row.names = c(paste0("ENST", "00000", 135411:135414), "ENST00000383323"))

ExprmL> rangeSE <- SummarizedExperiment::makeSummarizedExperimentFromDataFrame(rangedat)

ExprmL> ## Combine to a named list and call the ExperimentList constructor function
ExprmL> assayList <- list(Affy = exprdat, Methyl450k = methyldat, RNASeqGene = rnadat,
ExprmL+                 GISTIC = rangeSE)

ExprmL> ## Use the ExperimentList constructor
ExprmL> ExpList <- ExperimentList(assayList)

MltAsE> ## Create sample maps for each experiment
MltAsE> exprmap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("array1", "array2", "array3", "array4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> methylmap <- data.frame(
MltAsE+     primary = c("Jack", "Jack", "Jill", "Barbara", "Bob"),
MltAsE+     colname = c("methyl1", "methyl2", "methyl3", "methyl4", "methyl5"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> rnamap <- data.frame(
MltAsE+     primary = c("Jack", "Jill", "Bob", "Barbara"),
MltAsE+     colname = c("samparray1", "samparray2", "samparray3", "samparray4"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> gistmap <- data.frame(
MltAsE+     primary = c("Jack", "Bob", "Jill"),
MltAsE+     colname = c("samp0", "samp1", "samp2"),
MltAsE+     stringsAsFactors = FALSE)

MltAsE> ## Combine as a named list and convert to a DataFrame
MltAsE> maplist <- list(Affy = exprmap, Methyl450k = methylmap,
MltAsE+     RNASeqGene = rnamap, GISTIC = gistmap)

MltAsE> ## Create a sampleMap
MltAsE> sampMap <- listToMap(maplist)

MltAsE> ## Create an example phenotype data
MltAsE> colDat <- data.frame(sex = c("M", "F", "M", "F"), age = 38:41,
MltAsE+     row.names = c("Jack", "Jill", "Bob", "Barbara"))

MltAsE> ## Create a MultiAssayExperiment instance
MltAsE> mae <- MultiAssayExperiment(experiments = ExpList, colData = colDat,
MltAsE+     sampleMap = sampMap)
══ testthat results  ═══════════════════════════════════════════════════════════
[ OK: 148 | SKIPPED: 0 | WARNINGS: 2 | FAILED: 0 ]
> 
> proc.time()
   user  system elapsed 
 25.071   0.515  26.062

name	user	system	elapsed
ExperimentList-class	0.03	0.00	0.03
ExperimentList	0.272	0.012	0.291
MatchedAssayExperiment-class	1.163	0.052	1.217
MultiAssayExperiment-class	1.844	0.048	1.910
MultiAssayExperiment-methods	0.327	0.000	0.327
MultiAssayExperiment	0.286	0.000	0.286
hasAssay	0.007	0.000	0.007
mapToList	0.36	0.00	0.36
miniACC	1.470	0.069	1.545
prepMultiAssay	0.658	0.036	0.695
reexports	0.002	0.000	0.002
subsetBy	1.698	0.000	1.699
upsetSamples	2.286	0.051	2.357

CHECK report for MultiAssayExperiment on malbec2

Summary

Command output

Installation output

Tests output

Example timings