R/cmd_batch_rnaseq_environment_set.R
In HowardChao/RNASeqR: RNASeqR: an R package for automated two-group RNA-Seq analysis workflow
Defines functions
CheckS4Object_All
PostRNASeqEnvironmentSet_Bam
PostRNASeqEnvironmentSet_Sam
PostRNASeqEnvironmentSet
PreRNASeqEnvironmentSet
CheckTool_Sam_Bam
CheckToolAll
CheckSamtools
CheckGffcompare
CheckStringTie
CheckSTAR
CheckHisat2
InstallAll
InstallGffcompareBinary
InstallStringTieBinary
InstallStarBianry
InstallHisat2Bianry
CopyInputDir_Bam
CopyInputDir_Sam
CopyInputDir
MkdirAll
MkdirRscript_Rscript_out
MkdirRNASeq_results
MkdirRNASeq_bin
MkdirGeneDir
RNASeqEnvironmentSet
RNASeqEnvironmentSet_CMD
Documented in
CheckToolAll
RNASeqEnvironmentSet
RNASeqEnvironmentSet_CMD
#' @title RNASeqEnvironmentSet_CMD
#'
#' @description
#' Set up the environment for the following RNA-Seq workflow in background.\cr
#' This function do 4 things :\cr
#' \enumerate{
#' \item Create file directories.\cr
#' \item Install necessary tools. \cr
#' \item Export 'RNASeq_bin/' to the R environment. \cr
#' \item Check command of tools. \cr
#' }
#' First it will create 'gene_data/', 'RNASeq_bin/', 'RNASeq_results/',
#' 'Rscript/', 'Rscript_out/' directories. \cr Afterwards, 'Hisat2',
#' 'Stringtie', 'Gffcompare' will be installed under
#' 'RNASeq_bin/Download/' and be unpacked under 'RNASeq_bin/Unpacked/'. \cr
#' 'RNASeq_bin/' will be added to the R environment and
#' validity of tools will be checked.\cr
#' Any ERROR occurs will be reported and the program will be terminated.\cr
#' If you want to set up the environment for the following RNA-Seq workflow
#' in R shell, please see \code{RNASeqEnvironmentSet()} function.
#'
#' @param RNASeqRParam S4 object instance of experiment-related
#' parameters
#' @param install.hisat2 Whether to install 'HISAT2' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'HISAT2' installation.
#' @param install.STAR Whether to install 'STAR' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'STAR' installation.
#' @param install.stringtie Whether to install 'StringTie'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'StringTie' installation.
#' @param install.gffcompare Whether to install 'Gffcompare'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'Gffcompare' installation.
#' @param run Default value is \code{TRUE}. If \code{TRUE},
#' 'Rscript/Environment_Set.R' will be created and executed.
#' The output log will be stored in 'Rscript_out/Environment_Set.Rout'.
#' If \code{False}, 'Rscript/Environment_Set.R' will be
#' created without executed.
#' @param check.s4.print Default \code{TRUE}. If \code{TRUE},
#' the result of checking \code{RNASeqRParam} will be reported in
#' 'Rscript_out/Environment_Set.Rout'. If \code{FALSE}, the result of checking
#' \code{RNASeqRParam} will not be in
#' 'Rscript_out/Environment_Set.Rout'.
#'
#' @return None
#' @export
#' @author Kuan-Hao Chao
#' @examples
#' data(yeast)
#' \dontrun{
#' RNASeqEnvironmentSet_CMD(yeast)}
RNASeqEnvironmentSet_CMD <- function(RNASeqRParam,
install.hisat2 = TRUE,
install.STAR = TRUE,
install.stringtie = TRUE,
install.gffcompare = TRUE,
run = TRUE,
check.s4.print = TRUE) {
# check input param
which.s4.object <- CheckS4Object_All(RNASeqRParam, check.s4.print)
CheckOperatingSystem(FALSE)
# Remove all the files and restart !!
unlink(paste0(RNASeqRParam@path.prefix, "*"), recursive = TRUE)
# Create the main directory for RNA-Seq analysis
MkdirAll(RNASeqRParam@path.prefix)
path.prefix <- "@"(RNASeqRParam, path.prefix)
INSIDE.path.prefix <- "@"(RNASeqRParam, path.prefix)
saveRDS(RNASeqRParam,
file = paste0(INSIDE.path.prefix,
"gene_data/RNASeqRParam.rds"))
fileConn <- file(paste0(INSIDE.path.prefix, "Rscript/Environment_Set.R"))
first <- "library(RNASeqR)"
if (which.s4.object == "RNASeqRParam") {
second <- paste0("RNASeqEnvironmentSet(RNASeqRParam = 'INSIDE'",
", which.trigger = 'INSIDE'",
", INSIDE.path.prefix = '", INSIDE.path.prefix,
"', install.hisat2 = ", install.hisat2,
", install.STAR = ", install.STAR,
", install.stringtie = ", install.stringtie,
", install.gffcompare = ", install.gffcompare,")")
} else if (which.s4.object == "RNASeqRParam_Sam" || which.s4.object == "RNASeqRParam_Bam") {
second <- paste0("RNASeqEnvironmentSet(RNASeqRParam = 'INSIDE'",
", which.trigger = 'INSIDE'",
", INSIDE.path.prefix = '", INSIDE.path.prefix,
"', install.hisat2 = ", "FALSE",
", install.STAR = ", "FALSE",
", install.stringtie = ", install.stringtie,
", install.gffcompare = ", install.gffcompare,")")
}
writeLines(c(first, second), fileConn)
close(fileConn)
message("\u2605 '", path.prefix,
"Rscript/Environment_Set.R' has been created.\n")
if (run) {
R.home.lib <- R.home()
R.home.bin <- gsub("/lib/R", "/bin/R", R.home.lib)
system2(command = "nohup",
args = paste0(R.home.bin, " CMD BATCH ",
path.prefix,
"Rscript/Environment_Set.R ",
path.prefix,
"Rscript_out/Environment_Set.Rout"),
stdout = "", wait = FALSE)
message("\u2605 Tools are installing in the background. ",
"Check current progress in '", path.prefix,
"Rscript_out/Environment_Set.Rout'\n\n")
}
}
#' @title RNASeqEnvironmentSet
#'
#' @description
#' Set up the environment for the following RNA-Seq workflow in R shell\cr
#' This function do 4 things :\cr
#' \enumerate{
#' \item Create file directories.\cr
#' \item Install necessary tools. \cr
#' \item Export 'RNASeq_bin/' to the R environment. \cr
#' \item Check command of tools. \cr
#' }
#' First it will create 'gene_data/', 'RNASeq_bin/', 'RNASeq_results/',
#' 'Rscript/', 'Rscript_out/' directories. \cr Afterwards, 'Hisat2',
#' 'Stringtie', 'Gffcompare' will be installed under
#' 'RNASeq_bin/Download/' and be unpacked under 'RNASeq_bin/Unpacked/'. \cr
#' 'RNASeq_bin/' will be added to the R environment and
#' validity of tools will be checked.\cr
#' Any ERROR occurs will be reported and the program will be terminated.\cr
#' If you want to set up the environment for the following RNA-Seq workflow
#' in background, please see \code{RNASeqEnvironmentSet_CMD()} function.
#'
#' @param RNASeqRParam S4 object instance of experiment-related
#' parameters
#' @param which.trigger Default value is \code{OUTSIDE}. User should not change
#' this value.
#' @param INSIDE.path.prefix Default value is \code{NA}. User should not change
#' this value.
#' @param install.hisat2 Whether to install 'HISAT2' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'HISAT2' installation.
#' @param install.STAR Whether to install 'STAR' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'STAR' installation.
#' @param install.stringtie Whether to install 'StringTie'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'StringTie' installation.
#' @param install.gffcompare Whether to install 'Gffcompare'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'Gffcompare' installation.
#' @param check.s4.print Default \code{TRUE}. If \code{TRUE},
#' the result of checking \code{RNASeqRParam} will be reported in
#' 'Rscript_out/Environment_Set.Rout'. If \code{FALSE}, the result of checking
#' \code{RNASeqRParam} will not be in
#' 'Rscript_out/Environment_Set.Rout'.
#'
#' @return None
#' @export
#' @author Kuan-Hao Chao
#' @examples
#' data(yeast)
#' \dontrun{
#' RNASeqEnvironmentSet(RNASeqRParam = yeast)}
RNASeqEnvironmentSet <- function(RNASeqRParam,
which.trigger = "OUTSIDE",
INSIDE.path.prefix = NA,
install.hisat2 = TRUE,
install.STAR = TRUE,
install.stringtie = TRUE,
install.gffcompare = TRUE,
check.s4.print = TRUE) {
CheckOperatingSystem(FALSE)
# If `which.trigger` is OUTSIDE, then directory must be built
# If `which.trigger` is INSIDE, then directory must not be
# built here(will created in CMD)
if (isS4(RNASeqRParam) &
which.trigger == "OUTSIDE" &
is.na(INSIDE.path.prefix)) {
# Remove all the files and restart !!
unlink(paste0(RNASeqRParam@path.prefix, "*"), recursive = TRUE)
# This is an external call!!
MkdirAll(RNASeqRParam@path.prefix)
# Check the S4 object(user input)
} else if (RNASeqRParam == "INSIDE" &
which.trigger == "INSIDE" &
!is.na(INSIDE.path.prefix)) {
# This is an internal call!!
# Load the S4 object that saved in CMD process
RNASeqRParam <- readRDS(paste0(INSIDE.path.prefix,
"gene_data/RNASeqRParam.rds"))
}
which.s4.object <- CheckS4Object_All(RNASeqRParam, check.s4.print)
os.type <- "@"(RNASeqRParam, os.type)
path.prefix <- "@"(RNASeqRParam, path.prefix)
input.path.prefix <- "@"(RNASeqRParam, input.path.prefix)
genome.name <- "@"(RNASeqRParam, genome.name)
sample.pattern <- "@"(RNASeqRParam, sample.pattern)
PreRNASeqEnvironmentSet(path.prefix, sample.pattern)
if (which.s4.object == "RNASeqRParam") {
indices.optional <- "@"(RNASeqRParam, indices.optional)
CopyInputDir(path.prefix,
input.path.prefix,
genome.name,
sample.pattern,
indices.optional)
InstallAll(path.prefix,
os.type,
install.hisat2,
install.STAR,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet(path.prefix,
genome.name,
sample.pattern)
} else if (which.s4.object == "RNASeqRParam_Sam") {
CopyInputDir_Sam(path.prefix,
input.path.prefix,
genome.name,
sample.pattern)
InstallAll(path.prefix,
os.type,
FALSE,
FALSE,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet_Sam(path.prefix,
genome.name,
sample.pattern)
} else if (which.s4.object == "RNASeqRParam_Bam") {
CopyInputDir_Bam(path.prefix,
input.path.prefix,
genome.name,
sample.pattern)
InstallAll(path.prefix,
os.type,
FALSE,
FALSE,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet_Bam(path.prefix,
genome.name,
sample.pattern)
}
}
# Create sample gene directory
MkdirGeneDir <- function(path.prefix) {
message("\u25CF 1. Creating 'gene-data/' directory\n")
gene_data.dir <- dir.create(file.path(paste0(path.prefix, "gene_data/")),
showWarnings = FALSE) == 0
if (!isTRUE(gene_data.dir)) {
message(" (\u2714) : Create '", path.prefix, "gene_data/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/' has already be created.\n")
}
ref.genome.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/ref_genome/")),
showWarnings = FALSE) == 0
if (!isTRUE(ref.genome.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/ref_genome/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/ref_genome/' has already be created.\n")
}
ref.genes.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/ref_genes/")),
showWarnings = FALSE) == 0
if (!isTRUE(ref.genes.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/ref_genes/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/ref_genes/' has already be created.\n")
}
indices.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/indices/")),
showWarnings = FALSE) == 0
if (!isTRUE(indices.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/indices/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/indices/' has already be created.\n")
}
samples.fastq.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_fastq.gz")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.fastq.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_fastq.gz/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_fastq.gz/' has already be created.\n")
}
samples.sam.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_sam")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.sam.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_sam/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_sam/' has already be created.\n")
}
samples.bam.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_bam/")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.bam.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_bam/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_bam/' has already be created.\n")
}
samples.gtf.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_gtf/")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.gtf.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_gtf/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_gtf/' has already be created.\n\n")
}
}
# Make RNASeq_bin/ directory
MkdirRNASeq_bin <- function(path.prefix) {
message("\u25CF 2. Creating 'RNASeq_bin/' directory\n")
RNASeq_bin.dir <- dir.create(file.path(paste0(path.prefix, "RNASeq_bin/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_bin.dir)) {
message(" (\u2714) : Create '", path.prefix, "RNASeq_bin/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/' has already be created.\n")
}
download.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_bin/Download/")),
showWarnings = FALSE) == 0
if (!isTRUE(download.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_bin/Download/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/Download/' has already be created.\n")
}
unpacked.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_bin/Unpacked/")),
showWarnings = FALSE) == 0
if (!isTRUE(unpacked.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_bin/Unpacked/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/Unpacked/' has already be created.\n\n")
}
}
# Make RNASeq_results/ directory
MkdirRNASeq_results <- function(path.prefix){
message("\u25CF 3. Creating 'RNASeq_results/' directory\n")
RNASeq_results.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_results/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_results.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_results/'.\n\n")
} else {
message(" (\u26A0)) : '", path.prefix,
"RNASeq_results/' has already be created.\n\n")
}
}
# Make
MkdirRscript_Rscript_out <- function(path.prefix) {
message("\u25CF 4. Creating 'Rscript/' directory\n")
RNASeq_rscript.dir <- dir.create(file.path(paste0(path.prefix, "Rscript/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_rscript.dir)) {
message(" (\u2714) : Create '", path.prefix, "Rscript/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"Rscript/' has already be created.\n")
}
message("\u25CF 5. Creating 'Rscript_out/' directory\n")
RNASeq_rscript_out.dir <- dir.create(file.path(paste0(path.prefix,
"Rscript_out/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_rscript_out.dir)) {
message(" (\u2714) : Create '", path.prefix,
"Rscript_out/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"Rscript_out/' has already be created.\n")
}
}
# Create sample gene and binary directory
MkdirAll <- function(path.prefix) {
message("************** Creating Directories ************\n")
bool.path.prefix <- dir.exists(path.prefix)
if (bool.path.prefix) {
MkdirGeneDir(path.prefix)
MkdirRNASeq_bin(path.prefix)
MkdirRNASeq_results(path.prefix)
MkdirRscript_Rscript_out(path.prefix)
} else {
message("'", path.prefix, "' has not been created yet!!\n\n")
}
}
# inner function : Copy input files directory
CopyInputDir <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern,
indices.optional) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
fa.des <- paste0(path.prefix, "gene_data/ref_genome/", genome.name, ".fa")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/",
genome.name, ".fa", "\n")
file.remove(fa.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".fa"),
fa.des)
message(" \u25CF To :", fa.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_fastq.gz/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_fastq.gz/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_fastq.gz/"))
raw_fastq.gz.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_fastq.gz"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_fastq.gz.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_fastq.gz")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_fastq.gz/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
if (isTRUE(indices.optional)) {
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "indices/\n")
unlink(paste0(path.prefix, "gene_data/indices/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/indices/"))
indices.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/", "indices"),
pattern = paste0(genome.name,
"_tran.[0-9].ht2"),
recursive = TRUE,
full.names = TRUE)
vapply(indices.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/indices")),
FUN.VALUE = TRUE)
message(c(" \u25CF To :",
paste0(path.prefix, "gene_data/indices/"), "\n\n"))
} else {
message("\n")
}
}
# inner function : Copy input files directory
CopyInputDir_Sam <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_sam/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_sam/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_sam/"))
raw_sam.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_sam"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_sam.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_sam")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_sam/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
}
# inner function : Copy input files directory
CopyInputDir_Bam <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_bam/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_bam/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_bam/"))
raw_bam.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_bam"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_bam.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_bam")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_bam/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
}
# Install Hisat2 binay
InstallHisat2Bianry <- function(path.prefix, os.type){
os <- os.type
url <- "ftp://ftp.ccb.jhu.edu/pub/infphilo/hisat2/downloads/"
if (os == "linux"){
os.file.name.zip <- "hisat2-2.1.0-Linux_x86_64.zip"
os.file.name <- "hisat2-2.1.0"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "hisat2-2.1.0-OSX_x86_64.zip"
os.file.name <- "hisat2-2.1.0"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Hisat2 is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing Hisat2 (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("HISAT2 binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking Hisat2 (",
os.file.name.zip, ") ************\n")
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
# utils::unzip(zipfile = paste0(path.prefix, "RNASeq_bin/Download/",
# os.file.name.zip),
# exdir = paste0(path.prefix,
# "RNASeq_bin/Unpacked/"),
# overwrite = TRUE)
main.command <- "unzip"
command.result <- system2(command = main.command,
args = paste0(path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, " -d ", path.prefix,
"RNASeq_bin/Unpacked/"))
if (command.result != 0 ) {
message("(\u2718) '", main.command, "' is failed !!")
stop("'", main.command, "' ERROR")
}
message("hisat2 binaries\n\n")
message("\n************** Moving Hisat2 Binary ************")
file.target.hisat <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
os.file.name),
pattern = "hisat2*",
full.names = TRUE)
file.target.py <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
os.file.name),
pattern = "*.py",
full.names = TRUE)
file.target <- unique(c(file.target.hisat, file.target.py))
file.move <- file.copy(from = file.target,
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (command.result != 0 ) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("Hisat2 has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/", os.file.name, "/')", "\n\n")
return(TRUE)
}
InstallStarBianry <- function(path.prefix, os.type){
os <- os.type
url <- "https://github.com/alexdobin/STAR/archive/"
if (os == "linux"){
os.file.name.zip <- "star-2.7.1a.zip"
os.file.name <- "start-2.7.1a"
url <- paste0(url, "2.7.1a.zip")
} else if (os == "osx"){
os.file.name.zip <- "star-2.7.1a.zip"
os.file.name <- "start-2.7.1a"
url <- paste0(url, "2.7.1a.zip")
} else if (os == "windows"){
stop("STAR is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing STAR (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("STAR binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking STAR (",
os.file.name.zip, ") ************\n")
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
# utils::unzip(zipfile = paste0(path.prefix, "RNASeq_bin/Download/",
# os.file.name.zip),
# exdir = paste0(path.prefix,
# "RNASeq_bin/Unpacked/"),
# overwrite = TRUE)
main.command <- "unzip"
command.result <- system2(command = main.command,
args = paste0(path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, " -d ", path.prefix,
"RNASeq_bin/Unpacked/"))
if (command.result != 0 ) {
message("(\u2718) '", main.command, "' is failed !!")
stop("'", main.command, "' ERROR")
}
message("STAR binaries\n\n")
message("\n************** Moving STAR Binary ************")
if (os == "osx") {
file.target.star <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
"STAR-2.7.1a/bin/",
"MacOSX_x86_64"),
pattern = "STAR*",
full.names = TRUE)
} else if (os == "linux") {
file.target.star <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
"STAR-2.7.1a/bin/",
"Linux_x86_64"),
pattern = "STAR*",
full.names = TRUE)
}
file.move <- file.copy(from = file.target.star,
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (command.result != 0 ) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("STAR has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/STAR-2.7.1a/')", "\n\n")
return(TRUE)
}
# Install stringtie binary
InstallStringTieBinary <- function(path.prefix, os.type){
os <- os.type
url <- "http://ccb.jhu.edu/software/stringtie/dl/"
if (os == "linux"){
os.file.name.zip <- "stringtie-1.3.4d.Linux_x86_64.tar.gz"
os.file.name <- "stringtie-1.3.4d.Linux_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "stringtie-1.3.4d.OSX_x86_64.tar.gz"
os.file.name <- "stringtie-1.3.4d.OSX_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Stringtie is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing stringtie (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("StringTie binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking stringtie (",
os.file.name.zip, ") ************\n")
# If file directory exists!! Remove it first!!
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
file.unpacked <- utils::untar(tarfile = paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip),
exdir = paste0(path.prefix,
"RNASeq_bin/Unpacked/"),
compressed = "gzip")
if (file.unpacked != 0 ) {
message("(\u2718) 'utils::untar()' is failed !!")
stop("'utils::untar()' ERROR")
}
message("\n************** Moving stringtie Binary ************")
file.move <- file.copy(from = paste0(path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "/stringtie"),
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (!file.move) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("StringTie has been unpacked. ('",
path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "')\n\n")
return(TRUE)
}
# Install Gffcompare binary
InstallGffcompareBinary <- function(path.prefix, os.type){
os <- os.type
url <- "http://ccb.jhu.edu/software/stringtie/dl/"
if (os == "linux"){
os.file.name.zip <- "gffcompare-0.10.4.Linux_x86_64.tar.gz"
os.file.name <- "gffcompare-0.10.4.Linux_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "gffcompare-0.10.4.OSX_x86_64.tar.gz"
os.file.name <- "gffcompare-0.10.4.OSX_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Gffcompare is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing gffcompare (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("Gffcompare binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking gffcompare (",
os.file.name.zip, ") ************\n")
# If file directory exists!! Remove it first!!
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
file.unpacked <- utils::untar(tarfile = paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip),
exdir = paste0(path.prefix,
"RNASeq_bin/Unpacked/"),
compressed = "gzip")
if (file.unpacked != 0 ) {
message("(\u2718) 'utils::untar()' is failed !!")
stop("'utils::untar()' ERROR")
}
message("\n************** Moving gffcompare Binary ************")
file.move <- file.copy(from = paste0(path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "/gffcompare"),
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (!file.move) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("Gffcompare has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/", os.file.name, "')", "\n\n")
return(TRUE)
}
# Install 'Hisat2', 'StringTie', 'Gffcompare'
InstallAll <- function(path.prefix,
os.type,
install.hisat2,
install.STAR,
install.stringtie,
install.gffcompare) {
message("\u2618\u2618\u2618\u2618\u2618\u2618\u2618\u2618 ",
"Start installing ... ",
"\u2618\u2618\u2618\u2618\u2618\u2618\u2618\u2618\n")
install.software <- ""
if (install.hisat2) {
install.software <- paste0(install.software, "\u25CF'hisat2' ")
}
if (install.STAR) {
install.software <- paste0(install.software, "\u25CF'STAR' ")
}
if (install.stringtie) {
install.software <- paste0(install.software, "\u25CF'stringtie' ")
}
if (install.gffcompare) {
install.software <- paste0(install.software, "\u25CF'gffcompare' ")
}
if (!install.hisat2 & !install.stringtie &
!install.gffcompare) {
message(" \u261E\u261E skipping installation process ... \n")
} else {
message(" \u261E\u261E ",
install.software,
"will be installed. ... \n")
message(" \u261E\u261E Compressed files will be in '",
path.prefix, "RNASeq_bin/Download/'\n")
message(" \u261E\u261E Unpacked files will be in '",
path.prefix, "RNASeq_bin/Unpacked/'\n")
message(" \u261E\u261E Binary files will be copied to '",
path.prefix, "RNASeq_bin/'", "\n\n")
}
if (install.hisat2) {
message("\u2618\u2618 Hisat2 processing ...\n")
InstallHisat2Bianry(path.prefix, os.type)
}
if (install.STAR) {
message("\u2618\u2618 STAR processing ...\n")
InstallStarBianry(path.prefix, os.type)
}
if (install.stringtie) {
message("\u2618\u2618 Stringtie processing ...\n")
InstallStringTieBinary(path.prefix, os.type)
}
if (install.gffcompare) {
message("\u2618\u2618 Gffcompare processing ...\n")
InstallGffcompareBinary(path.prefix, os.type)
}
}
# Check 'hisat2'
CheckHisat2 <- function(print=TRUE){
if (print) {
message("\u25CF Checking hisat2 command\n")
}
hisat2.installed <- system("hisat2 --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(hisat2.installed)){
if (isTRUE(print)){
message("(\u2714) : 'hisat2' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : 'hisat2' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'STAR'
CheckSTAR <- function(print=TRUE){
if (print) {
message("\u25CF Checking STAR command\n")
}
STAR.installed <- system("STAR --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(STAR.installed)){
if (isTRUE(print)){
message("(\u2714) : 'STAR' is installed\n\n")
}
return(TRUE)
} else {
message("(\u2718) : 'STAR' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'stringtie'
CheckStringTie <- function(print=TRUE){
if (print){
message("\u25CF Checking stringtie command\n")
}
stringtie.installed <- system("stringtie --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(stringtie.installed)){
if (isTRUE(print)){
message("(\u2714) : 'stringtie' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : 'stringtie' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'Gffcompare'
CheckGffcompare <- function(print=TRUE) {
if (print) {
message("\u25CF Checking gffcompare command\n")
}
gffcompare.old <- system( "gffcompare --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(gffcompare.old)){
if (isTRUE(print)){
message("(\u2714) : 'gffcompare' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : \'gffcompare\' ",
"command is not found on this device!!\n\n")
return(FALSE)
}
}
# Check 'Samtools'
CheckSamtools <- function(print=TRUE){
if (print) {
message("\u25CF Checking samtools command\n")
}
samtools.old <- system( "samtools --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(samtools.old)){
if (isTRUE(print)){
message("(\u2714) : 'samtools' is installed\n")
}
return(TRUE)
}
else{
message("(\u2718) : \'samtools\' command is not found on this device!!\n")
return(FALSE)
}
}
#' @title CheckToolAll
#'
#' @description Check whether 'Hisat2', 'Stringtie' and 'Gffcompare'
#' are installed on the workstation
#'
#' @param print If \code{TRUE}, detailed information will be printed.
#' If \code{FALSE}, detailed information will not be printed.
#'
#' @param path.prefix path prefix of 'gene_data/', 'RNASeq_bin/',
#' 'RNASeq_results/', 'Rscript/' and 'Rscript_out/' directories.
#'
#' @return None
#' @export
#' @examples
#' data(yeast)
#' \dontrun{
#' CheckToolAll(yeast@@path.prefix,
#' print=TRUE)}
CheckToolAll <- function(path.prefix, print=TRUE) {
message("************** Checking Availability of Commands ************\n")
ExportPath(path.prefix)
hisat2.check <- CheckHisat2(print)
STAR.check <- CheckSTAR(print)
stringtie.check <- CheckStringTie(print)
gff.check <- CheckGffcompare(print)
if (isTRUE(hisat2.check) &&
isTRUE(stringtie.check) &&
isTRUE(gff.check) &&
isTRUE(STAR.check)){
return(TRUE)
} else {
stop("(\u2718) Necessary program is missing.\n ",
"1. Check 'INSTALL_TOOLS.Rout' whether tools are ",
"properly installed.\n ",
"2. Run 'ExportPath()' to set the environment.\n\n")
return(FALSE)
}
}
CheckTool_Sam_Bam <- function(path.prefix, print=TRUE) {
message("************** Checking Availability of Commands ************\n")
ExportPath(path.prefix)
stringtie.check <- CheckStringTie(print)
gff.check <- CheckGffcompare(print)
if (isTRUE(gff.check) &&
isTRUE(gff.check)){
return(TRUE)
} else {
stop("(\u2718) Necessary program is missing.\n ",
"1. Check 'INSTALL_TOOLS.Rout' whether tools are ",
"properly installed.\n ",
"2. Run 'ExportPath()' to set the environment.\n\n")
return(FALSE)
}
}
PreRNASeqEnvironmentSet <- function(path.prefix, sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment pre-check ...\n")
validity <- TRUE
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet environment() ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() pre-check is valid\n\n")
}
PostRNASeqEnvironmentSet <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
ref.fa <- file.exists(paste0(path.prefix,
"gene_data/ref_genome/",
genome.name, ".fa"))
raw.fastq <- list.files(path = paste0(path.prefix, "gene_data/raw_fastq.gz/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckToolAll(path.prefix)
validity <- phenodata.csv && ref.gtf && ref.fa &&
check.tool.result && (length(raw.fastq) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
PostRNASeqEnvironmentSet_Sam <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
raw.sam <- list.files(path = paste0(path.prefix, "gene_data/raw_sam/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckTool_Sam_Bam(path.prefix)
validity <- phenodata.csv && ref.gtf &&
check.tool.result && (length(raw.sam) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
PostRNASeqEnvironmentSet_Bam <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
raw.bam <- list.files(path = paste0(path.prefix, "gene_data/raw_bam/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckTool_Sam_Bam(path.prefix)
validity <- phenodata.csv && ref.gtf &&
check.tool.result && (length(raw.bam) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
#
CheckS4Object_All <- function(RNASeqRParam, print = TRUE) {
if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam' instance! \n\n")
}
return("RNASeqRParam")
} else if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam_Sam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam_Sam' instance! \n\n")
}
return("RNASeqRParam_Sam")
} else if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam_Bam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam_Bam' instance! \n\n")
}
return("RNASeqRParam_Bam")
} else {
message("(\u2718) : input is not a valid ",
"'RNASeqRParam' or 'RNASeqRParam_Sam' instance!.\n" )
stop("Invalid 'RNASeqRParam' or 'RNASeqRParam_Sam' input ERROR")
}
}
HowardChao/RNASeqR documentation built on May 5, 2022, 8:32 p.m.
R Package Documentation
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Defines functions CheckS4Object_All PostRNASeqEnvironmentSet_Bam PostRNASeqEnvironmentSet_Sam PostRNASeqEnvironmentSet PreRNASeqEnvironmentSet CheckTool_Sam_Bam CheckToolAll CheckSamtools CheckGffcompare CheckStringTie CheckSTAR CheckHisat2 InstallAll InstallGffcompareBinary InstallStringTieBinary InstallStarBianry InstallHisat2Bianry CopyInputDir_Bam CopyInputDir_Sam CopyInputDir MkdirAll MkdirRscript_Rscript_out MkdirRNASeq_results MkdirRNASeq_bin MkdirGeneDir RNASeqEnvironmentSet RNASeqEnvironmentSet_CMD
Documented in CheckToolAll RNASeqEnvironmentSet RNASeqEnvironmentSet_CMD
#' @title RNASeqEnvironmentSet_CMD
#'
#' @description
#' Set up the environment for the following RNA-Seq workflow in background.\cr
#' This function do 4 things :\cr
#' \enumerate{
#' \item Create file directories.\cr
#' \item Install necessary tools. \cr
#' \item Export 'RNASeq_bin/' to the R environment. \cr
#' \item Check command of tools. \cr
#' }
#' First it will create 'gene_data/', 'RNASeq_bin/', 'RNASeq_results/',
#' 'Rscript/', 'Rscript_out/' directories. \cr Afterwards, 'Hisat2',
#' 'Stringtie', 'Gffcompare' will be installed under
#' 'RNASeq_bin/Download/' and be unpacked under 'RNASeq_bin/Unpacked/'. \cr
#' 'RNASeq_bin/' will be added to the R environment and
#' validity of tools will be checked.\cr
#' Any ERROR occurs will be reported and the program will be terminated.\cr
#' If you want to set up the environment for the following RNA-Seq workflow
#' in R shell, please see \code{RNASeqEnvironmentSet()} function.
#'
#' @param RNASeqRParam S4 object instance of experiment-related
#' parameters
#' @param install.hisat2 Whether to install 'HISAT2' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'HISAT2' installation.
#' @param install.STAR Whether to install 'STAR' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'STAR' installation.
#' @param install.stringtie Whether to install 'StringTie'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'StringTie' installation.
#' @param install.gffcompare Whether to install 'Gffcompare'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'Gffcompare' installation.
#' @param run Default value is \code{TRUE}. If \code{TRUE},
#' 'Rscript/Environment_Set.R' will be created and executed.
#' The output log will be stored in 'Rscript_out/Environment_Set.Rout'.
#' If \code{False}, 'Rscript/Environment_Set.R' will be
#' created without executed.
#' @param check.s4.print Default \code{TRUE}. If \code{TRUE},
#' the result of checking \code{RNASeqRParam} will be reported in
#' 'Rscript_out/Environment_Set.Rout'. If \code{FALSE}, the result of checking
#' \code{RNASeqRParam} will not be in
#' 'Rscript_out/Environment_Set.Rout'.
#'
#' @return None
#' @export
#' @author Kuan-Hao Chao
#' @examples
#' data(yeast)
#' \dontrun{
#' RNASeqEnvironmentSet_CMD(yeast)}
RNASeqEnvironmentSet_CMD <- function(RNASeqRParam,
install.hisat2 = TRUE,
install.STAR = TRUE,
install.stringtie = TRUE,
install.gffcompare = TRUE,
run = TRUE,
check.s4.print = TRUE) {
# check input param
which.s4.object <- CheckS4Object_All(RNASeqRParam, check.s4.print)
CheckOperatingSystem(FALSE)
# Remove all the files and restart !!
unlink(paste0(RNASeqRParam@path.prefix, "*"), recursive = TRUE)
# Create the main directory for RNA-Seq analysis
MkdirAll(RNASeqRParam@path.prefix)
path.prefix <- "@"(RNASeqRParam, path.prefix)
INSIDE.path.prefix <- "@"(RNASeqRParam, path.prefix)
saveRDS(RNASeqRParam,
file = paste0(INSIDE.path.prefix,
"gene_data/RNASeqRParam.rds"))
fileConn <- file(paste0(INSIDE.path.prefix, "Rscript/Environment_Set.R"))
first <- "library(RNASeqR)"
if (which.s4.object == "RNASeqRParam") {
second <- paste0("RNASeqEnvironmentSet(RNASeqRParam = 'INSIDE'",
", which.trigger = 'INSIDE'",
", INSIDE.path.prefix = '", INSIDE.path.prefix,
"', install.hisat2 = ", install.hisat2,
", install.STAR = ", install.STAR,
", install.stringtie = ", install.stringtie,
", install.gffcompare = ", install.gffcompare,")")
} else if (which.s4.object == "RNASeqRParam_Sam" || which.s4.object == "RNASeqRParam_Bam") {
second <- paste0("RNASeqEnvironmentSet(RNASeqRParam = 'INSIDE'",
", which.trigger = 'INSIDE'",
", INSIDE.path.prefix = '", INSIDE.path.prefix,
"', install.hisat2 = ", "FALSE",
", install.STAR = ", "FALSE",
", install.stringtie = ", install.stringtie,
", install.gffcompare = ", install.gffcompare,")")
}
writeLines(c(first, second), fileConn)
close(fileConn)
message("\u2605 '", path.prefix,
"Rscript/Environment_Set.R' has been created.\n")
if (run) {
R.home.lib <- R.home()
R.home.bin <- gsub("/lib/R", "/bin/R", R.home.lib)
system2(command = "nohup",
args = paste0(R.home.bin, " CMD BATCH ",
path.prefix,
"Rscript/Environment_Set.R ",
path.prefix,
"Rscript_out/Environment_Set.Rout"),
stdout = "", wait = FALSE)
message("\u2605 Tools are installing in the background. ",
"Check current progress in '", path.prefix,
"Rscript_out/Environment_Set.Rout'\n\n")
}
}
#' @title RNASeqEnvironmentSet
#'
#' @description
#' Set up the environment for the following RNA-Seq workflow in R shell\cr
#' This function do 4 things :\cr
#' \enumerate{
#' \item Create file directories.\cr
#' \item Install necessary tools. \cr
#' \item Export 'RNASeq_bin/' to the R environment. \cr
#' \item Check command of tools. \cr
#' }
#' First it will create 'gene_data/', 'RNASeq_bin/', 'RNASeq_results/',
#' 'Rscript/', 'Rscript_out/' directories. \cr Afterwards, 'Hisat2',
#' 'Stringtie', 'Gffcompare' will be installed under
#' 'RNASeq_bin/Download/' and be unpacked under 'RNASeq_bin/Unpacked/'. \cr
#' 'RNASeq_bin/' will be added to the R environment and
#' validity of tools will be checked.\cr
#' Any ERROR occurs will be reported and the program will be terminated.\cr
#' If you want to set up the environment for the following RNA-Seq workflow
#' in background, please see \code{RNASeqEnvironmentSet_CMD()} function.
#'
#' @param RNASeqRParam S4 object instance of experiment-related
#' parameters
#' @param which.trigger Default value is \code{OUTSIDE}. User should not change
#' this value.
#' @param INSIDE.path.prefix Default value is \code{NA}. User should not change
#' this value.
#' @param install.hisat2 Whether to install 'HISAT2' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'HISAT2' installation.
#' @param install.STAR Whether to install 'STAR' in this function step.
#' Default value is\code{TRUE}.
#' Set \code{FALSE} to skip 'STAR' installation.
#' @param install.stringtie Whether to install 'StringTie'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'StringTie' installation.
#' @param install.gffcompare Whether to install 'Gffcompare'
#' in this function step. Default value is \code{TRUE}.
#' Set\code{FALSE} to skip 'Gffcompare' installation.
#' @param check.s4.print Default \code{TRUE}. If \code{TRUE},
#' the result of checking \code{RNASeqRParam} will be reported in
#' 'Rscript_out/Environment_Set.Rout'. If \code{FALSE}, the result of checking
#' \code{RNASeqRParam} will not be in
#' 'Rscript_out/Environment_Set.Rout'.
#'
#' @return None
#' @export
#' @author Kuan-Hao Chao
#' @examples
#' data(yeast)
#' \dontrun{
#' RNASeqEnvironmentSet(RNASeqRParam = yeast)}
RNASeqEnvironmentSet <- function(RNASeqRParam,
which.trigger = "OUTSIDE",
INSIDE.path.prefix = NA,
install.hisat2 = TRUE,
install.STAR = TRUE,
install.stringtie = TRUE,
install.gffcompare = TRUE,
check.s4.print = TRUE) {
CheckOperatingSystem(FALSE)
# If `which.trigger` is OUTSIDE, then directory must be built
# If `which.trigger` is INSIDE, then directory must not be
# built here(will created in CMD)
if (isS4(RNASeqRParam) &
which.trigger == "OUTSIDE" &
is.na(INSIDE.path.prefix)) {
# Remove all the files and restart !!
unlink(paste0(RNASeqRParam@path.prefix, "*"), recursive = TRUE)
# This is an external call!!
MkdirAll(RNASeqRParam@path.prefix)
# Check the S4 object(user input)
} else if (RNASeqRParam == "INSIDE" &
which.trigger == "INSIDE" &
!is.na(INSIDE.path.prefix)) {
# This is an internal call!!
# Load the S4 object that saved in CMD process
RNASeqRParam <- readRDS(paste0(INSIDE.path.prefix,
"gene_data/RNASeqRParam.rds"))
}
which.s4.object <- CheckS4Object_All(RNASeqRParam, check.s4.print)
os.type <- "@"(RNASeqRParam, os.type)
path.prefix <- "@"(RNASeqRParam, path.prefix)
input.path.prefix <- "@"(RNASeqRParam, input.path.prefix)
genome.name <- "@"(RNASeqRParam, genome.name)
sample.pattern <- "@"(RNASeqRParam, sample.pattern)
PreRNASeqEnvironmentSet(path.prefix, sample.pattern)
if (which.s4.object == "RNASeqRParam") {
indices.optional <- "@"(RNASeqRParam, indices.optional)
CopyInputDir(path.prefix,
input.path.prefix,
genome.name,
sample.pattern,
indices.optional)
InstallAll(path.prefix,
os.type,
install.hisat2,
install.STAR,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet(path.prefix,
genome.name,
sample.pattern)
} else if (which.s4.object == "RNASeqRParam_Sam") {
CopyInputDir_Sam(path.prefix,
input.path.prefix,
genome.name,
sample.pattern)
InstallAll(path.prefix,
os.type,
FALSE,
FALSE,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet_Sam(path.prefix,
genome.name,
sample.pattern)
} else if (which.s4.object == "RNASeqRParam_Bam") {
CopyInputDir_Bam(path.prefix,
input.path.prefix,
genome.name,
sample.pattern)
InstallAll(path.prefix,
os.type,
FALSE,
FALSE,
install.stringtie,
install.gffcompare)
ExportPath(path.prefix)
PostRNASeqEnvironmentSet_Bam(path.prefix,
genome.name,
sample.pattern)
}
}
# Create sample gene directory
MkdirGeneDir <- function(path.prefix) {
message("\u25CF 1. Creating 'gene-data/' directory\n")
gene_data.dir <- dir.create(file.path(paste0(path.prefix, "gene_data/")),
showWarnings = FALSE) == 0
if (!isTRUE(gene_data.dir)) {
message(" (\u2714) : Create '", path.prefix, "gene_data/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/' has already be created.\n")
}
ref.genome.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/ref_genome/")),
showWarnings = FALSE) == 0
if (!isTRUE(ref.genome.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/ref_genome/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/ref_genome/' has already be created.\n")
}
ref.genes.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/ref_genes/")),
showWarnings = FALSE) == 0
if (!isTRUE(ref.genes.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/ref_genes/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/ref_genes/' has already be created.\n")
}
indices.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/indices/")),
showWarnings = FALSE) == 0
if (!isTRUE(indices.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/indices/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/indices/' has already be created.\n")
}
samples.fastq.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_fastq.gz")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.fastq.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_fastq.gz/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_fastq.gz/' has already be created.\n")
}
samples.sam.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_sam")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.sam.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_sam/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_sam/' has already be created.\n")
}
samples.bam.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_bam/")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.bam.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_bam/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_bam/' has already be created.\n")
}
samples.gtf.dir <- dir.create(file.path(paste0(path.prefix,
"gene_data/raw_gtf/")),
showWarnings = FALSE) == 0
if (!isTRUE(samples.gtf.dir)) {
message(" (\u2714) : Create '", path.prefix,
"gene_data/raw_gtf/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"gene_data/raw_gtf/' has already be created.\n\n")
}
}
# Make RNASeq_bin/ directory
MkdirRNASeq_bin <- function(path.prefix) {
message("\u25CF 2. Creating 'RNASeq_bin/' directory\n")
RNASeq_bin.dir <- dir.create(file.path(paste0(path.prefix, "RNASeq_bin/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_bin.dir)) {
message(" (\u2714) : Create '", path.prefix, "RNASeq_bin/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/' has already be created.\n")
}
download.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_bin/Download/")),
showWarnings = FALSE) == 0
if (!isTRUE(download.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_bin/Download/'.\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/Download/' has already be created.\n")
}
unpacked.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_bin/Unpacked/")),
showWarnings = FALSE) == 0
if (!isTRUE(unpacked.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_bin/Unpacked/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"RNASeq_bin/Unpacked/' has already be created.\n\n")
}
}
# Make RNASeq_results/ directory
MkdirRNASeq_results <- function(path.prefix){
message("\u25CF 3. Creating 'RNASeq_results/' directory\n")
RNASeq_results.dir <- dir.create(file.path(paste0(path.prefix,
"RNASeq_results/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_results.dir)) {
message(" (\u2714) : Create '", path.prefix,
"RNASeq_results/'.\n\n")
} else {
message(" (\u26A0)) : '", path.prefix,
"RNASeq_results/' has already be created.\n\n")
}
}
# Make
MkdirRscript_Rscript_out <- function(path.prefix) {
message("\u25CF 4. Creating 'Rscript/' directory\n")
RNASeq_rscript.dir <- dir.create(file.path(paste0(path.prefix, "Rscript/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_rscript.dir)) {
message(" (\u2714) : Create '", path.prefix, "Rscript/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"Rscript/' has already be created.\n")
}
message("\u25CF 5. Creating 'Rscript_out/' directory\n")
RNASeq_rscript_out.dir <- dir.create(file.path(paste0(path.prefix,
"Rscript_out/")),
showWarnings = FALSE) == 0
if (!isTRUE(RNASeq_rscript_out.dir)) {
message(" (\u2714) : Create '", path.prefix,
"Rscript_out/'.\n\n")
} else {
message(" (\u26A0) : '", path.prefix,
"Rscript_out/' has already be created.\n")
}
}
# Create sample gene and binary directory
MkdirAll <- function(path.prefix) {
message("************** Creating Directories ************\n")
bool.path.prefix <- dir.exists(path.prefix)
if (bool.path.prefix) {
MkdirGeneDir(path.prefix)
MkdirRNASeq_bin(path.prefix)
MkdirRNASeq_results(path.prefix)
MkdirRscript_Rscript_out(path.prefix)
} else {
message("'", path.prefix, "' has not been created yet!!\n\n")
}
}
# inner function : Copy input files directory
CopyInputDir <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern,
indices.optional) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
fa.des <- paste0(path.prefix, "gene_data/ref_genome/", genome.name, ".fa")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/",
genome.name, ".fa", "\n")
file.remove(fa.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".fa"),
fa.des)
message(" \u25CF To :", fa.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_fastq.gz/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_fastq.gz/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_fastq.gz/"))
raw_fastq.gz.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_fastq.gz"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_fastq.gz.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_fastq.gz")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_fastq.gz/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
if (isTRUE(indices.optional)) {
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "indices/\n")
unlink(paste0(path.prefix, "gene_data/indices/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/indices/"))
indices.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/", "indices"),
pattern = paste0(genome.name,
"_tran.[0-9].ht2"),
recursive = TRUE,
full.names = TRUE)
vapply(indices.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/indices")),
FUN.VALUE = TRUE)
message(c(" \u25CF To :",
paste0(path.prefix, "gene_data/indices/"), "\n\n"))
} else {
message("\n")
}
}
# inner function : Copy input files directory
CopyInputDir_Sam <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_sam/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_sam/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_sam/"))
raw_sam.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_sam"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_sam.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_sam")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_sam/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
}
# inner function : Copy input files directory
CopyInputDir_Bam <- function(path.prefix,
input.path.prefix,
genome.name,
sample.pattern) {
message("************** Directory Copying ************\n")
message(" \u25CF Copying From :",input.path.prefix,
"input_files/", genome.name, ".gtf\n")
gtf.des <- paste0(path.prefix, "gene_data/ref_genes/", genome.name, ".gtf")
file.remove(gtf.des)
file.symlink(paste0(input.path.prefix, "input_files/", genome.name, ".gtf"),
gtf.des)
message(" \u25CF To :", gtf.des, "\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/", "raw_bam/", "\n")
unlink(paste0(path.prefix, "gene_data/raw_bam/"), recursive = TRUE)
dir.create(paste0(path.prefix, "gene_data/raw_bam/"))
raw_bam.subfiles <- list.files(path = paste0(input.path.prefix,
"input_files/",
"raw_bam"),
pattern = sample.pattern,
recursive = TRUE,
full.names = TRUE)
vapply(raw_bam.subfiles,
function(x) file.symlink(x, paste0(path.prefix,
"gene_data/raw_bam")),
FUN.VALUE = TRUE)
message(" \u25CF To :",
path.prefix, "gene_data/raw_bam/\n")
message(" \u25CF Copying From :",
input.path.prefix, "input_files/phenodata.csv\n")
pheno.des <- paste0(path.prefix, "gene_data/phenodata.csv")
file.remove(pheno.des)
file.symlink(paste0(input.path.prefix, "input_files/phenodata.csv"),
pheno.des)
message(" \u25CF To :", pheno.des, "\n")
}
# Install Hisat2 binay
InstallHisat2Bianry <- function(path.prefix, os.type){
os <- os.type
url <- "ftp://ftp.ccb.jhu.edu/pub/infphilo/hisat2/downloads/"
if (os == "linux"){
os.file.name.zip <- "hisat2-2.1.0-Linux_x86_64.zip"
os.file.name <- "hisat2-2.1.0"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "hisat2-2.1.0-OSX_x86_64.zip"
os.file.name <- "hisat2-2.1.0"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Hisat2 is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing Hisat2 (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("HISAT2 binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking Hisat2 (",
os.file.name.zip, ") ************\n")
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
# utils::unzip(zipfile = paste0(path.prefix, "RNASeq_bin/Download/",
# os.file.name.zip),
# exdir = paste0(path.prefix,
# "RNASeq_bin/Unpacked/"),
# overwrite = TRUE)
main.command <- "unzip"
command.result <- system2(command = main.command,
args = paste0(path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, " -d ", path.prefix,
"RNASeq_bin/Unpacked/"))
if (command.result != 0 ) {
message("(\u2718) '", main.command, "' is failed !!")
stop("'", main.command, "' ERROR")
}
message("hisat2 binaries\n\n")
message("\n************** Moving Hisat2 Binary ************")
file.target.hisat <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
os.file.name),
pattern = "hisat2*",
full.names = TRUE)
file.target.py <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
os.file.name),
pattern = "*.py",
full.names = TRUE)
file.target <- unique(c(file.target.hisat, file.target.py))
file.move <- file.copy(from = file.target,
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (command.result != 0 ) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("Hisat2 has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/", os.file.name, "/')", "\n\n")
return(TRUE)
}
InstallStarBianry <- function(path.prefix, os.type){
os <- os.type
url <- "https://github.com/alexdobin/STAR/archive/"
if (os == "linux"){
os.file.name.zip <- "star-2.7.1a.zip"
os.file.name <- "start-2.7.1a"
url <- paste0(url, "2.7.1a.zip")
} else if (os == "osx"){
os.file.name.zip <- "star-2.7.1a.zip"
os.file.name <- "start-2.7.1a"
url <- paste0(url, "2.7.1a.zip")
} else if (os == "windows"){
stop("STAR is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing STAR (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("STAR binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking STAR (",
os.file.name.zip, ") ************\n")
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
# utils::unzip(zipfile = paste0(path.prefix, "RNASeq_bin/Download/",
# os.file.name.zip),
# exdir = paste0(path.prefix,
# "RNASeq_bin/Unpacked/"),
# overwrite = TRUE)
main.command <- "unzip"
command.result <- system2(command = main.command,
args = paste0(path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, " -d ", path.prefix,
"RNASeq_bin/Unpacked/"))
if (command.result != 0 ) {
message("(\u2718) '", main.command, "' is failed !!")
stop("'", main.command, "' ERROR")
}
message("STAR binaries\n\n")
message("\n************** Moving STAR Binary ************")
if (os == "osx") {
file.target.star <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
"STAR-2.7.1a/bin/",
"MacOSX_x86_64"),
pattern = "STAR*",
full.names = TRUE)
} else if (os == "linux") {
file.target.star <- list.files(path = paste0(path.prefix,
"RNASeq_bin/Unpacked/",
"STAR-2.7.1a/bin/",
"Linux_x86_64"),
pattern = "STAR*",
full.names = TRUE)
}
file.move <- file.copy(from = file.target.star,
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (command.result != 0 ) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("STAR has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/STAR-2.7.1a/')", "\n\n")
return(TRUE)
}
# Install stringtie binary
InstallStringTieBinary <- function(path.prefix, os.type){
os <- os.type
url <- "http://ccb.jhu.edu/software/stringtie/dl/"
if (os == "linux"){
os.file.name.zip <- "stringtie-1.3.4d.Linux_x86_64.tar.gz"
os.file.name <- "stringtie-1.3.4d.Linux_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "stringtie-1.3.4d.OSX_x86_64.tar.gz"
os.file.name <- "stringtie-1.3.4d.OSX_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Stringtie is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing stringtie (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("StringTie binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking stringtie (",
os.file.name.zip, ") ************\n")
# If file directory exists!! Remove it first!!
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
file.unpacked <- utils::untar(tarfile = paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip),
exdir = paste0(path.prefix,
"RNASeq_bin/Unpacked/"),
compressed = "gzip")
if (file.unpacked != 0 ) {
message("(\u2718) 'utils::untar()' is failed !!")
stop("'utils::untar()' ERROR")
}
message("\n************** Moving stringtie Binary ************")
file.move <- file.copy(from = paste0(path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "/stringtie"),
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (!file.move) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("StringTie has been unpacked. ('",
path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "')\n\n")
return(TRUE)
}
# Install Gffcompare binary
InstallGffcompareBinary <- function(path.prefix, os.type){
os <- os.type
url <- "http://ccb.jhu.edu/software/stringtie/dl/"
if (os == "linux"){
os.file.name.zip <- "gffcompare-0.10.4.Linux_x86_64.tar.gz"
os.file.name <- "gffcompare-0.10.4.Linux_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "osx"){
os.file.name.zip <- "gffcompare-0.10.4.OSX_x86_64.tar.gz"
os.file.name <- "gffcompare-0.10.4.OSX_x86_64"
url <- paste0(url, os.file.name.zip)
} else if (os == "windows"){
stop("Gffcompare is not supporting windows.\n\n")
return(FALSE)
} else {
stop("Unknow operating system.\n\n")
return(FALSE)
}
message("************** Installing gffcompare (",
os.file.name.zip, ") ************\n")
file.download <- getURL(url, download.file, paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip))
if (file.download == 0) {
message("Gffcompare binaries were downloaded successfully!!\n")
}
message("\n************** Unpacking gffcompare (",
os.file.name.zip, ") ************\n")
# If file directory exists!! Remove it first!!
if (dir.exists(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name))) {
unlink(paste0(path.prefix, "RNASeq_bin/Unpacked/", os.file.name),
recursive = TRUE)
}
file.unpacked <- utils::untar(tarfile = paste0(path.prefix,
"RNASeq_bin/Download/",
os.file.name.zip),
exdir = paste0(path.prefix,
"RNASeq_bin/Unpacked/"),
compressed = "gzip")
if (file.unpacked != 0 ) {
message("(\u2718) 'utils::untar()' is failed !!")
stop("'utils::untar()' ERROR")
}
message("\n************** Moving gffcompare Binary ************")
file.move <- file.copy(from = paste0(path.prefix, "RNASeq_bin/Unpacked/",
os.file.name, "/gffcompare"),
to = paste0(path.prefix, "RNASeq_bin/"),
overwrite = TRUE)
if (!file.move) {
message("(\u2718) 'file.copy()' is failed !!")
stop("'file.copy()' ERROR")
}
message("\n'", path.prefix, "RNASeq_bin/Download/",
os.file.name.zip, "' has been installed.\n")
message("Gffcompare has been unpacked. ('", path.prefix,
"RNASeq_bin/Unpacked/", os.file.name, "')", "\n\n")
return(TRUE)
}
# Install 'Hisat2', 'StringTie', 'Gffcompare'
InstallAll <- function(path.prefix,
os.type,
install.hisat2,
install.STAR,
install.stringtie,
install.gffcompare) {
message("\u2618\u2618\u2618\u2618\u2618\u2618\u2618\u2618 ",
"Start installing ... ",
"\u2618\u2618\u2618\u2618\u2618\u2618\u2618\u2618\n")
install.software <- ""
if (install.hisat2) {
install.software <- paste0(install.software, "\u25CF'hisat2' ")
}
if (install.STAR) {
install.software <- paste0(install.software, "\u25CF'STAR' ")
}
if (install.stringtie) {
install.software <- paste0(install.software, "\u25CF'stringtie' ")
}
if (install.gffcompare) {
install.software <- paste0(install.software, "\u25CF'gffcompare' ")
}
if (!install.hisat2 & !install.stringtie &
!install.gffcompare) {
message(" \u261E\u261E skipping installation process ... \n")
} else {
message(" \u261E\u261E ",
install.software,
"will be installed. ... \n")
message(" \u261E\u261E Compressed files will be in '",
path.prefix, "RNASeq_bin/Download/'\n")
message(" \u261E\u261E Unpacked files will be in '",
path.prefix, "RNASeq_bin/Unpacked/'\n")
message(" \u261E\u261E Binary files will be copied to '",
path.prefix, "RNASeq_bin/'", "\n\n")
}
if (install.hisat2) {
message("\u2618\u2618 Hisat2 processing ...\n")
InstallHisat2Bianry(path.prefix, os.type)
}
if (install.STAR) {
message("\u2618\u2618 STAR processing ...\n")
InstallStarBianry(path.prefix, os.type)
}
if (install.stringtie) {
message("\u2618\u2618 Stringtie processing ...\n")
InstallStringTieBinary(path.prefix, os.type)
}
if (install.gffcompare) {
message("\u2618\u2618 Gffcompare processing ...\n")
InstallGffcompareBinary(path.prefix, os.type)
}
}
# Check 'hisat2'
CheckHisat2 <- function(print=TRUE){
if (print) {
message("\u25CF Checking hisat2 command\n")
}
hisat2.installed <- system("hisat2 --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(hisat2.installed)){
if (isTRUE(print)){
message("(\u2714) : 'hisat2' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : 'hisat2' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'STAR'
CheckSTAR <- function(print=TRUE){
if (print) {
message("\u25CF Checking STAR command\n")
}
STAR.installed <- system("STAR --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(STAR.installed)){
if (isTRUE(print)){
message("(\u2714) : 'STAR' is installed\n\n")
}
return(TRUE)
} else {
message("(\u2718) : 'STAR' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'stringtie'
CheckStringTie <- function(print=TRUE){
if (print){
message("\u25CF Checking stringtie command\n")
}
stringtie.installed <- system("stringtie --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(stringtie.installed)){
if (isTRUE(print)){
message("(\u2714) : 'stringtie' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : 'stringtie' command is not found on this device!! \n\n")
return(FALSE)
}
}
# Check 'Gffcompare'
CheckGffcompare <- function(print=TRUE) {
if (print) {
message("\u25CF Checking gffcompare command\n")
}
gffcompare.old <- system( "gffcompare --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(gffcompare.old)){
if (isTRUE(print)){
message("(\u2714) : 'gffcompare' is installed\n\n")
}
return(TRUE)
}
else{
message("(\u2718) : \'gffcompare\' ",
"command is not found on this device!!\n\n")
return(FALSE)
}
}
# Check 'Samtools'
CheckSamtools <- function(print=TRUE){
if (print) {
message("\u25CF Checking samtools command\n")
}
samtools.old <- system( "samtools --version",
ignore.stdout = !print,
ignore.stderr = !print) == 0
if (isTRUE(samtools.old)){
if (isTRUE(print)){
message("(\u2714) : 'samtools' is installed\n")
}
return(TRUE)
}
else{
message("(\u2718) : \'samtools\' command is not found on this device!!\n")
return(FALSE)
}
}
#' @title CheckToolAll
#'
#' @description Check whether 'Hisat2', 'Stringtie' and 'Gffcompare'
#' are installed on the workstation
#'
#' @param print If \code{TRUE}, detailed information will be printed.
#' If \code{FALSE}, detailed information will not be printed.
#'
#' @param path.prefix path prefix of 'gene_data/', 'RNASeq_bin/',
#' 'RNASeq_results/', 'Rscript/' and 'Rscript_out/' directories.
#'
#' @return None
#' @export
#' @examples
#' data(yeast)
#' \dontrun{
#' CheckToolAll(yeast@@path.prefix,
#' print=TRUE)}
CheckToolAll <- function(path.prefix, print=TRUE) {
message("************** Checking Availability of Commands ************\n")
ExportPath(path.prefix)
hisat2.check <- CheckHisat2(print)
STAR.check <- CheckSTAR(print)
stringtie.check <- CheckStringTie(print)
gff.check <- CheckGffcompare(print)
if (isTRUE(hisat2.check) &&
isTRUE(stringtie.check) &&
isTRUE(gff.check) &&
isTRUE(STAR.check)){
return(TRUE)
} else {
stop("(\u2718) Necessary program is missing.\n ",
"1. Check 'INSTALL_TOOLS.Rout' whether tools are ",
"properly installed.\n ",
"2. Run 'ExportPath()' to set the environment.\n\n")
return(FALSE)
}
}
CheckTool_Sam_Bam <- function(path.prefix, print=TRUE) {
message("************** Checking Availability of Commands ************\n")
ExportPath(path.prefix)
stringtie.check <- CheckStringTie(print)
gff.check <- CheckGffcompare(print)
if (isTRUE(gff.check) &&
isTRUE(gff.check)){
return(TRUE)
} else {
stop("(\u2718) Necessary program is missing.\n ",
"1. Check 'INSTALL_TOOLS.Rout' whether tools are ",
"properly installed.\n ",
"2. Run 'ExportPath()' to set the environment.\n\n")
return(FALSE)
}
}
PreRNASeqEnvironmentSet <- function(path.prefix, sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment pre-check ...\n")
validity <- TRUE
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet environment() ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() pre-check is valid\n\n")
}
PostRNASeqEnvironmentSet <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
ref.fa <- file.exists(paste0(path.prefix,
"gene_data/ref_genome/",
genome.name, ".fa"))
raw.fastq <- list.files(path = paste0(path.prefix, "gene_data/raw_fastq.gz/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckToolAll(path.prefix)
validity <- phenodata.csv && ref.gtf && ref.fa &&
check.tool.result && (length(raw.fastq) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
PostRNASeqEnvironmentSet_Sam <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
raw.sam <- list.files(path = paste0(path.prefix, "gene_data/raw_sam/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckTool_Sam_Bam(path.prefix)
validity <- phenodata.csv && ref.gtf &&
check.tool.result && (length(raw.sam) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
PostRNASeqEnvironmentSet_Bam <- function(path.prefix,
genome.name,
sample.pattern) {
message("\u269C\u265C\u265C\u265C RNASeqEnvironmentSet()' ",
"environment post-check ...\n")
phenodata.csv <- file.exists(paste0(path.prefix, "gene_data/phenodata.csv"))
ref.gtf <- file.exists(paste0(path.prefix,
"gene_data/ref_genes/",
genome.name, ".gtf"))
raw.bam <- list.files(path = paste0(path.prefix, "gene_data/raw_bam/"),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
check.tool.result <- CheckTool_Sam_Bam(path.prefix)
validity <- phenodata.csv && ref.gtf &&
check.tool.result && (length(raw.bam) != 0)
if (!isTRUE(validity)) {
stop("RNASeqEnvironmentSet() post-check ERROR")
}
message("(\u2714) : RNASeqEnvironmentSet() post-check is valid\n\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605 Success!! \u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\n")
message("\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605",
"\u2605\n")
}
#
CheckS4Object_All <- function(RNASeqRParam, print = TRUE) {
if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam' instance! \n\n")
}
return("RNASeqRParam")
} else if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam_Sam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam_Sam' instance! \n\n")
}
return("RNASeqRParam_Sam")
} else if (isS4(RNASeqRParam) &&
class(RNASeqRParam)[1] == "RNASeqRParam_Bam") {
if (print) {
message("************** Checking validity of S4 input ************\n")
message(" (\u2714) : input is valid ",
"'RNASeqRParam_Bam' instance! \n\n")
}
return("RNASeqRParam_Bam")
} else {
message("(\u2718) : input is not a valid ",
"'RNASeqRParam' or 'RNASeqRParam_Sam' instance!.\n" )
stop("Invalid 'RNASeqRParam' or 'RNASeqRParam_Sam' input ERROR")
}
}
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