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R/utility_installtool_rnaseqpipline.R
In RNASeqR: RNASeqR: an R package for automated two-group RNA-Seq analysis workflow
Defines functions
RawReadCountAvailability
RawCountGeneNameChange
RawCountWrap
phenoDataWrap
ParseResultCSV
ExportPath
ProgressGenesFiles
getURL
# Querying Web Resource template
getURL <- function(URL, FUN, ..., N.TRIES=1L) {
N.TRIES <- as.integer(N.TRIES)
stopifnot(length(N.TRIES) == 1L, !is.na(N.TRIES))
while (N.TRIES > 0L) {
result <- tryCatch(FUN(URL, ...), error=identity)
if (!inherits(result, "error"))
break
N.TRIES <- N.TRIES - 1L
}
if (N.TRIES == 0L) {
stop("'getURL()' failed:",
"\n URL: ", URL,
"\n error: ", conditionMessage(result))
}
result
}
# check 'gene_data' and subdirectory files exit
ProgressGenesFiles <- function(path.prefix,
genome.name,
sample.pattern,
print = TRUE) {
if (print) {
message("\uD83D\uDD0D\uD83D\uDD0D\uD83D\uDD0D Checking Files ...\n")
message("************** Current progress of RNA-seq files in '",
path.prefix, "gene_data/' **************\n")
}
# 1. Check .gtf file
gtf.file <- file.exists(paste0(path.prefix, "gene_data",
'/ref_genes/', genome.name, '.gtf'))
if (isTRUE(gtf.file)) {
if(print){
message("(\u2714) :'",path.prefix, "gene_data", '/ref_genes/',
genome.name, '.gtf', "' is exit\n\n")
}
} else {
message("(\u2718) :'",path.prefix, "gene_data/ref_genes/",
genome.name, ".gtf' is not exit\n")
message(" Put the '",genome.name, ".gtf' file in '", path.prefix,
"gene_data/ref_genes/' to fix the error.\n\n")
}
# 2. Check .fa file
fa.file <- file.exists(paste0(path.prefix, "gene_data",
'/ref_genome/', genome.name, '.fa'))
if (isTRUE(fa.file)) {
if(print){
message("(\u2714) : '", path.prefix, "gene_data/ref_genome/",
genome.name, ".fa' is exit\n\n")
}
} else {
message("(\u2718) : '", path.prefix, "gene_data/ref_genome/",
genome.name, ".fa' is not exit\n")
message(" Put the '",genome.name,".fa' file in '",path.prefix,
"gene_data/ref_genome/' to fix the error.\n\n")
}
# 3. Check .fastq.gz file
fastq.gz.files <- 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)
fastq.gz.files.number <- length(fastq.gz.files)
if (fastq.gz.files.number != 0){
if(print){
for (i in fastq.gz.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_fastq.gz/", i, "' is exit\n")
}
message("Total: ", fastq.gz.files.number, " file\n\n")
}
}else {
message("(\u2718) : '", path.prefix,
"gene_data/raw_fastq.gz/XXX_*.fastq.gz' is not exit\n")
message(" Put the 'XXX_*.fastq.gz' file in '",
path.prefix, "gene_data/raw_fastq.gz/' to fix the error.\n\n")
}
# 4. Check phenodata file
phenodata.file <- file.exists(paste0(path.prefix,
"gene_data", '/phenodata.csv'))
if (phenodata.file) {
if(print){
message("(\u2714) : '", path.prefix,
"gene_data/phenodata.csv' is exit\n\n")
}
} else {
message("(\u2718) : '", path.prefix,
"gene_data/phenodata.csv' is not exit\n")
message(" Put the 'phenodata.csv' file in '",
path.prefix, "gene_data/' to fix the error.\n\n")
}
ht2.files <- list.files(path = paste0(path.prefix, "gene_data", '/indices/'),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
ht2.files.number <- length(ht2.files)
if (ht2.files.number != 0) {
if (print) {
for (i in ht2.files){
message("(\u2714) : '", path.prefix,
"gene_data/indices/", i, "' is exit\n")
}
message("Total: ", ht2.files.number, " file\n\n")
}
} else {
if (print) {
message("(\u231B) : '", path.prefix, "gene_data/indices/*' is not exit\n")
}
}
pheno_data <- read.csv(paste0(path.prefix, "gene_data/phenodata.csv"))
levels(pheno_data$ids)
# Target sam files !!
target.sam.files <- paste0(levels(pheno_data$ids), '.sam')
# Check whether sam file is exist !
actual.found.sam.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_sam/'),
pattern = "*.sam$",
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
sam.files.number <- length(actual.found.sam.files)
if (sam.files.number != 0){
if (print) {
sam.check <- identical(target.sam.files, actual.found.sam.files)
if (sam.check) {
for ( i in actual.found.sam.files ) {
message("(\u2714) : '", path.prefix,
"gene_data/raw_sam/", i, "' is exit\n")
}
message("Total: ", sam.files.number, " file\n\n")
} else {
message("(\u2718) : .SAM files checking is invalid!! \n\n")
stop("SAM files checking ERROR")
}
}
} else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_sam/XXX.sam' is not exit\n")
}
}
# Target bam file
target.bam.files <- paste0(levels(pheno_data$ids), '.bam')
actual.found.bam.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_bam/'),
pattern = paste0("*.bam$"),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
bam.files.number <- length(actual.found.bam.files)
if (bam.files.number != 0){
if (print) {
bam.check <- identical(target.bam.files, actual.found.bam.files)
if (bam.check) {
for (i in actual.found.bam.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_bam/", i, "' is exit\n")
}
message("Total: ", bam.files.number, " files\n\n")
} else {
message("(\u2718) : .BAM files checking is invalid!! \n\n")
stop("BAM files checking ERROR")
}
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_bam/XXX.bam' is not exit\n")
}
}
# Target gtf file
target.gtf.files <- paste0(levels(pheno_data$ids), '.gtf')
actual.found.gtf.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_gtf/'),
pattern = paste0("*.gtf$"),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
gtf.files.number <- length(actual.found.gtf.files)
if (gtf.files.number != 0){
if (print) {
gtf.check <- identical(target.gtf.files, actual.found.gtf.files)
if (gtf.check) {
for (i in actual.found.gtf.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_gtf/", i, "' is exit\n")
}
message("Total: ", gtf.files.number, " files\n\n")
} else {
message("(\u2718) : .GTF files checking is invalid!! \n\n")
stop("GTF files checking ERROR")
}
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_gtf/XXX.gtf' is not exit\n")
}
}
# Check stringtie merged gtf
stringtie_merged.gtf.file <- file.exists(paste0(path.prefix,
"gene_data/merged/",
"stringtie_merged.gtf"))
# Check gffcompare result
gffcompare.related.dirs <- list.files(path = paste0(path.prefix,
"gene_data", '/merged/'),
pattern = "^merged.",
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
gffcompare.related.dirs.number <- length(gffcompare.related.dirs)
if (gffcompare.related.dirs.number != 0){
if (print) {
for (i in gffcompare.related.dirs){
message("(\u2714) : '", path.prefix,
"gene_data/merged/", i, "' is exit\n")
}
message("Total: ", gffcompare.related.dirs.number, " files\n\n")
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/merged/merged.XXX/' is not exit\n")
}
}
ballgown.dirs <- list.files(path = paste0(path.prefix,
"gene_data", '/ballgown/'),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
ballgown.dirs.number <- length(ballgown.dirs)
if (ballgown.dirs.number != 0){
if (print) {
for (i in ballgown.dirs){
message("(\u2714) : '", path.prefix,
"gene_data/ballgown/", i, "' is exit\n")
}
message("Total: ", ballgown.dirs.number, " directories\n\n")
}
}else {
if (print) {
message("(\u231B) : '", path.prefix, "gene_data/ballgown/",
gsub(".fastq.gz", replacement = "",
sample.pattern), "/' is not exit\n")
}
}
return(list(gtf.file.logic.df = gtf.file, fa.file.logic.df = fa.file,
fastq.gz.files.number.df = fastq.gz.files.number,
fastq.gz.files.df = fastq.gz.files,
phenodata.file.df = phenodata.file,
ht2.files.number.df = ht2.files.number,
ht2.files.df = ht2.files,
sam.files.number.df = sam.files.number,
sam.files.df = actual.found.sam.files,
bam.files.number.df = bam.files.number,
bam.files.df = actual.found.bam.files,
gtf.files.number.df = gtf.files.number,
gtf.files.df = actual.found.gtf.files,
stringtie_merged.gtf.file.df = stringtie_merged.gtf.file,
gffcompare.related.dirs.df = gffcompare.related.dirs,
gffcompare.related.dirs.number.df =gffcompare.related.dirs.number,
ballgown.dirs.number.df = ballgown.dirs.number,
ballgown.dirs.df = ballgown.dirs))
}
# Add '~/RNASeq_bin/ to R environment "PATH"
ExportPath <- function(path.prefix) {
message("************** Adding PATH to R environment ************\n")
old.path <- Sys.getenv("PATH")
Sys.setenv(
PATH = paste(old.path, paste0(path.prefix, "RNASeq_bin"), sep = ":")
)
message("\u27a4\u27a4 R environment 'PATH' : ", Sys.getenv("PATH"), "\n\n")
}
ParseResultCSV <- function(which.analysis,
which.count.normalization,
path.prefix,
independent.variable,
case.group,
control.group) {
case.normalized.csv <- paste0(path.prefix, "RNASeq_results/",
which.analysis, "/normalized_&_statistic/",
which.count.normalization, "_case.csv")
control.normalized.csv <- paste0(path.prefix, "RNASeq_results/",
which.analysis, "/normalized_&_statistic/",
which.count.normalization, "_control.csv")
statistic.csv <- paste0(path.prefix, "RNASeq_results/", which.analysis,
"/normalized_&_statistic/statistic.csv")
read.case.normalized.csv <- read.csv(case.normalized.csv)
read.control.normalized.csv <- read.csv(control.normalized.csv)
read.statistic.csv <- read.csv(statistic.csv)
return(list("case" = read.case.normalized.csv,
"control" = read.control.normalized.csv,
"statistic" = read.statistic.csv))
}
phenoDataWrap <- function(path.prefix,
independent.variable,
case.group,
control.group) {
# Read pheno_data
pheno_data <- read.csv(paste0(path.prefix, "gene_data/phenodata.csv"))
case.group.data.frame <-
pheno_data[pheno_data[independent.variable] == case.group, ]
control.group.data.frame <-
pheno_data[pheno_data[independent.variable] == control.group, ]
case.group.size <- length(row.names(case.group.data.frame))
control.group.size <- length(row.names(control.group.data.frame))
my_colors=c("#00AFBB", "#E7B800")
if ("color" %in% colnames(pheno_data)) {
case.color <- unique(as.character(case.group.data.frame$color))
if (length(case.color) != 1) {
stop("All case group should be the same color !",
" Please check your pheodata.csv.")
}
control.color <- unique(as.character(control.group.data.frame$color))
if (length(control.color) != 1) {
stop("All case group should be the same color !",
" Please check your pheodata.csv.")
}
case.color <- gsub(" ", "", case.color, fixed = TRUE)
control.color <- gsub(" ", "", control.color, fixed = TRUE)
my_colors <- c(case.color, control.color)
}
return(list("pheno_data" = pheno_data,
"case.group.data.frame" = case.group.data.frame,
"control.group.data.frame" = control.group.data.frame,
"case.group.size" = case.group.size,
"control.group.size" = control.group.size,
"my_colors" = my_colors))
}
RawCountWrap <- function(path.prefix) {
# read in gene count table
gene.count.table.raw <- read.csv(paste0(path.prefix,
"gene_data/reads_count_matrix/",
"gene_count_matrix.csv"))
# Process raw reads count!!
gene.count.table.raw <- RawCountGeneNameChange(gene.count.table.raw,
path.prefix)
# gene count table without first row
gene.reads.count.table <- gene.count.table.raw$raw.count
gene.reads.count.gene.name <-
as.character(gene.count.table.raw$raw.count.name)
# gene matrix
gene.count.matrix <- as.matrix(gene.reads.count.table)
return(list("gene.count.matrix" = gene.count.matrix,
"gene.count.name" = gene.reads.count.gene.name))
}
RawCountGeneNameChange <- function(raw.count, path.prefix){
# Convert gene id to gene name
gene.id <- raw.count$gene_id
ballgown.texpr <- read.csv(paste0(path.prefix,
"RNASeq_results/ballgown_analysis/",
"ballgown_R_object/texpr.csv"))
indices <- match(gene.id, ballgown.texpr$gene_id)
gene_names_for_result <- as.character(ballgown.texpr$gene_name[indices])
row.names(raw.count) <- raw.count$gene_id
raw.count$gene_id <- gene_names_for_result
colnames(raw.count)[1] <- "gene.name"
# Pre-filter out rowSums bigger than 0 !!
raw.count <- raw.count[rowSums(raw.count[-1])>0, ]
# seperate novel gene and known gene
novel.gene.raw.count <- raw.count[raw.count$gene.name == ".", ]
known.gene.raw.count <- raw.count[raw.count$gene.name != ".", ]
# aggregate know gene with same name !
novel.know.gene.raw.count <- rbind(known.gene.raw.count, novel.gene.raw.count)
return(list("raw.count" = novel.know.gene.raw.count[-1],
"raw.count.name" = novel.know.gene.raw.count$gene.name))
}
RawReadCountAvailability <- function(path.prefix) {
file.prepDE.py <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/prepDE.py"))
file.sample.lst.txt <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/sample_lst.txt"))
file.gene_count_matrix <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/gene_count_matrix.csv"))
if (file.prepDE.py & file.sample.lst.txt & file.gene_count_matrix) {
return(TRUE)
} else {
return(FALSE)
}
}
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Defines functions RawReadCountAvailability RawCountGeneNameChange RawCountWrap phenoDataWrap ParseResultCSV ExportPath ProgressGenesFiles getURL
# Querying Web Resource template
getURL <- function(URL, FUN, ..., N.TRIES=1L) {
N.TRIES <- as.integer(N.TRIES)
stopifnot(length(N.TRIES) == 1L, !is.na(N.TRIES))
while (N.TRIES > 0L) {
result <- tryCatch(FUN(URL, ...), error=identity)
if (!inherits(result, "error"))
break
N.TRIES <- N.TRIES - 1L
}
if (N.TRIES == 0L) {
stop("'getURL()' failed:",
"\n URL: ", URL,
"\n error: ", conditionMessage(result))
}
result
}
# check 'gene_data' and subdirectory files exit
ProgressGenesFiles <- function(path.prefix,
genome.name,
sample.pattern,
print = TRUE) {
if (print) {
message("\uD83D\uDD0D\uD83D\uDD0D\uD83D\uDD0D Checking Files ...\n")
message("************** Current progress of RNA-seq files in '",
path.prefix, "gene_data/' **************\n")
}
# 1. Check .gtf file
gtf.file <- file.exists(paste0(path.prefix, "gene_data",
'/ref_genes/', genome.name, '.gtf'))
if (isTRUE(gtf.file)) {
if(print){
message("(\u2714) :'",path.prefix, "gene_data", '/ref_genes/',
genome.name, '.gtf', "' is exit\n\n")
}
} else {
message("(\u2718) :'",path.prefix, "gene_data/ref_genes/",
genome.name, ".gtf' is not exit\n")
message(" Put the '",genome.name, ".gtf' file in '", path.prefix,
"gene_data/ref_genes/' to fix the error.\n\n")
}
# 2. Check .fa file
fa.file <- file.exists(paste0(path.prefix, "gene_data",
'/ref_genome/', genome.name, '.fa'))
if (isTRUE(fa.file)) {
if(print){
message("(\u2714) : '", path.prefix, "gene_data/ref_genome/",
genome.name, ".fa' is exit\n\n")
}
} else {
message("(\u2718) : '", path.prefix, "gene_data/ref_genome/",
genome.name, ".fa' is not exit\n")
message(" Put the '",genome.name,".fa' file in '",path.prefix,
"gene_data/ref_genome/' to fix the error.\n\n")
}
# 3. Check .fastq.gz file
fastq.gz.files <- 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)
fastq.gz.files.number <- length(fastq.gz.files)
if (fastq.gz.files.number != 0){
if(print){
for (i in fastq.gz.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_fastq.gz/", i, "' is exit\n")
}
message("Total: ", fastq.gz.files.number, " file\n\n")
}
}else {
message("(\u2718) : '", path.prefix,
"gene_data/raw_fastq.gz/XXX_*.fastq.gz' is not exit\n")
message(" Put the 'XXX_*.fastq.gz' file in '",
path.prefix, "gene_data/raw_fastq.gz/' to fix the error.\n\n")
}
# 4. Check phenodata file
phenodata.file <- file.exists(paste0(path.prefix,
"gene_data", '/phenodata.csv'))
if (phenodata.file) {
if(print){
message("(\u2714) : '", path.prefix,
"gene_data/phenodata.csv' is exit\n\n")
}
} else {
message("(\u2718) : '", path.prefix,
"gene_data/phenodata.csv' is not exit\n")
message(" Put the 'phenodata.csv' file in '",
path.prefix, "gene_data/' to fix the error.\n\n")
}
ht2.files <- list.files(path = paste0(path.prefix, "gene_data", '/indices/'),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
ht2.files.number <- length(ht2.files)
if (ht2.files.number != 0) {
if (print) {
for (i in ht2.files){
message("(\u2714) : '", path.prefix,
"gene_data/indices/", i, "' is exit\n")
}
message("Total: ", ht2.files.number, " file\n\n")
}
} else {
if (print) {
message("(\u231B) : '", path.prefix, "gene_data/indices/*' is not exit\n")
}
}
pheno_data <- read.csv(paste0(path.prefix, "gene_data/phenodata.csv"))
levels(pheno_data$ids)
# Target sam files !!
target.sam.files <- paste0(levels(pheno_data$ids), '.sam')
# Check whether sam file is exist !
actual.found.sam.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_sam/'),
pattern = "*.sam$",
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
sam.files.number <- length(actual.found.sam.files)
if (sam.files.number != 0){
if (print) {
sam.check <- identical(target.sam.files, actual.found.sam.files)
if (sam.check) {
for ( i in actual.found.sam.files ) {
message("(\u2714) : '", path.prefix,
"gene_data/raw_sam/", i, "' is exit\n")
}
message("Total: ", sam.files.number, " file\n\n")
} else {
message("(\u2718) : .SAM files checking is invalid!! \n\n")
stop("SAM files checking ERROR")
}
}
} else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_sam/XXX.sam' is not exit\n")
}
}
# Target bam file
target.bam.files <- paste0(levels(pheno_data$ids), '.bam')
actual.found.bam.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_bam/'),
pattern = paste0("*.bam$"),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
bam.files.number <- length(actual.found.bam.files)
if (bam.files.number != 0){
if (print) {
bam.check <- identical(target.bam.files, actual.found.bam.files)
if (bam.check) {
for (i in actual.found.bam.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_bam/", i, "' is exit\n")
}
message("Total: ", bam.files.number, " files\n\n")
} else {
message("(\u2718) : .BAM files checking is invalid!! \n\n")
stop("BAM files checking ERROR")
}
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_bam/XXX.bam' is not exit\n")
}
}
# Target gtf file
target.gtf.files <- paste0(levels(pheno_data$ids), '.gtf')
actual.found.gtf.files <- list.files(path = paste0(path.prefix,
"gene_data", '/raw_gtf/'),
pattern = paste0("*.gtf$"),
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
gtf.files.number <- length(actual.found.gtf.files)
if (gtf.files.number != 0){
if (print) {
gtf.check <- identical(target.gtf.files, actual.found.gtf.files)
if (gtf.check) {
for (i in actual.found.gtf.files){
message("(\u2714) : '", path.prefix,
"gene_data/raw_gtf/", i, "' is exit\n")
}
message("Total: ", gtf.files.number, " files\n\n")
} else {
message("(\u2718) : .GTF files checking is invalid!! \n\n")
stop("GTF files checking ERROR")
}
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/raw_gtf/XXX.gtf' is not exit\n")
}
}
# Check stringtie merged gtf
stringtie_merged.gtf.file <- file.exists(paste0(path.prefix,
"gene_data/merged/",
"stringtie_merged.gtf"))
# Check gffcompare result
gffcompare.related.dirs <- list.files(path = paste0(path.prefix,
"gene_data", '/merged/'),
pattern = "^merged.",
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
gffcompare.related.dirs.number <- length(gffcompare.related.dirs)
if (gffcompare.related.dirs.number != 0){
if (print) {
for (i in gffcompare.related.dirs){
message("(\u2714) : '", path.prefix,
"gene_data/merged/", i, "' is exit\n")
}
message("Total: ", gffcompare.related.dirs.number, " files\n\n")
}
}else {
if (print) {
message("(\u231B) : '", path.prefix,
"gene_data/merged/merged.XXX/' is not exit\n")
}
}
ballgown.dirs <- list.files(path = paste0(path.prefix,
"gene_data", '/ballgown/'),
pattern = sample.pattern,
all.files = FALSE,
full.names = FALSE,
recursive = FALSE,
ignore.case = FALSE)
ballgown.dirs.number <- length(ballgown.dirs)
if (ballgown.dirs.number != 0){
if (print) {
for (i in ballgown.dirs){
message("(\u2714) : '", path.prefix,
"gene_data/ballgown/", i, "' is exit\n")
}
message("Total: ", ballgown.dirs.number, " directories\n\n")
}
}else {
if (print) {
message("(\u231B) : '", path.prefix, "gene_data/ballgown/",
gsub(".fastq.gz", replacement = "",
sample.pattern), "/' is not exit\n")
}
}
return(list(gtf.file.logic.df = gtf.file, fa.file.logic.df = fa.file,
fastq.gz.files.number.df = fastq.gz.files.number,
fastq.gz.files.df = fastq.gz.files,
phenodata.file.df = phenodata.file,
ht2.files.number.df = ht2.files.number,
ht2.files.df = ht2.files,
sam.files.number.df = sam.files.number,
sam.files.df = actual.found.sam.files,
bam.files.number.df = bam.files.number,
bam.files.df = actual.found.bam.files,
gtf.files.number.df = gtf.files.number,
gtf.files.df = actual.found.gtf.files,
stringtie_merged.gtf.file.df = stringtie_merged.gtf.file,
gffcompare.related.dirs.df = gffcompare.related.dirs,
gffcompare.related.dirs.number.df =gffcompare.related.dirs.number,
ballgown.dirs.number.df = ballgown.dirs.number,
ballgown.dirs.df = ballgown.dirs))
}
# Add '~/RNASeq_bin/ to R environment "PATH"
ExportPath <- function(path.prefix) {
message("************** Adding PATH to R environment ************\n")
old.path <- Sys.getenv("PATH")
Sys.setenv(
PATH = paste(old.path, paste0(path.prefix, "RNASeq_bin"), sep = ":")
)
message("\u27a4\u27a4 R environment 'PATH' : ", Sys.getenv("PATH"), "\n\n")
}
ParseResultCSV <- function(which.analysis,
which.count.normalization,
path.prefix,
independent.variable,
case.group,
control.group) {
case.normalized.csv <- paste0(path.prefix, "RNASeq_results/",
which.analysis, "/normalized_&_statistic/",
which.count.normalization, "_case.csv")
control.normalized.csv <- paste0(path.prefix, "RNASeq_results/",
which.analysis, "/normalized_&_statistic/",
which.count.normalization, "_control.csv")
statistic.csv <- paste0(path.prefix, "RNASeq_results/", which.analysis,
"/normalized_&_statistic/statistic.csv")
read.case.normalized.csv <- read.csv(case.normalized.csv)
read.control.normalized.csv <- read.csv(control.normalized.csv)
read.statistic.csv <- read.csv(statistic.csv)
return(list("case" = read.case.normalized.csv,
"control" = read.control.normalized.csv,
"statistic" = read.statistic.csv))
}
phenoDataWrap <- function(path.prefix,
independent.variable,
case.group,
control.group) {
# Read pheno_data
pheno_data <- read.csv(paste0(path.prefix, "gene_data/phenodata.csv"))
case.group.data.frame <-
pheno_data[pheno_data[independent.variable] == case.group, ]
control.group.data.frame <-
pheno_data[pheno_data[independent.variable] == control.group, ]
case.group.size <- length(row.names(case.group.data.frame))
control.group.size <- length(row.names(control.group.data.frame))
my_colors=c("#00AFBB", "#E7B800")
if ("color" %in% colnames(pheno_data)) {
case.color <- unique(as.character(case.group.data.frame$color))
if (length(case.color) != 1) {
stop("All case group should be the same color !",
" Please check your pheodata.csv.")
}
control.color <- unique(as.character(control.group.data.frame$color))
if (length(control.color) != 1) {
stop("All case group should be the same color !",
" Please check your pheodata.csv.")
}
case.color <- gsub(" ", "", case.color, fixed = TRUE)
control.color <- gsub(" ", "", control.color, fixed = TRUE)
my_colors <- c(case.color, control.color)
}
return(list("pheno_data" = pheno_data,
"case.group.data.frame" = case.group.data.frame,
"control.group.data.frame" = control.group.data.frame,
"case.group.size" = case.group.size,
"control.group.size" = control.group.size,
"my_colors" = my_colors))
}
RawCountWrap <- function(path.prefix) {
# read in gene count table
gene.count.table.raw <- read.csv(paste0(path.prefix,
"gene_data/reads_count_matrix/",
"gene_count_matrix.csv"))
# Process raw reads count!!
gene.count.table.raw <- RawCountGeneNameChange(gene.count.table.raw,
path.prefix)
# gene count table without first row
gene.reads.count.table <- gene.count.table.raw$raw.count
gene.reads.count.gene.name <-
as.character(gene.count.table.raw$raw.count.name)
# gene matrix
gene.count.matrix <- as.matrix(gene.reads.count.table)
return(list("gene.count.matrix" = gene.count.matrix,
"gene.count.name" = gene.reads.count.gene.name))
}
RawCountGeneNameChange <- function(raw.count, path.prefix){
# Convert gene id to gene name
gene.id <- raw.count$gene_id
ballgown.texpr <- read.csv(paste0(path.prefix,
"RNASeq_results/ballgown_analysis/",
"ballgown_R_object/texpr.csv"))
indices <- match(gene.id, ballgown.texpr$gene_id)
gene_names_for_result <- as.character(ballgown.texpr$gene_name[indices])
row.names(raw.count) <- raw.count$gene_id
raw.count$gene_id <- gene_names_for_result
colnames(raw.count)[1] <- "gene.name"
# Pre-filter out rowSums bigger than 0 !!
raw.count <- raw.count[rowSums(raw.count[-1])>0, ]
# seperate novel gene and known gene
novel.gene.raw.count <- raw.count[raw.count$gene.name == ".", ]
known.gene.raw.count <- raw.count[raw.count$gene.name != ".", ]
# aggregate know gene with same name !
novel.know.gene.raw.count <- rbind(known.gene.raw.count, novel.gene.raw.count)
return(list("raw.count" = novel.know.gene.raw.count[-1],
"raw.count.name" = novel.know.gene.raw.count$gene.name))
}
RawReadCountAvailability <- function(path.prefix) {
file.prepDE.py <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/prepDE.py"))
file.sample.lst.txt <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/sample_lst.txt"))
file.gene_count_matrix <-
file.exists(paste0(path.prefix,
"gene_data/reads_count_matrix/gene_count_matrix.csv"))
if (file.prepDE.py & file.sample.lst.txt & file.gene_count_matrix) {
return(TRUE)
} else {
return(FALSE)
}
}
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