R/05.assemble_allCov.R
In haibol2016/InPAS: Identify Novel Alternative PolyAdenylation Sites (PAS) from RNA-seq data
Defines functions
assemble_allCov
Documented in
assemble_allCov
#' Assemble coverage files for a given chromosome for all samples
#'
#' Process individual sample-chromosome-specific coverage files in an
#' experiment into a file containing a list of chromosome-specific Rle
#' coverage of all samples
#'
#' @param sqlite_db A path to the SQLite database for InPAS, i.e.
#' the output of setup_sqlitedb()
#' @param seqname A character(1) vector, the name of a chromosome/scaffold
#' @param outdir A character(1) vector, a path with write permission for storing
#' InPAS analysis results. If it doesn't exist, it will be created.
#' @param genome An object of [BSgenome::BSgenome-class]
#' @return A list of paths to per-chromosome coverage files of all samples.
#' \itemize{\item seqname, chromosome/scaffold name
#' \itemize{
#' \item tag1, name tag for sample1
#' \item tag2, name tag for sample2
#' \item tagN, name tag for sampleN
#' }
#' }
#' @export
#' @import RSQLite
#' @author Haibo Liu
#' @examples
#' if (interactive()) {
#' library(BSgenome.Mmusculus.UCSC.mm10)
#' genome <- BSgenome.Mmusculus.UCSC.mm10
#' bedgraphs <- system.file("extdata", c(
#' "Baf3.extract.bedgraph",
#' "UM15.extract.bedgraph"
#' ),
#' package = "InPAS"
#' )
#' tags <- c("Baf3", "UM15")
#' metadata <- data.frame(
#' tag = tags,
#' condition = c("Baf3", "UM15"),
#' bedgraph_file = bedgraphs
#' )
#' outdir <- tempdir()
#' write.table(metadata,
#' file = file.path(outdir, "metadata.txt"),
#' sep = "\t", quote = FALSE, row.names = FALSE
#' )
#'
#' sqlite_db <- setup_sqlitedb(
#' metadata = file.path(
#' outdir,
#' "metadata.txt"
#' ),
#' outdir
#' )
#' coverage <- list()
#' addLockName(filename = tempfile())
#' for (i in seq_along(bedgraphs)) {
#' coverage[[tags[i]]] <- get_ssRleCov(
#' bedgraph = bedgraphs[i],
#' tag = tags[i],
#' genome = genome,
#' sqlite_db = sqlite_db,
#' outdir = outdir,
#' chr2exclude = "chrM"
#' )
#' }
#' chr_coverage <- assemble_allCov(sqlite_db,
#' seqname = "chr6",
#' outdir = outdir,
#' genome = genome
#' )
#' }
assemble_allCov <- function(sqlite_db,
seqname,
outdir = getInPASOutputDirectory(),
genome = getInPASGenome()) {
if (!is(genome, "BSgenome")) {
stop("genome must be an object of BSgenome.")
}
if (missing(sqlite_db) || !file.exists(sqlite_db) ||
length(sqlite_db) != 1) {
stop("The sqlite_db length is not 1 or it doesn't exist!")
}
lock_filename <- getLockName()
if (!file.exists(lock_filename)) {
stop(
"lock_filename must be an existing file.",
"Please call addLockName() first!"
)
}
file_lock <- lock(lock_filename)
db_conn <- dbConnect(
drv = RSQLite::SQLite(),
dbname = sqlite_db
)
res <- dbGetQuery(db_conn, "SELECT * FROM sample_coverage;")
dbDisconnect(db_conn)
unlock(file_lock)
if (nrow(res) < 1) {
stop("The sample_coverage table in the sqlite_db is empty")
}
if (!seqname %in% res$chr) {
stop("seqname", seqname, "is not in the sample_coverage table")
}
if (!is.character(outdir) || length(outdir) != 1) {
stop("A directory of write permission is required!")
}
outdir <- file.path(outdir, "003.chromosomewise.RleCov")
if (!dir.exists(outdir)) {
dir.create(outdir, recursive = TRUE)
}
outdir <- normalizePath(outdir, mustWork = TRUE)
seqLen <- get_seqLen(genome)
chr_cov <- list()
for (tag in unique(res$tag)) {
file_name <- res$coverage_file[res$tag == tag &
res$chr == seqname]
if (length(file_name) == 1) {
chr_cov[[seqname]][[tag]] <- readRDS(file_name)
} else {
chr_cov[[seqname]][[tag]] <-
Rle(values = 0, lengths = seqLen[seqname])
}
}
filename_chr <- file.path(
outdir,
paste(seqname,
"RleCov.RDS",
sep = "_"
)
)
## chr_cov: chr_cov[[seqname]][[tag]]
saveRDS(chr_cov, file = filename_chr)
tryCatch(
{
file_lock <- lock(lock_filename)
db_conn <- dbConnect(
drv = RSQLite::SQLite(),
dbname = sqlite_db
)
res <- dbSendStatement(
db_conn,
paste0("DELETE FROM chromosome_coverage
WHERE chr = '", seqname, "';")
)
dbClearResult(res)
res <- dbSendStatement(
db_conn,
paste0("INSERT INTO
chromosome_coverage (chr, coverage_file)
VALUES ('", seqname, "',", "'", filename_chr, "');")
)
dbClearResult(res)
},
error = function(e) {
print(paste(conditionMessage(e)))
},
finally = {
dbDisconnect(db_conn)
unlock(file_lock)
}
)
chr_cov
}
haibol2016/InPAS documentation built on March 30, 2022, 10:30 a.m.
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Defines functions assemble_allCov
Documented in assemble_allCov
#' Assemble coverage files for a given chromosome for all samples
#'
#' Process individual sample-chromosome-specific coverage files in an
#' experiment into a file containing a list of chromosome-specific Rle
#' coverage of all samples
#'
#' @param sqlite_db A path to the SQLite database for InPAS, i.e.
#' the output of setup_sqlitedb()
#' @param seqname A character(1) vector, the name of a chromosome/scaffold
#' @param outdir A character(1) vector, a path with write permission for storing
#' InPAS analysis results. If it doesn't exist, it will be created.
#' @param genome An object of [BSgenome::BSgenome-class]
#' @return A list of paths to per-chromosome coverage files of all samples.
#' \itemize{\item seqname, chromosome/scaffold name
#' \itemize{
#' \item tag1, name tag for sample1
#' \item tag2, name tag for sample2
#' \item tagN, name tag for sampleN
#' }
#' }
#' @export
#' @import RSQLite
#' @author Haibo Liu
#' @examples
#' if (interactive()) {
#' library(BSgenome.Mmusculus.UCSC.mm10)
#' genome <- BSgenome.Mmusculus.UCSC.mm10
#' bedgraphs <- system.file("extdata", c(
#' "Baf3.extract.bedgraph",
#' "UM15.extract.bedgraph"
#' ),
#' package = "InPAS"
#' )
#' tags <- c("Baf3", "UM15")
#' metadata <- data.frame(
#' tag = tags,
#' condition = c("Baf3", "UM15"),
#' bedgraph_file = bedgraphs
#' )
#' outdir <- tempdir()
#' write.table(metadata,
#' file = file.path(outdir, "metadata.txt"),
#' sep = "\t", quote = FALSE, row.names = FALSE
#' )
#'
#' sqlite_db <- setup_sqlitedb(
#' metadata = file.path(
#' outdir,
#' "metadata.txt"
#' ),
#' outdir
#' )
#' coverage <- list()
#' addLockName(filename = tempfile())
#' for (i in seq_along(bedgraphs)) {
#' coverage[[tags[i]]] <- get_ssRleCov(
#' bedgraph = bedgraphs[i],
#' tag = tags[i],
#' genome = genome,
#' sqlite_db = sqlite_db,
#' outdir = outdir,
#' chr2exclude = "chrM"
#' )
#' }
#' chr_coverage <- assemble_allCov(sqlite_db,
#' seqname = "chr6",
#' outdir = outdir,
#' genome = genome
#' )
#' }
assemble_allCov <- function(sqlite_db,
seqname,
outdir = getInPASOutputDirectory(),
genome = getInPASGenome()) {
if (!is(genome, "BSgenome")) {
stop("genome must be an object of BSgenome.")
}
if (missing(sqlite_db) || !file.exists(sqlite_db) ||
length(sqlite_db) != 1) {
stop("The sqlite_db length is not 1 or it doesn't exist!")
}
lock_filename <- getLockName()
if (!file.exists(lock_filename)) {
stop(
"lock_filename must be an existing file.",
"Please call addLockName() first!"
)
}
file_lock <- lock(lock_filename)
db_conn <- dbConnect(
drv = RSQLite::SQLite(),
dbname = sqlite_db
)
res <- dbGetQuery(db_conn, "SELECT * FROM sample_coverage;")
dbDisconnect(db_conn)
unlock(file_lock)
if (nrow(res) < 1) {
stop("The sample_coverage table in the sqlite_db is empty")
}
if (!seqname %in% res$chr) {
stop("seqname", seqname, "is not in the sample_coverage table")
}
if (!is.character(outdir) || length(outdir) != 1) {
stop("A directory of write permission is required!")
}
outdir <- file.path(outdir, "003.chromosomewise.RleCov")
if (!dir.exists(outdir)) {
dir.create(outdir, recursive = TRUE)
}
outdir <- normalizePath(outdir, mustWork = TRUE)
seqLen <- get_seqLen(genome)
chr_cov <- list()
for (tag in unique(res$tag)) {
file_name <- res$coverage_file[res$tag == tag &
res$chr == seqname]
if (length(file_name) == 1) {
chr_cov[[seqname]][[tag]] <- readRDS(file_name)
} else {
chr_cov[[seqname]][[tag]] <-
Rle(values = 0, lengths = seqLen[seqname])
}
}
filename_chr <- file.path(
outdir,
paste(seqname,
"RleCov.RDS",
sep = "_"
)
)
## chr_cov: chr_cov[[seqname]][[tag]]
saveRDS(chr_cov, file = filename_chr)
tryCatch(
{
file_lock <- lock(lock_filename)
db_conn <- dbConnect(
drv = RSQLite::SQLite(),
dbname = sqlite_db
)
res <- dbSendStatement(
db_conn,
paste0("DELETE FROM chromosome_coverage
WHERE chr = '", seqname, "';")
)
dbClearResult(res)
res <- dbSendStatement(
db_conn,
paste0("INSERT INTO
chromosome_coverage (chr, coverage_file)
VALUES ('", seqname, "',", "'", filename_chr, "');")
)
dbClearResult(res)
},
error = function(e) {
print(paste(conditionMessage(e)))
},
finally = {
dbDisconnect(db_conn)
unlock(file_lock)
}
)
chr_cov
}
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