R/bambu-processReads.R
In GoekeLab/bambu: Context-Aware Transcript Quantification from Long Read RNA-Seq data
Defines functions
seqlevelCheckReadsAnnotation
lowMemoryConstructReadClasses
bambu.processReadsByFile
bambu.processReads
#' process reads
#' @param reads path to BAM file(s)
#' @param annotations path to GTF file or TxDb object
#' @param genomeSequence path to FA file or BSgenome object
#' @param readClass.outputDir path to readClass output directory
#' @param yieldSize yieldSize
#' @param bpParameters BioParallel parameter
#' @param stranded stranded
#' @param verbose verbose
#' @importFrom Rsamtools yieldSize BamFileList yieldSize<-
#' @importFrom methods is
#' @importFrom BiocParallel bplapply
#' @importFrom BiocGenerics basename
#' @noRd
bambu.processReads <- function(reads, annotations, genomeSequence,
readClass.outputDir=NULL, yieldSize=1000000, bpParameters,
stranded=FALSE, verbose=FALSE, isoreParameters = setIsoreParameters(NULL),
lowMemory=FALSE, trackReads = trackReads, fusionMode = fusionMode) {
genomeSequence <- checkInputSequence(genomeSequence)
# ===# create BamFileList object from character #===#
if (is(reads, "BamFile")) {
if (!is.null(yieldSize)) {
yieldSize(reads) <- yieldSize
} else {
yieldSize <- yieldSize(reads)
}
reads <- BamFileList(reads)
names(reads) <- tools::file_path_sans_ext(BiocGenerics::basename(reads))
} else if (is(reads, "BamFileList")) {
if (!is.null(yieldSize)) {
yieldSize(reads) <- yieldSize
} else {
yieldSize <- min(yieldSize(reads))
}
} else if (any(!grepl("\\.bam$", reads))) {
stop("Bam file is missing from arguments.")
} else {
if (is.null(yieldSize)) yieldSize <- NA
reads <- BamFileList(reads, yieldSize = yieldSize)
names(reads) <- tools::file_path_sans_ext(BiocGenerics::basename(reads))
}
min.readCount = isoreParameters[["min.readCount"]]
fitReadClassModel = isoreParameters[["fitReadClassModel"]]
defaultModels = isoreParameters[["defaultModels"]]
returnModel = isoreParameters[["returnModel"]]
min.exonOverlap = isoreParameters[["min.exonOverlap"]]
readClassList <- bplapply(names(reads), function(bamFileName) {
bambu.processReadsByFile(bam.file = reads[bamFileName],
genomeSequence = genomeSequence,annotations = annotations,
readClass.outputDir = readClass.outputDir,
stranded = stranded, min.readCount = min.readCount,
fitReadClassModel = fitReadClassModel, min.exonOverlap = min.exonOverlap,
defaultModels = defaultModels, returnModel = returnModel, verbose = verbose,
lowMemory = lowMemory, trackReads = trackReads, fusionMode = fusionMode)},
BPPARAM = bpParameters)
return(readClassList)
}
#' Preprocess bam files and save read class files
#' @inheritParams bambu
#' @importFrom GenomeInfoDb seqlevels seqlevels<- keepSeqlevels
#' @noRd
bambu.processReadsByFile <- function(bam.file, genomeSequence, annotations,
readClass.outputDir = NULL, stranded = FALSE, min.readCount = 2,
fitReadClassModel = TRUE, min.exonOverlap = 10, defaultModels = NULL, returnModel = FALSE,
verbose = FALSE, lowMemory = FALSE, trackReads = FALSE, fusionMode = FALSE) {
if(verbose) message(names(bam.file)[1])
readGrgList <- prepareDataFromBam(bam.file[[1]], verbose = verbose, use.names = trackReads)
warnings = c()
warnings = seqlevelCheckReadsAnnotation(readGrgList, annotations)
if(verbose & length(warnings) > 0) warning(paste(warnings,collapse = "\n"))
#check seqlevels for consistency, drop ranges not present in genomeSequence
refSeqLevels <- seqlevels(genomeSequence)
if (!all(seqlevels(readGrgList) %in% refSeqLevels)) {
refSeqLevels <- intersect(refSeqLevels, seqlevels(readGrgList))
if (!all(seqlevels(annotations) %in% refSeqLevels)&(!(length(annotations)==0))) {
refSeqLevels <- intersect(refSeqLevels, seqlevels(annotations))
warningText = paste0("not all chromosomes from annotations present in ",
"reference genome sequence, annotations without reference genomic sequence ",
"are dropped")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
annotations <- keepSeqlevels(annotations, value = refSeqLevels,
pruning.mode = "coarse")
}
warningText = paste0("not all chromosomes from reads present in reference ",
"genome sequence, reads without reference chromosome sequence are dropped")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
readGrgList <- keepSeqlevels(readGrgList, value = refSeqLevels,
pruning.mode = "coarse")
# reassign Ids after seqlevels are dropped
mcols(readGrgList)$id <- seq_along(readGrgList)
}
#removes reads that are outside genome coordinates
badReads = which(max(end(ranges(readGrgList)))>=
seqlengths(genomeSequence)[as.character(getChrFromGrList(readGrgList))])
if(length(badReads) > 0 ){
readGrgList = readGrgList[-badReads]
warningText = paste0(length(badReads), " reads are mapped outside the provided ",
"genomic regions. These reads will be dropped. Check you are using the ",
"same genome used for the alignment")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
}
if(length(readGrgList) == 0) {
stop("No reads left after filtering.")
}
# construct read classes for each chromosome seperately
if(lowMemory) se <- lowMemoryConstructReadClasses(readGrgList, genomeSequence,
annotations, stranded, verbose,bam.file)
else {
unlisted_junctions <- unlistIntrons(readGrgList, use.ids = TRUE)
if(length(unlisted_junctions)==0){
warningText = paste0("No aligned spliced reads detected!",
"Bambu expects spliced reads. If this is intended, ",
"see Documentation on how to handle single-exon ",
"transcripts")
warnings = c(warnings, warningText)
if (verbose) warning(warningText)
}
uniqueJunctions <- isore.constructJunctionTables(unlisted_junctions,
annotations,genomeSequence, stranded = stranded, verbose = verbose)
# create SE object with reconstructed readClasses
se <- isore.constructReadClasses(readGrgList, unlisted_junctions,
uniqueJunctions, runName = names(bam.file)[1],
annotations, stranded, verbose)
}
metadata(se)$warnings = warnings
if(trackReads){
metadata(se)$readNames = names(readGrgList)
metadata(se)$readId = mcols(readGrgList)$id
}
rm(readGrgList)
GenomeInfoDb::seqlevels(se) <- refSeqLevels
# create SE object with reconstructed readClasses
se <- scoreReadClasses(se,genomeSequence, annotations,
defaultModels = defaultModels,
fit = fitReadClassModel,
returnModel = returnModel,
min.readCount = min.readCount,
min.exonOverlap = min.exonOverlap,
fusionMode = fusionMode,
verbose = verbose)
if (!is.null(readClass.outputDir)) {
readClassFile <- paste0(readClass.outputDir,names(bam.file),
"_readClassSe.rds")
if (file.exists(readClassFile)) {
show(paste(readClassFile, "exists, will be overwritten"))
warning(readClassFile, "exists, will be overwritten")
} else {
readClassFile <- BiocFileCache::bfcnew(BiocFileCache::BiocFileCache(
readClass.outputDir, ask = FALSE),
paste0(names(bam.file),"_readClassSe"), ext = ".rds")
}
saveRDS(se, file = readClassFile)
se <- readClassFile
}
return(se)
}
lowMemoryConstructReadClasses <- function(readGrgList, genomeSequence,
annotations, stranded, verbose,bam.file){
readGrgList = split(readGrgList, getChrFromGrList(readGrgList))
se = lapply(names(readGrgList),FUN = function(i){
if(length(readGrgList[[i]]) == 0) return(NULL)
# create error and strand corrected junction tables
unlisted_junctions <- unlistIntrons(readGrgList[[i]], use.ids = TRUE)
uniqueJunctions <- isore.constructJunctionTables(unlisted_junctions,
annotations,genomeSequence, stranded = stranded, verbose = verbose)
se.temp <- isore.constructReadClasses(readGrgList[[i]],
unlisted_junctions, uniqueJunctions, runName = names(bam.file)[1],
annotations, stranded, verbose)
return(se.temp)
})
se = se[!sapply(se, FUN = is.null)]
se = do.call("rbind",se)
rownames(se) = paste("rc", seq_len(nrow(se)), sep = ".")
return(se)
}
#' Check seqlevels for reads and annotations
#' @importFrom GenomeInfoDb seqlevels
#' @noRd
seqlevelCheckReadsAnnotation <- function(reads, annotations){
warnings = c()
if (length(intersect(seqlevels(reads),
seqlevels(annotations))) == 0)
warnings = c(warnings, paste0("no annotations with matching seqlevel styles, ",
"all missing chromosomes will use de-novo annotations"))
if (!all(seqlevels(reads) %in%
seqlevels(annotations)))
warnings = c(warnings, paste0("not all chromosomes present in reference annotations, ",
"annotations might be incomplete. Please compare objects ",
"on the same reference"))
return(warnings)
}
GoekeLab/bambu documentation built on April 6, 2024, 10:36 p.m.
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Defines functions seqlevelCheckReadsAnnotation lowMemoryConstructReadClasses bambu.processReadsByFile bambu.processReads
#' process reads
#' @param reads path to BAM file(s)
#' @param annotations path to GTF file or TxDb object
#' @param genomeSequence path to FA file or BSgenome object
#' @param readClass.outputDir path to readClass output directory
#' @param yieldSize yieldSize
#' @param bpParameters BioParallel parameter
#' @param stranded stranded
#' @param verbose verbose
#' @importFrom Rsamtools yieldSize BamFileList yieldSize<-
#' @importFrom methods is
#' @importFrom BiocParallel bplapply
#' @importFrom BiocGenerics basename
#' @noRd
bambu.processReads <- function(reads, annotations, genomeSequence,
readClass.outputDir=NULL, yieldSize=1000000, bpParameters,
stranded=FALSE, verbose=FALSE, isoreParameters = setIsoreParameters(NULL),
lowMemory=FALSE, trackReads = trackReads, fusionMode = fusionMode) {
genomeSequence <- checkInputSequence(genomeSequence)
# ===# create BamFileList object from character #===#
if (is(reads, "BamFile")) {
if (!is.null(yieldSize)) {
yieldSize(reads) <- yieldSize
} else {
yieldSize <- yieldSize(reads)
}
reads <- BamFileList(reads)
names(reads) <- tools::file_path_sans_ext(BiocGenerics::basename(reads))
} else if (is(reads, "BamFileList")) {
if (!is.null(yieldSize)) {
yieldSize(reads) <- yieldSize
} else {
yieldSize <- min(yieldSize(reads))
}
} else if (any(!grepl("\\.bam$", reads))) {
stop("Bam file is missing from arguments.")
} else {
if (is.null(yieldSize)) yieldSize <- NA
reads <- BamFileList(reads, yieldSize = yieldSize)
names(reads) <- tools::file_path_sans_ext(BiocGenerics::basename(reads))
}
min.readCount = isoreParameters[["min.readCount"]]
fitReadClassModel = isoreParameters[["fitReadClassModel"]]
defaultModels = isoreParameters[["defaultModels"]]
returnModel = isoreParameters[["returnModel"]]
min.exonOverlap = isoreParameters[["min.exonOverlap"]]
readClassList <- bplapply(names(reads), function(bamFileName) {
bambu.processReadsByFile(bam.file = reads[bamFileName],
genomeSequence = genomeSequence,annotations = annotations,
readClass.outputDir = readClass.outputDir,
stranded = stranded, min.readCount = min.readCount,
fitReadClassModel = fitReadClassModel, min.exonOverlap = min.exonOverlap,
defaultModels = defaultModels, returnModel = returnModel, verbose = verbose,
lowMemory = lowMemory, trackReads = trackReads, fusionMode = fusionMode)},
BPPARAM = bpParameters)
return(readClassList)
}
#' Preprocess bam files and save read class files
#' @inheritParams bambu
#' @importFrom GenomeInfoDb seqlevels seqlevels<- keepSeqlevels
#' @noRd
bambu.processReadsByFile <- function(bam.file, genomeSequence, annotations,
readClass.outputDir = NULL, stranded = FALSE, min.readCount = 2,
fitReadClassModel = TRUE, min.exonOverlap = 10, defaultModels = NULL, returnModel = FALSE,
verbose = FALSE, lowMemory = FALSE, trackReads = FALSE, fusionMode = FALSE) {
if(verbose) message(names(bam.file)[1])
readGrgList <- prepareDataFromBam(bam.file[[1]], verbose = verbose, use.names = trackReads)
warnings = c()
warnings = seqlevelCheckReadsAnnotation(readGrgList, annotations)
if(verbose & length(warnings) > 0) warning(paste(warnings,collapse = "\n"))
#check seqlevels for consistency, drop ranges not present in genomeSequence
refSeqLevels <- seqlevels(genomeSequence)
if (!all(seqlevels(readGrgList) %in% refSeqLevels)) {
refSeqLevels <- intersect(refSeqLevels, seqlevels(readGrgList))
if (!all(seqlevels(annotations) %in% refSeqLevels)&(!(length(annotations)==0))) {
refSeqLevels <- intersect(refSeqLevels, seqlevels(annotations))
warningText = paste0("not all chromosomes from annotations present in ",
"reference genome sequence, annotations without reference genomic sequence ",
"are dropped")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
annotations <- keepSeqlevels(annotations, value = refSeqLevels,
pruning.mode = "coarse")
}
warningText = paste0("not all chromosomes from reads present in reference ",
"genome sequence, reads without reference chromosome sequence are dropped")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
readGrgList <- keepSeqlevels(readGrgList, value = refSeqLevels,
pruning.mode = "coarse")
# reassign Ids after seqlevels are dropped
mcols(readGrgList)$id <- seq_along(readGrgList)
}
#removes reads that are outside genome coordinates
badReads = which(max(end(ranges(readGrgList)))>=
seqlengths(genomeSequence)[as.character(getChrFromGrList(readGrgList))])
if(length(badReads) > 0 ){
readGrgList = readGrgList[-badReads]
warningText = paste0(length(badReads), " reads are mapped outside the provided ",
"genomic regions. These reads will be dropped. Check you are using the ",
"same genome used for the alignment")
warnings = c(warnings, warningText)
if(verbose) warning(warningText)
}
if(length(readGrgList) == 0) {
stop("No reads left after filtering.")
}
# construct read classes for each chromosome seperately
if(lowMemory) se <- lowMemoryConstructReadClasses(readGrgList, genomeSequence,
annotations, stranded, verbose,bam.file)
else {
unlisted_junctions <- unlistIntrons(readGrgList, use.ids = TRUE)
if(length(unlisted_junctions)==0){
warningText = paste0("No aligned spliced reads detected!",
"Bambu expects spliced reads. If this is intended, ",
"see Documentation on how to handle single-exon ",
"transcripts")
warnings = c(warnings, warningText)
if (verbose) warning(warningText)
}
uniqueJunctions <- isore.constructJunctionTables(unlisted_junctions,
annotations,genomeSequence, stranded = stranded, verbose = verbose)
# create SE object with reconstructed readClasses
se <- isore.constructReadClasses(readGrgList, unlisted_junctions,
uniqueJunctions, runName = names(bam.file)[1],
annotations, stranded, verbose)
}
metadata(se)$warnings = warnings
if(trackReads){
metadata(se)$readNames = names(readGrgList)
metadata(se)$readId = mcols(readGrgList)$id
}
rm(readGrgList)
GenomeInfoDb::seqlevels(se) <- refSeqLevels
# create SE object with reconstructed readClasses
se <- scoreReadClasses(se,genomeSequence, annotations,
defaultModels = defaultModels,
fit = fitReadClassModel,
returnModel = returnModel,
min.readCount = min.readCount,
min.exonOverlap = min.exonOverlap,
fusionMode = fusionMode,
verbose = verbose)
if (!is.null(readClass.outputDir)) {
readClassFile <- paste0(readClass.outputDir,names(bam.file),
"_readClassSe.rds")
if (file.exists(readClassFile)) {
show(paste(readClassFile, "exists, will be overwritten"))
warning(readClassFile, "exists, will be overwritten")
} else {
readClassFile <- BiocFileCache::bfcnew(BiocFileCache::BiocFileCache(
readClass.outputDir, ask = FALSE),
paste0(names(bam.file),"_readClassSe"), ext = ".rds")
}
saveRDS(se, file = readClassFile)
se <- readClassFile
}
return(se)
}
lowMemoryConstructReadClasses <- function(readGrgList, genomeSequence,
annotations, stranded, verbose,bam.file){
readGrgList = split(readGrgList, getChrFromGrList(readGrgList))
se = lapply(names(readGrgList),FUN = function(i){
if(length(readGrgList[[i]]) == 0) return(NULL)
# create error and strand corrected junction tables
unlisted_junctions <- unlistIntrons(readGrgList[[i]], use.ids = TRUE)
uniqueJunctions <- isore.constructJunctionTables(unlisted_junctions,
annotations,genomeSequence, stranded = stranded, verbose = verbose)
se.temp <- isore.constructReadClasses(readGrgList[[i]],
unlisted_junctions, uniqueJunctions, runName = names(bam.file)[1],
annotations, stranded, verbose)
return(se.temp)
})
se = se[!sapply(se, FUN = is.null)]
se = do.call("rbind",se)
rownames(se) = paste("rc", seq_len(nrow(se)), sep = ".")
return(se)
}
#' Check seqlevels for reads and annotations
#' @importFrom GenomeInfoDb seqlevels
#' @noRd
seqlevelCheckReadsAnnotation <- function(reads, annotations){
warnings = c()
if (length(intersect(seqlevels(reads),
seqlevels(annotations))) == 0)
warnings = c(warnings, paste0("no annotations with matching seqlevel styles, ",
"all missing chromosomes will use de-novo annotations"))
if (!all(seqlevels(reads) %in%
seqlevels(annotations)))
warnings = c(warnings, paste0("not all chromosomes present in reference annotations, ",
"annotations might be incomplete. Please compare objects ",
"on the same reference"))
return(warnings)
}
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