Nothing
#' @include RNAmodR.R
NULL
# Annotation -------------------------------------------------------------------
#' @importFrom rtracklayer GFF3File
.norm_gff <- function(x, className, .xname = .get_name_in_parent(x)){
if(!is(x,"GFF3File")){
x <- try(rtracklayer::GFF3File(x), silent = TRUE)
if (is(x, "try-error")){
stop("To create a ",className," object, '",.xname,"' must be a GFF3File ",
"object or be coercible to one.",
call. = FALSE)
}
}
if(!all(file.exists(BiocGenerics::path(x)))){
stop("The gff3 file does not exist at the given location.",
call. = FALSE)
}
x
}
#' @importFrom GenomicFeatures makeTxDbFromGFF
# Returns a TxDb or a GRangesList object
.norm_annotation <- function(annotation, className,
.annotationname = .get_name_in_parent(annotation)){
if(!is(annotation,"GRangesList")){
if(!is(annotation,"GFFFile") && !is(annotation,"TxDb")){
annotation <- .norm_gff(annotation, className, .annotationname)
} else if(is(annotation,"GFFFile")) {
if(!.all_are_existing_files(c(BiocGenerics::path(annotation)))){
stop("annotation files don't exist or cannot be accessed.",
call. = FALSE)
}
} else if(is(annotation,"TxDb")) {
if(!all(validObject(annotation))){
stop(".")
}
} else {
stop("Something went wrong. Unrecognized annotation input during ",
"creation of class '",className,"'.",
call. = FALSE)
}
if(!is(annotation,"TxDb")){
annotation <- GenomicFeatures::makeTxDbFromGFF(annotation)
}
} else {
annotation <- .norm_annotation_GRangesList(annotation)
}
annotation
}
.norm_annotation_GRangesList <- function(annotation){
if(is.null(names(annotation))){
stop("Elements of 'annotation' GRangesList must be named.")
}
if(any(duplicated(names(annotation)))){
stop("Names of elements in 'annotation' GRangesList must be unique.")
}
if("*" %in% unique(unlist(IRanges::CharacterList(strand(annotation))))){
stop("Invalid strand information. Strand must either be '+' or '-'.")
}
overlap_counts <- unique(unlist(lapply(annotation,countOverlaps)))
if(overlap_counts != 1L){
stop("'annotation' GRangesList must contain only non-overlapping elements.")
}
annotation
}
# Sequences --------------------------------------------------------------------
#' @importFrom Rsamtools FaFile
# Either return a FaFile or BSgenome object
.norm_sequences <- function(seq, className){
if(!is(seq,"FaFile") && !is(seq,"BSgenome")){
tmp <- try(Rsamtools::FaFile(seq))
if(is(tmp,"try-error")){
stop("Input is not a FaFile and could not be coerced to one during ",
"creation of class '",className,"'.",
call. = FALSE)
}
seq <- tmp
if(!.all_are_existing_files(c(BiocGenerics::path(seq)))){
stop("sequence files don't exist or cannot be accessed.",
call. = FALSE)
}
} else if(is(seq,"FaFile")) {
if(!.all_are_existing_files(c(BiocGenerics::path(seq)))){
stop("sequence files don't exist or cannot be accessed.",
call. = FALSE)
}
} else if(is(seq,"BSgenome")) {
if(!all(validObject(seq))){
stop(".")
}
} else {
stop("Something went wrong. Unrecognized sequence input during creation of",
" class '",className,"'.",
call. = FALSE)
}
seq
}
# BamFiles ---------------------------------------------------------------------
SAMPLE_TYPES <- c("treated","control")
#' @importFrom Rsamtools BamFileList
.norm_bamfiles <- function(x, className,
.xname = .get_name_in_parent(x)){
if(is.list(x)){
if(!is.character(x[[1]]) && !is(x[[1]],"BamFile")){
ans <- lapply(x, .norm_bamfiles, className, .xname)
names(ans) <- names(x)
return(ans)
}
}
if(!is(x,"BamFileList")){
tmp <- try(Rsamtools::BamFileList(x), silent = TRUE)
if (is(tmp, "try-error")){
stop("To create a ",className," object, '",.xname,"' must be a ",
"BamFileList object or be coercible to one.",
call. = FALSE)
}
x <- tmp
}
if(length(x) == 0L){
stop("BamFileList is empty.",
call. = FALSE)
}
if(!all(file.exists(BiocGenerics::path(x)))){
stop("Bam files do not exists at the given locations.",
call. = FALSE)
}
if(is.null(names(x))){
stop("Names of BamFileList must either be 'treated' or 'control' (case ",
"insensitive). No names found.")
}
x_names <- tolower(unique(names(x)))
if(!all(x_names %in% SAMPLE_TYPES)){
stop("Names of BamFileList must either be 'treated' or 'control' (case ",
"insensitive).",
call. = FALSE)
}
names(x) <- tolower(names(x))
x
}
#' @importFrom Rsamtools BamFileList scanBamHeader
# retrieve a Seqinfo object from the bam headers
.bam_header_to_seqinfo <- function(bfl){
if(is(bfl,"BamFile")){
bfl <- Rsamtools::BamFileList(bfl)
} else if(!is(bfl,"BamFileList")){
message <- "BamFileList or list of BamFileList required."
if(!is.list(bfl)){
stop(message)
}
test <- !vapply(bfl,is,logical(1),"BamFileList")
if(any(test)){
stop(message)
}
}
if(is.list(bfl)){
headers <- lapply(bfl,
function(l){
lapply(l,Rsamtools::scanBamHeader)
})
headers <- unlist(headers)
} else {
headers <- lapply(bfl,Rsamtools::scanBamHeader)
}
targets <- lapply(headers,"[[","targets")
targets <- unique(do.call(c,lapply(unname(targets),names)))
seqinfo <- GenomeInfoDb::Seqinfo(targets)
seqinfo
}
# Misc -------------------------------------------------------------------------
# try to coerce the input to a Seqinfo object
.norm_seqinfo <- function(seqinfo){
if(!is(seqinfo,"Seqinfo")){
tmp <- try(GenomeInfoDb::Seqinfo(seqinfo), silent = TRUE)
if(is(tmp,"try-error")){
stop("Input is not a Seqinfo object and could not be coerced to ",
"one.",
call. = FALSE)
}
seqinfo <- tmp
}
seqinfo
}
# Retrieve the intersection of seqnames in annotation, sequence and seqinfo
# data
#' @importFrom BSgenome seqnames
#' @importFrom Rsamtools scanFa
.norm_seqnames <- function(bamfiles, annotation, sequences, seqinfo, className){
if(missing(seqinfo)){
seqinfo <- NULL
}
# norm seqinfo
if(is.null(seqinfo) ||
(!is(seqinfo,"Seqinfo") && (is.na(seqinfo)))){
seqinfo <- .bam_header_to_seqinfo(bamfiles)
}
if(!is(seqinfo,"Seqinfo") &&
(is(seqinfo,"BamFile") | is(seqinfo,"BamFileList"))){
seqinfo <- .bam_header_to_seqinfo(seqinfo)
}
if(!is(seqinfo,"Seqinfo")){
seqinfo <- .norm_seqinfo(seqinfo)
}
# norm annotation
if(!is(annotation,"GRangesList") & !is(annotation,"TxDb")){
stop("")
}
if(!is(sequences,"FaFile") & !is(sequences,"BSgenome")){
stop("")
}
# norm sequences input
if(is(sequences,"FaFile")){
seq_seqnames <- names(Rsamtools::scanFa(sequences))
} else {
seq_seqnames <- BSgenome::seqnames(sequences)
}
seq_seqnames <-
seq_seqnames[seq_seqnames %in% GenomeInfoDb::seqlevels(annotation)]
seq_seqnames <-
seq_seqnames[seq_seqnames %in% GenomeInfoDb::seqnames(seqinfo)]
if( length(seqnames) == 0L ) {
stop("No intersection between chromosome names in fasta, ",
"annotation and seqinfo data.",
call. = FALSE)
}
return(seqinfo)
}
# Modifiertype -----------------------------------------------------------------
# check if a class of type x exists
.norm_modifiertype <- function(x){
if(x == ""){
stop("Empty string.")
}
class <- try(getClass(x), silent = TRUE)
if (is(class, "try-error")){
stop("Class '",x,"' is not implemented.",
call. = FALSE)
}
if(isVirtualClass(class)){
stop("Class '",x,"' is virtual.")
}
if(!("Modifier" %in% extends(class))){
stop("Class '",x,"' does not extend the 'Modifier' class.")
}
nameId <- gregexpr("Mod",class@className)[[1]]
if(any(nameId < 0L) || length(nameId) == 0L){
stop("Invalid class name of Modifier class: the string 'Mod' must be ",
"present once at the front of the class name.",
call. = FALSE)
}
if(length(nameId) > 1L || nameId[1L] != 1L ||
attr(nameId,"match.length")[1L] != 3L){
stop("Invalid class name of Modifier class: the string 'Mod' can only be ",
"present once at the front of the class name.",
call. = FALSE)
}
x
}
.norm_mod <- function(x){
modType <- modType(x)
f <- .is_valid_modType(modType, seqtype(x))
if(length(which(f)) != length(modType)){
stop("Modification '",modType[!f],"' as defined for ",class(x)," does not ",
"exist in the Modstrings dictionary for modified RNA/DNA sequences.",
call. = FALSE)
}
modType
}
# check data validity ----------------------------------------------------------
.norm_sequence_data <- function(data){
if(any(lengths(rownames(data)) == 0L)){
stop("Sequence data does not contain rownames.")
}
data
}
.norm_aggregate_data <- function(data){
if(any(lengths(rownames(data)) == 0L)){
stop("Aggregated data does not contain rownames.")
}
data
}
# conditions and replicates ----------------------------------------------------
.norm_conditions <- function(x){
conditions <- conditions(x)
if(is(x,"SequenceDataList")){
conditions <- conditions[[1L]]
}
conditions
}
.norm_replicates <- function(x){
replicates <- replicates(x)
if(is(x,"SequenceDataList")){
replicates <- replicates[[1L]]
}
replicates
}
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