Nothing
R/InTADSig.R
In InTAD: Search for correlation between epigenetic signals and gene expression in TADs
# Classes
#' The InTADSig Class
#'
#' The InTADSig object stores signals and gene expression data for the samples.
#'
#' It uses MultiAssayExperiment object to store information. Key slots to access
#' are listed below.
#'
#'
#'@section Slots:
#' \describe{
#' \item{\code{sigMAE}:}{\code{"MultiAssayExperiment"},
#' MultiAssayExperiment object containg signals and gene counts }
#' \item{\code{signalConnections}:}{\code{"list"},
#' The list of signals representing gene data frames in the same TAD }
#' \item{\code{loopsDf}:}{\code{"data.frame"},
#' The data.frame containing details of provided input loops }
#' \item{\code{loopConnections}:}{\code{"list"},
#' The list of connections between signals and genes via loops }
#' \item{\code{ncore}:}{\code{"numeric"},
#' Number of cores to use for parallel computing }#'
#'}
#' @name InTADSig
#' @rdname InTADSig
#' @aliases InTADSig-class
#' @exportClass InTADSig
#'
InTADSig <- setClass("InTADSig",
slots = c(
sigMAE = "MultiAssayExperiment",
signalConnections = "list",
loopsDf = "data.frame",
loopConnections = "list",
ncore = "numeric"
)
)
################################################################################
### Validity check for InTADSig class object
setValidity("InTADSig", function(object) {
msg <- NULL
valid <- TRUE
numSignalSamples <- ncol(signals(object))
numExprSamples <- ncol(exprs(object))
if ( (numSignalSamples != 0) && (numSignalSamples != numExprSamples) ) {
valid <- FALSE
msg <- c(msg, "Number of signal samples doesn't
match number of RNA-seq samples")
}
if ( (length(rowRanges(object@sigMAE[["signals"]])) != 0) &&
!identical(colnames(assay(object@sigMAE[["signals"]])),
colnames(assay(object@sigMAE[["signals"]]))) ) {
valid <- FALSE
msg <- c(msg, "Signal sample names must match RNA-seq sample names")
}
geneGR <- rowRanges(object@sigMAE[["exprs"]])
if (!"gene_id" %in% colnames(values(geneGR)))
stop("Annotation parameter \"gene_id\" is missing!")
if (!"gene_name" %in% colnames(values(geneGR)))
stop("Annotation parameter \"gene_name\" is missing!")
numSameIds = sum(rownames(exprs(object)) == geneGR$gene_id )
if ( numSameIds != length(geneGR))
stop("The \"gene_id\" values in GRanges are not expr matrix row names!")
if (valid) TRUE else msg
})
setMethod('show', signature='InTADSig', definition=function(object) {
cat("S4 InTADSig object\n")
signals <- signals(object)
cat(paste("Num samples:", ncol(signals),"\n"))
cat(paste("Num signals:", nrow(signals), "\n"))
cat(paste("Num genes: ", nrow(exprs(object)), "\n"))
#if (is.na(tads(object)))
# cat(paste("TAD regions are not set"))
#else:
# cat(paste("TAD regions: ", length(tads(object), '\n'))
}
)
#### Methods for extracting slots ###
#' @rdname signals
#' @export
setGeneric('signals', function(object) standardGeneric('signals'))
#' Signal values table
#'
#' This funcion returns the signal values table
#' @param object InTADSig object with signals and genes
#' @return Signals table
#' @rdname signals
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(signals(inTadSig))
#' @export
setMethod('signals', 'InTADSig',
function(object) assay(object@sigMAE[["signals"]]))
#' @rdname sigCoords
#' @export
setGeneric('sigCoords',
function(object) standardGeneric('sigCoords'))
#' Signal coords GRanges
#'
#' This funcion returns the signal GRanges
#' @param object InTADSig object with signals and genes
#' @return Signal GRanges
#' @rdname sigCoords
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(sigCoords(inTadSig))
#' @export
setMethod('sigCoords', 'InTADSig',
function(object) rowRanges(object@sigMAE[["signals"]]))
#' Gene expression counts table
#'
#' This funcion returns gene expression counts table
#' @param object InTADSig object with signals and genes
#' @return Gene expression table
#' @rdname exprs
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(exprs(inTadSig))
#' @export
setMethod('exprs', signature='InTADSig',
definition=function(object) assay(object@sigMAE[["exprs"]]))
# get pairs in TADs
setGeneric('sigLinks', function(object) standardGeneric('sigLinks'))
setMethod('sigLinks', 'InTADSig', function(object) object@signalConnections)
#' @rdname geneCoords
#' @export
setGeneric('geneCoords', function(object) standardGeneric('geneCoords'))
#' Gene coords GRanges
#'
#' This funcion returns the gene GRanges
#' @param object InTADSig object with signals and genes
#' @return Gene GRanges
#' @rdname geneCoords
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(geneCoords(inTadSig))
#' @export
setMethod('geneCoords', 'InTADSig',
function(object) rowRanges(object@sigMAE[["exprs"]]))
Try the InTAD package in your browser
Any scripts or data that you put into this service are public.
InTAD documentation built on Nov. 8, 2020, 7:47 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
# Classes
#' The InTADSig Class
#'
#' The InTADSig object stores signals and gene expression data for the samples.
#'
#' It uses MultiAssayExperiment object to store information. Key slots to access
#' are listed below.
#'
#'
#'@section Slots:
#' \describe{
#' \item{\code{sigMAE}:}{\code{"MultiAssayExperiment"},
#' MultiAssayExperiment object containg signals and gene counts }
#' \item{\code{signalConnections}:}{\code{"list"},
#' The list of signals representing gene data frames in the same TAD }
#' \item{\code{loopsDf}:}{\code{"data.frame"},
#' The data.frame containing details of provided input loops }
#' \item{\code{loopConnections}:}{\code{"list"},
#' The list of connections between signals and genes via loops }
#' \item{\code{ncore}:}{\code{"numeric"},
#' Number of cores to use for parallel computing }#'
#'}
#' @name InTADSig
#' @rdname InTADSig
#' @aliases InTADSig-class
#' @exportClass InTADSig
#'
InTADSig <- setClass("InTADSig",
slots = c(
sigMAE = "MultiAssayExperiment",
signalConnections = "list",
loopsDf = "data.frame",
loopConnections = "list",
ncore = "numeric"
)
)
################################################################################
### Validity check for InTADSig class object
setValidity("InTADSig", function(object) {
msg <- NULL
valid <- TRUE
numSignalSamples <- ncol(signals(object))
numExprSamples <- ncol(exprs(object))
if ( (numSignalSamples != 0) && (numSignalSamples != numExprSamples) ) {
valid <- FALSE
msg <- c(msg, "Number of signal samples doesn't
match number of RNA-seq samples")
}
if ( (length(rowRanges(object@sigMAE[["signals"]])) != 0) &&
!identical(colnames(assay(object@sigMAE[["signals"]])),
colnames(assay(object@sigMAE[["signals"]]))) ) {
valid <- FALSE
msg <- c(msg, "Signal sample names must match RNA-seq sample names")
}
geneGR <- rowRanges(object@sigMAE[["exprs"]])
if (!"gene_id" %in% colnames(values(geneGR)))
stop("Annotation parameter \"gene_id\" is missing!")
if (!"gene_name" %in% colnames(values(geneGR)))
stop("Annotation parameter \"gene_name\" is missing!")
numSameIds = sum(rownames(exprs(object)) == geneGR$gene_id )
if ( numSameIds != length(geneGR))
stop("The \"gene_id\" values in GRanges are not expr matrix row names!")
if (valid) TRUE else msg
})
setMethod('show', signature='InTADSig', definition=function(object) {
cat("S4 InTADSig object\n")
signals <- signals(object)
cat(paste("Num samples:", ncol(signals),"\n"))
cat(paste("Num signals:", nrow(signals), "\n"))
cat(paste("Num genes: ", nrow(exprs(object)), "\n"))
#if (is.na(tads(object)))
# cat(paste("TAD regions are not set"))
#else:
# cat(paste("TAD regions: ", length(tads(object), '\n'))
}
)
#### Methods for extracting slots ###
#' @rdname signals
#' @export
setGeneric('signals', function(object) standardGeneric('signals'))
#' Signal values table
#'
#' This funcion returns the signal values table
#' @param object InTADSig object with signals and genes
#' @return Signals table
#' @rdname signals
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(signals(inTadSig))
#' @export
setMethod('signals', 'InTADSig',
function(object) assay(object@sigMAE[["signals"]]))
#' @rdname sigCoords
#' @export
setGeneric('sigCoords',
function(object) standardGeneric('sigCoords'))
#' Signal coords GRanges
#'
#' This funcion returns the signal GRanges
#' @param object InTADSig object with signals and genes
#' @return Signal GRanges
#' @rdname sigCoords
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(sigCoords(inTadSig))
#' @export
setMethod('sigCoords', 'InTADSig',
function(object) rowRanges(object@sigMAE[["signals"]]))
#' Gene expression counts table
#'
#' This funcion returns gene expression counts table
#' @param object InTADSig object with signals and genes
#' @return Gene expression table
#' @rdname exprs
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(exprs(inTadSig))
#' @export
setMethod('exprs', signature='InTADSig',
definition=function(object) assay(object@sigMAE[["exprs"]]))
# get pairs in TADs
setGeneric('sigLinks', function(object) standardGeneric('sigLinks'))
setMethod('sigLinks', 'InTADSig', function(object) object@signalConnections)
#' @rdname geneCoords
#' @export
setGeneric('geneCoords', function(object) standardGeneric('geneCoords'))
#' Gene coords GRanges
#'
#' This funcion returns the gene GRanges
#' @param object InTADSig object with signals and genes
#' @return Gene GRanges
#' @rdname geneCoords
#' @examples
#' inTadSig <- newSigInTAD(enhSel, enhSelGR, rpkmCountsSel, txsSel)
#' head(geneCoords(inTadSig))
#' @export
setMethod('geneCoords', 'InTADSig',
function(object) rowRanges(object@sigMAE[["exprs"]]))
Try the InTAD package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.