R/logNormCounts.R
In LTLA/scuttle: Single-Cell RNA-Seq Analysis Utilities
Defines functions
.se_lnc
#' Compute log-normalized expression values
#'
#' Compute log-transformed normalized expression values from a count matrix in a \linkS4class{SingleCellExperiment} object.
#'
#' @param x A \linkS4class{SingleCellExperiment} or \linkS4class{SummarizedExperiment} object containing a count matrix.
#' @inheritParams normalizeCounts
#' @param use.altexps,use_altexps Deprecated, use \code{\link{applySCE}} instead (see Examples).
#' @param ... For the generic, additional arguments passed to specific methods.
#'
#' For the methods, additional arguments passed to \code{\link{normalizeCounts}}.
#' @param name String containing an assay name for storing the output normalized values.
#' Defaults to \code{"logcounts"} when \code{transform="log"}, \code{"ashcounts"} when \code{transform="asinh"}, and \code{"normcounts"} otherwise.
#' @param BPPARAM A \linkS4class{BiocParallelParam} object specifying how library size factor calculations should be parallelized.
#' Only used if \code{size.factors} is not specified.
#' @param size_factors,pseudo_count,center_size_factors,exprs_values Deprecated.
#'
#' @details
#' This function is a convenience wrapper around \code{\link{normalizeCounts}}.
#' It returns a \linkS4class{SingleCellExperiment} or \linkS4class{SummarizedExperiment} containing the normalized values in a separate assay.
#' This makes it easier to perform normalization by avoiding book-keeping errors during a long analysis workflow.
#'
#' If \code{NULL}, size factors are determined as described in \code{\link{normalizeCounts}}.
#' \code{subset.row} and \code{normalize.all} have the same interpretation as for \code{\link{normalizeCounts}}.
#'
#' If \code{x} is a SingleCellExperiment, normalization is not applied to any alternative Experiments.
#' Users can call \code{\link{applySCE}} to perform the normalization on each alternative Experiment - see Examples.
#' Any Experiment-specific size factors will be automatically used, otherwise library size-based factors will be derived from the column sums.
#'
#' @return
#' \code{x} is returned containing the (log-)normalized expression values in an additional assay named as \code{name}.
#'
#' If \code{x} is a \linkS4class{SingleCellExperiment}, the size factors used for normalization are stored in \code{\link{sizeFactors}}.
#' These are centered if \code{center.size.factors=TRUE}.
#'
#' @author Aaron Lun, based on code by Davis McCarthy
#' @seealso
#' \code{\link{normalizeCounts}}, which is used to compute the normalized expression values.
#'
#' @examples
#' example_sce <- mockSCE()
#'
#' # Standard library size normalization:
#' example_sce2 <- logNormCounts(example_sce)
#' assayNames(example_sce2)
#' logcounts(example_sce2)[1:5,1:5]
#'
#' # Without logging, the assay is 'normcounts':
#' example_sce2 <- logNormCounts(example_sce, log=FALSE)
#' assayNames(example_sce2)
#' normcounts(example_sce2)[1:5,1:5]
#'
#' # Pre-loading with size factors:
#' example_sce2 <- computeMedianFactors(example_sce)
#' example_sce2 <- logNormCounts(example_sce2)
#' logcounts(example_sce2)[1:5,1:5]
#'
#' # Also normalizing the alternative experiments:
#' example_sce2 <- applySCE(example_sce, logNormCounts)
#' logcounts(altExp(example_sce2))[1:5,1:5]
#'
#' @name logNormCounts
NULL
#' @export
#' @rdname logNormCounts
setGeneric("logNormCounts", function(x, ...) standardGeneric("logNormCounts"))
#' @export
#' @rdname logNormCounts
#' @importClassesFrom SummarizedExperiment SummarizedExperiment
setMethod("logNormCounts", "SummarizedExperiment", function(x, size.factors=NULL,
log=NULL, transform=c("log", "none", "asinh"), pseudo.count=1,
center.size.factors=TRUE, ..., subset.row=NULL, normalize.all=FALSE,
assay.type="counts", name=NULL, BPPARAM=SerialParam(),
size_factors=NULL, pseudo_count=NULL, center_size_factors=NULL, exprs_values=NULL)
{
size.factors <- .replace(size.factors, size_factors)
pseudo.count <- .replace(pseudo.count, pseudo_count)
center.size.factors <- .replace(center.size.factors, center_size_factors)
assay.type <- .replace(assay.type, exprs_values)
transform <- .choose_transform(log, match.arg(transform))
if (!is.null(subset.row) && !normalize.all) {
x <- x[subset.row,,drop=FALSE]
subset.row <- NULL
}
FUN <- .se_lnc(assay.type=assay.type, transform=transform, pseudo.count=pseudo.count, ...,
normalize.all=normalize.all, subset.row=subset.row, name=name, BPPARAM=BPPARAM)
FUN(x, size.factors=size.factors, center.size.factors=center.size.factors)
})
#' @importFrom SummarizedExperiment assay<-
.se_lnc <- function(assay.type, transform, pseudo.count, ..., name) {
args <- list(..., assay.type=assay.type, transform=transform, pseudo.count=pseudo.count)
if (is.null(name)) {
name <- switch(transform,
none="normcounts",
log="logcounts",
asinh="ashcounts"
)
}
function(x, ...) {
out <- do.call(normalizeCounts, c(list(x, ...), args))
assay(x, name) <- out
x
}
}
#' @export
#' @rdname logNormCounts
#' @importFrom BiocGenerics sizeFactors sizeFactors<-
#' @importFrom SingleCellExperiment altExp altExp<- int_metadata int_metadata<-
#' @importClassesFrom SingleCellExperiment SingleCellExperiment
setMethod("logNormCounts", "SingleCellExperiment", function(x, size.factors=sizeFactors(x),
log=NULL, transform=c("log", "none", "asinh"), pseudo.count=1,
center.size.factors=TRUE, ..., subset.row=NULL, normalize.all=FALSE,
assay.type="counts", use.altexps=FALSE, name=NULL, BPPARAM=SerialParam(),
size_factors=NULL, pseudo_count=NULL, center_size_factors=NULL, exprs_values=NULL, use_altexps=NULL)
{
size.factors <- .replace(size.factors, size_factors)
pseudo.count <- .replace(pseudo.count, pseudo_count)
center.size.factors <- .replace(center.size.factors, center_size_factors)
use.altexps <- .replace(use.altexps, use_altexps)
assay.type <- .replace(assay.type, exprs_values)
transform <- .choose_transform(log, match.arg(transform))
if (!is.null(subset.row) && !normalize.all) {
x <- x[subset.row,,drop=FALSE]
subset.row <- NULL
}
# Guarantee that we store (centered) size factors in the output matrix.
if (is.null(size.factors)) {
size.factors <- librarySizeFactors(x, assay.type=assay.type, BPPARAM=BPPARAM, subset.row=subset.row)
}
size.factors <- .center.size.factors(size.factors, center.size.factors)
sizeFactors(x) <- size.factors
# Set center.size.factors=FALSE, as we've already centered above.
FUN <- .se_lnc(assay.type=assay.type, transform=transform, pseudo.count=pseudo.count, ..., name=name)
x <- FUN(x, size.factors=size.factors, center.size.factors=FALSE)
if (transform=="log") {
if (is.null(int_metadata(x)$scater)) {
int_metadata(x)$scater <- list()
}
int_metadata(x)$scater$pseudo.count <- pseudo.count
}
if (!is.null(use.altexps) && !isFALSE(use.altexps)) {
.Deprecated(msg="'use.altexps=' is deprecated.\nUse 'applySCE(x, logNormCounts)' instead.")
}
x
})
LTLA/scuttle documentation built on March 9, 2024, 11:16 a.m.
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Defines functions .se_lnc
#' Compute log-normalized expression values
#'
#' Compute log-transformed normalized expression values from a count matrix in a \linkS4class{SingleCellExperiment} object.
#'
#' @param x A \linkS4class{SingleCellExperiment} or \linkS4class{SummarizedExperiment} object containing a count matrix.
#' @inheritParams normalizeCounts
#' @param use.altexps,use_altexps Deprecated, use \code{\link{applySCE}} instead (see Examples).
#' @param ... For the generic, additional arguments passed to specific methods.
#'
#' For the methods, additional arguments passed to \code{\link{normalizeCounts}}.
#' @param name String containing an assay name for storing the output normalized values.
#' Defaults to \code{"logcounts"} when \code{transform="log"}, \code{"ashcounts"} when \code{transform="asinh"}, and \code{"normcounts"} otherwise.
#' @param BPPARAM A \linkS4class{BiocParallelParam} object specifying how library size factor calculations should be parallelized.
#' Only used if \code{size.factors} is not specified.
#' @param size_factors,pseudo_count,center_size_factors,exprs_values Deprecated.
#'
#' @details
#' This function is a convenience wrapper around \code{\link{normalizeCounts}}.
#' It returns a \linkS4class{SingleCellExperiment} or \linkS4class{SummarizedExperiment} containing the normalized values in a separate assay.
#' This makes it easier to perform normalization by avoiding book-keeping errors during a long analysis workflow.
#'
#' If \code{NULL}, size factors are determined as described in \code{\link{normalizeCounts}}.
#' \code{subset.row} and \code{normalize.all} have the same interpretation as for \code{\link{normalizeCounts}}.
#'
#' If \code{x} is a SingleCellExperiment, normalization is not applied to any alternative Experiments.
#' Users can call \code{\link{applySCE}} to perform the normalization on each alternative Experiment - see Examples.
#' Any Experiment-specific size factors will be automatically used, otherwise library size-based factors will be derived from the column sums.
#'
#' @return
#' \code{x} is returned containing the (log-)normalized expression values in an additional assay named as \code{name}.
#'
#' If \code{x} is a \linkS4class{SingleCellExperiment}, the size factors used for normalization are stored in \code{\link{sizeFactors}}.
#' These are centered if \code{center.size.factors=TRUE}.
#'
#' @author Aaron Lun, based on code by Davis McCarthy
#' @seealso
#' \code{\link{normalizeCounts}}, which is used to compute the normalized expression values.
#'
#' @examples
#' example_sce <- mockSCE()
#'
#' # Standard library size normalization:
#' example_sce2 <- logNormCounts(example_sce)
#' assayNames(example_sce2)
#' logcounts(example_sce2)[1:5,1:5]
#'
#' # Without logging, the assay is 'normcounts':
#' example_sce2 <- logNormCounts(example_sce, log=FALSE)
#' assayNames(example_sce2)
#' normcounts(example_sce2)[1:5,1:5]
#'
#' # Pre-loading with size factors:
#' example_sce2 <- computeMedianFactors(example_sce)
#' example_sce2 <- logNormCounts(example_sce2)
#' logcounts(example_sce2)[1:5,1:5]
#'
#' # Also normalizing the alternative experiments:
#' example_sce2 <- applySCE(example_sce, logNormCounts)
#' logcounts(altExp(example_sce2))[1:5,1:5]
#'
#' @name logNormCounts
NULL
#' @export
#' @rdname logNormCounts
setGeneric("logNormCounts", function(x, ...) standardGeneric("logNormCounts"))
#' @export
#' @rdname logNormCounts
#' @importClassesFrom SummarizedExperiment SummarizedExperiment
setMethod("logNormCounts", "SummarizedExperiment", function(x, size.factors=NULL,
log=NULL, transform=c("log", "none", "asinh"), pseudo.count=1,
center.size.factors=TRUE, ..., subset.row=NULL, normalize.all=FALSE,
assay.type="counts", name=NULL, BPPARAM=SerialParam(),
size_factors=NULL, pseudo_count=NULL, center_size_factors=NULL, exprs_values=NULL)
{
size.factors <- .replace(size.factors, size_factors)
pseudo.count <- .replace(pseudo.count, pseudo_count)
center.size.factors <- .replace(center.size.factors, center_size_factors)
assay.type <- .replace(assay.type, exprs_values)
transform <- .choose_transform(log, match.arg(transform))
if (!is.null(subset.row) && !normalize.all) {
x <- x[subset.row,,drop=FALSE]
subset.row <- NULL
}
FUN <- .se_lnc(assay.type=assay.type, transform=transform, pseudo.count=pseudo.count, ...,
normalize.all=normalize.all, subset.row=subset.row, name=name, BPPARAM=BPPARAM)
FUN(x, size.factors=size.factors, center.size.factors=center.size.factors)
})
#' @importFrom SummarizedExperiment assay<-
.se_lnc <- function(assay.type, transform, pseudo.count, ..., name) {
args <- list(..., assay.type=assay.type, transform=transform, pseudo.count=pseudo.count)
if (is.null(name)) {
name <- switch(transform,
none="normcounts",
log="logcounts",
asinh="ashcounts"
)
}
function(x, ...) {
out <- do.call(normalizeCounts, c(list(x, ...), args))
assay(x, name) <- out
x
}
}
#' @export
#' @rdname logNormCounts
#' @importFrom BiocGenerics sizeFactors sizeFactors<-
#' @importFrom SingleCellExperiment altExp altExp<- int_metadata int_metadata<-
#' @importClassesFrom SingleCellExperiment SingleCellExperiment
setMethod("logNormCounts", "SingleCellExperiment", function(x, size.factors=sizeFactors(x),
log=NULL, transform=c("log", "none", "asinh"), pseudo.count=1,
center.size.factors=TRUE, ..., subset.row=NULL, normalize.all=FALSE,
assay.type="counts", use.altexps=FALSE, name=NULL, BPPARAM=SerialParam(),
size_factors=NULL, pseudo_count=NULL, center_size_factors=NULL, exprs_values=NULL, use_altexps=NULL)
{
size.factors <- .replace(size.factors, size_factors)
pseudo.count <- .replace(pseudo.count, pseudo_count)
center.size.factors <- .replace(center.size.factors, center_size_factors)
use.altexps <- .replace(use.altexps, use_altexps)
assay.type <- .replace(assay.type, exprs_values)
transform <- .choose_transform(log, match.arg(transform))
if (!is.null(subset.row) && !normalize.all) {
x <- x[subset.row,,drop=FALSE]
subset.row <- NULL
}
# Guarantee that we store (centered) size factors in the output matrix.
if (is.null(size.factors)) {
size.factors <- librarySizeFactors(x, assay.type=assay.type, BPPARAM=BPPARAM, subset.row=subset.row)
}
size.factors <- .center.size.factors(size.factors, center.size.factors)
sizeFactors(x) <- size.factors
# Set center.size.factors=FALSE, as we've already centered above.
FUN <- .se_lnc(assay.type=assay.type, transform=transform, pseudo.count=pseudo.count, ..., name=name)
x <- FUN(x, size.factors=size.factors, center.size.factors=FALSE)
if (transform=="log") {
if (is.null(int_metadata(x)$scater)) {
int_metadata(x)$scater <- list()
}
int_metadata(x)$scater$pseudo.count <- pseudo.count
}
if (!is.null(use.altexps) && !isFALSE(use.altexps)) {
.Deprecated(msg="'use.altexps=' is deprecated.\nUse 'applySCE(x, logNormCounts)' instead.")
}
x
})
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