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R/norm.R
In metaseqR2: An R package for the analysis and result reporting of RNA-Seq data by combining multiple statistical algorithms
Defines functions
normalizeDss
normalizeAbsseq
normalizeNbpseq
normalizeNoiseq
normalizeEdger
normalizeDeseq2
normalizeDeseq
normalizeEdaseq
Documented in
normalizeAbsseq
normalizeDeseq
normalizeDeseq2
normalizeDss
normalizeEdaseq
normalizeEdger
normalizeNbpseq
normalizeNoiseq
normalizeEdaseq <- function(geneCounts,sampleList,normArgs=NULL,
geneData=NULL,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","edaseq")
if (!is.matrix(geneCounts))
geneCounts <- as.matrix(geneCounts)
if (!is.null(geneData) && is(geneData,"GenomicRanges")) {
gl <- NULL
if (!is.null(attr(geneData,"geneLength")))
gl <- attr(geneData,"geneLength")
geneData <- as.data.frame(geneData)
geneData <- geneData[,c(1,2,3,6,7,5,8,9)]
if (!is.null(gl))
attr(geneData,"geneLength") <- gl
}
if (!is.null(geneData) && is.null(attr(geneData,"geneLength")))
attr(geneData,"geneLength") <- rep(1,nrow(geneCounts))
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (is.null(geneData)) {
seqGenes <- newSeqExpressionSet(
geneCounts,
phenoData=AnnotatedDataFrame(
data.frame(
conditions=classes,
row.names=colnames(geneCounts)
)
),
featureData=AnnotatedDataFrame(
data.frame(
length=rep(1,nrow(geneCounts)),
row.names=rownames(geneCounts)
)
)
)
seqGenes <- betweenLaneNormalization(withinLaneNormalization(seqGenes,
"length",which=normArgs$within.which),
which=normArgs$between.which)
}
else {
seqGenes <- newSeqExpressionSet(
geneCounts,
phenoData=AnnotatedDataFrame(
data.frame(
conditions=classes,
row.names=colnames(geneCounts)
)
),
featureData=AnnotatedDataFrame(
data.frame(
gc=geneData$gc_content,
length=attr(geneData,"geneLength"),
row.names=if (is.data.frame(geneData)) rownames(geneData)
else names(geneData)
)
)
)
seqGenes <- betweenLaneNormalization(withinLaneNormalization(seqGenes,
"gc",which=normArgs$within.which),which=normArgs$between.which)
}
if (output=="matrix")
return(counts(seqGenes)) # Class: matrix
else if (output=="native")
return(seqGenes) # Class: SeqExpressionSet
}
normalizeDeseq <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","deseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
cds <- newCountDataSet(geneCounts,classes)
#cds <- DESeq::estimateSizeFactors(cds,locfunc=normArgs$locfunc)
cds <- estimateSizeFactors(cds,locfunc=normArgs$locfunc)
if (output=="native")
return(cds) # Class: .CountDataSet
else if (output=="matrix")
#return(round(DESeq::counts(cds,normalized=TRUE))) # Class: matrix
return(round(counts(cds,normalized=TRUE))) # Class: matrix
}
normalizeDeseq2 <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","deseq2")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
conditions=as.factor(classes)
colData=DataFrame(conditions)
design= as.formula(c("~", names(colData[1])))
dds <- DESeqDataSetFromMatrix(geneCounts,colData,design=design,
tidy=normArgs$tidy)
dds <- DESeq2::estimateSizeFactors(dds,type=normArgs$type,
locfunc=normArgs$locfunc)
if (output=="native")
return(dds) # Class: DESeqDataSet
else if (output=="matrix")
return(round(DESeq2::counts(dds,normalized=TRUE))) # Class: matrix
}
normalizeEdger <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","edger")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
dge <- DGEList(counts=geneCounts,group=classes)
dge <- calcNormFactors(dge,method=normArgs$method,
refColumn=normArgs$refColumn,logratioTrim=normArgs$logratioTrim,
sumTrim=normArgs$sumTrim,doWeighting=normArgs$doWeighting,
Acutoff=normArgs$Acutoff,p=normArgs$p)
if (output=="native")
return(dge) # Class: DGEList
else if (output=="matrix") {
scl <- dge$samples$lib.size * dge$samples$norm.factors
return(round(t(t(dge$counts)/scl)*mean(scl)))
#return(round(dge$pseudo.counts)) # Class: matrix
}
}
normalizeNoiseq <- function(geneCounts,sampleList,normArgs=NULL,
geneData=NULL,logOffset=1,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","noiseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (!is.null(geneData)) {
if (is(geneData,"GenomicRanges")) {
gl <- NULL
if (!is.null(attr(geneData,"geneLength")))
gl <- attr(geneData,"geneLength")
else
gl <- width(geneData)
geneData <- as.data.frame(geneData)
geneData <- geneData[,c(1,2,3,6,7,5,8,9)]
if (!is.null(gl))
attr(geneData,"geneLength") <- gl
}
else {
if (is.null(attr(geneData,"geneLength"))) {
gl <- geneData$end - geneData$start + 1
attr(geneData,"geneLength") <- gl
}
}
}
if (is.null(geneData)) {
#nsObj <- NOISeq::readData(
nsObj <- readData(
data=geneCounts,
factors=data.frame(class=classes)
)
}
else {
gcContent <- geneData$gc_content
geneLength <- attr(geneData,"geneLength")
biotype <- as.character(geneData$biotype)
names(gcContent) <- names(biotype) <- names(geneLength) <-
if (is.data.frame(geneData)) rownames(geneData) else names(geneData)
#nsObj <- NOISeq::readData(
nsObj <- readData(
data=geneCounts,
length=geneLength,
gc=gcContent,
chromosome=geneData[,c(1,2,3)],
factors=data.frame(class=classes),
biotype=biotype
)
}
normArgs$k <- logOffset # Set the zero fixing constant
switch(normArgs$method,
rpkm = {
#M <- NOISeq::rpkm(assayData(nsObj)$exprs,long=normArgs$long,
# k=normArgs$k,lc=normArgs$lc)
M <- noirpkm(assayData(nsObj)$exprs,long=normArgs$long)
},
uqua = {
M <- noiuqua(assayData(nsObj)$exprs,long=normArgs$long,
k=normArgs$k,lc=normArgs$lc)
},
tmm = {
M <- noitmm(assayData(nsObj)$exprs,long=normArgs$long,
k=normArgs$k,lc=normArgs$lc,refColumn=normArgs$refColumn,
logratioTrim=normArgs$logratioTrim,sumTrim=normArgs$sumTrim,
doWeighting=normArgs$doWeighting,Acutoff=normArgs$Acutoff)
}
)
if (output=="native") {
if (is.null(geneData))
#return(NOISeq::readData(
return(readData(
data=M,
factors=data.frame(class=classes)
)) # Class: CD
else
#return(NOISeq::readData(
return(readData(
data=M,
length=geneLength,
gc=gcContent,
chromosome=geneData[,c(1,2,3)],
factors=data.frame(class=classes),
biotype=biotype
)) # Class: CD
}
else if (output=="matrix")
return(as.matrix(round(M))) # Class: matrix
}
normalizeNbpseq <- function(geneCounts,sampleList,normArgs=NULL,
libsizeList=NULL,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","nbpseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (is.null(libsizeList)) {
libsizeList <- vector("list",length(classes))
names(libsizeList) <- unlist(sampleList,use.names=FALSE)
for (n in names(libsizeList))
libsizeList[[n]] <- sum(geneCounts[,n])
}
libSizes <- unlist(libsizeList)
norm.factors <- estimate.norm.factors(geneCounts,lib.sizes=libSizes,
method=normArgs$method)
#if (normArgs$main.method=="nbpseq")
# nbData <- prepare.nbData(geneCounts,libSizes=libSizes,
# norm.factors=norm.factors)
#else if (normArgs$main.method=="nbsmyth")
nbData <- prepare.nbp(geneCounts,classes,lib.sizes=libSizes,
norm.factors=norm.factors,thinning=normArgs$thinning)
if (output=="native")
return(nbData) # Class: list or nbp
else if (output=="matrix") {
#if (normArgs$main.method=="nbpseq") {
# normCounts <- matrix(0,nrow(geneCounts),ncol(geneCounts))
# for (i in seq_len(ncol(geneCounts)))
# normCounts[,i] <- norm.factors[i]*geneCounts[,i]
#}
#else if (normArgs$main.method=="nbsmyth")
normCounts <- nbData$pseudo.counts
return(as.matrix(round(normCounts))) # Class: matrix
}
}
normalizeAbsseq <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","absseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
#classes <- asClassVector(sampleList)
#groups= as.factor(classes)
abs <- ABSDataSet(geneCounts,normMethod= normArgs$normMethod)
abs <- normalFactors(abs)
excounts(abs) <- ABSSeq::counts(abs,norm=TRUE)
if (output=="native")
return(abs) # Class: ABSDataSet
else if (output=="matrix")
return(as.matrix(round(excounts(abs)))) # Class: matrix
}
normalizeDss <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","dss")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
# make the design
classes <- asClassVector(sampleList)
design <- as.data.frame(classes)
colnames(design) <- "designs"
# newSeqCountSet takes only matrices as gene.counts
if (is(geneCounts,"data.frame")) {
geneCountsTmp <- geneCounts
samCols <- match(unlist(sampleList),colnames(geneCountsTmp))
samCols <- samCols[which(!is.na(samCols))]
geneCountsTmp <- as.matrix(geneCounts[,samCols,drop=FALSE])
}
if (is(geneCounts,"matrix"))
geneCountsTmp <- geneCounts
seqD <- newSeqCountSet(geneCountsTmp,design) # create the class
# estimate normalization factors
seqD <- estNormFactors(seqD,method=normArgs$method)
if (output=="native")
return(seqD) # Class: SeqCountSet
else if (output=="matrix") {
# I cannot extract normalized counts from DSS and thus I do this small
# dribble in order to output a matrix
theDesign <- data.frame(condition=classes,row.names=colnames(seqD))
cds <- newCountDataSet(as.matrix(round(assayData(seqD)$exprs)),
theDesign$condition)
#DESeq::sizeFactors(cds) <- normalizationFactor(seqD)
sizeFactors(cds) <- normalizationFactor(seqD)
#counts <- as.matrix(DESeq::counts(cds,normalized=TRUE))
counts <- as.matrix(counts(cds,normalized=TRUE))
return(as.matrix(round(counts))) # Class: matrix
}
}
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metaseqR2 documentation built on Nov. 8, 2020, 7:34 p.m.
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Defines functions normalizeDss normalizeAbsseq normalizeNbpseq normalizeNoiseq normalizeEdger normalizeDeseq2 normalizeDeseq normalizeEdaseq
Documented in normalizeAbsseq normalizeDeseq normalizeDeseq2 normalizeDss normalizeEdaseq normalizeEdger normalizeNbpseq normalizeNoiseq
normalizeEdaseq <- function(geneCounts,sampleList,normArgs=NULL,
geneData=NULL,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","edaseq")
if (!is.matrix(geneCounts))
geneCounts <- as.matrix(geneCounts)
if (!is.null(geneData) && is(geneData,"GenomicRanges")) {
gl <- NULL
if (!is.null(attr(geneData,"geneLength")))
gl <- attr(geneData,"geneLength")
geneData <- as.data.frame(geneData)
geneData <- geneData[,c(1,2,3,6,7,5,8,9)]
if (!is.null(gl))
attr(geneData,"geneLength") <- gl
}
if (!is.null(geneData) && is.null(attr(geneData,"geneLength")))
attr(geneData,"geneLength") <- rep(1,nrow(geneCounts))
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (is.null(geneData)) {
seqGenes <- newSeqExpressionSet(
geneCounts,
phenoData=AnnotatedDataFrame(
data.frame(
conditions=classes,
row.names=colnames(geneCounts)
)
),
featureData=AnnotatedDataFrame(
data.frame(
length=rep(1,nrow(geneCounts)),
row.names=rownames(geneCounts)
)
)
)
seqGenes <- betweenLaneNormalization(withinLaneNormalization(seqGenes,
"length",which=normArgs$within.which),
which=normArgs$between.which)
}
else {
seqGenes <- newSeqExpressionSet(
geneCounts,
phenoData=AnnotatedDataFrame(
data.frame(
conditions=classes,
row.names=colnames(geneCounts)
)
),
featureData=AnnotatedDataFrame(
data.frame(
gc=geneData$gc_content,
length=attr(geneData,"geneLength"),
row.names=if (is.data.frame(geneData)) rownames(geneData)
else names(geneData)
)
)
)
seqGenes <- betweenLaneNormalization(withinLaneNormalization(seqGenes,
"gc",which=normArgs$within.which),which=normArgs$between.which)
}
if (output=="matrix")
return(counts(seqGenes)) # Class: matrix
else if (output=="native")
return(seqGenes) # Class: SeqExpressionSet
}
normalizeDeseq <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","deseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
cds <- newCountDataSet(geneCounts,classes)
#cds <- DESeq::estimateSizeFactors(cds,locfunc=normArgs$locfunc)
cds <- estimateSizeFactors(cds,locfunc=normArgs$locfunc)
if (output=="native")
return(cds) # Class: .CountDataSet
else if (output=="matrix")
#return(round(DESeq::counts(cds,normalized=TRUE))) # Class: matrix
return(round(counts(cds,normalized=TRUE))) # Class: matrix
}
normalizeDeseq2 <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","deseq2")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
conditions=as.factor(classes)
colData=DataFrame(conditions)
design= as.formula(c("~", names(colData[1])))
dds <- DESeqDataSetFromMatrix(geneCounts,colData,design=design,
tidy=normArgs$tidy)
dds <- DESeq2::estimateSizeFactors(dds,type=normArgs$type,
locfunc=normArgs$locfunc)
if (output=="native")
return(dds) # Class: DESeqDataSet
else if (output=="matrix")
return(round(DESeq2::counts(dds,normalized=TRUE))) # Class: matrix
}
normalizeEdger <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","edger")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
dge <- DGEList(counts=geneCounts,group=classes)
dge <- calcNormFactors(dge,method=normArgs$method,
refColumn=normArgs$refColumn,logratioTrim=normArgs$logratioTrim,
sumTrim=normArgs$sumTrim,doWeighting=normArgs$doWeighting,
Acutoff=normArgs$Acutoff,p=normArgs$p)
if (output=="native")
return(dge) # Class: DGEList
else if (output=="matrix") {
scl <- dge$samples$lib.size * dge$samples$norm.factors
return(round(t(t(dge$counts)/scl)*mean(scl)))
#return(round(dge$pseudo.counts)) # Class: matrix
}
}
normalizeNoiseq <- function(geneCounts,sampleList,normArgs=NULL,
geneData=NULL,logOffset=1,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","noiseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (!is.null(geneData)) {
if (is(geneData,"GenomicRanges")) {
gl <- NULL
if (!is.null(attr(geneData,"geneLength")))
gl <- attr(geneData,"geneLength")
else
gl <- width(geneData)
geneData <- as.data.frame(geneData)
geneData <- geneData[,c(1,2,3,6,7,5,8,9)]
if (!is.null(gl))
attr(geneData,"geneLength") <- gl
}
else {
if (is.null(attr(geneData,"geneLength"))) {
gl <- geneData$end - geneData$start + 1
attr(geneData,"geneLength") <- gl
}
}
}
if (is.null(geneData)) {
#nsObj <- NOISeq::readData(
nsObj <- readData(
data=geneCounts,
factors=data.frame(class=classes)
)
}
else {
gcContent <- geneData$gc_content
geneLength <- attr(geneData,"geneLength")
biotype <- as.character(geneData$biotype)
names(gcContent) <- names(biotype) <- names(geneLength) <-
if (is.data.frame(geneData)) rownames(geneData) else names(geneData)
#nsObj <- NOISeq::readData(
nsObj <- readData(
data=geneCounts,
length=geneLength,
gc=gcContent,
chromosome=geneData[,c(1,2,3)],
factors=data.frame(class=classes),
biotype=biotype
)
}
normArgs$k <- logOffset # Set the zero fixing constant
switch(normArgs$method,
rpkm = {
#M <- NOISeq::rpkm(assayData(nsObj)$exprs,long=normArgs$long,
# k=normArgs$k,lc=normArgs$lc)
M <- noirpkm(assayData(nsObj)$exprs,long=normArgs$long)
},
uqua = {
M <- noiuqua(assayData(nsObj)$exprs,long=normArgs$long,
k=normArgs$k,lc=normArgs$lc)
},
tmm = {
M <- noitmm(assayData(nsObj)$exprs,long=normArgs$long,
k=normArgs$k,lc=normArgs$lc,refColumn=normArgs$refColumn,
logratioTrim=normArgs$logratioTrim,sumTrim=normArgs$sumTrim,
doWeighting=normArgs$doWeighting,Acutoff=normArgs$Acutoff)
}
)
if (output=="native") {
if (is.null(geneData))
#return(NOISeq::readData(
return(readData(
data=M,
factors=data.frame(class=classes)
)) # Class: CD
else
#return(NOISeq::readData(
return(readData(
data=M,
length=geneLength,
gc=gcContent,
chromosome=geneData[,c(1,2,3)],
factors=data.frame(class=classes),
biotype=biotype
)) # Class: CD
}
else if (output=="matrix")
return(as.matrix(round(M))) # Class: matrix
}
normalizeNbpseq <- function(geneCounts,sampleList,normArgs=NULL,
libsizeList=NULL,output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","nbpseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
classes <- asClassVector(sampleList)
if (is.null(libsizeList)) {
libsizeList <- vector("list",length(classes))
names(libsizeList) <- unlist(sampleList,use.names=FALSE)
for (n in names(libsizeList))
libsizeList[[n]] <- sum(geneCounts[,n])
}
libSizes <- unlist(libsizeList)
norm.factors <- estimate.norm.factors(geneCounts,lib.sizes=libSizes,
method=normArgs$method)
#if (normArgs$main.method=="nbpseq")
# nbData <- prepare.nbData(geneCounts,libSizes=libSizes,
# norm.factors=norm.factors)
#else if (normArgs$main.method=="nbsmyth")
nbData <- prepare.nbp(geneCounts,classes,lib.sizes=libSizes,
norm.factors=norm.factors,thinning=normArgs$thinning)
if (output=="native")
return(nbData) # Class: list or nbp
else if (output=="matrix") {
#if (normArgs$main.method=="nbpseq") {
# normCounts <- matrix(0,nrow(geneCounts),ncol(geneCounts))
# for (i in seq_len(ncol(geneCounts)))
# normCounts[,i] <- norm.factors[i]*geneCounts[,i]
#}
#else if (normArgs$main.method=="nbsmyth")
normCounts <- nbData$pseudo.counts
return(as.matrix(round(normCounts))) # Class: matrix
}
}
normalizeAbsseq <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","absseq")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
#classes <- asClassVector(sampleList)
#groups= as.factor(classes)
abs <- ABSDataSet(geneCounts,normMethod= normArgs$normMethod)
abs <- normalFactors(abs)
excounts(abs) <- ABSSeq::counts(abs,norm=TRUE)
if (output=="native")
return(abs) # Class: ABSDataSet
else if (output=="matrix")
return(as.matrix(round(excounts(abs)))) # Class: matrix
}
normalizeDss <- function(geneCounts,sampleList,normArgs=NULL,
output=c("matrix","native")) {
if (is.null(normArgs))
normArgs <- getDefaults("normalization","dss")
output <- tolower(output[1])
checkTextArgs("output",output,c("matrix","native"))
# make the design
classes <- asClassVector(sampleList)
design <- as.data.frame(classes)
colnames(design) <- "designs"
# newSeqCountSet takes only matrices as gene.counts
if (is(geneCounts,"data.frame")) {
geneCountsTmp <- geneCounts
samCols <- match(unlist(sampleList),colnames(geneCountsTmp))
samCols <- samCols[which(!is.na(samCols))]
geneCountsTmp <- as.matrix(geneCounts[,samCols,drop=FALSE])
}
if (is(geneCounts,"matrix"))
geneCountsTmp <- geneCounts
seqD <- newSeqCountSet(geneCountsTmp,design) # create the class
# estimate normalization factors
seqD <- estNormFactors(seqD,method=normArgs$method)
if (output=="native")
return(seqD) # Class: SeqCountSet
else if (output=="matrix") {
# I cannot extract normalized counts from DSS and thus I do this small
# dribble in order to output a matrix
theDesign <- data.frame(condition=classes,row.names=colnames(seqD))
cds <- newCountDataSet(as.matrix(round(assayData(seqD)$exprs)),
theDesign$condition)
#DESeq::sizeFactors(cds) <- normalizationFactor(seqD)
sizeFactors(cds) <- normalizationFactor(seqD)
#counts <- as.matrix(DESeq::counts(cds,normalized=TRUE))
counts <- as.matrix(counts(cds,normalized=TRUE))
return(as.matrix(round(counts))) # Class: matrix
}
}
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