R/ChIPQCexperiment-class.R
In shengqh/ChIPQC: Quality metrics for ChIPseq data
setOldClass("DBA")
setClass("ChIPQCexperiment",contains = "list", #ChIPQCsampleList",
slots=c(Samples="list",#ChIPQCsampleList",
DBA="DBA",
annotation="list"
))
showChIPQCexperiment = function (object){
meta = data.frame(as.matrix(QCmetadata(object)),stringsAsFactors=FALSE)
cat("Samples:",length(object@Samples),":",selectSome(names(object@Samples)),"\n")
meta2 = NULL
if(!sum(meta$Tissue=="")) {
meta2 = cbind(meta2,meta$Tissue)
colnames(meta2)[ncol(meta2)] = "Tissue"
}
if(!sum(meta$Factor=="")) {
meta2 = cbind(meta2,meta$Factor)
colnames(meta2)[ncol(meta2)] = "Factor"
}
if(!sum(meta$Condition=="")){
meta2 = cbind(meta2,meta$Condition)
colnames(meta2)[ncol(meta2)] = "Condition"
}
if(!sum(meta$Treatment=="")) {
meta2 = cbind(meta2,meta$Treatment)
colnames(meta2)[ncol(meta2)] = "Treatment"
}
if(!sum(meta$Control=="")) {
meta2 = cbind(meta2,meta$Control)
colnames(meta2)[ncol(meta2)] = "Control"
}
meta$Replicate[is.na(meta$Replicate)]=""
if(!sum(meta$Replicate=="")) {
meta2 = cbind(meta2,meta$Replicate)
colnames(meta2)[ncol(meta2)] = "Replicate"
}
if(!is.null(meta$Peaks)) {
if(!sum(as.numeric(as.character(meta$Peaks)))==0) {
meta2 = cbind(meta2,meta$Peaks)
colnames(meta2)[ncol(meta2)] = "Peaks"
}
}
rownames(meta2) = meta$ID
print(data.frame(meta2))
print(QCmetrics(object))
}
setMethod("show","ChIPQCexperiment",showChIPQCexperiment)
setGeneric("QCsample", function(object="ChIPQCexperiment",sampleID) standardGeneric("QCsample"))
setMethod("QCsample", "ChIPQCexperiment", function(object,sampleID){
if(missing(sampleID)) sampleID=0
if(is.numeric(sampleID)){
if(sampleID>0) {
if(sampleID<= length(object@Samples)) {
return(object@Samples[[sampleID]])
} else {
stop('Invalid sample ID')
}
} else return(object@Samples)
} else if(is.character(sampleID)){
sampnum = which(names(object@Samples) %in% sampleID)
if(length(sampnum)==0) {
stop ('Invalid sample ID')
} else {
return(object@Samples[[sampnum]])
}
} else stop ('Invalid sample ID')
})
setGeneric("QCcontrol", function(object="ChIPQCexperiment",sampleID) standardGeneric("QCcontrol"))
setMethod("QCcontrol", "ChIPQCexperiment", function(object,sampleID){
if(missing(sampleID)) sampleID=0
meta = QCmetadata(object)
controlbams = unique(meta$bamControl)
controlbams = controlbams[!is.na(controlbams)]
controlbams = controlbams[!is.na(controlbams)]
controlids = which(meta$bamRead %in% controlbams)
numcontrols = length(controlids)
numchips = (nrow(meta)) - numcontrols
controls = object@Samples[controlids]
if(is.numeric(sampleID)) {
if(sampleID==0) {
return(controls)
} else if(sampleID <= numchips) {
sampleID = meta$ID[sampleID]
} else {
stop('Invalid sample number')
}
}
if(is.character(sampleID)){
sampnum = which(meta$ID %in% sampleID)
if(length(sampnum)==0) {
stop ('Invalid sample ID')
} else {
controlname = meta$Control[sampnum]
controlnum = which(names(controls) %in% controlname)
if(length(controlnum)==0) {
stop ('No such control ID')
} else {
return(controls[[controlnum]])
}
}
} else stop('invalid control ID')
})
setGeneric("QCdba", function(object="ChIPQCexperiment") standardGeneric("QCdba"))
setMethod("QCdba", "ChIPQCexperiment", function(object){
return(object@DBA)
})
setGeneric("QCannotation", function(object="ChIPQCexperiment",bRetrieve) standardGeneric("QCannotation"))
setMethod("QCannotation", "ChIPQCexperiment", definition=function(object,bRetrieve){
if(missing(bRetrieve)) {
bRetrieve=FALSE
}
if(bRetrieve==FALSE){
return(object@annotation$version)
} else {
if(length(object@annotation)>1) {
return(object@annotation)
} else {
warning("Annotation unavailable for retrieval")
return(object@annotation$version)
}
}
})
setGeneric("QCmetadata", function(object) standardGeneric("QCmetadata"))
setMethod("QCmetadata", "ChIPQCexperiment", function(object) {
meta = t(object@DBA$class[-8,])
peaks = sapply(object@DBA$peaks,nrow)
if(sum(peaks>0)>0) {
meta = cbind(meta,peaks)
colnames(meta)[ncol(meta)] = "Peaks"
}
return(data.frame(meta))
})
setMethod("QCmetadata", "list", function(object) {
tmmM <- lapply(object,metadata)
for(k in 1:length(object)){
sampleMetadata <- as.data.frame(tmmM[[k]])
if(length(sampleMetadata) == 0){
sampleMetadata <- data.frame(NoMetadata=TRUE)
}
if(k == 1){
dfM <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfM) <- names(object)[k]
}else if(k == 2){
dfMtemp <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfMtemp) <- names(object)[k]
dfM <- merge(dfM,dfMtemp,by=0)
}else{
dfMtemp <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfMtemp) <- names(object)[k]
dfM <- merge(dfM,dfMtemp,by.x=1,by.y=0)
}
}
dfM <- t(dfM)
colnames(dfM) <- dfM[1,]
dfM <- dfM[-1,]
dfM <- cbind(dfM[,"Sample",drop=FALSE],dfM[,colnames(dfM) != "Sample",drop=FALSE])
dfM <- dfM[,colnames(dfM) != "NoMetadata",drop=FALSE]
return(dfM)
})
setMethod("QCmetrics", "ChIPQCexperiment", function(object="ChIPQCexperiment"){
res = t(sapply(object@Samples,QCmetrics))
rownames(res) = names(object@Samples)
return(res)
})
setMethod("QCmetrics", "list", function(object){
res = t(sapply(object,QCmetrics))
rownames(res) = names(object)
return(res)
})
setMethod("crosscoverage", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,crosscoverage)
rownames(res) = 1:nrow(res)
return(res)
})
setMethod("crosscoverage", "list", function(object) {
res = sapply(object,crosscoverage)
rownames(res) = 1:nrow(res)
return(res)
})
setMethod("ssd", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ssd)
names(res)=names(object@Samples)
return(res)
})
setMethod("ssd", "list", function(object){
res = sapply(object,ssd)
names(res)=names(object)
return(res)
})
setMethod("fragmentlength", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,fragmentlength)
names(res)=names(object@Samples)
return(res)
})
setMethod("fragmentlength", "list", function(object){
res = sapply(object,fragmentlength)
names(res)=names(object)
return(res)
})
setMethod("FragmentLengthCrossCoverage","ChIPQCexperiment", function(object){
res = sapply(object@Samples,FragmentLengthCrossCoverage)
names(res)=names(object@Samples)
return(res)
})
setMethod("FragmentLengthCrossCoverage","list", function(object){
res = sapply(object,FragmentLengthCrossCoverage)
names(res)=names(object)
return(res)
})
setMethod("ReadLengthCrossCoverage", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ReadLengthCrossCoverage)
names(res)=names(object@Samples)
return(res)
}
)
setMethod("ReadLengthCrossCoverage", "list", function(object){
res = sapply(object,ReadLengthCrossCoverage)
names(res)=names(object)
return(res)
}
)
setMethod("RelativeCrossCoverage", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,RelativeCrossCoverage)
#names(res)=names(object@Samples)
return(res)
}
)
setMethod("RelativeCrossCoverage", "list", function(object){
res = sapply(object,RelativeCrossCoverage)
#names(res)=names(object@Samples)
return(res)
}
)
setMethod("flagtagcounts", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,flagtagcounts)
#names(res)=names(object@Samples)
return(res)
})
setMethod("flagtagcounts", "list", function(object) {
res = sapply(object,flagtagcounts)
#names(res)=names(object@Samples)
return(res)
})
setMethod("regi", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,regi)
#names(res)=names(object@Samples)
return(signif(res,3))
})
setMethod("regi", "list", function(object){
res = sapply(object,regi)
#names(res)=names(object@Samples)
return(signif(res,3))
})
setMethod("coveragehistogram", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,coveragehistogram)
res = list2matrix(res)
return(res)
})
setMethod("coveragehistogram", "list", function(object) {
res = sapply(object,coveragehistogram)
res = list2matrix(res)
return(res)
})
setMethod("averagepeaksignal", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,averagepeaksignal)
#return(res)
res = list2matrix(res)
return(res)
})
setMethod("averagepeaksignal", "list", function(object) {
res = sapply(object,averagepeaksignal)
#return(res)
res = list2matrix(res)
return(res)
})
setMethod("Normalisedaveragepeaksignal", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,Normalisedaveragepeaksignal)
res = list2matrix(res)
return(res)
})
setMethod("Normalisedaveragepeaksignal", "list", function(object) {
res = sapply(object,Normalisedaveragepeaksignal)
res = list2matrix(res)
return(res)
})
setMethod("peaks", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,peaks)
res = GRangesList(res)
return(res)
})
setMethod("peaks", "list", function(object){
res = sapply(object,peaks)
res = GRangesList(res)
return(res)
})
setMethod("readlength", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,readlength)
names(res)=names(object@Samples)
return(res)
})
setMethod("readlength", "list", function(object){
res = sapply(object,readlength)
names(res)=names(object)
return(res)
})
setMethod("frip", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,frip)
names(res)=names(object@Samples)
return(res)
})
setMethod("frip", "list", function(object){
res = sapply(object,frip)
names(res)=names(object)
return(res)
})
setMethod("rip", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,rip)
names(res)=names(object@Samples)
return(res)
})
setMethod("rip", "list", function(object){
res = sapply(object,rip)
names(res)=names(object)
return(res)
})
setMethod("ribl", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ribl)
names(res)=names(object@Samples)
return(res)
})
setMethod("ribl", "list", function(object){
res = sapply(object,ribl)
names(res)=names(object)
return(res)
})
setMethod("mapped", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,mapped)
names(res)=names(object@Samples)
return(res)
})
setMethod("mapped", "list", function(object){
res = sapply(object,mapped)
names(res)=names(object)
return(res)
})
setMethod("reads", "ChIPQCexperiment", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,reads,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("reads", "list", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,reads,bFiltered)
names(res)=names(object)
return(res)
})
setMethod("duplicates", "ChIPQCexperiment", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,duplicates,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("duplicates", "list", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,duplicates,bFiltered)
names(res)=names(object)
return(res)
})
setMethod("duplicateRate", "ChIPQCexperiment", function(object, bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,duplicateRate,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("duplicateRate", "list", function(object, bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,duplicateRate,bFiltered)
names(res)=names(object)
return(res)
})
shengqh/ChIPQC documentation built on Feb. 27, 2023, 10:51 p.m.
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setOldClass("DBA")
setClass("ChIPQCexperiment",contains = "list", #ChIPQCsampleList",
slots=c(Samples="list",#ChIPQCsampleList",
DBA="DBA",
annotation="list"
))
showChIPQCexperiment = function (object){
meta = data.frame(as.matrix(QCmetadata(object)),stringsAsFactors=FALSE)
cat("Samples:",length(object@Samples),":",selectSome(names(object@Samples)),"\n")
meta2 = NULL
if(!sum(meta$Tissue=="")) {
meta2 = cbind(meta2,meta$Tissue)
colnames(meta2)[ncol(meta2)] = "Tissue"
}
if(!sum(meta$Factor=="")) {
meta2 = cbind(meta2,meta$Factor)
colnames(meta2)[ncol(meta2)] = "Factor"
}
if(!sum(meta$Condition=="")){
meta2 = cbind(meta2,meta$Condition)
colnames(meta2)[ncol(meta2)] = "Condition"
}
if(!sum(meta$Treatment=="")) {
meta2 = cbind(meta2,meta$Treatment)
colnames(meta2)[ncol(meta2)] = "Treatment"
}
if(!sum(meta$Control=="")) {
meta2 = cbind(meta2,meta$Control)
colnames(meta2)[ncol(meta2)] = "Control"
}
meta$Replicate[is.na(meta$Replicate)]=""
if(!sum(meta$Replicate=="")) {
meta2 = cbind(meta2,meta$Replicate)
colnames(meta2)[ncol(meta2)] = "Replicate"
}
if(!is.null(meta$Peaks)) {
if(!sum(as.numeric(as.character(meta$Peaks)))==0) {
meta2 = cbind(meta2,meta$Peaks)
colnames(meta2)[ncol(meta2)] = "Peaks"
}
}
rownames(meta2) = meta$ID
print(data.frame(meta2))
print(QCmetrics(object))
}
setMethod("show","ChIPQCexperiment",showChIPQCexperiment)
setGeneric("QCsample", function(object="ChIPQCexperiment",sampleID) standardGeneric("QCsample"))
setMethod("QCsample", "ChIPQCexperiment", function(object,sampleID){
if(missing(sampleID)) sampleID=0
if(is.numeric(sampleID)){
if(sampleID>0) {
if(sampleID<= length(object@Samples)) {
return(object@Samples[[sampleID]])
} else {
stop('Invalid sample ID')
}
} else return(object@Samples)
} else if(is.character(sampleID)){
sampnum = which(names(object@Samples) %in% sampleID)
if(length(sampnum)==0) {
stop ('Invalid sample ID')
} else {
return(object@Samples[[sampnum]])
}
} else stop ('Invalid sample ID')
})
setGeneric("QCcontrol", function(object="ChIPQCexperiment",sampleID) standardGeneric("QCcontrol"))
setMethod("QCcontrol", "ChIPQCexperiment", function(object,sampleID){
if(missing(sampleID)) sampleID=0
meta = QCmetadata(object)
controlbams = unique(meta$bamControl)
controlbams = controlbams[!is.na(controlbams)]
controlbams = controlbams[!is.na(controlbams)]
controlids = which(meta$bamRead %in% controlbams)
numcontrols = length(controlids)
numchips = (nrow(meta)) - numcontrols
controls = object@Samples[controlids]
if(is.numeric(sampleID)) {
if(sampleID==0) {
return(controls)
} else if(sampleID <= numchips) {
sampleID = meta$ID[sampleID]
} else {
stop('Invalid sample number')
}
}
if(is.character(sampleID)){
sampnum = which(meta$ID %in% sampleID)
if(length(sampnum)==0) {
stop ('Invalid sample ID')
} else {
controlname = meta$Control[sampnum]
controlnum = which(names(controls) %in% controlname)
if(length(controlnum)==0) {
stop ('No such control ID')
} else {
return(controls[[controlnum]])
}
}
} else stop('invalid control ID')
})
setGeneric("QCdba", function(object="ChIPQCexperiment") standardGeneric("QCdba"))
setMethod("QCdba", "ChIPQCexperiment", function(object){
return(object@DBA)
})
setGeneric("QCannotation", function(object="ChIPQCexperiment",bRetrieve) standardGeneric("QCannotation"))
setMethod("QCannotation", "ChIPQCexperiment", definition=function(object,bRetrieve){
if(missing(bRetrieve)) {
bRetrieve=FALSE
}
if(bRetrieve==FALSE){
return(object@annotation$version)
} else {
if(length(object@annotation)>1) {
return(object@annotation)
} else {
warning("Annotation unavailable for retrieval")
return(object@annotation$version)
}
}
})
setGeneric("QCmetadata", function(object) standardGeneric("QCmetadata"))
setMethod("QCmetadata", "ChIPQCexperiment", function(object) {
meta = t(object@DBA$class[-8,])
peaks = sapply(object@DBA$peaks,nrow)
if(sum(peaks>0)>0) {
meta = cbind(meta,peaks)
colnames(meta)[ncol(meta)] = "Peaks"
}
return(data.frame(meta))
})
setMethod("QCmetadata", "list", function(object) {
tmmM <- lapply(object,metadata)
for(k in 1:length(object)){
sampleMetadata <- as.data.frame(tmmM[[k]])
if(length(sampleMetadata) == 0){
sampleMetadata <- data.frame(NoMetadata=TRUE)
}
if(k == 1){
dfM <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfM) <- names(object)[k]
}else if(k == 2){
dfMtemp <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfMtemp) <- names(object)[k]
dfM <- merge(dfM,dfMtemp,by=0)
}else{
dfMtemp <- t(data.frame(Sample=names(object)[k],sampleMetadata))
colnames(dfMtemp) <- names(object)[k]
dfM <- merge(dfM,dfMtemp,by.x=1,by.y=0)
}
}
dfM <- t(dfM)
colnames(dfM) <- dfM[1,]
dfM <- dfM[-1,]
dfM <- cbind(dfM[,"Sample",drop=FALSE],dfM[,colnames(dfM) != "Sample",drop=FALSE])
dfM <- dfM[,colnames(dfM) != "NoMetadata",drop=FALSE]
return(dfM)
})
setMethod("QCmetrics", "ChIPQCexperiment", function(object="ChIPQCexperiment"){
res = t(sapply(object@Samples,QCmetrics))
rownames(res) = names(object@Samples)
return(res)
})
setMethod("QCmetrics", "list", function(object){
res = t(sapply(object,QCmetrics))
rownames(res) = names(object)
return(res)
})
setMethod("crosscoverage", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,crosscoverage)
rownames(res) = 1:nrow(res)
return(res)
})
setMethod("crosscoverage", "list", function(object) {
res = sapply(object,crosscoverage)
rownames(res) = 1:nrow(res)
return(res)
})
setMethod("ssd", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ssd)
names(res)=names(object@Samples)
return(res)
})
setMethod("ssd", "list", function(object){
res = sapply(object,ssd)
names(res)=names(object)
return(res)
})
setMethod("fragmentlength", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,fragmentlength)
names(res)=names(object@Samples)
return(res)
})
setMethod("fragmentlength", "list", function(object){
res = sapply(object,fragmentlength)
names(res)=names(object)
return(res)
})
setMethod("FragmentLengthCrossCoverage","ChIPQCexperiment", function(object){
res = sapply(object@Samples,FragmentLengthCrossCoverage)
names(res)=names(object@Samples)
return(res)
})
setMethod("FragmentLengthCrossCoverage","list", function(object){
res = sapply(object,FragmentLengthCrossCoverage)
names(res)=names(object)
return(res)
})
setMethod("ReadLengthCrossCoverage", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ReadLengthCrossCoverage)
names(res)=names(object@Samples)
return(res)
}
)
setMethod("ReadLengthCrossCoverage", "list", function(object){
res = sapply(object,ReadLengthCrossCoverage)
names(res)=names(object)
return(res)
}
)
setMethod("RelativeCrossCoverage", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,RelativeCrossCoverage)
#names(res)=names(object@Samples)
return(res)
}
)
setMethod("RelativeCrossCoverage", "list", function(object){
res = sapply(object,RelativeCrossCoverage)
#names(res)=names(object@Samples)
return(res)
}
)
setMethod("flagtagcounts", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,flagtagcounts)
#names(res)=names(object@Samples)
return(res)
})
setMethod("flagtagcounts", "list", function(object) {
res = sapply(object,flagtagcounts)
#names(res)=names(object@Samples)
return(res)
})
setMethod("regi", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,regi)
#names(res)=names(object@Samples)
return(signif(res,3))
})
setMethod("regi", "list", function(object){
res = sapply(object,regi)
#names(res)=names(object@Samples)
return(signif(res,3))
})
setMethod("coveragehistogram", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,coveragehistogram)
res = list2matrix(res)
return(res)
})
setMethod("coveragehistogram", "list", function(object) {
res = sapply(object,coveragehistogram)
res = list2matrix(res)
return(res)
})
setMethod("averagepeaksignal", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,averagepeaksignal)
#return(res)
res = list2matrix(res)
return(res)
})
setMethod("averagepeaksignal", "list", function(object) {
res = sapply(object,averagepeaksignal)
#return(res)
res = list2matrix(res)
return(res)
})
setMethod("Normalisedaveragepeaksignal", "ChIPQCexperiment", function(object) {
res = sapply(object@Samples,Normalisedaveragepeaksignal)
res = list2matrix(res)
return(res)
})
setMethod("Normalisedaveragepeaksignal", "list", function(object) {
res = sapply(object,Normalisedaveragepeaksignal)
res = list2matrix(res)
return(res)
})
setMethod("peaks", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,peaks)
res = GRangesList(res)
return(res)
})
setMethod("peaks", "list", function(object){
res = sapply(object,peaks)
res = GRangesList(res)
return(res)
})
setMethod("readlength", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,readlength)
names(res)=names(object@Samples)
return(res)
})
setMethod("readlength", "list", function(object){
res = sapply(object,readlength)
names(res)=names(object)
return(res)
})
setMethod("frip", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,frip)
names(res)=names(object@Samples)
return(res)
})
setMethod("frip", "list", function(object){
res = sapply(object,frip)
names(res)=names(object)
return(res)
})
setMethod("rip", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,rip)
names(res)=names(object@Samples)
return(res)
})
setMethod("rip", "list", function(object){
res = sapply(object,rip)
names(res)=names(object)
return(res)
})
setMethod("ribl", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,ribl)
names(res)=names(object@Samples)
return(res)
})
setMethod("ribl", "list", function(object){
res = sapply(object,ribl)
names(res)=names(object)
return(res)
})
setMethod("mapped", "ChIPQCexperiment", function(object){
res = sapply(object@Samples,mapped)
names(res)=names(object@Samples)
return(res)
})
setMethod("mapped", "list", function(object){
res = sapply(object,mapped)
names(res)=names(object)
return(res)
})
setMethod("reads", "ChIPQCexperiment", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,reads,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("reads", "list", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,reads,bFiltered)
names(res)=names(object)
return(res)
})
setMethod("duplicates", "ChIPQCexperiment", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,duplicates,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("duplicates", "list", function(object,bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,duplicates,bFiltered)
names(res)=names(object)
return(res)
})
setMethod("duplicateRate", "ChIPQCexperiment", function(object, bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object@Samples,duplicateRate,bFiltered)
names(res)=names(object@Samples)
return(res)
})
setMethod("duplicateRate", "list", function(object, bFiltered){
if(missing(bFiltered)) bFiltered=TRUE
res = sapply(object,duplicateRate,bFiltered)
names(res)=names(object)
return(res)
})
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