Nothing
R/RGChannelSet-class.R
In minfi: Analyze Illumina Infinium DNA methylation arrays
Defines functions
subsetByLoci
getSnpBeta
getOOB
getGreen
getRed
RGChannelSet
Documented in
getGreen
getOOB
getRed
getSnpBeta
RGChannelSet
subsetByLoci
# Exported classes -------------------------------------------------------------
setClass(
"RGChannelSet",
representation(annotation = "character"),
contains = "SummarizedExperiment"
)
# Validity methods -------------------------------------------------------------
setValidity("RGChannelSet", function(object) {
msg <- validMsg(NULL, .checkAssayNames(object, c("Red", "Green")))
if (is.null(msg)) TRUE else msg
})
# Internal generics ------------------------------------------------------------
# `x` and `probe_info` are either `Red` and `IGrn` or `Green` and `IRed`,
# respectively.
# `...` are additional arguments passed to methods.
setGeneric(
".getOOB",
function(x, probe_info, ...) standardGeneric(".getOOB"),
signature = c("x")
)
# Internal methods -------------------------------------------------------------
setMethod(".getOOB", "matrix", function(x, probe_info, ...) {
rbind(
x[probe_info$AddressA, , drop = FALSE],
x[probe_info$AddressB, , drop = FALSE])
})
setMethod(
".getOOB",
"DelayedMatrix",
function(x, probe_info, BPREDO = list(), BPPARAM = SerialParam()) {
# Set up intermediate RealizationSink object of appropriate dimensions
# and type.
# NOTE: This is ultimately coerced to the output DelayedMatrix object.
ans_type <- type(x)
sink <- DelayedArray::AutoRealizationSink(
dim = c(2L * nrow(probe_info), ncol(x)),
dimnames = list(
c(probe_info$AddressA, probe_info$AddressB), colnames(x)),
type = ans_type)
on.exit(close(sink))
# Set up ArrayGrid instances over `x` as well as "parallel" ArrayGrid
# instance over `sink`.
x_grid <- colGrid(x)
sink_grid <- RegularArrayGrid(
refdim = dim(sink),
spacings = c(nrow(sink), ncol(sink) / length(x_grid)))
# Sanity check ArrayGrid objects have the same dim
stopifnot(dim(x_grid) == dim(sink_grid))
# Loop over blocks of `Green` and write to `Grn_sink`
blockApplyWithRealization(
FUN = .getOOB,
x = x,
probe_info = probe_info,
sink = sink,
x_grid = x_grid,
sink_grid = sink_grid,
BPREDO = BPREDO,
BPPARAM = BPPARAM)
# Return as DelayedMatrix
as(sink, "DelayedArray")
}
)
# Exported functions -----------------------------------------------------------
RGChannelSet <- function(Green = new("matrix"), Red = new("matrix"),
annotation = "", ...) {
## Check rownames, colnames
assays <- SimpleList(Green = Green, Red = Red)
new("RGChannelSet",
SummarizedExperiment(assays = assays, ...),
annotation = annotation
)
}
getRed <- function(object) {
.isRGOrStop(object)
assay(object, "Red")
}
getGreen <- function(object) {
.isRGOrStop(object)
assay(object, "Green")
}
getOOB <- function(object) {
# Check input
.isRGOrStop(object)
# Extract data to pass to low-level functions that construct `Red` and `Grn`
Red <- getRed(object)
Green <- getGreen(object)
IRed <- getProbeInfo(object, type = "I-Red")
IGreen <- getProbeInfo(object, type = "I-Green")
# Extract OOB probes
list(Grn = .getOOB(Green, IRed), Red = .getOOB(Red, IGreen))
}
getSnpBeta <- function(object) {
# Check input
.isRGOrStop(object)
# Extract and processSNP probes
snpProbesI <- getProbeInfo(object, type = "SnpI")
snpProbesII <- getProbeInfo(object, type = "SnpII")
snpProbesI.Green <- snpProbesI[snpProbesI$Color == "Grn", , drop = FALSE]
snpProbesI.Red <- snpProbesI[snpProbesI$Color == "Red", , drop = FALSE]
# Extract Red and Green channels
Green <- getGreen(object)
Red <- getRed(object)
# Construct M and U
M.II <- Green[snpProbesII$AddressA, , drop = FALSE]
U.II <- Red[snpProbesII$AddressA, , drop = FALSE]
M.I.Red <- Red[snpProbesI.Red$AddressB, , drop = FALSE]
U.I.Red <- Red[snpProbesI.Red$AddressA, , drop = FALSE]
M.I.Green <- Green[snpProbesI.Green$AddressB, , drop = FALSE]
U.I.Green <- Green[snpProbesI.Green$AddressA, , drop = FALSE]
M <- rbind(M.II, M.I.Red, M.I.Green)
U <- rbind(U.II, U.I.Red, U.I.Green)
rownames(M) <- rownames(U) <- c(
snpProbesII$Name,
snpProbesI.Red$Name,
snpProbesI.Green$Name)
# Compute beta
M / (U + M + 100)
}
subsetByLoci <- function(rgSet, includeLoci = NULL, excludeLoci = NULL,
keepControls = TRUE, keepSnps = TRUE) {
# Check input
.isRGOrStop(rgSet)
# Get probe info
TypeII <- getProbeInfo(rgSet, type = "II")
TypeI.Red <- getProbeInfo(rgSet, type = "I-Red")
TypeI.Green <- getProbeInfo(rgSet, type = "I-Green")
# Select probes to retain
if (!is.null(includeLoci)) {
TypeII <- TypeII[TypeII$Name %in% includeLoci, ]
TypeI.Red <- TypeI.Red[TypeI.Red$Name %in% includeLoci, ]
TypeI.Green <- TypeI.Green[TypeI.Green$Name %in% includeLoci, ]
}
if (!is.null(excludeLoci)) {
TypeII <- TypeII[!TypeII$Name %in% excludeLoci, ]
TypeI.Red <- TypeI.Red[!TypeI.Red$Name %in% excludeLoci, ]
TypeI.Green <- TypeI.Green[!TypeI.Green$Name %in% excludeLoci, ]
}
addresses <- c(
TypeII$AddressA,
TypeI.Red$AddressA, TypeI.Red$AddressB,
TypeI.Green$AddressA, TypeI.Green$AddressB)
if (keepControls) {
addresses <- c(addresses, getProbeInfo(rgSet, type = "Control")$Address)
}
if (keepSnps) {
addresses <- c(
addresses,
getProbeInfo(rgSet, type = "SnpI")$AddressA,
getProbeInfo(rgSet, type = "SnpI")$AddressB,
getProbeInfo(rgSet, type = "SnpII")$AddressA)
}
indices <- which(rownames(rgSet) %in% addresses)
# Filter RGChannelSet to retain only the selected probes
rgSet[indices, ]
}
# Exported methods -------------------------------------------------------------
setMethod("show", signature(object = "RGChannelSet"), function(object) {
callNextMethod()
.show.annotation(annotation(object))
})
setMethod("annotation", signature(object = "RGChannelSet"), function(object) {
object@annotation
})
setReplaceMethod(
"annotation",
signature(object = "RGChannelSet"),
function(object, value) {
object@annotation <- value
object
}
)
setMethod(
"updateObject",
signature(object = "RGChannelSet"),
function(object, ..., verbose = FALSE) {
if (verbose) message("updateObject(object = 'RGChannelSet')")
if ("assayData" %in% names(getObjectSlots(object))) {
# This is an ExpressionSet based object
object <- RGChannelSet(
Green = getObjectSlots(object)[["assayData"]][["Green"]],
Red = getObjectSlots(object)[["assayData"]][["Red"]],
colData = getObjectSlots(
getObjectSlots(object)[["phenoData"]])[["data"]],
annotation = getObjectSlots(object)[["annotation"]])
}
object
}
)
setMethod("getManifest", signature(object = "RGChannelSet"), function(object) {
maniString <- .getManifestString(object@annotation)
if (!require(maniString, character.only = TRUE)) {
stop(sprintf("cannot load manifest package %s", maniString))
}
get(maniString)
})
setMethod("getBeta", signature(object = "RGChannelSet"), function(object, ...) {
object <- preprocessRaw(object)
callGeneric(object, ...)
})
setMethod(
"mapToGenome",
signature(object = "RGChannelSet"),
function(object, ...) {
object <- preprocessRaw(object)
callGeneric(object, ...)
}
)
setMethod(
"combine",
signature(x = "RGChannelSet", y = "RGChannelSet"),
function(x, y, ...) {
colDataFix <- .harmonizeDataFrames(
.pDataFix(colData(x)),
.pDataFix(colData(y)))
colData(x) <- colDataFix$x
colData(y) <- colDataFix$y
cbind(x, y)
}
)
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minfi documentation built on Nov. 8, 2020, 4:53 p.m.
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Defines functions subsetByLoci getSnpBeta getOOB getGreen getRed RGChannelSet
Documented in getGreen getOOB getRed getSnpBeta RGChannelSet subsetByLoci
# Exported classes -------------------------------------------------------------
setClass(
"RGChannelSet",
representation(annotation = "character"),
contains = "SummarizedExperiment"
)
# Validity methods -------------------------------------------------------------
setValidity("RGChannelSet", function(object) {
msg <- validMsg(NULL, .checkAssayNames(object, c("Red", "Green")))
if (is.null(msg)) TRUE else msg
})
# Internal generics ------------------------------------------------------------
# `x` and `probe_info` are either `Red` and `IGrn` or `Green` and `IRed`,
# respectively.
# `...` are additional arguments passed to methods.
setGeneric(
".getOOB",
function(x, probe_info, ...) standardGeneric(".getOOB"),
signature = c("x")
)
# Internal methods -------------------------------------------------------------
setMethod(".getOOB", "matrix", function(x, probe_info, ...) {
rbind(
x[probe_info$AddressA, , drop = FALSE],
x[probe_info$AddressB, , drop = FALSE])
})
setMethod(
".getOOB",
"DelayedMatrix",
function(x, probe_info, BPREDO = list(), BPPARAM = SerialParam()) {
# Set up intermediate RealizationSink object of appropriate dimensions
# and type.
# NOTE: This is ultimately coerced to the output DelayedMatrix object.
ans_type <- type(x)
sink <- DelayedArray::AutoRealizationSink(
dim = c(2L * nrow(probe_info), ncol(x)),
dimnames = list(
c(probe_info$AddressA, probe_info$AddressB), colnames(x)),
type = ans_type)
on.exit(close(sink))
# Set up ArrayGrid instances over `x` as well as "parallel" ArrayGrid
# instance over `sink`.
x_grid <- colGrid(x)
sink_grid <- RegularArrayGrid(
refdim = dim(sink),
spacings = c(nrow(sink), ncol(sink) / length(x_grid)))
# Sanity check ArrayGrid objects have the same dim
stopifnot(dim(x_grid) == dim(sink_grid))
# Loop over blocks of `Green` and write to `Grn_sink`
blockApplyWithRealization(
FUN = .getOOB,
x = x,
probe_info = probe_info,
sink = sink,
x_grid = x_grid,
sink_grid = sink_grid,
BPREDO = BPREDO,
BPPARAM = BPPARAM)
# Return as DelayedMatrix
as(sink, "DelayedArray")
}
)
# Exported functions -----------------------------------------------------------
RGChannelSet <- function(Green = new("matrix"), Red = new("matrix"),
annotation = "", ...) {
## Check rownames, colnames
assays <- SimpleList(Green = Green, Red = Red)
new("RGChannelSet",
SummarizedExperiment(assays = assays, ...),
annotation = annotation
)
}
getRed <- function(object) {
.isRGOrStop(object)
assay(object, "Red")
}
getGreen <- function(object) {
.isRGOrStop(object)
assay(object, "Green")
}
getOOB <- function(object) {
# Check input
.isRGOrStop(object)
# Extract data to pass to low-level functions that construct `Red` and `Grn`
Red <- getRed(object)
Green <- getGreen(object)
IRed <- getProbeInfo(object, type = "I-Red")
IGreen <- getProbeInfo(object, type = "I-Green")
# Extract OOB probes
list(Grn = .getOOB(Green, IRed), Red = .getOOB(Red, IGreen))
}
getSnpBeta <- function(object) {
# Check input
.isRGOrStop(object)
# Extract and processSNP probes
snpProbesI <- getProbeInfo(object, type = "SnpI")
snpProbesII <- getProbeInfo(object, type = "SnpII")
snpProbesI.Green <- snpProbesI[snpProbesI$Color == "Grn", , drop = FALSE]
snpProbesI.Red <- snpProbesI[snpProbesI$Color == "Red", , drop = FALSE]
# Extract Red and Green channels
Green <- getGreen(object)
Red <- getRed(object)
# Construct M and U
M.II <- Green[snpProbesII$AddressA, , drop = FALSE]
U.II <- Red[snpProbesII$AddressA, , drop = FALSE]
M.I.Red <- Red[snpProbesI.Red$AddressB, , drop = FALSE]
U.I.Red <- Red[snpProbesI.Red$AddressA, , drop = FALSE]
M.I.Green <- Green[snpProbesI.Green$AddressB, , drop = FALSE]
U.I.Green <- Green[snpProbesI.Green$AddressA, , drop = FALSE]
M <- rbind(M.II, M.I.Red, M.I.Green)
U <- rbind(U.II, U.I.Red, U.I.Green)
rownames(M) <- rownames(U) <- c(
snpProbesII$Name,
snpProbesI.Red$Name,
snpProbesI.Green$Name)
# Compute beta
M / (U + M + 100)
}
subsetByLoci <- function(rgSet, includeLoci = NULL, excludeLoci = NULL,
keepControls = TRUE, keepSnps = TRUE) {
# Check input
.isRGOrStop(rgSet)
# Get probe info
TypeII <- getProbeInfo(rgSet, type = "II")
TypeI.Red <- getProbeInfo(rgSet, type = "I-Red")
TypeI.Green <- getProbeInfo(rgSet, type = "I-Green")
# Select probes to retain
if (!is.null(includeLoci)) {
TypeII <- TypeII[TypeII$Name %in% includeLoci, ]
TypeI.Red <- TypeI.Red[TypeI.Red$Name %in% includeLoci, ]
TypeI.Green <- TypeI.Green[TypeI.Green$Name %in% includeLoci, ]
}
if (!is.null(excludeLoci)) {
TypeII <- TypeII[!TypeII$Name %in% excludeLoci, ]
TypeI.Red <- TypeI.Red[!TypeI.Red$Name %in% excludeLoci, ]
TypeI.Green <- TypeI.Green[!TypeI.Green$Name %in% excludeLoci, ]
}
addresses <- c(
TypeII$AddressA,
TypeI.Red$AddressA, TypeI.Red$AddressB,
TypeI.Green$AddressA, TypeI.Green$AddressB)
if (keepControls) {
addresses <- c(addresses, getProbeInfo(rgSet, type = "Control")$Address)
}
if (keepSnps) {
addresses <- c(
addresses,
getProbeInfo(rgSet, type = "SnpI")$AddressA,
getProbeInfo(rgSet, type = "SnpI")$AddressB,
getProbeInfo(rgSet, type = "SnpII")$AddressA)
}
indices <- which(rownames(rgSet) %in% addresses)
# Filter RGChannelSet to retain only the selected probes
rgSet[indices, ]
}
# Exported methods -------------------------------------------------------------
setMethod("show", signature(object = "RGChannelSet"), function(object) {
callNextMethod()
.show.annotation(annotation(object))
})
setMethod("annotation", signature(object = "RGChannelSet"), function(object) {
object@annotation
})
setReplaceMethod(
"annotation",
signature(object = "RGChannelSet"),
function(object, value) {
object@annotation <- value
object
}
)
setMethod(
"updateObject",
signature(object = "RGChannelSet"),
function(object, ..., verbose = FALSE) {
if (verbose) message("updateObject(object = 'RGChannelSet')")
if ("assayData" %in% names(getObjectSlots(object))) {
# This is an ExpressionSet based object
object <- RGChannelSet(
Green = getObjectSlots(object)[["assayData"]][["Green"]],
Red = getObjectSlots(object)[["assayData"]][["Red"]],
colData = getObjectSlots(
getObjectSlots(object)[["phenoData"]])[["data"]],
annotation = getObjectSlots(object)[["annotation"]])
}
object
}
)
setMethod("getManifest", signature(object = "RGChannelSet"), function(object) {
maniString <- .getManifestString(object@annotation)
if (!require(maniString, character.only = TRUE)) {
stop(sprintf("cannot load manifest package %s", maniString))
}
get(maniString)
})
setMethod("getBeta", signature(object = "RGChannelSet"), function(object, ...) {
object <- preprocessRaw(object)
callGeneric(object, ...)
})
setMethod(
"mapToGenome",
signature(object = "RGChannelSet"),
function(object, ...) {
object <- preprocessRaw(object)
callGeneric(object, ...)
}
)
setMethod(
"combine",
signature(x = "RGChannelSet", y = "RGChannelSet"),
function(x, y, ...) {
colDataFix <- .harmonizeDataFrames(
.pDataFix(colData(x)),
.pDataFix(colData(y)))
colData(x) <- colDataFix$x
colData(y) <- colDataFix$y
cbind(x, y)
}
)
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