R/plotCoverage.R
In jma1991/Daim: Analysis, interpretation, and visualization of DamID-seq data
Defines functions
plotCoverage.RangedSummarizedExperiment
plotCoverage
Documented in
plotCoverage
#' Cumulative distribution of sequencing coverage
#'
#' Produce a cumulative distribution of sequence coverge plot.
#'
#' @param object A \code{RangedSummarizedExperiment} object.
#' @param group A factor assigning samples to groups.
#' @return A cumulative distribution of sequence coverge plot on the current graphics device.
plotCoverage <- function(object, group = NULL) {
# Check argument missing
if (missing(object)) {
stop("`object` is missing, with no default.", call. = FALSE)
}
# Check argument class
if (!is(object, "RangedSummarizedExperiment")) {
stop("`object` must be a RangedSummarizedExperiment class.", call. = FALSE)
}
# Check argument value
if (!("countsData" %in% assayNames(object))) {
stop("Can't find matrix 'countsData' in assays slot of 'object'.", call. = FALSE)
}
# Dispatch relevant method
UseMethod("plotCoverage", object)
}
plotCoverage.RangedSummarizedExperiment <- function(object, group = NULL) {
# Compute cumulative distribution function
distFun <- apply(assay(object, "countsData"), 2, ecdf)
distSeq <- seq(0, 100, length.out = 100)
distCov <- lapply(distFun, function(x) x(distSeq))
distCov <- 1 - t(do.call(rbind, distCov))
# Define pretty breaks
sideBreaks1 <- pretty(distSeq)
sideBreaks2 <- pretty(seq(0, max(distCov) + 0.1, by = 0.1))
# Define pretty limits
sideLimits1 <- range(sideBreaks1)
sideLimits2 <- range(sideBreaks2)
# Create colour palette
colorPalette <- RColorBrewer::brewer.pal(n = 3, name = "Dark2")
# Define colours by group
if (is.null(group)) {
groupFactor <- as.factor(seq_len(ncol(object)))
groupColors <- rep(colorPalette, length.out = length(groupFactor))
} else {
groupFactor <- as.factor(group)
groupColors <- colorPalette[as.integer(groupFactor)]
}
# Draw plotting area
matplot(
x = distSeq,
y = distCov,
type = "l",
lty = 1,
col = groupColors,
axes = TRUE,
main = "Read coverage",
xlab = "Read count",
ylab = "Fraction of fragments >= Read count",
xlim = sideLimits1,
ylim = sideLimits2,
xaxt = "n",
yaxt = "n")
# Draw axis ticks
axis(side = 1, at = sideBreaks1, las = 0)
axis(side = 2, at = sideBreaks2, las = 2)
# Draw plot legend
legend(
"topright",
legend = levels(groupFactor),
col = unique(groupColors),
bty = "n",
lty = 1)
}
jma1991/Daim documentation built on Oct. 4, 2020, 2:21 a.m.
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Defines functions plotCoverage.RangedSummarizedExperiment plotCoverage
Documented in plotCoverage
#' Cumulative distribution of sequencing coverage
#'
#' Produce a cumulative distribution of sequence coverge plot.
#'
#' @param object A \code{RangedSummarizedExperiment} object.
#' @param group A factor assigning samples to groups.
#' @return A cumulative distribution of sequence coverge plot on the current graphics device.
plotCoverage <- function(object, group = NULL) {
# Check argument missing
if (missing(object)) {
stop("`object` is missing, with no default.", call. = FALSE)
}
# Check argument class
if (!is(object, "RangedSummarizedExperiment")) {
stop("`object` must be a RangedSummarizedExperiment class.", call. = FALSE)
}
# Check argument value
if (!("countsData" %in% assayNames(object))) {
stop("Can't find matrix 'countsData' in assays slot of 'object'.", call. = FALSE)
}
# Dispatch relevant method
UseMethod("plotCoverage", object)
}
plotCoverage.RangedSummarizedExperiment <- function(object, group = NULL) {
# Compute cumulative distribution function
distFun <- apply(assay(object, "countsData"), 2, ecdf)
distSeq <- seq(0, 100, length.out = 100)
distCov <- lapply(distFun, function(x) x(distSeq))
distCov <- 1 - t(do.call(rbind, distCov))
# Define pretty breaks
sideBreaks1 <- pretty(distSeq)
sideBreaks2 <- pretty(seq(0, max(distCov) + 0.1, by = 0.1))
# Define pretty limits
sideLimits1 <- range(sideBreaks1)
sideLimits2 <- range(sideBreaks2)
# Create colour palette
colorPalette <- RColorBrewer::brewer.pal(n = 3, name = "Dark2")
# Define colours by group
if (is.null(group)) {
groupFactor <- as.factor(seq_len(ncol(object)))
groupColors <- rep(colorPalette, length.out = length(groupFactor))
} else {
groupFactor <- as.factor(group)
groupColors <- colorPalette[as.integer(groupFactor)]
}
# Draw plotting area
matplot(
x = distSeq,
y = distCov,
type = "l",
lty = 1,
col = groupColors,
axes = TRUE,
main = "Read coverage",
xlab = "Read count",
ylab = "Fraction of fragments >= Read count",
xlim = sideLimits1,
ylim = sideLimits2,
xaxt = "n",
yaxt = "n")
# Draw axis ticks
axis(side = 1, at = sideBreaks1, las = 0)
axis(side = 2, at = sideBreaks2, las = 2)
# Draw plot legend
legend(
"topright",
legend = levels(groupFactor),
col = unique(groupColors),
bty = "n",
lty = 1)
}
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