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R/ModifierSet-viz.R
In RNAmodR: Detection of post-transcriptional modifications in high throughput sequencing data
Defines functions
.add_viz_ylim
.add_viz_names
.add_viz_colours
.norm_viz_colours
.norm_viz_args_ModifierSet
#' @include RNAmodR.R
#' @include Modifier-viz.R
NULL
.viz_ModifierSet_settings <- data.frame(
variable = c("colours"),
testFUN = c(".not_colours"),
errorValue = c(TRUE),
errorMessage = c("'colours' must be valid colour representation, which can be interpreted by col2rgb()."),
stringsAsFactors = FALSE)
.norm_viz_args_ModifierSet <- function(input, x){
colours <- NA
args <- .norm_settings(input, .viz_ModifierSet_settings, colours)
args <- c(.norm_viz_args_Modifier(input, x),
args)
args
}
#' @importFrom RColorBrewer brewer.pal
.norm_viz_colours <- function(x ,colours){
n <- length(x)
if(!is.na(colours)){
if(n != length(colours)){
stop("'colours' must have the same length as 'x'.", call. = FALSE)
}
return(colours)
}
# brewer.pal needs n >=3
ans <- RColorBrewer::brewer.pal(max(3,n),"Set1")
ans[seq.int(1,n)]
}
.add_viz_colours <- function(dts, colours){
dts <- Map(
function(dt, colour){
if(is.list(dt)){
dt <- lapply(dt,
function(t){
Gviz::displayPars(t)$col <- colour
Gviz::displayPars(t)$fill <- colour
t
})
} else {
Gviz::displayPars(dt)$col <- colour
Gviz::displayPars(dt)$fill <- colour
}
dt
},
dts,
colours)
dts
}
.add_viz_names <- function(dts, names){
dts <- Map(
function(dt, name){
if(is.list(dt)){
dt <- lapply(dt,
function(t){
t@name <- paste0(name,"\n",t@name)
t
})
} else {
dt@name <- paste0(name,"\n",dt@name)
}
dt
},
dts,
names)
dts
}
.add_viz_ylim <- function(dts, chromosome, from_to){
types <- unique(names(dts))
max <- lapply(
types,
function(t){
max <- vapply(
dts[t],
function(dt){
f <- BiocGenerics::which(seqnames(dt@range) == chromosome &
start(dt@range) >= from_to$from &
end(dt@range) <= from_to$to)
max(colSums(dt@data[,f,drop=FALSE]))
},
numeric(1))
max <- max(max)
if(is.infinite(max)){
max <- 0
}
max
})
names(max) <- types
dts <- Map(
function(dt,t){
ylim <- c(0,max[[t]])
if(sum(ylim) != 0L){
Gviz::displayPars(dt)$ylim <- ylim
}
dt
},
dts,
names(dts))
dts
}
#' @rdname plotData
#' @export
setMethod(
f = "plotDataByCoord",
signature = signature(x = "ModifierSet", coord = "GRanges"),
definition = function(x, coord, type = NA, window.size = 15L, ...) {
# input check
coord <- .norm_coord_for_visualization(ranges(x), coord)
from_to <- .get_viz_from_to_coord(ranges(x), coord, window.size)
plotData(x, name = coord$Parent, from = from_to$from,
to = from_to$to, type = type, ...)
}
)
#' @rdname plotData
#' @export
setMethod(
f = "plotData",
signature = signature(x = "ModifierSet"),
definition = function(x, name, from, to, type = NA, showSequenceData = FALSE,
showSequence = TRUE, showAnnotation = FALSE, ...) {
# get plotting arguments
args <- .norm_viz_args_ModifierSet(list(...), x)
if(!.is_a_string(name)){
stop("'Name' must be a character.", call. = FALSE)
}
chromosome <- .norm_viz_chromosome(ranges(x), name)
from_to <- .get_viz_from_to(ranges(x), name, from, to)
showSequenceData <- .norm_show_argument(showSequenceData, FALSE)
showSequence <- .norm_show_argument(showSequence, TRUE)
showAnnotation <- .norm_show_argument(showAnnotation, FALSE)
type <- .norm_score_type(type)
colours <- .norm_viz_colours(x, args[["colours"]])
# get tracks
atm <- NULL
st <- NULL
if(showAnnotation){
atm <- .get_viz_annotation_track(x, args)
}
if(showSequence){
seq <- .get_viz_sequence(x, args)[name]
st <- .get_viz_sequence_track(seq, ranges(x)[name], chromosome, args)
}
dts <- lapply(x, getDataTrack, name = name, type = type, ...)
dts <- .add_viz_names(dts, names(x))
dts <- .add_viz_colours(dts, colours)
dts <- do.call(c,unname(dts))
dts <- .add_viz_ylim(dts, chromosome, from_to)
if(showSequenceData){
sdts <- lapply(x, function(z){getDataTrack(sequenceData(z), name = name, ...)})
sdts <- .add_viz_names(sdts, names(x))
sdts <- do.call(c,unname(sdts))
sdts <- .add_viz_ylim(sdts, chromosome, from_to)
tracks <- c(dts, sdts, list(st,atm))
} else {
tracks <- c(dts, list(st,atm))
}
# plot tracks
tracks <- tracks[!vapply(tracks, is.null, logical(1))]
do.call(Gviz::plotTracks,
c(list(tracks, from = from_to$from, to = from_to$to,
chromosome = chromosome),
args[["plot.pars"]]))
}
)
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RNAmodR documentation built on Dec. 15, 2020, 2 a.m.
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Defines functions .add_viz_ylim .add_viz_names .add_viz_colours .norm_viz_colours .norm_viz_args_ModifierSet
#' @include RNAmodR.R
#' @include Modifier-viz.R
NULL
.viz_ModifierSet_settings <- data.frame(
variable = c("colours"),
testFUN = c(".not_colours"),
errorValue = c(TRUE),
errorMessage = c("'colours' must be valid colour representation, which can be interpreted by col2rgb()."),
stringsAsFactors = FALSE)
.norm_viz_args_ModifierSet <- function(input, x){
colours <- NA
args <- .norm_settings(input, .viz_ModifierSet_settings, colours)
args <- c(.norm_viz_args_Modifier(input, x),
args)
args
}
#' @importFrom RColorBrewer brewer.pal
.norm_viz_colours <- function(x ,colours){
n <- length(x)
if(!is.na(colours)){
if(n != length(colours)){
stop("'colours' must have the same length as 'x'.", call. = FALSE)
}
return(colours)
}
# brewer.pal needs n >=3
ans <- RColorBrewer::brewer.pal(max(3,n),"Set1")
ans[seq.int(1,n)]
}
.add_viz_colours <- function(dts, colours){
dts <- Map(
function(dt, colour){
if(is.list(dt)){
dt <- lapply(dt,
function(t){
Gviz::displayPars(t)$col <- colour
Gviz::displayPars(t)$fill <- colour
t
})
} else {
Gviz::displayPars(dt)$col <- colour
Gviz::displayPars(dt)$fill <- colour
}
dt
},
dts,
colours)
dts
}
.add_viz_names <- function(dts, names){
dts <- Map(
function(dt, name){
if(is.list(dt)){
dt <- lapply(dt,
function(t){
t@name <- paste0(name,"\n",t@name)
t
})
} else {
dt@name <- paste0(name,"\n",dt@name)
}
dt
},
dts,
names)
dts
}
.add_viz_ylim <- function(dts, chromosome, from_to){
types <- unique(names(dts))
max <- lapply(
types,
function(t){
max <- vapply(
dts[t],
function(dt){
f <- BiocGenerics::which(seqnames(dt@range) == chromosome &
start(dt@range) >= from_to$from &
end(dt@range) <= from_to$to)
max(colSums(dt@data[,f,drop=FALSE]))
},
numeric(1))
max <- max(max)
if(is.infinite(max)){
max <- 0
}
max
})
names(max) <- types
dts <- Map(
function(dt,t){
ylim <- c(0,max[[t]])
if(sum(ylim) != 0L){
Gviz::displayPars(dt)$ylim <- ylim
}
dt
},
dts,
names(dts))
dts
}
#' @rdname plotData
#' @export
setMethod(
f = "plotDataByCoord",
signature = signature(x = "ModifierSet", coord = "GRanges"),
definition = function(x, coord, type = NA, window.size = 15L, ...) {
# input check
coord <- .norm_coord_for_visualization(ranges(x), coord)
from_to <- .get_viz_from_to_coord(ranges(x), coord, window.size)
plotData(x, name = coord$Parent, from = from_to$from,
to = from_to$to, type = type, ...)
}
)
#' @rdname plotData
#' @export
setMethod(
f = "plotData",
signature = signature(x = "ModifierSet"),
definition = function(x, name, from, to, type = NA, showSequenceData = FALSE,
showSequence = TRUE, showAnnotation = FALSE, ...) {
# get plotting arguments
args <- .norm_viz_args_ModifierSet(list(...), x)
if(!.is_a_string(name)){
stop("'Name' must be a character.", call. = FALSE)
}
chromosome <- .norm_viz_chromosome(ranges(x), name)
from_to <- .get_viz_from_to(ranges(x), name, from, to)
showSequenceData <- .norm_show_argument(showSequenceData, FALSE)
showSequence <- .norm_show_argument(showSequence, TRUE)
showAnnotation <- .norm_show_argument(showAnnotation, FALSE)
type <- .norm_score_type(type)
colours <- .norm_viz_colours(x, args[["colours"]])
# get tracks
atm <- NULL
st <- NULL
if(showAnnotation){
atm <- .get_viz_annotation_track(x, args)
}
if(showSequence){
seq <- .get_viz_sequence(x, args)[name]
st <- .get_viz_sequence_track(seq, ranges(x)[name], chromosome, args)
}
dts <- lapply(x, getDataTrack, name = name, type = type, ...)
dts <- .add_viz_names(dts, names(x))
dts <- .add_viz_colours(dts, colours)
dts <- do.call(c,unname(dts))
dts <- .add_viz_ylim(dts, chromosome, from_to)
if(showSequenceData){
sdts <- lapply(x, function(z){getDataTrack(sequenceData(z), name = name, ...)})
sdts <- .add_viz_names(sdts, names(x))
sdts <- do.call(c,unname(sdts))
sdts <- .add_viz_ylim(sdts, chromosome, from_to)
tracks <- c(dts, sdts, list(st,atm))
} else {
tracks <- c(dts, list(st,atm))
}
# plot tracks
tracks <- tracks[!vapply(tracks, is.null, logical(1))]
do.call(Gviz::plotTracks,
c(list(tracks, from = from_to$from, to = from_to$to,
chromosome = chromosome),
args[["plot.pars"]]))
}
)
Try the RNAmodR package in your browser
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R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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