Nothing
R/Modifier-roc.R
In RNAmodR: Detection of post-transcriptional modifications in high throughput sequencing data
Defines functions
.plot_ROCR
.get_prediction_data_ModifierSet
.get_prediction_data_Modifier
.readjust_plot_args
.norm_plot_args
.norm_performance_args
.norm_prediction_args
#' @include RNAmodR.R
#' @include Modifier-class.R
#' @include ModifierSet-class.R
NULL
#' @name plotROC
#'
#' @title ROCR functions for \code{Modifier} and \code{ModifierSet} objects
#'
#' @description
#' \code{plotROC} streamlines labeling, prediction, performance and plotting
#' functions to test the peformance of a \code{Modifier} object and the data
#' analyzed via the functionallity from the \code{ROCR} package.
#'
#' The data from \code{x} will be labeled as positive using the \code{coord}
#' arguments. The other arguments will be passed on to the specific \code{ROCR}
#' functions.
#'
#' By default the \code{prediction.args} include three values:
#' \itemize{
#' \item{\code{measure = "tpr"}}
#' \item{\code{x.measure = "fpr"}}
#' \item{\code{score = mainScore(x)}}
#' }
#' The remaining arguments are not predefined.
#'
#' @param x a \code{Modifier} or a \code{ModifierSet} object
#' @param coord coordinates of position to label as positive. Either a
#' \code{GRanges} or a \code{GRangesList} object. For both types the Parent
#' column is expected to match the gene or transcript name.
#' @param score the score identifier to subset to, if multiple scores are
#' available.
#' @param prediction.args arguments which will be used for calling
#' \code{\link[ROCR:prediction]{prediction}} form the \code{ROCR} package
#' @param performance.args arguments which will be used for calling
#' \code{\link[ROCR:performance]{performance}} form the \code{ROCR} package
#' @param plot.args arguments which will be used for calling \code{plot} on the
#' performance object of the \code{ROCR} package. If multiple scores are plotted
#' (for example if the score argument is not explicitly set) \code{add = FALSE}
#' will be set.
#' @param ... additional arguments
#'
#' @return a plot send to the active graphic device
#'
#' @references
#' Tobias Sing, Oliver Sander, Niko Beerenwinkel, Thomas Lengauer (2005): "ROCR:
#' visualizing classifier performance in R." Bioinformatics 21(20):3940-3941
#' DOI:
#' \href{https://doi.org/10.1093/bioinformatics/bti623}{10.1093/bioinformatics/bti623}
#'
#' @examples
#' data(msi,package="RNAmodR")
#' # constructing a GRanges obejct to mark positive positions
#' mod <- modifications(msi)
#' coord <- unique(unlist(mod))
#' coord$score <- NULL
#' coord$sd <- NULL
#' # plotting a TPR vs. FPR plot per ModInosine object
#' plotROC(msi[[1]],coord)
#' # plotting a TPR vs. FPR plot per ModSetInosine object
#' plotROC(msi,coord)
NULL
.norm_prediction_args <- function(input){
if(!is.list(input)){
stop("'prediction.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'prediction.args'. All values will be dropped.")
input <- list()
}
args <- input
args
}
.rocr_exclusive_functions <- c("rch","auc","prbe","mxe","rmse","ecost")
.rocr_performance_settings <- data.frame(
variable = c("measure",
"x.measure",
"score"),
testFUN = c(".is_a_string",
".is_a_string",
".is_a_string"),
errorValue = c(FALSE,
FALSE,
FALSE),
errorMessage = c("'measure' must a single character compatible with ?ROCR::performance.",
"'x.measure' must a single character compatible with ?ROCR::performance.",
"'score' must a single character and a valid column name in getAggregateData()."),
stringsAsFactors = FALSE)
.norm_performance_args <- function(input, x){
if(!is.list(input)){
stop("'performance.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'performance.args'. All values will be dropped.")
input <- list()
}
measure <- "tpr"
x.measure <- "fpr"
score <- mainScore(x)
args <- .norm_settings(input, .rocr_performance_settings, measure, x.measure,
score)
if(args[["measure"]] %in% .rocr_exclusive_functions){
args[["x.measure"]] <- "cutoff"
}
if(is(x,"Modifier")){
cn <- colnames(getAggregateData(x)[[1]])
} else if(is(x,"ModifierSet")) {
cn <- colnames(getAggregateData(x[[1]])[[1]])
} else {
stop("")
}
if(!(args[["score"]] %in% cn)){
stop(.rocr_performance_settings[.rocr_performance_settings$variable == "score","errorMessage"],
call. = FALSE)
}
args <- c(args, input[!(names(input) %in% names(args))])
args
}
.rocr_plot_settings <- data.frame(
variable = c("colorize",
"lwd",
"colorize.palette",
"abline",
"AUC"),
testFUN = c(".is_a_bool",
".is_numeric_string",
".is_a_string",
".is_a_bool",
".is_a_bool"),
errorValue = c(FALSE,
FALSE,
FALSE,
FALSE,
FALSE),
errorMessage = c("'colorize' must a single logical value.",
"'lwd' must be a single numeric value.",
"'colorize.palette' must a single character compatible with ?ROCR::plot.performance.",
"'abline' must a single logical value.",
"'AUC' must a single logical value."),
stringsAsFactors = FALSE)
.norm_plot_args <- function(input){
if(!is.list(input)){
stop("'plot.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'plot.args'. All values will be dropped.")
input <- list()
}
colorize <- TRUE
lwd <- 3
colorize.palette <- NULL
abline <- FALSE
AUC <- FALSE
args <- .norm_settings(input, .rocr_plot_settings, colorize, lwd,
colorize.palette, abline, AUC)
args <- c(args, input[!(names(input) %in% names(args))])
args
}
#' @importFrom grDevices rainbow
.readjust_plot_args <- function(plot.args, performance.args){
if(performance.args[["measure"]] %in% .rocr_exclusive_functions){
plot.args[["colorize"]] <- NULL
}
if(is.null(plot.args[["avg"]])){
plot.args[["avg"]] <- "none"
}
if(is.null(plot.args[["spread.estimate"]])){
plot.args[["spread.estimate"]] <- "none"
}
if(is.null(plot.args[["spread.scale"]])){
plot.args[["spread.scale"]] <- 1
}
if(is.null(plot.args[["show.spread.at"]])){
plot.args[["show.spread.at"]] <- c()
}
if(is.null(plot.args[["colorize"]])){
plot.args[["colorize"]] <- FALSE
}
if(is.null(plot.args[["colorize.palette"]])){
plot.args[["colorize.palette"]] <- rev(grDevices::rainbow(256, start = 0,
end = 4/6))
}
if(is.null(plot.args[["colorkey"]])){
plot.args[["colorkey"]] <- plot.args[["colorize"]]
}
if(is.null(plot.args[["colorkey.relwidth"]])){
plot.args[["colorkey.relwidth"]] <- 0.25
}
if(is.null(plot.args[["colorkey.pos"]])){
plot.args[["colorkey.pos"]] <- "right"
}
if(is.null(plot.args[["print.cutoffs.at"]])){
plot.args[["print.cutoffs.at"]] <- c()
}
if(is.null(plot.args[["cutoff.label.function"]])){
plot.args[["cutoff.label.function"]] <- function(x) { round(x,2) }
}
if(is.null(plot.args[["downsampling"]])){
plot.args[["downsampling"]] <- 0
}
if(is.null(plot.args[["add"]])){
plot.args[["add"]] <- FALSE
}
return(plot.args)
}
.get_prediction_data_Modifier <- function(x, coord, score){
data <- .label_Modifier_by_GRangesList(x, coord)
unlisted_data <- unlist(data)
# exempt character values
f_non_character <- vapply(unlisted_data,
function(x) {
!is.character(x)
},logical(1))
colnames <- colnames(unlisted_data)[f_non_character]
if(!is.null(score)){
if(!all(score %in% colnames)){
stop("Score identifier '",
paste(score[!(score %in% colnames)], collapse = "','"),
"' not found in the data. Available ",
"columns: '",paste(colnames[colnames != "labels"], collapse = "','"),
"'.",
call. = FALSE)
}
}
colnames <- colnames[colnames != "labels"]
data <- lapply(seq_along(colnames),
function(i){
cn <- colnames[i]
cn <- c("labels",cn)
d <- data[,cn]
colnames(d) <- c("labels","predictions")
d <- unlist(d)
rownames(d) <- NULL
d
})
names(data) <- colnames
data
}
.get_prediction_data_ModifierSet <- function(x, coord, score){
data <- lapply(x, .get_prediction_data_Modifier, coord, score)
data_names <- names(data[[1]])
data <- lapply(data_names,
function(name){
lapply(data,"[[",name)
})
data <- lapply(data,
function(d){
predictions <- as.data.frame(lapply(d,"[","predictions"))
labels <- as.data.frame(lapply(d,"[","labels"))
colnames(predictions) <- names(d)
colnames(labels) <- names(d)
list(predictions = predictions,
labels = labels)
})
names(data) <- data_names
data
}
#' @importFrom graphics par abline title legend plot.new
#' @importFrom ROCR prediction performance
.plot_ROCR <- function(data, prediction.args, performance.args, plot.args,
score){
if(!is.null(score)){
data <- data[names(data) %in% score]
}
plot.args <- .readjust_plot_args(plot.args, performance.args)
# add argument logical vector
n <- length(data)
# save mfrow setting
mfrow_bak <- graphics::par("mfrow")
mfrow_col <- ceiling(sqrt(n))
mfrow_row <- ceiling(n / mfrow_col)
graphics::par(mfrow = c(mfrow_row,mfrow_col))
n_remaining <- (mfrow_row * mfrow_col) - n
#
if(is.null(plot.args[["colorize.palette"]])){
plot.args[["colorize.palette"]] <- NULL
}
if(n > 1L){
plot.args[["add"]] <- FALSE
}
#
Map(
function(d, name, colour, prediction.args, performance.args, plot.args){
pred <- do.call(ROCR::prediction, c(list(predictions = d$predictions,
labels = d$labels),
prediction.args))
perf <- do.call(ROCR::performance, c(list(prediction.obj = pred),
performance.args))
tmp <- try(do.call(ROCR:::.plot.performance,
c(list(perf = perf), plot.args)),
silent = TRUE)
if(is(tmp,"try-error")){
stop("Error during plotting of performance object: ",tmp)
}
graphics::title(main = name)
if(plot.args[["abline"]]){
graphics::abline(a = 0, b = 1)
}
if(plot.args[["AUC"]]){
auc <- unlist(slot(performance(pred,"auc"),"y.values"))
auc <- paste(c("AUC = "), round(auc,2L), sep = "")
graphics::legend(0.55, 0.25, auc, bty = "n", cex = 1)
}
},
data,
names(data),
MoreArgs = list(prediction.args = prediction.args,
performance.args = performance.args,
plot.args = plot.args))
for(i in seq_len(n_remaining)){
graphics::plot.new()
}
graphics::par(mfrow = mfrow_bak)
invisible(NULL)
}
#' @rdname plotROC
#' @export
setMethod(
f = "plotROC",
signature = signature(x = "Modifier"),
definition = function(x, coord, score = NULL, prediction.args = list(),
performance.args = list(), plot.args = list()){
coord <- .norm_coord(coord, modType(x))
data <- .get_prediction_data_Modifier(x, coord, score)
.plot_ROCR(data,
.norm_prediction_args(prediction.args),
.norm_performance_args(performance.args, x),
.norm_plot_args(plot.args),
score)
}
)
#' @rdname plotROC
#' @export
setMethod(
f = "plotROC",
signature = signature(x = "ModifierSet"),
definition = function(x, coord, score = NULL, prediction.args = list(),
performance.args = list(), plot.args = list()){
coord <- .norm_coord(coord, modType(x))
data <- .get_prediction_data_ModifierSet(x, coord, score)
.plot_ROCR(data,
.norm_prediction_args(prediction.args),
.norm_performance_args(performance.args, x),
.norm_plot_args(plot.args),
score)
}
)
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Defines functions .plot_ROCR .get_prediction_data_ModifierSet .get_prediction_data_Modifier .readjust_plot_args .norm_plot_args .norm_performance_args .norm_prediction_args
#' @include RNAmodR.R
#' @include Modifier-class.R
#' @include ModifierSet-class.R
NULL
#' @name plotROC
#'
#' @title ROCR functions for \code{Modifier} and \code{ModifierSet} objects
#'
#' @description
#' \code{plotROC} streamlines labeling, prediction, performance and plotting
#' functions to test the peformance of a \code{Modifier} object and the data
#' analyzed via the functionallity from the \code{ROCR} package.
#'
#' The data from \code{x} will be labeled as positive using the \code{coord}
#' arguments. The other arguments will be passed on to the specific \code{ROCR}
#' functions.
#'
#' By default the \code{prediction.args} include three values:
#' \itemize{
#' \item{\code{measure = "tpr"}}
#' \item{\code{x.measure = "fpr"}}
#' \item{\code{score = mainScore(x)}}
#' }
#' The remaining arguments are not predefined.
#'
#' @param x a \code{Modifier} or a \code{ModifierSet} object
#' @param coord coordinates of position to label as positive. Either a
#' \code{GRanges} or a \code{GRangesList} object. For both types the Parent
#' column is expected to match the gene or transcript name.
#' @param score the score identifier to subset to, if multiple scores are
#' available.
#' @param prediction.args arguments which will be used for calling
#' \code{\link[ROCR:prediction]{prediction}} form the \code{ROCR} package
#' @param performance.args arguments which will be used for calling
#' \code{\link[ROCR:performance]{performance}} form the \code{ROCR} package
#' @param plot.args arguments which will be used for calling \code{plot} on the
#' performance object of the \code{ROCR} package. If multiple scores are plotted
#' (for example if the score argument is not explicitly set) \code{add = FALSE}
#' will be set.
#' @param ... additional arguments
#'
#' @return a plot send to the active graphic device
#'
#' @references
#' Tobias Sing, Oliver Sander, Niko Beerenwinkel, Thomas Lengauer (2005): "ROCR:
#' visualizing classifier performance in R." Bioinformatics 21(20):3940-3941
#' DOI:
#' \href{https://doi.org/10.1093/bioinformatics/bti623}{10.1093/bioinformatics/bti623}
#'
#' @examples
#' data(msi,package="RNAmodR")
#' # constructing a GRanges obejct to mark positive positions
#' mod <- modifications(msi)
#' coord <- unique(unlist(mod))
#' coord$score <- NULL
#' coord$sd <- NULL
#' # plotting a TPR vs. FPR plot per ModInosine object
#' plotROC(msi[[1]],coord)
#' # plotting a TPR vs. FPR plot per ModSetInosine object
#' plotROC(msi,coord)
NULL
.norm_prediction_args <- function(input){
if(!is.list(input)){
stop("'prediction.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'prediction.args'. All values will be dropped.")
input <- list()
}
args <- input
args
}
.rocr_exclusive_functions <- c("rch","auc","prbe","mxe","rmse","ecost")
.rocr_performance_settings <- data.frame(
variable = c("measure",
"x.measure",
"score"),
testFUN = c(".is_a_string",
".is_a_string",
".is_a_string"),
errorValue = c(FALSE,
FALSE,
FALSE),
errorMessage = c("'measure' must a single character compatible with ?ROCR::performance.",
"'x.measure' must a single character compatible with ?ROCR::performance.",
"'score' must a single character and a valid column name in getAggregateData()."),
stringsAsFactors = FALSE)
.norm_performance_args <- function(input, x){
if(!is.list(input)){
stop("'performance.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'performance.args'. All values will be dropped.")
input <- list()
}
measure <- "tpr"
x.measure <- "fpr"
score <- mainScore(x)
args <- .norm_settings(input, .rocr_performance_settings, measure, x.measure,
score)
if(args[["measure"]] %in% .rocr_exclusive_functions){
args[["x.measure"]] <- "cutoff"
}
if(is(x,"Modifier")){
cn <- colnames(getAggregateData(x)[[1]])
} else if(is(x,"ModifierSet")) {
cn <- colnames(getAggregateData(x[[1]])[[1]])
} else {
stop("")
}
if(!(args[["score"]] %in% cn)){
stop(.rocr_performance_settings[.rocr_performance_settings$variable == "score","errorMessage"],
call. = FALSE)
}
args <- c(args, input[!(names(input) %in% names(args))])
args
}
.rocr_plot_settings <- data.frame(
variable = c("colorize",
"lwd",
"colorize.palette",
"abline",
"AUC"),
testFUN = c(".is_a_bool",
".is_numeric_string",
".is_a_string",
".is_a_bool",
".is_a_bool"),
errorValue = c(FALSE,
FALSE,
FALSE,
FALSE,
FALSE),
errorMessage = c("'colorize' must a single logical value.",
"'lwd' must be a single numeric value.",
"'colorize.palette' must a single character compatible with ?ROCR::plot.performance.",
"'abline' must a single logical value.",
"'AUC' must a single logical value."),
stringsAsFactors = FALSE)
.norm_plot_args <- function(input){
if(!is.list(input)){
stop("'plot.args' must be a list.")
}
if(length(input) > 0L &&
(any(is.null(names(input))) || any(names(input) == ""))){
warning("Unnamed list for 'plot.args'. All values will be dropped.")
input <- list()
}
colorize <- TRUE
lwd <- 3
colorize.palette <- NULL
abline <- FALSE
AUC <- FALSE
args <- .norm_settings(input, .rocr_plot_settings, colorize, lwd,
colorize.palette, abline, AUC)
args <- c(args, input[!(names(input) %in% names(args))])
args
}
#' @importFrom grDevices rainbow
.readjust_plot_args <- function(plot.args, performance.args){
if(performance.args[["measure"]] %in% .rocr_exclusive_functions){
plot.args[["colorize"]] <- NULL
}
if(is.null(plot.args[["avg"]])){
plot.args[["avg"]] <- "none"
}
if(is.null(plot.args[["spread.estimate"]])){
plot.args[["spread.estimate"]] <- "none"
}
if(is.null(plot.args[["spread.scale"]])){
plot.args[["spread.scale"]] <- 1
}
if(is.null(plot.args[["show.spread.at"]])){
plot.args[["show.spread.at"]] <- c()
}
if(is.null(plot.args[["colorize"]])){
plot.args[["colorize"]] <- FALSE
}
if(is.null(plot.args[["colorize.palette"]])){
plot.args[["colorize.palette"]] <- rev(grDevices::rainbow(256, start = 0,
end = 4/6))
}
if(is.null(plot.args[["colorkey"]])){
plot.args[["colorkey"]] <- plot.args[["colorize"]]
}
if(is.null(plot.args[["colorkey.relwidth"]])){
plot.args[["colorkey.relwidth"]] <- 0.25
}
if(is.null(plot.args[["colorkey.pos"]])){
plot.args[["colorkey.pos"]] <- "right"
}
if(is.null(plot.args[["print.cutoffs.at"]])){
plot.args[["print.cutoffs.at"]] <- c()
}
if(is.null(plot.args[["cutoff.label.function"]])){
plot.args[["cutoff.label.function"]] <- function(x) { round(x,2) }
}
if(is.null(plot.args[["downsampling"]])){
plot.args[["downsampling"]] <- 0
}
if(is.null(plot.args[["add"]])){
plot.args[["add"]] <- FALSE
}
return(plot.args)
}
.get_prediction_data_Modifier <- function(x, coord, score){
data <- .label_Modifier_by_GRangesList(x, coord)
unlisted_data <- unlist(data)
# exempt character values
f_non_character <- vapply(unlisted_data,
function(x) {
!is.character(x)
},logical(1))
colnames <- colnames(unlisted_data)[f_non_character]
if(!is.null(score)){
if(!all(score %in% colnames)){
stop("Score identifier '",
paste(score[!(score %in% colnames)], collapse = "','"),
"' not found in the data. Available ",
"columns: '",paste(colnames[colnames != "labels"], collapse = "','"),
"'.",
call. = FALSE)
}
}
colnames <- colnames[colnames != "labels"]
data <- lapply(seq_along(colnames),
function(i){
cn <- colnames[i]
cn <- c("labels",cn)
d <- data[,cn]
colnames(d) <- c("labels","predictions")
d <- unlist(d)
rownames(d) <- NULL
d
})
names(data) <- colnames
data
}
.get_prediction_data_ModifierSet <- function(x, coord, score){
data <- lapply(x, .get_prediction_data_Modifier, coord, score)
data_names <- names(data[[1]])
data <- lapply(data_names,
function(name){
lapply(data,"[[",name)
})
data <- lapply(data,
function(d){
predictions <- as.data.frame(lapply(d,"[","predictions"))
labels <- as.data.frame(lapply(d,"[","labels"))
colnames(predictions) <- names(d)
colnames(labels) <- names(d)
list(predictions = predictions,
labels = labels)
})
names(data) <- data_names
data
}
#' @importFrom graphics par abline title legend plot.new
#' @importFrom ROCR prediction performance
.plot_ROCR <- function(data, prediction.args, performance.args, plot.args,
score){
if(!is.null(score)){
data <- data[names(data) %in% score]
}
plot.args <- .readjust_plot_args(plot.args, performance.args)
# add argument logical vector
n <- length(data)
# save mfrow setting
mfrow_bak <- graphics::par("mfrow")
mfrow_col <- ceiling(sqrt(n))
mfrow_row <- ceiling(n / mfrow_col)
graphics::par(mfrow = c(mfrow_row,mfrow_col))
n_remaining <- (mfrow_row * mfrow_col) - n
#
if(is.null(plot.args[["colorize.palette"]])){
plot.args[["colorize.palette"]] <- NULL
}
if(n > 1L){
plot.args[["add"]] <- FALSE
}
#
Map(
function(d, name, colour, prediction.args, performance.args, plot.args){
pred <- do.call(ROCR::prediction, c(list(predictions = d$predictions,
labels = d$labels),
prediction.args))
perf <- do.call(ROCR::performance, c(list(prediction.obj = pred),
performance.args))
tmp <- try(do.call(ROCR:::.plot.performance,
c(list(perf = perf), plot.args)),
silent = TRUE)
if(is(tmp,"try-error")){
stop("Error during plotting of performance object: ",tmp)
}
graphics::title(main = name)
if(plot.args[["abline"]]){
graphics::abline(a = 0, b = 1)
}
if(plot.args[["AUC"]]){
auc <- unlist(slot(performance(pred,"auc"),"y.values"))
auc <- paste(c("AUC = "), round(auc,2L), sep = "")
graphics::legend(0.55, 0.25, auc, bty = "n", cex = 1)
}
},
data,
names(data),
MoreArgs = list(prediction.args = prediction.args,
performance.args = performance.args,
plot.args = plot.args))
for(i in seq_len(n_remaining)){
graphics::plot.new()
}
graphics::par(mfrow = mfrow_bak)
invisible(NULL)
}
#' @rdname plotROC
#' @export
setMethod(
f = "plotROC",
signature = signature(x = "Modifier"),
definition = function(x, coord, score = NULL, prediction.args = list(),
performance.args = list(), plot.args = list()){
coord <- .norm_coord(coord, modType(x))
data <- .get_prediction_data_Modifier(x, coord, score)
.plot_ROCR(data,
.norm_prediction_args(prediction.args),
.norm_performance_args(performance.args, x),
.norm_plot_args(plot.args),
score)
}
)
#' @rdname plotROC
#' @export
setMethod(
f = "plotROC",
signature = signature(x = "ModifierSet"),
definition = function(x, coord, score = NULL, prediction.args = list(),
performance.args = list(), plot.args = list()){
coord <- .norm_coord(coord, modType(x))
data <- .get_prediction_data_ModifierSet(x, coord, score)
.plot_ROCR(data,
.norm_prediction_args(prediction.args),
.norm_performance_args(performance.args, x),
.norm_plot_args(plot.args),
score)
}
)
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