R/stat-ecdf.r
In TomeTiger/ggplot2: Create Elegant Data Visualisations Using the Grammar of Graphics
Defines functions
stat_ecdf
Documented in
stat_ecdf
#' Compute empirical cumulative distribution
#'
#' The empirical cumulative distribution function (ECDF) provides an alternative
#' visualisation of distribution. Compared to other visualisations that rely on
#' density (like [geom_histogram()]), the ECDF doesn't require any
#' tuning parameters and handles both continuous and categorical variables.
#' The downside is that it requires more training to accurately interpret,
#' and the underlying visual tasks are somewhat more challenging.
#'
#' @inheritParams layer
#' @inheritParams geom_point
#' @param na.rm If `FALSE` (the default), removes missing values with
#' a warning. If `TRUE` silently removes missing values.
#' @param n if NULL, do not interpolate. If not NULL, this is the number
#' of points to interpolate with.
#' @param pad If `TRUE`, pad the ecdf with additional points (-Inf, 0)
#' and (Inf, 1)
#' @section Computed variables:
#' \describe{
#' \item{x}{x in data}
#' \item{y}{cumulative density corresponding x}
#' }
#' @export
#' @examples
#' df <- data.frame(
#' x = c(rnorm(100, 0, 3), rnorm(100, 0, 10)),
#' g = gl(2, 100)
#' )
#' ggplot(df, aes(x)) + stat_ecdf(geom = "step")
#'
#' # Don't go to positive/negative infinity
#' ggplot(df, aes(x)) + stat_ecdf(geom = "step", pad = FALSE)
#'
#' # Multiple ECDFs
#' ggplot(df, aes(x, colour = g)) + stat_ecdf()
stat_ecdf <- function(mapping = NULL, data = NULL,
geom = "step", position = "identity",
...,
n = NULL,
pad = TRUE,
na.rm = FALSE,
show.legend = NA,
inherit.aes = TRUE) {
layer(
data = data,
mapping = mapping,
stat = StatEcdf,
geom = geom,
position = position,
show.legend = show.legend,
inherit.aes = inherit.aes,
params = list(
n = n,
pad = pad,
na.rm = na.rm,
...
)
)
}
#' @rdname ggplot2-ggproto
#' @format NULL
#' @usage NULL
#' @export
StatEcdf <- ggproto("StatEcdf", Stat,
compute_group = function(data, scales, n = NULL, pad = TRUE) {
# If n is NULL, use raw values; otherwise interpolate
if (is.null(n)) {
x <- unique(data$x)
} else {
x <- seq(min(data$x), max(data$x), length.out = n)
}
if (pad) {
x <- c(-Inf, x, Inf)
}
y <- ecdf(data$x)(x)
new_data_frame(list(x = x, y = y), n = length(x))
},
default_aes = aes(y = stat(y)),
required_aes = c("x")
)
TomeTiger/ggplot2 documentation built on May 29, 2019, 7:53 a.m.
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Defines functions stat_ecdf
Documented in stat_ecdf
#' Compute empirical cumulative distribution
#'
#' The empirical cumulative distribution function (ECDF) provides an alternative
#' visualisation of distribution. Compared to other visualisations that rely on
#' density (like [geom_histogram()]), the ECDF doesn't require any
#' tuning parameters and handles both continuous and categorical variables.
#' The downside is that it requires more training to accurately interpret,
#' and the underlying visual tasks are somewhat more challenging.
#'
#' @inheritParams layer
#' @inheritParams geom_point
#' @param na.rm If `FALSE` (the default), removes missing values with
#' a warning. If `TRUE` silently removes missing values.
#' @param n if NULL, do not interpolate. If not NULL, this is the number
#' of points to interpolate with.
#' @param pad If `TRUE`, pad the ecdf with additional points (-Inf, 0)
#' and (Inf, 1)
#' @section Computed variables:
#' \describe{
#' \item{x}{x in data}
#' \item{y}{cumulative density corresponding x}
#' }
#' @export
#' @examples
#' df <- data.frame(
#' x = c(rnorm(100, 0, 3), rnorm(100, 0, 10)),
#' g = gl(2, 100)
#' )
#' ggplot(df, aes(x)) + stat_ecdf(geom = "step")
#'
#' # Don't go to positive/negative infinity
#' ggplot(df, aes(x)) + stat_ecdf(geom = "step", pad = FALSE)
#'
#' # Multiple ECDFs
#' ggplot(df, aes(x, colour = g)) + stat_ecdf()
stat_ecdf <- function(mapping = NULL, data = NULL,
geom = "step", position = "identity",
...,
n = NULL,
pad = TRUE,
na.rm = FALSE,
show.legend = NA,
inherit.aes = TRUE) {
layer(
data = data,
mapping = mapping,
stat = StatEcdf,
geom = geom,
position = position,
show.legend = show.legend,
inherit.aes = inherit.aes,
params = list(
n = n,
pad = pad,
na.rm = na.rm,
...
)
)
}
#' @rdname ggplot2-ggproto
#' @format NULL
#' @usage NULL
#' @export
StatEcdf <- ggproto("StatEcdf", Stat,
compute_group = function(data, scales, n = NULL, pad = TRUE) {
# If n is NULL, use raw values; otherwise interpolate
if (is.null(n)) {
x <- unique(data$x)
} else {
x <- seq(min(data$x), max(data$x), length.out = n)
}
if (pad) {
x <- c(-Inf, x, Inf)
}
y <- ecdf(data$x)(x)
new_data_frame(list(x = x, y = y), n = length(x))
},
default_aes = aes(y = stat(y)),
required_aes = c("x")
)
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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