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R/descriptives.R
In worcs: Workflow for Open Reproducible Code in Science
Defines functions
skew_kurtosis.default
skew_kurtosis.numeric
skew_kurtosis.matrix
skew_kurtosis.data.frame
skew_kurtosis.matrix
skew_kurtosis
var_cat
descriptives.default
descriptives.numeric
descriptives.data.frame
descriptives.matrix
descriptives
Documented in
descriptives
skew_kurtosis
#' @title Describe a dataset
#' @description Provide descriptive statistics for a dataset.
#' @param x An object for which a method exists.
#' @param ... Additional arguments.
#' @return A \code{data.frame} with descriptive statistics for \code{x}.
#' @examples
#' descriptives(iris)
#' @rdname descriptives
#' @export
#' @importFrom stats median sd
descriptives <- function(x, ...) {
UseMethod("descriptives", x)
}
#' @method descriptives matrix
#' @export
descriptives.matrix <- function(x, ...) {
Args <- as.list(match.call()[-1])
Args$x <- data.frame(x)
do.call(descriptives, Args)
}
#' @method descriptives data.frame
#' @export
descriptives.data.frame <- function(x, ...) {
data_types <-
sapply(x, function(i) {
paste0(class(i), collapse = ", ")
})
out <- lapply(x, descriptives)
all_names <-
c(
"n",
"missing",
"unique",
"mean",
"median",
"mode",
"mode_value",
"sd",
"v",
"min",
"max",
"range",
"skew",
"skew_2se",
"kurt",
"kurt_2se"
)
out <-
do.call(rbind, c(lapply(out, function(x)
data.frame(c(
x, sapply(setdiff(all_names, names(x)),
function(y)
NA)
))),
make.row.names = FALSE))
out <- out[, all_names]
out <- cbind(name = names(x),
type = data_types,
out)
rownames(out) <- NULL
out
}
#' @method descriptives numeric
#' @export
descriptives.numeric <- function(x, ...) {
rng <- range(x, na.rm = TRUE)
sk <- skew_kurtosis(x)
cbind(
data.frame(
n = sum(!is.na(x)),
missing = sum(is.na(x))/length(x),
unique = length(unique(x)),
mean = mean(x, na.rm = TRUE),
median = median(x, na.rm = TRUE),
mode = median(x, na.rm = TRUE),
sd = sd(x, na.rm = TRUE),
min = rng[1],
max = rng[2],
range = diff(rng)
),
t(sk)
)
}
#' @method descriptives integer
#' @export
descriptives.integer <- descriptives.numeric
#' @method descriptives default
#' @export
descriptives.default <- function(x, ...) {
if(is.factor(x)) x <- droplevels(x)
if(!is.vector(x)) x <- tryCatch(as.vector(x), error = function(e){NA})
tb <- tryCatch(table(x, useNA = "always"), error = function(e){NA})
data.frame(
n = tryCatch({sum(!is.na(x))}, error = function(e){NA}),
missing = sum(is.na(x))/length(x),
unique = tryCatch(length(tb), error = function(e){NA}),
mode = tryCatch({
unname(tb[which.max(tb)])
}, error = function(e){NA}),
mode_value = tryCatch(names(tb)[which.max(tb)], error = function(e){NA}),
v = tryCatch(var_cat(x), error = function(e){NA})
)
}
#' @method descriptives factor
#' @export
descriptives.factor <- descriptives.default
# Agresti's V for categorical data variability
# Agresti, Alan (1990). Categorical Data Analysis. John Wiley and Sons, Inc. 24-25
var_cat <- function(x) {
x <- x[!is.na(x)]
if (!length(x))
return(NA)
p <- prop.table(table(x))
#-1 * sum(p*log(p)) Shannon entropy
1 - sum(p ^ 2)
}
#' @title Calculate skew and kurtosis
#' @description Calculate skew and kurtosis, standard errors for both, and the
#' estimates divided by two times the standard error. If this latter quantity
#' exceeds an absolute value of 1, the skew/kurtosis is significant. With very
#' large sample sizes, significant skew/kurtosis is common.
#' @param x An object for which a method exists.
#' @param verbose Logical. Whether or not to print messages to the console,
#' Default: FALSE
#' @param se Whether or not to return the standard errors, Default: FALSE
#' @param ... Additional arguments to pass to and from functions.
#' @return A \code{matrix} of skew and kurtosis statistics for \code{x}.
#' @examples
#' skew_kurtosis(datasets::anscombe)
#' @rdname skew_kurtosis
#' @export
skew_kurtosis <- function(x, verbose = FALSE, se = FALSE, ...) {
UseMethod("skew_kurtosis", x)
}
#' @method skew_kurtosis matrix
#' @export
skew_kurtosis.matrix <-
function(x, verbose = FALSE, se = FALSE, ...) {
Args <- as.list(match.call()[-1])
Args$x <- data.frame(x)
do.call(skew_kurtosis, Args)
}
#' @method skew_kurtosis data.frame
#' @export
skew_kurtosis.data.frame <-
function(x, verbose = FALSE, se = FALSE, ...) {
t(sapply(x, skew_kurtosis))
}
#' @method skew_kurtosis matrix
#' @export
skew_kurtosis.matrix <-
function(x, verbose = FALSE, se = FALSE, ...) {
t(apply(x, 2, skew_kurtosis))
}
#' @method skew_kurtosis numeric
#' @export
skew_kurtosis.numeric <-
function(x, verbose = FALSE, se = FALSE, ...) {
x <- x[!is.na(x)]
n <- length(x)
out <- tryCatch({
if (n > 3) {
if (n > 5000 &
verbose)
message("Sample size > 5000; skew and kurtosis will likely be significant.")
skew <- sum((x - mean(x)) ^ 3) / (n * sqrt(var(x)) ^ 3)
skew_se <- sqrt(6 * n * (n - 1) / (n - 2) / (n + 1) / (n + 3))
skew_2se <- skew / (2 * skew_se)
kurt <- sum((x - mean(x)) ^ 4) / (n * var(x) ^ 2) - 3
kurt_se <- sqrt(24 * n * ((n - 1) ^ 2) / (n - 3) / (n - 2) / (n + 3) /
(n + 5))
kurt_2se <- kurt / (2 * kurt_se)
c(skew,
skew_se,
skew_2se,
kurt,
kurt_se,
kurt_2se
)
} else {
stop()
}
}, error = function(e){ rep(NA, 6) })
names(out) <-
c("skew", "skew_se", "skew_2se", "kurt", "kurt_se", "kurt_2se")
if (se) {
return(out)
} else {
return(out[c(1, 3, 4, 6)])
}
}
#' @method skew_kurtosis default
#' @export
skew_kurtosis.default <-
function(x, verbose = FALSE, se = FALSE, ...) {
out <- rep(NA, 6)
names(out) <-
c("skew", "skew_se", "skew_2se", "kurt", "kurt_se", "kurt_2se")
if (se) {
return(out)
} else {
return(out[c(1, 3, 4, 6)])
}
}
#' @importFrom usethis ui_oops ui_done
col_message <- function (..., col = 30, success = TRUE, verbose = TRUE){
if(verbose){
txt <- do.call(paste0, list(...))
# Check if this function is called from within an rmarkdown document.
# If that is the case, the colorized messages can cause knitting errors.
if(!any(grepl("rmarkdown", unlist(lapply(sys.calls(), `[[`, 1)), fixed = TRUE))){
if(success){
usethis::ui_done(txt)
} else {
usethis::ui_oops(txt)
}
}
}
}
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worcs documentation built on Oct. 26, 2023, 1:08 a.m.
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Defines functions skew_kurtosis.default skew_kurtosis.numeric skew_kurtosis.matrix skew_kurtosis.data.frame skew_kurtosis.matrix skew_kurtosis var_cat descriptives.default descriptives.numeric descriptives.data.frame descriptives.matrix descriptives
Documented in descriptives skew_kurtosis
#' @title Describe a dataset
#' @description Provide descriptive statistics for a dataset.
#' @param x An object for which a method exists.
#' @param ... Additional arguments.
#' @return A \code{data.frame} with descriptive statistics for \code{x}.
#' @examples
#' descriptives(iris)
#' @rdname descriptives
#' @export
#' @importFrom stats median sd
descriptives <- function(x, ...) {
UseMethod("descriptives", x)
}
#' @method descriptives matrix
#' @export
descriptives.matrix <- function(x, ...) {
Args <- as.list(match.call()[-1])
Args$x <- data.frame(x)
do.call(descriptives, Args)
}
#' @method descriptives data.frame
#' @export
descriptives.data.frame <- function(x, ...) {
data_types <-
sapply(x, function(i) {
paste0(class(i), collapse = ", ")
})
out <- lapply(x, descriptives)
all_names <-
c(
"n",
"missing",
"unique",
"mean",
"median",
"mode",
"mode_value",
"sd",
"v",
"min",
"max",
"range",
"skew",
"skew_2se",
"kurt",
"kurt_2se"
)
out <-
do.call(rbind, c(lapply(out, function(x)
data.frame(c(
x, sapply(setdiff(all_names, names(x)),
function(y)
NA)
))),
make.row.names = FALSE))
out <- out[, all_names]
out <- cbind(name = names(x),
type = data_types,
out)
rownames(out) <- NULL
out
}
#' @method descriptives numeric
#' @export
descriptives.numeric <- function(x, ...) {
rng <- range(x, na.rm = TRUE)
sk <- skew_kurtosis(x)
cbind(
data.frame(
n = sum(!is.na(x)),
missing = sum(is.na(x))/length(x),
unique = length(unique(x)),
mean = mean(x, na.rm = TRUE),
median = median(x, na.rm = TRUE),
mode = median(x, na.rm = TRUE),
sd = sd(x, na.rm = TRUE),
min = rng[1],
max = rng[2],
range = diff(rng)
),
t(sk)
)
}
#' @method descriptives integer
#' @export
descriptives.integer <- descriptives.numeric
#' @method descriptives default
#' @export
descriptives.default <- function(x, ...) {
if(is.factor(x)) x <- droplevels(x)
if(!is.vector(x)) x <- tryCatch(as.vector(x), error = function(e){NA})
tb <- tryCatch(table(x, useNA = "always"), error = function(e){NA})
data.frame(
n = tryCatch({sum(!is.na(x))}, error = function(e){NA}),
missing = sum(is.na(x))/length(x),
unique = tryCatch(length(tb), error = function(e){NA}),
mode = tryCatch({
unname(tb[which.max(tb)])
}, error = function(e){NA}),
mode_value = tryCatch(names(tb)[which.max(tb)], error = function(e){NA}),
v = tryCatch(var_cat(x), error = function(e){NA})
)
}
#' @method descriptives factor
#' @export
descriptives.factor <- descriptives.default
# Agresti's V for categorical data variability
# Agresti, Alan (1990). Categorical Data Analysis. John Wiley and Sons, Inc. 24-25
var_cat <- function(x) {
x <- x[!is.na(x)]
if (!length(x))
return(NA)
p <- prop.table(table(x))
#-1 * sum(p*log(p)) Shannon entropy
1 - sum(p ^ 2)
}
#' @title Calculate skew and kurtosis
#' @description Calculate skew and kurtosis, standard errors for both, and the
#' estimates divided by two times the standard error. If this latter quantity
#' exceeds an absolute value of 1, the skew/kurtosis is significant. With very
#' large sample sizes, significant skew/kurtosis is common.
#' @param x An object for which a method exists.
#' @param verbose Logical. Whether or not to print messages to the console,
#' Default: FALSE
#' @param se Whether or not to return the standard errors, Default: FALSE
#' @param ... Additional arguments to pass to and from functions.
#' @return A \code{matrix} of skew and kurtosis statistics for \code{x}.
#' @examples
#' skew_kurtosis(datasets::anscombe)
#' @rdname skew_kurtosis
#' @export
skew_kurtosis <- function(x, verbose = FALSE, se = FALSE, ...) {
UseMethod("skew_kurtosis", x)
}
#' @method skew_kurtosis matrix
#' @export
skew_kurtosis.matrix <-
function(x, verbose = FALSE, se = FALSE, ...) {
Args <- as.list(match.call()[-1])
Args$x <- data.frame(x)
do.call(skew_kurtosis, Args)
}
#' @method skew_kurtosis data.frame
#' @export
skew_kurtosis.data.frame <-
function(x, verbose = FALSE, se = FALSE, ...) {
t(sapply(x, skew_kurtosis))
}
#' @method skew_kurtosis matrix
#' @export
skew_kurtosis.matrix <-
function(x, verbose = FALSE, se = FALSE, ...) {
t(apply(x, 2, skew_kurtosis))
}
#' @method skew_kurtosis numeric
#' @export
skew_kurtosis.numeric <-
function(x, verbose = FALSE, se = FALSE, ...) {
x <- x[!is.na(x)]
n <- length(x)
out <- tryCatch({
if (n > 3) {
if (n > 5000 &
verbose)
message("Sample size > 5000; skew and kurtosis will likely be significant.")
skew <- sum((x - mean(x)) ^ 3) / (n * sqrt(var(x)) ^ 3)
skew_se <- sqrt(6 * n * (n - 1) / (n - 2) / (n + 1) / (n + 3))
skew_2se <- skew / (2 * skew_se)
kurt <- sum((x - mean(x)) ^ 4) / (n * var(x) ^ 2) - 3
kurt_se <- sqrt(24 * n * ((n - 1) ^ 2) / (n - 3) / (n - 2) / (n + 3) /
(n + 5))
kurt_2se <- kurt / (2 * kurt_se)
c(skew,
skew_se,
skew_2se,
kurt,
kurt_se,
kurt_2se
)
} else {
stop()
}
}, error = function(e){ rep(NA, 6) })
names(out) <-
c("skew", "skew_se", "skew_2se", "kurt", "kurt_se", "kurt_2se")
if (se) {
return(out)
} else {
return(out[c(1, 3, 4, 6)])
}
}
#' @method skew_kurtosis default
#' @export
skew_kurtosis.default <-
function(x, verbose = FALSE, se = FALSE, ...) {
out <- rep(NA, 6)
names(out) <-
c("skew", "skew_se", "skew_2se", "kurt", "kurt_se", "kurt_2se")
if (se) {
return(out)
} else {
return(out[c(1, 3, 4, 6)])
}
}
#' @importFrom usethis ui_oops ui_done
col_message <- function (..., col = 30, success = TRUE, verbose = TRUE){
if(verbose){
txt <- do.call(paste0, list(...))
# Check if this function is called from within an rmarkdown document.
# If that is the case, the colorized messages can cause knitting errors.
if(!any(grepl("rmarkdown", unlist(lapply(sys.calls(), `[[`, 1)), fixed = TRUE))){
if(success){
usethis::ui_done(txt)
} else {
usethis::ui_oops(txt)
}
}
}
}
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