AMR/R/mic.R

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# ==================================================================== #
# TITLE #
# Antimicrobial Resistance (AMR) Data Analysis for R #
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# #
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# SOURCE #
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# https://github.com/msberends/AMR #
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# #
# LICENCE #
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# (c) 2018-2022 Berends MS, Luz CF et al. #
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# Developed at the University of Groningen, the Netherlands, in #
# collaboration with non-profit organisations Certe Medical #
# Diagnostics & Advice, and University Medical Center Groningen. #
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# #
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# This R package is free software; you can freely use and distribute #
# it for both personal and commercial purposes under the terms of the #
# GNU General Public License version 2.0 (GNU GPL-2), as published by #
# the Free Software Foundation. #
# We created this package for both routine data analysis and academic #
# research and it was publicly released in the hope that it will be #
# useful, but it comes WITHOUT ANY WARRANTY OR LIABILITY. #
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# #
# Visit our website for the full manual and a complete tutorial about #
# how to conduct AMR data analysis: https://msberends.github.io/AMR/ #
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# ==================================================================== #
# these are allowed MIC values and will become [factor] levels
ops <- c("<", "<=", "", ">=", ">")
valid_mic_levels <- c(c(t(vapply(FUN.VALUE = character(9), ops,
function(x) paste0(x, "0.00", 1:9)))),
unique(c(t(vapply(FUN.VALUE = character(104), ops,
function(x) paste0(x, sort(as.double(paste0("0.0",
sort(c(1:99, 125, 128, 256, 512, 625)))))))))),
unique(c(t(vapply(FUN.VALUE = character(103), ops,
function(x) paste0(x, sort(as.double(paste0("0.",
c(1:99, 125, 128, 256, 512))))))))),
c(t(vapply(FUN.VALUE = character(10), ops,
function(x) paste0(x, sort(c(1:9, 1.5)))))),
c(t(vapply(FUN.VALUE = character(45), ops,
function(x) paste0(x, c(10:98)[9:98 %% 2 == TRUE])))),
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c(t(vapply(FUN.VALUE = character(17), ops,
function(x) paste0(x, sort(c(2 ^ c(7:11), 192, 80 * c(2:12))))))))
#' Transform Input to Minimum Inhibitory Concentrations (MIC)
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#'
#' This transforms vectors to a new class [`mic`], which treats the input as decimal numbers, while maintaining operators (such as ">=") and only allowing valid MIC values known to the field of (medical) microbiology.
#' @inheritSection lifecycle Stable Lifecycle
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#' @rdname as.mic
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#' @param x a [character] or [numeric] vector
#' @param na.rm a [logical] indicating whether missing values should be removed
#' @param ... arguments passed on to methods
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#' @details To interpret MIC values as RSI values, use [as.rsi()] on MIC values. It supports guidelines from EUCAST (`r min(as.integer(gsub("[^0-9]", "", subset(rsi_translation, guideline %like% "EUCAST")$guideline)))`-`r max(as.integer(gsub("[^0-9]", "", subset(rsi_translation, guideline %like% "EUCAST")$guideline)))`) and CLSI (`r min(as.integer(gsub("[^0-9]", "", subset(rsi_translation, guideline %like% "CLSI")$guideline)))`-`r max(as.integer(gsub("[^0-9]", "", subset(rsi_translation, guideline %like% "CLSI")$guideline)))`).
#'
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#' This class for MIC values is a quite a special data type: formally it is an ordered [factor] with valid MIC values as [factor] levels (to make sure only valid MIC values are retained), but for any mathematical operation it acts as decimal numbers:
#'
#' ```
#' x <- random_mic(10)
#' x
#' #> Class <mic>
#' #> [1] 16 1 8 8 64 >=128 0.0625 32 32 16
#'
#' is.factor(x)
#' #> [1] TRUE
#'
#' x[1] * 2
#' #> [1] 32
#'
#' median(x)
#' #> [1] 26
#' ```
#'
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#' This makes it possible to maintain operators that often come with MIC values, such ">=" and "<=", even when filtering using [numeric] values in data analysis, e.g.:
#'
#' ```
#' x[x > 4]
#' #> Class <mic>
#' #> [1] 16 8 8 64 >=128 32 32 16
#'
#' df <- data.frame(x, hospital = "A")
#' subset(df, x > 4) # or with dplyr: df %>% filter(x > 4)
#' #> x hospital
#' #> 1 16 A
#' #> 5 64 A
#' #> 6 >=128 A
#' #> 8 32 A
#' #> 9 32 A
#' #> 10 16 A
#' ```
#'
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#' The following [generic functions][groupGeneric()] are implemented for the MIC class: `!`, `!=`, `%%`, `%/%`, `&`, `*`, `+`, `-`, `/`, `<`, `<=`, `==`, `>`, `>=`, `^`, `|`, [abs()], [acos()], [acosh()], [all()], [any()], [asin()], [asinh()], [atan()], [atanh()], [ceiling()], [cos()], [cosh()], [cospi()], [cummax()], [cummin()], [cumprod()], [cumsum()], [digamma()], [exp()], [expm1()], [floor()], [gamma()], [lgamma()], [log()], [log1p()], [log2()], [log10()], [max()], [mean()], [min()], [prod()], [range()], [round()], [sign()], [signif()], [sin()], [sinh()], [sinpi()], [sqrt()], [sum()], [tan()], [tanh()], [tanpi()], [trigamma()] and [trunc()]. Some functions of the `stats` package are also implemented: [median()], [quantile()], [mad()], [IQR()], [fivenum()]. Also, [boxplot.stats()] is supported. Since [sd()] and [var()] are non-generic functions, these could not be extended. Use [mad()] as an alternative, or use e.g. `sd(as.numeric(x))` where `x` is your vector of MIC values.
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#'
#' Using [as.double()] or [as.numeric()] on MIC values will remove the operators and return a numeric vector. Do **not** use [as.integer()] on MIC values as by the \R convention on [factor]s, it will return the index of the factor levels (which is often useless for regular users).
#'
#' Use [droplevels()] to drop unused levels. At default, it will return a plain factor. Use `droplevels(..., as.mic = TRUE)` to maintain the `<mic>` class.
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#' @return Ordered [factor] with additional class [`mic`], that in mathematical operations acts as decimal numbers. Bare in mind that the outcome of any mathematical operation on MICs will return a [numeric] value.
#' @aliases mic
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#' @export
#' @seealso [as.rsi()]
#' @inheritSection AMR Read more on Our Website!
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#' @examples
#' mic_data <- as.mic(c(">=32", "1.0", "1", "1.00", 8, "<=0.128", "8", "16", "16"))
#' is.mic(mic_data)
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#'
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#' # this can also coerce combined MIC/RSI values:
#' as.mic("<=0.002; S") # will return <=0.002
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#'
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#' # mathematical processing treats MICs as [numeric] values
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#' fivenum(mic_data)
#' quantile(mic_data)
#' all(mic_data < 512)
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#'
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#' # interpret MIC values
#' as.rsi(x = as.mic(2),
#' mo = as.mo("S. pneumoniae"),
#' ab = "AMX",
#' guideline = "EUCAST")
#' as.rsi(x = as.mic(4),
#' mo = as.mo("S. pneumoniae"),
#' ab = "AMX",
#' guideline = "EUCAST")
#'
#' # plot MIC values, see ?plot
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#' plot(mic_data)
#' plot(mic_data, mo = "E. coli", ab = "cipro")
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as.mic <- function(x, na.rm = FALSE) {
meet_criteria(x, allow_class = c("mic", "character", "numeric", "integer", "factor"), allow_NA = TRUE)
meet_criteria(na.rm, allow_class = "logical", has_length = 1)
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if (is.mic(x)) {
x
} else {
x <- as.character(unlist(x))
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if (na.rm == TRUE) {
x <- x[!is.na(x)]
}
x.bak <- x
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# comma to period
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x <- gsub(",", ".", x, fixed = TRUE)
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# transform Unicode for >= and <=
x <- gsub("\u2264", "<=", x, fixed = TRUE)
x <- gsub("\u2265", ">=", x, fixed = TRUE)
# remove other invalid characters
x <- gsub("[^a-zA-Z0-9.><= ]+", "", x, perl = TRUE)
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# remove space between operator and number ("<= 0.002" -> "<=0.002")
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x <- gsub("(<|=|>) +", "\\1", x, perl = TRUE)
# transform => to >= and =< to <=
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x <- gsub("=<", "<=", x, fixed = TRUE)
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x <- gsub("=>", ">=", x, fixed = TRUE)
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# dots without a leading zero must start with 0
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x <- gsub("([^0-9]|^)[.]", "\\10.", x, perl = TRUE)
# values like "<=0.2560.512" should be 0.512
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x <- gsub(".*[.].*[.]", "0.", x, perl = TRUE)
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# remove ending .0
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x <- gsub("[.]+0$", "", x, perl = TRUE)
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# remove all after last digit
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x <- gsub("[^0-9]+$", "", x, perl = TRUE)
# keep only one zero before dot
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x <- gsub("0+[.]", "0.", x, perl = TRUE)
# starting 00 is probably 0.0 if there's no dot yet
x[x %unlike% "[.]"] <- gsub("^00", "0.0", x[!x %like% "[.]"])
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# remove last zeroes
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x <- gsub("([.].?)0+$", "\\1", x, perl = TRUE)
x <- gsub("(.*[.])0+$", "\\10", x, perl = TRUE)
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# remove ending .0 again
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x[x %like% "[.]"] <- gsub("0+$", "", x[x %like% "[.]"])
# never end with dot
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x <- gsub("[.]$", "", x, perl = TRUE)
# trim it
x <- trimws(x)
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## previously unempty values now empty - should return a warning later on
x[x.bak != "" & x == ""] <- "invalid"
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na_before <- x[is.na(x) | x == ""] %pm>% length()
x[!x %in% valid_mic_levels] <- NA
na_after <- x[is.na(x) | x == ""] %pm>% length()
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if (na_before != na_after) {
list_missing <- x.bak[is.na(x) & !is.na(x.bak) & x.bak != ""] %pm>%
unique() %pm>%
sort() %pm>%
vector_and(quotes = TRUE)
warning_("in `as.mic()`: ", na_after - na_before, " results truncated (",
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round(((na_after - na_before) / length(x)) * 100),
"%) that were invalid MICs: ",
list_missing, call = FALSE)
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}
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set_clean_class(factor(x, levels = valid_mic_levels, ordered = TRUE),
new_class = c("mic", "ordered", "factor"))
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}
}
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all_valid_mics <- function(x) {
if (!inherits(x, c("mic", "character", "factor", "numeric", "integer"))) {
return(FALSE)
}
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x_mic <- tryCatch(suppressWarnings(as.mic(x[!is.na(x)])),
error = function(e) NA)
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!any(is.na(x_mic)) && !all(is.na(x))
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}
#' @rdname as.mic
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#' @details `NA_mic_` is a missing value of the new `<mic>` class, analogous to e.g. base \R's [`NA_character_`][base::NA].
#' @format NULL
#' @export
NA_mic_ <- set_clean_class(factor(NA, levels = valid_mic_levels, ordered = TRUE),
new_class = c("mic", "ordered", "factor"))
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#' @rdname as.mic
#' @export
is.mic <- function(x) {
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inherits(x, "mic")
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}
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#' @method as.double mic
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#' @export
#' @noRd
as.double.mic <- function(x, ...) {
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as.double(gsub("[<=>]+", "", as.character(x), perl = TRUE))
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}
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#' @method as.numeric mic
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#' @export
#' @noRd
as.numeric.mic <- function(x, ...) {
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as.numeric(gsub("[<=>]+", "", as.character(x), perl = TRUE))
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}
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#' @rdname as.mic
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#' @method droplevels mic
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#' @param as.mic a [logical] to indicate whether the `<mic>` class should be kept, defaults to `FALSE`
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#' @export
droplevels.mic <- function(x, as.mic = FALSE, ...) {
x <- droplevels.factor(x, ...)
if (as.mic == TRUE) {
class(x) <- c("mic", "ordered", "factor")
}
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x
}
# will be exported using s3_register() in R/zzz.R
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pillar_shaft.mic <- function(x, ...) {
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crude_numbers <- as.double(x)
operators <- gsub("[^<=>]+", "", as.character(x))
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operators[!is.na(operators) & operators != ""] <- font_silver(operators[!is.na(operators) & operators != ""], collapse = NULL)
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out <- trimws(paste0(operators, trimws(format(crude_numbers))))
out[is.na(x)] <- font_na(NA)
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# maketrailing zeroes almost invisible
out[out %like% "[.]"] <- gsub("([.]?0+)$", font_white("\\1"), out[out %like% "[.]"], perl = TRUE)
create_pillar_column(out, align = "right", width = max(nchar(font_stripstyle(out))))
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}
# will be exported using s3_register() in R/zzz.R
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type_sum.mic <- function(x, ...) {
"mic"
}
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#' @method print mic
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#' @export
#' @noRd
print.mic <- function(x, ...) {
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cat("Class <mic>",
ifelse(length(levels(x)) < length(valid_mic_levels), font_red(" with dropped levels"), ""),
"\n", sep = "")
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print(as.character(x), quote = FALSE)
att <- attributes(x)
if ("na.action" %in% names(att)) {
cat(font_silver(paste0("(NA ", class(att$na.action), ": ", paste0(att$na.action, collapse = ", "), ")\n")))
}
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}
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#' @method summary mic
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#' @export
#' @noRd
summary.mic <- function(object, ...) {
summary(as.double(object), ...)
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}
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#' @method as.matrix mic
#' @export
#' @noRd
as.matrix.mic <- function(x, ...) {
as.matrix(as.double(x), ...)
}
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#' @method [ mic
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#' @export
#' @noRd
"[.mic" <- function(x, ...) {
y <- NextMethod()
attributes(y) <- attributes(x)
y
}
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#' @method [[ mic
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#' @export
#' @noRd
"[[.mic" <- function(x, ...) {
y <- NextMethod()
attributes(y) <- attributes(x)
y
}
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#' @method [<- mic
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#' @export
#' @noRd
"[<-.mic" <- function(i, j, ..., value) {
value <- as.mic(value)
y <- NextMethod()
attributes(y) <- attributes(i)
y
}
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#' @method [[<- mic
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#' @export
#' @noRd
"[[<-.mic" <- function(i, j, ..., value) {
value <- as.mic(value)
y <- NextMethod()
attributes(y) <- attributes(i)
y
}
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#' @method c mic
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#' @export
#' @noRd
c.mic <- function(...) {
as.mic(unlist(lapply(list(...), as.character)))
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}
#' @method unique mic
#' @export
#' @noRd
unique.mic <- function(x, incomparables = FALSE, ...) {
y <- NextMethod()
attributes(y) <- attributes(x)
y
}
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#' @method rep mic
#' @export
#' @noRd
rep.mic <- function(x, ...) {
y <- NextMethod()
attributes(y) <- attributes(x)
y
}
#' @method sort mic
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#' @export
#' @noRd
sort.mic <- function(x, decreasing = FALSE, ...) {
if (decreasing == TRUE) {
ord <- order(-as.double(x))
} else {
ord <- order(as.double(x))
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}
x[ord]
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}
#' @method hist mic
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#' @importFrom graphics hist
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#' @export
#' @noRd
hist.mic <- function(x, ...) {
warning_("in `hist()`: use `plot()` or ggplot2's `autoplot()` for optimal plotting of MIC values")
hist(log2(x))
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}
# will be exported using s3_register() in R/zzz.R
get_skimmers.mic <- function(column) {
skimr::sfl(
skim_type = "mic",
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p0 = ~stats::quantile(., probs = 0, na.rm = TRUE, names = FALSE),
p25 = ~stats::quantile(., probs = 0.25, na.rm = TRUE, names = FALSE),
p50 = ~stats::quantile(., probs = 0.5, na.rm = TRUE, names = FALSE),
p75 = ~stats::quantile(., probs = 0.75, na.rm = TRUE, names = FALSE),
p100 = ~stats::quantile(., probs = 1, na.rm = TRUE, names = FALSE),
hist = ~skimr::inline_hist(log2(stats::na.omit(.)), 5)
)
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}
# Miscellaneous mathematical functions ------------------------------------
#' @method mean mic
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#' @export
#' @noRd
mean.mic <- function(x, trim = 0, na.rm = FALSE, ...) {
mean(as.double(x), trim = trim, na.rm = na.rm, ...)
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}
#' @method median mic
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#' @importFrom stats median
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#' @export
#' @noRd
median.mic <- function(x, na.rm = FALSE, ...) {
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median(as.double(x), na.rm = na.rm, ...)
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}
#' @method quantile mic
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#' @importFrom stats quantile
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#' @export
#' @noRd
quantile.mic <- function(x, probs = seq(0, 1, 0.25), na.rm = FALSE,
names = TRUE, type = 7, ...) {
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quantile(as.double(x), probs = probs, na.rm = na.rm, names = names, type = type, ...)
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}
# Math (see ?groupGeneric) ----------------------------------------------
#' @method abs mic
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#' @export
#' @noRd
abs.mic <- function(x) {
abs(as.double(x))
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}
#' @method sign mic
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#' @export
#' @noRd
sign.mic <- function(x) {
sign(as.double(x))
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}
#' @method sqrt mic
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#' @export
#' @noRd
sqrt.mic <- function(x) {
sqrt(as.double(x))
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}
#' @method floor mic
#' @export
#' @noRd
floor.mic <- function(x) {
floor(as.double(x))
}
#' @method ceiling mic
#' @export
#' @noRd
ceiling.mic <- function(x) {
ceiling(as.double(x))
}
#' @method trunc mic
#' @export
#' @noRd
trunc.mic <- function(x, ...) {
trunc(as.double(x), ...)
}
#' @method round mic
#' @export
#' @noRd
round.mic <- function(x, digits = 0) {
round(as.double(x), digits = digits)
}
#' @method signif mic
#' @export
#' @noRd
signif.mic <- function(x, digits = 6) {
signif(as.double(x), digits = digits)
}
#' @method exp mic
#' @export
#' @noRd
exp.mic <- function(x) {
exp(as.double(x))
}
#' @method log mic
#' @export
#' @noRd
log.mic <- function(x, base = exp(1)) {
log(as.double(x), base = base)
}
#' @method log10 mic
#' @export
#' @noRd
log10.mic <- function(x) {
log10(as.double(x))
}
#' @method log2 mic
#' @export
#' @noRd
log2.mic <- function(x) {
log2(as.double(x))
}
#' @method expm1 mic
#' @export
#' @noRd
expm1.mic <- function(x) {
expm1(as.double(x))
}
#' @method log1p mic
#' @export
#' @noRd
log1p.mic <- function(x) {
log1p(as.double(x))
}
#' @method cos mic
#' @export
#' @noRd
cos.mic <- function(x) {
cos(as.double(x))
}
#' @method sin mic
#' @export
#' @noRd
sin.mic <- function(x) {
sin(as.double(x))
}
#' @method tan mic
#' @export
#' @noRd
tan.mic <- function(x) {
tan(as.double(x))
}
#' @method cospi mic
#' @export
#' @noRd
cospi.mic <- function(x) {
cospi(as.double(x))
}
#' @method sinpi mic
#' @export
#' @noRd
sinpi.mic <- function(x) {
sinpi(as.double(x))
}
#' @method tanpi mic
#' @export
#' @noRd
tanpi.mic <- function(x) {
tanpi(as.double(x))
}
#' @method acos mic
#' @export
#' @noRd
acos.mic <- function(x) {
acos(as.double(x))
}
#' @method asin mic
#' @export
#' @noRd
asin.mic <- function(x) {
asin(as.double(x))
}
#' @method atan mic
#' @export
#' @noRd
atan.mic <- function(x) {
atan(as.double(x))
}
#' @method cosh mic
#' @export
#' @noRd
cosh.mic <- function(x) {
cosh(as.double(x))
}
#' @method sinh mic
#' @export
#' @noRd
sinh.mic <- function(x) {
sinh(as.double(x))
}
#' @method tanh mic
#' @export
#' @noRd
tanh.mic <- function(x) {
tanh(as.double(x))
}
#' @method acosh mic
#' @export
#' @noRd
acosh.mic <- function(x) {
acosh(as.double(x))
}
#' @method asinh mic
#' @export
#' @noRd
asinh.mic <- function(x) {
asinh(as.double(x))
}
#' @method atanh mic
#' @export
#' @noRd
atanh.mic <- function(x) {
atanh(as.double(x))
}
#' @method lgamma mic
#' @export
#' @noRd
lgamma.mic <- function(x) {
lgamma(as.double(x))
}
#' @method gamma mic
#' @export
#' @noRd
gamma.mic <- function(x) {
gamma(as.double(x))
}
#' @method digamma mic
#' @export
#' @noRd
digamma.mic <- function(x) {
digamma(as.double(x))
}
#' @method trigamma mic
#' @export
#' @noRd
trigamma.mic <- function(x) {
trigamma(as.double(x))
}
#' @method cumsum mic
#' @export
#' @noRd
cumsum.mic <- function(x) {
cumsum(as.double(x))
}
#' @method cumprod mic
#' @export
#' @noRd
cumprod.mic <- function(x) {
cumprod(as.double(x))
}
#' @method cummax mic
#' @export
#' @noRd
cummax.mic <- function(x) {
cummax(as.double(x))
}
#' @method cummin mic
#' @export
#' @noRd
cummin.mic <- function(x) {
cummin(as.double(x))
}
# Ops (see ?groupGeneric) -----------------------------------------------
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is_greater <- function(el) {
el %like_case% ">[0-9]"
}
is_lower <- function(el) {
el %like_case% "<[0-9]"
}
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#' @method + mic
#' @export
#' @noRd
`+.mic` <- function(e1, e2) {
as.double(e1) + as.double(e2)
}
#' @method - mic
#' @export
#' @noRd
`-.mic` <- function(e1, e2) {
as.double(e1) - as.double(e2)
}
#' @method * mic
#' @export
#' @noRd
`*.mic` <- function(e1, e2) {
as.double(e1) * as.double(e2)
}
#' @method / mic
#' @export
#' @noRd
`/.mic` <- function(e1, e2) {
as.double(e1) / as.double(e2)
}
#' @method ^ mic
#' @export
#' @noRd
`^.mic` <- function(e1, e2) {
as.double(e1) ^ as.double(e2)
}
#' @method %% mic
#' @export
#' @noRd
`%%.mic` <- function(e1, e2) {
as.double(e1) %% as.double(e2)
}
#' @method %/% mic
#' @export
#' @noRd
`%/%.mic` <- function(e1, e2) {
as.double(e1) %/% as.double(e2)
}
#' @method & mic
#' @export
#' @noRd
`&.mic` <- function(e1, e2) {
as.double(e1) & as.double(e2)
}
#' @method | mic
#' @export
#' @noRd
`|.mic` <- function(e1, e2) {
as.double(e1) | as.double(e2)
}
#' @method ! mic
#' @export
#' @noRd
`!.mic` <- function(x) {
!as.double(x)
}
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#' @method == mic
#' @export
#' @noRd
`==.mic` <- function(e1, e2) {
as.double(e1) == as.double(e2)
}
#' @method != mic
#' @export
#' @noRd
`!=.mic` <- function(e1, e2) {
as.double(e1) != as.double(e2)
}
#' @method < mic
#' @export
#' @noRd
`<.mic` <- function(e1, e2) {
as.double(e1) < as.double(e2)
}
#' @method <= mic
#' @export
#' @noRd
`<=.mic` <- function(e1, e2) {
as.double(e1) <= as.double(e2)
}
#' @method >= mic
#' @export
#' @noRd
`>=.mic` <- function(e1, e2) {
as.double(e1) >= as.double(e2)
}
#' @method > mic
#' @export
#' @noRd
`>.mic` <- function(e1, e2) {
as.double(e1) > as.double(e2)
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# doesn't work...
# nolint start
# as.double(e1) > as.double(e2) |
# (as.double(e1) == as.double(e2) & is_lower(e2) & !is_lower(e1)) |
# (as.double(e1) == as.double(e2) & is_greater(e1) & !is_greater(e2))
# nolint end
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}
# Summary (see ?groupGeneric) -------------------------------------------
#' @method all mic
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#' @export
#' @noRd
all.mic <- function(..., na.rm = FALSE) {
all(as.double(c(...)), na.rm = na.rm)
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}
#' @method any mic
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#' @export
#' @noRd
any.mic <- function(..., na.rm = FALSE) {
any(as.double(c(...)), na.rm = na.rm)
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}
#' @method sum mic
#' @export
#' @noRd
sum.mic <- function(..., na.rm = FALSE) {
sum(as.double(c(...)), na.rm = na.rm)
}
#' @method prod mic
#' @export
#' @noRd
prod.mic <- function(..., na.rm = FALSE) {
prod(as.double(c(...)), na.rm = na.rm)
}
#' @method min mic
#' @export
#' @noRd
min.mic <- function(..., na.rm = FALSE) {
min(as.double(c(...)), na.rm = na.rm)
}
#' @method max mic
#' @export
#' @noRd
max.mic <- function(..., na.rm = FALSE) {
max(as.double(c(...)), na.rm = na.rm)
}
#' @method range mic
#' @export
#' @noRd
range.mic <- function(..., na.rm = FALSE) {
range(as.double(c(...)), na.rm = na.rm)
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}