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# ==================================================================== #
# TITLE #
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# Antimicrobial Resistance (AMR) Data Analysis for R #
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# #
# SOURCE #
# https://github.com/msberends/AMR #
# #
# LICENCE #
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# (c) 2018-2021 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. #
# #
# 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. #
# #
# Visit our website for the full manual and a complete tutorial about #
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# how to conduct AMR data analysis: https://msberends.github.io/AMR/ #
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# ==================================================================== #
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#' Random MIC Values/Disk Zones/RSI Generation
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#'
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#' These functions can be used for generating random MIC values and disk diffusion diameters, for AMR data analysis practice. By providing a microorganism and antimicrobial agent, the generated results will reflect reality as much as possible.
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#' @inheritSection lifecycle Maturing Lifecycle
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#' @param size desired size of the returned vector
#' @param mo any character that can be coerced to a valid microorganism code with [as.mo()]
#' @param ab any character that can be coerced to a valid antimicrobial agent code with [as.ab()]
#' @param prob_RSI a vector of length 3: the probabilities for R (1st value), S (2nd value) and I (3rd value)
#' @param ... extension for future versions, not used at the moment
#' @details The base R function [sample()] is used for generating values.
#'
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#' Generated values are based on the latest EUCAST guideline implemented in the [rsi_translation] data set. To create specific generated values per bug or drug, set the `mo` and/or `ab` argument.
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#' @return class `<mic>` for [random_mic()] (see [as.mic()]) and class `<disk>` for [random_disk()] (see [as.disk()])
#' @name random
#' @rdname random
#' @export
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#' @inheritSection AMR Read more on Our Website!
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#' @examples
#' random_mic(100)
#' random_disk(100)
#' random_rsi(100)
#'
#' \donttest{
#' # make the random generation more realistic by setting a bug and/or drug:
#' random_mic(100, "Klebsiella pneumoniae") # range 0.0625-64
#' random_mic(100, "Klebsiella pneumoniae", "meropenem") # range 0.0625-16
#' random_mic(100, "Streptococcus pneumoniae", "meropenem") # range 0.0625-4
#'
#' random_disk(100, "Klebsiella pneumoniae") # range 11-50
#' random_disk(100, "Klebsiella pneumoniae", "ampicillin") # range 6-14
#' random_disk(100, "Streptococcus pneumoniae", "ampicillin") # range 16-22
#' }
random_mic <- function ( size , mo = NULL , ab = NULL , ... ) {
random_exec ( " MIC" , size = size , mo = mo , ab = ab )
}
#' @rdname random
#' @export
random_disk <- function ( size , mo = NULL , ab = NULL , ... ) {
random_exec ( " DISK" , size = size , mo = mo , ab = ab )
}
#' @rdname random
#' @export
random_rsi <- function ( size , prob_RSI = c ( 0.33 , 0.33 , 0.33 ) , ... ) {
sample ( as.rsi ( c ( " R" , " S" , " I" ) ) , size = size , replace = TRUE , prob = prob_RSI )
}
random_exec <- function ( type , size , mo = NULL , ab = NULL ) {
df <- rsi_translation %pm>%
pm_filter ( guideline %like% " EUCAST" ) %pm>%
pm_arrange ( pm_desc ( guideline ) ) %pm>%
subset ( guideline == max ( guideline ) &
method == type )
if ( ! is.null ( mo ) ) {
mo_coerced <- as.mo ( mo )
mo_include <- c ( mo_coerced ,
as.mo ( mo_genus ( mo_coerced ) ) ,
as.mo ( mo_family ( mo_coerced ) ) ,
as.mo ( mo_order ( mo_coerced ) ) )
df_new <- df %pm>%
subset ( mo %in% mo_include )
if ( nrow ( df_new ) > 0 ) {
df <- df_new
} else {
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warning_ ( " No rows found that match mo '" , mo , " ', ignoring argument `mo`" , call = FALSE )
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}
}
if ( ! is.null ( ab ) ) {
ab_coerced <- as.ab ( ab )
df_new <- df %pm>%
subset ( ab %in% ab_coerced )
if ( nrow ( df_new ) > 0 ) {
df <- df_new
} else {
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warning_ ( " No rows found that match ab '" , ab , " ', ignoring argument `ab`" , call = FALSE )
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}
}
if ( type == " MIC" ) {
# all valid MIC levels
valid_range <- as.mic ( levels ( as.mic ( 1 ) ) )
set_range_max <- max ( df $ breakpoint_R )
if ( log ( set_range_max , 2 ) %% 1 == 0 ) {
# return powers of 2
valid_range <- unique ( as.double ( valid_range ) )
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# add 1-3 higher MIC levels to set_range_max
set_range_max <- 2 ^ ( log ( set_range_max , 2 ) + sample ( c ( 1 : 3 ) , 1 ) )
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set_range <- as.mic ( valid_range [log ( valid_range , 2 ) %% 1 == 0 & valid_range <= set_range_max ] )
} else {
# no power of 2, return factors of 2 to left and right side
valid_mics <- suppressWarnings ( as.mic ( set_range_max / ( 2 ^ c ( -3 : 3 ) ) ) )
set_range <- valid_mics [ ! is.na ( valid_mics ) ]
}
return ( as.mic ( sample ( set_range , size = size , replace = TRUE ) ) )
} else if ( type == " DISK" ) {
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set_range <- seq ( from = as.integer ( min ( df $ breakpoint_R ) / 1.25 ) ,
to = as.integer ( max ( df $ breakpoint_S ) * 1.25 ) ,
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by = 1 )
out <- sample ( set_range , size = size , replace = TRUE )
out [out < 6 ] <- sample ( c ( 6 : 10 ) , length ( out [out < 6 ] ) , replace = TRUE )
out [out > 50 ] <- sample ( c ( 40 : 50 ) , length ( out [out > 50 ] ) , replace = TRUE )
return ( as.disk ( out ) )
}
}