# ==================================================================== # # TITLE # # Antimicrobial Resistance (AMR) Data Analysis for R # # # # SOURCE # # https://github.com/msberends/AMR # # # # LICENCE # # (c) 2018-2021 Berends MS, Luz CF et al. # # 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 # # how to conduct AMR data analysis: https://msberends.github.io/AMR/ # # ==================================================================== # #' Antibiotic Selectors #' #' These functions allow for filtering rows and selecting columns based on antibiotic test results that are of a specific antibiotic class or group, without the need to define the columns or antibiotic abbreviations. In short, if you have a column name that resembles an antimicrobial agent, it will be picked up by any of these functions that matches its pharmaceutical class: "cefazolin", "CZO" and "J01DB04" will all be picked up by [cephalosporins()]. #' @inheritSection lifecycle Stable Lifecycle #' @param ab_class an antimicrobial class, such as `"carbapenems"`. The columns `group`, `atc_group1` and `atc_group2` of the [antibiotics] data set will be searched (case-insensitive) for this value. #' @param filter an [expression] to be evaluated in the [antibiotics] data set, such as `name %like% "trim"` #' @param only_rsi_columns a [logical] to indicate whether only columns of class `` must be selected (defaults to `FALSE`), see [as.rsi()] #' @param only_treatable a [logical] to indicate whether agents that are only for laboratory tests should be excluded (defaults to `TRUE`), such as gentamicin-high (`GEH`) and imipenem/EDTA (`IPE`) #' @param ... ignored, only in place to allow future extensions #' @details #' These functions can be used in data set calls for selecting columns and filtering rows. They are heavily inspired by the [Tidyverse selection helpers][tidyselect::language] such as [`everything()`][tidyselect::everything()], but also work in base \R and not only in `dplyr` verbs. Nonetheless, they are very convenient to use with `dplyr` functions such as [`select()`][dplyr::select()], [`filter()`][dplyr::filter()] and [`summarise()`][dplyr::summarise()], see *Examples*. #' #' All columns in the data in which these functions are called will be searched for known antibiotic names, abbreviations, brand names, and codes (ATC, EARS-Net, WHO, etc.) according to the [antibiotics] data set. This means that a selector such as [aminoglycosides()] will pick up column names like 'gen', 'genta', 'J01GB03', 'tobra', 'Tobracin', etc. #' #' The [ab_class()] function can be used to filter/select on a manually defined antibiotic class. It searches for results in the [antibiotics] data set within the columns `name`, `atc_group1` and `atc_group2`. #' #' The [ab_selector()] function can be used to internally filter the [antibiotics] data set on any results, see *Examples*. It allows for filtering on a (part of) a certain name, and/or a group name or even a minimum of DDDs for oral treatment. This function yields the highest flexibility, but is also the least user-friendly, since it requires a hard-coded filter to set. #' #' The [administrable_per_os()] and [administrable_iv()] functions also rely on the [antibiotics] data set - antibiotic columns will be matched where a DDD (defined daily dose) for resp. oral and IV treatment is available in the [antibiotics] data set. #' #' @section Full list of supported (antibiotic) classes: #' #' `r paste0(" * ", na.omit(sapply(DEFINED_AB_GROUPS, function(ab) ifelse(tolower(gsub("^AB_", "", ab)) %in% ls(envir = asNamespace("AMR")), paste0("[", tolower(gsub("^AB_", "", ab)), "()] can select: \\cr ", vector_and(paste0(ab_name(eval(parse(text = ab), envir = asNamespace("AMR")), language = NULL, tolower = TRUE), " (", eval(parse(text = ab), envir = asNamespace("AMR")), ")"), quotes = FALSE, sort = TRUE)), character(0)), USE.NAMES = FALSE)), "\n", collapse = "")` #' @rdname antibiotic_class_selectors #' @name antibiotic_class_selectors #' @return (internally) a [character] vector of column names, with additional class `"ab_selector"` #' @export #' @inheritSection AMR Reference Data Publicly Available #' @inheritSection AMR Read more on Our Website! #' @examples #' # `example_isolates` is a data set available in the AMR package. #' # See ?example_isolates. #' #' # base R ------------------------------------------------------------------ #' #' # select columns 'IPM' (imipenem) and 'MEM' (meropenem) #' example_isolates[, carbapenems()] #' #' # select columns 'mo', 'AMK', 'GEN', 'KAN' and 'TOB' #' example_isolates[, c("mo", aminoglycosides())] #' #' # select only antibiotic columns with DDDs for oral treatment #' example_isolates[, administrable_per_os()] #' #' # filter using any() or all() #' example_isolates[any(carbapenems() == "R"), ] #' subset(example_isolates, any(carbapenems() == "R")) #' #' # filter on any or all results in the carbapenem columns (i.e., IPM, MEM): #' example_isolates[any(carbapenems()), ] #' example_isolates[all(carbapenems()), ] #' #' # filter with multiple antibiotic selectors using c() #' example_isolates[all(c(carbapenems(), aminoglycosides()) == "R"), ] #' #' # filter + select in one go: get penicillins in carbapenems-resistant strains #' example_isolates[any(carbapenems() == "R"), penicillins()] #' #' # You can combine selectors with '&' to be more specific. For example, #' # penicillins() would select benzylpenicillin ('peni G') and #' # administrable_per_os() would select erythromycin. Yet, when combined these #' # drugs are both omitted since benzylpenicillin is not administrable per os #' # and erythromycin is not a penicillin: #' example_isolates[, penicillins() & administrable_per_os()] #' #' #' # dplyr ------------------------------------------------------------------- #' \donttest{ #' if (require("dplyr")) { #' #' # get AMR for all aminoglycosides e.g., per hospital: #' example_isolates %>% #' group_by(hospital_id) %>% #' summarise(across(aminoglycosides(), resistance)) #' #' # You can combine selectors with '&' to be more specific: #' example_isolates %>% #' select(penicillins() & administrable_per_os()) #' #' # get susceptibility for antibiotics whose name contains "trim": #' example_isolates %>% #' filter(first_isolate()) %>% #' group_by(hospital_id) %>% #' summarise(across(ab_selector(name %like% "trim"), susceptibility)) #' #' # this will select columns 'IPM' (imipenem) and 'MEM' (meropenem): #' example_isolates %>% #' select(carbapenems()) #' #' # this will select columns 'mo', 'AMK', 'GEN', 'KAN' and 'TOB': #' example_isolates %>% #' select(mo, aminoglycosides()) #' #' # any() and all() work in dplyr's filter() too: #' example_isolates %>% #' filter(any(aminoglycosides() == "R"), #' all(cephalosporins_2nd() == "R")) #' #' # also works with c(): #' example_isolates %>% #' filter(any(c(carbapenems(), aminoglycosides()) == "R")) #' #' # not setting any/all will automatically apply all(): #' example_isolates %>% #' filter(aminoglycosides() == "R") #' #> i Assuming a filter on all 4 aminoglycosides. #' #' # this will select columns 'mo' and all antimycobacterial drugs ('RIF'): #' example_isolates %>% #' select(mo, ab_class("mycobact")) #' #' # get bug/drug combinations for only macrolides in Gram-positives: #' example_isolates %>% #' filter(mo_is_gram_positive()) %>% #' select(mo, macrolides()) %>% #' bug_drug_combinations() %>% #' format() #' #' data.frame(some_column = "some_value", #' J01CA01 = "S") %>% # ATC code of ampicillin #' select(penicillins()) # only the 'J01CA01' column will be selected #' #' #' # with dplyr 1.0.0 and higher (that adds 'across()'), this is all equal: #' example_isolates[carbapenems() == "R", ] #' example_isolates %>% filter(carbapenems() == "R") #' example_isolates %>% filter(across(carbapenems(), ~.x == "R")) #' } #' } ab_class <- function(ab_class, only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(ab_class, allow_class = "character", has_length = 1, allow_NULL = TRUE) meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) ab_select_exec(NULL, only_rsi_columns = only_rsi_columns, ab_class = ab_class, only_treatable = only_treatable) } #' @rdname antibiotic_class_selectors #' @export ab_selector <- function(filter, only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) # get_current_data() has to run each time, for cases where e.g., filter() and select() are used in same call # but it only takes a couple of milliseconds vars_df <- get_current_data(arg_name = NA, call = -2) # to improve speed, get_column_abx() will only run once when e.g. in a select or group call ab_in_data <- get_column_abx(vars_df, info = FALSE, only_rsi_columns = only_rsi_columns, sort = FALSE) call <- substitute(filter) agents <- tryCatch(AMR::antibiotics[which(eval(call, envir = AMR::antibiotics)), "ab", drop = TRUE], error = function(e) stop_(e$message, call = -5)) agents <- ab_in_data[ab_in_data %in% agents] message_agent_names(function_name = "ab_selector", agents = agents, ab_group = NULL, examples = "", call = call) structure(unname(agents), class = c("ab_selector", "character")) } #' @rdname antibiotic_class_selectors #' @export administrable_per_os <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) # get_current_data() has to run each time, for cases where e.g., filter() and select() are used in same call # but it only takes a couple of milliseconds vars_df <- get_current_data(arg_name = NA, call = -2) # to improve speed, get_column_abx() will only run once when e.g. in a select or group call ab_in_data <- get_column_abx(vars_df, info = FALSE, only_rsi_columns = only_rsi_columns, sort = FALSE) agents_all <- antibiotics[which(!is.na(antibiotics$oral_ddd)), "ab", drop = TRUE] agents <- antibiotics[which(antibiotics$ab %in% ab_in_data & !is.na(antibiotics$oral_ddd)), "ab", drop = TRUE] agents <- ab_in_data[ab_in_data %in% agents] message_agent_names(function_name = "administrable_per_os", agents = agents, ab_group = "administrable_per_os", examples = paste0(" (such as ", vector_or(ab_name(sample(agents_all, size = min(5, length(agents_all)), replace = FALSE), tolower = TRUE, language = NULL), quotes = FALSE), ")")) structure(unname(agents), class = c("ab_selector", "character")) } #' @rdname antibiotic_class_selectors #' @export administrable_iv <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) # get_current_data() has to run each time, for cases where e.g., filter() and select() are used in same call # but it only takes a couple of milliseconds vars_df <- get_current_data(arg_name = NA, call = -2) # to improve speed, get_column_abx() will only run once when e.g. in a select or group call ab_in_data <- get_column_abx(vars_df, info = FALSE, only_rsi_columns = only_rsi_columns, sort = FALSE) agents_all <- antibiotics[which(!is.na(antibiotics$iv_ddd)), "ab", drop = TRUE] agents <- antibiotics[which(antibiotics$ab %in% ab_in_data & !is.na(antibiotics$iv_ddd)), "ab", drop = TRUE] agents <- ab_in_data[ab_in_data %in% agents] message_agent_names(function_name = "administrable_iv", agents = agents, ab_group = "administrable_iv", examples = "") structure(unname(agents), class = c("ab_selector", "character")) } # nolint start # #' @rdname antibiotic_class_selectors # #' @export # not_intrinsic_resistant <- function(mo, ..., only_rsi_columns = FALSE, ...) { # meet_criteria(mo, allow_class = c("mo", "data.frame", "list", "character", "numeric", "integer", "factor"), has_length = 1, allow_NA = FALSE) # meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) # # x <- as.mo(mo, ...) # wont_work <- intrinsic_resistant[which(intrinsic_resistant$microorganism == mo_name(x, language = NULL)), # "antibiotic", # drop = TRUE] # # # get_current_data() has to run each time, for cases where e.g., filter() and select() are used in same call # # but it only takes a couple of milliseconds # vars_df <- get_current_data(arg_name = NA, call = -2) # # to improve speed, get_column_abx() will only run once when e.g. in a select or group call # ab_in_data <- get_column_abx(vars_df, info = FALSE, only_rsi_columns = only_rsi_columns, sort = FALSE) # # agents <- ab_in_data[!names(ab_in_data) %in% as.character(as.ab(wont_work))] # # # show used version number once per session (pkg_env will reload every session) # if (message_not_thrown_before("intrinsic_resistant_version.ab", entire_session = TRUE)) { # message_("Determining intrinsic resistance based on ", # format_eucast_version_nr(3.2, markdown = FALSE), ". ", # font_red("This note will be shown once per session.")) # } # # message_agent_names(function_name = "not_intrinsic_resistant", # agents = ab_in_data, # ab_group = NULL, # examples = "", # call = mo_name(x, language = NULL)) # # agents # } # nolint end #' @rdname antibiotic_class_selectors #' @export aminoglycosides <- function(only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) ab_select_exec("aminoglycosides", only_rsi_columns = only_rsi_columns, only_treatable = only_treatable) } #' @rdname antibiotic_class_selectors #' @export aminopenicillins <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("aminopenicillins", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export antifungals <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("antifungals", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export antimycobacterials <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("antimycobacterials", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export betalactams <- function(only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) ab_select_exec("betalactams", only_rsi_columns = only_rsi_columns, only_treatable = only_treatable) } #' @rdname antibiotic_class_selectors #' @export carbapenems <- function(only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) ab_select_exec("carbapenems", only_rsi_columns = only_rsi_columns, only_treatable = only_treatable) } #' @rdname antibiotic_class_selectors #' @export cephalosporins <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export cephalosporins_1st <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins_1st", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export cephalosporins_2nd <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins_2nd", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export cephalosporins_3rd <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins_3rd", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export cephalosporins_4th <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins_4th", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export cephalosporins_5th <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("cephalosporins_5th", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export fluoroquinolones <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("fluoroquinolones", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export glycopeptides <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("glycopeptides", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export lincosamides <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("lincosamides", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export lipoglycopeptides <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("lipoglycopeptides", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export macrolides <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("macrolides", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export oxazolidinones <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("oxazolidinones", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export penicillins <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("penicillins", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export polymyxins <- function(only_rsi_columns = FALSE, only_treatable = TRUE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) meet_criteria(only_treatable, allow_class = "logical", has_length = 1) ab_select_exec("polymyxins", only_rsi_columns = only_rsi_columns, only_treatable = only_treatable) } #' @rdname antibiotic_class_selectors #' @export streptogramins <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("streptogramins", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export quinolones <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("quinolones", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export tetracyclines <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("tetracyclines", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export trimethoprims <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("trimethoprims", only_rsi_columns = only_rsi_columns) } #' @rdname antibiotic_class_selectors #' @export ureidopenicillins <- function(only_rsi_columns = FALSE, ...) { meet_criteria(only_rsi_columns, allow_class = "logical", has_length = 1) ab_select_exec("ureidopenicillins", only_rsi_columns = only_rsi_columns) } ab_select_exec <- function(function_name, only_rsi_columns = FALSE, only_treatable = FALSE, ab_class = NULL) { # get_current_data() has to run each time, for cases where e.g., filter() and select() are used in same call # but it only takes a couple of milliseconds vars_df <- get_current_data(arg_name = NA, call = -3) # to improve speed, get_column_abx() will only run once when e.g. in a select or group call ab_in_data <- get_column_abx(vars_df, info = FALSE, only_rsi_columns = only_rsi_columns, sort = FALSE) # untreatable drugs untreatable <- antibiotics[which(antibiotics$name %like% "-high|EDTA|polysorbate"), "ab", drop = TRUE] if (only_treatable == TRUE & any(untreatable %in% names(ab_in_data))) { if (message_not_thrown_before(paste0("ab_class.untreatable.", function_name), entire_session = TRUE)) { warning_("Some agents in `", function_name, "()` were ignored since they cannot be used for treating patients: ", vector_and(ab_name(names(ab_in_data)[names(ab_in_data) %in% untreatable], language = NULL, tolower = TRUE), quotes = FALSE, sort = TRUE), ". They can be included using `", function_name, "(only_treatable = FALSE)`. ", "This warning will be shown once per session.", call = FALSE) } ab_in_data <- ab_in_data[!names(ab_in_data) %in% untreatable] } if (length(ab_in_data) == 0) { message_("No antimicrobial agents found in the data.") return(NULL) } if (is.null(ab_class)) { # their upper case equivalent are vectors with class , created in data-raw/_internals.R # carbapenems() gets its codes from AMR:::AB_CARBAPENEMS abx <- get(paste0("AB_", toupper(function_name)), envir = asNamespace("AMR")) ab_group <- function_name examples <- paste0(" (such as ", vector_or(ab_name(sample(abx, size = min(2, length(abx)), replace = FALSE), tolower = TRUE, language = NULL), quotes = FALSE), ")") } else { # this for the 'manual' ab_class() function abx <- subset(AB_lookup, group %like% ab_class | atc_group1 %like% ab_class | atc_group2 %like% ab_class)$ab ab_group <- find_ab_group(ab_class) function_name <- "ab_class" examples <- paste0(" (such as ", find_ab_names(ab_class, 2), ")") } # get the columns with a group names in the chosen ab class agents <- ab_in_data[names(ab_in_data) %in% abx] message_agent_names(function_name = function_name, agents = agents, ab_group = ab_group, examples = examples) structure(unname(agents), class = c("ab_selector", "character")) } #' @method c ab_selector #' @export #' @noRd c.ab_selector <- function(...) { structure(unlist(lapply(list(...), as.character)), class = c("ab_selector", "character")) } all_any_ab_selector <- function(type, ..., na.rm = TRUE) { cols_ab <- c(...) result <- cols_ab[toupper(cols_ab) %in% c("R", "S", "I")] if (length(result) == 0) { message_("Filtering ", type, " of columns ", vector_and(font_bold(cols_ab, collapse = NULL), quotes = "'"), ' to contain value "R", "S" or "I"') result <- c("R", "S", "I") } cols_ab <- cols_ab[!cols_ab %in% result] df <- get_current_data(arg_name = NA, call = -3) if (type == "all") { scope_fn <- all } else { scope_fn <- any } x_transposed <- as.list(as.data.frame(t(df[, cols_ab, drop = FALSE]), stringsAsFactors = FALSE)) vapply(FUN.VALUE = logical(1), X = x_transposed, FUN = function(y) scope_fn(y %in% result, na.rm = na.rm), USE.NAMES = FALSE) } #' @method all ab_selector #' @export #' @noRd all.ab_selector <- function(..., na.rm = FALSE) { all_any_ab_selector("all", ..., na.rm = na.rm) } #' @method any ab_selector #' @export #' @noRd any.ab_selector <- function(..., na.rm = FALSE) { all_any_ab_selector("any", ..., na.rm = na.rm) } #' @method all ab_selector_any_all #' @export #' @noRd all.ab_selector_any_all <- function(..., na.rm = FALSE) { # this is all() on a logical vector from `==.ab_selector` or `!=.ab_selector` # e.g., example_isolates %>% filter(all(carbapenems() == "R")) # so just return the vector as is, only correcting for na.rm out <- unclass(c(...)) if (na.rm == TRUE) { out <- out[!is.na(out)] } out } #' @method any ab_selector_any_all #' @export #' @noRd any.ab_selector_any_all <- function(..., na.rm = FALSE) { # this is any() on a logical vector from `==.ab_selector` or `!=.ab_selector` # e.g., example_isolates %>% filter(any(carbapenems() == "R")) # so just return the vector as is, only correcting for na.rm out <- unclass(c(...)) if (na.rm == TRUE) { out <- out[!is.na(out)] } out } #' @method == ab_selector #' @export #' @noRd `==.ab_selector` <- function(e1, e2) { calls <- as.character(match.call()) fn_name <- calls[2] fn_name <- gsub("^(c\$)(.*)(\$)$", "\\2", fn_name) if (is_any(fn_name)) { type <- "any" } else if (is_all(fn_name)) { type <- "all" } else { type <- "all" if (length(e1) > 1) { message_("Assuming a filter on ", type, " ", length(e1), " ", gsub("[\$\$]", "", fn_name), ". Wrap around `all()` or `any()` to prevent this note.") } } structure(all_any_ab_selector(type = type, e1, e2), class = c("ab_selector_any_all", "logical")) } #' @method != ab_selector #' @export #' @noRd `!=.ab_selector` <- function(e1, e2) { calls <- as.character(match.call()) fn_name <- calls[2] fn_name <- gsub("^(c\$)(.*)(\$)$", "\\2", fn_name) if (is_any(fn_name)) { type <- "any" } else if (is_all(fn_name)) { type <- "all" } else { type <- "all" if (length(e1) > 1) { message_("Assuming a filter on ", type, " ", length(e1), " ", gsub("[\$\$]", "", fn_name), ". Wrap around `all()` or `any()` to prevent this note.") } } # this is `!=`, so turn around the values rsi <- c("R", "S", "I") e2 <- rsi[rsi != e2] structure(all_any_ab_selector(type = type, e1, e2), class = c("ab_selector_any_all", "logical")) } #' @method & ab_selector #' @export #' @noRd `&.ab_selector` <- function(e1, e2) { # this is only required for base R, since tidyselect has already implemented this # e.g., for: example_isolates[, penicillins() & administrable_per_os()] structure(intersect(unclass(e1), unclass(e2)), class = c("ab_selector", "character")) } #' @method | ab_selector #' @export #' @noRd `|.ab_selector` <- function(e1, e2) { # this is only required for base R, since tidyselect has already implemented this # e.g., for: example_isolates[, penicillins() | administrable_per_os()] structure(union(unclass(e1), unclass(e2)), class = c("ab_selector", "character")) } is_any <- function(el1) { syscall <- paste0(trimws(deparse(sys.calls()[[1]])), collapse = " ") el1 <- gsub("(.*),.*", "\\1", el1) syscall %like% paste0("[^_a-zA-Z0-9]any\\(", "(c\\()?", el1) } is_all <- function(el1) { syscall <- paste0(trimws(deparse(sys.calls()[[1]])), collapse = " ") el1 <- gsub("(.*),.*", "\\1", el1) syscall %like% paste0("[^_a-zA-Z0-9]all\\(", "(c\\()?", el1) } find_ab_group <- function(ab_class) { ab_class <- gsub("[^a-zA-Z0-9]", ".*", ab_class) AB_lookup %pm>% subset(group %like% ab_class | atc_group1 %like% ab_class | atc_group2 %like% ab_class) %pm>% pm_pull(group) %pm>% unique() %pm>% tolower() %pm>% sort() %pm>% paste(collapse = "/") } find_ab_names <- function(ab_group, n = 3) { ab_group <- gsub("[^a-zA-Z|0-9]", ".*", ab_group) # try popular first, they have DDDs drugs <- antibiotics[which((!is.na(antibiotics$iv_ddd) | !is.na(antibiotics$oral_ddd)) & antibiotics$name %unlike% " " & antibiotics$group %like% ab_group & antibiotics$ab %unlike% "[0-9]$"), ]$name if (length(drugs) < n) { # now try it all drugs <- antibiotics[which((antibiotics$group %like% ab_group | antibiotics$atc_group1 %like% ab_group | antibiotics$atc_group2 %like% ab_group) & antibiotics$ab %unlike% "[0-9]$"), ]$name } if (length(drugs) == 0) { return("??") } vector_or(ab_name(sample(drugs, size = min(n, length(drugs)), replace = FALSE), tolower = TRUE, language = NULL), quotes = FALSE) } message_agent_names <- function(function_name, agents, ab_group = NULL, examples = "", call = NULL) { if (message_not_thrown_before(paste0(function_name, ".", paste(sort(agents), collapse = "|")))) { if (length(agents) == 0) { if (is.null(ab_group)) { message_("For `", function_name, "()` no antimicrobial agents found", examples, ".") } else if (ab_group == "administrable_per_os") { message_("No orally administrable agents found", examples, ".") } else if (ab_group == "administrable_iv") { message_("No IV administrable agents found", examples, ".") } else { message_("No antimicrobial agents of class '", ab_group, "' found", examples, ".") } } else { agents_formatted <- paste0("'", font_bold(agents, collapse = NULL), "'") agents_names <- ab_name(names(agents), tolower = TRUE, language = NULL) need_name <- generalise_antibiotic_name(agents) != generalise_antibiotic_name(agents_names) agents_formatted[need_name] <- paste0(agents_formatted[need_name], " (", agents_names[need_name], ")") message_("For `", function_name, "(", ifelse(function_name == "ab_class", paste0("\"", ab_class, "\""), ifelse(!is.null(call), paste0(deparse(call), collapse = " "), "")), ")` using ", ifelse(length(agents) == 1, "column ", "columns "), vector_and(agents_formatted, quotes = FALSE, sort = FALSE)) } } }