# ==================================================================== # # TITLE # # Antimicrobial Resistance (AMR) Analysis # # # # SOURCE # # https://gitlab.com/msberends/AMR # # # # LICENCE # # (c) 2019 Berends MS (m.s.berends@umcg.nl), Luz CF (c.f.luz@umcg.nl) # # # # 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. # # # # This R package was created for academic research and was publicly # # released in the hope that it will be useful, but it comes WITHOUT # # ANY WARRANTY OR LIABILITY. # # Visit our website for more info: https://msberends.gitlab.io/AMR. # # ==================================================================== # #' Transform to antibiotic ID #' #' Use this function to determine the antibiotic code of one or more antibiotics. The data set \code{\link{antibiotics}} will be searched for abbreviations, official names and synonyms (brand names). #' @param x character vector to determine to antibiotic ID #' @rdname as.ab #' @keywords atc #' @inheritSection WHOCC WHOCC #' @export #' @importFrom dplyr %>% filter slice pull #' @details All entries in the \code{\link{antibiotics}} data set have three different identifiers: a human readable EARS-Net code (column \code{ab}, used by ECDC and WHONET), an ATC code (column \code{atc}, used by WHO), and a CID code (column \code{cid}, Compound ID, used by PubChem). The data set contains more than 5,000 official brand names from many different countries, as found in PubChem. #' #' Use the \code{\link{ab_property}} functions to get properties based on the returned antibiotic ID, see Examples. #' @section Source: #' World Health Organization (WHO) Collaborating Centre for Drug Statistics Methodology: \url{https://www.whocc.no/atc_ddd_index/} #' #' WHONET 2019 software: \url{http://www.whonet.org/software.html} #' #' European Commission Public Health PHARMACEUTICALS - COMMUNITY REGISTER: \url{http://ec.europa.eu/health/documents/community-register/html/atc.htm} #' @return Character (vector) with class \code{"ab"}. Unknown values will return \code{NA}. #' @seealso \code{\link{antibiotics}} for the dataframe that is being used to determine ATCs. #' @inheritSection AMR Read more on our website! #' @examples #' # These examples all return "ERY", the ID of Erythromycin: #' as.ab("J01FA01") #' as.ab("J 01 FA 01") #' as.ab("Erythromycin") #' as.ab("eryt") #' as.ab(" eryt 123") #' as.ab("ERYT") #' as.ab("ERY") #' as.ab("eritromicine") # spelled wrong, yet works #' as.ab("Erythrocin") # trade name #' as.ab("Romycin") # trade name #' #' # Use ab_* functions to get a specific properties (see ?ab_property); #' # they use as.ab() internally: #' ab_name("J01FA01") # "Erythromycin" #' ab_name("eryt") # "Erythromycin" as.ab <- function(x) { if (is.ab(x)) { return(x) } if (all(toupper(x) %in% AMR::antibiotics$ab)) { # valid AB code, but not yet right class return(structure(.Data = toupper(x), class = "ab")) } x_bak <- x # remove suffices x_bak_clean <- gsub("_(mic|rsi|disk|disc)$", "", x, ignore.case = TRUE) # remove disk concentrations, like LVX_NM -> LVX x_bak_clean <- gsub("_[A-Z]{2}[0-9_]{0,3}$", "", x_bak_clean, ignore.case = TRUE) # clean rest of it x_bak_clean <- gsub("[^A-Z0-9/-]", "", x_bak_clean, ignore.case = TRUE) # keep only a-z when it's not an ATC code or only numbers x_bak_clean[!x_bak_clean %like% "^([A-Z][0-9]{2}[A-Z]{2}[0-9]{2}|[0-9]+)$"] <- gsub("[^a-zA-Z]+", "", x_bak_clean[!x_bak_clean %like% "^([A-Z][0-9]{2}[A-Z]{2}[0-9]{2}|[0-9]+)$"]) x <- unique(x_bak_clean) x_new <- rep(NA_character_, length(x)) x_unknown <- character(0) for (i in 1:length(x)) { if (is.na(x[i]) | is.null(x[i])) { next } if (identical(x[i], "")) { x_unknown <- c(x_unknown, x_bak[x[i] == x_bak_clean][1]) next } # prevent "bacteria" from coercing to TMP, since Bacterial is a brand name of it if (identical(tolower(x[i]), "bacteria")) { x_unknown <- c(x_unknown, x_bak[x[i] == x_bak_clean][1]) next } # exact AB code found <- AMR::antibiotics[which(AMR::antibiotics$ab == toupper(x[i])),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } # exact ATC code found <- AMR::antibiotics[which(AMR::antibiotics$atc == toupper(x[i])),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } # exact CID code found <- AMR::antibiotics[which(AMR::antibiotics$cid == x[i]),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } # exact name found <- AMR::antibiotics[which(toupper(AMR::antibiotics$name) == toupper(x[i])),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } # exact synonym synonym_found <- unlist(lapply(AMR::antibiotics$synonyms, function(s) if (toupper(x[i]) %in% toupper(s)) { TRUE } else { FALSE })) found <- AMR::antibiotics$ab[synonym_found == TRUE] if (length(found) > 0) { x_new[i] <- found[1L] next } # exact abbreviation abbr_found <- unlist(lapply(AMR::antibiotics$abbreviations, function(a) if (toupper(x[i]) %in% toupper(a)) { TRUE } else { FALSE })) found <- AMR::antibiotics$ab[abbr_found == TRUE] if (length(found) > 0) { x_new[i] <- found[1L] next } # first >=4 characters of name if (nchar(x[i]) >= 4) { found <- AMR::antibiotics[which(toupper(AMR::antibiotics$name) %like% paste0("^", x[i])),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } } # allow characters that resemble others, but only continue when having more than 3 characters if (nchar(x[i]) <= 3) { x_unknown <- c(x_unknown, x_bak[x[i] == x_bak_clean][1]) next } x_spelling <- tolower(x[i]) x_spelling <- gsub("[iy]+", "[iy]+", x_spelling) x_spelling <- gsub("(c|k|q|qu|s|z|x|ks)+", "(c|k|q|qu|s|z|x|ks)+", x_spelling) x_spelling <- gsub("(ph|f|v)+", "(ph|f|v)+", x_spelling) x_spelling <- gsub("(th|t)+", "(th|t)+", x_spelling) x_spelling <- gsub("a+", "a+", x_spelling) x_spelling <- gsub("e+", "e+", x_spelling) x_spelling <- gsub("o+", "o+", x_spelling) # allow any ending of -in/-ine and -im/-ime x_spelling <- gsub("(\\[iy\\]\\+(n|m)|\\[iy\\]\\+(n|m)e\\+)$", "[iy]+(n|m)e*", x_spelling) # allow any ending of -ol/-ole x_spelling <- gsub("(o\\+l|o\\+le\\+)$", "o+le*", x_spelling) # allow any ending of -on/-one x_spelling <- gsub("(o\\+n|o\\+ne\\+)$", "o+ne*", x_spelling) # replace multiple same characters to single one with '+', like "ll" -> "l+" x_spelling <- gsub("(.)\\1+", "\\1+", x_spelling) # try if name starts with it found <- AMR::antibiotics[which(AMR::antibiotics$name %like% paste0("^", x_spelling)),]$ab if (length(found) > 0) { x_new[i] <- found[1L] next } # and try if any synonym starts with it synonym_found <- unlist(lapply(AMR::antibiotics$synonyms, function(s) if (any(s %like% paste0("^", x_spelling))) { TRUE } else { FALSE })) found <- AMR::antibiotics$ab[synonym_found == TRUE] if (length(found) > 0) { x_new[i] <- found[1L] next } # not found x_unknown <- c(x_unknown, x_bak[x[i] == x_bak_clean][1]) } if (length(x_unknown) > 0) { warning("These values could not be coerced to a valid antibiotic ID: ", paste('"', sort(unique(x_unknown)), '"', sep = "", collapse = ', '), ".", call. = FALSE) } x_result <- data.frame(x = x_bak_clean, stringsAsFactors = FALSE) %>% left_join(data.frame(x = x, x_new = x_new, stringsAsFactors = FALSE), by = "x") %>% pull(x_new) if (length(x_result) == 0) { x_result <- NA_character_ } structure(.Data = x_result, class = "ab") } #' @rdname as.ab #' @export is.ab <- function(x) { identical(class(x), "ab") } #' @exportMethod print.ab #' @export #' @noRd print.ab <- function(x, ...) { cat("Class 'ab'\n") print.default(as.character(x), quote = FALSE) } #' @exportMethod as.data.frame.ab #' @export #' @noRd as.data.frame.ab <- function (x, ...) { # same as as.data.frame.character but with removed stringsAsFactors nm <- paste(deparse(substitute(x), width.cutoff = 500L), collapse = " ") if (!"nm" %in% names(list(...))) { as.data.frame.vector(x, ..., nm = nm) } else { as.data.frame.vector(x, ...) } } #' @exportMethod pull.ab #' @export #' @importFrom dplyr pull #' @noRd pull.ab <- function(.data, ...) { pull(as.data.frame(.data), ...) } #' @exportMethod scale_type.ab #' @noRd scale_type.ab <- function(x) { # fix for: # "Don't know how to automatically pick scale for object of type ab. Defaulting to continuous." # "Error: Discrete value supplied to continuous scale" "discrete" }