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# ==================================================================== #
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# TITLE: #
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# AMR: An R Package for Working with Antimicrobial Resistance Data #
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# #
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# SOURCE CODE: #
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# https://github.com/msberends/AMR #
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# #
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# PLEASE CITE THIS SOFTWARE AS: #
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# Berends MS, Luz CF, Friedrich AW, et al. (2022). #
# AMR: An R Package for Working with Antimicrobial Resistance Data. #
# Journal of Statistical Software, 104(3), 1-31. #
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# https://doi.org/10.18637/jss.v104.i03 #
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# #
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# Developed at the University of Groningen and the University Medical #
# Center Groningen in The Netherlands, in collaboration with many #
# colleagues from around the world, see our website. #
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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. #
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# 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 #
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# how to conduct AMR data analysis: https://msberends.github.io/AMR/ #
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# ==================================================================== #
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#' Transform Arbitrary Input to Valid Microbial Taxonomy
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#'
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#' Use this function to get a valid microorganism code ([`mo`]) based on arbitrary user input. Determination is done using intelligent rules and the complete taxonomic tree of the kingdoms `r vector_and(unique(microorganisms$kingdom[which(!grepl("(unknown|Fungi)", microorganisms$kingdom))]), quotes = FALSE)`, and most microbial species from the kingdom Fungi (see *Source*). The input can be almost anything: a full name (like `"Staphylococcus aureus"`), an abbreviated name (such as `"S. aureus"`), an abbreviation known in the field (such as `"MRSA"`), or just a genus. See *Examples*.
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#' @param x a [character] vector or a [data.frame] with one or two columns
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#' @param Becker a [logical] to indicate whether staphylococci should be categorised into coagulase-negative staphylococci ("CoNS") and coagulase-positive staphylococci ("CoPS") instead of their own species, according to Karsten Becker *et al.* (see *Source*). Please see *Details* for a full list of staphylococcal species that will be converted.
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#'
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#' This excludes *Staphylococcus aureus* at default, use `Becker = "all"` to also categorise *S. aureus* as "CoPS".
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#' @param Lancefield a [logical] to indicate whether a beta-haemolytic *Streptococcus* should be categorised into Lancefield groups instead of their own species, according to Rebecca C. Lancefield (see *Source*). These streptococci will be categorised in their first group, e.g. *Streptococcus dysgalactiae* will be group C, although officially it was also categorised into groups G and L. . Please see *Details* for a full list of streptococcal species that will be converted.
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#'
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#' This excludes enterococci at default (who are in group D), use `Lancefield = "all"` to also categorise all enterococci as group D.
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#' @param minimum_matching_score a numeric value to set as the lower limit for the [MO matching score][mo_matching_score()]. When left blank, this will be determined automatically based on the character length of `x`, its [taxonomic kingdom][microorganisms] and [human pathogenicity][mo_matching_score()].
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#' @param keep_synonyms a [logical] to indicate if old, previously valid taxonomic names must be preserved and not be corrected to currently accepted names. The default is `FALSE`, which will return a note if old taxonomic names were processed. The default can be set with the package option [`AMR_keep_synonyms`][AMR-options], i.e. `options(AMR_keep_synonyms = TRUE)` or `options(AMR_keep_synonyms = FALSE)`.
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#' @param reference_df a [data.frame] to be used for extra reference when translating `x` to a valid [`mo`]. See [set_mo_source()] and [get_mo_source()] to automate the usage of your own codes (e.g. used in your analysis or organisation).
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#' @param ignore_pattern a Perl-compatible [regular expression][base::regex] (case-insensitive) of which all matches in `x` must return `NA`. This can be convenient to exclude known non-relevant input and can also be set with the package option [`AMR_ignore_pattern`][AMR-options], e.g. `options(AMR_ignore_pattern = "(not reported|contaminated flora)")`.
#' @param cleaning_regex a Perl-compatible [regular expression][base::regex] (case-insensitive) to clean the input of `x`. Every matched part in `x` will be removed. At default, this is the outcome of [mo_cleaning_regex()], which removes texts between brackets and texts such as "species" and "serovar". The default can be set with the package option [`AMR_cleaning_regex`][AMR-options].
#' @param only_fungi a [logical] to indicate if only fungi must be found, making sure that e.g. misspellings always return records from the kingdom of Fungi. This can be set globally for [all microorganism functions][mo_property()] with the package option [`AMR_only_fungi`][AMR-options], i.e. `options(AMR_only_fungi = TRUE)`.
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#' @param language language to translate text like "no growth", which defaults to the system language (see [get_AMR_locale()])
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#' @param info a [logical] to indicate that info must be printed, e.g. a progress bar when more than 25 items are to be coerced, or a list with old taxonomic names. The default is `TRUE` only in interactive mode.
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#' @param ... other arguments passed on to functions
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#' @rdname as.mo
#' @aliases mo
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#' @details
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#' A microorganism (MO) code from this package (class: [`mo`]) is human-readable and typically looks like these examples:
#'
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#' ```
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#' Code Full name
#' --------------- --------------------------------------
#' B_KLBSL Klebsiella
#' B_KLBSL_PNMN Klebsiella pneumoniae
#' B_KLBSL_PNMN_RHNS Klebsiella pneumoniae rhinoscleromatis
#' | | | |
#' | | | |
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#' | | | \---> subspecies, a 3-5 letter acronym
#' | | \----> species, a 3-6 letter acronym
#' | \----> genus, a 4-8 letter acronym
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#' \----> kingdom: A (Archaea), AN (Animalia), B (Bacteria),
#' C (Chromista), F (Fungi), PL (Plantae),
#' P (Protozoa)
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#' ```
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#'
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#' Values that cannot be coerced will be considered 'unknown' and will return the MO code `UNKNOWN` with a warning.
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#'
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#' Use the [`mo_*`][mo_property()] functions to get properties based on the returned code, see *Examples*.
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#'
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#' The [as.mo()] function uses a novel and scientifically validated (\doi{10.18637/jss.v104.i03}) matching score algorithm (see *Matching Score for Microorganisms* below) to match input against the [available microbial taxonomy][microorganisms] in this package. This implicates that e.g. `"E. coli"` (a microorganism highly prevalent in humans) will return the microbial ID of *Escherichia coli* and not *Entamoeba coli* (a microorganism less prevalent in humans), although the latter would alphabetically come first.
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#'
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#' ### Coping with Uncertain Results
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#'
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#' Results of non-exact taxonomic input are based on their [matching score][mo_matching_score()]. The lowest allowed score can be set with the `minimum_matching_score` argument. At default this will be determined based on the character length of the input, the [taxonomic kingdom][microorganisms], and the [human pathogenicity][mo_matching_score()] of the taxonomic outcome. If values are matched with uncertainty, a message will be shown to suggest the user to inspect the results with [mo_uncertainties()], which returns a [data.frame] with all specifications.
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#'
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#' To increase the quality of matching, the `cleaning_regex` argument is used to clean the input. This must be a [regular expression][base::regex] that matches parts of the input that should be removed before the input is matched against the [available microbial taxonomy][microorganisms]. It will be matched Perl-compatible and case-insensitive. The default value of `cleaning_regex` is the outcome of the helper function [mo_cleaning_regex()].
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#'
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#' There are three helper functions that can be run after using the [as.mo()] function:
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#' - Use [mo_uncertainties()] to get a [data.frame] that prints in a pretty format with all taxonomic names that were guessed. The output contains the matching score for all matches (see *Matching Score for Microorganisms* below).
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#' - Use [mo_failures()] to get a [character] [vector] with all values that could not be coerced to a valid value.
#' - Use [mo_renamed()] to get a [data.frame] with all values that could be coerced based on old, previously accepted taxonomic names.
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#'
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#' ### For Mycologists
#'
#' The [matching score algorithm][mo_matching_score()] gives precedence to bacteria over fungi. If you are only analysing fungi, be sure to use `only_fungi = TRUE`, or better yet, add this to your code and run it once every session:
#'
#' ```r
#' options(AMR_only_fungi = TRUE)
#' ```
#'
#' This will make sure that no bacteria or other 'non-fungi' will be returned by [as.mo()], or any of the [`mo_*`][mo_property()] functions.
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#'
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#' ### Coagulase-negative and Coagulase-positive Staphylococci
#'
#' With `Becker = TRUE`, the following staphylococci will be converted to their corresponding coagulase group:
#'
#' * Coagulase-negative: `r vector_and(gsub("Staphylococcus", "S.", mo_name(MO_CONS[MO_CONS != "B_STPHY_CONS"], keep_synonyms = TRUE)), quotes = "*")`
#' * Coagulase-positive: `r vector_and(gsub("Staphylococcus", "S.", mo_name(MO_COPS[MO_COPS != "B_STPHY_COPS"], keep_synonyms = TRUE)), quotes = "*")`
#'
#' This is based on:
#'
#' * Becker K *et al.* (2014). **Coagulase-Negative Staphylococci.** *Clin Microbiol Rev.* 27(4): 870-926; \doi{10.1128/CMR.00109-13}
#' * Becker K *et al.* (2019). **Implications of identifying the recently defined members of the *S. aureus* complex, *S. argenteus* and *S. schweitzeri*: A position paper of members of the ESCMID Study Group for staphylococci and Staphylococcal Diseases (ESGS).** *Clin Microbiol Infect*; \doi{10.1016/j.cmi.2019.02.028}
#' * Becker K *et al.* (2020). **Emergence of coagulase-negative staphylococci.** *Expert Rev Anti Infect Ther.* 18(4):349-366; \doi{10.1080/14787210.2020.1730813}
#'
#' For newly named staphylococcal species, such as *S. brunensis* (2024) and *S. shinii* (2023), we looked up the scientific reference to make sure the species are considered for the correct coagulase group.
#'
#' ### Lancefield Groups in Streptococci
#'
#' With `Lancefield = TRUE`, the following streptococci will be converted to their corresponding Lancefield group:
#'
#' * `r paste(apply(aggregate(mo_name ~ mo_group_name, data = microorganisms.groups[microorganisms.groups$mo_group_name %like_case% "Streptococcus Group [A-Z]$", ], FUN = function(x) vector_and(gsub("Streptococcus", "S.", x, fixed = TRUE), quotes = "*", sort = TRUE)), 1, function(row) paste(row["mo_group_name"], ": ", row["mo_name"], sep = "")), collapse = "\n* ")`
#'
#' This is based on:
#'
#' * Lancefield RC (1933). **A serological differentiation of human and other groups of hemolytic streptococci.** *J Exp Med.* 57(4): 571-95; \doi{10.1084/jem.57.4.571}
#'
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#' @inheritSection mo_matching_score Matching Score for Microorganisms
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#'
# (source as a section here, so it can be inherited by other man pages)
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#' @section Source:
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#' * Berends MS *et al.* (2022). **AMR: An R Package for Working with Antimicrobial Resistance Data**. *Journal of Statistical Software*, 104(3), 1-31; \doi{10.18637/jss.v104.i03}
#' * `r TAXONOMY_VERSION$LPSN$citation` Accessed from <`r TAXONOMY_VERSION$LPSN$url`> on `r documentation_date(TAXONOMY_VERSION$LPSN$accessed_date)`.
#' * `r TAXONOMY_VERSION$MycoBank$citation` Accessed from <`r TAXONOMY_VERSION$MycoBank$url`> on `r documentation_date(TAXONOMY_VERSION$MycoBank$accessed_date)`.
#' * `r TAXONOMY_VERSION$GBIF$citation` Accessed from <`r TAXONOMY_VERSION$GBIF$url`> on `r documentation_date(TAXONOMY_VERSION$GBIF$accessed_date)`.
#' * `r TAXONOMY_VERSION$BacDive$citation` Accessed from <`r TAXONOMY_VERSION$BacDive$url`> on `r documentation_date(TAXONOMY_VERSION$BacDive$accessed_date)`.
#' * `r TAXONOMY_VERSION$SNOMED$citation` URL: <`r TAXONOMY_VERSION$SNOMED$url`>
#' * Bartlett A *et al.* (2022). **A comprehensive list of bacterial pathogens infecting humans** *Microbiology* 168:001269; \doi{10.1099/mic.0.001269}
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#' @export
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#' @return A [character] [vector] with additional class [`mo`]
#' @seealso [microorganisms] for the [data.frame] that is being used to determine ID's.
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#'
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#' The [`mo_*`][mo_property()] functions (such as [mo_genus()], [mo_gramstain()]) to get properties based on the returned code.
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#' @inheritSection AMR Reference Data Publicly Available
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#' @examples
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#' \donttest{
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#' # These examples all return "B_STPHY_AURS", the ID of S. aureus:
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#' as.mo(c(
#' "sau", # WHONET code
#' "stau",
#' "STAU",
#' "staaur",
#' "S. aureus",
#' "S aureus",
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#' "Sthafilokkockus aureus", # handles incorrect spelling
#' "Staphylococcus aureus (MRSA)",
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#' "MRSA", # Methicillin Resistant S. aureus
#' "VISA", # Vancomycin Intermediate S. aureus
#' "VRSA", # Vancomycin Resistant S. aureus
#' 115329001 # SNOMED CT code
#' ))
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#'
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#' # Dyslexia is no problem - these all work:
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#' as.mo(c(
#' "Ureaplasma urealyticum",
#' "Ureaplasma urealyticus",
#' "Ureaplasmium urealytica",
#' "Ureaplazma urealitycium"
#' ))
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#'
#' # input will get cleaned up with the input given in the `cleaning_regex` argument,
#' # which defaults to `mo_cleaning_regex()`:
#' cat(mo_cleaning_regex(), "\n")
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#'
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#' as.mo("Streptococcus group A")
#'
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#' as.mo("S. epidermidis") # will remain species: B_STPHY_EPDR
#' as.mo("S. epidermidis", Becker = TRUE) # will not remain species: B_STPHY_CONS
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#'
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#' as.mo("S. pyogenes") # will remain species: B_STRPT_PYGN
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#' as.mo("S. pyogenes", Lancefield = TRUE) # will not remain species: B_STRPT_GRPA
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#'
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#' # All mo_* functions use as.mo() internally too (see ?mo_property):
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#' mo_genus("E. coli")
#' mo_gramstain("ESCO")
#' mo_is_intrinsic_resistant("ESCCOL", ab = "vanco")
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#' }
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as.mo <- function ( x ,
Becker = FALSE ,
Lancefield = FALSE ,
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minimum_matching_score = NULL ,
keep_synonyms = getOption ( " AMR_keep_synonyms" , FALSE ) ,
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reference_df = get_mo_source ( ) ,
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ignore_pattern = getOption ( " AMR_ignore_pattern" , NULL ) ,
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cleaning_regex = getOption ( " AMR_cleaning_regex" , mo_cleaning_regex ( ) ) ,
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only_fungi = getOption ( " AMR_only_fungi" , FALSE ) ,
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language = get_AMR_locale ( ) ,
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info = interactive ( ) ,
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... ) {
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meet_criteria ( x , allow_class = c ( " mo" , " data.frame" , " list" , " character" , " numeric" , " integer" , " factor" ) , allow_NA = TRUE )
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meet_criteria ( Becker , allow_class = c ( " logical" , " character" ) , has_length = 1 )
meet_criteria ( Lancefield , allow_class = c ( " logical" , " character" ) , has_length = 1 )
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meet_criteria ( minimum_matching_score , allow_class = c ( " numeric" , " integer" ) , has_length = 1 , allow_NULL = TRUE , is_positive_or_zero = TRUE , is_finite = TRUE )
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meet_criteria ( keep_synonyms , allow_class = " logical" , has_length = 1 )
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meet_criteria ( reference_df , allow_class = " data.frame" , allow_NULL = TRUE )
meet_criteria ( ignore_pattern , allow_class = " character" , has_length = 1 , allow_NULL = TRUE )
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meet_criteria ( cleaning_regex , allow_class = " character" , has_length = 1 , allow_NULL = TRUE )
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meet_criteria ( only_fungi , allow_class = " logical" , has_length = 1 )
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language <- validate_language ( language )
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meet_criteria ( info , allow_class = " logical" , has_length = 1 )
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add_MO_lookup_to_AMR_env ( )
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if ( tryCatch ( all ( x %in% c ( AMR_env $ MO_lookup $ mo , NA ) ) , error = function ( e ) FALSE ) &&
isFALSE ( Becker ) &&
isFALSE ( Lancefield ) &&
isTRUE ( keep_synonyms ) ) {
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# don't look into valid MO codes, just return them
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# is.mo() won't work - MO codes might change between package versions
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return ( set_clean_class ( x , new_class = c ( " mo" , " character" ) ) )
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}
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# start off with replaced language-specific non-ASCII characters with ASCII characters
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x <- parse_and_convert ( x )
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# replace mo codes used in older package versions
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x <- replace_old_mo_codes ( x , property = " mo" )
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# ignore cases that match the ignore pattern
x <- replace_ignore_pattern ( x , ignore_pattern )
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x_lower <- tolower ( x )
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# WHONET: xxx = no growth
x [x_lower %in% c ( " " , " xxx" , " na" , " nan" ) ] <- NA_character_
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out <- rep ( NA_character_ , length ( x ) )
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# below we use base R's match(), known for powering '%in%', and incredibly fast!
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# From reference_df ----
reference_df <- repair_reference_df ( reference_df )
if ( ! is.null ( reference_df ) ) {
out [x %in% reference_df [ [1 ] ] ] <- reference_df [ [2 ] ] [match ( x [x %in% reference_df [ [1 ] ] ] , reference_df [ [1 ] ] ) ]
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}
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# From MO code ----
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out [is.na ( out ) & toupper ( x ) %in% AMR_env $ MO_lookup $ mo ] <- toupper ( x [is.na ( out ) & toupper ( x ) %in% AMR_env $ MO_lookup $ mo ] )
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# From full name ----
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out [is.na ( out ) & x_lower %in% AMR_env $ MO_lookup $ fullname_lower ] <- AMR_env $ MO_lookup $ mo [match ( x_lower [is.na ( out ) & x_lower %in% AMR_env $ MO_lookup $ fullname_lower ] , AMR_env $ MO_lookup $ fullname_lower ) ]
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# one exception: "Fungi" matches the kingdom, but instead it should return the 'unknown' code for fungi
out [out == " F_[KNG]_FUNGI" ] <- " F_FUNGUS"
# From known codes ----
out [is.na ( out ) & toupper ( x ) %in% AMR :: microorganisms.codes $ code ] <- AMR :: microorganisms.codes $ mo [match ( toupper ( x ) [is.na ( out ) & toupper ( x ) %in% AMR :: microorganisms.codes $ code ] , AMR :: microorganisms.codes $ code ) ]
# From SNOMED ----
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# based on this extremely fast gem: https://stackoverflow.com/a/11002456/4575331
snomeds <- unlist ( AMR_env $ MO_lookup $ snomed )
snomeds <- snomeds [ ! is.na ( snomeds ) ]
out [is.na ( out ) & x %in% snomeds ] <- AMR_env $ MO_lookup $ mo [rep ( seq_along ( AMR_env $ MO_lookup $ snomed ) , vapply ( FUN.VALUE = double ( 1 ) , AMR_env $ MO_lookup $ snomed , length ) ) [match ( x [is.na ( out ) & x %in% snomeds ] , snomeds ) ] ]
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# From other familiar output ----
# such as Salmonella groups, colloquial names, etc.
out [is.na ( out ) ] <- convert_colloquial_input ( x [is.na ( out ) ] )
# From previous hits in this session ----
old <- out
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out [is.na ( out ) & paste ( x , minimum_matching_score , only_fungi ) %in% AMR_env $ mo_previously_coerced $ x ] <- AMR_env $ mo_previously_coerced $ mo [match ( paste ( x , minimum_matching_score , only_fungi ) [is.na ( out ) & paste ( x , minimum_matching_score , only_fungi ) %in% AMR_env $ mo_previously_coerced $ x ] , AMR_env $ mo_previously_coerced $ x ) ]
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new <- out
if ( isTRUE ( info ) && message_not_thrown_before ( " as.mo" , old , new , entire_session = TRUE ) && any ( is.na ( old ) & ! is.na ( new ) , na.rm = TRUE ) ) {
message_ (
" Returning previously coerced value" , ifelse ( sum ( is.na ( old ) & ! is.na ( new ) ) > 1 , " s" , " " ) ,
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" for " , vector_and ( x [is.na ( old ) & ! is.na ( new ) ] ) , " . Run `mo_reset_session()` to reset this. This note will be shown once per session for this input."
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)
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}
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# For all other input ----
if ( any ( is.na ( out ) & ! is.na ( x ) ) ) {
# reset uncertainties
AMR_env $ mo_uncertainties <- AMR_env $ mo_uncertainties [0 , ]
AMR_env $ mo_failures <- NULL
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# Laboratory systems: remove (translated) entries like "no growth", "not E. coli", etc.
x [trimws2 ( x ) %like% translate_into_language ( " no .*growth" , language = language ) ] <- NA_character_
x [trimws2 ( x ) %like% paste0 ( " ^(" , translate_into_language ( " no|not" , language = language ) , " ) " ) ] <- NA_character_
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# groups are in our taxonomic table with a capital G
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x <- gsub ( " group( |$)" , " Group\\1" , x , perl = TRUE )
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# run over all unique leftovers
x_unique <- unique ( x [is.na ( out ) & ! is.na ( x ) ] )
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# set up progress bar
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progress <- progress_ticker ( n = length ( x_unique ) , n_min = 10 , print = info , title = " Converting microorganism input" )
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on.exit ( close ( progress ) )
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msg <- character ( 0 )
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MO_lookup_current <- AMR_env $ MO_lookup
if ( isTRUE ( only_fungi ) ) {
MO_lookup_current <- MO_lookup_current [MO_lookup_current $ kingdom == " Fungi" , , drop = FALSE ]
}
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# run it
x_coerced <- vapply ( FUN.VALUE = character ( 1 ) , x_unique , function ( x_search ) {
progress $ tick ( )
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# some required cleaning steps
x_out <- trimws2 ( x_search )
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# this applies the `cleaning_regex` argument, which defaults to mo_cleaning_regex()
x_out <- gsub ( cleaning_regex , " " , x_out , ignore.case = TRUE , perl = TRUE )
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x_out <- trimws2 ( gsub ( " +" , " " , x_out , perl = TRUE ) )
x_search_cleaned <- x_out
x_out <- tolower ( x_out )
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# when x_search_cleaned are only capitals (such as in codes), make them lowercase to increase matching score
x_search_cleaned [x_search_cleaned == toupper ( x_search_cleaned ) ] <- x_out [x_search_cleaned == toupper ( x_search_cleaned ) ]
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# first check if cleaning led to an exact result, case-insensitive
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if ( x_out %in% MO_lookup_current $ fullname_lower ) {
return ( as.character ( MO_lookup_current $ mo [match ( x_out , MO_lookup_current $ fullname_lower ) ] ) )
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}
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# input must not be too short
if ( nchar ( x_out ) < 3 ) {
return ( " UNKNOWN" )
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}
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# take out the parts, split by space
x_parts <- strsplit ( gsub ( " -" , " " , x_out , fixed = TRUE ) , " " , fixed = TRUE ) [ [1 ] ]
# do a pre-match on first character (and if it contains a space, first chars of first two terms)
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if ( length ( x_parts ) %in% c ( 2 , 3 ) ) {
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# for genus + species + subspecies
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if ( paste ( x_parts [1 : 2 ] , collapse = " " ) %in% MO_lookup_current $ fullname_lower ) {
filtr <- which ( MO_lookup_current $ fullname_lower %like% paste ( x_parts [1 : 2 ] , collapse = " " ) )
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} else if ( x_parts [1 ] %in% MO_lookup_current $ genus_lower && ! paste ( x_parts [1 : 2 ] , collapse = " " ) %in% MO_lookup_current $ fullname_lower ) {
# for a known genus, but unknown (sub)species
filtr <- which ( MO_lookup_current $ genus_lower == x_parts [1 ] )
minimum_matching_score <- 0.05
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} else if ( nchar ( gsub ( " [^a-z]" , " " , x_parts [1 ] , perl = TRUE ) ) <= 3 ) {
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filtr <- which ( MO_lookup_current $ full_first == substr ( x_parts [1 ] , 1 , 1 ) &
( MO_lookup_current $ species_first == substr ( x_parts [2 ] , 1 , 1 ) |
MO_lookup_current $ subspecies_first == substr ( x_parts [2 ] , 1 , 1 ) |
MO_lookup_current $ subspecies_first == substr ( x_parts [3 ] , 1 , 1 ) ) )
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} else {
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filtr <- which ( MO_lookup_current $ full_first == substr ( x_parts [1 ] , 1 , 1 ) |
MO_lookup_current $ species_first == substr ( x_parts [2 ] , 1 , 1 ) |
MO_lookup_current $ subspecies_first == substr ( x_parts [2 ] , 1 , 1 ) |
MO_lookup_current $ subspecies_first == substr ( x_parts [3 ] , 1 , 1 ) )
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}
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} else if ( length ( x_parts ) > 3 ) {
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first_chars <- paste0 ( " (^| )[" , paste ( substr ( x_parts , 1 , 1 ) , collapse = " " ) , " ]" )
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filtr <- which ( MO_lookup_current $ full_first %like_case% first_chars )
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} else if ( nchar ( x_out ) == 3 ) {
# no space and 3 characters - probably a code such as SAU or ECO
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msg <<- c ( msg , paste0 ( " Input \"" , x_search , " \" was assumed to be a microorganism code - tried to match on \"" , totitle ( substr ( x_out , 1 , 1 ) ) , AMR_env $ dots , " " , substr ( x_out , 2 , 3 ) , AMR_env $ dots , " \"" ) )
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filtr <- which ( MO_lookup_current $ fullname_lower %like_case% paste0 ( " (^| )" , substr ( x_out , 1 , 1 ) , " .* " , substr ( x_out , 2 , 3 ) ) )
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} else if ( nchar ( x_out ) == 4 ) {
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# no space and 4 characters - probably a code such as STAU or ESCO
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msg <<- c ( msg , paste0 ( " Input \"" , x_search , " \" was assumed to be a microorganism code - tried to match on \"" , totitle ( substr ( x_out , 1 , 2 ) ) , AMR_env $ dots , " " , substr ( x_out , 3 , 4 ) , AMR_env $ dots , " \"" ) )
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filtr <- which ( MO_lookup_current $ fullname_lower %like_case% paste0 ( " (^| )" , substr ( x_out , 1 , 2 ) , " .* " , substr ( x_out , 3 , 4 ) ) )
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} else if ( nchar ( x_out ) <= 6 ) {
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# no space and 5-6 characters - probably a code such as STAAUR or ESCCOL
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first_part <- paste0 ( substr ( x_out , 1 , 2 ) , " [a-z]*" , substr ( x_out , 3 , 3 ) )
second_part <- substr ( x_out , 4 , nchar ( x_out ) )
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msg <<- c ( msg , paste0 ( " Input \"" , x_search , " \" was assumed to be a microorganism code - tried to match on \"" , gsub ( " [a-z]*" , AMR_env $ dots , totitle ( first_part ) , fixed = TRUE ) , " " , second_part , AMR_env $ dots , " \"" ) )
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filtr <- which ( MO_lookup_current $ fullname_lower %like_case% paste0 ( " (^| )" , first_part , " .* " , second_part ) )
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} else {
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# for genus or species or subspecies
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filtr <- which ( MO_lookup_current $ full_first == substr ( x_parts , 1 , 1 ) |
MO_lookup_current $ species_first == substr ( x_parts , 1 , 1 ) |
MO_lookup_current $ subspecies_first == substr ( x_parts , 1 , 1 ) )
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}
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if ( length ( filtr ) == 0 ) {
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mo_to_search <- MO_lookup_current $ fullname
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} else {
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mo_to_search <- MO_lookup_current $ fullname [filtr ]
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}
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AMR_env $ mo_to_search <- mo_to_search
# determine the matching score on the original search value
m <- mo_matching_score ( x = x_search_cleaned , n = mo_to_search )
if ( is.null ( minimum_matching_score ) ) {
minimum_matching_score_current <- min ( 0.6 , min ( 10 , nchar ( x_search_cleaned ) ) * 0.08 )
# correct back for prevalence
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minimum_matching_score_current <- minimum_matching_score_current / MO_lookup_current $ prevalence [match ( mo_to_search , MO_lookup_current $ fullname ) ]
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# correct back for kingdom
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minimum_matching_score_current <- minimum_matching_score_current / MO_lookup_current $ kingdom_index [match ( mo_to_search , MO_lookup_current $ fullname ) ]
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minimum_matching_score_current <- pmax ( minimum_matching_score_current , m )
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if ( length ( x_parts ) > 1 && all ( m <= 0.55 , na.rm = TRUE ) ) {
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# if the highest score is 0.5, we have nothing serious - 0.5 is the lowest for pathogenic group 1
# make everything NA so the results will get removed below
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# (we added length(x_parts) > 1 to exclude microbial codes from this rule, such as "STAU")
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m [seq_len ( length ( m ) ) ] <- NA_real_
}
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} else {
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# minimum_matching_score was set, so remove everything below it
m [m < minimum_matching_score ] <- NA_real_
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minimum_matching_score_current <- minimum_matching_score
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}
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top_hits <- mo_to_search [order ( m , decreasing = TRUE , na.last = NA ) ] # na.last = NA will remove the NAs
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if ( length ( top_hits ) == 0 ) {
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warning_ ( " No hits found for \"" , x_search , " \" with minimum_matching_score = " , ifelse ( is.null ( minimum_matching_score ) , paste0 ( " NULL (=" , round ( min ( minimum_matching_score_current , na.rm = TRUE ) , 3 ) , " )" ) , minimum_matching_score ) , " . Try setting this value lower or even to 0." , call = FALSE )
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result_mo <- NA_character_
} else {
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result_mo <- MO_lookup_current $ mo [match ( top_hits [1 ] , MO_lookup_current $ fullname ) ]
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AMR_env $ mo_uncertainties <- rbind_AMR (
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AMR_env $ mo_uncertainties ,
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data.frame (
original_input = x_search ,
input = x_search_cleaned ,
fullname = top_hits [1 ] ,
mo = result_mo ,
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candidates = ifelse ( length ( top_hits ) > 1 , paste ( top_hits [2 : min ( 99 , length ( top_hits ) ) ] , collapse = " , " ) , " " ) ,
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minimum_matching_score = ifelse ( is.null ( minimum_matching_score ) , " NULL" , minimum_matching_score ) ,
keep_synonyms = keep_synonyms ,
stringsAsFactors = FALSE
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)
)
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# save to package env to save time for next time
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AMR_env $ mo_previously_coerced <- unique ( rbind_AMR (
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AMR_env $ mo_previously_coerced ,
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data.frame (
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x = paste ( x_search , minimum_matching_score , only_fungi ) ,
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mo = result_mo ,
stringsAsFactors = FALSE
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)
) )
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}
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# the actual result:
as.character ( result_mo )
} )
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# remove progress bar from console
close ( progress )
# expand from unique again
out [is.na ( out ) ] <- x_coerced [match ( x [is.na ( out ) ] , x_unique ) ]
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# Throw note about uncertainties ----
if ( isTRUE ( info ) && NROW ( AMR_env $ mo_uncertainties ) > 0 ) {
if ( message_not_thrown_before ( " as.mo" , " uncertainties" , AMR_env $ mo_uncertainties $ original_input ) ) {
plural <- c ( " " , " this" )
if ( length ( AMR_env $ mo_uncertainties $ original_input ) > 1 ) {
plural <- c ( " s" , " these uncertainties" )
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}
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if ( length ( AMR_env $ mo_uncertainties $ original_input ) <= 3 ) {
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examples <- vector_and (
paste0 (
' "' , AMR_env $ mo_uncertainties $ original_input ,
' " (assumed ' , italicise ( AMR_env $ mo_uncertainties $ fullname ) , " )"
) ,
quotes = FALSE
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)
} else {
examples <- paste0 ( nr2char ( length ( AMR_env $ mo_uncertainties $ original_input ) ) , " microorganism" , plural [1 ] )
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}
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msg <- c ( msg , paste0 (
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" Microorganism translation was uncertain for " , examples ,
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" . Run `mo_uncertainties()` to review " , plural [2 ] , " , or use `add_custom_microorganisms()` to add custom entries."
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) )
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for ( m in msg ) {
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message_ ( m )
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}
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}
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}
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} # end of loop over all yet unknowns
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# Keep or replace synonyms ----
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out_current <- synonym_mo_to_accepted_mo ( out , fill_in_accepted = FALSE )
AMR_env $ mo_renamed <- list ( old = out [ ! is.na ( out_current ) ] )
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if ( isFALSE ( keep_synonyms ) ) {
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out [ ! is.na ( out_current ) ] <- out_current [ ! is.na ( out_current ) ]
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if ( isTRUE ( info ) && length ( AMR_env $ mo_renamed $ old ) > 0 ) {
print ( mo_renamed ( ) , extra_txt = " (use `keep_synonyms = TRUE` to leave uncorrected)" )
}
} else if ( is.null ( getOption ( " AMR_keep_synonyms" ) ) && length ( AMR_env $ mo_renamed $ old ) > 0 && message_not_thrown_before ( " as.mo" , " keep_synonyms_warning" , entire_session = TRUE ) ) {
# keep synonyms is TRUE, so check if any do have synonyms
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warning_ ( " Function `as.mo()` returned " , nr2char ( length ( unique ( AMR_env $ mo_renamed $ old ) ) ) , " old taxonomic name" , ifelse ( length ( unique ( AMR_env $ mo_renamed $ old ) ) > 1 , " s" , " " ) , " . Use `as.mo(..., keep_synonyms = FALSE)` to clean the input to currently accepted taxonomic names, or set the R option `AMR_keep_synonyms` to `FALSE`. This warning will be shown once per session." , call = FALSE )
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}
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# Apply Becker ----
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if ( ! isTRUE ( only_fungi ) && ( isTRUE ( Becker ) || Becker == " all" ) ) {
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# warn when species found that are not in:
# - Becker et al. 2014, PMID 25278577
# - Becker et al. 2019, PMID 30872103
# - Becker et al. 2020, PMID 32056452
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# comment below code if all staphylococcal species are categorised as CoNS/CoPS
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post_Becker <- paste (
" Staphylococcus" ,
c ( " caledonicus" , " canis" , " durrellii" , " lloydii" , " ratti" , " roterodami" , " singaporensis" , " taiwanensis" )
)
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if ( any ( out %in% AMR_env $ MO_lookup $ mo [match ( post_Becker , AMR_env $ MO_lookup $ fullname ) ] ) ) {
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if ( message_not_thrown_before ( " as.mo" , " becker" ) ) {
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warning_ ( " in `as.mo()`: Becker " , font_italic ( " et al." ) , " (2014, 2019, 2020) does not contain these species named after their publication: " ,
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vector_and ( font_italic ( gsub ( " Staphylococcus" , " S." , post_Becker , fixed = TRUE ) , collapse = NULL ) , quotes = FALSE ) ,
" . Categorisation to CoNS/CoPS was taken from the original scientific publication(s)." ,
immediate = TRUE , call = FALSE
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)
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}
}
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# 'MO_CONS' and 'MO_COPS' are 'mo' vectors created in R/_pre_commit_checks.R
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out [out %in% MO_CONS ] <- " B_STPHY_CONS"
out [out %in% MO_COPS ] <- " B_STPHY_COPS"
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if ( Becker == " all" ) {
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out [out == " B_STPHY_AURS" ] <- " B_STPHY_COPS"
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}
}
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# Apply Lancefield ----
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if ( ! isTRUE ( only_fungi ) && ( isTRUE ( Lancefield ) || Lancefield == " all" ) ) {
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# (using `%like_case%` to also match subspecies)
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# group A - S. pyogenes
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out [out %like_case% " ^B_STRPT_PYGN(_|$)" ] <- " B_STRPT_GRPA"
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# group B - S. agalactiae
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out [out %like_case% " ^B_STRPT_AGLC(_|$)" ] <- " B_STRPT_GRPB"
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# group C - all subspecies within S. dysgalactiae and S. equi (such as S. equi zooepidemicus)
out [out %like_case% " ^B_STRPT_(DYSG|EQUI)(_|$)" ] <- " B_STRPT_GRPC"
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if ( Lancefield == " all" ) {
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# group D - all enterococci
out [out %like_case% " ^B_ENTRC(_|$)" ] <- " B_STRPT_GRPD"
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}
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# group F - Milleri group == S. anginosus group, which incl. S. anginosus, S. constellatus, S. intermedius
out [out %like_case% " ^B_STRPT_(ANGN|CNST|INTR)(_|$)" ] <- " B_STRPT_GRPF"
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# group G - S. dysgalactiae and S. canis (though dysgalactiae is also group C and will be matched there)
out [out %like_case% " ^B_STRPT_(DYSG|CANS)(_|$)" ] <- " B_STRPT_GRPG"
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# group H - S. sanguinis
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out [out %like_case% " ^B_STRPT_SNGN(_|$)" ] <- " B_STRPT_GRPH"
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# group K - S. salivarius, incl. S. salivarius salivarius and S. salivarius thermophilus
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out [out %like_case% " ^B_STRPT_SLVR(_|$)" ] <- " B_STRPT_GRPK"
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# group L - only S. dysgalactiae which is also group C & G, so ignore it here
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}
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# All unknowns ----
out [is.na ( out ) & ! is.na ( x ) ] <- " UNKNOWN"
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AMR_env $ mo_failures <- unique ( x [out == " UNKNOWN" & ! toupper ( x ) %in% c ( " UNKNOWN" , " CON" , " UNK" ) & ! x %like_case% " ^[(]unknown [a-z]+[)]$" & ! is.na ( x ) ] )
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if ( length ( AMR_env $ mo_failures ) > 0 ) {
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warning_ ( " The following input could not be coerced and was returned as \"UNKNOWN\": " , vector_and ( AMR_env $ mo_failures , quotes = TRUE ) , " .\nYou can retrieve this list with `mo_failures()`." , call = FALSE )
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}
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# Return class ----
set_clean_class ( out ,
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new_class = c ( " mo" , " character" )
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)
}
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# OTHER DOCUMENTED FUNCTIONS ----------------------------------------------
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#' @rdname as.mo
#' @export
is.mo <- function ( x ) {
inherits ( x , " mo" )
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}
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#' @rdname as.mo
#' @export
mo_uncertainties <- function ( ) {
set_clean_class ( AMR_env $ mo_uncertainties , new_class = c ( " mo_uncertainties" , " data.frame" ) )
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}
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#' @rdname as.mo
#' @export
mo_renamed <- function ( ) {
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add_MO_lookup_to_AMR_env ( )
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x <- AMR_env $ mo_renamed
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x $ new <- synonym_mo_to_accepted_mo ( x $ old )
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mo_old <- AMR_env $ MO_lookup $ fullname [match ( x $ old , AMR_env $ MO_lookup $ mo ) ]
mo_new <- AMR_env $ MO_lookup $ fullname [match ( x $ new , AMR_env $ MO_lookup $ mo ) ]
ref_old <- AMR_env $ MO_lookup $ ref [match ( x $ old , AMR_env $ MO_lookup $ mo ) ]
ref_new <- AMR_env $ MO_lookup $ ref [match ( x $ new , AMR_env $ MO_lookup $ mo ) ]
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df_renamed <- data.frame (
old = mo_old ,
new = mo_new ,
ref_old = ref_old ,
ref_new = ref_new ,
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stringsAsFactors = FALSE
)
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df_renamed <- unique ( df_renamed )
df_renamed <- df_renamed [order ( df_renamed $ old ) , , drop = FALSE ]
set_clean_class ( df_renamed , new_class = c ( " mo_renamed" , " data.frame" ) )
}
#' @rdname as.mo
#' @export
mo_failures <- function ( ) {
AMR_env $ mo_failures
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}
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#' @rdname as.mo
#' @export
mo_reset_session <- function ( ) {
if ( NROW ( AMR_env $ mo_previously_coerced ) > 0 ) {
message_ ( " Reset " , nr2char ( NROW ( AMR_env $ mo_previously_coerced ) ) , " previously matched input value" , ifelse ( NROW ( AMR_env $ mo_previously_coerced ) > 1 , " s" , " " ) , " ." )
AMR_env $ mo_previously_coerced <- AMR_env $ mo_previously_coerced [0 , , drop = FALSE ]
AMR_env $ mo_uncertainties <- AMR_env $ mo_uncertainties [0 , , drop = FALSE ]
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} else {
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message_ ( " No previously matched input values to reset." )
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}
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}
#' @rdname as.mo
#' @export
mo_cleaning_regex <- function ( ) {
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parts_to_remove <- c ( " e?spp([^a-z]+|$)" , " e?ssp([^a-z]+|$)" , " e?ss([^a-z]+|$)" , " e?sp([^a-z]+|$)" , " e?subsp" , " sube?species" , " e?species" ,
" biovar[a-z]*" , " biotype" , " serovar[a-z]*" , " var([^a-z]+|$)" , " serogr.?up[a-z]*" ,
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" titer" , " dummy" , " Ig[ADEGM]" , " ?[a-z-]+[-](resistant|susceptible) ?" )
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paste0 (
" (" ,
" [^A-Za-z- \\(\\)\\[\\]{}]+" ,
" |" ,
" ([({]|\\[).+([})]|\\])" ,
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" |(^| )(" ,
paste0 ( parts_to_remove [order ( 1 - nchar ( parts_to_remove ) ) ] , collapse = " |" ) ,
" ))" )
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}
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# UNDOCUMENTED METHODS ----------------------------------------------------
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# will be exported using s3_register() in R/zzz.R
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pillar_shaft.mo <- function ( x , ... ) {
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add_MO_lookup_to_AMR_env ( )
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out <- trimws ( format ( x ) )
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# grey out the kingdom (part until first "_")
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out [ ! is.na ( x ) ] <- gsub ( " ^([A-Z]+_)(.*)" , paste0 ( font_subtle ( " \\1" ) , " \\2" ) , out [ ! is.na ( x ) ] , perl = TRUE )
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# and grey out every _
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out [ ! is.na ( x ) ] <- gsub ( " _" , font_subtle ( " _" ) , out [ ! is.na ( x ) ] )
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# markup NA and UNKNOWN
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out [is.na ( x ) ] <- font_na ( " NA" )
out [x == " UNKNOWN" ] <- font_na ( " UNKNOWN" )
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# markup manual codes
out [x %in% AMR_env $ MO_lookup $ mo & ! x %in% AMR :: microorganisms $ mo ] <- font_blue ( out [x %in% AMR_env $ MO_lookup $ mo & ! x %in% AMR :: microorganisms $ mo ] , collapse = NULL )
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df <- tryCatch ( get_current_data ( arg_name = " x" , call = 0 ) ,
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error = function ( e ) NULL
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)
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if ( ! is.null ( df ) ) {
mo_cols <- vapply ( FUN.VALUE = logical ( 1 ) , df , is.mo )
} else {
mo_cols <- NULL
}
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all_mos <- c ( AMR_env $ MO_lookup $ mo , NA )
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if ( ! all ( x %in% all_mos ) ||
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( ! is.null ( df ) && ! all ( unlist ( df [ , which ( mo_cols ) , drop = FALSE ] ) %in% all_mos ) ) ) {
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# markup old mo codes
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out [ ! x %in% all_mos ] <- font_italic (
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font_na ( x [ ! x %in% all_mos ] ,
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collapse = NULL
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) ,
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collapse = NULL
)
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# throw a warning with the affected column name(s)
if ( ! is.null ( mo_cols ) ) {
col <- paste0 ( " Column " , vector_or ( colnames ( df ) [mo_cols ] , quotes = TRUE , sort = FALSE ) )
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} else {
col <- " The data"
}
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warning_ (
col , " contains old MO codes (from a previous AMR package version). " ,
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" Please update your MO codes with `as.mo()`." ,
call = FALSE
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)
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}
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# add the names to the bugs as mouse-over!
if ( tryCatch ( isTRUE ( getExportedValue ( " ansi_has_hyperlink_support" , ns = asNamespace ( " cli" ) ) ( ) ) , error = function ( e ) FALSE ) ) {
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out [ ! x %in% c ( " UNKNOWN" , NA ) ] <- font_url ( url = paste0 ( x [ ! x %in% c ( " UNKNOWN" , NA ) ] , " : " ,
mo_name ( x [ ! x %in% c ( " UNKNOWN" , NA ) ] , keep_synonyms = TRUE ) ) ,
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txt = out [ ! x %in% c ( " UNKNOWN" , NA ) ] )
}
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# make it always fit exactly
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max_char <- max ( nchar ( x ) )
if ( is.na ( max_char ) ) {
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max_char <- 12
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}
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create_pillar_column ( out ,
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align = " left" ,
width = max_char + ifelse ( any ( x %in% c ( NA , " UNKNOWN" ) ) , 2 , 0 )
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)
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}
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# will be exported using s3_register() in R/zzz.R
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type_sum.mo <- function ( x , ... ) {
" mo"
}
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# will be exported using s3_register() in R/zzz.R
freq.mo <- function ( x , ... ) {
x_noNA <- as.mo ( x [ ! is.na ( x ) ] ) # as.mo() to get the newest mo codes
grams <- mo_gramstain ( x_noNA , language = NULL )
digits <- list ( ... ) $ digits
if ( is.null ( digits ) ) {
digits <- 2
}
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cleaner :: freq.default (
x = x ,
... ,
.add_header = list (
`Gram-negative` = paste0 (
format ( sum ( grams == " Gram-negative" , na.rm = TRUE ) ,
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big.mark = " " ,
decimal.mark = " ."
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) ,
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" (" , percentage ( sum ( grams == " Gram-negative" , na.rm = TRUE ) / length ( grams ) ,
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digits = digits
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) ,
" )"
) ,
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`Gram-positive` = paste0 (
format ( sum ( grams == " Gram-positive" , na.rm = TRUE ) ,
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big.mark = " " ,
decimal.mark = " ."
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) ,
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" (" , percentage ( sum ( grams == " Gram-positive" , na.rm = TRUE ) / length ( grams ) ,
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digits = digits
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) ,
" )"
) ,
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`Nr. of genera` = pm_n_distinct ( mo_genus ( x_noNA , language = NULL ) ) ,
`Nr. of species` = pm_n_distinct ( paste (
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mo_genus ( x_noNA , language = NULL ) ,
mo_species ( x_noNA , language = NULL )
) )
)
)
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}
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# will be exported using s3_register() in R/zzz.R
get_skimmers.mo <- function ( column ) {
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skimr :: sfl (
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skim_type = " mo" ,
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unique_total = ~ length ( unique ( stats :: na.omit ( .) ) ) ,
gram_negative = ~ sum ( mo_is_gram_negative ( .) , na.rm = TRUE ) ,
gram_positive = ~ sum ( mo_is_gram_positive ( .) , na.rm = TRUE ) ,
top_genus = ~ names ( sort ( - table ( mo_genus ( stats :: na.omit ( .) , language = NULL ) ) ) ) [1L ] ,
top_species = ~ names ( sort ( - table ( mo_name ( stats :: na.omit ( .) , language = NULL ) ) ) ) [1L ]
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)
}
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#' @method print mo
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#' @export
#' @noRd
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print.mo <- function ( x , print.shortnames = FALSE , ... ) {
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add_MO_lookup_to_AMR_env ( )
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cat ( " Class 'mo'\n" )
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x_names <- names ( x )
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if ( is.null ( x_names ) & print.shortnames == TRUE ) {
x_names <- tryCatch ( mo_shortname ( x , ... ) , error = function ( e ) NULL )
}
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x <- as.character ( x )
names ( x ) <- x_names
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if ( ! all ( x %in% c ( AMR_env $ MO_lookup $ mo , NA ) ) ) {
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warning_ (
" Some MO codes are from a previous AMR package version. " ,
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" Please update the MO codes with `as.mo()`." ,
call = FALSE
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)
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}
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print.default ( x , quote = FALSE )
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}
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#' @method summary mo
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#' @export
#' @noRd
summary.mo <- function ( object , ... ) {
# unique and top 1-3
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x <- object
top_3 <- names ( sort ( - table ( x [ ! is.na ( x ) ] ) ) ) [1 : 3 ]
out <- c (
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" Class" = " mo" ,
" <NA>" = length ( x [is.na ( x ) ] ) ,
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" Unique" = length ( unique ( x [ ! is.na ( x ) ] ) ) ,
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" #1" = top_3 [1 ] ,
" #2" = top_3 [2 ] ,
" #3" = top_3 [3 ]
)
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class ( out ) <- c ( " summaryDefault" , " table" )
out
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}
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#' @method as.data.frame mo
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#' @export
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#' @noRd
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as.data.frame.mo <- function ( x , ... ) {
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add_MO_lookup_to_AMR_env ( )
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if ( ! all ( x %in% c ( AMR_env $ MO_lookup $ mo , NA ) ) ) {
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warning_ (
" The data contains old MO codes (from a previous AMR package version). " ,
" Please update your MO codes with `as.mo()`."
)
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}
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nm <- deparse1 ( substitute ( x ) )
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if ( ! " nm" %in% names ( list ( ... ) ) ) {
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as.data.frame.vector ( x , ... , nm = nm )
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} else {
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as.data.frame.vector ( x , ... )
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}
}
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#' @method [ mo
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#' @export
#' @noRd
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" [.mo" <- function ( x , ... ) {
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y <- NextMethod ( )
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attributes ( y ) <- attributes ( x )
y
}
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#' @method [[ mo
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#' @export
#' @noRd
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" [[.mo" <- function ( x , ... ) {
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y <- NextMethod ( )
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attributes ( y ) <- attributes ( x )
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y
}
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#' @method [<- mo
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#' @export
#' @noRd
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" [<-.mo" <- function ( i , j , ... , value ) {
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y <- NextMethod ( )
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attributes ( y ) <- attributes ( i )
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# must only contain valid MOs
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add_MO_lookup_to_AMR_env ( )
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return_after_integrity_check ( y , " microorganism code" , as.character ( AMR_env $ MO_lookup $ mo ) )
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}
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#' @method [[<- mo
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#' @export
#' @noRd
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" [[<-.mo" <- function ( i , j , ... , value ) {
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y <- NextMethod ( )
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attributes ( y ) <- attributes ( i )
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# must only contain valid MOs
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add_MO_lookup_to_AMR_env ( )
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return_after_integrity_check ( y , " microorganism code" , as.character ( AMR_env $ MO_lookup $ mo ) )
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}
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#' @method c mo
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#' @export
#' @noRd
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c.mo <- function ( ... ) {
x <- list ( ... ) [ [1L ] ]
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y <- NextMethod ( )
attributes ( y ) <- attributes ( x )
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add_MO_lookup_to_AMR_env ( )
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return_after_integrity_check ( y , " microorganism code" , as.character ( AMR_env $ MO_lookup $ mo ) )
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}
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#' @method unique mo
#' @export
#' @noRd
unique.mo <- function ( x , incomparables = FALSE , ... ) {
y <- NextMethod ( )
attributes ( y ) <- attributes ( x )
y
}
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#' @method rep mo
#' @export
#' @noRd
rep.mo <- function ( x , ... ) {
y <- NextMethod ( )
attributes ( y ) <- attributes ( x )
y
}
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#' @method print mo_uncertainties
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#' @export
#' @noRd
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print.mo_uncertainties <- function ( x , n = 10 , ... ) {
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more_than_50 <- FALSE
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if ( NROW ( x ) == 0 ) {
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cat ( word_wrap ( " No uncertainties to show. Only uncertainties of the last call to `as.mo()` or any `mo_*()` function are stored.\n\n" , add_fn = font_blue ) )
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return ( invisible ( NULL ) )
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} else if ( NROW ( x ) > 50 ) {
more_than_50 <- TRUE
x <- x [1 : 50 , , drop = FALSE ]
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}
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cat ( word_wrap ( " Matching scores are based on the resemblance between the input and the full taxonomic name, and the pathogenicity in humans. See `?mo_matching_score`.\n\n" , add_fn = font_blue ) )
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add_MO_lookup_to_AMR_env ( )
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col_red <- function ( x ) font_rose_bg ( x , collapse = NULL )
col_orange <- function ( x ) font_orange_bg ( x , collapse = NULL )
col_yellow <- function ( x ) font_yellow_bg ( x , collapse = NULL )
col_green <- function ( x ) font_green_bg ( x , collapse = NULL )
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if ( has_colour ( ) ) {
cat ( word_wrap ( " Colour keys: " ,
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col_red ( " 0.000-0.549 " ) ,
col_orange ( " 0.550-0.649 " ) ,
col_yellow ( " 0.650-0.749 " ) ,
col_green ( " 0.750-1.000" ) ,
add_fn = font_blue
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) , font_green_bg ( " " ) , " \n" , sep = " " )
}
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score_set_colour <- function ( text , scores ) {
# set colours to scores
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text [scores >= 0.75 ] <- col_green ( text [scores >= 0.75 ] )
text [scores >= 0.65 & scores < 0.75 ] <- col_yellow ( text [scores >= 0.65 & scores < 0.75 ] )
text [scores >= 0.55 & scores < 0.65 ] <- col_orange ( text [scores >= 0.55 & scores < 0.65 ] )
text [scores < 0.55 ] <- col_red ( text [scores < 0.55 ] )
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text
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}
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txt <- " "
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any_maxed_out <- FALSE
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for ( i in seq_len ( nrow ( x ) ) ) {
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if ( x [i , ] $ candidates != " " ) {
candidates <- unlist ( strsplit ( x [i , ] $ candidates , " , " , fixed = TRUE ) )
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if ( length ( candidates ) > n ) {
any_maxed_out <- TRUE
candidates <- candidates [seq_len ( n ) ]
}
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scores <- mo_matching_score ( x = x [i , ] $ input , n = candidates )
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n_candidates <- length ( candidates )
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candidates_formatted <- italicise ( candidates )
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scores_formatted <- trimws ( formatC ( round ( scores , 3 ) , format = " f" , digits = 3 ) )
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scores_formatted <- score_set_colour ( scores_formatted , scores )
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# sort on descending scores
candidates_formatted <- candidates_formatted [order ( 1 - scores ) ]
scores_formatted <- scores_formatted [order ( 1 - scores ) ]
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candidates <- word_wrap (
paste0 (
" Also matched: " ,
vector_and (
paste0 (
candidates_formatted ,
font_blue ( paste0 ( " (" , scores_formatted , " )" ) , collapse = NULL )
) ,
quotes = FALSE , sort = FALSE
)
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) ,
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extra_indent = nchar ( " Also matched: " ) ,
width = 0.9 * getOption ( " width" , 100 )
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)
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} else {
candidates <- " "
}
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score <- mo_matching_score (
x = x [i , ] $ input ,
n = x [i , ] $ fullname
)
score_formatted <- trimws ( formatC ( round ( score , 3 ) , format = " f" , digits = 3 ) )
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txt <- paste ( txt ,
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paste0 (
paste0 (
" " , strrep ( font_grey ( " -" ) , times = getOption ( " width" , 100 ) ) , " \n" ,
' "' , x [i , ] $ original_input , ' "' ,
" -> " ,
paste0 (
font_bold ( italicise ( x [i , ] $ fullname ) ) ,
" (" , x [i , ] $ mo , " , " , score_set_colour ( score_formatted , score ) , " )"
)
) ,
collapse = " \n"
) ,
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ifelse ( x [i , ] $ mo %in% AMR_env $ MO_lookup $ mo [which ( AMR_env $ MO_lookup $ status == " synonym" ) ] ,
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paste0 (
strrep ( " " , nchar ( x [i , ] $ original_input ) + 6 ) ,
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ifelse ( x [i , ] $ keep_synonyms == FALSE ,
# Add note if result was coerced to accepted taxonomic name
font_red ( paste0 ( " This outdated taxonomic name was converted to " , font_italic ( AMR_env $ MO_lookup $ fullname [match ( synonym_mo_to_accepted_mo ( x [i , ] $ mo ) , AMR_env $ MO_lookup $ mo ) ] , collapse = NULL ) , " (" , synonym_mo_to_accepted_mo ( x [i , ] $ mo ) , " )." ) , collapse = NULL ) ,
# Or add note if result is currently another taxonomic name
font_red ( paste0 ( font_bold ( " Note: " ) , " The current name is " , font_italic ( AMR_env $ MO_lookup $ fullname [match ( synonym_mo_to_accepted_mo ( x [i , ] $ mo ) , AMR_env $ MO_lookup $ mo ) ] , collapse = NULL ) , " (" , AMR_env $ MO_lookup $ ref [match ( synonym_mo_to_accepted_mo ( x [i , ] $ mo ) , AMR_env $ MO_lookup $ mo ) ] , " )." ) , collapse = NULL )
)
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) ,
" "
) ,
candidates ,
sep = " \n"
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)
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txt <- gsub ( " [\n]+" , " \n" , txt )
# remove first and last break
txt <- gsub ( " (^[\n]|[\n]$)" , " " , txt )
txt <- paste0 ( " \n" , txt , " \n" )
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}
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cat ( txt )
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if ( isTRUE ( any_maxed_out ) ) {
cat ( font_blue ( word_wrap ( " \nOnly the first " , n , " other matches of each record are shown. Run `print(mo_uncertainties(), n = ...)` to view more entries, or save `mo_uncertainties()` to an object." ) ) )
}
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if ( isTRUE ( more_than_50 ) ) {
cat ( font_blue ( word_wrap ( " \nOnly the first 50 uncertainties are shown. Run `View(mo_uncertainties())` to view all entries, or save `mo_uncertainties()` to an object." ) ) )
}
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}
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#' @method print mo_renamed
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#' @export
#' @noRd
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print.mo_renamed <- function ( x , extra_txt = " " , n = 25 , ... ) {
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if ( NROW ( x ) == 0 ) {
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cat ( word_wrap ( " No renamed taxonomy to show. Only renamed taxonomy of the last call of `as.mo()` or any `mo_*()` function are stored.\n" , add_fn = font_blue ) )
return ( invisible ( NULL ) )
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}
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x $ ref_old [ ! is.na ( x $ ref_old ) ] <- paste0 ( " (" , gsub ( " et al." , font_italic ( " et al." ) , x $ ref_old [ ! is.na ( x $ ref_old ) ] , fixed = TRUE ) , " )" )
x $ ref_new [ ! is.na ( x $ ref_new ) ] <- paste0 ( " (" , gsub ( " et al." , font_italic ( " et al." ) , x $ ref_new [ ! is.na ( x $ ref_new ) ] , fixed = TRUE ) , " )" )
x $ ref_old [is.na ( x $ ref_old ) ] <- " (author unknown)"
x $ ref_new [is.na ( x $ ref_new ) ] <- " (author unknown)"
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rows <- seq_len ( min ( NROW ( x ) , n ) )
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message_ (
" The following microorganism" , ifelse ( NROW ( x ) > 1 , " s were" , " was" ) , " taxonomically renamed" , extra_txt , " :\n" ,
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paste0 ( " " , AMR_env $ bullet_icon , " " , font_italic ( x $ old [rows ] , collapse = NULL ) , x $ ref_old [rows ] ,
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" -> " , font_italic ( x $ new [rows ] , collapse = NULL ) , x $ ref_new [rows ] ,
collapse = " \n"
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) ,
ifelse ( NROW ( x ) > n , paste0 ( " \n\nOnly the first " , n , " (out of " , NROW ( x ) , " ) are shown. Run `print(mo_renamed(), n = ...)` to view more entries (might be slow), or save `mo_renamed()` to an object." ) , " " )
)
}
# UNDOCUMENTED HELPER FUNCTIONS -------------------------------------------
convert_colloquial_input <- function ( x ) {
x.bak <- trimws2 ( x )
x <- trimws2 ( tolower ( x ) )
out <- rep ( NA_character_ , length ( x ) )
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# Streptococci, like GBS = Group B Streptococci (B_STRPT_GRPB)
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out [x %like_case% " ^g[abcdefghijkl]s$" ] <- gsub ( " g([abcdefghijkl])s" ,
" B_STRPT_GRP\\U\\1" ,
x [x %like_case% " ^g[abcdefghijkl]s$" ] ,
perl = TRUE
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)
# Streptococci in different languages, like "estreptococos grupo B"
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out [x %like_case% " strepto[ck]o[ck][a-zA-Z ]* [abcdefghijkl]$" ] <- gsub ( " .*e?strepto[ck]o[ck].* ([abcdefghijkl])$" ,
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" B_STRPT_GRP\\U\\1" ,
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x [x %like_case% " strepto[ck]o[ck][a-zA-Z ]* [abcdefghijkl]$" ] ,
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perl = TRUE
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)
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out [x %like_case% " strep[a-z]* group [abcdefghijkl]$" ] <- gsub ( " .* ([abcdefghijkl])$" ,
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" B_STRPT_GRP\\U\\1" ,
x [x %like_case% " strep[a-z]* group [abcdefghijkl]$" ] ,
perl = TRUE
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)
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out [x %like_case% " group [abcdefghijkl] strepto[ck]o[ck]" ] <- gsub ( " .*group ([abcdefghijkl]) strepto[ck]o[ck].*" ,
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" B_STRPT_GRP\\U\\1" ,
x [x %like_case% " group [abcdefghijkl] strepto[ck]o[ck]" ] ,
perl = TRUE
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)
out [x %like_case% " ha?emoly.*strep" ] <- " B_STRPT_HAEM"
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out [x %like_case% " (strepto.* [abcg, ]{2,4}$)" ] <- " B_STRPT_ABCG"
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out [x %like_case% " (strepto.* mil+er+i|^mgs[^a-z]*$)" ] <- " B_STRPT_MILL"
out [x %like_case% " mil+er+i gr" ] <- " B_STRPT_MILL"
out [x %like_case% " ((strepto|^s).* viridans|^vgs[^a-z]*$)" ] <- " B_STRPT_VIRI"
out [x %like_case% " (viridans.* (strepto|^s).*|^vgs[^a-z]*$)" ] <- " B_STRPT_VIRI"
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# Salmonella in different languages, like "Salmonella grupo B"
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out [x %like_case% " salmonella.* [abcdefgh]$" ] <- gsub ( " .*salmonella.* ([abcdefgh])$" ,
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" B_SLMNL_GRP\\U\\1" ,
x [x %like_case% " salmonella.* [abcdefgh]$" ] ,
perl = TRUE
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)
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out [x %like_case% " group [abcdefgh] salmonella" ] <- gsub ( " .*group ([abcdefgh]) salmonella*" ,
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" B_SLMNL_GRP\\U\\1" ,
x [x %like_case% " group [abcdefgh] salmonella" ] ,
perl = TRUE
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)
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# CoNS/CoPS in different languages (support for German, Dutch, Spanish, Portuguese)
out [x %like_case% " ([ck]oagulas[ea].negatie?[vf]|^[ck]o?ns[^a-z]*$)" ] <- " B_STPHY_CONS"
out [x %like_case% " ([ck]oagulas[ea].positie?[vf]|^[ck]o?ps[^a-z]*$)" ] <- " B_STPHY_COPS"
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# Gram stains
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out [x %like_case% " gram[ -]?neg.*" ] <- " B_GRAMN"
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out [x %like_case% " ( |^)gram[-]( |$)" ] <- " B_GRAMN"
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out [x %like_case% " gram[ -]?pos.*" ] <- " B_GRAMP"
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out [x %like_case% " ( |^)gram[+]( |$)" ] <- " B_GRAMP"
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out [x %like_case% " anaerob[a-z]+ .*gram[ -]?neg.*" ] <- " B_ANAER-NEG"
out [x %like_case% " anaerob[a-z]+ .*gram[ -]?pos.*" ] <- " B_ANAER-POS"
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out [is.na ( out ) & x %like_case% " anaerob[a-z]+ (micro)?.*organism" ] <- " B_ANAER"
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out [is.na ( out ) & x %like_case% " anaerob[a-z]+ bacter" ] <- " B_ANAER"
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# coryneform bacteria
out [x %like_case% " ^coryneform" ] <- " B_CORYNF"
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# yeasts and fungi
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out [x %like_case% " (^| )yeast?" ] <- " F_YEAST"
out [x %like_case% " (^| )fung(us|i)" ] <- " F_FUNGUS"
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# protozoa
out [x %like_case% " protozo" ] <- " P_PROTOZOAN" # to hit it with most languages, and "protozo" does not occur in the microorganisms data set for anything else
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# trivial names known to the field
out [x %like_case% " meningo[ck]o[ck]" ] <- " B_NESSR_MNNG"
out [x %like_case% " gono[ck]o[ck]" ] <- " B_NESSR_GNRR"
out [x %like_case% " pneumo[ck]o[ck]" ] <- " B_STRPT_PNMN"
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out [x %like_case% " hacek" ] <- " B_HACEK"
out [x %like_case% " haemophilus" & x %like_case% " aggregatibacter" & x %like_case% " cardiobacterium" & x %like_case% " eikenella" & x %like_case% " kingella" ] <- " B_HACEK"
out [x %like_case% " slow.* grow.* mycobact" ] <- " B_MYCBC_SGM"
out [x %like_case% " rapid.* grow.* mycobact" ] <- " B_MYCBC_RGM"
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# unexisting names (con is the WHONET code for contamination)
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out [x %in% c ( " con" , " other" , " none" , " unknown" ) | x %like_case% " virus" ] <- " UNKNOWN"
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# WHONET has a lot of E. coli and Vibrio cholerae names
out [x %like_case% " escherichia coli" ] <- " B_ESCHR_COLI"
out [x %like_case% " vibrio cholerae" ] <- " B_VIBRI_CHLR"
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out
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}
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italicise <- function ( x ) {
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if ( ! has_colour ( ) ) {
return ( x )
}
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out <- font_italic ( x , collapse = NULL )
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# city-like serovars of Salmonella (start with a capital)
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out [x %like_case% " Salmonella [A-Z]" ] <- paste (
font_italic ( " Salmonella" ) ,
gsub ( " Salmonella " , " " , x [x %like_case% " Salmonella [A-Z]" ] )
)
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# streptococcal groups
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out [x %like_case% " Streptococcus [A-Z]" ] <- paste (
font_italic ( " Streptococcus" ) ,
gsub ( " Streptococcus " , " " , x [x %like_case% " Streptococcus [A-Z]" ] )
)
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# be sure not to make these italic
out <- gsub ( " ([ -]*)(Group|group|Complex|complex)(\033\\[23m)?" , " \033[23m\\1\\2" , out , perl = TRUE )
out <- gsub ( " (\033\\[3m)?(Beta[-]haemolytic|Coagulase[-](postive|negative)) " , " \\2 \033[3m" , out , perl = TRUE )
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out
}
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nr2char <- function ( x ) {
if ( x %in% c ( 1 : 10 ) ) {
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v <- c (
" one" = 1 , " two" = 2 , " three" = 3 , " four" = 4 , " five" = 5 ,
" six" = 6 , " seven" = 7 , " eight" = 8 , " nine" = 9 , " ten" = 10
)
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names ( v [x ] )
} else {
x
}
2018-12-06 14:36:39 +01:00
}
2019-03-15 13:57:25 +01:00
2020-04-14 15:10:09 +02:00
parse_and_convert <- function ( x ) {
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if ( tryCatch ( is.character ( x ) && all ( Encoding ( x ) == " unknown" , na.rm = TRUE ) , error = function ( e ) FALSE ) ) {
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out <- x
} else {
out <- tryCatch (
{
if ( ! is.null ( dim ( x ) ) ) {
if ( NCOL ( x ) > 2 ) {
stop ( " a maximum of two columns is allowed" , call. = FALSE )
} else if ( NCOL ( x ) == 2 ) {
# support Tidyverse selection like: df %>% select(colA, colB)
# paste these columns together
x <- as.data.frame ( x , stringsAsFactors = FALSE )
colnames ( x ) <- c ( " A" , " B" )
x <- paste ( x $ A , x $ B )
} else {
# support Tidyverse selection like: df %>% select(colA)
x <- as.data.frame ( x , stringsAsFactors = FALSE ) [ [1 ] ]
}
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}
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parsed <- iconv ( as.character ( x ) , to = " UTF-8" )
parsed [is.na ( parsed ) & ! is.na ( x ) ] <- iconv ( x [is.na ( parsed ) & ! is.na ( x ) ] , from = " Latin1" , to = " ASCII//TRANSLIT" )
parsed <- gsub ( ' "' , " " , parsed , fixed = TRUE )
parsed
} ,
error = function ( e ) stop ( e $ message , call. = FALSE )
) # this will also be thrown when running `as.mo(no_existing_object)`
}
out <- trimws2 ( out )
out <- gsub ( " +" , " " , out , perl = TRUE )
out <- gsub ( " ?/ ? " , " /" , out , perl = TRUE )
out
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}
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2020-07-22 12:29:51 +02:00
replace_old_mo_codes <- function ( x , property ) {
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# this function transform old MO codes to current codes, such as:
# B_ESCH_COL (AMR v0.5.0) -> B_ESCHR_COLI
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ind <- x %like_case% " ^[A-Z]_[A-Z_]+$" & ! x %in% AMR_env $ MO_lookup $ mo
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if ( any ( ind , na.rm = TRUE ) ) {
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add_MO_lookup_to_AMR_env ( )
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# get the ones that match
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affected <- x [ind ]
affected_unique <- unique ( affected )
all_direct_matches <- TRUE
# find their new codes, once per code
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solved_unique <- unlist ( lapply (
strsplit ( affected_unique , " " ) ,
function ( m ) {
kingdom <- paste0 ( " ^" , m [1 ] )
name <- m [3 : length ( m ) ]
name [name == " _" ] <- " "
name <- tolower ( paste0 ( name , " .*" , collapse = " " ) )
name <- gsub ( " .*" , " " , name , fixed = TRUE )
name <- paste0 ( " ^" , name )
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results <- AMR_env $ MO_lookup $ mo [AMR_env $ MO_lookup $ kingdom %like_case% kingdom &
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AMR_env $ MO_lookup $ fullname_lower %like_case% name ]
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if ( length ( results ) > 1 ) {
all_direct_matches <<- FALSE
}
results [1L ]
}
) , use.names = FALSE )
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solved <- solved_unique [match ( affected , affected_unique ) ]
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# assign on places where a match was found
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x [ind ] <- solved
n_matched <- length ( affected [ ! is.na ( affected ) ] )
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n_solved <- length ( affected [ ! is.na ( solved ) ] )
n_unsolved <- length ( affected [is.na ( solved ) ] )
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n_unique <- length ( affected_unique [ ! is.na ( affected_unique ) ] )
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if ( n_unique < n_matched ) {
n_unique <- paste0 ( n_unique , " unique, " )
} else {
n_unique <- " "
}
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if ( property != " mo" ) {
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warning_ (
" in `mo_" , property , " ()`: the input contained " , n_matched ,
" old MO code" , ifelse ( n_matched == 1 , " " , " s" ) ,
" (" , n_unique , " from a previous AMR package version). " ,
" Please update your MO codes with `as.mo()` to increase speed."
)
2020-10-26 12:23:03 +01:00
} else {
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warning_ (
" in `as.mo()`: the input contained " , n_matched ,
" old MO code" , ifelse ( n_matched == 1 , " " , " s" ) ,
" (" , n_unique , " from a previous AMR package version). " ,
n_solved , " old MO code" , ifelse ( n_solved == 1 , " " , " s" ) ,
ifelse ( n_solved == 1 , " was" , " were" ) ,
ifelse ( all_direct_matches , " updated " , font_bold ( " guessed " ) ) ,
" to " , ifelse ( n_solved == 1 , " a " , " " ) ,
" currently used MO code" , ifelse ( n_solved == 1 , " " , " s" ) ,
ifelse ( n_unsolved > 0 ,
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paste0 ( " and " , n_unsolved , " old MO code" , ifelse ( n_unsolved == 1 , " " , " s" ) , " could not be updated." ) ,
" ."
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)
)
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}
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}
x
}
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replace_ignore_pattern <- function ( x , ignore_pattern ) {
if ( ! is.null ( ignore_pattern ) && ! identical ( trimws2 ( ignore_pattern ) , " " ) ) {
ignore_cases <- x %like% ignore_pattern
if ( sum ( ignore_cases ) > 0 ) {
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message_ (
" The following input was ignored by `ignore_pattern = \"" , ignore_pattern , " \"`: " ,
vector_and ( x [ignore_cases ] , quotes = TRUE )
)
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x [ignore_cases ] <- NA_character_
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}
}
x
}
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repair_reference_df <- function ( reference_df ) {
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if ( is.null ( reference_df ) ) {
return ( NULL )
}
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# has valid own reference_df
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reference_df <- reference_df %pm>%
pm_filter ( ! is.na ( mo ) )
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# keep only first two columns, second must be mo
if ( colnames ( reference_df ) [1 ] == " mo" ) {
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reference_df <- reference_df %pm>% pm_select ( 2 , " mo" )
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} else {
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reference_df <- reference_df %pm>% pm_select ( 1 , " mo" )
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}
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# remove factors, just keep characters
colnames ( reference_df ) [1 ] <- " x"
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reference_df [ , " x" ] <- as.character ( reference_df [ , " x" , drop = TRUE ] )
reference_df [ , " mo" ] <- as.character ( reference_df [ , " mo" , drop = TRUE ] )
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# some MO codes might be old
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reference_df [ , " mo" ] <- as.mo ( reference_df [ , " mo" , drop = TRUE ] , reference_df = NULL )
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reference_df
}
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get_mo_uncertainties <- function ( ) {
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remember <- list ( uncertainties = AMR_env $ mo_uncertainties ,
failures = AMR_env $ mo_failures )
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# empty them, otherwise e.g. mo_shortname("Chlamydophila psittaci") will give 3 notes
AMR_env $ mo_uncertainties <- NULL
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AMR_env $ mo_failures <- NULL
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remember
}
load_mo_uncertainties <- function ( metadata ) {
AMR_env $ mo_uncertainties <- metadata $ uncertainties
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AMR_env $ mo_failures <- metadata $ failures
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}
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synonym_mo_to_accepted_mo <- function ( x , fill_in_accepted = FALSE , dataset = AMR_env $ MO_lookup ) {
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# `dataset` is an argument so that it can be used in the regeneration of the microorganisms data set
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if ( identical ( dataset , AMR_env $ MO_lookup ) ) {
add_MO_lookup_to_AMR_env ( )
dataset <- AMR_env $ MO_lookup
}
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out <- x
is_still_synonym <- dataset $ status [match ( out , dataset $ mo ) ] == " synonym"
limit <- 0
while ( any ( is_still_synonym , na.rm = TRUE ) && limit < 5 ) {
limit <- limit + 1
# make sure to get the latest name, e.g. Fusarium pulicaris robiniae was first renamed to Fusarium roseum, then to Fusarium sambucinum
# we need the MO of Fusarium pulicaris robiniae to return the MO of Fusarium sambucinum
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must_be_corrected <- ! is.na ( is_still_synonym ) & is_still_synonym
x_gbif <- dataset $ gbif_renamed_to [match ( out , dataset $ mo ) ]
x_mycobank <- dataset $ mycobank_renamed_to [match ( out , dataset $ mo ) ]
x_lpsn <- dataset $ lpsn_renamed_to [match ( out , dataset $ mo ) ]
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out [must_be_corrected & ! is.na ( x_gbif ) ] <- dataset $ mo [match ( x_gbif [must_be_corrected & ! is.na ( x_gbif ) ] , dataset $ gbif ) ]
out [must_be_corrected & ! is.na ( x_mycobank ) ] <- dataset $ mo [match ( x_mycobank [must_be_corrected & ! is.na ( x_mycobank ) ] , dataset $ mycobank ) ]
out [must_be_corrected & ! is.na ( x_lpsn ) ] <- dataset $ mo [match ( x_lpsn [must_be_corrected & ! is.na ( x_lpsn ) ] , dataset $ lpsn ) ]
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is_still_synonym <- dataset $ status [match ( out , dataset $ mo ) ] == " synonym"
}
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x_no_synonym <- dataset $ status [match ( x , dataset $ mo ) ] != " synonym"
out [x_no_synonym ] <- NA_character_
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if ( isTRUE ( fill_in_accepted ) ) {
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out [ ! is.na ( x_no_synonym ) & x_no_synonym ] <- x [ ! is.na ( x_no_synonym ) & x_no_synonym ]
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}
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out [is.na ( match ( x , dataset $ mo ) ) ] <- NA_character_
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out
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}