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AMR/R/read_4d.R

135 lines
6.3 KiB
R

# ==================================================================== #
# TITLE #
# Antimicrobial Resistance (AMR) Analysis #
# #
# AUTHORS #
# Berends MS (m.s.berends@umcg.nl), Luz CF (c.f.luz@umcg.nl) #
# #
# LICENCE #
# This program is free software; you can redistribute it and/or modify #
# it under the terms of the GNU General Public License version 2.0, #
# as published by the Free Software Foundation. #
# #
# This program is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# ==================================================================== #
#' Read data from 4D database
#'
#' This function is only useful for the MMB department of the UMCG. Use this function to \strong{import data by just defining the \code{file} parameter}. It will automatically transform birth dates and calculate patients age, translate the data set to English, transform the \code{mo} with \code{\link{as.mo}} and transform all antimicrobial columns with \code{\link{as.rsi}}.
#' @inheritParams utils::read.table
#' @export
read_4D <- function(file,
header = TRUE,
sep = "\t",
quote = "\"'",
dec = ",",
na.strings = c("NA", "", "."),
skip = 2,
check.names = TRUE,
strip.white = TRUE,
fill = TRUE,
blank.lines.skip = TRUE,
stringsAsFactors = FALSE,
fileEncoding = "UTF-8",
encoding = "UTF-8") {
data_4D <- utils::read.table(file = file,
header = header,
sep = sep,
quote = quote,
dec = dec,
na.strings = na.strings,
skip = skip,
check.names = check.names,
strip.white = strip.white,
fill = fill,
blank.lines.skip = blank.lines.skip,
stringsAsFactors = stringsAsFactors,
fileEncoding = fileEncoding,
encoding = encoding)
# helper functions
to_date_4D <- function(x) {
date_regular <- as.Date(x, format = "%d-%m-%y")
posixlt <- as.POSIXlt(date_regular)
# born after today will be born 100 years ago
# based on https://stackoverflow.com/a/3312971/4575331
posixlt[date_regular > Sys.Date()]$year <- posixlt[date_regular > Sys.Date()]$year - 100
as.Date(posixlt)
}
to_age_4D <- function(from, to) {
from_lt = as.POSIXlt(from)
to_lt = as.POSIXlt(to)
age = to_lt$year - from_lt$year
ifelse(to_lt$mon < from_lt$mon |
(to_lt$mon == from_lt$mon & to_lt$mday < from_lt$mday),
age - 1, age)
}
colnames(data_4D) <- tolower(colnames(data_4D))
if (all(c("afnamedat", "gebdatum") %in% colnames(data_4D))) {
# add age
data_4D$age <- NA_integer_
}
cols_wanted <- c("patientnr", "gebdatum", "age", "mv", "monsternr", "afnamedat", "bepaling",
"afd.", "spec", "mat", "matbijz.", "mocode",
"amfo", "amox", "anid", "azit", "casp", "cecl", "cefe", "cfcl",
"cfot", "cfox", "cfta", "cftr", "cfur", "chlo", "cipr", "clin",
"cocl", "ctta", "dapt", "doxy", "eryt", "fluo", "fluz", "fosf",
"fusi", "gehi", "gent", "imip", "kana", "levo", "line", "mero",
"metr", "mico", "mino", "moxi", "mupi", "nali", "nitr", "norf",
"oxac", "peni", "pipe", "pita", "poly", "posa", "quda", "rifa",
"spat", "teic", "tige", "tobr", "trim", "trsu", "vana", "vanb",
"vanc", "vori")
# this ones actually exist
cols_wanted <- cols_wanted[cols_wanted %in% colnames(data_4D)]
# order of columns
data_4D <- data_4D[, cols_wanted]
# rename of columns
colnames(data_4D) <- gsub("patientnr", "patient_id", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("gebdatum", "date_birth", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("mv", "gender", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("monsternr", "sample_id", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("afnamedat", "date_received", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("bepaling", "sample_test", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("afd.", "department", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("spec", "specialty", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("matbijz.", "specimen_type", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("mat", "specimen_group", colnames(data_4D), fixed = TRUE)
colnames(data_4D) <- gsub("mocode", "mo", colnames(data_4D), fixed = TRUE)
if ("date_birth" %in% colnames(data_4D)) {
data_4D$date_birth <- to_date_4D(data_4D$date_birth)
}
if ("date_received" %in% colnames(data_4D)) {
data_4D$date_received <- to_date_4D(data_4D$date_received)
}
if ("age" %in% colnames(data_4D)) {
data_4D$age <- to_age_4D(data_4D$date_birth, data_4D$date_received)
}
if ("gender" %in% colnames(data_4D)) {
data_4D$gender[data_4D$gender == "V"] <- "F"
}
if ("mo" %in% colnames(data_4D)) {
data_4D$mo <- as.mo(data_4D$mo)
# column right of mo is:
drug1 <- colnames(data_4D)[grep("^mo$", colnames(data_4D)) + 1]
if (!is.na(drug1)) {
# and last is:
drug_last <- colnames(data_4D)[length(data_4D)]
# transform those to rsi:
data_4D <- suppressWarnings(mutate_at(data_4D, vars(drug1:drug_last), as.rsi))
}
}
data_4D
}