mirror of https://github.com/msberends/AMR.git
157 lines
6.9 KiB
R
Executable File
157 lines
6.9 KiB
R
Executable File
context("resistance.R")
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test_that("resistance works", {
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# check shortcuts
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expect_equal(resistance(septic_patients$amox, include_I = TRUE),
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IR(septic_patients$amox))
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expect_equal(resistance(septic_patients$amox, include_I = FALSE),
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R(septic_patients$amox))
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expect_equal(susceptibility(septic_patients$amox, include_I = TRUE),
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SI(septic_patients$amox))
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expect_equal(susceptibility(septic_patients$amox, include_I = FALSE),
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S(septic_patients$amox))
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# amox resistance in `septic_patients` should be around 66.33%
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expect_equal(resistance(septic_patients$amox, include_I = TRUE), 0.6633, tolerance = 0.0001)
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expect_equal(susceptibility(septic_patients$amox, include_I = FALSE), 1 - 0.6633, tolerance = 0.0001)
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# pita+genta susceptibility around 98.09%
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expect_equal(susceptibility(septic_patients$pita,
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septic_patients$gent),
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0.9535,
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tolerance = 0.0001)
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expect_equal(suppressWarnings(rsi(septic_patients$pita,
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septic_patients$gent,
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interpretation = "S")),
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0.9535,
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tolerance = 0.0001)
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# count of cases
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expect_equal(septic_patients %>%
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group_by(hospital_id) %>%
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summarise(cipro_p = susceptibility(cipr, as_percent = TRUE),
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cipro_n = n_rsi(cipr),
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genta_p = susceptibility(gent, as_percent = TRUE),
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genta_n = n_rsi(gent),
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combination_p = susceptibility(cipr, gent, as_percent = TRUE),
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combination_n = n_rsi(cipr, gent)) %>%
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pull(combination_n),
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c(202, 482, 201, 499))
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expect_warning(resistance(as.character(septic_patients$amcl)))
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expect_warning(susceptibility(as.character(septic_patients$amcl)))
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expect_warning(susceptibility(as.character(septic_patients$amcl,
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septic_patients$gent)))
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# check for errors
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expect_error(IR(septic_patients %>% select(amox, amcl)))
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expect_error(IR("test", minimum = "test"))
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expect_error(IR("test", as_percent = "test"))
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expect_error(S("test", minimum = "test"))
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expect_error(S("test", as_percent = "test"))
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expect_error(S(septic_patients %>% select(amox, amcl)))
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expect_error(S("R", septic_patients %>% select(amox, amcl)))
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# check too low amount of isolates
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expect_identical(IR(septic_patients$amox, minimum = nrow(septic_patients) + 1),
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NA)
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expect_identical(S(septic_patients$amox, minimum = nrow(septic_patients) + 1),
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NA)
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# warning for speed loss
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expect_warning(S(septic_patients$amcl, as.character(septic_patients$gent)))
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})
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test_that("old rsi works", {
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# amox resistance in `septic_patients` should be around 66.33%
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expect_equal(suppressWarnings(rsi(septic_patients$amox)), 0.6633, tolerance = 0.0001)
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expect_equal(suppressWarnings(rsi(septic_patients$amox, interpretation = "S")), 1 - 0.6633, tolerance = 0.0001)
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expect_equal(rsi_df(septic_patients,
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ab = "amox",
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info = TRUE),
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0.6633,
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tolerance = 0.0001)
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# pita+genta susceptibility around 98.09%
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expect_equal(suppressWarnings(rsi(septic_patients$pita,
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septic_patients$gent,
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interpretation = "S",
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info = TRUE)),
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0.9535,
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tolerance = 0.0001)
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expect_equal(rsi_df(septic_patients,
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ab = c("pita", "gent"),
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interpretation = "S",
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info = TRUE),
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0.9535,
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tolerance = 0.0001)
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# more than 2 not allowed
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expect_error(rsi_df(septic_patients,
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ab = c("mero", "pita", "gent"),
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interpretation = "IS",
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info = TRUE))
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# count of cases
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expect_equal(septic_patients %>%
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group_by(hospital_id) %>%
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summarise(cipro_S = suppressWarnings(rsi(cipr, interpretation = "S",
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as_percent = TRUE, warning = FALSE)),
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cipro_n = n_rsi(cipr),
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genta_S = suppressWarnings(rsi(gent, interpretation = "S",
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as_percent = TRUE, warning = FALSE)),
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genta_n = n_rsi(gent),
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combination_S = suppressWarnings(rsi(cipr, gent, interpretation = "S",
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as_percent = TRUE, warning = FALSE)),
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combination_n = n_rsi(cipr, gent)) %>%
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pull(combination_n),
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c(202, 482, 201, 499))
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})
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test_that("prediction of rsi works", {
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amox_R <- septic_patients %>%
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filter(bactid == "ESCCOL") %>%
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rsi_predict(col_ab = "amox",
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col_date = "date",
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minimum = 10,
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info = TRUE) %>%
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pull("value")
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# amox resistance will increase according to data set `septic_patients`
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expect_true(amox_R[3] < amox_R[20])
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expect_output(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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model = "binomial",
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col_ab = "amox",
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col_date = "date",
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info = TRUE))
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expect_output(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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model = "loglin",
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col_ab = "amox",
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col_date = "date",
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info = TRUE))
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expect_output(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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model = "lin",
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col_ab = "amox",
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col_date = "date",
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info = TRUE))
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expect_error(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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model = "INVALID MODEL",
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col_ab = "amox",
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col_date = "date",
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info = TRUE))
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expect_error(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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col_ab = "NOT EXISTING COLUMN",
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col_date = "date",
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info = TRUE))
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expect_error(rsi_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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col_ab = "amox",
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col_date = "NOT EXISTING COLUMN",
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info = TRUE))
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# almost all E. coli are mero S in the Netherlands :)
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expect_error(resistance_predict(tbl = filter(septic_patients, bactid == "ESCCOL"),
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col_ab = "mero",
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col_date = "date",
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info = TRUE))
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})
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