context("measures")
test_that("kappa is calculated correctly", {
# -----------------------------------------------------------------------------
# kappa equals to 0
truth1 <- rep(1:2, times = 50)
prediction1 <- rep(1:2, each = 50)
k_0_a <- measure_kappa(truth1, prediction1)
k_0_b <- measure_kappa(conf_mat = table(truth1, prediction1))
expect_equal(k_0_a, k_0_b)
expect_equal(k_0_a, 0)
expect_equal(k_0_b, 0)
# -----------------------------------------------------------------------------
# kappa equals to 1
truth2 <- rep(1:3, times = 50)
k_1_a <- measure_kappa(truth2, truth2)
k_1_b <- measure_kappa(conf_mat = table(truth2, truth2))
expect_equal(k_1_a, k_1_b)
expect_equal(k_1_a, 1)
expect_equal(k_1_b, 1)
# -----------------------------------------------------------------------------
# kappa equals to -1
truth3 <- rep(1:2, times = 50)
prediction3 <- rep(c(2, 1), times = 50)
k_neg1_a <- measure_kappa(truth3, prediction3)
k_neg1_b <- measure_kappa(conf_mat = table(truth3, prediction3))
expect_equal(k_neg1_a, k_neg1_b)
expect_equal(k_neg1_a, -1)
expect_equal(k_neg1_b, -1)
# -----------------------------------------------------------------------------
# kappa equals to -0.02
truth4 <- rep(1:3, times = 50)
prediction4 <- rep(3:1, each = 50)
k_neg002_a <- measure_kappa(truth4, prediction4)
k_neg002_b <- measure_kappa(conf_mat = table(truth4, prediction4))
expect_equal(k_neg002_a, k_neg002_b)
expect_equal(k_neg002_a, -0.02)
expect_equal(k_neg002_b, -0.02)
# -----------------------------------------------------------------------------
# kappa equals to 0.4
mat1 <- matrix(c(20, 10, 5, 15), nrow = 2)
k_04_b <- measure_kappa(conf_mat = mat1)
expect_equal(k_04_b, 0.4)
# kappa equals to 0.1304
mat2 <- matrix(c(45, 25, 15, 15), nrow = 2)
k_013_b <- measure_kappa(conf_mat = mat2)
expect_equal(round(k_013_b, 4), 0.1304)
# -----------------------------------------------------------------------------
})
# =============================================================================
test_that("kappa is robust to input errors", {
# Different vector lengths
truth10 <- rep(1:3, times = 50)
prediction10 <- rep(1:2, each = 50)
expect_error(measure_kappa(truth10, prediction10))
# -----------------------------------------------------------------------------
# Different number of factor levels
truth11 <- rep(1:3, length = 100)
prediction11 <- rep(1:2, each = 50)
expect_error(measure_kappa(truth11, prediction11))
expect_error(measure_kappa(conf_mat = table(truth11, prediction11)))
# -----------------------------------------------------------------------------
# [!!!] missing values must not be accepted, but they are
})
# =============================================================================
test_that("wwkappa is calculated correctly", {
# -----------------------------------------------------------------------------
# wkappa equals to 0
truth1 <- rep(1:2, times = 50)
prediction1 <- rep(1:2, each = 50)
k_0_a <- measure_wkappa(truth1, prediction1)
k_0_b <- measure_wkappa(conf_mat = table(truth1, prediction1))
expect_equal(k_0_a, k_0_b)
expect_equal(k_0_a, 0)
expect_equal(k_0_b, 0)
# -----------------------------------------------------------------------------
# wkappa equals to 1
truth2 <- rep(1:3, times = 50)
k_1_a <- measure_wkappa(truth2, truth2)
k_1_b <- measure_wkappa(conf_mat = table(truth2, truth2))
expect_equal(k_1_a, k_1_b)
expect_equal(k_1_a, 1)
expect_equal(k_1_b, 1)
# -----------------------------------------------------------------------------
# wkappa equals to -1
truth3 <- rep(1:2, times = 50)
prediction3 <- rep(c(2, 1), times = 50)
k_neg1_a <- measure_wkappa(truth3, prediction3)
k_neg1_b <- measure_wkappa(conf_mat = table(truth3, prediction3))
expect_equal(k_neg1_a, k_neg1_b)
expect_equal(k_neg1_a, -1)
expect_equal(k_neg1_b, -1)
# -----------------------------------------------------------------------------
# wkappa equals to -0.02
truth4 <- rep(1:3, times = 50)
prediction4 <- rep(3:1, each = 50)
k_neg002_a <- measure_wkappa(truth4, prediction4)
k_neg002_b <- measure_wkappa(conf_mat = table(truth4, prediction4))
expect_equal(k_neg002_a, k_neg002_b)
expect_equal(k_neg002_a, -0.02)
expect_equal(k_neg002_b, -0.02)
# -----------------------------------------------------------------------------
# wkappa equals to 0.4
mat1 <- matrix(c(20, 10, 5, 15), nrow = 2)
k_04_b <- measure_wkappa(conf_mat = mat1)
expect_equal(k_04_b, 0.4)
# wkappa equals to 0.1304
mat2 <- matrix(c(45, 25, 15, 15), nrow = 2)
k_013_b <- measure_wkappa(conf_mat = mat2)
expect_equal(round(k_013_b, 4), 0.1304)
# -----------------------------------------------------------------------------
})
# =============================================================================
test_that("wkappa is robust to input errors", {
# Different vector lengths
truth10 <- rep(1:3, times = 50)
prediction10 <- rep(1:2, each = 50)
expect_error(measure_wkappa(truth10, prediction10))
# -----------------------------------------------------------------------------
# Different number of factor levels
truth11 <- rep(1:3, length = 100)
prediction11 <- rep(1:2, each = 50)
expect_error(measure_wkappa(truth11, prediction11))
expect_error(measure_wkappa(conf_mat = table(truth11, prediction11)))
# -----------------------------------------------------------------------------
# [!!!] missing values must not be accepted, but they are
})
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