TOLERANCE <- 1e-2 test_that("Table #2: POLARIX ", { # OS monitoring guideline retrospectively applied to Motivating Example 1 with δnull = 1.3, δalt = 0.80, γFA = 0.025 and βPA = 0.10. res <- bounds( events = c(60, 89, 110, 131, 178), power_int = 0.9, falsepos = 0.025, hr_null = 1.3, hr_alt = 0.8 ) # check for errors in the provided results. expect_equal( as.numeric(res$summary$'OS HR threshold for positivity'), # OS HR threshold for positivity c(1.114, 1.050, 1.021, 1.001, 0.969), tolerance = TOLERANCE ) expect_equal( as.numeric(res$summary$'One-sided false positive error rate'), # One-sided false positive error rate c(0.275, 0.157, 0.103, 0.067, 0.025), tolerance = TOLERANCE ) expect_equal(as.numeric(res$summary$'Level of 2-sided CI needed to rule out delta null'), # Level of 2-sided CI needed to rule out c(45, 69, 79, 87, 95), tolerance = 1e-1) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under delta alt'), # Probability of meeting positivity threshold under δalt c(0.90, 0.90, 0.90, 0.90, 0.90), tolerance = TOLERANCE) }) test_that("Table#3: Intermediate events", { # OS monitoring guideline with δnull = 1.3, δalt = 0.70, γFA = 0.10 and βPA = 0.10. res <- bounds( events = c(28, 42, 70), power_int = 0.9, falsepos = 0.1, hr_null = 1.3, hr_alt = 0.7, hr_marg_benefit = 0.95 ) # check for errors in the provided results. expect_equal(as.numeric(res$summary$'OS HR threshold for positivity'), # OS HR threshold for positivity c(1.136, 1.040, 0.957), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'One-sided false positive error rate'), # One-sided false positive error rate c(0.36, 0.23, 0.1), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Level of 2-sided CI needed to rule out delta null'), # Level of 2-sided CI needed to rule out c(28, 53, 80), tolerance = 1e-1) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under delta alt'), # Probability of meeting positivity threshold under δalt c(0.9, 0.9, 0.905), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under marginal HR'), # Probability of meeting positivity threshold under HR = 0.95 c(0.682, 0.615 , 0.512), tolerance = TOLERANCE) }) test_that("Table#4: Example 2", { # OS monitoring guideline with δnull = 1.3, δalt = 0.95, γFA = 0.2 and βPA = 0.25. res <- bounds( events = c(28, 42, 70), power_int = 0.75, falsepos = 0.2, hr_null = 1.3, hr_alt = 0.95, hr_marg_benefit = 1 ) # check for errors in the provided results. expect_equal(as.numeric(res$summary$'OS HR threshold for positivity'), # OS HR threshold for positivity c(1.226, 1.170, 1.063), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'One-sided false positive error rate'), # One-sided false positive error rate c(0.438, 0.366, 0.2), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Level of 2-sided CI needed to rule out delta null'), # Level of 2-sided CI needed to rule out c(12, 27, 60), tolerance = 5e-1) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under delta alt'), # Probability of meeting positivity threshold under δalt c(0.750, 0.750, 0.681), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under marginal HR'), # Probability of meeting positivity threshold under HR = 1 c(0.705 , 0.694, 0.601), tolerance = TOLERANCE) }) test_that("Table#5: Example 2", { # OS monitoring guideline applied to Motivating Example 2 with δnull = 1.333, δalt = 0.7, γFA = 0.20 and βPA = 0.1. res <- bounds( events = c(22, 34), power_int = 0.9, falsepos = 0.20, hr_null = 4 / 3, hr_alt = 0.7, hr_marg_benefit = 0.95 ) # check for errors in the provided results. expect_equal(as.numeric(res$summary$'OS HR threshold for positivity'), # OS HR threshold for positivity c(1.209, 0.999), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'One-sided false positive error rate'), # One-sided false positive error rate c(0.409, 0.2), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Level of 2-sided CI needed to rule out delta null'), # Level of 2-sided CI needed to rule out c(18, 60), tolerance = 1e-1) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under delta alt'), # Probability of meeting positivity threshold under δalt c(0.9, 0.85), tolerance = TOLERANCE) expect_equal(as.numeric(res$summary$'Probability of meeting positivity threshold under marginal HR'), # Probability of meeting positivity threshold under HR = 0.95 c(0.714 , 0.558), tolerance = TOLERANCE) })