# Copyright (C) 2020-2023 Koen Derks # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # 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. # You should have received a copy of the GNU General Public License # along with this program. If not, see . context("Validation of function auditPrior") # jfa version 0.2.0 test_that(desc = "(id: f2-v0.1.0-t1) Test for method = 'default'", { prior <- auditPrior(conf.level = 0.95, likelihood = "binomial", method = "default") expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 1) prior <- auditPrior(conf.level = 0.95, likelihood = "poisson", method = "default") expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 1) prior <- auditPrior(conf.level = 0.95, likelihood = "hypergeometric", method = "default", N.units = 3500) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 1) }) test_that(desc = "(id: f2-v0.1.0-t2) Test for method = 'impartial'", { prior <- auditPrior(conf.level = 0.95, likelihood = "binomial", method = "impartial", materiality = 0.05) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 13.51341, tolerance = 0.001) prior <- auditPrior(conf.level = 0.95, likelihood = "binomial", method = "impartial", expected = 0.02, materiality = 0.05) expect_equal(prior[["description"]]$alpha, 1.4114, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 21.1586, tolerance = 0.001) prior <- auditPrior(conf.level = 0.95, likelihood = "poisson", method = "impartial", materiality = 0.05) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 13.86294, tolerance = 0.001) }) test_that(desc = "(id: f2-v0.1.0-t3) Test for method = 'hyp'", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "hyp", likelihood = "binomial", p.hmin = 0.3) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 6.954, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "hyp", likelihood = "binomial", p.hmin = 1 - 0.3) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 23.47232, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "hyp", likelihood = "poisson", p.hmin = 0.3) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 7.133, tolerance = 0.001) }) test_that(desc = "(id: f2-v0.1.0-t4) Test for method = 'arm'", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "arm", likelihood = "binomial", ir = 0.6, cr = 0.6) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 20, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "arm", likelihood = "poisson", ir = 0.6, cr = 0.6) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 20, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "arm", likelihood = "hypergeometric", ir = 0.6, cr = 0.6, N.units = 3500) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 19, tolerance = 0.001) }) test_that(desc = "(id: f2-v0.1.0-t5) Test for method = 'sample'", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "sample", likelihood = "binomial", n = 30, x = 1) expect_equal(prior[["description"]]$alpha, 2) expect_equal(prior[["description"]]$beta, 29) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "sample", likelihood = "poisson", n = 30, x = 1) expect_equal(prior[["description"]]$alpha, 2) expect_equal(prior[["description"]]$beta, 30) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "sample", likelihood = "hypergeometric", n = 30, x = 1, N.units = 3500) expect_equal(prior[["description"]]$alpha, 2) expect_equal(prior[["description"]]$beta, 29) }) test_that(desc = "(id: f2-v0.1.0-t6) Test for method = 'factor'", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "factor", likelihood = "binomial", n = 30, x = 1, factor = 0.6) expect_equal(prior[["description"]]$alpha, 1.6, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 17.4, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "factor", likelihood = "poisson", n = 30, x = 1, factor = 0.6) expect_equal(prior[["description"]]$alpha, 1.6, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 18, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "factor", likelihood = "hypergeometric", n = 30, x = 1, N.units = 3500, factor = 0.6) expect_equal(prior[["description"]]$alpha, 1.6, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 17.4, tolerance = 0.001) }) # jfa version 0.3.0 - 0.3.1 # No changes to be benchmarked # jfa version 0.4.0 test_that(desc = "(id: f2-v0.4.0-t1) Test for method = 'impartial' with expected errors > 0", { prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "impartial", likelihood = "binomial", expected = 0.01) expect_equal(prior[["description"]]$alpha, 1.1554, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 16.3846, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "impartial", likelihood = "binomial", expected = 0.025) expect_equal(prior[["description"]]$alpha, 1.6146, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 24.9694, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "impartial", likelihood = "poisson", expected = 0.01) expect_equal(prior[["description"]]$alpha, 1.1722, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 17.22, tolerance = 0.001) prior <- auditPrior(materiality = 0.05, conf.level = 0.95, method = "impartial", likelihood = "poisson", expected = 0.025) expect_equal(prior[["description"]]$alpha, 1.681, tolerance = 0.001) expect_equal(prior[["description"]]$beta, 27.24, tolerance = 0.001) }) # jfa version 0.5.0 test_that(desc = "(id: f2-v0.5.0-t1) Test for summary and print function", { testthat::skip_on_cran() prior <- auditPrior(conf.level = 0.95, likelihood = "binomial", method = "default") invisible(capture.output(print(prior))) invisible(capture.output(summary(prior))) expect_equal(prior[["description"]]$alpha, 1) expect_equal(prior[["description"]]$beta, 1) }) test_that(desc = "(id: f2-v0.5.0-t2) Test for plot function", { testthat::skip_on_cran() prior <- auditPrior(conf.level = 0.95, likelihood = "binomial", method = "default", materiality = 0.05) p <- plot(prior) expect_equal(is.null(prior), FALSE) prior <- auditPrior(conf.level = 0.95, likelihood = "hypergeometric", method = "default", N.units = 1000) p <- plot(prior) expect_equal(is.null(prior), FALSE) prior <- auditPrior(conf.level = 0.95, likelihood = "poisson", method = "default", materiality = 0.05) p <- plot(prior) expect_equal(is.null(prior), FALSE) }) # jfa version 0.5.1 - 0.5.2 # No changes to be benchmarked # jfa version 0.5.3 test_that(desc = "(id: f2-v0.5.3-t1) Test for bram method binomial", { testthat::skip_on_cran() N <- 20000 materiality <- 2000 expectedMisstatement <- 300 expectedUpperBound <- 5000 ub <- expectedUpperBound / N theta <- materiality / N expected <- expectedMisstatement / N prior <- auditPrior(conf.level = 0.95, materiality = theta, likelihood = "binomial", method = "bram", expected = expected, ub = ub) expect_equal(prior[["description"]]$alpha, 1.1581) expect_equal(prior[["description"]]$beta, 11.3819) }) test_that(desc = "(id: f2-v0.5.3-t2) Test for bram method poisson", { testthat::skip_on_cran() N <- 20000 materiality <- 2000 expectedMisstatement <- 300 expectedUpperBound <- 5000 ub <- expectedUpperBound / N theta <- materiality / N expected <- expectedMisstatement / N prior <- auditPrior(conf.level = 0.95, materiality = theta, likelihood = "poisson", method = "bram", expected = expected, ub = ub) expect_equal(prior[["description"]]$alpha, 1.20259, tolerance = 0.00001) expect_equal(prior[["description"]]$beta, 13.50597, tolerance = 0.00001) }) # jfa version 0.5.4 - 0.5.7 # No changes to be benchmarked # jfa version 0.6.0 test_that(desc = "(id: f2-v0.6.0-t1) Test for param method binomial", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, likelihood = "binomial", method = "param", alpha = 5, beta = 10) expect_equal(prior[["description"]]$alpha, 5) expect_equal(prior[["description"]]$beta, 10) }) test_that(desc = "(id: f2-v0.6.0-t2) Test for param method poisson", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, likelihood = "poisson", method = "param", alpha = 5, beta = 10) expect_equal(prior[["description"]]$alpha, 5) expect_equal(prior[["description"]]$beta, 10) }) test_that(desc = "(id: f2-v0.6.0-t1) Test for param method hypergeometric", { testthat::skip_on_cran() prior <- auditPrior(materiality = 0.05, likelihood = "hypergeometric", method = "param", alpha = 5, beta = 10, N = 100) expect_equal(prior[["description"]]$alpha, 5) expect_equal(prior[["description"]]$beta, 10) }) # jfa 0.6.1 - 0.6.4 # No changes to be benchmarked