prt <- read.table(header = TRUE, text = ' sex internship enrollment count 1 boys yes yes 35 2 boys no yes 14 3 girls yes yes 32 4 girls no yes 53 5 boys yes no 29 6 boys no no 27 7 girls yes no 10 8 girls no no 23') adsl <- read.table(header = TRUE, text = ' SUBJID ARM SEX RACE AGE AGEGR1 "001" "ARM A" "F" "WHITE" 19 "18-29 years" "002" "ARM B" "F" "WHITE" 21 "18-29 years" "003" "ARM C" "F" "WHITE" 23 "18-29 years" "004" "ARM D" "F" "BLACK OR AFRICAN AMERICAN" 28 "18-29 years" "005" "ARM A" "M" "WHITE" 37 "30-39 years" "006" "ARM B" "M" "WHITE" 34 "30-39 years" "007" "ARM C" "M" "WHITE" 36 "30-39 years" "008" "ARM D" "M" "WHITE" 30 "30-39 years" "009" "ARM A" "F" "WHITE" 39 "30-39 years" "010" "ARM B" "F" "WHITE" 31 "30-39 years" "011" "ARM C" "F" "BLACK OR AFRICAN AMERICAN" 33 "30-39 years" "012" "ARM D" "F" "WHITE" 38 "30-39 years" "013" "ARM A" "M" "BLACK OR AFRICAN AMERICAN" 37 "30-39 years" "014" "ARM B" "M" "WHITE" 34 "30-39 years" "015" "ARM C" "M" "WHITE" 36 "30-39 years" "016" "ARM A" "M" "WHITE" 40 "40-49 years"') # data Migraine; # input Gender $ Treatment $ Response $ Count @@; # datalines; # female Active Better 16 female Active Same 11 # female Placebo Better 5 female Placebo Same 20 # male Active Better 12 male Active Same 16 # male Placebo Better 7 male Placebo Same 19 # ; migraine <- read.table(header = TRUE, text = ' Gender Treatment Response Count female Active Better 16 female Active Same 11 female Placebo Better 5 female Placebo Same 20 male Active Better 12 male Active Same 16 male Placebo Better 7 male Placebo Same 19') test_that("stats1: Standard error works.", { dt <- c(4, -1, 7, -4, 6, 8, 10) res <- get_stderr(dt) res expect_equal(res, 1.9112983) }) test_that("stats2: CLM works.", { dt <- c(4, -1, 7, -4, 6, 8, 10) # 95% limit res <- get_clm(dt, alpha = .05) res expect_equal(res[["ucl"]], 8.9624928) expect_equal(res[["lcl"]], -0.3910642) # 90% limit res <- get_clm(dt, alpha = 0.1) res expect_equal(res[["ucl"]], 7.9997115) expect_equal(res[["lcl"]], 0.5717171) }) test_that("stats3: getmode works.", { dt <- c(4, 3, 7, 4, 3, 3, 10) res <- get_mode(dt) expect_equal(res, 3) dt <- c("a", "c", "b", "a", "c", "c", "d") res <- get_mode(dt) expect_equal(res, "c") }) test_that("stats4: CLM works with NA.", { dt <- c(4, -1, 7, -4, NA, 8, 10) res <- get_clm(dt, TRUE) res expect_equal(res[["ucl"]], 9.7479957) expect_equal(res[["lcl"]], -1.74799573) }) # Matches SAS! test_that("stat5: chisq works no weight uncorrected", { res <- get_chisq(prt$enrollment, prt$internship) res expect_equal(res[1, 2], 0) expect_equal(res[2, 2], 1) expect_equal(res[3, 2], 1) }) # Matches SAS! test_that("stat6: chisq works with weight uncorrected", { res <- get_chisq(prt$internship, prt$enrollment, prt$count) res expect_equal(res[1, 2], 0.8189423) expect_equal(res[2, 2], 1) expect_equal(res[3, 2], 0.365489592) }) test_that("stat7: chisq works with weight corrected", { res <- get_chisq(prt$internship, prt$enrollment, prt$count, TRUE) res expect_equal(res[1, 2], 0.58989261) expect_equal(res[2, 2], 1) expect_equal(res[3, 2], 0.44246065) }) # Matches SAS! test_that("stat8: fisher works no weight", { res <- get_fisher(prt$enrollment, prt$internship) res expect_equal(res[1, 2], 2) expect_equal(res[2, 2], 0.75714286) expect_equal(res[3, 2], 0.75714286) expect_equal(res[4, 2], 1) }) # Matches SAS! test_that("stat9: fisher works with weight", { res <- get_fisher(prt$internship, prt$enrollment, prt$count) res expect_equal(res[1, 2], 50) expect_equal(res[2, 2], 0.85127668) expect_equal(res[3, 2], 0.22133142) expect_equal(res[4, 2], 0.41215159) }) # test_that("stat10: aov works with one class without weight", { # # # # res <- get_aov(adsl, "AGE", "ARM", output = TRUE) # # # res # # expect_equal(res$AOV.F[1], 0.29836512) # expect_equal(res$AOV.P[1], 0.82594862) # # res <- get_aov(adsl, "AGE", "ARM", output = FALSE) # # # res # # # proc_print(res) # # expect_equal(res$AOV.F[1], 0.29836512) # expect_equal(res$AOV.P[1], 0.82594862) # # # }) # # test_that("stat11: aov works with 2 classes without weight", { # # # # res <- get_aov(adsl, "AGE", c("SEX", "ARM"), output = TRUE) # # res # expect_equal(res$AOV.F[1], 4.3420586) # expect_equal(res$AOV.P[1], 0.061298422) # # # res <- get_aov(adsl, "AGE", c("SEX", "ARM"), output = FALSE) # # # res # # # proc_print(res) # # expect_equal(res$AOV.F[1], 4.3420586) # expect_equal(res$AOV.P[1], 0.061298422) # # # }) test_that("stat12: get_t() works as expected.", { dt <- c(-10, -21, -12, -5, 1, -70, -41, -24) res <- get_t(dt) res expect_equal(res[["T"]], -2.78847393) expect_equal(res[["PRT"]], 0.026967454) expect_equal(res[["DF"]], 7.00000000) dt <- c(-10, -21, -12, -5, 1, -70, -41, -24) # Change in alpha does not change t test results res <- get_t(dt, alpha = 0.1) res expect_equal(res[["T"]], -2.78847393) expect_equal(res[["PRT"]], 0.026967454) expect_equal(res[["DF"]], 7.00000000) }) test_that("stat13: get_skewness() works as expected.", { d <- c(27, 32, 46, 38, 23, 51, 19, 57, 33, 62, 26, 43, 28, 69, 55, 28, 42, 36, 27, 62) res <- get_skewness(d) expect_equal(res, 0.49070401) }) test_that("stat14: get_kurtosis() works as expected.", { d <- c(27, 32, 46, 38, 23, 51, 19, 57, 33, 62, 26, 43, 28, 69, 55, 28, 42, 36, 27, 62) res <- get_kurtosis(d) expect_equal(res, -0.96131045) }) # Matches SAS? # test_that("stat10: cmh works no weight uncorrected", { # # # res <- get_cmh(prt$enrollment, prt$internship) # # res # # prt # # mantelhaen.test(migraine$Gender, migraine$Treatment, migraine$Response) # # sasLM::ORcmh( # # res <- mantelhaen.test(prt$sex, prt$enrollment, prt$internship) # # # # expect_equal(res[1, 2], 0) # # expect_equal(res[2, 2], 1) # # expect_equal(res[3, 2], 1) # # }) # Matches SAS? # test_that("stat11: cmh works with weight uncorrected", { # # res <- get_chisq(prt$internship, prt$enrollment, prt$count) # # res # # # expect_equal(res[1, 2], 0.8189423) # # expect_equal(res[2, 2], 1) # # expect_equal(res[3, 2], 0.365489592) # # # # })