# .gencat ---- test_that(".gencat throws errors", { skip_on_cran() expect_error(.gencat( n = n, formula = "1;", variance = NULL, link = "identity", envir = emptyenv() ), "two probabilities") expect_error(.gencat( n = n, formula = "1; ", variance = NULL, link = "identity", envir = emptyenv() ), "two probabilities") expect_error(.gencat( n = 10, formula = ".5;.5", variance = "a;", link = "identity", envir = emptyenv() ), class = "simstudy::lengthMismatch") }) test_that("categorical data is generated as expected.", { skip_on_cran() expect_type(.gencat( n = 10, formula = genCatFormula(n = 3), variance = "a;b;c", link = "identity", envir = emptyenv() ), "character") expect_type(.gencat( n = 10, formula = genCatFormula(n = 3), variance = "a;2;c", link = "identity", envir = emptyenv() ), "character") expect_true(is.numeric(.gencat( n = 10, formula = genCatFormula(n = 3), variance = "1;2;3", link = "identity", envir = emptyenv() ))) }) # .genunif ---- test_that("unif data is generated as expected.", { skip_on_cran() n <- 20 def <- defData(varname = "test", formula = 5, dist = "nonrandom") def <- defData(def, varname = "test2", formula = "test + 3", dist = "normal") dt <- genData(n, def) dterr <- genData(n - 5, def) expect_error(.genunif(n, "test;test2", dterr, environment()), "Length mismatch") expect_length(.genunif(n, "test;test2", dt, environment()), n) expect_true(all(!is.na(.genunif(n, "test;test2", dt, environment())))) expect_length(.genunif(n, "1.3;100.2", dt, environment()), n) }) test_that("'uniform' formula checked correctly", { skip_on_cran() forall( generate(for (x in list( range = gen_uniform_range(), n = gen.int(40) )) { x }), function(x) { expect_silent(defData(varname = "z", formula = x$range, dist = "uniform")) } ) expect_error(defData(varname = "z", formula = NULL, dist = "uniform", "format")) expect_error(defData(varname = "z", formula = "1;2;3", dist = "uniform"), "format") def <- defData(varname = "z", formula = "2;1", dist = "uniform") expect_error(genData(5, def), "Formula invalid: 'max' < 'min'") def <- defData(varname = "z", formula = "2;2", dist = "uniform") expect_warning(genData(5, def), "'min' and 'max' are equal") }) # .genUnifInt ---- test_that("unifInt data is generated as expected.", { skip_on_cran() n <- 20 def <- defData(varname = "test", formula = 5, dist = "nonrandom") def <- defData(def, varname = "test2", formula = "test + 3", dist = "normal") dt <- genData(n, def) dt$test2 <- ceiling(dt$test2) expect_length(.genUnifInt(n, "test;test2", dt, environment()), n) expect_true(all(!is.na(.genUnifInt(n, "test;test2", dt, environment())))) expect_length(.genUnifInt(n, "1;100", dt, environment()), n) }) test_that("'uniformInt' formula checked correctly", { skip_on_cran() forall( generate(for (x in list( range = gen_uniformInt_range(), n = gen.int(40) )) { x }), function(x) { expect_silent(.genUnifInt(x$n, x$range, NULL, environment())) } ) expect_error(.genUnifInt(3, "1.1;2.4", NULL, environment()), "must be integer") }) # .genmixture ---- test_that("mixtures are generated correctly", { skip_on_cran() def <- defData(varname = "a", formula = 5) def <- defData(def, varname = "blksize", formula = "..sizes[1] | .5 + ..sizes[2] * a/10 | .5", dist = "mixture" ) sizes <- c(2, 4) env <- environment() expect_silent(genData(1000, def, envir = env)) }) test_that("runif throws errors", { skip_on_cran() expect_error(defData(varname = "u", formula = "5", dist = "uniform")) }) test_that("treatment assignment data is generated as expected.",{ skip_on_cran() n <- 100 def <- defData(varname = "grp", formula = .5, dist = "binary") dt <- genData(n, def) expect_silent(.genAssign(dt, balanced = "identity", strata = 0, grpName = "rx", ratio = "1;1")) expect_silent(.genAssign(dt, balanced = "identity", strata = "grp", grpName = "rx", ratio = "1;1")) expect_silent(.genAssign(dt, balanced = "identity", strata = "grp", grpName = "rx", ratio = 4)) } ) # .genclustsize ---- test_that("clusterSize data is generated as expected.", { skip_on_cran() n <- sample(10:50, 1) tot <- sample(100:1000, 1) def <- defData(varname = "test", formula = tot, dist = "clusterSize") dt1 <- genData(n, def) def <- defData(varname = "test", formula = tot, variance = .05, dist = "clusterSize") dt2 <- genData(n, def) expect_equal(dt1[, sum(test)], tot) expect_equal(dt2[, sum(test)], tot) expect_true(dt2[, var(test)] > dt1[, var(test)]) })