tmp = tsk("iris", id = "iris_small")$select("Sepal.Length") tasks = c(mlr_tasks$mget(c("iris", "sonar")), list(tmp)) learners = mlr_learners$mget(c("classif.featureless", "classif.rpart")) resamplings = rsmp("cv", folds = 3) design = benchmark_grid(tasks, learners, resamplings) bmr = benchmark(design) test_that("Basic benchmarking", { expect_benchmark_result(bmr) expect_names(names(as.data.table(bmr)), permutation.of = c(mlr_reflections$rr_names, "uhash")) tab = as.data.table(bmr) expect_data_table(tab, nrows = 18L, ncols = 6L) expect_names(names(tab), permutation.of = c("uhash", mlr_reflections$rr_names)) measures = list(msr("classif.acc")) tab = bmr$score(measures, ids = FALSE) expect_data_table(tab, nrows = 18L, ncols = 7L + length(measures)) expect_names(names(tab), must.include = c("nr", "uhash", mlr_reflections$rr_names, ids(measures))) expect_list(tab$prediction, "Prediction") tab = bmr$tasks expect_data_table(tab, nrows = 3L, any.missing = FALSE) expect_names(names(tab), identical.to = c("task_hash", "task_id", "task")) expect_hash(tab$task_hash, len = 3L) tab = bmr$learners expect_data_table(tab, nrows = 2L, any.missing = FALSE) expect_names(names(tab), identical.to = c("learner_hash", "learner_id", "learner")) expect_hash(tab$learner_hash, len = 2L) qexpectr(map(tab$learner, "state"), "0") tab = bmr$resamplings expect_data_table(tab, nrows = 3L, any.missing = FALSE) expect_names(names(tab), permutation.of = c("resampling_hash", "resampling", "resampling_id")) expect_hash(tab$resampling_hash, len = 3L) tab = bmr$aggregate(measures) expect_data_table(tab, nrows = 6L) expect_names(names(tab), type = "unique", identical.to = c("nr", "resample_result", "task_id", "learner_id", "resampling_id", "iters", ids(measures))) m = measures[[1L]] expect_numeric(tab[[m$id]], any.missing = FALSE, lower = m$range[1], upper = m$range[2]) }) test_that("ResampleResult / hash", { m = msr("classif.ce") aggr = bmr$aggregate(m, uhashes = TRUE) nr = aggr$nr expect_integer(nr, len = 6L, any.missing = FALSE, unique = TRUE) for (i in nr) { rr = aggr$resample_result[[i]] expect_resample_result(rr) expect_equal(unname(rr$aggregate(m)), aggr[["classif.ce"]][i]) expect_equal(bmr$uhashes[i], rr$uhash) } }) test_that("discarding model", { bmr2 = benchmark(benchmark_grid(tasks[1L], learners[1L], resamplings), store_models = FALSE) expect_benchmark_result(bmr2) expect_true(every(map(as.data.table(bmr2)$learner, "model"), is.null)) bmr2 = benchmark(benchmark_grid(tasks[1L], learners[1L], resamplings), store_models = TRUE) expect_benchmark_result(bmr2) expect_false(every(map(as.data.table(bmr2)$learner, "model"), is.null)) }) test_that("bmr$combine()", { bmr_new = benchmark(benchmark_grid(mlr_tasks$mget("pima"), learners, resamplings)) combined = list( bmr$clone(deep = TRUE)$combine(bmr_new), c(bmr, bmr_new) ) for (bmr_combined in combined) { expect_benchmark_result(bmr) expect_benchmark_result(bmr_new) expect_benchmark_result(bmr_combined) expect_data_table(get_private(bmr)$.data$data$fact, nrows = 18L) expect_data_table(get_private(bmr_new)$.data$data$fact, nrows = 6L) expect_data_table(get_private(bmr_combined)$.data$data$fact, nrows = 24L) expect_false("pima" %in% bmr$tasks$task_id) expect_true("pima" %in% bmr_new$tasks$task_id) expect_true("pima" %in% bmr_combined$tasks$task_id) } rr = resample(tsk("zoo"), lrn("classif.rpart"), rsmp("holdout")) bmr2 = c(combined[[1]], rr) expect_benchmark_result(bmr2) expect_data_table(get_private(bmr2)$.data$data$fact, nrows = 25L) }) test_that("empty bmr", { bmr_new = BenchmarkResult$new() expect_benchmark_result(bmr_new) bmr_new$combine(NULL) expect_benchmark_result(bmr_new) bmr_new$combine(bmr) expect_benchmark_result(bmr_new) expect_data_table(get_private(bmr_new)$.data$data$fact, nrows = nrow(get_private(bmr)$.data)) }) test_that("bmr$resample_result()", { uhashes = bmr$uhashes expect_resample_result(bmr$resample_result(1L)) expect_resample_result(bmr$resample_result(uhash = uhashes[1])) expect_error(bmr$resample_result(0)) expect_error(bmr$resample_result(100)) expect_error(bmr$resample_result(uhash = "a")) expect_error(bmr$resample_result(i = 1, uhash = uhashes[1])) }) test_that("inputs are cloned", { task = tsk("iris") learner = lrn("classif.featureless") resampling = rsmp("holdout") expect_error(benchmark(data.table(task = list(task), learner = list(learner), resampling = list(resampling))), "instantiated") bmr = benchmark(design = data.table(task = list(task), learner = list(learner), resampling = list(resampling$instantiate(task)))) rr = bmr$resample_result(1) expect_different_address(task, rr$task) expect_different_address(learner, get_private(rr)$.data$data$learner_components$learner[[1L]]) expect_different_address(resampling, rr$resampling) }) test_that("memory footprint", { expect_equal(uniqueN(map_chr(design$task, address)), 3L) expect_equal(uniqueN(map_chr(design$learner, address)), 2L) expect_equal(uniqueN(map_chr(design$resampling, address)), 3L) x = as.data.table(bmr) expect_equal(uniqueN(map_chr(x$task, address)), 3L) expect_equal(uniqueN(map_chr(x$learner, address)), 18L) expect_equal(uniqueN(map_chr(x$resampling, address)), 3L) }) test_that("multiple measures", { tasks = list(tsk("iris"), tsk("sonar")) learner = lrn("classif.featureless") measures = list(msr("classif.ce"), msr("classif.acc")) bmr = benchmark(design = benchmark_grid(tasks, learner, rsmp("cv", folds = 3))) expect_subset(c("classif.ce", "classif.acc"), names(bmr$aggregate(measures))) }) test_that("predict_type is checked", { task = tsk("sonar") learner = lrn("classif.featureless") resampling = rsmp("cv", folds = 3L) design = benchmark_grid(task, learner, resampling) bmr = benchmark(design) expect_error(bmr$aggregate("classif.auc", "predict_type")) }) test_that("custom resampling (#245)", { task_boston = tsk("boston_housing") lrn = lrn("regr.featureless") rdesc = rsmp("custom") train_sets = list((1:200), (1:300), (1:400)) test_sets = list((201:301), (301:401), (401:501)) rdesc$instantiate(task_boston, train_sets, test_sets) expect_resample_result(mlr3::resample(task_boston, lrn, rdesc)) design = data.table(task = list(task_boston), learner = list(lrn), resampling = list(rdesc)) bmr = benchmark(design) expect_benchmark_result(bmr) # Issue #451 design = benchmark_grid(tasks = task_boston, learners = lrn, resamplings = rdesc) expect_data_table(design, nrows = 1) }) test_that("extract params", { # some params, some not lrns = list( lrn("classif.rpart", id = "rp1", xval = 0), lrn("classif.rpart", id = "rp2", xval = 0, cp = 0.2, minsplit = 2), lrn("classif.rpart", id = "rp3", xval = 0, cp = 0.1) ) bmr = benchmark(benchmark_grid(tsk("wine"), lrns, rsmp("cv", folds = 3))) aggr = bmr$aggregate(params = TRUE) setorder(aggr, "learner_id") expect_list(aggr$params[[1]], names = "unique", len = 1L) expect_list(aggr$params[[2]], names = "unique", len = 3L) expect_list(aggr$params[[3]], names = "unique", len = 2L) scores = bmr$score() pvs = map(scores$learner, function(l) l$param_set$values) expect_true(all(sapply(split(lengths(pvs), scores$nr), uniqueN) == 1)) expect_set_equal(lengths(pvs), 1:3) # only one params lrns = mlr_learners$mget("classif.featureless") bmr = benchmark(benchmark_grid(tsk("wine"), lrns, rsmp("cv", folds = 3))) aggr = bmr$aggregate(params = TRUE) expect_list(aggr$params[[1]], names = "unique", len = 1L) # no params lrns = mlr_learners$mget("classif.debug") lrns$classif.debug$param_set$values = list() bmr = benchmark(benchmark_grid(tsk("wine"), lrns, rsmp("cv", folds = 3))) aggr = bmr$aggregate(params = TRUE) expect_list(aggr$params[[1]], names = "unique", len = 0L) expect_true(all(c("warnings", "errors") %in% names(bmr$score(conditions = TRUE)))) }) test_that("benchmark_grid", { learner = lrn("classif.rpart") tasks = tsks(c("iris", "iris")) resamp = rsmp("cv")$instantiate(tasks[[1]]) expect_data_table(benchmark_grid(tasks, learner, resamp)) tasks = tsks(c("iris", "sonar")) resamp = rsmp("cv")$instantiate(tasks[[1]]) expect_error(benchmark_grid(tasks, learner, resamp), "rows") }) test_that("filter", { tasks = lapply(c("iris", "sonar"), tsk) learners = lapply(c("classif.featureless", "classif.rpart"), lrn) resamplings = list(rsmp("cv", folds = 3), rsmp("holdout")) design = benchmark_grid(tasks, learners, resamplings) bmr = benchmark(design) expect_data_table(get_private(bmr)$.data$data$fact, nrows = 16) bmr$filter(task_ids = "sonar") expect_data_table(get_private(bmr)$.data$data$fact, nrows = 8) expect_resultdata(get_private(bmr)$.data, TRUE) bmr$filter(learner_ids = "classif.rpart") expect_data_table(get_private(bmr)$.data$data$fact, nrows = 4) expect_resultdata(get_private(bmr)$.data, TRUE) bmr$filter(resampling_ids = "cv") expect_data_table(get_private(bmr)$.data$data$fact, nrows = 3) expect_resultdata(get_private(bmr)$.data, TRUE) expect_benchmark_result(bmr) }) test_that("aggregated performance values are calculated correctly (#555)", { task = tsk("spam") learner1 = lrn("classif.featureless") learner2 = lrn("classif.rpart") resampling = rsmp("subsampling", repeats = 2) design = benchmark_grid(task, list(learner1, learner2), resampling) bmr = benchmark(design = design, store_models = TRUE) y = bmr$aggregate()$classif.ce expect_gt(y[1], y[2]) y = c( bmr$resample_result(1)$aggregate(msr("classif.ce")), bmr$resample_result(2)$aggregate(msr("classif.ce")) ) expect_gt(y[1], y[2]) }) test_that("save/load roundtrip", { path = tempfile() saveRDS(bmr, file = path) bmr2 = readRDS(path) expect_benchmark_result(bmr2) }) test_that("debug branch", { tmp = tsk("iris", id = "iris_small")$select("Sepal.Length") tasks = c(mlr_tasks$mget(c("iris", "sonar")), list(tmp)) learners = mlr_learners$mget(c("classif.featureless", "classif.rpart")) resamplings = rsmp("cv", folds = 2) design = benchmark_grid(tasks, learners, resamplings) bmr = invoke(benchmark, design, .opts = list(mlr3.debug = TRUE)) expect_benchmark_result(bmr) }) test_that("encapsulatiion", { learners = list(lrn("classif.debug", error_train = 1), lrn("classif.rpart")) grid = benchmark_grid(tasks, learners, resamplings) expect_error(benchmark(grid), "classif.debug->train()") bmr = benchmark(grid, encapsulate = "evaluate") aggr = bmr$aggregate(conditions = TRUE) expect_true(all(aggr[learner_id == "classif.debug", errors] == 3L)) expect_true(all(aggr[learner_id != "classif.debug", errors] == 0L)) for (learner in bmr$learners$learner) { expect_class(learner$fallback, "LearnerClassifFeatureless") expect_equal(learner$encapsulate[["train"]], "evaluate") expect_equal(learner$encapsulate[["predict"]], "evaluate") } }) test_that("disable cloning", { grid = benchmark_grid( tasks = tsk("iris"), learners = lrn("classif.featureless"), resamplings = rsmp("holdout") ) task = grid$task[[1L]] learner = grid$learner[[1L]] resampling = grid$resampling[[1L]] bmr = benchmark(grid, clone = c()) expect_same_address(task, bmr$tasks$task[[1]]) expect_same_address(learner, get_private(bmr)$.data$data$learners$learner[[1]]) expect_same_address(resampling, bmr$resamplings$resampling[[1]]) expect_identical(task$hash, bmr$tasks$task[[1]]$hash) expect_identical(learner$hash, bmr$learners$learner[[1]]$hash) expect_identical(resampling$hash, bmr$resamplings$resampling[[1]]$hash) }) test_that("task and learner assertions", { grid = benchmark_grid( tasks = tsks(c("iris", "boston_housing")), learners = lrn("classif.rpart"), resamplings = rsmp("holdout") ) expect_error(benchmark(grid), "task types") grid = benchmark_grid( tasks = tsk("iris"), learners = lrns(c("classif.rpart", "regr.rpart")), resamplings = rsmp("holdout") ) expect_error(benchmark(grid), "learner types") grid = benchmark_grid( tasks = tsk("iris"), learners = lrn("regr.rpart"), resamplings = rsmp("holdout") ) expect_error(benchmark(grid), "not match type") }) test_that("benchmark_grid works if paired = TRUE", { tasks = mlr3::tsks(c("pima", "iris")) learners = lrns(c("classif.featureless", "classif.rpart")) resampling = rsmp("cv") resamplings = pmap( list(tasks, rsmps(c("cv", "holdout"))), function(task, resampling) resampling$instantiate(task) ) design = benchmark_grid(tasks, learners, resamplings, paired = TRUE) expect_class(design, "benchmark_grid") # design[, identical(task), by = task]] # expect(identical(design$resampling[class(learner)[[1]] ==)])) expect_true(nrow(design) == 4L) # expect_true(identical(design$task[[1]], design$task[[2]])) expect_true(identical(design$task[[3]], design$task[[4]])) expect_false(identical(design$task[[1]], design$task[[3]])) expect_true(identical(design$resampling[[1]], design$resampling[[2]])) expect_true(identical(design$resampling[[3]], design$resampling[[4]])) expect_false(identical(design$resampling[[1]], design$resampling[[3]])) expect_true(identical(design$learner[[1]], design$learner[[3]])) expect_true(identical(design$learner[[2]], design$learner[[4]])) expect_false(identical(design$learner[[2]], design$learner[[3]])) # Resamplings must be instantiated tasks = tsks(c("pima", "iris")) learners = lrns(c("classif.featureless", "classif.rpart")) resamplings = mlr3::rsmps(c("cv", "holdout")) expect_error(benchmark_grid(tasks, learners, resamplings, paired = TRUE)) # Resamplings and tasks must have the same length tasks = tsks(c("pima", "iris")) learners = lrns(c("classif.featureless", "classif.rpart")) resamplings = pmap( list(tasks, mlr3::rsmps(c("cv", "holdout"))), function(task, resampling) resampling$instantiate(task) ) resamplings = c(resamplings, resamplings) expect_error(benchmark_grid(tasks, learners, resamplings, paired = TRUE)) # Resamplings and tasks must have corresponding hashes tasks = tsks(c("pima", "iris")) learners = lrns(c("classif.featureless", "classif.rpart")) resamplings = pmap( list(tasks, mlr3::rsmps(c("cv", "holdout"))), function(task, resampling) resampling$instantiate(task) ) resamplings = rev(resamplings) expect_error(benchmark_grid(tasks, learners, resamplings, paired = TRUE)) }) test_that("param_values in benchmark", { # setup tasks = tsks("iris") resamplings = list(rsmp("cv", folds = 3)$instantiate(tasks[[1]])) learners = lrns("classif.debug") # single parameter set via manual design design = data.table(task = tasks, learner = learners, resampling = resamplings, param_values = list(list(list(x = 1)))) bmr = benchmark(design) expect_benchmark_result(bmr) expect_equal(bmr$n_resample_results, 1) expect_equal(nrow(as.data.table(bmr)), 3) learner = bmr$learners$learner[[1]] expect_equal(learner$param_set$values$x, 1) expect_equal(nrow(as.data.table(bmr)), 3) # multiple parameters set via manual design design = data.table(task = tasks, learner = learners, resampling = resamplings, param_values = list(list(list(x = 1), list(x = 0.5)))) bmr = benchmark(design) expect_benchmark_result(bmr) expect_equal(bmr$n_resample_results, 2) expect_equal(nrow(as.data.table(bmr)), 6) learner = bmr$learners$learner[[1]] expect_equal(learner$param_set$values$x, 1) learner = bmr$learners$learner[[2]] expect_equal(learner$param_set$values$x, 0.5) # benchmark grid does not attach param_values if empty design = benchmark_grid(tasks, learners, resamplings) expect_names(names(design), permutation.of = c("task", "learner", "resampling")) # benchmark grid with param_values design = benchmark_grid(tasks, learners, resamplings, param_values = list(list(list(x = 1)))) expect_data_table(design, nrows = 1) expect_names(names(design), permutation.of = c("task", "learner", "resampling", "param_values")) bmr = benchmark(design) expect_benchmark_result(bmr) # benchmark grid with param_values and paired = TRUE design = benchmark_grid(tasks, learners, resamplings, param_values = list(list(list(x = 1))), paired = TRUE) expect_data_table(design, nrows = 1) bmr = benchmark(design) expect_benchmark_result(bmr) expect_equal(bmr$n_resample_results, 1) # benchmark grid with multiple params design = benchmark_grid(tasks, learners, resamplings, param_values = list(list(list(x = 1), list(x = 0.5)))) expect_data_table(design, nrows = 1) bmr = benchmark(design) expect_benchmark_result(bmr) expect_equal(bmr$n_resample_results, 2) # benchmark grid with multiple params and multiple learners design = benchmark_grid(tasks, lrns(c("classif.debug", "classif.debug")), rsmp("holdout"), param_values = list(list(list(x = 1), list(x = 0.5)), list())) bmr = benchmark(design) expect_benchmark_result(bmr) expect_equal(bmr$n_resample_results, 3) # constant values are inserted learners = lrns("classif.rpart", minsplit = 12) design = data.table(task = tasks, learner = learners, resampling = resamplings, param_values = list(list(list(cp = 0.1), list(minbucket = 2)))) bmr = benchmark(design) expect_equal(bmr$learners$learner[[1]]$param_set$values, list(xval = 0, minsplit = 12, minbucket = 2)) expect_equal(bmr$learners$learner[[2]]$param_set$values, list(xval = 0, minsplit = 12, cp = 0.1)) })