skip_on_cran() # lm_numeric with different approaches test_that("output_lm_numeric_independence_reach_exact", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "independence", phi0 = p0, seed = 1, iterative = TRUE, verbose = c("basic", "convergence", "shapley") ), "output_lm_numeric_independence_reach_exact" ) }) test_that("output_lm_numeric_independence_converges_tol", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "independence", phi0 = p0, seed = 1, iterative_args = list( initial_n_coalitions = 10, convergence_tol = 0.1 ), iterative = TRUE, verbose = c("convergence", "shapley") ), "output_lm_numeric_independence_converges_tol" ) }) test_that("output_lm_numeric_independence_converges_maxit", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "independence", phi0 = p0, seed = 1, iterative_args = list( initial_n_coalitions = 10, convergence_tol = 0.001, n_coal_next_iter_factor_vec = rep(10^(-5), 10), max_iter = 8 ), iterative = TRUE, verbose = c("convergence", "shapley") ), "output_lm_numeric_independence_converges_maxit" ) }) test_that("output_lm_numeric_indep_conv_max_n_coalitions", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "independence", phi0 = p0, seed = 1, max_n_coalitions = 20, iterative = TRUE, verbose = c("convergence", "shapley") ), "output_lm_numeric_indep_conv_max_n_coalitions" ) }) test_that("output_lm_numeric_gaussian_group_converges_tol", { groups <- list( A = c("Solar.R", "Wind"), B = c("Temp", "Month"), C = "Day" ) expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "gaussian", group = groups, phi0 = p0, seed = 1, iterative_args = list( initial_n_coalitions = 5, convergence_tol = 0.1 ), iterative = TRUE, verbose = c("convergence", "shapley") ), "output_lm_numeric_gaussian_group_converges_tol" ) }) test_that("output_lm_numeric_independence_converges_tol_paired", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "independence", phi0 = p0, seed = 1, iterative_args = list( initial_n_coalitions = 10, convergence_tol = 0.1 ), iterative = TRUE, verbose = c("convergence", "shapley") ), "output_lm_numeric_independence_converges_tol_paired" ) }) test_that("output_verbose_1", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "gaussian", phi0 = p0, seed = 1, iterative = TRUE, verbose = c("basic") ), "output_verbose_1" ) }) test_that("output_verbose_1_3", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "gaussian", phi0 = p0, seed = 1, iterative = TRUE, verbose = c("basic", "convergence") ), "output_verbose_1_3" ) }) test_that("output_verbose_1_3_4", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "gaussian", phi0 = p0, seed = 1, iterative = TRUE, verbose = c("basic", "convergence", "shapley") ), "output_verbose_1_3_4" ) }) test_that("output_verbose_1_3_4_5", { expect_snapshot_rds( explain( testing = TRUE, model = model_lm_numeric, x_explain = x_explain_numeric, x_train = x_train_numeric, approach = "gaussian", phi0 = p0, seed = 1, iterative = TRUE, verbose = c("basic", "convergence", "shapley", "vS_details") ), "output_verbose_1_3_4_5" ) })