## Test basis() and related functions ## data object to use in tests add_data <- su_eg1[, c("y", "x0", "x1", "x2", "x3")] test_that("add_fitted works for a GAM", { expect_silent(df <- add_fitted(add_data, m_gam)) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", ".fitted")) }) test_that("add_fitted works for a GAM with type = 'terms'", { expect_silent(df <- add_fitted(add_data, m_gam, type = "terms")) expect_s3_class(df, "tbl_df") expect_named(df, c( "y", "x0", "x1", "x2", "x3", ".constant", "s(x0)", "s(x1)", "s(x2)", "s(x3)" )) }) test_that("add_fitted works for a GAM with se.fit = TRUE", { expect_silent(df <- add_fitted(add_data, m_gam, se.fit = TRUE)) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", ".fitted")) }) test_that("add_residuals works for a GAM", { expect_silent(df <- add_residuals(add_data, m_gam, type = "pearson")) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", ".residual")) }) test_that("add_partial_residuals works for a GAM", { expect_silent(df <- add_partial_residuals(add_data, m_gam)) expect_s3_class(df, "tbl_df") expect_named(df, c( "y", "x0", "x1", "x2", "x3", "s(x0)", "s(x1)", "s(x2)", "s(x3)" )) expect_silent(df <- add_partial_residuals(add_data, m_gam, select = "s(x2)" )) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", "s(x2)")) }) ## test what happens with na.action and NAs in input miss <- sample(nrow(add_data), 10) add_data[["x0"]][miss] <- NA m_na <- gam(y ~ s(x0) + s(x1) + s(x2) + s(x3), data = add_data, method = "REML") m_na_excl <- gam(y ~ s(x0) + s(x1) + s(x2) + s(x3), data = add_data, method = "REML", na.action = na.exclude ) test_that("add_residuals works for a GAM with NA in data", { expect_error(add_residuals(add_data, m_na, value = "..resid.."), "Length of model residuals does not equal number of rows in 'data'", fixed = TRUE ) expect_silent(df <- add_residuals(add_data, m_na_excl)) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", ".residual")) }) test_that("add_partial_residuals works for a GAM with NA in data", { skip_on_cran() # skip("This needs fixing") expect_error(add_partial_residuals(add_data, m_na), "Length of model residuals not equal to number of rows in 'data'", fixed = TRUE ) expect_silent(df <- add_partial_residuals(add_data, m_na_excl)) expect_s3_class(df, "tbl_df") expect_named(df, c( "y", "x0", "x1", "x2", "x3", "s(x0)", "s(x1)", "s(x2)", "s(x3)" )) expect_silent(df <- add_partial_residuals(add_data, m_na_excl, select = "s(x2)" )) expect_s3_class(df, "tbl_df") expect_named(df, c("y", "x0", "x1", "x2", "x3", "s(x2)")) }) test_that("add_confint works for smooth_estimates", { expect_silent(sm <- smooth_estimates(m_gam)) expect_silent(sm <- add_confint(sm, coverage = 0.89)) expect_s3_class(sm, c("smooth_estimates", "tbl_df", "tbl", "data.frame")) expect_named(sm, c( ".smooth", ".type", ".by", ".estimate", ".se", "x0", "x1", "x2", "x3", ".lower_ci", ".upper_ci" )) expect_identical(nrow(sm), 400L) expect_identical(ncol(sm), 11L) }) test_that("add_confint works for smooth_estimates", { expect_silent(sm <- smooth_estimates(m_gam, unnest = FALSE)) expect_error(add_confint(sm), "Did you use `smooth_estimates(..., unnest = FALSE)`?", fixed = TRUE ) }) test_that("add_confint.default fails is no est and se", { expect_error( add_confint(typical_values(m_gam, data = su_eg1, envir = teardown_env() )), "'object' does not contain one or both of '.estimate' or '.se'." ) }) test_that("add_constant works for parametric_effects", { expect_message( pe <- parametric_effects(m_para_sm, data = df_2_fac, envir = teardown_env() ), "Interaction terms are not currently supported." ) expect_silent(pe <- add_constant(pe, constant = 10)) expect_error(pe <- add_constant(pe, constant = "a"), "'constant' must be numeric: supplied ", fixed = TRUE ) }) test_that("add_constant works for evaluate_parametric_term", { skip_if_not_installed("withr") withr::local_options(lifecycle_verbosity = "quiet") expect_silent(pe <- evaluate_parametric_term(m_para_sm, term = "fac")) expect_silent(pe <- add_constant(pe, constant = 10)) expect_error(pe <- add_constant(pe, constant = "a"), "'constant' must be numeric: supplied ", fixed = TRUE ) }) test_that("add_constant works for smooth_estimates", { expect_silent(sm <- smooth_estimates(m_gam, select = "s(x1)")) expect_silent(sm <- add_constant(sm, constant = 10)) expect_error(sm <- add_constant(sm, constant = "a"), "'constant' must be numeric: supplied ", fixed = TRUE ) }) test_that("add_constant works for tbl", { expect_silent(tbl <- add_constant(su_eg1, constant = 10, column = "y")) expect_error(tbl <- add_constant(tbl, constant = "a", column = "y"), "'constant' must be numeric: supplied ", fixed = TRUE ) }) nms <- c( ".smooth", ".by", ".fs", ".derivative", ".se", ".crit", ".lower_ci", ".upper_ci" ) test_that("add_sizer derivatives method works", { expect_silent(d <- derivatives(m_gam, type = "central")) expect_silent(tbl <- add_sizer(d, type = "change")) expect_named(tbl, c(nms, ".change", paste0("x", 0:3))) expect_silent(tbl <- add_sizer(d, type = "sizer")) expect_named(tbl, c(nms, ".decrease", ".increase", paste0("x", 0:3))) }) test_that("add_sizer smooth_estimates method works", { nms <- c(".smooth", ".type", ".by", ".estimate", ".se") expect_silent(d <- derivatives(m_gam, type = "central")) expect_silent(sm <- smooth_estimates(m_gam)) expect_silent(tbl <- sm |> add_sizer(derivatives = d, type = "change")) expect_named(tbl, c(nms, ".change", "x0", "x1", "x2", "x3")) expect_silent(tbl <- sm |> add_sizer(derivatives = d, type = "sizer")) expect_named(tbl, c(nms, ".decrease", ".increase", "x0", "x1", "x2", "x3")) expect_error(sm |> add_sizer(type = "change"), "An object of class 'derivatives' must be supplied.", fixed = TRUE ) expect_error(sm |> add_sizer(type = "sizer"), "An object of class 'derivatives' must be supplied.", fixed = TRUE ) }) ## add methods for posterior samplers test_that("add_fitted_samples works", { expect_silent(fs <- quick_eg1 |> add_fitted_samples(m_gam, seed = 2, n = 2)) expect_identical(nrow(fs), 600L) # 300 data by 2 samples expect_named(fs, c(names(quick_eg1), ".row", ".draw", ".parameter", ".fitted")) expect_snapshot(print(fs)) }) test_that("add_predicted_samples works", { expect_silent(ps <- quick_eg1 |> add_predicted_samples(m_gam, seed = 2, n = 2)) expect_identical(nrow(ps), 600L) # 300 data by 2 samples expect_named(ps, c(names(quick_eg1), ".row", ".draw", ".response")) expect_snapshot(print(ps)) }) test_that("add_posterior_samples works", { expect_silent(ps <- quick_eg1 |> add_posterior_samples(m_gam, seed = 2, n = 2)) expect_identical(nrow(ps), 600L) # 300 data by 2 samples expect_named(ps, c(names(quick_eg1), ".row", ".draw", ".response")) expect_snapshot(print(ps)) }) test_that("add_smooth_samples works", { expect_silent(ss <- quick_eg1 |> add_smooth_samples(m_gam, seed = 2, n = 2)) expect_identical(nrow(ss), 2400L) # 300 data by 4 smooths by 2 samples expect_named(ss, c(names(quick_eg1), ".row", ".smooth", ".term", ".draw", ".value")) expect_snapshot(print(ss)) }) test_that("add_smooth_samples works for selected smooth", { expect_silent(ss <- quick_eg1 |> add_smooth_samples(m_gam, seed = 2, n = 2, select = "s(x2)")) expect_identical(nrow(ss), 600L) # 300 data by 1 smooth by 2 samples expect_named(ss, c(names(quick_eg1), ".row", ".smooth", ".term", ".draw", ".value")) expect_snapshot(print(ss)) })