context("test-density-pooled_hazards: Lrnr_pooled_hazards + Lrnr_density_discretize") test_that("Negative log likelihood for pooled_hazards and haldensify match", { # define test dataset set.seed(74294) n <- 100 x <- rnorm(n) epsilon <- rnorm(n) y <- 3 * x + epsilon data <- data.table(x = x, y = y) task <- sl3_Task$new(data, covariates = c("x"), outcome = "y") # instantiate learners hal <- Lrnr_hal9001$new( lambda = exp(seq(-1, -13, length = 100)), max_degree = 6, smoothness_orders = 0 ) haldensify <- Lrnr_haldensify$new( grid_type = "equal_range", n_bins = 5, lambda_seq = exp(seq(-1, -13, length = 100)), max_degree = 6, smoothness_orders = 0, trim_dens = 0 ) hazard_learner <- Lrnr_pooled_hazards$new(hal) density_learner <- Lrnr_density_discretize$new( hazard_learner, type = "equal_range", n_bins = 5 ) # fit discrete density model to pooled hazards data set.seed(74294) fit_density <- density_learner$train(task) pred_density <- fit_density$predict() # fit haldensify for comparison set.seed(74294) suppressWarnings({fit_haldensify <- haldensify$train(task)}) pred_haldensify <- fit_haldensify$predict() # compare density estimates true_density <- dnorm(x = y, mean = 3 * x) nll_ph <- sum(-1 * true_density * log(pred_density)) nll_haldensify <- sum(-1 * true_density * log(pred_haldensify)) expect_equal(nll_ph, nll_haldensify, scale = nll_ph, tol = 2) })