# Tests for .estimate_severity() # Note that this is an internal function underlying cfr_static() # when corrected_for_delays is TRUE # load Ebola 1976 outbreak data data("ebola1976") # Ebola onset to death distribution comes from Barry et al. 2018 # a gamma distribution with shape = 2.40, scale = 3.33 poisson_threshold <- 100 # get the corrected dataframe df_corrected <- estimate_outcomes( data = ebola1976, delay_density = function(x) dgamma(x, shape = 2.40, scale = 3.33) ) # run estimate_severity severity_estimate <- .estimate_severity( total_cases = sum(df_corrected$cases), total_deaths = sum(df_corrected$deaths), total_outcomes = sum(df_corrected$estimated_outcomes), poisson_threshold = 100 ) test_that("`estimate_severity`: Basic expectations", { expect_vector(severity_estimate, numeric()) expect_named( severity_estimate, sprintf("severity_%s", c("estimate", "low", "high")) ) # expect within values expect_true( all(severity_estimate >= 0.0 & severity_estimate <= 1.0) ) # expect that lo, me, and hi are in roughly ascending order expect_true( all( severity_estimate["severity_low"] < severity_estimate["severity_estimate"] && severity_estimate["severity_estimate"] < severity_estimate["severity_high"] ) ) # also check for a snapshot expect_snapshot( severity_estimate ) # check estimate_severity with higher poisson threshold # forcing use of an alternative calculation severity_estimate_lt <- .estimate_severity( total_cases = sum(df_corrected$cases), total_deaths = sum(df_corrected$deaths), total_outcomes = sum(df_corrected$estimated_outcomes), poisson_threshold = 1000 ) # snapshot of severity estimate using alternative method expect_snapshot( severity_estimate_lt ) # expect that severity is lower when there are fewer cases ebola1976$deaths <- ebola1976$deaths - 2 ebola1976$deaths[ebola1976$deaths < 0] <- 0 # get the corrected dataframe df_corrected <- estimate_outcomes( data = ebola1976, delay_density = function(x) dgamma(x, shape = 2.40, scale = 3.33) ) # run estimate_severity severity_low_deaths <- .estimate_severity( total_cases = sum(df_corrected$cases), total_deaths = sum(df_corrected$deaths), total_outcomes = sum(df_corrected$estimated_outcomes), poisson_threshold = poisson_threshold ) expect_true( all(severity_estimate > severity_low_deaths) ) }) test_that("Special cases of `.estimate_severity()`", { # all values are 0 total_cases <- 0 total_deaths <- 0 total_outcomes <- 0 expect_identical( .estimate_severity(total_cases, total_deaths, total_outcomes), c( severity_estimate = NA_real_, severity_low = NA_real_, severity_high = NA_real_ ) ) # any 2 values are 0 total_cases <- 10 expect_identical( .estimate_severity(total_cases, total_deaths, total_outcomes), c( severity_estimate = NA_real_, severity_low = NA_real_, severity_high = NA_real_ ) ) total_cases <- 0 total_outcomes <- 10 expect_identical( .estimate_severity(total_cases, total_deaths, total_outcomes), c( severity_estimate = NA_real_, severity_low = NA_real_, severity_high = NA_real_ ) ) # total deaths == total cases, or total deaths == total outcomes # when total cases < poisson threshold total_cases <- 99 total_deaths <- 99 total_outcomes <- 0 expect_identical( .estimate_severity( total_cases, total_deaths, total_outcomes, poisson_threshold = 100 ), c( severity_estimate = NA, # set NA because not valid calculation severity_low = NA, severity_high = NA ) ) # expect that total cases >= poisson threshold does not return NAs total_cases <- 100 total_deaths <- 100 total_outcomes <- 0 expect_error( expect_identical( .estimate_severity(total_cases, total_deaths, total_outcomes), c( severity_estimate = 0.99, severity_low = NA_real_, severity_high = NA_real_ ) ) ) }) # NOTE: tests on errors removed as input checking moved to upper-level functions # Expect NAs when multiple values are zero test_that("estimate_severity returns NAs when inputs are zeros", { test_df <- c( severity_estimate = NA_real_, severity_low = NA_real_, severity_high = NA_real_ ) expect_identical( .estimate_severity(0, 0, 0), test_df ) expect_identical( .estimate_severity(0, 0, 1), test_df ) expect_identical( .estimate_severity(1, 0, 0), test_df ) # not testing the case where total_outcomes is 0 })