# View coverage for this file using # library(testthat); library(FeatureExtraction) # covr::file_report(covr::file_coverage("R/Normalization.R", "tests/testthat/test-tidyCovariates.R")) test_that("Test exit conditions ", { # Covariate Data object check expect_error(tidyCovariateData(covariateData = list())) # CovariateData object closed cvData <- FeatureExtraction:::createEmptyCovariateData( cohortIds = 1, aggregated = FALSE, temporal = FALSE ) Andromeda::close(cvData) expect_error(tidyCovariateData(covariateData = cvData)) # CovariateData aggregated cvData <- FeatureExtraction:::createEmptyCovariateData( cohortIds = 1, aggregated = TRUE, temporal = FALSE ) expect_error(tidyCovariateData(covariateData = cvData)) }) test_that("Test empty covariateData", { cvData <- FeatureExtraction:::createEmptyCovariateData( cohortIds = 1, aggregated = FALSE, temporal = FALSE ) result <- tidyCovariateData(covariateData = cvData) expect_equal(length(pull(result$covariates, covariateId)), length(pull(cvData$covariates, covariateId))) }) test_that("tidyCovariates works", { # Generate some data: createCovariate <- function(i, analysisId) { return(tibble( covariateId = rep(i * 1000 + analysisId, i), covariateValue = rep(1, i) )) } covariates <- lapply(1:10, createCovariate, analysisId = 1) covariates <- do.call("rbind", covariates) covariates$rowId <- 1:nrow(covariates) metaData <- list(populationSize = nrow(covariates)) frequentCovariate <- createCovariate(40, analysisId = 2) frequentCovariate$rowId <- sample.int(metaData$populationSize, nrow(frequentCovariate), replace = FALSE) infrequentCovariate <- createCovariate(1, analysisId = 3) infrequentCovariate$rowId <- sample.int(metaData$populationSize, nrow(infrequentCovariate), replace = FALSE) covariates <- rbind(covariates, frequentCovariate, infrequentCovariate) covariateRef <- tibble( covariateId = c(1:10 * 1000 + 1, 40002, 1003), analysisId = c(rep(1, 10), 2, 3) ) covariateData <- Andromeda::andromeda( covariates = covariates, covariateRef = covariateRef ) attr(covariateData, "metaData") <- metaData class(covariateData) <- "CovariateData" tidy <- tidyCovariateData(covariateData, minFraction = 0.1, normalize = TRUE, removeRedundancy = TRUE) # Test: most prevalent covariate in analysis 1 is dropped: expect_true(nrow(filter(tidy$covariates, covariateId == 10001) %>% collect()) == 0) # Test: infrequent covariate in analysis 1 isn't dropped: expect_true(nrow(filter(tidy$covariates, covariateId == 1001) %>% collect()) != 0) # Test: infrequent covariate is dropped: expect_true(nrow(filter(tidy$covariates, covariateId == 1003) %>% collect()) == 0) # Test: frequent covariate isn't dropped: expect_true(nrow(filter(tidy$covariates, covariateId == 40002) %>% collect()) != 0) }) test_that("tidyCovariateData on Temporal Data", { skip_if_not(dbms == "sqlite") covariateSettings <- createTemporalCovariateSettings( useDrugExposure = TRUE, temporalStartDays = -2:-1, temporalEndDays = -2:-1 ) covariateData <- getDbCovariateData( connection = eunomiaConnection, cdmDatabaseSchema = eunomiaCdmDatabaseSchema, cohortIds = c(1), covariateSettings = covariateSettings ) tidy <- tidyCovariateData(covariateData) expect_equal(length(pull(tidy$analysisRef, analysisId)), length(pull(covariateData$analysisRef, analysisId))) })