test_that("plotCohortTiming, boxplot", { skip_on_cran() person <- dplyr::tibble( person_id = 1:20, gender_concept_id = 8532, year_of_birth = runif(n = 20, min = 1950, max = 2000), month_of_birth = runif(n = 20, min = 1, max = 12), day_of_birth = runif(n = 20, min = 1, max = 28), race_concept_id = 0, ethnicity_concept_id = 0 ) table <- dplyr::tibble( cohort_definition_id = c(rep(1, 15), rep(2, 10), rep(3, 15), rep(4, 5)), subject_id = c( 20, 5, 10, 12, 4, 15, 2, 1, 5, 10, 5, 8, 13, 4, 10, 6, 18, 5, 1, 20, 14, 13, 8, 17, 3, 16, 15, 20, 17, 3, 14, 6, 11, 8, 7, 20, 19, 5, 2, 18, 5, 12, 3, 14, 13 ), cohort_start_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )), cohort_end_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )) ) obs <- dplyr::tibble( observation_period_id = 1:20, person_id = 1:20, observation_period_start_date = as.Date("1930-01-01"), observation_period_end_date = as.Date("2025-01-01"), period_type_concept_id = NA ) cdm <- mockCohortCharacteristics(person = person, observation_period = obs, table = table) timing1 <- summariseCohortTiming(cdm$table, restrictToFirstEntry = TRUE ) boxplot1 <- plotCohortTiming(timing1, facet = "cdm_name", colour = "group_level", uniqueCombinations = TRUE ) # expect_true(all(c("q0", "q25", "q50", "q75", "q100") %in% colnames(boxplot1$data))) # expect_true(all(c("Cohort 1", "Cohort 2") %in% boxplot1$data$cohort_name_reference)) # expect_true(all(c("Cohort 2", "Cohort 3", "Cohort 4") %in% boxplot1$data$cohort_name_comparator)) # expect_false("Cohort 1" %in% boxplot1$data$cohort_name_comparator) expect_true(all(c("gg", "ggplot") %in% class(boxplot1))) # expect_true(boxplot1$labels$fill == "group") boxplot2 <- plotCohortTiming(timing1, colour = "group_level", uniqueCombinations = FALSE ) # expect_true(all(c("Cohort 1", "Cohort 2") %in% boxplot2$data$cohort_name_reference)) # expect_true(all(c("Cohort 1", "Cohort 2", "Cohort 3", "Cohort 4") %in% boxplot2$data$cohort_name_comparator)) expect_true(all(c("gg", "ggplot") %in% class(boxplot2))) # strata cdm$table <- cdm$table |> PatientProfiles::addAge(ageGroup = list(c(0, 40), c(41, 150))) |> PatientProfiles::addSex() |> dplyr::compute(name = "table", temporary = FALSE) |> omopgenerics::newCohortTable() timing3 <- summariseCohortTiming(cdm$table, strata = list("age_group", c("age_group", "sex")), restrictToFirstEntry = FALSE ) boxplot3 <- plotCohortTiming(timing3, colour = "strata_level", facet = "strata_name", uniqueCombinations = FALSE ) # expect_true(all(c("Cohort 1", "Cohort 2") %in% boxplot3$data$cohort_name_reference)) # expect_true(all(c("Cohort 1", "Cohort 2", "Cohort 3", "Cohort 4") %in% boxplot3$data$cohort_name_comparator)) expect_true(all(c("gg", "ggplot") %in% class(boxplot3))) # expect_true(boxplot3$labels$fill == "group") expect_true(all(c("overall", "0 to 40", "0 to 40 &&& Female", "41 to 150", "41 to 150 &&& Female") %in% unique(boxplot3$data$color_combined))) CDMConnector::cdm_disconnect(cdm) }) test_that("plotCohortTiming, density", { skip_on_cran() person <- dplyr::tibble( person_id = 1:20, year_of_birth = runif(n = 20, min = 1950, max = 2000), month_of_birth = runif(n = 20, min = 1, max = 12), day_of_birth = runif(n = 20, min = 1, max = 28), race_concept_id = 0, ethnicity_concept_id = 0 ) |> dplyr::mutate(gender_concept_id = sample(c(8532, 8507), size = dplyr::n(), replace = TRUE)) table <- dplyr::tibble( cohort_definition_id = c(rep(1, 15), rep(2, 10), rep(3, 15), rep(4, 5)), subject_id = c( 20, 5, 10, 12, 4, 15, 2, 1, 5, 10, 5, 8, 13, 4, 10, 6, 18, 5, 1, 20, 14, 13, 8, 17, 3, 16, 15, 20, 17, 3, 14, 6, 11, 8, 7, 20, 19, 5, 2, 18, 5, 12, 3, 14, 13 ), cohort_start_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )), cohort_end_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )) ) obs <- dplyr::tibble( observation_period_id = 1:20, person_id = 1:20, observation_period_start_date = as.Date("1930-01-01"), observation_period_end_date = as.Date("2025-01-01"), period_type_concept_id = NA ) cdm <- mockCohortCharacteristics(person = person, observation_period = obs, table = table) timing1 <- summariseCohortTiming(cdm$table, density = TRUE, restrictToFirstEntry = FALSE ) density1 <- plotCohortTiming(timing1, plotType = "density", facet = NULL, colour = "group_level", uniqueCombinations = TRUE ) # expect_true(all(c("plot_id", "timing_label", "color_var", "x", "y", ".group") %in% colnames(density1$data))) expect_true(all(c("gg", "ggplot") %in% class(density1))) # expect_true(density1$labels$fill == "color_var") density2 <- plotCohortTiming(timing1, plotType = "density", colour = "group_level", facet = "cdm_name", uniqueCombinations = FALSE ) # expect_true(all(c("plot_id", "timing_label", "x", "y", ".group") %in% colnames(density2$data))) expect_true(all(c("gg", "ggplot") %in% class(density2))) # expect_null(density2$labels$fill) timing2 <- summariseCohortTiming(cdm$table, estimates = character(), density = TRUE ) density4 <- plotCohortTiming(timing2, plotType = "density", facet = NULL, uniqueCombinations = TRUE ) expect_true(all(c("gg", "ggplot") %in% class(density4))) # expect_true(all(is.na(density4$data$q50))) # strata cdm$table <- cdm$table |> PatientProfiles::addAge(ageGroup = list(c(0, 40), c(41, 150))) |> PatientProfiles::addSex() |> dplyr::compute(name = "table", temporary = FALSE) |> omopgenerics::newCohortTable() timing3 <- summariseCohortTiming(cdm$table, strata = list("age_group", c("age_group", "sex")), density = TRUE, restrictToFirstEntry = FALSE ) density3 <- plotCohortTiming(timing3, plotType = "density", colour = "strata_name", facet = c("group_level", "strata_level"), uniqueCombinations = FALSE ) # expect_true(all(c("plot_id", "timing_label", "color_var", "x", "y", ".group") %in% colnames(density3$data))) expect_true(all(c("gg", "ggplot") %in% class(density3))) # expect_true(all(unique(density3$data$color_combined) %in% c("Overall", "0 to 40", "0 to 40 and female", # "41 to 150", "41 to 150 and female", "41 to 150 and male", # "0 to 40 and male"))) # not sure why 41 to 150 does not have density CDMConnector::cdm_disconnect(cdm) }) test_that("plotCohortOverlap", { skip_on_cran() person <- dplyr::tibble( person_id = 1:20, gender_concept_id = 8532, year_of_birth = runif(n = 20, min = 1950, max = 1980), month_of_birth = runif(n = 20, min = 1, max = 12), day_of_birth = runif(n = 20, min = 1, max = 28), race_concept_id = 0, ethnicity_concept_id = 0 ) table <- dplyr::tibble( cohort_definition_id = c(rep(1, 15), rep(2, 10), rep(3, 15), rep(4, 5)), subject_id = c( 20, 5, 10, 12, 4, 15, 2, 1, 5, 10, 5, 8, 13, 4, 10, 6, 18, 5, 1, 20, 14, 13, 8, 17, 3, 16, 15, 20, 17, 3, 14, 6, 11, 8, 7, 20, 19, 5, 2, 18, 5, 12, 3, 14, 13 ), cohort_start_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )), cohort_end_date = as.Date(c( rep("2000-01-01", 5), rep("2010-09-05", 5), rep("2006-05-01", 5), rep("2003-03-31", 5), rep("2008-07-02", 5), rep("2000-01-01", 5), rep("2012-09-05", 5), rep("1996-05-01", 5), rep("1989-03-31", 5) )) ) obs <- dplyr::tibble( observation_period_id = 1:20, person_id = 1:20, observation_period_start_date = as.Date("1930-01-01"), observation_period_end_date = as.Date("2025-01-01"), period_type_concept_id = NA ) cdm <- mockCohortCharacteristics(person = person, observation_period = obs, table = table) overlap <- summariseCohortOverlap(cdm$table) gg1 <- plotCohortOverlap( overlap # overlapLabel = "{cdm_name} &&& {cohort_name_reference} &&& {cohort_name_comparator}" ) expect_true("ggplot" %in% class(gg1)) # expect_false("cohort_4" %in% gg1$data$cohort_name_reference) gg2 <- plotCohortOverlap( overlap |> dplyr::filter( .data$variable_level == "number_subjects", .data$estimate_name == "percentage" ), facet = "cdm_name", uniqueCombinations = TRUE ) expect_true("ggplot" %in% class(gg2)) expect_true(gg2$data |> dplyr::filter(variable_name == "number subjects") |> nrow() == 0) # expect_true(nrow(gg2$data |> # dplyr::filter(.data$cohort_name_reference %in% c("cohort_1", "cohort_2") & # .data$cohort_name_comparator %in% c("cohort_1", "cohort_2"))) == 3) # strata ---- cdm$table <- cdm$table |> PatientProfiles::addAge(ageGroup = list(c(0, 40), c(41, 150))) |> PatientProfiles::addSex() |> dplyr::compute(name = "table", temporary = FALSE) |> omopgenerics::newCohortTable() overlap2 <- summariseCohortOverlap(cdm$table, strata = list("age_group", c("age_group", "sex")) ) gg3 <- plotCohortOverlap(overlap2 |> dplyr::filter(.data$variable_level == "number_subjects"), facet = c("strata_name", "strata_level"), uniqueCombinations = TRUE ) expect_true("ggplot" %in% class(gg3)) # > 1 CDM overlap3 <- overlap |> dplyr::union_all( overlap |> dplyr::mutate(cdm_name = "cdm2") |> dplyr::filter(.data$group_level != "cohort_2 &&& cohort_4") ) |> dplyr::filter(.data$variable_level == "number_subjects") gg4 <- plotCohortOverlap(overlap3, facet = "cdm_name", uniqueCombinations = FALSE, .options = list( facetNcols = 2, facetScales = "fixed" ) ) # expect_true(nrow(gg4$data |> dplyr::distinct(comparison_name, y_pos)) == 12) CDMConnector::cdm_disconnect(cdm) }) test_that("plotCharacteristics", { skip_on_cran() person <- dplyr::tibble( person_id = c(1, 2, 3), gender_concept_id = c(8507, 8532, 8532), year_of_birth = c(1985, 2000, 1962), month_of_birth = c(10, 5, 9), day_of_birth = c(30, 10, 24), race_concept_id = 0, ethnicity_concept_id = 0 ) dus_cohort <- dplyr::tibble( cohort_definition_id = c(1, 1, 1, 2), subject_id = c(1, 1, 2, 3), cohort_start_date = as.Date(c( "1990-04-19", "1991-04-19", "2010-11-14", "2000-05-25" )), cohort_end_date = as.Date(c( "1990-04-19", "1991-04-19", "2010-11-14", "2000-05-25" )) ) observation_period <- dplyr::tibble( observation_period_id = c(1, 2, 3), person_id = c(1, 2, 3), observation_period_start_date = as.Date(c( "1975-01-01", "1959-04-29", "1944-12-03" )), observation_period_end_date = as.Date(c( "2021-03-04", "2022-03-14", "2023-07-10" )), period_type_concept_id = 0 ) cdm <- mockCohortCharacteristics( dus_cohort = dus_cohort, person = person, observation_period = observation_period ) result1 <- summariseCharacteristics( cdm$dus_cohort, demographics = TRUE, ageGroup = list(c(0, 40), c(41, 150)) ) gg1 <- plotCharacteristics(result1 |> dplyr::filter(variable_name == "Prior observation")) expect_true(ggplot2::is.ggplot(gg1)) gg2 <- plotCharacteristics( result1 |> dplyr::filter(variable_name == "Age"), plotStyle = "boxplot", colour = "variable_name" ) expect_true(ggplot2::is.ggplot(gg2)) CDMConnector::cdm_disconnect(cdm) })