if (!identical(Sys.getenv("NOT_CRAN"), "true")) { return() } library("segregation") context("test_ipf") test_that("different precisions", { # reduce to overlap sample schools00_r <- schools00[schools00$school %in% schools05$school, ] schools05_r <- schools05[schools05$school %in% schools00$school, ] for (precision in c(.1, .01, .001)) { adj <- ipf(schools00_r, schools05_r, "race", "school", weight = "n", precision = precision) # check that the new "race" marginals are similar to the target marginals new <- aggregate(adj$n, list(adj$race), sum) old <- aggregate(schools05_r$n, list(schools05_r$race), sum) old <- old[match(new$Group.1, old$Group.1), ] new <- new$x / sum(new$x) old <- old$x / sum(old$x) expect_true(all(abs(new - old) < precision)) # check that the new "school" marginals are similar to the target marginals new <- aggregate(adj$n, list(adj$school), sum) old <- aggregate(schools05_r$n, list(schools05_r$school), sum) old <- old[match(new$Group.1, old$Group.1), ] new <- new$x / sum(new$x) old <- old$x / sum(old$x) expect_true(all(abs(new - old) < precision)) } }) test_that("warn if iterations are too low", { expect_error( suppressWarnings( ipf(schools00, schools05, "race", "school", weight = "n", precision = .00001, max_iterations = 1 ) ) ) }) test_that("gives sames results as mutual_difference", { diff <- mutual_difference(schools00, schools05, group = "race", unit = "school", weight = "n", method = "km", precision = 0.000001 ) # what changed from 2000 to 2005? # first reduce to overlap sample schools00_r <- schools00[schools00$school %in% schools05$school, ] schools05_r <- schools05[schools05$school %in% schools00$school, ] M_00 <- mutual_total(schools00_r, "race", "school", weight = "n")[stat == "M", est] M_05 <- mutual_total(schools05_r, "race", "school", weight = "n")[stat == "M", est] # adjust the 2000 margins to the 2005 margins # if only the margins changed, then this would explain all the difference adj_00 <- ipf(schools00_r, schools05_r, "race", "school", weight = "n", precision = 0.00001) M_margins <- mutual_total(adj_00, "race", "school", weight = "n")[stat == "M", est] structural_change <- M_05 - M_margins # test expect_equal(diff[stat == "M1", est] + diff[stat == "removals", est], M_00) expect_equal(diff[stat == "M2", est] - diff[stat == "additions", est], M_05) expect_equal(structural_change, diff[stat == "structural", est], tolerance = .001) expect_equal( M_05 - M_00 - structural_change, diff[stat %in% c("unit_marginal", "group_marginal", "interaction"), sum(est)], tolerance = .001 ) }) test_that("example from Karmel & Maclachlan 1988", { source <- data.frame( occ = rep(c(1, 2, 3), 2), gender = c(rep("male", 3), rep("female", 3)), n = c(100, 50, 100, 50, 50, 50) ) target <- data.frame( occ = rep(c(1, 2, 3), 2), gender = c(rep("male", 3), rep("female", 3)), n = c(125, 100, 100, 100, 100, 75) ) adj <- ipf(source, target, "occ", "gender", "n", precision = 0.0000000001) # K-M report on the scale of the target distribution adj$n <- round(adj$n / sum(adj$n) * sum(adj$n_target), 1) expect_equal(adj[adj$gender == "male" & adj$occ == 1, "n"][[1]], 134.7) expect_equal(adj[adj$gender == "male" & adj$occ == 2, "n"][[1]], 85.5) expect_equal(adj[adj$gender == "male" & adj$occ == 3, "n"][[1]], 104.8) expect_equal(adj[adj$gender == "female" & adj$occ == 1, "n"][[1]], 90.3) expect_equal(adj[adj$gender == "female" & adj$occ == 2, "n"][[1]], 114.5) expect_equal(adj[adj$gender == "female" & adj$occ == 3, "n"][[1]], 70.2) expect_equal( sum(adj[adj$gender == "male", "n"]), sum(adj[adj$gender == "male", "n_target"]) ) expect_equal( sum(adj[adj$gender == "female", "n"]), sum(adj[adj$gender == "female", "n_target"]) ) expect_equal(sum(adj[adj$occ == 1, "n"]), sum(adj[adj$occ == 1, "n_target"])) expect_equal(sum(adj[adj$occ == 2, "n"]), sum(adj[adj$occ == 2, "n_target"])) expect_equal(sum(adj[adj$occ == 3, "n"]), sum(adj[adj$occ == 3, "n_target"])) }) test_that("warning about units and groups being dropped", { expect_warning(ipfd <- ipf(schools00, schools05, "race", "school", weight = "n")) expect_equal(sum(ipfd$n), sum(ipfd$n_source)) }) test_that("returns same number of observations as before", { # schools are dropped here suppressWarnings(ipfd <- ipf(schools00, schools05, "race", "school", weight = "n")) expect_equal(sum(ipfd$n), sum(ipfd$n_source)) # reduce to overlap sample, because then by definition the counts are identical schools00_r <- schools00[schools00$school %in% schools05$school, ] schools05_r <- schools05[schools05$school %in% schools00$school, ] ipfd <- ipf(schools00_r, schools05_r, "race", "school", weight = "n") expect_equal(sum(ipfd$n), sum(ipfd$n_source)) expect_equal(sum(schools00_r$n), sum(ipfd$n)) expect_equal(sum(schools00_r$n), sum(ipfd$n_source)) expect_equal(sum(schools05_r$n), sum(ipfd$n_target)) })