graph1 <- igraph::make_directed_graph(c(1,2,1,5,2,3,2,4,3,5,4,5,5,1)) graph2 <- igraph::make_undirected_graph(c(1,1,1,2,2,4,3,4,3,4)) test_that("tie_is_reciprocated works", { expect_length(tie_is_reciprocated(graph1), 7) expect_true(tie_is_reciprocated(graph1)[2], tie_is_reciprocated(graph1)[7]) }) test_that("tie_is_multiple works", { expect_true(tie_is_multiple(graph2)[5]) }) test_that("tie_is_loop works", { expect_true(tie_is_loop(graph2)[1]) expect_false(tie_is_loop(graph2)[2], tie_is_loop(graph2)[3], tie_is_loop(graph2)[4]) }) test_that("tie_is_bridge works", { expect_equal(length(tie_is_bridge(graph1)), c(net_ties(graph1))) }) test_that("tie_is_max works", { skip_on_ci() skip_on_cran() expect_equal(length(tie_is_max(tie_betweenness(graph1))), c(net_ties(graph1))) expect_equal(sum(tie_is_max(tie_betweenness(graph1)) == TRUE), 1) expect_s3_class(tie_is_max(tie_betweenness(graph1)), "logical") }) test_that("tie_is_min works", { skip_on_ci() skip_on_cran() expect_equal(length(tie_is_min(tie_betweenness(ison_brandes))), c(net_ties(ison_brandes))) expect_equal(sum(tie_is_min(tie_betweenness(ison_brandes)) == TRUE), 1) expect_s3_class(tie_is_min(tie_betweenness(ison_brandes)), "logical") }) test_that("tie_is_feedback() mark functions work", { expect_equal(as.character(tie_is_feedback(ison_adolescents)), c("FALSE", "FALSE", "FALSE", "FALSE", "TRUE", "TRUE", "FALSE", "TRUE", "FALSE", "FALSE")) })