test_that("isomorphic", { g <- graph_from_literal(A - B - C - A) expect_true(isomorphic(g, g)) expect_true(isomorphic(g, g, method = "direct")) expect_true(isomorphic(g, g, method = "vf2")) expect_true(isomorphic(g, g, method = "bliss")) g2 <- graph_from_literal(A - B - C) expect_false(isomorphic(g, g2)) expect_false(isomorphic(g, g2, method = "direct")) expect_false(isomorphic(g, g2, method = "vf2")) expect_false(isomorphic(g, g2, method = "bliss")) }) test_that("subgraph_isomorphic", { g <- graph_from_literal(A - B - C - D - E - A) g2 <- graph_from_literal(A - B - C - D) expect_true(subgraph_isomorphic(g2, g)) expect_true(subgraph_isomorphic(g2, g, method = "vf2")) expect_true(subgraph_isomorphic(g2, g, method = "lad")) g3 <- graph_from_literal(A - B - C - A) expect_false(subgraph_isomorphic(g3, g)) expect_false(subgraph_isomorphic(g3, g, method = "vf2")) expect_false(subgraph_isomorphic(g3, g, method = "lad")) }) test_that("count_isomorphisms", { g <- graph_from_literal(A - B - C - D - A) expect_equal(count_isomorphisms(g, g), 8) g2 <- graph_from_literal(A - B - C - A) expect_equal(count_isomorphisms(g, g2), 0) }) test_that("count_isomorphisms_with_colors", { expect_equal( count_isomorphisms(make_ring(3), make_ring(3), edge.color1 = c(2, 2, 2), edge.color2 = c(2, 2, 2), vertex.color1 = c(3, 3, 3), vertex.color2 = c(3, 3, 3), method = "vf2"), 6) expect_equal( count_isomorphisms(make_ring(3), make_ring(3), edge.color1 = c(2, 2, 2), edge.color2 = c(2, 2, 2), vertex.color1 = c(1, 2, 3), vertex.color2 = c(1, 2, 3), method = "vf2"), 1) expect_equal( count_isomorphisms(make_ring(3), make_ring(3), edge.color1 = c(2, 2, 3), edge.color2 = c(3, 2, 2), vertex.color1 = c(3, 3, 3), vertex.color2 = c(3, 3, 3), method = "vf2"), 2) }) test_that("count_subgraph_isomorphisms", { g <- graph_from_literal(A - B - C - D - A) g2 <- graph_from_literal(A - B - C - D) expect_equal(count_subgraph_isomorphisms(g2, g, method = "lad"), 8) expect_equal(count_subgraph_isomorphisms(g2, g, method = "vf2"), 8) g3 <- graph_from_literal(A - B - C - A) expect_equal(count_subgraph_isomorphisms(g3, g, method = "lad"), 0) expect_equal(count_subgraph_isomorphisms(g3, g, method = "vf2"), 0) }) test_that("isomorphisms", { g <- graph_from_literal(A - B - C - D - A) g2 <- graph_from_literal(W - X - Y - Z - W) res <- list( V(g2)[1, 2, 3, 4], V(g2)[1, 4, 3, 2], V(g2)[2, 1, 4, 3], V(g2)[2, 3, 4, 1], V(g2)[3, 2, 1, 4], V(g2)[3, 4, 1, 2], V(g2)[4, 1, 2, 3], V(g2)[4, 3, 2, 1] ) expect_equal(ignore_attr = TRUE, isomorphisms(g, g2), res) g3 <- graph_from_literal(X - Y - Z - X) expect_equal(isomorphisms(g, g3), list()) }) test_that("subgraph_isomorphisms, lad", { g <- graph_from_literal(A - B - C - D - A) g2 <- graph_from_literal(Z - X - Y) res <- list( V(g)[1, 4, 3], V(g)[1, 2, 3], V(g)[2, 1, 4], V(g)[2, 3, 4], V(g)[3, 2, 1], V(g)[3, 4, 1], V(g)[4, 3, 2], V(g)[4, 1, 2] ) expect_equal(ignore_attr = TRUE, subgraph_isomorphisms(g2, g, method = "lad"), res) g3 <- graph_from_literal(X - Y - Z - X) expect_equal(subgraph_isomorphisms(g3, g, method = "lad"), list()) }) test_that("subgraph_isomorphisms, vf2", { g <- graph_from_literal(A - B - C - D - A) g2 <- graph_from_literal(Z - X - Y) res <- list( V(g)[1, 2, 3], V(g)[1, 4, 3], V(g)[2, 1, 4], V(g)[2, 3, 4], V(g)[3, 2, 1], V(g)[3, 4, 1], V(g)[4, 1, 2], V(g)[4, 3, 2] ) expect_equal(ignore_attr = TRUE, subgraph_isomorphisms(g2, g, method = "vf2"), res) g3 <- graph_from_literal(X - Y - Z - X) expect_equal(subgraph_isomorphisms(g3, g, method = "vf2"), list()) })