test_that("diameter works", {
  gc <- function(graph) {
    clu <- components(graph)
    induced_subgraph(graph, which(clu$membership == which.max(clu$csize)))
  }

  #### Undirected

  g <- gc(sample_gnp(30, 3 / 30))
  sp <- distances(g)
  expect_that(max(sp), equals(diameter(g)))

  g <- gc(sample_gnp(100, 1 / 100))
  sp <- distances(g)
  sp[sp == Inf] <- NA
  expect_that(max(sp, na.rm = TRUE), equals(diameter(g)))

  #### Directed

  g <- sample_gnp(30, 3 / 30, directed = TRUE)
  sp <- distances(g, mode = "out")
  sp[sp == Inf] <- NA
  expect_that(max(sp, na.rm = TRUE), equals(diameter(g, unconnected = TRUE)))

  #### Weighted

  E(g)$weight <- sample(1:10, ecount(g), replace = TRUE)
  sp <- distances(g, mode = "out")
  sp[sp == Inf] <- NA
  expect_that(max(sp, na.rm = TRUE), equals(diameter(g, unconnected = TRUE)))

  #### Bug #680538

  g <- make_tree(30, mode = "undirected")
  E(g)$weight <- 2
  expect_that(diameter(g, unconnected = FALSE), equals(16))
})

test_that("diameter correctly handles disconnected graphs", {
  g <- make_tree(7, 2, mode = "undirected") %du% make_tree(4, 3, mode = "undirected")
  expect_that(diameter(g, unconnected = TRUE), equals(4))
  expect_that(diameter(g, unconnected = FALSE), equals(Inf))
  E(g)$weight <- 2
  expect_that(diameter(g, unconnected = FALSE), equals(Inf))
})