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test_that("dc_dois works", { vcr::use_cassette("dc_dois", { aa <- dc_dois(limit = 5) - }) + }, preserve_exact_body_bytes = TRUE) expect_is(aa, "dc") expect_equal(sort(names(aa)), c("data", "included", "links", "meta")) expect_is(aa$data, 'data.frame')