require(quanteda) toks_test <- readRDS("../data/tokens_test.RDS") toks_test <- tokens_remove(toks_test, stopwords()) feat_test <- head(char_context(toks_test, "america*", min_count = 1, p = 0.05), 100) dict <- dictionary(list("keywords" = c("positive", "bad", "xxxx"))) test_that("textplot_* works with SVD", { dfmt <- dfm(toks_test) seed <- c("nice*" = 1, "positive*" = 1, "bad*" = -1, "negative*" = -1) lss <- textmodel_lss(dfmt, seed, k = 10) expect_equal(class(textplot_simil(lss)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords, max_words = 2)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords, max_highlighted = 10)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords, max_highlighted = 0)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = character())), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, max_highlighted = 10)), c("gg", "ggplot")) lss2 <- textmodel_lss(dfmt, seed, terms = feat_test, k = 10) expect_equal(class(textplot_terms(lss2)), c("gg", "ggplot")) }) test_that("textplot_* works even when frequency and beta do not match (#71)", { dfmt <- dfm(toks_test) seed <- c("nice*" = 1, "positive*" = 1, "bad*" = -1, "negative*" = -1) lss <- textmodel_lss(dfmt, seed, k = 10) lss$frequency <- c(lss$frequency, "xxx" = 1, "yyy" = 1) # replicate #71 expect_equal(class(textplot_terms(lss)), c("gg", "ggplot")) }) test_that("textplot_* works with Glove", { fcmt <- fcm(toks_test) seed <- c("nice*" = 1, "positive*" = 1, "bad*" = -1, "negative*" = -1) lss <- textmodel_lss(fcmt, seed, w = 10) expect_equal(class(textplot_simil(lss)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict$keywords, max_words = 2)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss, highlighted = dict)), c("gg", "ggplot")) expect_equal(class(textplot_terms(lss)), c("gg", "ggplot")) expect_error(textplot_terms(lss, highlighted = dict, max_words = 100:200), "The length of max_words must be 1") lss2 <- textmodel_lss(fcmt, seed, terms = feat_test, w = 10) expect_equal(class(textplot_terms(lss2)), c("gg", "ggplot")) }) test_that("textplot_components() works", { seed <- c("nice*" = 1, "positive*" = 1, "bad*" = -1, "negative*" = -1) dfmt <- dfm(toks_test) lss_svd <- textmodel_lss(dfmt, seed, k = 10) fcmt <- fcm(toks_test) lss_glove <- textmodel_lss(fcmt, seed, w = 10) gg1 <- textplot_components(lss_svd, n = 5) expect_equal(length(levels(gg1$data$group)), 5) gg2 <- textplot_components(lss_svd, n = 3) expect_equal(length(levels(gg2$data$group)), 3) expect_equal(class(textplot_components(lss_svd, 3)), c("gg", "ggplot")) expect_equal(class(textplot_components(lss_svd, 3, scale = "relative")), c("gg", "ggplot")) expect_error(textplot_components(lss_svd, n = c(5, 6)), "The length of n must be 1") expect_error(textplot_components(lss_svd, n = 20), "The value of n must be between 2 and 10") expect_error(textplot_components(lss_glove), "SVD must be used to generate word vectors") }) test_that("textplot_* raise error when attributes are missing", { dfmt <- dfm(toks_test) coef <- rnorm(100) names(coef) <- topfeatures(dfmt, 100) lss <- as.textmodel_lss(coef) expect_error(textplot_simil(lss), "textplot_simil() does not work with dummy models", fixed = TRUE) }) test_that("textplot_terms works even when frequency has zeros (#85)", { dfmt <- dfm(toks_test) %>% dfm_subset(Year > 2000) seed <- c("nice*" = 1, "positive*" = 1, "bad*" = -1, "negative*" = -1) suppressWarnings( lss <- textmodel_lss(dfmt, seed, k = 10) ) expect_true(any(lss$frequency == 0)) expect_equal(class(textplot_terms(lss)), c("gg", "ggplot")) expect_silent(print(textplot_terms(lss, max_highlighted = 10))) })