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tests/testthat/test-HurdlePoisson.R
In distributions3: Probability Distributions as S3 Objects
context("test-HurdlePoisson")
test_that("print.HurdlePoisson works", {
expect_output(print(HurdlePoisson(1, 0.7)), regexp = "HurdlePoisson distribution")
})
test_that("random.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_length(random(p), 1)
expect_length(random(p, 100), 100)
expect_length(random(p[-1], 1), 0)
expect_length(random(p, 0), 0)
expect_error(random(p, -2))
# consistent with base R, using the `length` as number of samples to draw
expect_length(random(p, c(1, 2, 3)), 3)
expect_length(random(p, cbind(1, 2, 3)), 3)
expect_length(random(p, rbind(1, 2, 3)), 3)
})
test_that("pdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(pdf(p, 0), dhpois(0, 1, 0.7))
expect_equal(pdf(p, 1), dhpois(1, 1, 0.7))
expect_equal(pdf(p, -12), 0)
expect_warning(pdf(p, 0.5))
expect_length(pdf(p, seq_len(0)), 0)
expect_length(pdf(p, seq_len(1)), 1)
expect_length(pdf(p, seq_len(10)), 10)
})
test_that("log_pdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(log_pdf(p, 0), dhpois(0, 1, 0.7, log = TRUE))
expect_equal(log_pdf(p, 1), dhpois(1, 1, 0.7, log = TRUE))
expect_equal(log_pdf(p, -12), -Inf)
expect_warning(log_pdf(p, 0.5))
expect_length(log_pdf(p, seq_len(0)), 0)
expect_length(log_pdf(p, seq_len(1)), 1)
expect_length(log_pdf(p, seq_len(10)), 10)
})
test_that("cdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(cdf(p, 0), phpois(0, 1, 0.7))
expect_equal(cdf(p, 1), phpois(1, 1, 0.7))
expect_length(cdf(p, seq_len(0)), 0)
expect_length(cdf(p, seq_len(1)), 1)
expect_length(cdf(p, seq_len(10)), 10)
})
test_that("quantile.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(quantile(p, 0), 0)
expect_equal(quantile(p, 0.5), 1)
expect_length(quantile(p, seq_len(0)), 0)
expect_length(quantile(p, c(0, 1)), 2)
})
test_that("vectorization of a HurdlePoisson distribution work correctly", {
d <- HurdlePoisson(c(1, 2), 0.7)
d1 <- d[1]
d2 <- d[2]
## moments
expect_equal(mean(d), c(mean(d1), mean(d2)))
expect_equal(variance(d), c(variance(d1), variance(d2)))
expect_equal(skewness(d), c(skewness(d1), skewness(d2)))
expect_equal(kurtosis(d), c(kurtosis(d1), kurtosis(d2)))
## pdf, log_pdf, cdf
expect_equal(pdf(d, 0), c(pdf(d1, 0), pdf(d2, 0)))
expect_equal(log_pdf(d, 0), c(log_pdf(d1, 0), log_pdf(d2, 0)))
expect_equal(cdf(d, 0.5), c(cdf(d1, 0.5), cdf(d2, 0.5)))
## quantile
expect_equal(quantile(d, 0.5), c(quantile(d1, 0.5), quantile(d2, 0.5)))
expect_equal(quantile(d, c(0.5, 0.5)), c(quantile(d1, 0.5), quantile(d2, 0.5)))
expect_equal(
quantile(d, c(0.1, 0.5, 0.9)),
matrix(
rbind(quantile(d1, c(0.1, 0.5, 0.9)), quantile(d2, c(0.1, 0.5, 0.9))),
ncol = 3, dimnames = list(NULL, c("q_0.1", "q_0.5", "q_0.9"))
)
)
## elementwise
expect_equal(
pdf(d, c(0, 1), elementwise = TRUE),
diag(pdf(d, c(0, 1), elementwise = FALSE))
)
expect_equal(
cdf(d, c(0, 1), elementwise = TRUE),
diag(cdf(d, c(0, 1), elementwise = FALSE))
)
expect_equal(
quantile(d, c(0.25, 0.75), elementwise = TRUE),
diag(quantile(d, c(0.25, 0.75), elementwise = FALSE))
)
## support
expect_equal(
support(d),
matrix(
c(support(d1)[1], support(d2)[1], support(d1)[2], support(d2)[2]),
ncol = 2, dimnames = list(names(d), c("min", "max"))
)
)
expect_true(all(is_discrete(d)))
expect_true(!any(is_continuous(d)))
expect_true(is.numeric(support(d1)))
expect_true(is.numeric(support(d1, drop = FALSE)))
expect_null(dim(support(d1)))
expect_equal(dim(support(d1, drop = FALSE)), c(1L, 2L))
})
test_that("named return values for HurdlePoisson distribution work correctly", {
d <- HurdlePoisson(c(5, 10), 0.75)
names(d) <- LETTERS[1:length(d)]
expect_equal(names(mean(d)), LETTERS[1:length(d)])
expect_equal(names(variance(d)), LETTERS[1:length(d)])
expect_equal(names(skewness(d)), LETTERS[1:length(d)])
expect_equal(names(kurtosis(d)), LETTERS[1:length(d)])
expect_equal(names(random(d, 1)), LETTERS[1:length(d)])
expect_equal(rownames(random(d, 3)), LETTERS[1:length(d)])
expect_equal(names(pdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(pdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(pdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(log_pdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(log_pdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(log_pdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(cdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(cdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(cdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(quantile(d, 0.5)), LETTERS[1:length(d)])
expect_equal(names(quantile(d, c(0.5, 0.7))), LETTERS[1:length(d)])
expect_equal(rownames(quantile(d, c(0.5, 0.7, 0.9))), LETTERS[1:length(d)])
expect_equal(names(support(d[1])), c("min", "max"))
expect_equal(colnames(support(d)), c("min", "max"))
expect_equal(rownames(support(d)), LETTERS[1:length(d)])
})
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context("test-HurdlePoisson")
test_that("print.HurdlePoisson works", {
expect_output(print(HurdlePoisson(1, 0.7)), regexp = "HurdlePoisson distribution")
})
test_that("random.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_length(random(p), 1)
expect_length(random(p, 100), 100)
expect_length(random(p[-1], 1), 0)
expect_length(random(p, 0), 0)
expect_error(random(p, -2))
# consistent with base R, using the `length` as number of samples to draw
expect_length(random(p, c(1, 2, 3)), 3)
expect_length(random(p, cbind(1, 2, 3)), 3)
expect_length(random(p, rbind(1, 2, 3)), 3)
})
test_that("pdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(pdf(p, 0), dhpois(0, 1, 0.7))
expect_equal(pdf(p, 1), dhpois(1, 1, 0.7))
expect_equal(pdf(p, -12), 0)
expect_warning(pdf(p, 0.5))
expect_length(pdf(p, seq_len(0)), 0)
expect_length(pdf(p, seq_len(1)), 1)
expect_length(pdf(p, seq_len(10)), 10)
})
test_that("log_pdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(log_pdf(p, 0), dhpois(0, 1, 0.7, log = TRUE))
expect_equal(log_pdf(p, 1), dhpois(1, 1, 0.7, log = TRUE))
expect_equal(log_pdf(p, -12), -Inf)
expect_warning(log_pdf(p, 0.5))
expect_length(log_pdf(p, seq_len(0)), 0)
expect_length(log_pdf(p, seq_len(1)), 1)
expect_length(log_pdf(p, seq_len(10)), 10)
})
test_that("cdf.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(cdf(p, 0), phpois(0, 1, 0.7))
expect_equal(cdf(p, 1), phpois(1, 1, 0.7))
expect_length(cdf(p, seq_len(0)), 0)
expect_length(cdf(p, seq_len(1)), 1)
expect_length(cdf(p, seq_len(10)), 10)
})
test_that("quantile.HurdlePoisson work correctly", {
p <- HurdlePoisson(1, 0.7)
expect_equal(quantile(p, 0), 0)
expect_equal(quantile(p, 0.5), 1)
expect_length(quantile(p, seq_len(0)), 0)
expect_length(quantile(p, c(0, 1)), 2)
})
test_that("vectorization of a HurdlePoisson distribution work correctly", {
d <- HurdlePoisson(c(1, 2), 0.7)
d1 <- d[1]
d2 <- d[2]
## moments
expect_equal(mean(d), c(mean(d1), mean(d2)))
expect_equal(variance(d), c(variance(d1), variance(d2)))
expect_equal(skewness(d), c(skewness(d1), skewness(d2)))
expect_equal(kurtosis(d), c(kurtosis(d1), kurtosis(d2)))
## pdf, log_pdf, cdf
expect_equal(pdf(d, 0), c(pdf(d1, 0), pdf(d2, 0)))
expect_equal(log_pdf(d, 0), c(log_pdf(d1, 0), log_pdf(d2, 0)))
expect_equal(cdf(d, 0.5), c(cdf(d1, 0.5), cdf(d2, 0.5)))
## quantile
expect_equal(quantile(d, 0.5), c(quantile(d1, 0.5), quantile(d2, 0.5)))
expect_equal(quantile(d, c(0.5, 0.5)), c(quantile(d1, 0.5), quantile(d2, 0.5)))
expect_equal(
quantile(d, c(0.1, 0.5, 0.9)),
matrix(
rbind(quantile(d1, c(0.1, 0.5, 0.9)), quantile(d2, c(0.1, 0.5, 0.9))),
ncol = 3, dimnames = list(NULL, c("q_0.1", "q_0.5", "q_0.9"))
)
)
## elementwise
expect_equal(
pdf(d, c(0, 1), elementwise = TRUE),
diag(pdf(d, c(0, 1), elementwise = FALSE))
)
expect_equal(
cdf(d, c(0, 1), elementwise = TRUE),
diag(cdf(d, c(0, 1), elementwise = FALSE))
)
expect_equal(
quantile(d, c(0.25, 0.75), elementwise = TRUE),
diag(quantile(d, c(0.25, 0.75), elementwise = FALSE))
)
## support
expect_equal(
support(d),
matrix(
c(support(d1)[1], support(d2)[1], support(d1)[2], support(d2)[2]),
ncol = 2, dimnames = list(names(d), c("min", "max"))
)
)
expect_true(all(is_discrete(d)))
expect_true(!any(is_continuous(d)))
expect_true(is.numeric(support(d1)))
expect_true(is.numeric(support(d1, drop = FALSE)))
expect_null(dim(support(d1)))
expect_equal(dim(support(d1, drop = FALSE)), c(1L, 2L))
})
test_that("named return values for HurdlePoisson distribution work correctly", {
d <- HurdlePoisson(c(5, 10), 0.75)
names(d) <- LETTERS[1:length(d)]
expect_equal(names(mean(d)), LETTERS[1:length(d)])
expect_equal(names(variance(d)), LETTERS[1:length(d)])
expect_equal(names(skewness(d)), LETTERS[1:length(d)])
expect_equal(names(kurtosis(d)), LETTERS[1:length(d)])
expect_equal(names(random(d, 1)), LETTERS[1:length(d)])
expect_equal(rownames(random(d, 3)), LETTERS[1:length(d)])
expect_equal(names(pdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(pdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(pdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(log_pdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(log_pdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(log_pdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(cdf(d, 5)), LETTERS[1:length(d)])
expect_equal(names(cdf(d, c(5, 7))), LETTERS[1:length(d)])
expect_equal(rownames(cdf(d, c(5, 7, 9))), LETTERS[1:length(d)])
expect_equal(names(quantile(d, 0.5)), LETTERS[1:length(d)])
expect_equal(names(quantile(d, c(0.5, 0.7))), LETTERS[1:length(d)])
expect_equal(rownames(quantile(d, c(0.5, 0.7, 0.9))), LETTERS[1:length(d)])
expect_equal(names(support(d[1])), c("min", "max"))
expect_equal(colnames(support(d)), c("min", "max"))
expect_equal(rownames(support(d)), LETTERS[1:length(d)])
})
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