write-testthat-tests
Über
Dieses Claude Skill erstellt umfassende Testthat (Edition 3) Test-Suiten für R-Paketfunktionen, die Erwartungen, Mocking, Snapshots und parametrisierte Tests abdecken. Es ist konzipiert, um Tests für neue Funktionen hinzuzufügen, die Testabdeckung zu erhöhen, Regressionstests zu schreiben oder Test-Infrastruktur einzurichten. Entwickler sollten es verwenden, wenn sie mit R-Paketen arbeiten, die robuste Tests nach testthat-Best-Practices benötigen.
Schnellinstallation
Claude Code
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Dokumentation
Write testthat Tests
Create comprehensive tests for R package functions using testthat edition 3.
When Use
- Adding tests for new package functions
- Increasing test coverage for existing code
- Writing regression tests for bug fixes
- Setting up test infrastructure for new package
Inputs
- Required: R functions to test
- Required: Expected behavior and edge cases
- Optional: Test fixtures or sample data
- Optional: Target coverage percentage (default: 80%)
Steps
Step 1: Set Up Test Infrastructure
If not already done:
usethis::use_testthat(edition = 3)
Creates tests/testthat.R and tests/testthat/ directory.
Got: tests/testthat.R and tests/testthat/ directory created. DESCRIPTION has Config/testthat/edition: 3 set.
If err: usethis not available? Manually create tests/testthat.R containing library(testthat); library(packagename); test_check("packagename"). Add tests/testthat/ directory.
Step 2: Create Test File
usethis::use_test("function_name")
Creates tests/testthat/test-function_name.R with template.
Got: Test file created at tests/testthat/test-function_name.R with placeholder test_that() block ready to fill in.
If err: usethis::use_test() not available? Manually create file. Follow naming convention test-<function_name>.R.
Step 3: Write Basic Tests
test_that("weighted_mean computes correct result", {
expect_equal(weighted_mean(1:3, c(1, 1, 1)), 2)
expect_equal(weighted_mean(c(10, 20), c(1, 3)), 17.5)
})
test_that("weighted_mean handles NA values", {
expect_equal(weighted_mean(c(1, NA, 3), c(1, 1, 1), na.rm = TRUE), 2)
expect_true(is.na(weighted_mean(c(1, NA, 3), c(1, 1, 1), na.rm = FALSE)))
})
test_that("weighted_mean validates input", {
expect_error(weighted_mean("a", 1), "numeric")
expect_error(weighted_mean(1:3, 1:2), "length")
})
Got: Basic tests cover correct output for typical inputs, NA handling behavior, input validation error messages.
If err: Tests fail immediately? Verify function loaded (devtools::load_all()). Error messages don't match? Use regex pattern in expect_error() instead of exact string.
Step 4: Test Edge Cases
test_that("weighted_mean handles edge cases", {
# Empty input
expect_error(weighted_mean(numeric(0), numeric(0)))
# Single value
expect_equal(weighted_mean(5, 1), 5)
# Zero weights
expect_true(is.nan(weighted_mean(1:3, c(0, 0, 0))))
# Very large values
expect_equal(weighted_mean(c(1e15, 1e15), c(1, 1)), 1e15)
# Negative weights
expect_error(weighted_mean(1:3, c(-1, 1, 1)))
})
Got: Edge cases covered: empty input, single values, zero weights, extreme values, invalid inputs. Each edge case has clear expected behavior.
If err: Function doesn't handle edge case as expected? Decide whether to fix function or adjust test. Document intended behavior for ambiguous cases.
Step 5: Use Fixtures for Complex Tests
Create tests/testthat/fixtures/ for test data:
# tests/testthat/helper.R (loaded automatically)
create_test_data <- function() {
data.frame(
x = c(1, 2, 3, NA, 5),
group = c("a", "a", "b", "b", "b")
)
}
# In test file
test_that("process_data works with grouped data", {
test_data <- create_test_data()
result <- process_data(test_data)
expect_s3_class(result, "data.frame")
expect_equal(nrow(result), 2)
})
Got: Fixtures provide consistent test data across multiple test files. Helper functions in tests/testthat/helper.R loaded automatic by testthat.
If err: Helper functions not found? Ensure file named helper.R (not helpers.R) and located in tests/testthat/. Restart R session if needed.
Step 6: Mock External Dependencies
test_that("fetch_data handles API errors", {
local_mocked_bindings(
api_call = function(...) stop("Connection refused")
)
expect_error(fetch_data("endpoint"), "Connection refused")
})
test_that("fetch_data returns parsed data", {
local_mocked_bindings(
api_call = function(...) list(data = list(value = 42))
)
result <- fetch_data("endpoint")
expect_equal(result$value, 42)
})
Got: External dependencies (APIs, databases, network calls) mocked so tests run without real connections. Mock return values exercise function's data processing logic.
If err: local_mocked_bindings() fails? Ensure function being mocked accessible in test scope. For functions in other packages, use .package argument.
Step 7: Snapshot Tests for Complex Output
test_that("format_report produces expected output", {
expect_snapshot(format_report(test_data))
})
test_that("plot_results creates expected plot", {
expect_snapshot_file(
save_plot(plot_results(test_data), "test-plot.png"),
"expected-plot.png"
)
})
Got: Snapshot files created in tests/testthat/_snaps/. First run creates baseline. Subsequent runs compare against it.
If err: Snapshots fail after intentional change? Update with testthat::snapshot_accept(). For cross-platform differences, use variant parameter to maintain platform-specific snapshots.
Step 8: Use Skip Conditions
test_that("database query works", {
skip_on_cran()
skip_if_not(has_db_connection(), "No database available")
result <- query_db("SELECT 1")
expect_equal(result[[1]], 1)
})
test_that("parallel computation works", {
skip_on_os("windows")
skip_if(parallel::detectCores() < 2, "Need multiple cores")
result <- parallel_compute(1:100)
expect_length(result, 100)
})
Got: Tests requiring special environments (network, database, multiple cores) properly guarded with skip conditions. These tests run locally but skipped on CRAN or restricted CI environments.
If err: Tests fail on CRAN or CI but pass local? Add appropriate skip_on_cran(), skip_on_os(), or skip_if_not() guard at top of test_that() block.
Step 9: Run Tests and Check Coverage
# Run all tests
devtools::test()
# Run specific test file
devtools::test_active_file() # in RStudio
testthat::test_file("tests/testthat/test-function_name.R")
# Check coverage
covr::package_coverage()
covr::report()
Got: All tests pass with devtools::test(). Coverage report shows target percentage met (aim for >80%).
If err: Tests fail? Read test output for specific assertion failures. Coverage below target? Use covr::report() to identify untested code paths. Add tests for them.
Check
- All tests pass with
devtools::test() - Coverage exceeds target percentage
- Every exported function has at least one test
- Error conditions tested
- Edge cases covered (NA, NULL, empty, boundary values)
- No tests depend on external state or order of execution
Pitfalls
- Tests depend on each other: Each
test_that()block must be independent - Hardcoded file paths: Use
testthat::test_path()for test fixtures - Floating point comparison: Use
expect_equal()(has tolerance) notexpect_identical() - Testing private functions: Test through public API when possible. Use
:::sparingly. - Snapshot tests in CI: Snapshots platform-sensitive. Use
variantparameter for cross-platform. - Forget
skip_on_cran(): Tests requiring network, databases, or long runtime must skip on CRAN
Examples
# Pattern: test file mirrors R/ file
# R/weighted_mean.R -> tests/testthat/test-weighted_mean.R
# Pattern: descriptive test names
test_that("weighted_mean returns NA when na.rm = FALSE and input contains NA", {
result <- weighted_mean(c(1, NA), c(1, 1), na.rm = FALSE)
expect_true(is.na(result))
})
# Pattern: testing warnings
test_that("deprecated_function emits deprecation warning", {
expect_warning(deprecated_function(), "deprecated")
})
See Also
create-r-package- set up test infrastructure as part of package creationwrite-roxygen-docs- document functions you testsetup-github-actions-ci- run tests automatically on pushsubmit-to-cran- CRAN requires tests to pass on all platforms
GitHub Repository
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