Robust testing

All tests are not created equal. Some tests are all encompassing; others are more focused. Each approach has its own advantages and disadvantages.

Goals to have when writing tests are to

Expectations

Unit tests provide a sense of security by making assertions on expected behavior. If all unit tests pass, then we can declare the object/method to be valid. πŸ¦†

Let’s look at a quick example of:

add_abs <- function(x, y) {
  abs(x + y)
}

Confirm the expected behavior

If we only test positive numbers, then we can guess the answer using +.

x <- 50; y <- 42
testthat::expect_equal(add_abs(x, y), x + y)

However, if a negative number is used, it will have different behavior than +. So we must test for both situations.

x <- 50; y <- -42
testthat::expect_equal(add_abs(x, y), x + y)

Even better, let’s test all four positive/negative situations:

for (info in list(
  list(x =  50, y =  42, expected =  92),
  list(x = -50, y =  42, expected =  8),
  list(x =  50, y = -42, expected =  8),
  list(x = -50, y = -42, expected =  92)
)) {
  testthat::expect_equal(
    add_abs(info$x, info$y),
    info$expected
  )
}

This concept can even be expanded to vectors of values. However, this can lead to a lot of code.

Assert as little unnecessary information

Tests should strive to only confirm behavior that we have control over. For example, if we are only interested in the behavior of abs, then we should not be concerned with the behavior of +.

We can assume that + is working properly and adds two numbers together. We do not necessarily need to perform a multitude of nonsense input testing on +, but it may make sense to see how abs() handles a few non-number input values.

testthat::expect_equal(add_abs(1, NA), NA)
testthat::expect_equal(add_abs(1, NULL), numeric(0))
testthat::expect_error(add_abs(1, "string"))

These tests could also be repeated by swapping x and y.

Write clear, direct tests

When writing tests, each test can contain many expectations but each expectation should pertain to the test being run.

For example, the two examples above could be included in the same test block:

# File: tests/testthat/test-add_abs-bad.R

test_that("add_abs() works", {
  for (info in list(
    list(x =  50, y =  42, expected =  92),
    list(x = -50, y =  42, expected =  8),
    list(x =  50, y = -42, expected =  8),
    list(x = -50, y = -42, expected =  92)
  )) {
    expect_equal(
      add_abs(info$x, info$y),
      info$expected
    )
  }

  expect_equal(add_abs(1, NA), NA)
  expect_equal(add_abs(1, NULL), numeric(0))
  expect_error(add_abs(1, "string"))
})

However, it’s better to break them out into two separate tests, each with their own descriptive title.

# File: tests/testthat/test-add_abs-better.R

test_that("add_abs() adds two numbers", {
  for (info in list(
    list(x =  50, y =  42, expected =  92),
    list(x = -50, y =  42, expected =  8),
    list(x =  50, y = -42, expected =  8),
    list(x =  50, y = -42, expected =  -8),
    list(x = -50, y = -42, expected =  92)
  )) {
    expect_equal(
      add_abs(info$x, info$y),
      info$expected
    )
  }
})

test_that("add_abs() handles non-numeric input", {
  expect_equal(add_abs(1, NA), NA)
  expect_equal(add_abs(1, NULL), numeric(0))
  expect_error(add_abs(1, "string"))
})

{testthat} does a great job of displaying output to the user when thing go wrong. When the first test goes wrong, an error will be given like:

── Failure (Line 9): add_abs() adds two numbers ────────────────────────────────
add_abs(info$x, info$y) (`actual`) not equal to info$expected (`expected`).

  `actual`:  8
`expected`: -8

It is great that an error was found, but it is also difficult to determine which assertion failed. Adding labels to the expectation using label and expected.label allows you to provide more context about which test failed.

# File: tests/testthat/test-add_abs-label.R

test_that("add_abs() adds two numbers", {
  for (info in list(
    list(x =  50, y =  42, expected =  92),
    list(x = -50, y =  42, expected =  8),
    list(x =  50, y = -42, expected =  8),
    list(x =  50, y = -42, expected =  -8), # <- Failing line
    list(x = -50, y = -42, expected =  92)
  )) {
    expect_equal(
      add_abs(info$x, info$y),
      info$expected,
      label = paste0("x:", info$x, "; y:", info$y),
      expected.label = info$expected
    )
  }
})
#> ── Failure (Line 9): add_abs() adds two numbers ────────────────────────────────
#> x:50; y:-42 (`actual`) not equal to info$expected (`expected`).
#>
#>   `actual`:  8
#> `expected`: -8

Another pattern that provides more context and allows for more tests is to move the for-loop around the call to test_that() and give the test a custom name:

# File: tests/testthat/test-add_abs-label.R

for (info in list(
  list(x =  50, y =  42, expected =  92),
  list(x = -50, y =  42, expected =  8),
  list(x =  50, y = -42, expected =  8),
  list(x =  50, y = -42, expected =  -8), # <- Failing line
  list(x = -50, y = -42, expected =  92)
)) {
  test_that(paste0("add_abs() adds two numbers: [", info$x, ", ", info$y, "]"), {
    expect_equal(
      add_abs(info$x, info$y),
      info$expected
    )
  })
}
#> Test passed 🎊
#> Test passed πŸŽ‰
#> Test passed 🌈
#> ── Failure (Line 9): add_abs() adds two numbers: [50, -42] ─────────────────────
#> add_abs(info$x, info$y) (`actual`) not equal to info$expected (`expected`).
#>
#>   `actual`:  8
#> `expected`: -8
#> Test passed πŸ₯‡

This isolates the test even more and does not let an earlier expectation stop testing a later expectation.

{shinytest2} expectations

{shinytest2} has a handful of built in expectation methods:

input/output names

Let’s take a look at AppDriver$expect_unique_names(). This method is called (by default) by AppDriver$new(check_names = TRUE) and confirms that no input or output HTML names are duplicated. If duplicate values are found, this results in invalid HTML and possible failure within Shiny.

One way to help keep input and output names unique is to adopt a naming behavior such as adding _out to the end of any output, e.g.Β outputs$text_out.

If you use a dynamic UI and want to reassert the names are still unique, it is perfectly acceptable to call AppDriver$expect_unique_names() after setting any dynamic UI values.

Shiny values:

AppDriver$expect_values() is the preferred method for testing in {shinytest2}. This method tests different input, output, and export values provided by the Shiny application.

When AppDriver$expect_values() is called, each input, output, and export value will be serialized to JSON and saved to a snapshot file (e.g.Β 001.json) for followup expectations.

In addition to this value snapshot file, a debug screenshot will be saved to the snapshot directory with its file name ending in _.png (e.g.Β 001_.png). This screenshot is useful for knowing what your application looked like when the values where captured. However, differences in the captured screenshot will never cause test failures. It is recommended to add _.new.png to your .gitignore file to ignore any new debug screenshots that have not been accepted.

For typical app testing, this method should cover most of your testing needs. (Remember, try to only test the content you have control over.)

Downloads

When shiny::downloadButton() or shiny::downloadLink() elements are clicked, a file is downloaded. To make an expectation on the downloaded file, you can use AppDriver$expect_download().

In addition to the file being saved, a snapshot of the file name being downloaded will be saved if a suggested file name is used.

UI expectations

Two methods are provided as a middle ground between taking a screenshots and testing Shiny app values: AppDriver$expect_text() and AppDriver$expect_html().

AppDriver$expect_text(selector=) asks the Chrome browser for the current text contents within the selected elements. This method is great to test contents that are not input or output values. AppDriver$expect_text() is not able to retrieve pseudo elements or values such as the text inside <text> or <textarea> input elements.

AppDriver$expect_html(selector=) asks the Chrome browser for the current DOM structures within the selected elements. This method is perfect for app authors who are constructing their own DOM structures and want to verify that they are consistently being produced. Again, AppDriver$expect_html() is not able to retrieve pseudo elements or values such as the text inside <text> or <textarea> input elements.

Finally, both of these methods wrap around AppDriver$expect_js(script=). This method executes a script and the return value is saved as a snapshot. AppDriver$expect_text() and AppDriver$expect_html() are wrappers around AppDriver$expect_js().

UI visual expectations

Taking a screenshot is the most brittle expectation provided by {shinytest2}. AppDriver$expect_screenshot() should only be used if it is absolutely necessary or if you are willing to handle many false-positive failures.

There are many ways a screenshot expectation can fail that is unrelated to your code, including:

App authors who use custom CSS or JavaScript may find this method useful. But it is still strongly recommended to only test the content you have control over to avoid false-positive failures.

When expecting a screenshot, a AppDriver$new(variant=) must be supplied. The value may be NULL, but it is recommended to use shinytest2::platform_variant().

Suggested approaches

Exported values

It cannot be recommended enough to use shiny::exportTestValues() to test your Shiny app’s reactive values.

If we make the assumption that package authors create consistent render methods, then we can test the values provided to render methods using shiny::exportTestValues(). Let’s look at an example of a Shiny app that displays a plot of the first n rows of data.

It is recommended to make your render methods contain minimal logic so that the value being rendered can also be exported.

library(shiny)
library(ggplot2)
ui <- fluidPage(
  numericInput("n", "Number of rows", 10, 1, nrow(cars)),
  plotOutput("plot")
)
server <- function(input, output) {
  dt <- reactive({
    head(cars, input$n)
  })
  plot_obj <- reactive({
    ggplot(dt(), aes_string("speed", "dist")) + geom_point()
  })

  output$plot <- renderPlot({
    plot_obj()
  })

  exportTestValues(
    dt = dt(),
    plot_obj = plot_obj()
  )
}
plot_app <- shinyApp(ui = ui, server = server)
plot_app

Both dt and plot_obj have been exported.Β This means that they are available when executing AppDriver$get_values(), AppDriver$get_value(), and AppDriver$expect_values().

app <- AppDriver$new(plot_app)

values <- app$get_values()
str(values) # Output has been truncated for printing
#> List of 3
#>  $ input :List of 1
#>   ..$ n: int 10
#>  $ output:List of 1
#>   ..$ plot:List of 5
#>   .. ..$ src     : chr "data:image/png;base64,iVBORw0"| __truncated__
#>   .. ..$ width   : int 962
#>   .. ..$ height  : int 400
#>   .. ..$ alt     : chr "Plot object"
#>   .. ..$ coordmap:List of 2 | __truncated__
#>  $ export:List of 2
#>   ..$ dt      :'data.frame': 10 obs. of  2 variables:
#>   .. ..$ speed: num [1:10] 4 4 7 7 8 9 10 10 10 11
#>   .. ..$ dist : num [1:10] 2 10 4 22 16 10 18 26 34 17
#>   ..$ plot_obj:List of 9
#>   .. ..$ data       :'data.frame':   10 obs. of  2 variables:
#>   .. .. ..$ speed: num [1:10] 4 4 7 7 8 9 10 10 10 11
#>   .. .. ..$ dist : num [1:10] 2 10 4 22 16 10 18 26 34 17
#>   .. ..$ layers     :List of 1 | __truncated__
#>   .. ..$ scales     :Classes 'ScalesList', 'ggproto', 'gg' <ggproto object: Class | __truncated__
#>   .. ..$ mapping    :List of 2 | __truncated__
#>   .. ..$ theme      : list() | __truncated__
#>   .. ..$ coordinates:Classes 'CoordCartesian', 'Coord', 'ggproto', 'gg' <ggproto  | __truncated__
#>   .. ..$ facet      :Classes 'FacetNull', 'Facet', 'ggproto', 'gg' <ggproto object: Class  | __truncated__
#>   .. ..$ plot_env   :<environment: 0x7fad13bd3d58>
#>   .. ..$ labels     :List of 2
#>   .. .. ..$ x: chr "speed"
#>   .. .. ..$ y: chr "dist"
#>   .. ..- attr(*, "class")= chr [1:2] "gg" "ggplot"

Plots are notoriously hard to test consistently over time and different platforms. Similar to AppDriver$expect_screenshot(), there are many ways outside of your code that the plot can produce a change which would fail a visual test. Some of these include:

When possible, it is recommended to use {ggplot2} over base::plot() as {ggplot2} is getting closer and closer to cross platform compatible. {ggplot2} objects can also be inspected and compared using {vdiffr} for cross platform support.

Snapshots vs values

Snapshot testing makes the test writing minimal and quick. However, this comes with a logical risk.

Snapshots are wonderful at determining if a change has occurred. But for the first execution of the snapshot there is nothing to compare, so the first value is taken as truth even if it is not correct. This allows for the opportunity for invalid values to be saved as truth. Most of the time, it is OK to use snapshots from the beginning of your testing experience, but keeping track of each snapshot file can be tedious when testing multiple applications with multiple variants.

To remedy this possibility, app values can be tested against known static values. For example, instead of testing the initial value of dt() against a snapshot, we can test it against head(cars, 10).

# Snapshot code
app$expect_values(export = "dt")

# Manual expectation code
expect_equal(
  app$get_value(export = "dt"),
  head(cars, 10)
)

If you have the time to manually inspect the snapshot files afterwards, using AppDriver snapshot code provides clean, minimal code. If snapshot files are unwieldy, you can use AppDriver to retrieve values to test against known values.

Example

Let’s look at how we could write a {shinytest2} test to make sure the plot is updated after updating our numeric input n. Assuming the Shiny app code above is saved in app.R, we can look at tests/testthat/test-export.R below. To successfully run the code below, be sure to have {vdiffr} installed.

Since we are not calling AppDriver$expect_screenshot() or AppDriver$get_screenshot(), we do not need to use AppDriver$new(variant=).

# File: ./tests/testthat/test-export.R
# App file: ./app.R
library(shinytest2)

test_that("`export`ed `plot_obj` is updated by `n`", {
  skip_if_not_installed("vdiffr")

  app <- AppDriver$new()

  # Verify `dt()` uses first 10 lines of `cars`
  n10 <- app$get_value(input = "n")
  expect_equal(n10, 10)
  # Verify `dt10()` data is first 10 lines of `cars`
  dt10 <- app$get_value(export = "dt")
  expect_equal(dt10, head(cars, n10))

  # Verify `plot_obj()` data is `dt()`
  plot_obj_10 <- app$get_value(export = "plot_obj")
  expect_equal(plot_obj_10$data, dt10)
  # Verify `plot_obj()` is consistent
  vdiffr::expect_doppelganger("cars-points-10", plot_obj_10)

  ## Update `n` to 20
  app$set_inputs(n = 20)

  # Verify `n` was updated
  n20 <- app$get_value(input = "n")
  expect_equal(n20, 20)
  # Verify `dt()` uses first 20 lines of `cars`
  dt20 <- app$get_value(export = "dt")
  expect_equal(dt20, head(cars, n20))

  # Verify `plot_obj()` data is `dt()`
  plot_obj_20 <- app$get_value(export = "plot_obj")
  expect_equal(plot_obj_20$data, dt20)
  vdiffr::expect_doppelganger("cars-points-20", plot_obj_20)
})

The second half of the test performs similar expectations to the first half of the test. This code can be pulled into a helper function and be written as:

# File: tests/testthat/test-export.R
library(shinytest2)

test_that("`export`ed `plot_obj` is updated by `n`", {
  skip_if_not_installed("vdiffr")

  app <- AppDriver$new(variant = platform_variant())

  expect_n_and_plot <- function(n) {
    # Verify `n` input equals `n`
    n_val <- app$get_value(input = "n")
    expect_equal(n_val, n, expected.label = n)
    # Verify `dt()` data is first `n` lines of `cars`
    dt <- app$get_value(export = "dt")
    expect_equal(dt, head(cars, n), expected.label = paste0("head(cars, ", n, ")"))

    # Verify `plot_obj()` data is `dt()`
    plot_obj <- app$get_value(export = "plot_obj")
    expect_equal(plot_obj$data, dt, info = paste0("n = ", n))
    # Verify `plot_obj()` is consistent
    vdiffr::expect_doppelganger(paste0("cars-points-", n), plot_obj)
  }

  expect_n_and_plot(10)

  # Update `n` to 20
  app$set_inputs(n = 20)
  expect_n_and_plot(20)
})

It should be noted that {ggplot2} objects can not be serialized to JSON and should be excluded from the AppDriver$expect_values() snapshots.

Cliffs Notes

Retrieving values

Expectation methods

All AppDriver$expect_*() should have their snapshots manually inspected when first created to ensure they contain expected content.