CheckerCab

assert_values_for and friends.

View the full documentation on Hex.

Explanation

What is Checker Cab?

Checker Cab facilitates deep map comparisons within unit tests.

How Will Checker Cab Improve My Unit Tests?

Checker Cab helps alleviate tedium in these testing scenarios:

• Selective comparison on fields between maps.
• Phoenix Controller tests where expected input is an atom-keyed map such as a struct and expected output is a string-keyed map such as a JSON response, but keys are otherwise the same name.
• Comparisons between DateTime values and ISO-8601-formatted strings as values in otherwise-equivalent maps.
• Identify exactly which value did not match between maps with many keys.
• Update tests to account for new values added to a struct (or map used as a record).

When relying on this library for unit tests, it becomes easier to write more thorough tests with the same amount of effort or less.

Example

Assuming a User struct and a Factory module that may build parameters, a controller test may look like this:

  test "success: it returns a 200 and a newly updated `User`", %{conn: conn, user: %User{id: id}} do
    %User{} = expected_updates = MyApp.Factory.build(:user, id: id)

    conn = post(conn, Routes.user_path(conn, :update), user: expected_user)
    assert %{"id" => ^id} = json_response(conn, 200)["data"]
  end

This is a nice basis for a test to exercise HTTP response codes, but this does not assert that actual values have been set. The assertions could be added individually, with an assertion made for each field in the User struct. However, this can bloat a test over time at the expense of test clarity. Let's see it with Checker Cab instead.

  test "success: it returns a 200 and a newly updated `User`", %{conn: conn, user: %User{id: id}} do
    %User{} = expected_updates = MyApp.Factory.build(:user, id: id)

    conn = post(conn, Routes.user_path(conn, :update), user: expected_user)
    ## new stuff
    assert returned_user = %{"id" => ^id} = json_response(conn, 200)["data"]

    ## note: assert_values_for/1 and fields_for/1 are provided by CheckerCab.
    assert_values_for(
      expected: expected_updates,
      actual: {returned_user, :string_keys},
      fields: fields_for(User)
    )
  end

Regardless of how many fields the User struct may have or have added to it, the assertions lock down that the returned user will have all fields in the User struct and the values will be the same. The test is self-updating and will assist in catching regressions if the update function begins to set other values or if the view code does not capture newly-added fields to the User schema.

For the sake of example, if the controller action under test returned a User with the same keys and values differing only with the value for id, then the test would fail and the output may look like the example below:

  1) test success: it returns a 200 and a newly updated User (UserControllerTest)
     test/user_controller_test.exs:294
     There were issues with the comparison:

     Values did not match for:
       field: :id
         expected: "1ee3e9c4-fa81-4612-a13a-c554e5a3d438"
         actual: "a2ab48fa-96fb-41e5-8f2d-2f94f47fef91"
     code: assert_values_for(expected: expected_updates, actual: {returned_user :string_keys}, fields: fields_for(User))
     stacktrace:
     ## stacktrace here

As a different example, lets assume the same unit test. While adding a new feature, we add a new_key field to our User struct, but forget to add new_key to our Factory module. Checker Cab should detect the mismatch and alert the developer with following output:

  1) test success: it returns a 200 and a newly updated User (UserControllerTest)
     test/user_controller_test.exs:294
     There were issues with the comparison:

     Key(s) missing:
       field: :new_key didn't exist in expected
     code: assert_values_for(expected: expected_updates, actual: {returned_user :string_keys}, fields: fields_for(User))
     stacktrace:
     ## stacktrace here

Installation

Add it to your deps.

def deps do
  [
    ## check hex.pm for the latest version
    {:checker_cab, "~> 1.0.1", runtime: false, only: [:test]},
  ]
end

Integrating into a test suite

Import CheckerCab to your test case file:

## test/support/test_case.ex
defmodule YourApp.TestCase do
  use ExUnit.CaseTemplate

  using do
    quote do
      import CheckerCab
    end
  end
end

Ensure the test case file is compiled for the test environment:

## mix.exs
defmodule YourApp.MixProject
  use Mix.Project

  def project do
    [
      app: :your_app,
      version: "0.1.0",
      elixir: "~> 1.13",
      start_permanent: Mix.env() == :prod,
      deps: deps(),
      elixirc_paths: elixirc_paths(Mix.env()),
    ]
  end

  ## skipping for brevity

  defp elixirc_paths(:test), do: ["lib", "test/support"]
  defp elixirc_paths(_), do: ["lib"]
end

And finally, ensure the test case file is used in a test:

## test/your_app/contrived_example_test
defmodule YourApp.ContrivedExampleTest do
  use YourApp.TestCase

  ## tests go here.
end

That's it. You're ready to take advantage of the splendors of CheckerCab. Honk Honk 🚕

Contributing

Releasing a new version

To release a new version of this library, you have to

• Bump the version
• Update the changelog
• Release on Hex

Updating version and changelog

To bump the version, update it in mix.exs. We use semantic versioning (MAJOR.MINOR.PATCH) which means:

• Bump the MAJOR version only if there are breaking changes (first get approval from the maintainers)
• Bump the MINOR version if you introduced new features
• Bump the PATCH version if you fixed bugs

In the same code change that updates the version (such as a PR), also update the CHANGELOG.md file with a new entry.