Behaviour driven development for ExUnit with product management friendly readable scenarios.
- Minimal DSL on top of ExUnit.
- given, act, check instead of given, when, then to avoid naming collisions.
- Api can be used without macros, if necessary
- Steps are just functions, scenarios are just ExUnit tests.
- Not a full gherkin implementation, it just gives you the ability to decompose tests into reusable named steps.
- Separate DSLs for defining scenarios and implementing test steps.
- Dependency Free. Use whatever assertion, mocking and testing libraries you want.
Assuming you have a BDD stlye scenario like this:
Scenario make coffee
Given a coffee machine
And it has 250 ml of water in its tank
And it has java coffee beans in its reservoir
When i press the "make coffee" button
Then it makes coffee
In your ExUnit test, use the Behave
module:
defmodule MyCoffeeMachineTest do
use ExUnit.Case
use Behave, steps: [MyCoffeeMachineTestSteps]
...
end
Notice we're passing :steps
to Behave
, this is the module where you define your test steps.
Then, use the Behave
DSL to implement your scenario:
defmodule MyCoffeeMachineTest do
use ExUnit.Case
use Behave, steps: [MyCoffeeMachineTestSteps]
scenario "make coffee with dsl" do
given "coffee machine"
given "it has water", amount: 250
given "it has coffee", cultivar: :java
act "i press the button"
check "it makes coffee"
end
end
Your TestSteps
modules should be defined in a directory that gets picked up by the compiler, such as test/support
.
In those modules, you need to define a step function for each test step (given, act, check).
defmodule TestSteps do
use Behave.Scenario # for access to the step definition DSL
import ExUnit.Assertions
given "coffee machine" do
{:coffee_machine, CoffeeMachine.new()}
end
...
end
The given
macro expects you to return a tuple of an atom that will be used to refer to the returned value, and the value that should be available to subsequent steps.
You can run arbitrary code before returning the tuple. If you do not need the given
steps to produce any values, return :ignore
instead.
This is useful if you want to execute a given
just for it's side effects. Note that you cannot just return :nil
.
given
s can take arguments, too:
# in scenario:
given "it has water", amount: 250
# in step definition:
given "it has water", amount: amount do
{:coffee_machine, &CoffeeMachine.add_water(&1, amount)}
end
If you pass in a function as the second argument of the tuple, it will execute the function and pass in the value of the key, if it has been set by a prior step.
The value will be overwritten with this function's return value, similar to how update_in
works.
act
works similarly, but the keys it returns will be separated from the keys that the given
steps have prepared. act
also has access to all values set in prior
givens through an injected data
map:
act "i press the button" do
{:coffee, CoffeeMachine.brew(data.coffee_machine)}
end
Note that it is not possible to overwrite values set in givens
. If you need to modify a value created by a given
, use a given
.
act
can accept arguments, just as given
can.
Finally, run your assertions in a check
step:
check "it makes coffee" do
assert results.coffee != :disappointment
end
check
s cannot store any values. Their return values are always discarded. However, they have access to both the data
and results
maps.
data
contains all the values set in given
steps, and results
contains the values from the act
steps.
check
can accept arguments as well.
All that said and done, just run your test like any ExUnit test 🎉
The package is available on hex.pm and can be installed
by adding behave_bdd
to your list of dependencies in mix.exs
:
def deps do
[
{:behave_bdd, "~> 0.1.2"}
]
end
Documentation can be generated with ExDoc and published on HexDocs. Once published, the docs can be found at https://hexdocs.pm/behave_bdd.