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This file is generated using sbt

Little Spec

A small test framework for sbt and Scala.js that allows you to write specifications.

Installation

sbt

Add the framework as library dependency

libraryDependencies += "org.qirx" %% "little-spec" % "0.4" % "test"

Add the test framework

testFrameworks += new TestFramework("org.qirx.littlespec.sbt.TestFramework")

Scala.js

Add the framework as library dependency

libraryDependencies += "org.qirx" %%% "little-spec" % "0.4" % "test"

Add the test framework

ScalaJSKeys.scalaJSTestFramework in Test := "org.qirx.littlespec.scalajs.TestFramework"

Usage

This documentation is generated from documentation._1_GettingStarted


To create a specification, extend an object or class with Specification and create a fragment. An empty fragment results in a TODO.

import org.qirx.littlespec.Specification

object ExampleSpec extends Specification {
  "implicit fragment" - {
    // fragment body
  }
}

Fragments can be created in two ways, using the string enhancement or by calling the createFragment method.

createFragment("explicit fragment", { /* fragment body */ })

Fragments can be nested

"outer" - {
  "inner" - {
    // fragment body
  }
}

Fragments can be disabled

"disabled" - {
  // fragment body
}.disabled

"disabled with a message" - {
  // fragment body
}.disabled("message")

An example showing multiple features

import org.qirx.littlespec.Specification

object ExampleSpec extends Specification {

  trait Adder[T] {
    def add(a: T, b: T): T
  }
  object Adder {
    implicit def numericAdder[T: Numeric] =
      new Adder[T] {
        def add(a: T, b: T) = implicitly[Numeric[T]].plus(a, b)
      }
    implicit def stringAdder =
      new Adder[String] {
        def add(a: String, b: String) = a + b
      }
    implicit def booleanAdder =
      new Adder[Boolean] {
        def add(a: Boolean, b: Boolean) = sys.error("Can not add booleans")
      }
  }

  def add[T](a: T, b: T)(implicit adder: Adder[T]) = adder.add(a, b)

  "The `add` method should" - {

    "exist" - {
      add(1, 2)
      success
    }

    "perform a basic addition on numbers" - {
      add(1, 2) is 3
      add(1L, 2L) is 3L
    }

    "be able to concatenate strings" - {
      add("one", "two") is "onetwo"
    }

    "have a method to add unicorns" - {
      pending("The rainbows are not ready yet")
    }

    example {
      add(1, 2) is 3
    }

    "fail for booleans" - {
      add(true, false) must throwA[RuntimeException]
        .withMessage("Can not add booleans")
    }
  }
}

This documentation is generated from documentation._2_AssertEnhancements


A few enhancements are added for every type, meaning that calling the appropriate method results in an implicit resolution of that method The is enhancement performs a simple == comparison it results in a failure when the values are not equal

1 is 1
"test" is "test"
Seq(1, 2, 3) is List(1, 2, 3)

The isLike enhancement is added for every type and performs a pattern match it results in a failure when the partial function does not match it returns the result of the partial function if it's matched

Test("test") isLike {
  case Test(value) => value is "test"
}

The must enhancement is added for every type and allows you to pass in an Assertion instance it results in a failure if the assertion returns a Left(message) it returns the body if the assertion returns a Right(body) it accepts different assertion types as long as there is an implicit conversion from A to B

val beTest =
  new Assertion[String] {
    def assert(s: => String) =
      if (s.isEmpty) Left("The string can not be empty")
      else Right(s is "test")
  }

"test" must beTest

The withMessage enhancement allows you to change the message of a failure

def result =
  1 is 2 withMessage(_ + " - failed")

result failsWith "1 is not equal to 2 - failed"
def result =
  1 is 2 withMessage("failed")

result failsWith "failed"

This documentation is generated from documentation._3_Assertions


The simplest form of assertions are the static assertions

"todo" - {
  todo
}

"success" - {
  success
}

"failure" - {
  failure("message")
}

"pending" - {
  pending("message")
}

There are different assertions available that work with the must enhancement The throwA and throwAn assertions expect an exception to be thrown

def result1 = 1 must throwA[CustomException]
def result2 = 2 must throwAn[OtherCustomException]

def message(name: String) = s"Expected '$name' but no exception was thrown"
result1 failsWith message("documentation.CustomException")
result2 failsWith message("documentation.OtherCustomException")
def code1: Any = throw new CustomException
def code2: Any = throw new OtherCustomException

def result1 = code1 must throwA[CustomException]
def result2 = code2 must throwAn[OtherCustomException]

result1 is success
result2 is success

If another exception is thrown it is ignored This assertion can be made more specific with the like method. If no exception was thrown it will behave the same when no exception is thrown.

def code1: Any = throw CustomException("test1")
def code2: Any = throw OtherCustomException("test2")

def result1 =
  code1 must throwA[CustomException].like {
    case CustomException(message) => pending(message)
  }
def result2 =
  code2 must throwAn[OtherCustomException].like {
    case OtherCustomException(message) => pending(message)
  }

result1 is pending("test1")
result2 is pending("test2")

It also allows you to check the message of an exception

def code1: Any = throw CustomException("test1")
def code2: Any = throw OtherCustomException("test2")

def result1 = code1 must throwA[CustomException].withMessage("test1")
def result2 = code2 must throwAn[OtherCustomException].withMessage("test2")

result1 is success
result2 is success

The beAnInstanceOf assertion expects an instance to be of a given type

def result1 = "string" must beAnInstanceOf[String]
def result2 = new CustomInstance must beAnInstanceOf[CustomType]

result1 is success
result2 is success

It fails when the instance if not of the correct type

This documentation is generated from documentation._4_ExampleFragments


Sometimes you want to show how your library is used, the problem with documenting code examples is that they 'rot'. In case you change your library you will not be notified of any compile errors in your documentation. On top of that, the code might not be doing what you inteded. The example fragment helps you in these cases.

def specialMethod(x:Int) = 1 + x

example {
  def result = specialMethod(1)
  result is 2
}

This documentation is generated from documentation._5_Customization


There are a lot of ways in which you can make things more readable and usable The easiest form of customization is the use of Assertion classes that work with the must enhancement.

val beAnElephant =
  new Assertion[String /* this assertions only works on strings */ ] {
    def assert(s: => String) =
      if (s != "elephant") Left("The given string is not an elephant")
      else Right(success)
  }

"elephant" must beAnElephant
("mouse" must beAnElephant) failsWith "The given string is not an elephant"

You could also rename or combine existing assertions

def beAFailure = throwA[Fragment.Failure]
def beAFailureWithMessage(message: String) = beAFailure withMessage message

failure("test") must beAFailureWithMessage("test")

Another form is by using enhancements

implicit class FailWith(t: => FragmentBody) {
  def failsWith(message: String) =
    t must (throwA[Fragment.Failure] withMessage message)
}

failure("test") failsWith "test"
implicit class IntAssertEnhancement(i: Int) {
  def isThree = i is 3
}

3.isThree

It's also possible to use the source code in custom fragments

import org.qirx.littlespec.io.Source
import org.qirx.littlespec.macros.Location

// Make sure the location is passed in implicitly,
// this allows the macro to materialize it.
class Example(implicit location: Location) { self =>

  // Source.codeAtLocation will grab the source code
  // between { and }
  def expecting(result: self.type => FragmentBody) =
    createFragment(Source.codeAtLocation(location), result(self))
}

trait MyLibraryTrait {
  def name: String
}

// Usage example:

"API documentation" -
  new Example {
    // Extend the library trait and implement the name property
    object CustomObject extends MyLibraryTrait {
      lazy val name = "test"
    }
  }.expecting {
    _.CustomObject.name is "test"
  }

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