CSC/ECE 517 Fall 2010/ch1 1f TU: Difference between revisions

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Unit Test Framework is a software tool to support writing and running unit test.
Unit Test Framework is a software tool to support writing and running unit test.


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[[File:unittestframework.jpg|link=|frameless|border|caption]]


== List of unit testing frameworks for Ruby ==
== List of unit testing frameworks for Ruby ==

Revision as of 00:54, 6 September 2010

Unit-testing frameworks for Ruby

Unit Testing

A unit is the smallest building block of a software. Such a unit can be: a class, a method, an interface etc. Unit testing is the process of validating such units of code.

Benefits

Some of the benefits are:

  • Proof of your code
  • Better design - Thinking about the tests can help us to create small design elements, thereby improving the modularity and reusability of units.
  • Safety net on bugs - Unit tests will confirm that while refactoring no additional errors were introduced.
  • Be able to detect and remove defects in a more cost effective manner compared to the other stages of testing.
  • Be able to test parts of a source code in isolation.
  • Making debugging more efficient by searching for bugs in the probable code areas.
  • Documentation - Designers can look at the unit test for a particular method and learn about its functionality.

Unit-testing frameworks

Unit Test Framework is a software tool to support writing and running unit test.

caption

List of unit testing frameworks for Ruby

  • Test::Unit
  • RSpec
  • Shoulda
  • Cucumber

Simple Calculator Program in Ruby

This is a simple Calculator class having four methods addition,subtraction,multiplication and division.We will test each of these methods using above frameworks.

class Calculator 
 
 attr_writer :number1 
 attr_writer :number2
 
 def initialize(number1,number2)
   @number1 = number1
   @number2 = number2
 end
#-----------Addition of two numbers----------------#
 def addition
   result = @number1 + @number2
   return result
 end
#----------Subtraction of two numbers--------------#
  def subtraction
    result= @number1 - @number2
    return result
  end
#----------Multiplication of two numbers------------#
  def multiplication
    result= @number1 * @number2
    return result
  end
#-----------Division of two numbers-------------------#
 def division
   result = @number1 / @number2
   return result
 end
end

Test::Unit

Features of Test::Unit

  • It provides assertions which return pass or fail result for each unit test.
  • Each of the assertions has to be called from a context which is also called Test Method

Usage

The general idea behind unit testing is that you write a test method that makes certain assertions about your code, working against a test fixture. The results of a run are gathered in a test result and displayed to the user through some UI. Require ‘test/unit’ in your test script. Create a class that subclasses Test::Unit::TestCase. Optionally define setup and/or teardown to set up and/or tear down your common test fixture. So, lets break this down and see how Test::Unit provides each of these necessary pieces.

Assertions

An assertion statement specifies a condition that you expect to hold true at some particular point in your program. If that condition does not hold true, the assertion fails. An error is propagated with pertinent information so that you can go back and make your assertion succeed.

Test Fixture

A test fixture is all the things we need to have in place in order to run a test and expect a particular outcome. Sometimes it is also knows as the test context.

Test Method

A test method is a definitive procedure that produces a test result. Add a method that begins with "test" to your class.

Test Runners

To run the test class and view any failures that occur during the run we need a Test Runner. Examples -Test::Unit::UI::Console::TestRunner, Test::Unit::UI::GTK::TestRunner, etc.

Test Suite

A collection of tests which can be run.

Example of a test class
 require "calculator"
 require "test/unit"

 class TC_Calculator < Test::Unit::TestCase
  
  
  def test_addition
    assert_equal(8,Calculator.new(3,4).addition)
   
  end
 
  def test_subtraction
   assert_same(1,Calculator.new(4,3).subtraction)
  end
 
  def test_multiplication
   assert_not_same(12,Calculator.new(3,4).multiplication)
  end
 
  def test_division
     assert_not_equal(5,Calculator.new(8,2).division)
  end
 end

If we run it as "Ruby Application " we will get the following output

Loaded suite tc__calculator
Started
F.F.
Finished in 0.046 seconds.
 1) Failure:
  test_addition(TC_Calculator) [tc__calculator.rb:8]:
  <8> expected but was
  <7>.
 2) Failure:
  test_multiplication(TC_Calculator) [tc__calculator.rb:17]:
  <12>
  with id <25> expected to not be equal? to
  <12>
  with id <25>.
 4 tests, 4 assertions, 2 failures, 0 errors

Shoulda

Shoulda makes it easy to write elegant, understandable, and maintainable tests. Shoulda consists of matchers, test helpers, and assertions. It’s fully compatible with your existing tests in Test::Unit or RSpec, and requires no retooling to use.

Matchers
Test::Unit- and RSpec-compatible one-liners that test common Rails functionality. These tests would otherwise be much longer, more complex, and error-prone.
Helpers
#context and #should give you RSpec like test blocks in Test::Unit. In addition, you get nested contexts and a much more readable syntax.
Assertions
Many common Rails testing idioms have been distilled into a set of useful assertions

Features of Shoulda

  • It allows to write code with more clarity for ruby application
  • It allows to run test with the help of Test::Unit Configurations
  • It provides context to group tests for a particular requirement

Usage

 require "rubygems"
 require "calculator"
 require "test/unit"
 require "shoulda"

 class TC_Calculator_Shoulda < Test::Unit::TestCase

  context "Calculate" do

   should "addition of two numbers " do
     assert_equal 8,Calculator.new(3,4).addition 
   end

   should "subtraction of two numbers " do
    assert_equal 1,Calculator.new(4,3).subtraction
   end

   should "multiplication of two numbers" do
    assert_equal 12,Calculator.new(3,4).multiplication
   end

   should "division of two numbers" do
    assert_equal 4,Calculator.new(12,3).division
   end

  end

 end

If we run above test as "Ruby Application" we will get the output as follows

Loaded suite tc__calculator__shoulda
Started
F...
Finished in 0.064 seconds.
 1) Failure:
    test: Calculate should addition of two numbers . (TC_Calculator_Shoulda)
    <8> expected but was
    <7>.
4 tests, 4 assertions, 1 failures, 0 errors

RSpec

Features of RSpec
  • Use RSpec to independently specify models, views, controllers and helpers.
  • Integrated fixture loading.
  • Special generators for models and controllers that generate specs instead of tests.
  • Special RSpec matchers for even more readable specs.

Install RSpec

Browse to your ...\Ruby187\bin folder and run gem install rspec.

Usage

Let us create our first specification file:

require "calculator"

describe "TheCalculator's", "basic calculating" do

  it "should add two numbers correctly" do

  it "should subtract two numbers correctly" do

  it "should multiply two numbers correctly" do

  it "should divide two numbers correctly" do

  #...

end

This file contains nothing more than a description of an aspect of the calculator class. It contains a description of the basic calculating system. Inside the description are a set of four expectations (it "should add/subtract/multiply/divide..." and so on).

This is forcing/Establishing behavior. I know that all calculator's must perform the above functions. I don't know how I'm going to design this yet, but the tests will derive my design.

Let us associate code blocks with our expectations. Note that creating a Calculator object for each of our expectations will create duplication in the specification. This can be fixed using a before stanza in the specification. It allows us to run code before expectations are executed.

require "calculator"

 describe "TheCalculator's", "basic calculating" do
  before(:each) do
    @cal = Calculator.new(6,2)
  end

  it "should add two numbers correctly" do
    @cal.addition.should == 8
  end

  it "should subtract two numbers correctly" do
    @cal.subtraction.should == 4
  end

  it "should multiply two numbers correctly" do
    @cal.multiplication.should == 12
  end

  it "should divide two numbers correctly" do
    @cal.division.should == 3
  end

end

Let us run it:

produces:

Cucumber

Features of Cucumber

  • Its a Behavior Driven Development(BDD) tool for Ruby.
  • It focuses on story styling plain English Text.
  • It follows GWT(Given,When,Then) pattern

Usage

Let us first create a feature file to describe about our requirements

Feature: Addition
  In order perform addition of two numbers
  As a user
  I want the sum of two numbers

  
Scenario: Add two numbers
   Given I have entered <input1>
   And   I have entered <input2>
   When  I give add
   Then  The result should be <output>

Then we will create a ruby file to give a code implementation

require 'calculator'

Before do
 @input1=3
 @input2=4
end

Given /^I have entered <input(\d+)>$/ do |arg1|
   @calc = Calculator.new(@input1,@input2)
end

When /^I give add$/ do
  @result = @calc.addition
end

Then /^The result should be <output>$/ do
 puts @result
end

Now if we run the feature file we will get the following

Feature: Addition
  In order perform addition of two numbers
  As a user
  I want the sum of two numbers

  Scenario: Add two numbers            # calculator.feature:7
    Given I have entered <input1>      # addition.rb:8
    And I have entered <input2>        # addition.rb:8
    When I give add                    # addition.rb:12
7
    Then The result should be <output> # addition.rb:16

1 scenario (1 passed)
4 steps (4 passed)
0m0.010s