Http://pg-server.csc.ncsu.edu/mediawiki/index.php/CSC/ECE 517 Fall 2010/ch1 S10 MS
XUnit in general, is only one kind of testing framework for object oriented languages. This page talks about the major testing frameworks available for the major object oriented languages such as Java, C++, C#,Python, Ruby and C#. Comparisons are made wherever possible between the major frameworks available in each language.
Java Testing Frameworks
Plenty of Testing framework exist for Java. JUnit has been the de facto standard for unit testing. However, other frameworks such as TestNG, JTIGER have been built to address various faults and deficiencies with JUnit. Our primary objective is to compare the various testing frameworks that exist for object oriented languages based on the primary purpose of the framework, strength, platforms that are supported by them, etc and thus help in choosing the best testing framework that fits in a particular suitable environment.
TestNG Framework
TestNG is a testing framework which can help to meet a broad range of testing such as unit testing, integration testing, functional testing, end-to -end testing.
To write a TESTNG test, we need to: Write the business logic of the test, and insert the TestNG annotations in them. Add the information about our test (such as: the class name, the groups we wish to run, etc) in a testing.xml file or in build.xml. Run the test. TestNG supports data driven testing
TestNG is invoked in several different ways: With a testing.xml file ANT Command line
It is possible to group the test methods of TestNG. We can declare methods that belong to these groups and specify groups that contain other groups. It is very flexible as it can help in choosing one set of regular expression and excluding the other sets. This splits the various test groups and there is no need to recompile again if we want to run two different tests back to back.
Requirements: JDK 1.4, 1.5 Invoked in many environments such as command line, ant, ECLIPSE, IDEA, MAVEN, etc
The annotations available in TestNG can be found at: http://testng.org/doc/documentation-main.html#annotations
TestNG is inspired from JUnit and Nunit, with additional functionalities such as Flexible test configuration, support for data driven testing, etc.[1]
Cactus
Cactus is a test framework for testing server-side java code such as Servlets, EJB, etc. It extends J Unit. Cactus implements an in-container strategy which means that tests are executed inside the container. The Cactus testing unit can be viewed as a system that consists of the following components: Cactus Framework: This provides the API to write Cactus tests. Cactus Integration Modules: They are front ends and frameworks that provide easy ways of using the Cactus Framework. Eg: Eclipse plugin Cactus Samples: They demonstrate how to write Cactus tests and how to use a few Integration Modules.
A useful testing framework provided by Cactus is integration unit testing( type 2). The tests written for this framework will exercise the interactions with the container. Cactus also provides other frameworks such as code logic unit testing (type 1) ,functional unit testing( type 3).
Cactus was developed to fit Type 2 but also to be a very good compromise for types 1 and 3, with the idea that it is much easier to have to write tests for a single framework than for several. It is believed that Cactus provides a middle ground that provides a high confidence that your code will run when deployed .[2]
To know how it works, click here : http://jakarta.apache.org/cactus/how_it_works.html
COMPARISON BETWEEN JUnit,TestNG and Cactus frameworks [3]
' | JUnit4 | TestNG | Cactus |
Supporting Type of Testing | Suitable more for Unit testing | Supports Unit testing,Functional testing, end-to-end testing, integration testing | Primarily unit testing. Also have frameworks for code logic unit testing , functional logic unit testing |
Conventions | Rigid Example: | Flexible | Not as flexible as TestNG |
Derived from JUnit | Yes, from the previous versions | Inspired from Junit,with added functionalities | Extends JUnit |
Init () | Init() has to be declared static | Not necessary | |
Flexibility for large suites | Not flexible for large test suites, | Flexible for running large test suites of code and thus one test\'s failure shouldn\'t mean having to rerun a suite of thousands. | No, it is suitable for unit testing. |
Suitable for | Best for a single object | Best for a higher level testing | Best for server-side java code such as Servlets, EJB, etc. |
Runs on | Command line, ANT,ECLIPSE | Command line,ANT, ECLIPSE, IDEA,MAVEN | ECLIPSE |
An example comparing JUNIT 4 and TestNG
JUnit 4 v/s TestNG
(source: http://www.ibm.com/developerworks/java/library/j-cq08296/)
The frameworks differ is in their core design. JUnit has always been an effective unit-testing framework, meaning that it was built to facilitate testing single objects. TestNG, on the other hand, was built to address testing at higher levels, and consequently, has some features not available in JUnit
JUnit 4 makes clever use of annotations. JUnit no longer requires you to define a test as a method whose name starts with test, and we can now run fixtures just once as opposed to for each test. However TestNG established itself as an annotations-based framework long before Junit 4. TestNG pioneered testing with annotations in Java programming, which made it a formidable alternative to JUnit. [4]
Sample J Unit 4 code
package test.com.acme.dona.dep; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertNotNull; import org.junit.BeforeClass; import org.junit.Test; public class DependencyFinderTest { private static DependencyFinder finder; @BeforeClass public static void init() throws Exception { finder = new DependencyFinder(); } @Test public void verifyDependencies() throws Exception { String targetClss = "test.com.acme.dona.dep.DependencyFind"; Filter[] filtr = new Filter[] { new RegexPackageFilter("java|junit|org")}; Dependency[] deps = finder.findDependencies(targetClss, filtr); assertNotNull("deps was null", deps); assertEquals("should be 5 large", 5, deps.length); } } (source: http://www.ibm.com/developerworks/java/library/j-cq08296/)
Sample TestNG code
package test.com.acme.dona.dep; import static org.testng.Assert.assertEquals; import static org.testng.Assert.assertNotNull; import org.testng.annotations.BeforeClass; import org.testng.annotations.Configuration; import org.testng.annotations.Test; public class DependencyFinderTest { private DependencyFinder finder; @BeforeClass private void init(){ this.finder = new DependencyFinder(); } @Test public void verifyDependencies() throws Exception { String targetClss = "test.com.acme.dona.dep.DependencyFind"; Filter[] filtr = new Filter[] { new RegexPackageFilter("java|junit|org")}; Dependency[] deps = finder.findDependencies(targetClss, filtr); assertNotNull(deps, "deps was null" ); assertEquals(5, deps.length, "should be 5 large"); } } (source: http://www.ibm.com/developerworks/java/library/j-cq08296/)
Both the codes may look a lot similar. However TestNG coding conventions are more flexible than JUnit 4.
JUnit forces us to declare the @BeforeClass method as static, which consequently requires us to also declare the fixture, finder, as static. We also have to declare the init() method as public. Looking at the TestNG code, you can find that such conventions aren't required. Its init() method is neither static nor public. Flexibility has been one of the strong points of TestNG right from the start. JUnit works well for a unit of code, whereas TestNG is better suited for high-level testing. Its flexibility is especially useful with large test suites.[4]
Some other JAVA testing units
[5]
' | JEasyTest | J2ME Unit Testing Toolkit | Jailer | Mockrunner |
Features | Generates coverage report Allows virtual mock object | Is a Java 2 Micro Edition (J2ME) library containing a unit testing framework for J2ME | Does test data exporting. JDBC agnostic Generates DbUnit datasets, hierarchically structured XML, and topologically sorted SQL-DML. | A lightweight framework for unit testing applications in the J2EE environment. |
Integrates with: | ECLIPSE 3.3 | ANT | Platform Independent | OS independent |
Testing frameworks for C++
When it comes to unit testing in Java, a unanimous choice would be JUnit. However for C++, there is no one clear winner. CppUnit is the most widely used tool for C++ which is a part of the XUnit family.
Following is a few basic factors to judge a good testing unit in C++ [6] :
Features | CppUnit | BOOST.test | CxxUnit |
Minimal amount of work needed to add new tests | No, and thus a major downfall. | Yes | Yes, very good. |
Easy to modify and port | Medium | Medium | Simplest |
Supports setup/teardown steps | Yes | Best | |
Handles exceptions and crashes well. | Yes | Yes, above others | Great support. |
Good assert functionality. | Pretty decent. | Yes | Best |
Supports different outputs. | Yes. Comes with IDE friendly output. | Probably, Not trivial to change. | Yes |
Supports suites | Yes. | Yes, but with a big catch. | Yes |
CppUnit passes most of the above tests , except for the first point and thus needs a lot of code typing.
Boost.Test isn’t exclusively a unit-testing framework, and is not X Unit based.
Out of the above three , cxxUnit turns out to be a favourite.
It comes close to the requirements of an ideal framework by leveraging the power of an external scripting language. It provides some nifty advanced features and great assert functionality. It does require the use of a scripting language as part of the build process, so those uncomfortable with that requirement, might want to look at one of the other two frameworks.
For work restricted to the PC, where modifying the framework is not required Boost.Test could be a very good choice. CppUnit , which has come a long way in years is a solid, complete framework The major drawbacks are the relative verbosity for adding new tests and fixtures.
http://gamesfromwithin.com/exploring-the-c-unit-testing-framework-jungle
Python
Doctest: It is a simple, ingenuine technology that allows you to write a narrative in a document which can directly be executed as a test. It is included in Python as a module.
Although doctest makes testing code readable for non-programmers ,the simplicity of a narrative test like doctest is accompanied by it’s own flaws .Some of the disadvantages of using doctest are
• These tests are difficult to handle in case of failures as they are more generic. Specific tests are narrower and better in communicating intent and ensuring coverage.
• The test code is executed in a special way thus making it difficult to reason about how it will be executed. It is also harder to program around the tests.
• It is actually difficult to get an outline of the tests at glance. There’s no tool that can give an overview of the unit tests in a doc test file [7].
An detailed information about doctest with thorough examples can be read at http://docs.python.org/library/doctest.html
Unittest: Unittest are more specific tests which are more functional in nature allowing it to be written for individual functions or the class as a whole.
The fact that Unittest is based on jUnit makes people with the xUnit familiarity pick it up really quick hence it is more Java based than python .It has been introduced in the Python’s library since version 2.1
The disadvantages of using the unit test are
• The tests have a different look and feel with respect to the code under test
• The assertions used in the text use custom syntax which makes it difficult
• The test code is difficult to understand compared to the Doctest and the strong basis on jUnit makes it difficult for the pure Python coders [8]
A detailed information about doctest with thorough examples can be read at http://docs.python.org/library/unittest.html
Doctest vs Unittest
Here we compare simple features of both the tests thus giving us an idea of which one to use based on the requirement
' | doctest | unittest |
Simplicity | Best suited for novice programmers | A little complex to use specially if unaware of Junit |
Documentation | Better Narratives | Tests have little or no comments |
Comprehensive testing | Doctests get clutterd for comprehensive tests and thus less readable | Best suited for comprehensive tests |
Flexibility and Control | Less flexible | More flexible |
Ruby
The basic testing framework for RUBY is xUnit . There are some frameworks which have evolved over the years which include RSpec, Trantula, Flog, RunCodeRun, Cucumber etc. We’ll talk about each of them in brief
Testing Framework | ' |
Rspec[9] | It is Behavior Driven Development whose basic features are |
· Behavior counts first, testing follows | |
· It focuses more on business values | |
· It’s more about getting the words right rather than just writing the test first | |
Advantages: | |
· These are extremely easy to read and makes sense to a non-programmer | |
· Rspec lets you unit test while also providing mocking and stubbing support | |
· Rspec can help with the coverage tests using Rcov | |
· One can also perform integration test using Rspec | |
Disadvantages: | |
· It involves a lot of behind the scene metaprogramming which makes the tests very difficult to understand | |
A simple Rspec example can be read at http://rspec.info/ | |
Cucumber[10] | Cucumber, the latest addition to the Rspec family allows one to execute documentation written in plain text(known as ‘stories’) |
A very good example of writing a test in cucumber can be read at http://cukes.info/ | |
Tarantula[11] | Tarantula is a Rail’s plugin that produces a detailed report describing the URL’s that it has crawled across and the responses that it received from each one of them. |
Tarantula\'s functionality somewhat overlaps with the on site testing, particularly if you are practicing test-driven development (TDD). Tarantula runs against your actual Web site thereby helping you to identify the problems associated with your production server, user-generated data, and HTML compliance. | |
Flog[12] | Flog is a tool which gives you a profile of your code’s complexity. It can given the complexity pertaining to each method in your code. One can also set threshold for each method using flog |
The complexity of a code can be important to | |
· Find the bugs as they are highly probable in complex code areas | |
· Complex codes can be considered for refactoring | |
A flog report has been explained and shown here http://www.ruby-forum.com/topic/131931 | |
C#
The list of frameworks that apply for .NET are applied for C#. A long list of testing frameworks are available for C# which are csUnit, NUnit, dotunit, VSNUnit, Nester[13].
' | NUnit | csUnit | Systin |
Description | NUnit has been ported from JUnit and has been written completely to take the advantage of the .NET languages. | It is a free open source unit testing tool for all the test-driven development .NET languages including C#. | Systin creates a domain specific testing language which allows an automatic testing of applications at the system level. |
The major advancements with NUnit are parameterized tests which provides a concise method to express a set of examples that can used to run individual test cases. | It has been inspired from JUnit and can be used as an add-in along with the NUnit | The tests can be written in a simple document which can be converted to a .net language driver class | |
Examples | http://www.nunit.org/blogs/ | http://www.csunit.org/tutorials/tutorial7/ | |
Used as | Testing framework, GUI and console tool | Testing Framework , Console tool and VS.NET Add In | |
References
[1] http://testng.org/doc/documentation-main.html
[2] http://jakarta.apache.org/cactus/index.html
[3] http://junit.sourceforge.net/doc/cookbook/cookbook.htm
[4] http://www.ibm.com/developerworks/java/library/j-cq08296
[5] http://www.opensourcetesting.org/unit_java.php
[6] http://gamesfromwithin.com/exploring-the-c-unit-testing-framework-jungle
[7] http://en.wikipedia.org/wiki/Doctest
[8] http://en.wikipedia.org/wiki/Unit_testing
[9] http://www.elctech.com/tutorials/rspec-tutorial
[10] http://www.rubyinside.com/cucumber-the-latest-in-ruby-testing-1342.html
[11] http://www.ruby-forum.com/topic/144083
[12] http://www.brynary.com/2007/9/13/scourging-your-ruby-code-with-flog