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Maybe my question is a newbie one, but I can not really understand the circumstances under which I would use ?

Whether I write simple applications or larger ones I test them with the System.out statements and it seams quite easy to me.

Why create test-classes with JUnit, unnecessary folders in the project if we still have to call the same methods, check what they return and we then have an overhead of annotating everything?

Why not write a class and test it at once with System.out but not create Test-classes?

PS. I have never worked on large projects I am just learning.

So what is the purpose?

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+1 for an interesting question. Now go Google some unit testing libraries and dive in. ;) ;) –  jmort253 Jun 2 '12 at 1:03
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Read The Art of Unit Testing –  rgeorge May 27 '13 at 17:49
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You are aware that every time you change anything in your program, all your previous work of manually examining output is invalidated and you have to redo them from start? –  Thorbjørn Ravn Andersen Jul 14 '13 at 20:33
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7 Answers

up vote 64 down vote accepted

That's not testing, that's "looking manually at output" (known in the biz as LMAO). More formally it's known as "looking manually for abnormal output" (LMFAO).

Any time you change code, you must run the app and LMFAO for all code affected by those changes. Even in small projects, this is problematic and error-prone.

Now scale up to 50k, 250k, 1m LOC or more, and LMFAO any time you make a code change. Not only is it unpleasant, it's impossible: you've scaled up the combinations of inputs, outputs, flags, conditions, and it's difficult to exercise all possible branches.

Worse, LMFAO might mean visiting pages upon pages of web app, running reports, poring over millions of log lines across dozens of files and machines, reading generated and delivered emails, checking text messages, checking the path of a robot, filling a bottle of soda, aggregating data from a hundred web services, checking the audit trail of a financial transaction... you get the idea. "Output" doesn't mean a few lines of text, "output" means aggregate system behavior.

Lastly, unit and behavior tests define system behavior. Tests can be run by a continuous integration server and checked for correctness. Sure, so can System.outs, but the CI server isn't going to know if one of them is wrong–and if it does, they're unit tests, and you might as well use a framework.

No matter how good we think we are, humans aren't good unit test frameworks or CI servers.

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+1 - "Looking manually at output". Also, I think Dave hit the nail right on the head. What the op is doing is definitely not testing. –  jmort253 Jun 2 '12 at 0:57
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Sorry mate, I ruined your perfect 42 bronze badge count. :-) –  Second Rikudo Jun 2 '12 at 17:53
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@Truth lol I'd been watching this answer creep up with fear, too; I knew it was coming. I have a towel signed by Douglas Adams--don't think I hadn't been pretty smug w/ that 42! –  Dave Newton Jun 2 '12 at 17:55
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@Dave Do you really have Towel signed by Douglas? Farking zardwarks, that's has to the single most best comment that I have ever read on SO. –  Rob Kielty Jun 2 '12 at 19:29
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@Rob Yep, got it and several books signed during his "Last Chance to See" tour. It was awesome, because everyone in line hated me for thinking of the obvious. Good times. –  Dave Newton Jun 2 '12 at 19:50
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We write tests to verify the correctness of a program's behaviour.

Verifying the correctness of a program's behaviour by inspecting the content of output statements using your eyes is a manual, or more specifically, a visual process. Now one may say, "But using my eyes works, I check that the code does what it's meant to do for these scenarios and once I can see it's correct we're good to go!" Now first up, it's great to that you are interested in whether or not the code works correctly. That's a good thing. You're ahead of the curve! Sadly, there are problems with this as an approach.

The first problem with visual inspection is that you're a bad welding accident away from never being able to check your code's correctness again.

The second problem is that the pair of eyes used is tightly coupled with the brain of the owner of the eyes. If the author of the code also owns the eyes used in the visual inspection process, the process of verifying correctness has a dependency on the knowledge about the program internalised in the visual inspector's brain.

It is difficult for a new pair of eyes to come in and verify the correctness of the code simply because they are not partnered up with brain of the original coder. The owner of the second pair of eyes will have to converse with original author of the code in order to fully understand the code in question. Conversation as a means of sharing knowledge is notoriously unreliable. A point which is moot if the Original Coder is unavailable to the new pair eyes. In that instance the new pair of eyes has to read the original code.

Reading other people's code that is not covered by unit tests is more difficult than reading code that has associated unit tests. At best reading other peoples code is tricky work, at its worst this is the most turgid task in software engineering. There's a reason that employers when advertising jobs stress that a project is a greenfield (or brand new) one. Writing code from scratch is easier than modifying existing code and thereby makes the advertised job appear more attractive to potential employees.

With unit testing we divide code up into its component parts. For each component we then set out our stall stating how the program should behave. Each unit test tells a story of how that part of the program should act in a specific scenario. Each unit test is like a clause in a contract that describes what should happen from the client code's point of view.

This then means that a new pair of eyes has two strands of live and accurate documentation on the code in question.

First they have the code itself, the implementation, how the code was done; second they have all of the knowledge that the original coder described in a set of formal statements that tell the story of how this code is supposed to behave.

Unit tests capture and formally describe the knowledge that the original author possessed when they implemented the class. The provide a description of how that class behaves when used by a client.

You are correct to question the usefulness of doing this because it is possible to write unit tests that are useless, do not cover all of the code in question, become stale or out of date and so on. How do we ensure that unit tests not only mimics but improves upon the process of a knowledgeable, conscientious author visually inspecting their code's output statements at runtime? Write the unit test first then write the code to make that test pass. When you are finished, let the computers run the tests, they're fast they are great at doing repetitive tasks they are ideally suited to the job.

Ensure test quality by reviewing them each time you touch off the code they test and run the tests for each build. If a test fails, fix it immediately.

We automate the process of running tests so that they are run each time we do a build of the project. We also automate the generation of code coverage reports that details what percentage of code that is covered and exercised by tests. We strive for high percentages. Some companies will prevent code changes from being checked in to source code control if they do not have sufficient unit tests written to describe any changes in behaviour to the code. Typically a second pair of eyes will review code changes in conjunction with the author of the changes. The reviewer will go through the changes ensure that the changes understandable and sufficiently covered by tests. So the review process is manual, but when the tests (unit and integration tests and possibly user acceptance tests) pass this manual review process the become part of the automatic build process. These are run each time a change is checked in. A server carries out this task as part of the build process.

Tests that are automatically run, maintain the integrity of the code's behaviour and help to prevent future changes to the code base from breaking the code.

Finally, providing tests allows you to aggressively re-factor code because you can make big code improvements safe in the knowledge that your changes do not break existing tests.

There is a caveat to Test Driven Development and that is that you have to write code with an eye to making it testable. This involves coding to interfaces and being using techniques such as Dependency Injection to instantiate collaborating objects. Check out the work of Kent Beck who describes TDD brilliantly. Look up coding to interfaces and study

Great question, keep asking them.

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+1 for the eyes being tightly coupled with the brain. –  Second Rikudo Jun 2 '12 at 17:58
    
Belated thanks @MadaraUchiha :) –  Rob Kielty Jun 25 '13 at 20:44
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When you test using something like System.out, you're only testing a small subset of possible use-cases. This is not very thorough when you're dealing with systems that could accept a near infinite amount of different inputs.

Unit tests are designed to allow you to quickly run tests on your application using a very large and diverse set of different data inputs. Additionally, the best unit tests also account for boundary cases, such as the data inputs that lie right on the edge of what is considered valid.

For a human being to test all of these different inputs could take weeks whereas it could take minutes for a machine.

Think of it like this: You're also not "testing" something that will be static. Your application is most likely going through constant changes. Therefore, these unit tests are designed to run at different points in the compile or deployment cycle. Perhaps the biggest advantage is this:

If you break something in your code, you'll know about it right now, not after you deployed, not when a QA tester catches a bug, not when your clients have cancelled. You'll also have a better chance of fixing the glitch immediately, since it's clear that the thing that broke the part of the code in question most likely happened since your last compile. Thus, the amount of investigative work required to fix the problem is greatly reduced.

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The main advantage of JUnit is that it is automated rather than you manually having to check with your print outs. Each test you write stays with your system. This means that if you make a change that has an unexpected side effect your test will catch it and fail rather than you having to remember to manually test everything after each change.

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I added some other System.out can NOT do:

  • Make each test cases independent (It's important)

    JUnit can do it: each time new test case instance will be created and @Before is called.

  • Separate testing code from source

    JUnit can do it.

  • Integration with CI

    JUnit can do it with Ant and Maven.

  • Arrange and combine test cases easily

    JUnit can do @Ignore and test suite.

  • Easy to check result

    JUnit offers many Assert methods (assertEquals, assertSame...)

  • Mock and stub make you focus on the test module.

    JUnit can do: Using mock and stub make you setup correct fixture, and focus on the test module logic.

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Unit tests ensure that code works as intended. They are also very helpful to ensure that the code still works as intended in case you have to change it later to build new functionalities to fix a bug. Having a high test coverage of your code allows you to continue developing features without having to perform lots of manual tests.

Your manual approach by System.out is good but not the best one.This is one time testing that you perform. In real world, requirements keep on changing and most of the time you make a lot of modificaiotns to existing functions and classes. So… not every time you test the already written piece of code.

there are also some more advanced features are in JUnit like like

Assert statements

JUnit provides methods to test for certain conditions, these methods typically start with asserts and allow you to specify the error message, the expected and the actual result

Some of these methods are

  1. fail(String) - Let the method fail. Might be used to check that a certain part of the code is not reached. Or to have failing test before the test code is implemented.
  2. assertTrue(true) / assertTrue(false) -Will always be true / false. Can be used to predefine a test result, if the test is not yet implemented.
  3. assertTrue([message], boolean condition) - Checks that the boolean condition is true.
  4. assertsEquals([String message], expected, actual) -Tests that two values are the same. Note: for arrays the reference is checked not the content of the arrays.
  5. assertsEquals([String message], expected, actual, tolerance) -Test that float or double values match. The tolerance is the number of decimals which must be the same.
  6. assertNull([message], object) -Checks that the object is null

and so on

JUnit Testsuite By this you can combine all you test in one suite and exicute them as a single unit. here i am giving you a simple example

import org.junit.runner.RunWith;
import org.junit.runners.Suite;
import org.junit.runners.Suite.SuiteClasses;

@RunWith(Suite.class)
@SuiteClasses({ MyClassTest.class, MySecondClassTest.class })
public class AllTests {

  } 
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JUnit is a unit testing framework for the Java Programming Language. It is important in the test driven development, and is one of a family of unit testing frameworks collectively known as xUnit.

JUnit promotes the idea of "first testing then coding", which emphasis on setting up the test data for a piece of code which can be tested first and then can be implemented . This approach is like "test a little, code a little, test a little, code a little..." which increases programmer productivity and stability of program code that reduces programmer stress and the time spent on debugging.

Features JUnit is an open source framework which is used for writing & running tests.

Provides Annotation to identify the test methods.

Provides Assertions for testing expected results.

Provides Test runners for running tests.

JUnit tests allow you to write code faster which increasing quality

JUnit is elegantly simple. It is less complex & takes less time.

JUnit tests can be run automatically and they check their own results and provide immediate feedback. There's no need to manually comb through a report of test results.

JUnit tests can be organized into test suites containing test cases and even other test suites.

Junit shows test progress in a bar that is green if test is going fine and it turns red when a test fails.

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