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If you were to mandate a minimum percentage code-coverage for unit tests, perhaps even as a requirement for committing to a repository, what would it be?

Please explain how you arrived at your answer (since if all you did was pick a number, then I could have done that all by myself ;)

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26 Answers 26

up vote 382 down vote accepted

This prose by Alberto Savoia answers precisely that question (in a nicely entertaining manner at that!):

http://www.artima.com/forums/flat.jsp?forum=106&thread=204677

Testivus On Test Coverage

Early one morning, a programmer asked the great master:

“I am ready to write some unit tests. What code coverage should I aim for?”

The great master replied:

“Don’t worry about coverage, just write some good tests.”

The programmer smiled, bowed, and left.

...

Later that day, a second programmer asked the same question.

The great master pointed at a pot of boiling water and said:

“How many grains of rice should I put in that pot?”

The programmer, looking puzzled, replied:

“How can I possibly tell you? It depends on how many people you need to feed, how hungry they are, what other food you are serving, how much rice you have available, and so on.”

“Exactly,” said the great master.

The second programmer smiled, bowed, and left.

...

Toward the end of the day, a third programmer came and asked the same question about code coverage.

“Eighty percent and no less!” Replied the master in a stern voice, pounding his fist on the table.

The third programmer smiled, bowed, and left.

...

After this last reply, a young apprentice approached the great master:

“Great master, today I overheard you answer the same question about code coverage with three different answers. Why?”

The great master stood up from his chair:

“Come get some fresh tea with me and let’s talk about it.”

After they filled their cups with smoking hot green tea, the great master began to answer:

“The first programmer is new and just getting started with testing. Right now he has a lot of code and no tests. He has a long way to go; focusing on code coverage at this time would be depressing and quite useless. He’s better off just getting used to writing and running some tests. He can worry about coverage later.”

“The second programmer, on the other hand, is quite experience both at programming and testing. When I replied by asking her how many grains of rice I should put in a pot, I helped her realize that the amount of testing necessary depends on a number of factors, and she knows those factors better than I do – it’s her code after all. There is no single, simple, answer, and she’s smart enough to handle the truth and work with that.”

“I see,” said the young apprentice, “but if there is no single simple answer, then why did you answer the third programmer ‘Eighty percent and no less’?”

The great master laughed so hard and loud that his belly, evidence that he drank more than just green tea, flopped up and down.

“The third programmer wants only simple answers – even when there are no simple answers … and then does not follow them anyway.”

The young apprentice and the grizzled great master finished drinking their tea in contemplative silence.

Update

The point of this whole anecdote is that you should try and not focus on the coverage percentage per se, or try to find an arbitrary number for it, but instead focus on having as much logic and functionality tested as is humanly possible.

It is quite reasonable to have a, say, 50% coverage rate if only because only 50% of the code contains logic that can be tested, and the other 50% happens to be simple DTOs or things that are handled by a framework (you don't need to test the functionalities of your framework).

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14  
Sounds like an argument against the general concept of code coverage, as a metric for evaluating the usefulness of unit tests. I'm sure everyone agrees it isn't a perfect metric, but personal experience should hopefully show some correlation between CC % and unit test effectiveness... –  sanity Sep 18 '08 at 4:34
3  
sanity -- your statement is mirrored precisely by the response to the "second developer". Personal experience should dictate it. –  Jon Limjap Sep 18 '08 at 4:36
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No, but assigning an arbitrary percentage to a problem that is quite, should I say, malleable, would not be prudent. The "reasonable" part of the question appears to be subjective. –  Jon Limjap Sep 18 '08 at 5:05
43  
Perfect answer. Metrics do not make good code. You can write crappy code with 100% coverage and it doesn't make the code work good. +1 from me, shame I can't up more :) –  Rob Cooper Dec 11 '08 at 10:14
4  
4 years later, and still useful. Just pulled this on two of my colleagues this morning. –  SickHippie Nov 5 '12 at 19:48

Code Coverage is a misleading metric if 100% coverage is your goal (instead of 100% testing of all features).

  • You could get a 100% by hitting all the lines once. However you could still miss out testing a particular sequence (logical path) in which those lines are hit.
  • You could not get a 100% but still have tested all your 80%/freq used code-paths. Having tests that test every 'throw ExceptionTypeX' or similar defensive programming guard you've put in is a 'nice to have' not a 'must have'

So trust yourself or your developers to be thorough and cover every path through their code. Be pragmatic and don't chase the magical 100% coverage. If you TDD your code you should get a 90%+ coverage as a bonus. Use code-coverage to highlight chunks of code you have missed (shouldn't happen if you TDD though.. since you write code only to make a test pass. No code can exist without its partner test. )

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1  
- Exceptions- if you don't test your exception handling how do you know your code doesn't blow up when that happens? - Setters/Getters - context sensitive I suppose, but surely your tests should execute them as part of the test suite, and if they don't are they actually being used? –  MrWiggles Jan 30 '09 at 12:17
1  
Exceptions should be exceptional - not supposed to happen. If they do, you log the point of failure and bail. You can't test every exception that could happen. If the app is supposed to handle a non-happy path/event, you should have a test for it. Accessors may be added for future clients.. depends –  Gishu Jan 30 '09 at 13:40
    
I take back my words: Exceptions need not be exceptional - a method may throw an exception to indicate that it could not carry out its work to completion. What I meant was you don't need a test for every method where you've put a defensive just-in-case try-catch. All known failure modes of a method must be tested with automated UTs –  Gishu Jun 26 '09 at 7:21
    
I'm not sure what you mean by your second point "but still have tested all your code-paths". If you in fact mean full-path coverage, then no you cannot have full-path coverage without 100% line/branch/decision coverage. In fact, full-path coverage is usually unobtainable in any non-trivial program because of the combinatoric nature of branches in generating paths. en.wikipedia.org/wiki/Code_coverage#Other_coverage_criteria –  Zach Burlingame Apr 11 '11 at 23:40
    
@Zach - my mistake. I should have said "all code paths that you want to work" or "non-fringe paths". If the path failure is a very rare possibility I would be okay with it not being covered. –  Gishu Apr 15 '11 at 7:04

Code coverage is great, but functionality coverage is even better. I don't believe in covering every single line I write. But I do believe in writing 100% test coverage of all the functionality I want to provide (even for the extra cool features I came with myself and which were not discussed during the meetings).

I don't care if I would have code which is not covered in tests, but I would care if I would refactor my code and end up having a different behaviour. Therefore, 100% functionality coverage is my only target.

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This is a fantastic answer. Code that meets its requirements is a far more worthwhile goal than code that meets some arbitrary LoC coverage metric. –  David Wallace Apr 2 '12 at 23:23
    
If you can provide all functionality without hitting all the lines of code, then what are those extra lines of code doing there? –  Jens Timmerman Dec 14 '12 at 14:34
    
@JensTimmerman theoretically you're right. However, 100% code coverage is too expensive time-wise, and forcing my team to do that not only demotivates them, but also makes my project run over the deadline. I like to be somewhere in the middle, and testing functionality (call it: integration testing) is what I feel comfortable with. What code I don't test? Technical exception handling, (range/parameter) checks that could be needed. In short, all technical plumbing that I learned to apply from own experience or best practices I read about. –  taoufik Dec 14 '12 at 20:34

I'd have another anectode on test coverage I'd like to share.

We have a huge project wherein, over twitter, I noted that, with 700 unit tests, we only have 20% code coverage.

Scott Hanselman replied with words of wisdom:

Is it the RIGHT 20%? Is it the 20% that represents the code your users hit the most? You might add 50 more tests and only add 2%.

Again, it goes back to my Testivus on Code Coverage Answer. How much rice should you put in the pot? It depends.

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Obviously there has to be common sense in there. Its not much use if the 50% of the code you are testing are comments. –  sanity Sep 18 '08 at 4:48
    
It's more in the lines of... is your coverage spent on your application's core functionality, or is it uselessly testing trivial features/nice-to-haves? –  Jon Limjap Sep 18 '08 at 5:07

85% would be a good starting place for checkin criteria.

I'd probably chose a variety of higher bars for shipping criteria - depending on the criticality of the subsystems/components being tested.

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16  
How did you arrive at that percentage? –  sanity Sep 18 '08 at 4:29
    
As a footnote - this can be messy for projects where automation is difficult - as always be pragmatic about what is achievable vs. desireable. –  stephbu Sep 18 '08 at 4:29
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Mainly through experimentation. It is pretty easy to get to code coverage to 80-90% for Dev-related unit tests - going higher normally needs divine test intervention - or really simple code paths. –  stephbu Sep 18 '08 at 4:31
    
I start usually with 1) major runtime code paths 2) obvious exception cases that I explicitly throw 3) conditional cases that terminate with "failure" This gets you usually into the 70-80 range Then wackamole, bugs and regressions for corner cases, parameter fuzzing etc. Refactoring to enable injection of methods etc. I generally allow at least as much time for writing/refactoring dev-related tests as the main code itself. –  stephbu Oct 18 '13 at 13:26

If this were a perfect world, 100% of code would be covered by unit tests. However, since this is NOT a perfect world, it's a matter of what you have time for. As a result, I recommend focusing less on a specific percentage, and focusing more on the critical areas. If your code is well-written (or at least a reasonable facsimile thereof) there should be several key points where APIs are exposed to other code.

Focus your testing efforts on these APIs. Make sure that the APIs are 1) well documented and 2) have test cases written that match the documentation. If the expected results don't match up with the docs, then you have a bug in either your code, documentation, or test cases. All of which are good to vet out.

Good luck!

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I use cobertura, and whatever the percentage, I would recommend keeping the values in the cobertura-check task up-to-date. At the minimum, keep raising totallinerate and totalbranchrate to just below your current coverage, but never lower those values. Also tie in the Ant build failure property to this task. If the build fails because of lack of coverage, you know someone's added code but hasn't tested it. Example:

<cobertura-check linerate="0"
                 branchrate="0"
                 totallinerate="70"
                 totalbranchrate="90"
                 failureproperty="build.failed" />
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Generally speaking, from the several engineering excellence best practices papers that I have read, 80% for new code in unit tests is the point that yields the best return. Going above that CC% yields a lower amount of defects for the amount of effort exerted. This is a best practice that is used by many major corporations.

Unfortunately, most of these results are internal to companies, so there are no public literatures that I can point you to.

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Check out Crap4j. It's a slightly more sophisticated approach than straight code coverage. It combines code coverage measurements with complexity measurements, and then shows you what complex code isn't currently tested.

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It depends greatly on your application. For example, some applications consist mostly of GUI code that cannot be unit tested.

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1  
You should probably use Model View Presenter for you UI if you are in a TDD enviernment. –  Charles Graham Sep 18 '08 at 4:30

I don't think there can be such a B/W rule.
Code should be reviewed, with particular attention to the critical details.
However, if it hasn't been tested, it has a bug!

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Don't want a rule, just feedback on any personal experience on the correlation between code-coverage percentage and unit test effectiveness. –  sanity Sep 18 '08 at 4:35

Depending on the criticality of the code, anywhere from 75%-85% is a good rule of thumb. Shipping code should definitely be tested more thoroughly than in house utilities, etc.

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I think the best symptom of correct code coverage is that amount of concrete problems unit tests help to fix is reasonably corresponds to size of unit tests code you created.

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If you've been doing unit testing for a decent amount of time, I see no reason for it not to be approaching 95%+. However, at a minimum, I've always worked with 80%, even when new to testing.

This number should only include code written in the project (excludes frameworks, plugins, etc.) and maybe even exclude certain classes composed entirely of code written of calls to outside code. This sort of call should be mocked/stubbed.

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My answer to this conundrum is to have 100% line coverage of the code you can test and 0% line coverage of the code you can't test.

My current practice in Python is to divide my .py modules into two folders: app1/ and app2/ and when running unit tests calculate the coverage of those two folders and visually check (I must automate this someday) that app1 has 100% coverage and app2 has 0% coverage.

When/if I find that these numbers differ from standard I investigage and alter the design of the code so that coverage conforms to the standard.

This does mean that I can recommend achieving 100% line coverage of library code.

I also occasionally review app2/ to see if I could possible test any code there, and If I can I move it into app1/

Now I'm not too worried about the aggregate coverage because that can vary wildly depending on the size of the project, but generally I've seen 70% to over 90%.

With python, I should be able to devise a smoke test which could automatically run my app while measuring coverage and hopefully gain an aggreagate of 100% when combining the smoke test with unittest figures.

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Code coverage is great but only as long as the benefits that you get from it outweigh the cost/effort of achieving it.

We have been working to a standard of 80% for some time, however we have just made the decison to abandon this and instead be more focused on our testing. Concentrating on the complex business logic etc,

This decision was taken due to the increasing amount of time we spent chasing code coverage and maintaining existing unit tests. We felt we had got to the point where the benefit we were getting from our code coverage was deemed to be less than the effort that we had to put in to achieve it.

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When I think my code isn't unit tested enough, and I'm not sure what to test next, I use coverage to help me decide what to test next.

If I increase coverage in a unit test - I know this unit test worth something.

This goes for code that is not covered, 50% covered or 97% covered.

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I disagree completely. A unit test is only worth something if there's a chance that it will uncover a bug, (either a bug that exists now or a regression bug in the future); or if it helps to document the behaviour of your class. If a method is so simple that it can't really fail, such as a one-line getter, then there is zero value in providing a unit test for it. –  David Wallace Apr 2 '12 at 23:20
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I had bugs in one line getters. From my experience, there's no bug free code. There's no method that can't really fail. –  brickner Apr 19 '12 at 22:36
    
Assuming your one-line getter is used by other code that you do cover, and the tests of that code pass, then you've also indirectly covered the one-line getter. If your aren't using the getter, what's it doing in your code? I agree with David Wallace… there is no need to directly test simple helper functions that are used elsewhere if the code and tests which depend on the helper don't show there might be a problem with it. –  Lowell Montgomery Jun 18 '13 at 21:00

In my opinion, the answer is "It depends on how much time you have". I try to achieve 100% but I don't make a fuss if I don't get it with the time I have.

When I write unit tests, I wear a different hat compared to the hat I wear when developing production code. I think about what the tested code claims to do and what are the situations that can possible break it.

I usually follow the following criteria or rules:

  1. That the Unit Test should be a form of documentation on what's the expected behavior of my codes, ie. the expected output given a certain input and the exceptions it may throw that clients may want to catch (What the users of my code should know?)

  2. That the Unit Test should help me discover the what if conditions that I may not yet have thought of. (How to make my code stable and robust?)

If these two rules doesn't produce 100% coverage then so be it. But once, I have the time, I analyze the uncovered blocks and lines and determine if there are still test cases without unit tests or if the code needs to be refactored to eliminate the unecessary codes.

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Short answer: 60-80%

Long answer: I think it totally depends on the nature of your project. I typically start a project by unit testing every practical piece. By the first "release" of the project you should have a pretty good base percentage based on the type of programming you are doing. At that point you can start "enforcing" a minimum code coverage.

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We were targeting >80% till few days back, But after we used a lot of Generated code, We do not care for %age, but rather make reviewer take a call on the coverage required.

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This has to be dependent on what phase of your application development lifecycle you are in.

If you've been at development for a while and have a lot of implemented code already and are just now realizing that you need to think about code coverage then you have to check your current coverage (if it exists) and then use that baseline to set milestones each sprint (or an average rise over a period of sprints), which means taking on code debt while continuing to deliver end user value (at least in my experience the end user doesn't care one bit if you've increased test coverage if they don't see new features).

Depending on your domain it's not unreasonable to shoot for 95%, but I'd have to say on average your going to be looking at an average case of 85% to 90%.

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Viewing coverage from another perspective: Well-written code with a clear flow of control is the easiest to cover, the easiest to read, and usually the least buggy code. By writing code with clearness and coverability in mind, and by writing the unit tests in parallel with the code, you get the best results IMHO.

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I think that what may matter most is knowing what the coverage trend is over time and understanding the reasons for changes in the trend. Whether you view the changes in the trend as good or bad will depend upon your analysis of the reason.

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From the Testivus posting I think the answer context should be the second programmer. Having said this from a practical point of view we need parameter / goals to strive for. I consider that this can be "tested" in an Agile process by analyzing the code we have the architecture, functionality (user stories), and then come up with a number. Based on my experience in the Telecom area I would say that 60% is a good value to check.

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It's easy to dismiss this question with something like:

  • Covered lines do not equal tested logic and one should not read too much into the percentage.

True, but there are some important points to be made about code coverage. In my experience this metric is actually quite useful, when used correctly. Having said that, I have not seen all systems and i'm sure there are tons of them where it's hard to see code coverage analysis adding any real value. Code can look so different and the scope of the available test framework can vary.

Also, my reasoning mainly concerns quite short test feedback loops. For the product that I'm developing the shortest feedback loop is quite flexible, covering everything from class tests to inter process signalling. Testing a deliverable sub-product typically takes 5 minutes and for such a short feedback loop it is indeed possible to use the test results (and specifically the code coverage metric that we are looking at here) to reject or accept commits in the repository.

When using the code coverage metric you should not just have a fixed (arbitrary) percentage which must be fulfilled. Doing this does not give you the real benefits of code coverage analysis in my opinion. Instead, define the following metrics:

  • Low Water Mark (LWM), the lowest number of uncovered lines ever seen in the system under test
  • High Water Mark (HWM), the highest code coverage percentage ever seen for the system under test

New code can only be added if we don't go above the LWM and we don't go below the HWM. In other words, code coverage is not allowed to decrease, and new code should be covered. Notice how i say should and not must (explained below).

But doesn't this mean that it will be impossible to clean away old well-tested rubbish that you have no use for anymore? Yes, and that's why you have to be pragmatic about these things. There are situations when the rules have to be broken, but for your typical day-to-day integration my experience it that these metrics are quite useful. They give the following two implications.

  • Testable code is promoted. When adding new code you really have to make an effort to make the code testable, because you will have to try and cover all of it with your test cases. Testable code is usually a good thing.

  • Test coverage for legacy code is increasing over time. When adding new code and not being able to cover it with a test case, one can try to cover some legacy code instead to get around the LWM rule. This sometimes necessary cheating at least gives the positive side effect that the coverage of legacy code will increase over time, making the seemingly strict enforcement of these rules quite pragmatic in practice.

And again, if the feedback loop is too long it might be completely unpractical to setup something like this in the integration process.

I would also like to mention two more general benefits of the code coverage metric.

  • Code coverage analysis is part of the dynamic code analysis (as opposed to the static one, i.e. Lint). Problems found during the dynamic code analysis (by tools such as the purify family, http://www-03.ibm.com/software/products/en/rational-purify-family) are things like uninitialized memory reads (UMR), memory leaks, etc. These problems can only be found if the code is covered by an executed test case. The code that is the hardest to cover in a test case is usually the abnormal cases in the system, but if you want the system to fail gracefully (i.e. error trace instead of crash) you might want to put some effort into covering the abnormal cases in the dynamic code analysis as well. With just a little bit of bad luck, a UMR can lead to a segfault or worse.

  • People take pride in keeping 100% for new code, and people discuss testing problems with a similar passion as other implementation problems. How can this function be written in a more testable manner? How would you go about trying to cover this abnormal case, etc.

And a negative, for completeness.

  • In a large project with many involved developers, everyone is not going to be a test-genius for sure. Some people tend to use the code coverage metric as proof that the code is tested and this is very far from the truth, as mentioned in many of the other answers to this question. It is ONE metric that can give you some nice benefits if used properly, but if it is misused it can in fact lead to bad testing. Aside from the very valuable side effects mentioned above a covered line only shows that the system under test can reach that line for some input data and that it can execute without hanging or crashing.
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I would agree, anything above 80-85% is pretty good

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