Who tests the tests
I’ve written some tests that got complex enough that I also wrote tests for the logic within the tests.
We do that for some of the more complex business logic. We wrote libraries, which are used by our tests, and we wrote tests which test the library functions to ensure they provide correct results.
What always worries me is that WE came up with that. It wasn’t some higher up, or business unit, or anything. Only because we cared to do our job correctly. If we didn’t - nobody would. Nobody is watching the testers (in my experience).
Mutation testing is quite cool. Basically it analyzes you code and makes changes that should break something. For example if you have
if (foo) { ... }
it will remove the branch or make the branch run every time. It then runs your tests and sees if anything fails. If the tests don’t fail then either you should add another test, or that code was truly dead and should be removed.Of course this has lots of “false positives”. For example you may be checking if an allocation succeeded and don’t need to test if every possible allocation in your code fails, you trust that you can write
if (!mem) abort()
correctly.Right,too much coverage is also a bad thing. It leads to having to work on the silly tests every time you change som implementation detail.
Good tests let the insides of the unit change without breaking, as long as the behave the same to the outside world.
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What if the output is encrypted? Or 34d matrix.
What if the test was testing timing. Or threading. Or error handing?
LOOKS GOOD TO ME, SHIP IT
This is why you write the test before the code. You write the test to make sure something fails, then you write the code to make it pass. Then you repeat this until all your behaviors are captured in code. It’s called TDD
But, full marks for writing tests in the first place
That supposes to have a clear idea of what you’re going to code. Otherwise, it’s a lot of time wasted to constantly rewrite both the code and tests as you better understand how you’re going to solve the task while trying. I guess it works for very narrowed tasks rather than opened problems.
The tests help you discover what needs to be written, too. Honestly, I can’t imagine starting to write code unless I have at least a rough concept of what to write.
Maybe I’m being judgemental (I don’t mean to be) but what I am trying to say is that, in my experience, writing tests as you code has usually lead to the best outcomes and often the fastest delivery times.
constantly rewrite both the code and tests as you better understand how you’re going to solve the task while trying
The tests should be decoupled from the “how” though. It’s obviously not possible to completely decouple them, but if you’re “constantly” rewriting, something is going wrong.
Brilliant talk on that topic (with slight audio problems): https://www.youtube.com/watch?v=EZ05e7EMOLM
The only projects I’ve ever found interesting in my career was the stuff where nobody had any idea yet how the problem was going to be handled, and you’re right that starting with tests is not even possible in this scenario (prototyping is what’s really important). Whenever I’ve written yet another text/email/calling/video Skype clone for yet another cable company, it’s possible to start with tests because you already know everything that’s going into it.
100%. TDD is just not practicably applicable to a lot of scenarios and I wish evangelists were clearer on that detail.
This is the reason I dislike TDD.
TDD doesn’t imply that you write all the tests first. It just mean you have to write a test before you write a line of production code.
The idea is to ask yourself “what is the first step I need, where am I going to begin?”. You then write a test that validate this first step and fail. Then you write the code to make it pass. Once your done with that, you ask yourself: "what’s the next step? ". You, then, repeat the process for that step.
This is a process you are going to do anyway. Might as well take the time to write some test along with it.
That leads to focusing on the nitty gritty details first, building a library of thing you think you might need and you forget to think about the whole solution.
If you come up with another solution half way through, you will probably throw away half of the code you already built.
I see TDD as going depth first whereas I prefer to go breadth first. Try out a solution and skip the details (by mocking or assuming things). Once you have settled on the right solution you can fill in the details.
And then in the end we realize the most important thing was the tests we wrote along the way.
This seems to happen quite often when programmers try to save time when writing tests, instead of writing very simple tests and allowing the duplication to accumulate before removing it. I understand how they feel: they see the pattern and want to skip the boring parts.
No worries. If you skip the boring parts, then much of the time you’ll be less bored, but sometimes this will happen. If you want to avoid this, then you’ll have to accept some boredom then refactor the tests later. Maybe never, if your pattern ends up with only two or three instances. If you want to know which path is shorter before you start, then so would I. I can sometimes guess correctly. I mostly never know, because I pick one path and stick with it, so I can never compare.
This also tends to happen when the code they’re testing has painful hardwired dependencies on expensive external resources. The “bug” in the test is a symptom of the design of the production code. Yay! You learned something! Time to roll up your sleeves and start breaking things apart… assuming that you need to change it at all. Worst case, leave a warning for the next person.
If you’d like a simple rule to follow, here’s one: no branching in your tests. If you think you want a branch, then split the tests into two or more tests, then write them individually, then maybe refactor to remove the duplication. It’s not a perfect rule, but it’ll take you far…
the code they’re testing has painful hardwired dependencies on expensive external resources
I’ve told this story elsewhere, but I had a coworker who wrote an app to remote-control a baseball-throwing machine from a PDA (running WinCE). These machines cost upwards of $50K so he only very rarely had physical access to one. He loved to write tests, which did him no good when his code fired a 125 mph knuckleball a foot over a 10-year-old kid’s head. This resulted in the only occasion in my career when I had to physically restrain a client from punching a colleague.
Wow. I love that story and I’m glad nobody was hurt.
I wonder whether that happened as a result of unexpected behavior by the pitching machine or an incorrect assumption about the pitching machine in that coworker’s tests.
I find this story compelling because it illustrates the points about managing risk and the limits of testing, but it doesn’t sound like the typical story that’s obviously hyperbole and could never happen to me.
Thank you for sharing it.
It happened because the programmer changed the API from a call that accepted integer values between 0 and 32767 (minimum and maximum wheel speeds) to one that accepted float values between 0.0 and 1.0. A very reasonable change to make, but he quick-fixed all the compiler errors that this produced by casting the passed integer parameters all through his code to float and then clamping the values between 0.0 and 1.0. The result was that formerly low-speed parameters (like 5000 and 6000, for example, which should have produced something like a 20 mph ball with topspin) were instead cast and clamped to 1.0 - maximum speed on both throwing wheels and the aforesaid 125 mph knuckleball. He rewrote his tests to check that passed params were indeed between 0.0 and 1.0, which was pointless since all input was clamped to that range anyway. And there was no way to really test for a “dangerous” throw anyway since the machine was required to be capable of this sort of thing if that’s what the coach using it wanted.
Just dont write tests lol, that’s what QA is for.
This guy’s a business major.
(He just fired half of QA)
Hell no! I love QA, they find all the bugs I make since I dont bother with unit tests. I think every dev team should have 1:1 devs to testers.
Every time someone needs to change anything nontrivial, like a large feature or a refactor they just code away blindly, hope it doesn’t make anything explode, and then wait for QA to pat them on the back or raise any potential bug? Does this mean your QA team makes a full product sweep for every single feature that gets merged? If that’s the case, you’d need more than 1 QA per developer. If not, you’re now stuck debugging blindly too, not knowing when the thing broke?
I worked with a team like yours at one point, and it was hell 😬 Each new feature is like poking away at a black box hoping it doesn’t explode…
On the internet, nobody knows when you’re being sarcastic.
What do you do when QA finds a bug though? Just fix it without writing a test to ensure it doesn’t happen again?
Fix it then hire another QA
Run the test a second time, test passes. silently move to the next step.
Contrats, you have discovered why in TDD you write the test, watch the test fail, then make the test pass, then refactor. AKA: Red, Green, Refactor
I’m really having a hard time visualizing this. Do you have an example?
Sure, so say so you have a requirement to add two numbers
You write a test that has two two inputs and the output Run the test and watch it fail, check that the output is what you expect so you know the test is working
At this point you have no implementation and you use this opportunity to confirm that the test will work, by checking it is failing how you expect. If you are pairing sometime I teach that you should call out what you expect, kinda like in American pool. Sometimes the test passed in this case, this is your opportunity to break the test and confirm it will fail (though this is often a sign you did too much work previously, and might need to check if you really are making the smallest possible change)
Do the minimum to correct the problem described by the failing test (you can follow the transformation priority premises here if you are familiar with it)
At this point you have only implemented the simplest possible code, this makes it really easy to spot if there is a problem with it because of some flaw in the test, and you have confirmed the it matches your test
What’s more you can confirm all, and only behaviours described in the test are implemented
Look at the code and decide if you can simplify it, do any refactoring
Got to clean the kitchen because if we don’t clean the kitchen we will have to clean the garage and we don’t want that because it’s a bigger job.
repeat
Why this works is that the code is developed in a TDD style forces you to move in smaller steps meaning bugs are shallower when they do occur. You aren’t dealing with a 20 complex lines, you are dealing with a return const, or selection, or etc. The scope for the test being wrong is reduced and the amount of implementation is reduced, generally the tests end up more concise and smaller too and the interfaces are user friendly too because you didn’t think how do I calculate this, you thought what would be a nice way to call this.
What’s more it encourages an example driven approach that leads to developers thinking about the most sensible input data over and over again, and what that should output reducing the chance any one wrongly implemented test wouldn’t be picked up by other examples.
TL;DR, the driven word is the key, a test that is illogical will never drive you to the working code
If you use your type system to make invalid states impossible to represent & your functions are pure, there less—maybe nothing—to test, which will save you from this scenario.
Nothing to test? Lol what.
def add(a: int, b: int) -> int: return a * b
All types are correct. No side effects. Does the wrong thing.
Maybe it’s doing the right thing but is badly named
Maybe the it’s the English language that is wrong?
Old and busted: Fix the function
New hotness: Redefine enough words in the English language such that the function is now correctly implemented
turned out to be a semicolon
The tests wouldn’t even run of that was the issue, pretty sure (depends on the language I suppose)
fun situations can arise when you write , instead of ; For those not in the know, in c++ the comma operator evaluates the left expression, discards the value, then evaluates the right expression and returns the value. if you now have a a situation like this
int i = 0, printf("some message");
i has a completely different value, since it actually uses the return value of printf instead
And people give Python shit for significant whitespace 😂
I’ve seen some interesting thoughts on TDD with fail, pass, refactor assumptions. I’m curious if anyone here is writing functional code in order to then make a failing functional test pass i.e. BDD / ATDD. This follows similar logic without the refactor assumption. I’ve seen strong opinions on every side as far as this is concerned. On a team with Dev and QA competencies, I’ve heard a number of devs glad to get QA out of the bottleneck and put their knowledge to better use.
Depends. If I’m working in an existing system and I know what the shape of the thing I’m writing is, then I might write the test first and tdd it out as that process is usually a bit faster for me.
If I’m developing a new feature I’d probably spike out a solution and write an acceptance test to match it, then if I’m feeling pedantic I might throw away the spike code and tdd it back up from scratch but I haven’t done that in a while now.
This all depends on the language and the abstraction layer I’m at.
I remember being asked to make unit tests. I wasn’t the programmer and for the better part of a week, they didn’t even let me look at the code. Yeah, I can make some great unit tests that’ll never fail without access to the stuff I’m supposed to test. /s
I guess it would make sense if you’re testing a public API? To make sure the documentation is sufficient and accurate.
He specifically said “unit tests” though, which aren’t black box tests by definition
Yeah blackbox testing is a whole thing and it’s common when you need something to follow a spec and be compatible
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