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This is definitely subjective, but I'd like to try to avoid it becoming argumentative. I think it could be an interesting question if people treat it appropriately.

The idea for this question came from the comment thread from my answer to the "What are five things you hate about your favorite language?" question. I contended that classes in C# should be sealed by default - I won't put my reasoning in the question, but I might write a fuller explanation as an answer to this question. I was surprised at the heat of the discussion in the comments (25 comments currently).

So, what contentious opinions do you hold? I'd rather avoid the kind of thing which ends up being pretty religious with relatively little basis (e.g. brace placing) but examples might include things like "unit testing isn't actually terribly helpful" or "public fields are okay really". The important thing (to me, anyway) is that you've got reasons behind your opinions.

Please present your opinion and reasoning - I would encourage people to vote for opinions which are well-argued and interesting, whether or not you happen to agree with them.


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408 Answers 408

Upfront design - don't just start writing code because you're excited to write code

I've seen SO many apps that are poorly designed because the developer was so excited to get coding that they just opened up a white page and started writing code. I understand that things change during the development lifecycle. However, it's difficult working with applications that have several different layouts and development methodologies from form to form, method to method.

It's difficult to hit the target your application is to handle if you haven't clearly defined the task and how you plan to code it. Take some time (and not just 5 minutes) and make sure you've laid out as much of it has you can before you start coding. This way you'll avoid a spaghetti mess that your replacement will have to support.


If you can only think of one way to do it, don't do it.

Whether it's an interface layout, a task flow, or a block of code, just stop. Do something to collect more ideas, like asking other people how they would do it, and don't go back to implementing until you have at least three completely different ideas and at least one crisis of confidence.

Generally, when I think something can only be done one way, or think only one method has any merit, it's because I haven't thought through the factors which ought to be influencing the design thoroughly enough. If I had, some of them would clearly be in conflict, leading to a mess and thus an actual decision rather than a rote default.

Being a solid programmer does not make you a solid interface designer

And following all of the interface guidelines in the world will only begin to help. If it's even humanly possible... There seems to be a peculiar addiction to making things 'cute' and 'clever'.


Programmers take their (own little limited stupid) programming language as a sacrosanct religion.

Its so funny how programmers take these discussions almost like religious believers do: no critics allowed, (often) no objective discussion, (very often) arguing based upon very limited or absent knowledge and information. For a confirmation, just read the previous answers, and especially the comments.

Also funny and another confirmation: by definition of the question "give me a controversial opinion", any controversion opinion should NOT qualify for negative votes - actually the opposite: the more controversial, the better. But how do our programmers react: like Pavlov's dogs, voting negative on disliked opinions.

PS: I upvoted some others for fairness.


Member variables should never be declared private (in java)

If you declare something private, you prevent any future developer from deriving from your class and extending the functionality. Essentially, by writing "private" you are implying that you know more now about how your class can be used than any future developer might ever know. Whenever you write "private", you ought to write "protected" instead.

Classes should never be declared final (in java)

Similarly, if you declare a class as final (which prevents it from being extended -- prevents it from being used as a base class for inheritance), you are implying that you know more than any future programmer might know, about what is the right and proper way to use your class. This never a good idea. You don't know everything. Someone might come up with a perfectly suitable way to extend your class that you didn't think of.

Java Beans are a terrible idea.

The java bean convention -- declaring all members as private and then writing get() and set() methods for every member -- forces programmers to write boilerplate, error-prone, tedious, and lengthy code, where no code is needed. Just make public members variables public! Trust in your ability to change it later, if you need to change the implementation (hint: 99% of the time, you never will).

Protected member variables are so very wrong! It breaks encapsulation and leads to SERIOUS problems. Only methods should ever be declared as protected. – Diego Deberdt Jan 26 '09 at 15:27

Inversion of control does not eliminate dependencies, but it sure does a great job of hiding them.


Good Performance VS Elegant Design

They are not mutually exclusive but I can't stand over-designed class structures/frameworks that completely have no clue about performance. I don't need to have a string of new This(new That(new Whatever())); to create an object that will tell me it's 5 AM in the morning oh by the way, it's 217 days until Obama's birthday, and the weekend is 2 days away. I only wanted to know if the gym was open.

Having balance between the 2 are crucial. The code needs to get nasty when you need to pump out all the processor do something intensive such as reading terabytes of data. Save the elegance for the places that consume the 10% of resources which is probably more than 90% of the code.


Software Development is a VERY small subset of Computer Science.

People sometimes seem to think the two are synonymous, but in reality there are so many aspects to computer science that the average developer rarely (if ever) gets exposed to. Depending on one's career goals, I think there are a lot of CS graduates out there who would probably have been better off with some sort of Software Engineering education.

I value education highly, have a BS in Computer science and am pursuing a MS in it part time, but I think that many people who obtain these degrees treat the degree as a means to an end and benefit very little. I know plenty of people who took the same Systems Software course I took, wrote the same assembler I wrote, and to this day see no value in what they did.


That, erm, people should comment their code? It seems to be pretty controversial around here...

The code only tells me what actually it does; not what it was supposed to do

The time I see a function calculating the point value of an Australian Bond Future is the time I want to see some comments that indicate what the coder thought the calculation should be!


Enable multiple checkout If we improve enough discipline of the developers, we will get much more efficiency from this setting by auto merge of source control.


Schooling ruins creativity *

*"Ruins" means "potentially ruins"

Granted, schooling is needed! Everyone needs to learn stuff before they can use it - however, all those great ideas you had about how to do a certain strategy for a specific business-field can easily be thrown into that deep brain-void of ours if we aren't careful.

As you learn new things and acquire new skills, you are also boxing your mindset on those new things and skills, since they apparently are "the way to do it". Being humans, we tend to listen to authorities - being it a teacher, a consultant, a co-worker or even a site / forum you like. We should ALWAYS be aware of that "flaw" in how our mind works. Listen to what other people say, but don't take what they say for granted. Always keep a critic point-of-view on every new information you receive.

Instead of thinking "Wow, that's smart. I will use that from now on", we should think "Wow, that's smart. Now, how can I use that in my personal toolbox of skills and ideas".


It takes less time to produce well-documented code than poorly-documented code

When I say well-documented I mean with comments that communicate your intention clearly at every step. Yes, typing comments takes some time. And yes, your coworkers should all be smart enough to figure out what you intended just by reading your descriptive function and variable names and spelunking their way through all your executable statements. But it takes more of their time to do it than if you had just explained your intentions, and clear documentation is especially helpful when the logic of the code turns out to be wrong. Not that your code would ever be wrong...

I firmly believe that if you time it from when you start a project to when you ship a defect-free product, writing well-documented code takes less time. For one thing, having to explain clearly what you're doing forces you to think it through clearly, and if you can't write a clear, concise explanation of what your code is accomplishing then it's probably not designed well. And for another purely selfish reason, well-documented and well-structured code is far easier to dump onto someone else to maintain - thus freeing the original author to go create the next big thing. I rarely if ever have to stop what I'm doing to explain how my code was meant to work because it's blatantly obvious to anyone who can read English (even if they can't read C/C++/C# etc.). And one more reason is, frankly, my memory just isn't that good! I can't recall what I had for breakfast yesterday, much less what I was thinking when I wrote code a month or a year ago. Perhaps your memory is far better than mine, but because I document my intentions I can quickly pick up wherever I left off and make changes without having to first figure out what I was thinking when I wrote it.

That's why I document well - not because I feel some noble calling to produce pretty code fit for display, and not because I'm a purist, but simply because end-to-end it lets me ship quality software in less time.


Never let best practices or pattern obsessesion slave you.

These should be guidelines, not laws set in stone.

And I really like the patterns, and the GoF book more or less says it that way too, stuff to browse through, providing a common jargon. Not a ball and chain gospel.


Sometimes it's okay to use regexes to extract something from HTML. Seriously, wrangle with an obtuse parser, or use a quick regex like /<a href="([^"]+)">/? It's not perfect, but your software will be up and running much quicker, and you can probably use yet another regex to verify that the match that was extracted is something that actually looks like a URL. Sure, it's hacky, and probably fails on several edge-cases, but it's good enough for most usage.

Based on the massive volume of "How use regex get HTML?" questions that get posted here almost daily, and the fact that every answer is "Use an HTML parser", this should be controversial enough.


Cleanup and refactoring are very important in (team) development

A lot of work in team development has to do with management. If you are using a bug tracker than it is only useful if someone takes the time to close/structure things and lower the amount of tickets. If you are using a source code management somebody needs to cleanup here and restructure the repository quite often. If you are programming than there should be people caring about refactoring of the lazy produced stuff of others. It is part of most of the aspects some will face while doing software development.

Everybody agrees to the necessity of this kind of management. And it is always the first thing that is skipped!


Many developers have an underdeveloped sense of where to put things, resulting in messy source code organization at the file, class, and method level. Further, a sizable percentage of such developers are essentially tone-deaf to issues of code organization. Attempts to teach, cajole, threaten, or shame them into keeping their code clean are futile.

On any sufficiently successful project, there's usually a developer who does have a good sense of organization very quietly wielding a broom to the code base to keep entropy at bay.


My controversial opinion is probably that John Carmack (ID Software, Quake etc.) is not a very good programmer.

Don't get me wrong, he's a very smart programmer in my opinion, but after I noticed the line "#define private public" in the quake sourcecode I couldn't help but think he's a guy that gets the job done nomatter what, but in my definition not a good programmer :) This opinion has gotten me into a lot of heated discussions though ;)


Software is not an engineering discipline.

We never should have let the computers escape from the math department.


Using Stored Proc is easy to maintain and less deployment vs Using ORM is OO way thus it is good

I've heard this lot in many of my projects, when ever this statements appear it is always tough get it settled.


I don't care how powerful a programming language is if its syntax is not intuitive and I can't set it aside for some period of time and come back to it without too much effort at refreshing on the details. I would rather a language itself be intuitive than it be cryptic but powerful for creating DSL's. A computer language is a user interface for ME, and I want it designed for intuitive ease of use like any other user interface.


Understanding "what" to do is at least as important as knowing "how" to do it, and almost always it's much more important than knowing the 'best' way to solve a problem. Domain-specific knowledge is often crucial to write good software.


Defects and Enhancement Requests are the Same

Unless you are developing software on a fixed-price contract, there should be no difference when prioritizing your backlog between "bugs" and "enhancements" and "new feature" requests. OK - maybe that's not controversial, but I have worked on enterprise IT projects where the edict was that "all open bugs must be fixed in the next release", even if that left no developer time for the most desirable new features. So, a problem which was encountered by 1% of the users, 1% of the time took precedence over a new feature would might be immediately useful to 90% of the users. I like to take my entire project backlog, put estimates around each item and take it to the user community for prioritization - with items not classified as "defect", "enhancement", etc.


Software development is an art.

  1. Good architecture is grown, not designed.

  2. Managers should make sure their team members always work below their state of the art, whatever that level is. When people work withing their comfort zone they produce higher quality code.


in almost all cases, comments are evil:

You should be commenting on the why, not the what or how. – reinierpost Sep 17 '09 at 18:41

I'm always right.

Or call it design by discussion. But if I propose something, you'd had better be able to demonstrate why I'm wrong, and propose an alternative that you can defend.

Of course, this only works if I'm reasonable. Luckily for you, I am. :)


Usability problems are never the user's fault.

I cannot count how often a problem turned up when some user did something that everybody in the team considered "just a stupid thing to do". Phrases like "why would somebody do that?" or "why doesn't he just do XYZ" usually come up.

Even though many are weary of hearing me say this: if a real-life user tried to do something that either did not work, caused something to go wrong or resulted in unexpected behaviour, then it can be anybody's fault, but not the user's!

Please note that I do not mean people who intentionally misuse the software. I am referring to the presumable target group of the software.


Delphi is fun

Yes, I know it's outdated, but Delphi was and is a very fun tool to develop with.


Lower level languages are inappropriate for most problems.


When Creating Unit tests for a Data Access Layer, data should be retrieved directly from the DB, not from mock objects.

Consider the following:

void IList<Customer> GetCustomers()
  List<Customer> res = new List<Customer>();

  DbCommand cmd = // initialize command
  IDataReader r = cmd.ExecuteQuery();

     Customer c = ReadFiledsIntoCustomer(r);

  return res;

In a unit test for GetCustomers, should the call to cmd.ExecuteQuery() actually access the DB or should it's behavior be mocked?

I reckon that you shouldn't mock the actual call to the DB if the following holds true:

  1. A test server and the schema exist.
  2. The schema is stable (meaning you are not expecting major changes to it)
  3. The DAL has not smart logic: queries are constructed trivially (config/stored procs) and the desirialization logic is simple.

From my experience the great benefit of this approach is that you get to interact with the DB early, experiancing the 'feel', not just the 'look'. It saves you lots of headaches afterwards and is the best way to familiarize oneself with the schema.

Many might argue that as soon as the execution flow crosses the process boundaries- it seizes to be a unit test. I agree it has its drawbacks, especially when the DB is unavailable and then you cannot run UT.

However, I believe that this should be a valid thing to do in many cases.


Programmers should avoid method hiding through inheritance at all costs.

In my experience, virtually every place I have ever seen inherited method hiding used it has caused problems. Method hiding results in objects behaving differently when accessed through a base type reference vs. a derived type reference - this is generally a Bad Thing. While many programmers are not formally aware of it, most intuitively expect that objects will adhere to the Liskov Substitution Principle. When objects violate this expectation, many of the assumptions inherent to object-oriented systems can begin to fray. The most egregious cases I've seen is when the hidden method alters the state of the object instance. In these cases, the behavior of the object can change in subtle ways that are difficult to debug and diagnose.

Ok, so there may be some infrequent cases where method hiding is actually useful and beneficial - like emulating return type covariance of methods in languages that don't support it. But the vast majority of time, when developers use method hiding it is either out of ignorance (or accident) or as a way to hack around some problem that probably deserves better design treatment. In general, the beneficial cases I've seen of method hiding (not to say there aren't others) is when a side-effect free method that returns some information is hidden by one that computes something more applicable to the calling context.

Languages like C# have improved things a bit by requiring the new keyword on methods that hide a base class method - at least helping avoid involuntary use of method hiding. But I find that many people still confuse the meaning of new with that of override - particularly since in simple scenarios their behavior can appear identical. It would be nice if tools like FxCop actually had built-in rules for identifying potentially bad usage of method hiding.

By the way, method hiding through inheritance should not be confused with other kinds of hiding - such as through nesting - which I believe is a valid and useful construct with fewer potential problems.


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