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As we program, we all develop practices and patterns that we use and rely on. However, over time, as our understanding, maturity, and even technology usage changes, we come to realize that some practices that we once thought were great are not (or no longer apply).

An example of a practice I once used quite often, but have in recent years changed, is the use of the Singleton object pattern.

Through my own experience and long debates with colleagues, I've come to realize that singletons are not always desirable - they can make testing more difficult (by inhibiting techniques like mocking) and can create undesirable coupling between parts of a system. Instead, I now use object factories (typically with a IoC container) that hide the nature and existence of singletons from parts of the system that don't care - or need to know. Instead, they rely on a factory (or service locator) to acquire access to such objects.

My questions to the community, in the spirit of self-improvement, are:

  • What programming patterns or practices have you reconsidered recently, and now try to avoid?
  • What did you decide to replace them with?
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49 Answers 49

Prototyping in the IDE. Like all newbies I have learnt that jumping into the code is a bad idea. Now I tend to abandon silly ideas before even using a keyboard.

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Writing docblock method descriptions that simply reiterated what the method name already told you. The bad old days:

/**
 * Returns the logger obj
 * @return log_Core
 */
public function getLogger() 
{ ... }

Now:

/**
 * @return log_Core
 */
public function getLogger() 
{ ... }

Of course, well-named functions help.

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A few:

  • Started using braces in the same line rather than on a new line (if (... ) {)
  • using camelCase instead of non_camel_case
  • stopped using printf() for debugging
  • started relying on third party libraries rather than writing every bit from scratch

jrh

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Requiring all code to be clean code, even if it is already working.

In academic environments there is such a focus on clean code that the temptation afterward is big to always clean up ugly code when you come across it. However, cleaning up working code has a number of downsides:

  • The time spent cleaning it up doesn't add any value to the product at that time, while that same time spent debugging or doing feature development does add value.
  • There is a risk of breaking already working code. Nobody is so amazing that they never introduce bugs when refactoring. (I had to eat some humble pie when my bugs got shipped to the customer.)

Ofcourse, once that piece of ugly code needs new features, it often is not a bad idea to refactor it. But this is the point: refactoring and clean up should only happen in combination with feature development.

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The most significant change I've made is my approach to N-tier. I had been a believer in the separation of logic along physical tiers and building middle-tier "application servers". Going back to windows DNA using DCOM, MTS and COM+, then later on using .NET Remoting. At the time it had seemed reasonable from a security and scalability perspective to build systems this way. But having done it enough times to find that the added complexity (which is significant), network communication overhead, deployment issues, developer training, and the reality that security was never increased (because we never actually locked down firewalls between servers) has lead me to conclude that its seldom justified or warranted.

I'm still much in favor layering, and doing so in such a way as to allow tiering if it becomes a requirement, which I'm continuing to find, it seldom does.

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I had two changes of mind through my career as software developer I was taught in school and university.

Like many things in life these changes come from experience and observation and those two are contradictory (just like life!).

More or less the first one describes why/when to use "big systems" over "small systems" and the second describe why sometimes "proprietory systems" have advantages over "standard systems".

I know it's a little long/philosophic answer, but you can skip to the "in conclusion"!


ONE: "Small/Indie" software is equally good as "Big name/Standard" software.

I always wondered why companies use big name software like Microsoft, SAP, Oracle etc. that cost a lot of money to develop for and licences.

I learned a valuable lesson from someone that rather payed A LOT OF MONEY for using an Oracle DBMS instead of MySQl, which would have been sufficient for the cause because it was a very small amount of data to be stored in the database for the software project.

Basically when you use "Big name/Standard" software like SAP, Oracle or Microsoft you want to buy "security" that is best summarized in "30 years from now I will still find developers for SAP".

Smaller companies can go bankrupt and you have a problem maintaining your software system for a longer period. Maybe the "small/indie" software will do the job but you can't be sure to have it supported the next year.

I've seen it numerous times that a software company (even bigger ones) goes under and you suddenly have problems to get support and/or developers (for a reasonable price) on the market for your software system.

In conclusion: There are good reasons like security or support to use "Big name/Standard" software, even if they are expensive and have their own problems.


TWO: Software language/concept/system X is the only right way to do things.

In my younger days I was a purist. Everything had to be this or that with no grey areas in between. E.g. I did all stuff in C++ (MS Windows, then Java (Windows/Web), then PHP (Linux/Web)etc... even ColdFusion (Windows/Web) or ABAP (SAP).

Now I don't think there is the only "right way" to do things. I'm now more a generalist than a purist. Also I'm very sceptical of large libraries which are provided by Java etc... or systems like software layers for PHP etc.

Also I'm very sceptical of the OO-mantra that has been accepted everywhere it seems. OO is great in its own ways, but it's not THE solution to every problem. I live by the KISS (keep it simple, stupid) principle and I often find it very hard to learn all the classes/functions of a certain language to just do simple things for a small website project. E.g. I'm always wondering why JSP is used for small simple projects that could be done with PHP in a fraction of the time.

So today I'm very sceptical of large/slow/overhead software systems... often it is better to do stuff yourself for small projects than overkill everything with a large functionality that yet again has to be tailored down to suit your needs.

Most of the time I'm faster in developing a website with database connectivity from scratch (e.g. PHP) than implement it with an (expensive?!) and complex and HUGE library (e.g. JSP) because most of the features aren't even useful.

For example: You want to use weblog software X on your website, which is pretty cool because of the built-in functions like RSS export, web services etc.etc. BUT there is a serious overhead in learning all the library functionality and conventions of the weblog software... yes, when you finally have understood it, you can use all the sweet functions and features... but in about half the time you could build the 10% of the features you really need from scratch.

In conclusion: Keep it simple, stupid works. Many times a simple (even if 'cruder') solution is better than a complex (but 'nicer') solution. Use the tools best suited for the situation not a fixed mantra.

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TDD and unit tests in general. At some point I was the advocate of TDD at my workplace, but over time I learned it really does not bring anything to the table, at least with a statically typed language.

Don't get me wrong, I still think automated functional tests are very important to have.

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3  
Have you tried retro-fitting unit tests to some old code which wasn't designed to be testable? What TDD brings to the table is intentional effort to make your code testable, which (usually) means more manageable. –  Igor Brejc Jul 27 '09 at 13:38

Compact code.

I used to love getting any given function down to the absolute essentials, and often had nested function calls to reduce the line count.

After having to maintain code a few years old, I realised that reducing the line count simply made the code less readable, and taking shortcuts only resulted in pain down the track!

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Never commenting code, hoping to always rely on the notion that code should describe itself.

When I first started programming I quickly adopted the idea that extensive comments are useless, and that instead code should be written in such a way, so as to describe it self. Then I took it to an extreme, where I would never comment code. This works well, at times, for code representing a business domain, because the detailed documentation needs to be somewhere else (like a DSL, or document) and the meanings of class members are obvious. However when developing more 'frameworky' code it becomes more difficult to infer meaning. This is true of myself looking back at my own code, not to speak of others needing to use it. I certainly use the comments for .NET Framework classes, and other frameworks, why shouldn't I write them for my own frameworks? Normally, I only comment classes, or methods if they have non-obvious characteriscts, or have certain dependencies on parameters, and have special types of behavior.

Moreover, I realized that commenting certain types of classes facilitated my thinking process. When I am able to verbalize the purpose and characteristics of a class, I may also rethink its entire existence.

In effect, on the spectrum between no-comments to essays for each code block, I have inched away from no-comments, toward reasonably and effective use of them. In the future, when the language itself allows for the declaration of more rules, use cases, etc., such as DbC, more use of expressions over statements, the need to comment will diminish even further. In the meantime, comments remain useful.

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Hungarian notation - It just adds noise. With modern IDEs and well written, tight code it's not necessary, at least not in statically typed languages. Unfortunately, most of the teams I've worked with still insist on using it in some form.

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Header files shall not include other header files.

I used to be strongly opposed to the idea of headers including other headers - based on a bad experience early in my engineering career. Having the headers included explicitly in the order needed right there in the source file seemed to work better.

Now - in general - I'm of the mindset that each header file shall be self-sufficient, i.e., not require other .h files to be included before it in the source file. Especially when developing in C++...

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Creating stored procedures for accessing data. Hell to maintain (especially if you develop on test server and have to maintain other server), and you end up with gazillion stored procedures called NewInsertStoredProcedureLines, NewSelectStoredProcedureLines... Now that it happily resides hard coded in the app, makes me a happy camper.

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Documenting the code with extensive inline code comments. Now I follow Uncle Bob's view that the code should be self-documenting: if you feel the need to write a comment about certain piece of code, you should refactor the code instead to make it more legible.

Also, code comments tend to get out of sync with the actual code they are supposed to describe. To quote Uncle: "the truth is in the code, not the comments".

Highly recommended book: Clean Code: A Handbook of Agile Software Craftsmanship

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1  
True, but sometimes a few short comments can save someone who is skimming the implementation a lot of time –  RobS Oct 7 '09 at 12:25

No duplication/code reuse I fell for this big time. Duplication is fine if it creates less work overall than the work needed to remove the duplication. In some ways this is a type of over architecture.

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Writing my code in spanish

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I used to write few routines. Each routine did a bunch of stuff.
Now I break the tasks into many, short routines, where each routine do one specific thing (whenever possible).


Also, routine's arguments declaration style, for a long arg. list:
before

int foo (char arg1, int arg2, float arg3, double arg4)

now

int
foo (
  char arg1,
  int arg2,
  float arg3,
  double arg4  )

that's, of course, a matter of taste.

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Catching only exceptions you know of in high availability services.

This is one place where I disagree with my own company's advice. The theory is that you should catch only exceptions you know of since you have no guarantee over what the 'bad' thing that happened is. If memory got corrupted or if the CLR itself got wedged, you're not going to recover.

However, when I worked on high availability services, I found that there were often cases where I wanted to express "Catch as many errors as you can and keep going". Yes, in theory we could have seen exceptions that we couldn't handle but with well tested code on a environment you control (and with not much native code in the mix apart from what the system provides), this turned out to be a better option than only catching exceptions you knew about.

The CLR team's stance on this is "Don't let your thread execute in an unknown state" while my stance is "If you know your scenario, this is probably ok". It may not be ok if you're running a bank website but in most cases, this will give you better availability and not force you to wonder why your app is restarting so frequently.

You can see both sides of the debate at http://blogs.msdn.com/clrteam/archive/2009/02/19/why-catch-exception-empty-catch-is-bad.aspx

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Accessing the database directly.
In my older code, I use querys and datasets extensively. Now I use an ORM for most things. It gives me much cleaner code and better reusability. Typically I now only access the db directly in small programs, or when needed for performance.

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Thinking ORMS where just a bad idea in general. I have found that for CRUD apps this is the way to go all the way. Cuts down development time in half and with the ability to flow changes from the database up through the ORM with few code changes. Check out this link for some good .Net ones: What are your favorite .NET Object Relational Mappers (ORM)?

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