I am currently working for a client who are petrified of changing lousy un-testable and un-maintainable code because of "performance reasons". It is clear that there are many misconceptions running rife and reasons are not understood, but merely followed with blind faith.

One such anti-pattern I have come across is the need to mark as many classes as possible as sealed internal...

*RE-Edit: I see marking everything as sealed internal (in C#) as a premature optimisation.*

I am wondering what are some of the other performance anti-patterns people may be aware of or come across?

  • You should elaborate on why marking the class internal is an anti-pattern? Is it because you think they should be private or public, or because not specifying anything at all in C# will default it to internal by default?
    – casperOne
    Commented Jan 8, 2009 at 19:50
  • This isn't about performance so much as crappy development processes.
    – dkretz
    Commented Jan 8, 2009 at 19:55
  • ...that are performed in the name of performance. :)
    – Kev
    Commented Jan 8, 2009 at 19:58
  • @casperOne.. thanks, I have added a explanatory note on internals
    – Xian
    Commented Jan 8, 2009 at 20:12
  • @Xian: I assume you mean "marking a class's members as internal". Classes are already internal by default if you don't make them public (the only other choice).
    – P Daddy
    Commented Jan 8, 2009 at 20:38

18 Answers 18


The biggest performance anti-pattern I have come across is:

  • Not measuring performance before and after the changes.

Collecting performance data will show if a certain technique was successful or not. Not doing so will result in pretty useless activities, because someone has the "feeling" of increased performance when nothing at all has changed.


The elephant in the room: Focusing on implementation-level micro-optimization instead of on better algorithms.


Variable re-use.

I used to do this all the time figuring I was saving a few cycles on the declaration and lowering memory footprint. These savings were of minuscule value compared with how unruly it made the code to debug, especially if I ended up moving a code block around and the assumptions about starting values changed.

  • 2
    and any compiler worth it's salt will use the same memory location or register for both the two variables as it would if you reused one (because their lifetimes obviously don't overlap).
    – rmeador
    Commented Jan 8, 2009 at 20:31
  • 1
    Exactly. Plus if you're using a non-compiled language, the overhead of the language itself probably outweighs the benefit again. But who knows? Sebastian's answer is the only way to find out. :)
    – Kev
    Commented Jan 8, 2009 at 20:38

Premature performance optimizations comes to mind. I tend to avoid performance optimizations at all costs and when I decide I do need them I pass the issue around to my collegues several rounds trying to make sure we put the obfu... eh optimization in the right place.

  • -1 You "tend to avoid performance optimization at all costs"? That seems to be a bit extreme, Also you seem to equate unreadable code with optimized this not true. Even though it is correct that premature optimization is bad but the rest of your answer had nothing to do with the your heading.
    – hhafez
    Commented Mar 9, 2009 at 23:07
  • 1
    I don't really buy the "premature optimization is the root of all evil" thing. I think that the real issue is that you should focus optimisation only on things that need it; it's easy to get bogged down in optimising routines that really won't matter in the scheme of things because they are seldom called, or they don't really make much difference. But it is still very important to think about the performance of your code when you design its overall architecture, where it could make difference. Commented Apr 20, 2009 at 4:34
  • I do think about performance. Optimzing in this case rather means "sacrifice something else" in order to squeeze out more performance. Especially if that something else is "code clarity" I go into that "avoid at all costs" mode. "Optimize for clarity" helps a lot when I do need to do the sacrifice on that performance altar.
    – PEZ
    Commented Oct 16, 2012 at 13:58

One that I've run into was throwing hardware at seriously broken code, in an attempt to make it fast enough, sort of the converse of Jeff Atwood's article mentioned in Rulas' comment. I'm not talking about the difference between speeding up a sort that uses a basic, correct algorithm by running it on faster hardware vs. using an optimized algorithm. I'm talking about using a not obviously correct home brewed O(n^3) algorithm when a O(n log n) algorithm is in the standard library. There's also things like hand coding routines because the programmer doesn't know what's in the standard library. That one's very frustrating.

  • or throwing hardware at a badly designed database rather than redesigning it.
    – HLGEM
    Commented Jan 8, 2009 at 21:45

Using design patterns just to have them used.

  1. Using #defines instead of functions to avoid the penalty of a function call. I've seen code where expansions of defines turned out to generate huge and really slow code. Of course it was impossible to debug as well. Inline functions is the way to do this, but they should be used with care as well.

  2. I've seen code where independent tests has been converted into bits in a word that can be used in a switch statement. Switch can be really fast, but when people turn a series of independent tests into a bitmask and starts writing some 256 optimized special cases they'd better have a very good benchmark proving that this gives a performance gain. It's really a pain from maintenance point of view and treating the different tests independently makes the code much smaller which is also important for performance.


Lack of clear program structure is the biggest code-sin of them all. Convoluted logic that is believed to be fast almost never is.


Do not refactor or optimize while writing your code. It is extremely important not to try to optimize your code before you finish it.


Julian Birch once told me:

"Yes but how many years of running the application does it actually take to make up for the time spent by developers doing it?"

He was referring to the cumulative amount of time saved during each transaction by an optimisation that would take a given amount of time to implement.

Wise words from the old sage... I often think of this advice when considering doing a funky optimisation. You can extend the same notion a little further by considering how much developer time is being spent dealing with the code in its present state versus how much time is saved by the users. You could even weight the time by hourly rate of the developer versus the user if you wanted.

Of course, sometimes its impossible to measure, for example, if an e-commerce application takes 1 second longer to respond you will loose some small % money from users getting bored during that 1 second. To make up that one second you need to implement and maintain optimised code. The optimisation impacts gross profit positively, and net profit negatively, so its much harder to balance. You could try - with good stats.

  • Yeah one of those ironic catch 22's where you need the traffic in the first place to get the stats, and it could be those same very problems that prevent their collection...
    – Xian
    Commented Mar 13, 2009 at 23:06
  • You don't need traffic to measure the cost of making a change. You could collect that from your team, from SVN logs, or perhaps from tools like Mylyn (which tells me I've spent 1h 37m over engineering data structures about towns within geographic regions, speaking of which... ) Commented Mar 14, 2009 at 11:06

Exploiting your programming language. Things like using exception handling instead of if/else just because in PLSnakish 1.4 it's faster. Guess what? Chances are it's not faster at all and that two years from now someone maintaining your code will get really angry with you because you obfuscated the code and made it run much slower, because in PLSnakish 1.8 the language maintainers fixed the problem and now if/else is 10 times faster than using exception handling tricks. Work with your programming language and framework!

  • Thanks. Too bad it's gone. I was a bit proud with that piece. =)
    – PEZ
    Commented Mar 19, 2017 at 10:05

Changing more than one variable at a time. This drives me absolutely bonkers! How can you determine the impact of a change on a system when more than one thing's been changed?

Related to this, making changes that are not warranted by observations. Why add faster/more CPUs if the process isn't CPU bound?

  • This is really important! If you test multiple changes at once and get an improvement, which of those changes caused the improvement? What if one of those changes actually harmed performance a bit but that was masked by a performance boost in another change? You could be leaving CPU cycles on the table. :) Commented Apr 20, 2009 at 4:39

General solutions.

Just because a given pattern/technology performs better in one circumstance does not mean it does in another.

StringBuilder overuse in .Net is a frequent example of this one.

  • True that. Luckely there are currently as much articles about the performance of all the string techniques as there are ppl misusing them. Commented Jan 8, 2009 at 20:28
  • sadly plenty of people who aren't familiar and that was just one common example. The reverse while loop is another example - sometimes reversing an array matters :)
    – annakata
    Commented Jan 8, 2009 at 20:34

Once I had a former client call me asking for any advice I had on speeding up their apps.

He seemed to expect me to say things like "check X, then check Y, then check Z", in other words, to provide expert guesses.

I replied that you have to diagnose the problem. My guesses might be wrong less often than someone else's, but they would still be wrong, and therefore disappointing.

I don't think he understood.


Some developers believe a fast-but-incorrect solution is sometimes preferable to a slow-but-correct one. So they will ignore various boundary conditions or situations that "will never happen" or "won't matter" in production.

This is never a good idea. Solutions always need to be "correct".

You may need to adjust your definition of "correct" depending upon the situation. What is important is that you know/define exactly what you want the result to be for any condition, and that the code gives those results.


Michael A Jackson gives two rules for optimizing performance:

  1. Don't do it.
  2. (experts only) Don't do it yet.

If people are worried about performance, tell 'em to make it real - what is good performance and how do you test for it? Then if your code doesn't perform up to their standards, at least it's something the code writer and the application user agree on.

If people are worried about non-performance costs of rewriting ossified code (for example, the time sink) then present your estimates and demonstrate that it can be done in the schedule. Assuming it can.


I believe it is a common myth that super lean code "close to the metal" is more performant than an elegant domain model.

This was apparently de-bunked by the creator/lead developer of DirectX, who re-wrote the c++ version in C# with massive improvements. [source required]

  • I have read articles both agreeing and opposing your statement. Can you fill in the [source required]? Commented Jan 8, 2009 at 20:30
  • Yeah I was hoping, the collective group may be able to help me out here.. I am searching on google for the link, I will edit this post as soon as I find it.
    – Xian
    Commented Jan 8, 2009 at 21:02

Appending to an array using (for example) push_back() in C++ STL, ~= in D, etc. when you know how big the array is supposed to be ahead of time and can pre-allocate it.

  • Appending to arrays is amortized O(1), but with a MUCH larger constant term than allocating once and then filling.
    – dsimcha
    Commented Jan 9, 2009 at 14:24

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