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We all know that premature optimization is the root of all evil because it leads to unreadable/unmaintainable code. Even worse is pessimization, when someone implements an "optimization" because they think it will be faster, but it ends up being slower, as well as being buggy, unmaintainable, etc. What is the most ridiculous example of this that you've seen?

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16  
"Pessimization" is a great word. –  mquander Mar 26 '09 at 17:31
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42 Answers

up vote 63 down vote accepted

On an old project we inherited some (otherwise excellent) embedded systems programmers who had massive Z-8000 experience.

Our new environment was 32-bit Sparc Solaris.

One of the guys went and changed all ints to shorts to speed up our code, since grabbing 16 bits from RAM was quicker than grabbing 32 bits.

I had to write a demo program to show that grabbing 32-bit values on a 32-bit system was faster than grabbing 16-bit values, and explain that to grab a 16-bit value the CPU had to make a 32-bit wide memory access and then mask out or shift the bits not needed for the 16-bit value.

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13  
Hey where did you learn your math? 2 instructions with 1 cache/RAM access is obviously faster than 1 instruction with 1 cache/RAM access! –  Razor Storm Jun 24 '10 at 2:24
10  
@Razor - Statements like that make me realize I'm really in a nerd profession. –  orokusaki Nov 30 '10 at 6:05
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I think the phrase "premature optimization is the root of all evil" is way, way over used. For many projects, it has become an excuse not to take performance into account until late in a project.

This phrase is often a crutch for people to avoid work. I see this phrase used when people should really say "Gee, we really didn't think of that up front and don't have time to deal with it now".

I've seen many more "ridiculous" examples of dumb performance problems than examples of problems introduced due to "pessimization"

  • Reading the same registry key thousands (or 10's of thousands) of times during program launch.
  • Loading the same DLL hundreds or thousands of times
  • Wasting mega bytes of memory by keeping full paths to files needlessly
  • Not organizing data structures so they take up way more memory than they need
  • Sizing all strings that store file names or paths to MAX_PATH
  • Gratuitous polling for thing that have events, callbacks or other notification mechanisms

What I think is a better statement is this: "optimization without measuring and understanding isn't optimization at all - its just random change".

Good Performance work is time consuming - often more so that the development of the feature or component itself.

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35  
"Premature" is the key word of that quote. Your rephrasing it to "optimization without measuring and understanding" doesn't seem to change the meaning one bit. That is precisely what Knuth meant. –  Bill the Lizard Nov 23 '08 at 3:52
12  
@Foredecker: right on. Too many people forget the context, which puts that quote solidly against micro-optimization. Analyzing a problem to pick the proper algorithm before implementing it isn't premature, yet too often that quote gets thrown up to justify the laziest, most inefficient solution. –  Shog9 Nov 23 '08 at 16:30
4  
It really depends on the individual case, there are more cases where premature optimization becomes a problem, than inadequate optimization planning becomes a problem –  Mark Rogers Mar 26 '09 at 17:40
8  
-1: There's a difference between "optimization" and proper design. For those who can't tell, a good rule of thumb is that an "optimization" makes the code tougher to read, but faster or more efficient. A better design will make the code easier to read (or at least no worse) and more efficient. –  T.E.D. Mar 26 '09 at 20:43
4  
If it's way overused, then the population asking questions on SO is heavily weighted toward the outliers. :D –  le dorfier Mar 27 '09 at 21:41
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Databases are pessimization playland.

Favorites include:

  • Split a table into multiples (by date range, alphabetic range, etc.) because it's "too big".
  • Create an archive table for retired records, but continue to UNION it with the production table.
  • Duplicate entire databases by (division/customer/product/etc.)
  • Resist adding columns to an index because it makes it too big.
  • Create lots of summary tables because recalculating from raw data is too slow.
  • Create columns with subfields to save space.
  • Denormalize into fields-as-an-array.

That's off the top of my head.

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1  
Oh god, unioning with an archived table is painful. I've been the victim of that, so very not fun. –  Wedge Mar 26 '09 at 9:03
2  
Yes, I know someone who works for a big US oil company where nearly all their tables have an associated archive table, and most queries select from views that UNION the pairs of tables. Performance is as you would expect! –  Tony Andrews Mar 26 '09 at 13:32
11  
Duplicate entire database - check. –  David B Mar 27 '09 at 19:19
2  
I add: divide the database in several different databases (customers a-c, customers d-f, etc.) –  friol May 1 '09 at 8:13
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I think there is no absolute rule: some things are best optimized upfront, and some are not.

For example, I worked in a company where we received data packets from satellites. Each packet cost a lot of money, so all the data was highly optimized (ie. packed). For example, latitude/longitude was not sent as absolute values (floats), but as offsets relative to the "north-west" corner of a "current" zone. We had to unpack all the data before it could be used. But I think this is not pessimization, it is intelligent optimization to reduce communication costs.

On the other hand, our software architects decided that the unpacked data should be formatted into a very readable XML document, and stored in our database as such (as opposed to having each field stored in a corresponding column). Their idea was that "XML is the future", "disk space is cheap", and "processor is cheap", so there was no need to optimize anything. The result was that our 16-bytes packets were turned into 2kB documents stored in one column, and for even simple queries we had to load megabytes of XML documents in memory! We received over 50 packets per second, so you can imagine how horrible the performance became (BTW, the company went bankrupt).

So again, there is no absolute rule. Yes, sometimes optimization too early is a mistake. But sometimes the "cpu/disk space/memory is cheap" motto is the real root of all evil.

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25  
I agree "cpu/disk space/memory is cheap" is the real root of all evil. +1 –  ksuralta Mar 26 '09 at 9:19
3  
Your software architects didnt know how to use a database, and then the company went bankrupt. I can't help but laugh. –  Karl Mar 26 '09 at 20:18
4  
I've heard that XML drivel too. Another tanked company. –  n8wrl Mar 26 '09 at 20:21
14  
@ksuralta: "Cpu/disk space/memory is cheap" is a convenient excuse to avoid thought. Avoiding thought is the imaginary root of all evil. –  Piskvor Mar 28 '09 at 12:33
10  
If XML does not solve your problem, you didn't use it enough;-) –  Codism Jul 6 '10 at 14:47
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Oh good Lord, I think I have seen them all. More often than not it is an effort to fix performance problems by someone that is too darn lazy to troubleshoot their way down to the CAUSE of those performance problems or even researching whether there actually IS a performance problem. In many of these cases I wonder if it isn't just a case of that person wanting to try a particular technology and desperately looking for a nail that fits their shiny new hammer.

Here's a recent example:

Data architect comes to me with an elaborate proposal to vertically partition a key table in a fairly large and complex application. He wants to know what type of development effort would be necessary to adjust for the change. The conversation went like this:

Me: Why are you considering this? What is the problem you are trying to solve?

Him: Table X is too wide, we are partitioning it for performance reasons.

Me: What makes you think it is too wide?

Him: The consultant said that is way too many columns to have in one table.

Me: And this is affecting performance?

Him: Yes, users have reported intermittent slowdowns in the XYZ module of the application.

Me: How do you know the width of the table is the source of the problem?

Him: That is the key table used by the XYZ module, and it is like 200 columns. It must be the problem.

Me (Explaining): But module XYZ in particular uses most of the columns in that table, and the columns it uses are unpredictable because the user configures the app to show the data they want to display from that table. It is likely that 95% of the time we'd wind up joining all the tables back together anyway which would hurt performance.

Him: The consultant said it is too wide and we need to change it.

Me: Who is this consultant? I didn't know we hired a consultant, nor did they talk to the development team at all.

Him: Well, we haven't hired them yet. This is part of a proposal they offered, but they insisted we needed to re-architect this database.

Me: Uh huh. So the consultant who sells database re-design services thinks we need a database re-design....

The conversation went on and on like this. Afterward, I took another look at the table in question and determined that it probably could be narrowed with some simple normalization with no need for exotic partitioning strategies. This, of course turned out to be a moot point once I investigated the performance problems (previously unreported) and tracked them down to two factors:

  1. Missing indexes on a few key columns.
  2. A few rogue data analysts who were periodically locking key tables (including the "too-wide" one) by querying the production database directly with MSAccess.

Of course the architect is still pushing for a vertical partitioning of the table hanging on to the "too wide" meta-problem. He even bolstered his case by getting a proposal from another database consultant who was able to determine we needed major design changes to the database without looking at the app or running any performance analysis.

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10  
It hurts just to read this one. –  Don Branson Mar 26 '09 at 17:33
1  
We had a similar job, but it had gone into disuse. To be fair, Access isn't the problem, it just makes it easy for neophytes to create/run nonperformanct queries. –  JohnFx Mar 26 '09 at 21:19
30  
"I heard mauve has the most RAM" –  Piskvor Mar 28 '09 at 12:37
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I have seen people using alphadrive-7 to totally incubate CHX-LT. This is an uncommon practice. The more common practice is to initialize the ZT transformer so that bufferication is reduced (due to greater net overload resistance) and create java style bytegraphications.

Totally pessimistic!

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19  
That seems perfectly cromulent to me. –  Bill the Lizard Nov 23 '08 at 2:24
3  
I want to favorite answers –  1800 INFORMATION Nov 23 '08 at 2:27
8  
maybe they were trying to embiggen the flux capacitor –  Mikeage Mar 26 '09 at 10:55
5  
So, basically the only new principle involved is instead of power being generated by the relative motion of conductors and fluxes, its produced by the modial interaction of magneto reluctance and capacitive duractance? –  Matt Rogish Mar 26 '09 at 20:31
14  
+1 because my monitor needed cleaning anyway ;-) –  RBerteig Mar 26 '09 at 21:00
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Nothing Earth-shattering, I admit, but I've caught people using StringBuffer to concatenate Strings outside of a loop in Java. It was something simple like turning

String msg = "Count = " + count + " of " + total + ".";

into

StringBuffer sb = new StringBuffer("Count = ");
sb.append(count);
sb.append(" of ");
sb.append(total);
sb.append(".");
String msg = sb.toString();

It used to be quite common practice to use the technique in a loop, because it was measurably faster. The thing is, StringBuffer is synchronized, so there's actually extra overhead if you're only concatenating a few Strings. (Not to mention that the difference is absolutely trivial on this scale.) Two other points about this practice:

  1. StringBuilder is unsynchronized, so should be preferred over StringBuffer in cases where your code can't be called from multiple threads.
  2. Modern Java compilers will turn readable String concatenation into optimized bytecode for you when it's appropriate anyway.
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2  
First: Why wouldn't you be using at least Java 5? Second: Yes you can. How is it that you can count to 5 in the first example, but not the second? It uses the same String literals as the first. Write readable code and let the compiler decide when to use StringBuffer behind the scenes. –  Bill the Lizard Nov 23 '08 at 13:06
3  
@MetroidFan2002: The String literals in the second example are objects too. As I said in the answer, the differences are trivial at this scale. –  Bill the Lizard Mar 26 '09 at 11:53
2  
@Eric: String msg = "Count = " + count + " of " + total + "."; is often compiled in Java to String msg = new StringBuffer().append("Count").append(count).append(" of ").append(total).append(".").toString(); ... which is precisely what the second example does. –  Grant Wagner Mar 26 '09 at 21:35
2  
Mr. Wagner the thing is that YOU have to look at all these method calls, not the compiler. You have to write them and comprehend them later. The compiler does the same anyway. So readability is more important in this case. –  ypnos Mar 27 '09 at 16:08
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I once saw a MSSQL database that used a 'Root' table. The Root table had four columns: GUID (uniqueidentifier), ID (int), LastModDate (datetime), and CreateDate (datetime). All tables in the database were Foreign Key'd to the Root table. Whenever a new row was created in any table in the db, you had to use a couple of stored procedures to insert an entry in the Root table before you could get to the actual table you cared about (rather than the database doing the job for you with a few triggers simple triggers).

This created a mess of useless overheard and headaches, required anything written on top of it to use sprocs (and eliminating my hopes of introducing LINQ to the company. It was possible but just not worth the headache), and to top it off didn't even accomplish what it was supposed to do.

The developer that chose this path defended it under the assumption that this saved tons of space because we weren't using Guids on the tables themselves (but...isn't a GUID generated in the Root table for every row we make?), improved performance somehow, and made it "easy" to audit changes to the database.

Oh, and the database diagram looked like a mutant spider from hell.

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12  
Holy shit i think we worked at the same company –  Nick Stinemates Mar 26 '09 at 23:48
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How about POBI -- pessimization obviously by intent?

Collegue of mine in the 90s was tired of getting kicked in the ass by the CEO just because the CEO spent the first day of every ERP software (a custom one) release with locating performance issues in the new functionalities. Even if the new functionalities crunched gigabytes and made the impossible possible, he always found some detail, or even seemingly major issue, to whine upon. He believed to know a lot about programming and got his kicks by kicking programmer asses.

Due to the incompetent nature of the criticism (he was a CEO, not an IT guy), my collegue never managed to get it right. If you do not have a performance problem, you cannot eliminate it...

Until for one release, he put a lot of Delay (200) function calls (it was Delphi) into the new code. It took just 20 minutes after go-live, and he was ordered to appear in the CEO's office to fetch his overdue insults in person.

Only unusual thing so far was my collegues mute when he returned, smiling, joking, going out for a BigMac or two while he normally would kick tables, flame about the CEO and the company, and spend the rest of the day turned down to death.

Naturally, my collegue now rested for one or two days at his desk, improving his aiming skills in Quake -- then on the second or third day he deleted the Delay calls, rebuilt and released an "emergency patch" of which he spread the word that he had spent 2 days and 1 night to fix the performance holes.

This was the first (and only) time that evil CEO said "great job!" to him. That's all that counts, right?

This was real POBI.

But it also is a kind of social process optimization, so it's 100% ok.

I think.

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4  
I remember someone writing about a data processing app that was sold at different levels where the "Lite" could cruch only a few data sets per second, the "superduper" version thousands. The only source code difference being Sleep(N)'s. –  peterchen Jul 28 '10 at 21:53
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"Database Independence". This meant no stored procs, triggers, etc - not even any foreign keys.

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5  
Is this "independence" in the sense that you're so far above the database, you've forgotten what data is? Unnecessarily abstracting over databases "to avoid migration pains" is a pet peeve; you ain't gonna need it. –  Rob Mar 26 '09 at 19:22
8  
Pretty much. Architecture astronauts at work. I've been building web apps since there was a web, and in all that time I've never actually moved from one db platform to another. –  chris Mar 27 '09 at 0:53
4  
I'm sure it happens, but it's rare enough that you're an idiot if you design your architecture around that possibility. –  chris Mar 27 '09 at 17:48
1  
Really, guys? What about products for resale, like FogBugz, which supports SQL Server, Access, and MySql? Does this make Joel an "idiot" or an "architecture astronaut"? –  harpo Mar 30 '09 at 19:33
6  
harpo, that's a different situation - it's a requirement in that case. I'm talking about when it's not a requirement, but the AA decides that it "might be" at some point. –  chris Mar 30 '09 at 23:35
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Using a regex to split a string when a simple string.split suffices

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21  
BUT in Java String.Split uses a regex! –  Frank Krueger Mar 29 '09 at 22:16
3  
@David Crawshaw: Hunting down micro-optimization opportunities wastes human time; bud when writing code, use the least complex sufficient solution. –  Piskvor Aug 25 '10 at 11:27
1  
-1: If you are used to regexes, it is very natural to write this instead of getting used to the 1001 language-internal string manipulators. –  KillianDS Aug 23 '11 at 17:09
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var stringBuilder = new StringBuilder();
stringBuilder.Append(myObj.a + myObj.b + myObj.c + myObj.d);
string cat = stringBuilder.ToString();

Best use of a StringBuilder I've ever seen.

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6  
Talk about "unclear on the concept"! Wow! –  Eddie Jul 6 '10 at 19:48
1  
Cool. "My lead says I have to use the StringBuilder class if I want to concatenate strings. That's what I do. So what's wrong?" Lol... –  TheBlastOne Aug 17 '10 at 9:01
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Worst example I can think of is an internal database at my company containing information on all employees. It gets a nightly update from HR and has an ASP.NET web service on top. Many other apps use the web service to populate things like search/dropdown fields.

The pessimism is that the developer thought that repeated calls to the web service would be too slow to make repeated SQL queries. So what did he do? The application start event reads in the entire database and converts it all to objects in memory, stored indefinitely until the app pool is recycled. This code was so slow, it would take 15 minutes to load in less than 2000 employees. If you inadvertently recycled the app pool during the day, it could take 30 minutes or more, because each web service request would start multiple concurrent reloads. For this reason, new hires wouldn't appear in the database the first day when their account was created and therefore would not be able to access most internal apps on their first couple days, twiddling their thumbs.

The second level of pessimism is that the development manager doesn't want to touch it for fear of breaking dependent applications, but yet we continue to have sporadic company-wide outages of critical applications due to poor design of such a simple component.

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20  
Management at their finest - "No, let's not put one-off 80 programmer hours into fixing this app, that's too expensive. Let's just keep it, so its bugs can drain 200+ user hours per month, plus 10 programmer hours a month for 'maintenance'." AAAAAAAAAUGH!!! –  Piskvor Mar 28 '09 at 12:45
2  
Oh.My.GOD . –  Andrei Rînea Apr 26 '09 at 22:20
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No one seems to have mentioned sorting, so I will.

Several different times, I've discovered that someone had hand-crafted a bubblesort, because the situation "didn't require" a call to the "too fancy" quicksort algorithm that already existed. The developer was satisified when their handcrafted bubblesort worked well enough on the ten rows of data that they're using for testing. It didn't go over quite as well after the customer had added a couple of thousand rows.

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1  
Yeah, but it's nice to write something algorythm based every now an then ;) –  UpTheCreek Jul 27 '10 at 13:22
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Very late to this thread I know, but I saw this recently:

bool isFinished = GetIsFinished();

switch (isFinished)
{
    case true:
        DoFinish();
        break;

    case false:
        DoNextStep();
        break;

    default:
        DoNextStep();
}

Y'know, just in case a boolean had some extra values...

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1  
Must be a new boolean. True, False and other. –  Stradas May 21 '09 at 15:46
17  
True, False an FileNotFound ofcourse –  Ikke Jun 1 '09 at 10:55
16  
Oh, the code is ready for quantum computing! –  Codism Jul 6 '10 at 21:09
4  
Don't really see what this has to do with the question. –  UpTheCreek Jul 27 '10 at 13:20
1  
@Oorang I up-voted you because I thought you were kidding, then I saw the facepalm... –  Limited Atonement Jun 13 '13 at 17:11
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I once worked on an app that was full of code like this:

 1 tuple *FindTuple( DataSet *set, int target ) {
 2     tuple *found = null;
 3     tuple *curr = GetFirstTupleOfSet(set);
 4     while (curr) {
 5         if (curr->id == target)
 6             found = curr;
 7         curr = GetNextTuple(curr);
 8     }
 9     return found;
10 }

Simply removing found, returning null at the end, and changing the sixth line to:

            return curr;

Doubled the app performance.

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12  
A return curr here produces notably different behavior. When you return curr you end up getting the FIRST match, where as the code you pasted returns the LAST match. –  SoapBox Nov 28 '08 at 1:08
1  
@SoapBox: You are Right. @Dour High Arch: The increase in performance had nothing to do with the single return rule, as flolo said chaing the loop condition to (curr && !found) would have the same effect. GOTO to the proc exit is horrible, and defeats the purpose of the single return guideline. –  Akusete Nov 28 '08 at 1:23
2  
Good comments everyone. In this case there was supposed to be only a single tuple with each ID. –  Dour High Arch Nov 29 '08 at 3:09
1  
This has nothing to do with a coding standard and everything to do with a coding bug. Sure a return would have worked, but adding a couple of curly braces and a break statement would also have worked. –  jussij Feb 19 '09 at 4:44
6  
That's not a "Pessimization" though, is it? It is simply an optimisation waiting to happen. –  Tim Long May 12 '09 at 19:14
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I once had to attempt to modify code that included these gems in the Constants class

public static String COMMA_DELIMINATOR=",";
public static String COMMA_SPACE_DELIMINATOR=", ";
public static String COLIN_DELIMINATOR=":";

Each of these were used multiple times in the rest of the application for different purposes. COMMA_DELIMINATOR littered the code with over 200 uses in 8 different packages.

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9  
Also - Deliminator? I thought it was spelled 'delimiter'. Deliminator sounds like a bad mid-90s movie that somehow got 3 sequals........... –  Erik Forbes Mar 26 '09 at 19:13
45  
Deliminator III: Rise of the Commas –  Rob Mar 26 '09 at 19:19
24  
On another note, I'm pleased to see proper delimiting of Colins. Every programmer worth his salt knows that if there's one thing you absolutely must separate out properly, it's the damn Colins. –  Rob Mar 26 '09 at 19:20
1  
It's not that easy to do a proper find and replace. Since each one is used for different purposes. Any good programmer would have at least done something like this: COUNTRY_LIST_DELIM=... CLASSIFICATION_DELIM=... etc –  KitsuneYMG Mar 26 '09 at 20:56
3  
Terminator 1 is from the 80s, not the 90s –  Thomas Jul 7 '09 at 10:53
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The big all time number one which I run into time and time again in inhouse software:

Not using the features of the DBMS for "portability" reasons because "we might want to switch to another vendor later".

Read my lips. For any inhouse work: IT WILL NOT HAPPEN!

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8  
It does happen. MySQL -> postgresql, so we didn't lose anything. –  Thomas Jul 7 '09 at 10:56
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I had a co-worker who was trying to outwit our C compiler's optimizer and routine rewrote code that only he could read. One of his favorite tricks was changing a readable method like (making up some code):

int some_method(int input1, int input2) {
    int x;
    if (input1 == -1) {
        return 0;
    }
    if (input1 == input2) {
        return input1;
    }
    ... a long expression here ...
    return x;
}

into this:

int some_method() {
    return (input == -1) ? 0 : (input1 == input2) ? input 1 :
           ... a long expression ...
           ... a long expression ...
           ... a long expression ...
}

That is, the first line of a once-readable method would become "return" and all other logic would be replace by deeply nested terniary expressions. When you tried to argue about how this was unmaintainable, he would point to the fact that the assembly output of his method was three or four assembly instructions shorter. It wasn't necessarily any faster but it was always a tiny bit shorter. This was an embedded system where memory usage occasionally did matter, but there were far easier optimizations that could have been made than this that would have left the code readable.

Then, after this, for some reason he decided that ptr->structElement was too unreadable, so he started changing all of these into (*ptr).structElement on the theory that it was more readable and faster as well.

Turning readable code into unreadable code for at the most a 1% improvement, and sometimes actually slower code.

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1  
@Michael: I wouldn't, unless there were measurements indicating that it was faster, not just shorter. –  dsimcha Aug 31 '10 at 2:47
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In one of my first jobs as a full-fledged developer, I took over a project for a program that was suffering scaling issues. It would work reasonably well on small data sets, but would completely crash when given large quantities of data.

As I dug in, I found that the original programmer sought to speed things up by parallelizing the analysis - launching a new thread for each additional data source. However, he'd made a mistake in that all threads required a shared resource, on which they were deadlocking. Of course, all benefits of concurrency disappeared. Moreover it crashed most systems to launch 100+ threads only to have all but one of them lock. My beefy dev machine was an exception in that it churned through a 150-source dataset in around 6 hours.

So to fix it, I removed the multi-threading components and cleaned up the I/O. With no other changes, execution time on the 150-source dataset dropped below 10 minutes on my machine, and from infinity to under half an hour on the average company machine.

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This might be at a higher level that what you were after, but fixing it (if you're allowed) also involves a higher level of pain:

Insisting on hand rolling an Object Relationship Manager / Data Access Layer instead of using one of the established, tested, mature libraries out there (even after they've been pointed out to you).

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3  
Hand-rolling one is really your only option if none of the established ones have a critical feature you need. –  staticsan Apr 14 '09 at 4:45
2  
Actually, given some of the comments above, some more perspective: another pessimization is to try and get the ORM to do absolutely everything. Its often useful for 95%+ of cases. For that final 5% it's much easier to drop out to hand crafted persistence code/direct stored procedure calls etc. for performace, simplicity or both. –  Gordon Hartley Nov 30 '10 at 6:09
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I suppose I could offer this gem:

unsigned long isqrt(unsigned long value)
{
    unsigned long tmp = 1, root = 0;
    #define ISQRT_INNER(shift) \
    { \
        if (value >= (tmp = ((root << 1) + (1 << (shift))) << (shift))) \
        { \
            root += 1 << shift; \
            value -= tmp; \
        } \
    }

    // Find out how many bytes our value uses
    // so we don't do any uneeded work.
    if (value & 0xffff0000)
    {
        if ((value & 0xff000000) == 0)
            tmp = 3;
        else
            tmp = 4;
    }
    else if (value & 0x0000ff00)
        tmp = 2;

    switch (tmp)
    {
        case 4:
            ISQRT_INNER(15);
            ISQRT_INNER(14);
            ISQRT_INNER(13);
            ISQRT_INNER(12);
        case 3:
            ISQRT_INNER(11);
            ISQRT_INNER(10);
            ISQRT_INNER( 9);
            ISQRT_INNER( 8);
        case 2:
            ISQRT_INNER( 7);
            ISQRT_INNER( 6);
            ISQRT_INNER( 5);
            ISQRT_INNER( 4);
        case 1:
            ISQRT_INNER( 3);
            ISQRT_INNER( 2);
            ISQRT_INNER( 1);
            ISQRT_INNER( 0);
    }
#undef ISQRT_INNER
    return root;
}

Since the square-root was calculated at a very sensitive place, I got the task of looking into a way to make it faster. This small refactoring reduced the execution time by a third (for the combination of hardware and compiler used, YMMV):

unsigned long isqrt(unsigned long value)
{
    unsigned long tmp = 1, root = 0;
    #define ISQRT_INNER(shift) \
    { \
        if (value >= (tmp = ((root << 1) + (1 << (shift))) << (shift))) \
        { \
            root += 1 << shift; \
            value -= tmp; \
        } \
    }

    ISQRT_INNER (15);
    ISQRT_INNER (14);
    ISQRT_INNER (13);
    ISQRT_INNER (12);
    ISQRT_INNER (11);
    ISQRT_INNER (10);
    ISQRT_INNER ( 9);
    ISQRT_INNER ( 8);
    ISQRT_INNER ( 7);
    ISQRT_INNER ( 6);
    ISQRT_INNER ( 5);
    ISQRT_INNER ( 4);
    ISQRT_INNER ( 3);
    ISQRT_INNER ( 2);
    ISQRT_INNER ( 1);
    ISQRT_INNER ( 0);

#undef ISQRT_INNER
    return root;
}

Of course there are both faster AND better ways to do this, but I think it's a pretty neat example of a pessimization.

Edit: Come to think of it, the unrolled loop was actually also a neat pessimization. Digging though the version control, I can present the second stage of refactoring as well, which performed even better than the above:

unsigned long isqrt(unsigned long value)
{
    unsigned long tmp = 1 << 30, root = 0;

    while (tmp != 0)
    {
        if (value >= root + tmp) {
            value -= root + tmp;
            root += tmp << 1;
        }
        root >>= 1;
        tmp >>= 2;
    }

    return root;
}

This is exactly the same algorithm, albeit a slightly different implementation, so I suppose it qualifies.

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Checking before EVERY javascript operation whether the object you are operating upon exists.

if (myObj) { //or its evil cousin, if (myObj != null) {
    label.text = myObj.value; 
    // we know label exists because it has already been 
    // checked in a big if block somewhere at the top
}

My problem with this type of code is nobody seems to care what if it doesn't exist? Just do nothing? Don't give the feedback to the user?

I agree that the Object expected errors are annoying, but this is not the best solution for that.

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How about YAGNI extremism. It is a form of premature pessimization. It seems like anytime you apply YAGNI, then you end up needing it, resulting in 10 times the effort to add it than if you had added it in the beginning. If you create a successful program then odds are YOU ARE GOING TO NEED IT. If you are used to creating programs whose life runs out quickly then continue to practice YAGNI because then I suppose YAGNI.

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Thank you, I'm sick of these lame 'extreme programming' acronyms and how people use them to support lazy, counter-productive practices. –  JAL Mar 29 '09 at 7:05
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This doesn't exactly fit the question, but I'll mention it anyway a cautionary tale. I was working on a distributed app that was running slowly, and flew down to DC to sit in on a meeting primarily aimed at solving the problem. The project lead started to outline a re-architecture aimed at resolving the delay. I volunteered that I had taken some measurements over the weekend that isolated the bottleneck to a single method. It turned out there was a missing record on a local lookup, causing the application to have to go to a remote server on every transaction. By adding the record back to the local store, the delay was eliminated - problem solved. Note the re-architecture wouldn't have fixed the problem.

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All foreign-key constraints were removed from a database, because otherwise there would be so many errors.

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An ex-coworker of mine (a s.o.a.b., actually) was assigned to build a new module for our Java ERP that should have collected and analyzed customers' data (retail industry). He decided to split EVERY Calendar/Datetime field in its components (seconds, minutes, hours, day, month, year, day of week, bimester, trimester (!)) because "how else would I query for 'every monday'?"

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That's not a premature optimization, he thought he needed to do that for correctness –  Pyrolistical Nov 28 '08 at 1:24
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Not exactly premature optimisation - but certainly misguided - this was read on the BBC website, from an article discussing Windows 7.

Mr Curran said that the Microsoft Windows team had been poring over every aspect of the operating system to make improvements. "We were able to shave 400 milliseconds off the shutdown time by slightly trimming the WAV file shutdown music.

Now, I haven't tried Windows 7 yet, so I might be wrong, but I'm willing to bet that there are other issues in there that are more important than how long it takes to shut-down. After all, once I see the 'Shutting down Windows' message, the monitor is turned off and I'm walking away - how does that 400 milliseconds benefit me?

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Maybe just having a quick glance over the system early on will help point to the possible bottlenecks.

"This part doesnt need to be fast" (archiving logs) "This part must be hella fast" (accepting new connections)

Then the very fast parts usually dont need to be extra optimised with dirty quirks, usually decent hardware and well coded parts will suffice.

Just answering the simple question "Do I gain anything from having this part of code very fast?" will be a great guideline. I mean, using common sense optimises other parts of the project!

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Someone in my department once wrote a string class. An interface like CString, but without the Windows dependence.

One "optimization" they did was to not allocate any more memory than necessary. Apparently not realizing that the reason classes like std::string do allocate excess memory is so that a sequence of += operations can run in O(n) time.

Instead, every single += call forced a reallocation, which turned repeated appends into an O(n²) Schlemiel the Painter's algorithm.

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