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Last question for today all...I will get back with tomorrow..I have a lot to follow up on...

I am looking in Reilly Java text- talking about counter controlled loop patterns..(does not matter what language..)

The author for counter controlled loops (for, while, etc) and with nesting loops...uses the != for test...Now I realize != is used for certain situations with event controlled loops-like sentinel or EOF type of loops- but to me- using it with a counter controlled loop is a bad idea...very prone to errors..


x = 0;
while (x != 100) {
   y = 0;
  while (y != 100) {


Would it be better to just say..using the other relational operators...

x = 0;
while (x < 100) {   //or even better some defined constant...
   y = 0;
  while (y < 100) {


Which from what I have seen is usually the way presented in texts..classes.etc..

Once again- would all you considered this bad- or just a different way of doing it... Thanks...

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Assuming x and y are integer types, what would make the != version more error prone? –  Sinan Ünür Jun 18 '09 at 18:33
If someone mistakenly sets x to 101 inside the loop, the loop will continue to run. –  David Seiler Jun 18 '09 at 18:46
Got an idea that these are the same thing... –  iwanttoprogram Jun 18 '09 at 23:34

10 Answers 10

up vote 5 down vote accepted

as other answers have shown,
while(i < 100) is safe*,
while(i != 100) is precise**.

As an aside, you may want to try while(i++ < 100) or for(i = 0; i < 100; ++i) instead of the simpler while loop you have shown--forgetting to increment the counter at the end of the loop is a real pain. Note that, if i=0, i++ will equal 0, and then increment i for next time, and ++i will increment i and then equal 1, so for while(i++ < 100), the postfix ++ operator is necessary.

Also note, that if i was 0 when it got tested in the condition, then it will be 1 in the loop body (for the while example), so if i is an index for an array or something, and not just keeping track of loop iterations, you'd be better to stick with just a for loop (which increments i after each iteration).

*: safe here meaning less likely to enter an infinite loop. It is also unsafe in that it can hide potential errors, if the loop isn't trivial

**: precise in that if it doesn't do exactly what you expect it to, it will fail, and you will notice. Some other answers have also described how to protect you from errors even more in this kind of loop.

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- I will go with this answer... –  iwanttoprogram Jun 18 '09 at 23:39

You want your loop condition to be the exact inverse of the desired post-condition.

i= 0;
while( i != 100 ) {
    i += 1;
assert i == 100;

You can trivially see that the loop post-condition exactly matches the loop termination condition. No mysteries.

Further, you can prove from the initial condition and the body that it will reach 100 without "somehow" magically skipping a value.

In the case when you have a really complex loop body, that simple parallel structure is essential.

If you use Weakest Precondition techniques for deriving the loop from the post-condition, the loop condition will be the simple matching condition as shown above.

The i < 100 is a bad idea because your loop could have an incorrect body that incremented the variable badly and still "appeared" to work.

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There's no magic in this example, but there can be if either the initial condition or the increment value are unknown until run-time. –  Bill the Lizard Jun 18 '09 at 18:42
Even if things are not known until run-time, the WP technique will yield a correct loop -- that terminates -- and it will always have the weakest possible terminating condition in the loop. It may also yield an guard (if-statement) as a precondition to prevent the loop from running at all if the bounds would lead to a non-terminating loop. –  S.Lott Jun 18 '09 at 19:15
Why not use i < 100 AND assert i == 100? With the way you've presented it, if 100 is skipped the loop will never terminate and you'll never get a chance to assert whether its correct or not. With my method, you get the guarantee that it is 100, without getting stuck in an infinite loop. Best of both worlds, no? –  Mark Jun 18 '09 at 19:21
The point is that if 100 is "somehow" skipped, you have a bug. The loop needs to crash and crash hard. The infinite loop is a symptom of another bug, which you MUST find and fix. Not work around. –  S.Lott Jun 18 '09 at 19:40
while developing/debugging I like to use use while( i != 100 ) { assert i < 100 ... } It helps catch infinite loops before they happen. –  patros Jun 18 '09 at 20:07

I would only use

while (x != 100)

if I wanted the loop to terminate when x was exactly 100. So in the vast majority of cases I would use

while (x < 100)

which is a lot more common for counter controlled loops.

EDIT: On second thought, I would always use for-syntax in a counter-controlled loop, so that example should be

for(int i=0; i < 100; ++i)
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+1 This is idiomatic in Java; don't mess with what ain't broke. –  Carl Manaster Jun 18 '09 at 19:42
Apparently the author likes to use while loops with counting loops –  iwanttoprogram Jun 18 '09 at 23:38

Using < is more common in Java. Modern C++ uses !=.

!= is more likely to catch errors in your code. In most circumstances this is a good thing. If for some reason the counter has not only reached but gone past the bound (usually on the first iteration), then the body will execute with an illegal value. So long as the body of the loop is not hiding errors, then you'll get an exception. If the body is hiding errors, the loop will execute billions of times and it should be obvious there is a bug.

As an example, an interesting vulnerability was found in the implementation of Adobe Flash last year. A pointer used as array could be caused to be initialised as null. Usually not a problem - the process safely crashes out whenever it is first dereferenced. However, a loop with < was used, allowing the body to never executed which then allows the execution to continue. After that, memory could be written at an attacker specified location. Because the value of null is always 0, the attacker knows exactly which memory locations are being written to. This would not have happened if the loop has used !=.

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Yeah but having a loop execute billions of times isn't exactly the best method for bug detection. –  cdmckay Jun 18 '09 at 18:48
@cdmckay: Why not? It's hard to miss. –  James Curran Jun 18 '09 at 18:54
@James Curran: Very true, a mistake that big (as big as a counter not functioning properly) should never make it past first code review, so you should do everything in your power to make sure you find it as soon as possible. I like the throwing an exception idea cdmckay mentioned too, must admit I never thought of it myself. –  David Božjak Jun 18 '09 at 19:22

The main advantage of use "!=" over "<" is that is something is going to fail, it should fail big.

For example, if a bug somewhere caused x to enter the loop set to 110, then x < 100 will never enter the loop --- a fact you might miss in debugging. OTOH, if you use x!=100, it will never exit the loop -- something which could not be missing in debugging.

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+1: Good summary. You want ALL failure modes to be detectable. –  S.Lott Jun 18 '09 at 19:16

I don't think < necessarily offers you more protection than !=. If you have a case where i is being incremented in way that is unanticipated by you, you should be throwing an exception, not sweeping it under the rug with a <.

For example, if you're really worried about your while loops messing up, you could do something like this:

x = 0;
while (x != 100) 
   assert x >= 0;
   assert x < 100;

   y = 0;
   while (y != 100) 
     assert y >= 0;
     assert y < 100;


That way, the moment your loop goes out of bounds, your program dies right away (crash early, crash often) and you know your code is messed up.

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My only suggestion might be to make this an assertion so that it can be disabled when you release for performance reasons (or leave it on all the time if that's what you want!) –  Michael Haren Jun 18 '09 at 19:20
Good point... it might also be worthwhile to assert a lower bound as well, in case you mess up in the other direction. –  cdmckay Jun 18 '09 at 20:54

I suspect this may have something to do with C++ iterators.

If you're using integers or pointers, < has a clearly defined meaning. If you're using C++ iterators in a loop, < may not be defined, or may be hard to calculate.

For example, in running through a list, the C++ way would be:

for(std::list<foo>::const_iterator i = bar.begin(); i != bar.end(); ++i)

and really the only way to see if i is before bar.end() is to increment i indefinitely and see if it's ever equal to bar.end().

There's a considerable amount of value in doing minor things the same way all the time.

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+1 I was beginning to get desperate, I couldn't believe that nobody else pointed this out! –  Richard Corden Jun 19 '09 at 14:58

I believe they are semantically the same, the only difference being with != numbers above 100 would obviously also meet the condition where as the < will prevent any number larger than 100 from making it through.

However in the case given, both operators will result in the same output. Now, if somehow the x and y variables were being acted on outside that code, the "<" would be a better way to make sure there was a cutoff at 100 even if they entered with a value of 90, and were not able to continue at all if they entered with a value of 4000. Obviously, the intent on what you are doing at the time would dictate which operator you chose, there are usually several methods to achieve the same result and not always one "correct" way.

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It doesn't show in the OPs example, but this is a good point. When testing for x != 100, what happens when your code jumps x from 99 to 101? –  AllenG Jun 18 '09 at 18:40

Yes. They are semantically the same.

The second syntax using the "<" operator is the one people in general use in this case and seems more intuitive (as the value of the variable is being incremented in the loop).

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It's better to use the less than < in the loop. There is a possibility that an error in the code will cause the counter to increment twice. This means that the loop will suddenly become an infinite loop ( or until you blow MAXINT ).

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It's better because it masks errors? –  Tom Jun 19 '09 at 5:31
HAHAHAHAHA! Well, when you put it like that... It's become accepted because you assume there could be errors added at some point, and a loop not performing its task is preferrable to an infinite loop. –  Kieveli Jun 22 '09 at 14:49

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