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I was assigned to work on an Android-Java (real-time game) project with a considerable (partially legacy) code base.

Most of the loops I see are like this (where mjk is usually a Java array):

    int count = mjk.length;
    for (int i = 0; i != count; ++i) {
        // Stuff dealing with mjk[i]

I generally write loops such as this:

    int count = mjk.length;
    for (int i = 0; i < count; i++) {
        // Stuff dealing with mjk[i]

Any idea why the original author (whom I've been unable to contact so far) used the previous form? Is it common in C++?

The practical reason I ask this is JIT optimization: as far as I know, Android optimizes loops (induction variables, invariants, range check migration to loop prologue etc.), and I wonder if the non-equal may prevent such optimizations (unlike lower-than, which specifies a well-defined range).

I'm merely curious if the first usage has any advantages/disadvantages over the second one (in all respects).

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I had something like i != negative number once in a MS-DOS program with 16 bit ints ported to MacOS/Unix with 32 bit ints causing a sudden slow-down. ++i will increment all around into the negative range. –  Joop Eggen Apr 16 '13 at 15:27
0 <= i < count is mathematically precise definition of allowed values, while the set i != count includes all other values as valid candidates as value of i, not a good premise to start with. –  S.D. Apr 16 '13 at 19:14

5 Answers 5

up vote 7 down vote accepted

The second form has one clear advantage: if you for some mistake manipulate i inside the loop, the first form will probably crash if i get's assigned to a value greater than mjk.length and the second form will simply ends the loop.

The only single advantage I can see in the second approach is that "!=" might run faster than "<" but I'm not even sure this happens at all (this might depend on the JVM implementation and the hardware itself.) But please notice that if you do something substancial inside the loop the difference will not be noticed at all since it's executed only once per iteration.

I would definitely use the second one cause it's much safer.

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Would would this be an advantage to hide a mistake when a crash shows the mistake? –  MaciejGórski Apr 16 '13 at 15:29
you might do it in order to try to find bugs in you code, but it shouldn't be used in a regular basis –  Mppl Apr 16 '13 at 15:33
This is not an advantage. It is often (perhaps most often, or even almost always) better for the program to crash than to give the wrong result. Don't write code that silently hides errors. –  Thomas Padron-McCarthy Apr 16 '13 at 19:23

I believe that this was just an inexperienced programmer. In general, it's of course always better to use a < for more robustness. In the case of fooling around with the index (e.g. by changing the step interval to i+=2), it will not produce an infinite loop.

Technically, comparison might use less CPU time (not so familiar with this though), but the effect is marginal or just irrelevant, it will not destroy any program's performance... :)

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I think the person who wrote the code may love Containers(maps, vector) a lot (!!)

Because != is mostly used to iterate through elements of container. For an example to iterate through elements of any generic type != will work for both maps and vectors while < will be only worked for vector. So for iterating elements of generic time != is used. Rather than that I don't find any other advantages. ( hopeful about expert's sugestion/correction)

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Very good point! –  Thomas Calc Apr 16 '13 at 15:49

I remember encountering this quite a long time ago when coding c++.

The argument in its favour was that the value of i on exiting the loop was clearer - i.e. it was clear at a glance that on loop exit i would == count.

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If the loop variable i somehow gets an incorrect, out-of-range value inside the loop, the first version will crash, and the second version will just end the loop.

This can be an advantage for the first version, the one that crashes. When your bank runs programs to handle your money, and there is an error, do you wish the program to crash with an obvious error, so they know that they have to fix it, or should it just silently go on and compute an incorrect result?

There are of course systems (life support, aircraft control, etcetera) where any result would be better than a stopped program. But it would be unwise to assume that as a general rule.

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