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I've seen both of these two for statements:



I know they all stop when i reaches 10 , but it seems better to use the second one (I heard). What is the different?I also want to know when use iterator to access member of a vector, what is the difference between iterator condition < vec.end()and != vec.end()

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Just for the note, in for-loops, ++i is better than i++, because the second one stores the former value of i, while the first one doesn't. – Paul Manta Nov 18 '11 at 6:19
@PaulManta: I would think that most modern compilers would be able to figure out that the intermediate value is unused and optimize it away. – arne Nov 18 '11 at 6:25
@BrendanLong: for primitive types it can. For iterators, ++i will be at least as fast, maybe faster. – Mooing Duck Nov 18 '11 at 6:30
@arne Yes, modern compilers usually do... But the 'usually' part bugs me. :) It's not like it costs me anything to always write it as ++i and not depend on the compiler to optimize it. – Paul Manta Nov 18 '11 at 10:00
@PaulManta: That is a completely different story ;) I usually write ++i, too, so that my code looks the same, regardless of the type of i. – arne Nov 18 '11 at 10:12
up vote 74 down vote accepted
for(i = start; i != end; ++i)

This is the "standard" iterator loop. It has the advantage that it works with both pointers and standard library iterators (you can't rely on iterators having operator< defined).

for(i = start; i < end; ++i)

This won't work with standard library iterators (unless they have operator< defined), but it does have the advantage that if you go past end for some reason, it will still stop, so it's slightly safer. I was taught to use this when iterating over integers, but I don't know if it's actually considered "best practice".

The way I generally write these is to prefer <.

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Oh thanks,I'll remember that especially the iterator part^_^ – zyc Nov 18 '11 at 6:29
Actually, for pointers/iterators, it's only safer when iterating over part of the range. If end represents the end of the range, then going past end is undefined behavior, and thus all bets are off, whatever the condition. – Matthieu M. Nov 18 '11 at 7:18
Agreed -- the idea that it's safer is somewhat simplistic. If your loop isn't doing what you think it's doing, it's not safe. I was trying to present what I've heard as "best practice" though. – Brendan Long Nov 18 '11 at 7:19
Suppose someone decides to terminate your loop by setting the loop variable to the end value, rather than calling break for some reason. Then you increment the integer and compare and it is not equal... The second form has less scope for someone to mess it up accidentally, I think. – Bill Michell Nov 18 '11 at 16:57
@Matthieu M. - yes, going past the end is undefined behavior, but it's not impossible. Would you prefer to use != and throw an exception if you go past the end? – Nathan Long Nov 18 '11 at 17:07

Both will work in most situations.

If for some reason the body of code executed in the loop changes i to something greater than 10, the first version will stop looping, but the second will execute forever.

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My everyday practice is to use < when I iterate cycle with simple types such as integers and to use != when I work with stl-kind iterators

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Thank you!I used to think that all iterator has a< operator.How stupid i was! – zyc Nov 18 '11 at 6:57
Wrong place to your comment. I think, you want to say it to @BrendanLong. – fat Nov 18 '11 at 12:14
We should so petition for template<typename Iter> std::iterator_comparison_traits<Iter>, with a member typedef that evaluates to std::less<Iter> or std::not_equal_to<Iter>, respectively. – Simon Richter Nov 18 '11 at 14:03

for ( initialization ; termination condition ; iteration )

For each of those , choose youself the best one to fit your requirements, for termination condition you can use any of the binary conditional operators such as > ,< ,>= ,<= ,!=

For your given question , consider a random case in which,

 i=11; //somewhere if the loop variable is changed to a value greater than 10 (this assumption is solely for demo)

In this case, the loop turns out to be infinite. rather if you use a condition i<10, this works as usual. so my point is that the first approach is a bit more safer to set condition strictly.

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Assuming that it isn't intentional that setting i to 11 produce an infinite loop (or anyway one that continues until it sets it to 9), in which case you would use i != 10. Personally I don't think it's worth trying to code defensively against someone breaking your own loop invariants - either the body of the loop is supposed to modify i (in which case you're writing slightly gnarly code and have to be careful whatever the termination condition is), or it isn't supposed to (in which case I wouldn't bother trying to silently handle a loop body that did, since it's buggy anyway). – Steve Jessop Nov 18 '11 at 9:52
@Steve makes a good point. If you're worried about somebody setting i=11 inside your code so you use i<10 as your check condition... why aren't you worried about somebody just setting i=1 inside your loop causing it to run forever? – Dason Nov 18 '11 at 14:08

!= would allow the test to evaluate true if the value of i exceeds 10, while < would cause it to evaluate false if i exceeded 10 or merely became equal to it.

If the value of i might change within the body of the loop, this could be a consideration.

If, however, you're just looking to do something a set number of times, < is more descriptive, but either would suffice. != should, for simple step-through-10-items-and-do-grunt-work kinds of loops, be considered suboptimal in terms of being explicit about your intent.

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The best practice is to use != only with iterators (C++) and < otherwise. Never ever use == or != with floats/doubles. The following loop is an infinite loop:

for (double i = 0.0; i != 1.0; i += 0.1)
    printf("yes, I'm an infinite loop ;)");
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I know they all stop when i reaches 10 , but it seems better to use the second one(I heard).

That is a micro optimization. Use whatever makes more sense (and above < makes more sense).

What is the different?

The 1st version uses the inequality operator !=, and the 2nd uses the less operator <.

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Also, the second option assumes that you never increment i in the loop body. If you happen to do so you could end up in an infinite loop. Personally I agree with @VJo and think that code should express its intent first and foremost. So to me the real question is are you trying to loop only until i is 10 or whenever i is not 10? – Joshua Drake Nov 18 '11 at 14:23

I usually use < in for-loops for the reasons stated by others. In while-loops and more advanced for-loops though, != makes it much easier to reason about what my program does.

Say I want to find the position after the first run of '5's in an array like [5,5,5,3,5,2,3,2,0]. That is we want k such that 0 <= i < k => a[i] = 5:

int pos = 0;
// Inv: a[0..pos) = 5
while (pos != N && a[pos] == 5)
    pos = pos+1;

Once the loop has executed we know that the inverse of the loop guard is true: pos == N || a[pos] != 5. In either case we have the pos we want.

Now say we had used < in the loop guard, then all we would have known afterwards was pos >= N || a[pos] != 5, but that's not the situation we wanted to be in. Doing a lot more work, we can prove that we can't possible be in pos > N, but that seams like a waste of time compared to just using != in the loop guard.

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