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I'm working on a homework assignment and am probably psyching myself out about this thing a little too much, so I am just seeking some input. Here's the basic code:

for(x = 100; x > 0; x = x + x) {
    sum = sum + x;

There are two versions: one where x is a float and one where it is an int. The question is are these infinite loops.

I am thinking that when x is an int, it will eventually overflow, making it less than zero and the loop will stop. When x is a float, x will reach infinity and the loop will be infinite.

Am I close?

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Make sure you tag homework question with a homework tag. – Ash Burlaczenko Jun 11 '11 at 0:37
There isn't a variable type that will ever hit an infinity, even the float for this example will have overflow and go negative. This sounds more like a math limit question. If you used unsigned variable types and did some checking for a 0 value, then these would run forever then. – E-Z Jun 11 '11 at 0:43
@E-Z, I love it when people who don't know what they're talking about talk with such conviction. – Blindy Jun 11 '11 at 0:46
An infinite loop is UB. Somebody will get tired of it and delete your program. – Hans Passant Jun 12 '11 at 0:08

The behavior when a signed integer is increased beyond its limit is undefined. So the loop may end or it may be infinite. Or it may crash (or the loop may never run at all). Or as some C gurus like to say, demons may fly out of your nose - though personally I doubt any compiler implementor would go through the trouble of implementing nasal demon functionality.

As far as floating point values are concerned, you are correct that it will be an infinite loop.

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Or the loop may never run at all. :-) Since invoking UB is global in time, i.e. it affects everything "before" the UB was invoked as well. – R.. Jun 11 '11 at 0:49
@R: Or that, yes. – sepp2k Jun 11 '11 at 0:53
Looks like Blindy's unhappy you gave a correct answer... – R.. Jun 11 '11 at 1:09
I thought this was merely unspecified rather than undefined. I believe you, but do you have a standard ref? (Just want to find the wording myself so that I remember) – Billy ONeal Jun 11 '11 at 1:13
It's the first example of undefined behavior where undefined behavior is first defined, in 3.4.3. – R.. Jun 11 '11 at 1:22

When signed integer overflows, the behavior is undefined. Expecting that x will become negative is naive at best.

Some compilers (like GCC) actually implement so called strict value semantics, which means that the compiler takes advantage of that undefined behavior for optimization purposes. In your specific example, the compiler might immediately generate a straightforward infinite loop, i.e. a loop that doesn't have any termination condition at all.

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You are indeed correct, integers will overflow to negative values (as long as they're signed) so the loop will end, and floats will stick to "+infinity" which is always greater than any number except NaN.

Edit: I stand corrected, the int version does loop infinitely (on some compilers due to their assumptions):

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"integers will overflow to negative values" That is not guaranteed behavior. – sepp2k Jun 11 '11 at 0:45
A modern compiler will optimize the integer loop to an infinite loop. – R.. Jun 11 '11 at 0:48
Btw: The "signed integer overflow" section of this article seems relevant here: What Every C Programmer Should Know About Undefined Behavior – sepp2k Jun 11 '11 at 0:59
Hm this is decidedly odd (in my opinion at least), GCC4 really does optimize the first one into an infinite loop. I learned something new today! – Blindy Jun 11 '11 at 1:04
@Blindy: It's only undefined when x + positive_integer is greater than MAX_INT, which the compiler can't know. The point is that you might be doing something like f(x,y) { if(x > y) {foo} else {bar} } and then call it as e.g. f(x, x+1). Now if the compiler inlines this, it ends up with if(x > x+1) {foo} else {bar}, which it can then optimize to just bar. In the majority of cases (which don't involve overflow), this is a perfectly valid optimization and does not go against the expectation of the programmer. – sepp2k Jun 11 '11 at 1:59

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