Why do uninitialized "max" and "min" values work on Linux but not Windows? For example:

double max, min, test;
while (1)
  std::cin >> test;
  if (test > max)
    max = test;

  if (test < min)
    min = test;

This works on Linux. I know for a fact because I've been using this (although I didn't realize until now how terrible this is) for at least 3 months now. However, I've been told by a number of co-workers that this is broken on their machines: They compile using Visual Studio. Is there some validity to their statements, and why? Is this simply a case of UB? If so, how has it been working for the past months without me noticing?

Also note: gcc (Ubuntu/Linaro 4.5.2-8ubuntu4) 4.5.2 and Visual Studio 2010


Roughly speaking, your code will appear to work if the uninitialized variables min and max just so happen to hold values that compare in between the actual minimum and maximum values encountered in test. The object representation of an uninitialized automatic variable may or may not be consistent, depending on compiler, options, and the code in the rest of the program. Reading an uninitialized value is certainly UB. UB may or may not be consistent.

So for example, one simple way that you could get the behavior you observe is if:

  • your test sets all include both positive and negative values,
  • gcc/linux consistently puts an all-bits-zero representation in the uninitialized variables,
  • VS consistently puts a NaN in the uninitialized variables (so test < min and test > max are both always false).

Depending on what your test data is, and what "broken on their machines" means, the details may be different. I've just described one possibility out of the infinite scope of UB.

  • My co-workers report that they are simply uninitialized when they go through the debugger. However, I am looking at them right now, and they seem 0-initialized (on linux), even though I've done nothing to make them so. These double values are member variables to a class. Is this some POD rule that I don't know of, or is it still simply UB? – Drise Jun 8 '12 at 14:53
  • 1
    @Drise: "simply uninitialized" doesn't mean much. You haven't shown your real code, so I cannot remark on that, but in the code you have shown, the variables are uninitialized. There are some bytes at the memory location corresponding to those variables, and those bytes have values. Even if those values are 0 on your machine, the variable is still uninitialized, so it is still UB. As it happens, the Linux kernel clears memory before assigning it to a process, so early on in the running of a program, newly-allocated memory tends to be full of zeroes. – Steve Jessop Jun 8 '12 at 14:56
  • Ah, that makes so much more sense. Thank you for finding that. – Drise Jun 8 '12 at 14:59
  • The variables would have an indeterminate value, and using an indeterminate value may result in undefined behavior. However, the actual values may happen to be valid and usable, and in that case using them does not result in UB. Of course I don't believe there's any standard way to determine beforehand whether this is the case or not, so practically speaking you might as well treat using indeterminate values as UB. Unless you don't need that much portability and you know that there's no possibility of UB from using indeterminate values on your platform. – bames53 Jun 8 '12 at 16:08
  • 1
    +1 For explaining UB without starting a pedantic rant about it. – StackedCrooked Jun 8 '12 at 17:03

This "works" on no platform.

All it does is to invoke Undefined Behavior. "Seems to do what I expected it to" is but one way for UB to materialize itself. It's a rather unfortunate one, though, because it makes you believe your code is fine, until one day it explodes into your customer's face.


Because undefined behaviour is undefined. It might work, or it might not work, you just don't know. Apparently, on your linux environment, it works.

  • For 3+ months solid? – Drise Jun 8 '12 at 14:28
  • @Drise: yes. so? – PlasmaHH Jun 8 '12 at 14:28
  • 6
    @Drise: You need to understand that "undefined" does NOT mean "you will get an error" or "it depends on the details" or anything else. It literally means it's undefined (it can result in anything or nothing)... period. Repeat after me: Undefined behavior does NOT imply I will get an error; Undefined behavior does NOT imply I will get an error... – Mehrdad Jun 8 '12 at 14:28
  • Yes. Maybe something happens in Linux that makes it work. But that's undefined, you don't know whether it will work or not. – mfontanini Jun 8 '12 at 14:29
  • 2
    Yes. Undefined doesn't mean it isn't consistent. It may or may not be. This is exactly the sort of thing I would expect to be undefined but consistent. – Joel Rondeau Jun 8 '12 at 14:29

Using the value of an uninitialized variable is undefined behavior, so anything can happen. Anything, which means the code may seem to work, it may crash, or it may cause demons to fly out of your nose.

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