I accidentally created a bug in a program by self-referencing in an array. Here's a very simplified demo program similar in concept:

#include <iostream>
using namespace std;

int kTest[] = {

int main() {
    cout << kTest[0] << endl;

I was surprised that I received neither a compiler error or even a warning on this code! In my case it ended up producing unpredictable output. Is it accessing garbage memory?

I was curious about under what circumstances this would have well-defined output (if ever!).

Edit: Does it make a difference if kTest is static? What about const? Both?

  • hmm. global ints are zero initialized so I wonder if because of that it is legal. – NathanOliver Oct 19 '16 at 17:52
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    It's not very different from int x = x;. – Kerrek SB Oct 19 '16 at 17:54
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    Why would it be an error? kTest has been declared by the point of use. Globals are normally initialized to 0, but since you are manually initializing it, it initializes with the zeroth element --- which is garbage since it's still in the process of initializing. – Paul J. Lucas Oct 19 '16 at 17:54
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    Is this actually the real code that produces the alleged "garbage"? Since this initialization is dynamic (given that the initializer is not a constant expression), kTest is guaranteed to be zero-initialized in the static phase. – Kerrek SB Oct 19 '16 at 17:58
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    I think that this is formally UB only if the index in kTest[...] is equal to or larger than the number of entries in kTest (for example, if you used kTest[5] up there, without adding at least 5 more entries). – barak manos Oct 19 '16 at 18:05
int kTest[] = {

is similar to, if not exactly same as

int x = x;

It will be undefined behavior, if declared locally in a function.

It seems to be well defined when kTest is a global variable. See the other answer for additional details.

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    This should be more than an opinion shouldn't it? Or is whether or it's UB not defined by the standard? – Carcigenicate Oct 19 '16 at 18:07
  • Could it be unspecified? I guess it is similar to this: int x; x = x;. – Aaron McDaid Oct 19 '16 at 18:14
  • @Carcigenicate, I see in the C++11 standard where int x = x; is discussed but I can't find anything that talks about the OP's situation. – R Sahu Oct 19 '16 at 18:17
  • I am not so sure, if you look at Self-initialization of a static constexpr variable, is it well-formed? as far as I can tell this should zero initialized. – Shafik Yaghmour Oct 23 '16 at 5:13

I'm not so sure this is undefined. Quote from the current draft:


If constant initialization is not performed, a variable with static storage duration ([basic.stc.static]) or thread storage duration ([basic.stc.thread]) is zero-initialized ([dcl.init]). Together, zero-initialization and constant initialization are called static initialization; all other initialization is dynamic initialization. Static initialization shall be performed before any dynamic initialization takes place.

To me it looks like kTest is already zero-initialized when the dynamic initialization starts, so it may be defined to initialize to 0.

  • Your interpretation makes sense.g++ did not complain about int x = x; when defined globally but complained when defined in a function. – R Sahu Oct 19 '16 at 18:34
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    Why do you assume that the OP's global initialization is dynamic? If I have static int a[] = { 1 }; that is initialized statically only. a[0] is not initialized to 0 (statically) and then initialized again to 1 (dynamically). – Paul J. Lucas Oct 19 '16 at 19:44
  • @PaulJ.Lucas: Together, zero-initialization and constant initialization are called static initialization; all other initialization is dynamic initialization. – krzaq Oct 19 '16 at 19:45
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    @Paul J. Lucas: Becuase it is not zero-initialization and it does not satisfy requirements of constant-initialization. That immediately makes it dynamic. Your static int a[] = { 1 }; example is completely different. However, conceptually it is actually processed in two stages: as zero-initialization followed by initialization with 1. Both stages are static initialization though. It is C++17 that decieded to get rid of the unnecessary zero-initializtion when constant-initialization is present. – AnT Oct 19 '16 at 19:55
  • See my comment I believe your interpretation is correct. – Shafik Yaghmour Oct 23 '16 at 5:14

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