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int i = i;

int main() { 
 int a = a;
 return 0;
} 

int a = a surely has undefined behaviour (UB), and more details on it is in Is reading an uninitialized value always an undefined behaviour? Or are there exceptions to it?.

But what about int i = i? In C++ we are allowed to assign nonconstant values to globals. i is declared and zero initialized (since it has file scope) before the declaration is encountered. In which case we are assigning 0 to it later in the definition. Is it safe to say this does not have UB?

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    Yes, this is safe as you say because objects of static storage duration are zero-initialized before any other initialization – M.M Jun 15 at 2:27
  • File scope is a concept from C. Corresponding concept in C++ is namespace scope. – Ruslan Jun 16 at 13:25
  • The reason initializers have visibility over the identifier being initialized is to that recursive/circular references are possible like struct circular_list x = { &x, &x }. That's what it's for. – Kaz Jun 16 at 16:11
56

Surprisingly, this is not undefined behavior.

Static initialization [basic.start.static]

Constant initialization is performed if a variable or temporary object with static or thread storage duration is constant-initialized. If constant initialization is not performed, a variable with static storage duration or thread storage duration is zero-initialized. Together, zero-initialization and constant initialization are called static initialization; all other initialization is dynamic initialization. All static initialization strongly happens before any dynamic initialization.

Important parts bold-faced. "Static initialization" includes global variable initialization, "static storage duration" includes global variables, and the above clause is applicable here:

int i = i;

This is not constant-initialization. Therefore, zero-initialization is done according to the above clause (for basic integer types zero-initialization means, unsurprising, that it's set to 0). The above clause also specifies that zero initialization must take place before dynamic initialization.

So, what happens here:

  1. i is initialized to 0.
  2. i is then dynamically initialized, from itself, so it still remains 0.
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    That's hilarious. This lets you create a non-constructible object! struct S { S() = delete; } s = s; – Raymond Chen Jun 15 at 2:50
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    @RaymondChen Actually useful for pre C++20 captureless lambdas, which don't have a default constructor: stackoverflow.com/a/57012585/1896169 . – Justin Jun 15 at 5:55
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    How would that change for global alias ? int & i = i; – Vincent Fourmond Jun 15 at 14:24
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    But when does the lifetime of i start? When the static init is complete, or when the dynamic init is complete? If it's the former, then what about e.g. a global std::string s;? Is attempting to read from it before dynamic init finishes somehow not UB? – HolyBlackCat Jun 15 at 17:32
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    We don't know whether i is still zero at dynamic time, because global constructors could have changed it, right? It' as if an assignment i = i happens at the dynamic initialization time. Since that is a noop, it could be optimized away. – Kaz Jun 16 at 16:13
4

The behavior might be undefined for i, since depending on how you read the standard, you could be reading i before its lifetime starts.

[basic.life]/1.2

... The lifetime of an object of type T begins when:

— its initialization (if any) is complete ...

As mentioned in the other answer, i is initialized twice: first zero-initialized statically, then initialized with i dynamically.

Which initialization starts the lifetime? The first one or the final one?

The standard is being vague, and there are conflicting notes in it (albeit all of them are non-normative). Firstly, there is a footnote in [basic.life]/6 (thanks @eerorika) that explicitly says that the dynamic initialization starts the lifetime:

[basic.life]/6

Before the lifetime of an object has started but after the storage which the object will occupy has been allocated26

...

26) For example, before the dynamic initialization of an object with static storage duration ...

This interpretation makes the most sense to me, because otherwise it would be legal to access class instances before they undergo dynamic initialization, before they could estabilish their invariants (including the standard library classes defined by the standard).

There's also a conflicting note in [basic.start.static]/3, but that one is older than the one I mentioned above.

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  • No it's not. int i = i; is equal to int i; i = i;. stackoverflow.com/a/67663586/14940626 – Dan Jun 15 at 18:57
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    Interesting. The definition of lifetime changed between C++17 and C++20, and this footnote changed to match. This does contradict the example in [basic.start.dynamic]/5, but examples are also non-normative, and it seems likely they just missed updating this example. – aschepler Jun 15 at 19:03
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    @Dan That question is about C, and int i; i = i; isn't even legal at namespace scope. – aschepler Jun 15 at 19:04
  • @aschepler Can you explain the contradiction? – HolyBlackCat Jun 15 at 19:13
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    If anything, I think this (non-normative) footnote contradicts the (non-normative) note in [basic.start.static]/3. – dfrib Jun 15 at 20:08

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