In the C code I am analyzing, there are a lot of multidimensional (struct) arrays which are initialized with a different number of curly brackets e.g. {{0}} or {{{0}}}.

However, replacing these by {0} also works perfectly.

Is there a (functional) difference between using one or more sets of curly brackets ({}) occurrences ?


No, there is no functional difference. The C standard allows to leave out intermediate {}. In particular, the form { 0 } is an initializer that can be used for all data types.


You have two choices: either { 0 }, which works for any aggregate or union type and zero initializes every member, or using the correct form which must correspond to all members correctly.

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    No. {0} works even for scalar types. There's no difference between {0} and {{{0}}}. – P.P. Nov 14 '16 at 13:58
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    You said "works for any aggregate or union type". Doesn't it imply so? – P.P. Nov 14 '16 at 14:00
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    @P.P. {0} does work for scalar types, but I never said it doesn't. – 2501 Nov 14 '16 at 14:00
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    {0} is the "universal initializer" which works for every type in C. Why are you talking about {{0}} as initializer for an int? OP's question is about whether {0} is OK for as an initializer for a multi-dimensional array. For which the answer is: either is fine. – P.P. Nov 14 '16 at 14:04
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    @P.P. Then you should have mentioned that. The second sentence from your first comment says that there is not difference between {0} and {{{0}}}, but that is only true for an array with exactly 3 dimensions which is what OP did not specify. – 2501 Nov 14 '16 at 14:12

Just to reiterate what Jens has already said, {0} works for any type. It is the "universal zero initializer" in C. See C11 draft, 6.7.9 Initialization.

So, to initialize a 3D array either {0} or {{{0}}} can be used. Personally I'd use {0} as it's easier to type and read and works for every type. That means, the following are all valid initializations:

int main(void)
    int x = {0,};
    int *p = {0,};
    int *q = {0};
    int arr[3][3][3][3] = {0};

More importantly, if you happen to have some unknown/opaque type, for example from a third-party libraries, then the only portable way to initialize them is using {0}. Any other way of zero-ing it (such as using memset() or directly some_type_t state = 0;) would require some internal knowledge of the type involved and risks being non-portable.

  • 3
    If you have an opaque type from another library, you shouldn't meddle with its internals in the first place, but let that library initialize it. – Lundin Nov 14 '16 at 14:51
  • I up-clicked because your answer adds useful content to the post. But I want to point out a small nit about an assertion you make. Although I agree the standard's description of usage for the the symbols { 0 } supports the idea of them being useful as a universal zero initializer, the phrase as quoted in your post does not exist in the link you provided. – ryyker Nov 7 '18 at 13:15

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