With the C++14 standard, the initialization of an std::array can go with single braces (see http://en.cppreference.com/w/cpp/container/array):

This, however, does not work for an std::array of std::pair.

Why do these work:

std::pair<int, int> p { 1, 2 };
std::array<int, 3> a {1, 2, 3};

but does this not work:

std::array<std::pair<int, int>, 3> b {{1, 11}, {2, 22}, {3, 33}};

while this does work again?

std::array<std::pair<int, int>, 3> b {{{1, 11}, {2, 22}, {3, 33}}};

Also, for completion, the initialization of a good old array does work with single braces

std::pair<int, int> c[3] {{1, 11}, {2, 22}, {3, 33}};
  • 2
    Heads-up to everyone wondering this: if the fact that brace-initialization carries ambiguities isn't clear to you, you need to stop using brace initialization, because chances are that even your previous code that does compile is being similarly misinterpreted and you just don't know that it's buggy. From which follows a useful lesson: new features are something to stay away from until you understand them, not something to embrace until you get burned by them... – user541686 May 31 '18 at 4:34

This appears to be a parsing ambuguity somewhat similar to the famous most vexing parse. I suspect what's going on is that:

If you write

std::array<std::pair<int, int>, 3> b {{1, 11}, {2, 22}, {3, 33}};

the compiler has two ways to interpret the syntax:

  1. You perform a full-brace initialization (meaning the outermost brace refers to the aggregate initialization of the std::array, while the first innermost one initializes the internal member representation of std::array which is a real C-Array). This will fail to compile, as std::pair<int, int> subsequently cannot be initialized by 1 (all braces are used up). clang will give a compiler error indicating exactly that:

    error: no viable conversion from 'int' to 'std::pair<int, int>'
     std::array<std::pair<int, int>, 3> a{{1, 11}, {2, 22}, {3, 33}};

    Note also this problem is resolved if there is no internal member aggregate to be initialized, i.e.

    std::pair<int, int> b[3] = {{1, 11}, {2, 22}, {3, 33}};

    will compile just fine as aggregate initialization.

  2. (The way you meant it.) You perform a brace-elided initialization, the innermost braces therefore are for aggregate-initialization of the individual pairs, while the braces for the internal array representations are elided. Note that even if there wasn't this ambiguity, as correctly pointed out in rustyx's answer, the rules of brace elision do not apply as std::pair is no aggregate type so the program would still be ill-formed.

The compiler will prefer option 1. By providing the extra braces, you perform the full-brace initialization and lift any syntactical ambiguity.

  • But how is it formalized that compilers always chose 1? I guess compilers don't "prefer" as that leaves room for ambiguity in implementation. – Chiel May 30 '18 at 9:15
  • @Chiel As this question was not tagged language-lawyer I didn't bother (yet) to dig into the depths of the standard. I guess the answer won't be explicitely written there, it's rather a consequence on how the grammar of C++ is defined. – Jodocus May 30 '18 at 9:26
  • Do you think it is worth this tag? – Chiel May 30 '18 at 9:39
  • Why does std::array<int, 3> a {1, 2, 3}; work? If option 1 is preferred, then 1 is used to initialize the C-array, which is ill-formed. – xskxzr May 30 '18 at 12:55
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    @xskxzr Your example clearly cannot be interpreted as a full-brace aggregate initialization, as you only provided a single pair of braces. The ambiguity lies on the meaning on the inner braces, which aren't existent here. So in this context, this can only be a brace-elided initialization. – Jodocus May 30 '18 at 13:00

The C++14 brace elision rule applies only to subaggregate initialization.

So for example something like this works:

std::array<std::array<int, 3>, 3> a{1, 11, 2, 22, 3, 33};

Here an aggregate of aggregates can be list-initialized without extra braces.

But std::pair is not an aggregate (it has constructors), so the rule does not apply.

Which means that without the brace elision rule, std::array, itself being an aggregate with an array inside, needs an extra set of braces in order to be list-initialized. Remember that the class template array is implemented as:

template<typename T, std::size_t N> 
struct array {
  T elems[N];

To list-initialize it without the brace elision rule, you need an extra set of braces to get to the elems member.

  • Good theory, but why doesn't it work for an aggregate trivial mypair<int, int> without any constructors either? I guess, the syntax ambiguity still stays, even though clang now gives a more reasonable error message indicating missing braces. – Jodocus May 30 '18 at 7:55
  • Correct, the brace elision rule creates ambiguity, and is best useful as an all-or-nothing approach, i.e. you either elide all the braces (except the outermost ones of course), or you elide nothing. – rustyx May 30 '18 at 8:52
  • OP does not ask whether the innermost braces can be elided. It asks whether the middle braces can be elided. – xskxzr May 30 '18 at 13:15
  • And I explain why no braces can be elided. – rustyx May 30 '18 at 13:47

Without the double braces, the statement is simply ambiguous. Consider the following code:

    std::array<std::pair<int, int>, 1> a = {{ {1, 2} }};
    std::array<int, 2> b = { {1, 2} };

Without double braces in the first definition, the compiler will treat { {1,2} } as a scalar initialization list for array<int, 2>. You need to declare an explicit nested braced-init-list in order for the compiler to recognize that the inner list is also aggregate-initialized (vs. scalar initialized), such that it can construct an array of std::pair.

  • 1
    "(due to brace elision)." Note that, as rustyx nicely pointed out in his answer, that there should be no brace elision in this case. It's just ambiguous. – Jodocus May 30 '18 at 10:00

In theory std::array should be initialized with aggregate initialization. So actually this:

std::array<int, 3> a {1, 2, 3};

is a syntactic sugar for this:

std::array<int, 3> a {{1, 2, 3}};

As You see, in the first one it seems I initialize array with values, but it is really aggregate initialization with braced init-list. This is clear as a day in the second situation. So that's for starters.

Ok so why does not this work?

std::array<std::pair<int, int>, 3> b {{1, 11}, {2, 22}, {3, 33}};

Well, simply put - the compiler can't distinguish what type of syntax You are using to initialize the array. {1, 11} can be interpreted both as initializer list and use the first version or it can be interpreted as a pair and go with the second version.

This code:

std::array<std::pair<int, int>, 3> b {{{1, 11}, {2, 22}, {3, 33}}};.

removes ambiguity.

Source: http://en.cppreference.com/w/cpp/language/aggregate_initialization

  • 2
    There should be no initializer_lists involved afaics. – Jodocus May 30 '18 at 7:29
  • 1
    Braced-init-list is not the same as std::initializer_list. Braced-init-list is a form of initializer; std::initializer_list is a class. Aggregates does not have a user-provided constructor. It is impossible to involve a std::initializer_list in anyway. – user2486888 May 30 '18 at 7:31

I'm going to guess here.
The initializer list for std::array<T,n> should be a list of T (or trivially constructable to T). So you could do

std::array<std::pair<int,int>,3> b { std::pair{1,11}, std::pair{2,22}, std::pair{3,33} };

but that is tediously verbose. In order to get the conversion to std::pair<int,int> you want, you need to provide an initializer list, so

std::array<std::pair<int,int>,3> b {
    { // element 1
      { // initialize from:
        { 1,11 } // std::initializer_list

I can't defend this further, but note that std::vector<T, Allocator>::vector( std::initializer_list<T>, const Allocator& alloc=Allocator()) is defined but std::array<T,n>::array( std::initializer_list<T> ) is not. Neither is std::pair<U,T>::pair( std::initializer_list<??> ) defined.

  • Aggregate initialization does not involve any std::initializer_list. A braced-init-list is not a std::initializer_list even though the compiler converts the former to the later in some situations. – user2486888 May 30 '18 at 7:37
  • 1
    <hang-head-in-shame>that will teach me to guess on SO </hang-head-in-shame> – jwm May 30 '18 at 7:57
  • @jwm Guessing is okay as long as your guess is reasonable. But in language-lawyer-tagges questions, standards surely are higher. – Jodocus May 30 '18 at 8:04
  • @Jodocus not defending the answer, but in no version of this question was it tagged with language-lawyer. (language-lawyer was mentioned in a comment on a different answer though) – Mr.Mindor May 30 '18 at 19:50
  • @Mr.Mindor Sounded like I indicated that, but I didn't mean to. Was just meant as a general statement. – Jodocus May 30 '18 at 19:55

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