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In C and C++, one can initialize arrays and structs using braces:

int a[] = {2, 3, 5, 7};
entry e = {"answer", 42};

However, in a talk from 2007, Bjarne mentions that this syntax also works for scalars. I tried it:

int i = {7};

And it actually works! What is the rationale behind allowing the initialization of scalars with braces?

Note: I am specifically not talking about C++11 uniform initialization. This is good old C89 and C++98.

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It's just part of the grammar of C++. Allowing all objects to be initialised this way is more consistent and probably simifies the implementation. – Dave Hillier Jan 9 '13 at 9:42
which pre C++11 compiler did you try? – TemplateRex Jan 9 '13 at 9:43
@rhalbersma Nothing fancy, just current gcc on Linux (yes, gcc, not g++). And also Visual Studio 2012, with does not support uniform initialization yet. So it can't be that. – fredoverflow Jan 9 '13 at 9:49
I am pretty much sure You must have but just to confirm, have you compiled with -pedantic? Maybe it is just an compiler extension. – Alok Save Jan 9 '13 at 10:00
up vote 4 down vote accepted

What is the rationale behind allowing the initialization of scalars with braces?

int is POD. So the brace initialization is allowed in case of int (and for all build-in types), as it makes the initialization-syntax consistent with other PODs.

Also, I guess whatever rationale behind C++11 Uniform Initialization Syntax are, are also (partially) applicable to this syntax allowed by C++03. It is just C++03 didn't extend this to include non-pod types such as the standard containers.

I can see one place where this initialization is helpful in C++03.

template<typename T>
void f()
    T  obj = { size() } ; //T is POD: built-in type or pod-struct

Now this can be instantiated with struct which begins with a suitable member, as well as any arithmetic type:

struct header
    size_t size; //it is the first member

f<header>(); //body becomes : header obj = { size(); }; which is fine
f<size_t>(); //body becomes : size_t obj = { size(); }; which is fine

Also note that POD, whether struct or built-in types, can also be initialized uniformly as:

header h = header(); //value-initialized
int    i = int();    //value-initialized

So I believe one reason is consistency!

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The rationale is not mentioned, but from a 2005 C++ Standard draft, 8.5 Initializers [dcl.init], clause 14

If T is a scalar type, then a declaration of the form T x = { a }; is equivalent to T x = a;

Note that the C++ 98 Standard only allows brace initializers for copy-initialization T x = { a }, and not for direct initialization T x { a }, for which only T x(a) works.

UPDATE: see also this question

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C++ probably inherited this from C. In C the main reason is to have a unique initilizer syntax, in particular for a default initializer. In C the default initializer is {0}.

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