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I'm getting up to speed with C++0x, and testing things out with g++ 4.6

I just tried the following code, thinking it would work, but it doesn't compile. I get the error:

incompatible types in assignment of ‘std::initializer_list<const int>’ to ‘const int [2]’

struct Foo
  {
    int const data[2];

    Foo(std::initializer_list<int const>& ini)
    : data(ini)
    {}
  };

Foo f = {1,3};
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5 Answers 5

up vote 21 down vote accepted

You can use a variadic template constructor instead of an initializer list constructor:

struct foo { 
    int x[2]; 
    template <typename... T> 
    foo(T... ts) : x{ts...} { // note the use of brace-init-list
    } 
};

int main() {
    foo f1(1,2);   // OK
    foo f2{1,2};   // Also OK
    foo f3(42);    // OK; x[1] zero-initialized
    foo f4(1,2,3); // Error: too many initializers
    foo f5(3.14);  // Error: narrowing conversion not allowed
    foo f6("foo"); // Error: no conversion from const char* to int
}

EDIT: If you can live without constness, another way would be to skip initialization and fill the array in the function body:

struct foo {
    int x[2]; // or std::array<int, 2> x;
    foo(std::initializer_list<int> il) {
       std::copy(x, x+2, il.begin());
       // or std::copy(x.begin(), x.end(), il.begin());
       // or x.fill(il.begin());
    }
}

This way, though, you lose the compile-time bounds checking that the former solution provides.

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1  
I think he wants the array to be const… the first solution satisfies this but not the second. –  Potatoswatter Apr 5 '11 at 11:09
    
Indeed, I missed that :\ –  JohannesD Apr 5 '11 at 11:10
    
Yeah, I am rather hoping that the compiler will make some optimizations based on the constness of the data. Still, I voted up the first solution as I rather liked it. Your method two is the workaround I decided to use while posting this problem, but I'd rather not have to go that route. –  swestrup Apr 5 '11 at 11:50
    
@swestrup: const doesn't usually inform optimization; the compiler figures such things by variable lifetime analysis. const is a correctness check and helps the language support read-only memory. –  Potatoswatter Apr 5 '11 at 15:17

As far as I can tell, using list-initialization of the function argument of the constructor (8.5.4/1) should be legal and solves many of the issues of the above. However, GCC 4.5.1 on ideone.com fails to match the constructor and rejects it.

#include <array>

struct Foo
  {
    std::array< int, 2 > const data;

    Foo(std::array<int, 2> const& ini) // parameter type specifies size = 2
    : data( ini )
    {}
  };

Foo f( {1,3} ); // list-initialize function argument per 8.5.4/1

If you really insist on initializer_list, you can use reinterpret_cast to turn the underlying array of the initializer_list into a C-style array.

Foo(std::initializer_list<int> ini) // pass without reference- or cv-qualification
: data( reinterpret_cast< std::array< int, 2 > const & >( * ini.begin() )
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I wanted to give this one an up-vote and a down-vote, but they wouldn't let me. –  TonyK Apr 5 '11 at 10:48
    
Oh ick. I am both appalled and impressed at the same time. I REALLY hope there's a less hackish way of doing this. –  swestrup Apr 5 '11 at 10:49
    
@Tony: I don't blame you, but one has to be brave to harness the forces of evil… right? –  Potatoswatter Apr 5 '11 at 10:50
1  
The latter solution should AFAICS indeed work: function argument passing is a direct-initialization context; list-initialization can occur in direct-initialization; list-initializing an aggregate causes aggregate-initialization (8.5.4/3) to occur; and std::array is an aggregate by design. Seems like a bug in GCC 4.5. –  JohannesD Apr 5 '11 at 11:39
    
I rather like your second solution, but alas g++ 4.6 doesn't accept it either. –  swestrup Apr 5 '11 at 11:57

According to the discussion here:

the right syntax for Potatoswatter's second solution is:

Foo f( {{1,3}} ); //two braces

a little bit ugly, not consistent with common usage

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You can't, arrays are not like other types (and don't have constructors taking a std::initializer_list).

Try this instead:

struct Foo  
{  
  const std::vector<int>   data;
  Foo(std::initializer_list<int>& ini) : data(ini)
  {}
}; 
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1  
I think it would also work with std::array to get closer to the OPs original implementation. –  ronag Apr 5 '11 at 9:14
1  
@ronag: I don't think std::array has any constructors at all, it is supposed to be initialized just like a C style array. –  Bo Persson Apr 5 '11 at 9:27
    
Alas my intended use is in a situation where the overhead of std::vector is unacceptable. std::array would be fine, but it has the exact same problem. –  swestrup Apr 5 '11 at 9:35
1  
The C++0x std::array really ought to have an initializer list constructor, as well as a [begin, end) one. The reasons the boost/tr1 implementations do not, stem from C++03 limitations that do not exist in C++0x anymore. –  JohannesD Apr 5 '11 at 10:26
    
@Johannes: std::tuple, too. It makes me sad. –  Lightness Races in Orbit Apr 5 '11 at 19:29

Just a small addition to great JohannesD answer.

In case of no arguments passed to foo constructor, array will be default initialized. But sometimes you want to keep underlying array uninitilized (maybe for performance reasons). You cannot add default constructor along with variadic-templated one. Workaround is additional argument to variadic-templated constructor, to distinguish it from zero-argument constructor:

template<class T, size_t rows, size_t cols>
class array2d
{
    std::array<T, rows * cols> m_Data;
    public:

    array2d() {}

    template <typename T, typename... Types>
    array2d(T t, Types... ts) : m_Data{ { t, ts... } } {}
};

So, now you can brace-initilize object, or left it uninitialized:

array2d<int, 6, 8> arr = { 0, 1, 2, 3 };  // contains 0, 1, 2, 3, 0, 0, 0, ...
array2d<int, 6, 8> arr2;                  // contains garbage
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