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Considering the following function :

template<typename... List> 
inline unsigned int myFunction(const List&... list)
    return /* SOMETHING */; 

What is the most simple thing to put instead of /* SOMETHING */ in order to return the sum of sizeof all arguments ?

For example myFunction(int, char, double) = 4+1+8 = 13

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up vote 10 down vote accepted
unsigned myFunction() {return 0;}

template <typename Head, typename... Tail>
unsigned myFunction(const Head & head, const Tail &... tail) {
    return sizeof head + myFunction(tail...);
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Smart (+1) - with inline will be even smarter. – PiotrNycz Oct 1 '12 at 2:48
@PiotrNycz: inline as an optimization thing, is just a hint. Nothing more. Personally I value code clarity far more than that hinting, and then inline should better be reserved for its one guaranteed effect, namely its ODR effect. – Cheers and hth. - Alf Oct 1 '12 at 3:03
@PiotrNycz: Yes, if you need to define the non-template overload in a header file, then it will need to be inline. That's rather irrelevant to the question, though. – Mike Seymour Oct 1 '12 at 3:11
+1 because those could be constexpr. – Matthieu M. Oct 1 '12 at 8:17
It works perfectly as a compile time constexpr in gcc, clang and VS12. I wonder why there's no standard library support for this. – ceztko Feb 28 '15 at 12:12

Based off of this comment and the following comments on the question, you could use this (note: completely untested)

std::initializer_list<std::size_t> sizeList = {sizeof(List)...}; //sizeList should be std::initializer_list, according to the comments I linked to
return std::accumulate(sizeList.begin(), sizeList.end(), 0);
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This begs the interesting question: will this be statically computed (all the way down) ? – Matthieu M. Oct 1 '12 at 8:16
I do not think this will be statically computed unless someone made a constexpr version of std::accumulate, or if you happen to have a super optimizing compiler, but I have no idea about if any compiler will optimize that much. – JKor Oct 1 '12 at 20:42
unfortunately I don't have a version of Clang with std::initializer_list :/ – Matthieu M. Oct 2 '12 at 7:10

In C++17, use a fold expression:

template<typename... List> 
inline constexpr unsigned int myFunction(const List&... list)
    return (0 + ... + sizeof(List));
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Two years late but an alternative solution guaranteed to be computed by the compiler (if you don't mind the different syntax):

template < typename ... Types >
struct SizeOf;

template < typename TFirst >
struct SizeOf < TFirst >
    static const auto Value = (sizeof(TFirst));

template < typename TFirst, typename ... TRemaining >
struct SizeOf < TFirst, TRemaining ... >
    static const auto Value = (sizeof(TFirst) + SizeOf<TRemaining...>::Value);

Used as const int size = SizeOf<int, char, double>; // 4 + 1 + 8 = 13

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I've just found that :

template<typename... List> 
inline unsigned int myFunction(const List&... list)
    return sizeof(std::make_tuple(list...)); 

But :

1) Do I have the guarantee that the result will always be the same on all compilers ?

2) Do the make_tuple will make and overhead at compile-time ?

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This does not compute the sum of the sizes. You do have a guarantee that the size of the tuple is greater than or equal to the sum of the sizes. – Luc Danton Oct 1 '12 at 2:38
How can it be greater ? – Vincent Oct 1 '12 at 2:40
An implementation is allowed to do what they want. Perhaps more pragmatically, remember that the only guarantee on the size of something like struct { int i; double j; }; is that it's at least sizeof(int) + sizeof(double), but it can be larger. – Luc Danton Oct 1 '12 at 2:42
@Vincent - because of struct padding: stackoverflow.com/questions/5397447/struct-padding-in-c – PiotrNycz Oct 1 '12 at 2:43
@LucDanton Actually, not even that, if you have empty types. – T.C. Mar 18 at 18:36

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