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Atm i have sth like that:

template<int n>
struct Pow
  enum{val= Pow<n-1>::val<<1};
struct Pow<0>{
    enum{val =1};

I can acess data like Pow<30>::val. It's good but i want do like this

   int main()

and then use variable to access all of value <0,30> I knew that i can use array and dynamic programming but can i do that in this way? Sorry for English.

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How do you want to "access" the values? Add them all up? Call some function on each of the values? –  Tom Kerr Aug 30 '11 at 19:46
I don't understand. How is Pow<n>::val supposed to be different for every conceivable purpose from 1 << n ? –  Alexandre C. Aug 30 '11 at 19:58

2 Answers 2

up vote 1 down vote accepted

Using C++0x variadic templates:

template<int... Indices>
struct powers {
    static const int value[sizeof...(Indices)];

    typedef powers<Indices..., sizeof...(Indices)> next;

template<int... Indices>
const int powers<Indices...>::value[sizeof...(Indices)] = { Pow<Indices>::val... };

template<int N>
struct build_powers {
    typedef typename build_powers<N - 1>::type::next type;

struct build_powers<1> {
    typedef powers<0> type;

and then:

    // we want [0..30] inclusive so pass 31 as exclusive upper limit
    typedef build_powers<31>::type power_type;
    // 0..30 is 31 powers in all
    typedef const int array_type[31];

    array_type& ref = power_type::value;
    // ref[0] .. ref[30] are the values of Pow<0>::val .. Pow<30>::val

So that's with using an array but without dynamic initialization. Since you want the result as a variable and not for TMP I feel this is adequate.

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Thx very i was searching for sth like that :) –  Waskae Aug 30 '11 at 20:30

When you do Pow<30>::val; you will instantiate the top of your two templates, then when it get's to zero it will instantiate the specialization, and only the final result will be visible at runtime, since templates are resolved at compile time

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Thx :(I was thinking that meta-programming is more powerfull. –  Waskae Aug 30 '11 at 20:00
@Waskae : The fact that it's all performed at compile-time rather than runtime is what makes TMP powerful... –  ildjarn Aug 30 '11 at 20:06

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