Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Firstly, apologies for the similarity to my previous question here, but I don't think I asked the right thing.

I have a method:

template <typename T>
void some_method( T &t)
{...}

which takes a type fusion::vector<T1, T2, T3, ..., Tn> to be determined at runtime - e.g. vector<int, double> in one call and vector<int, double, int> in another.

I want to fill this vector dynamically with something like:

int blah = 5;
for(int i = 0; i<size(t); i++){
at_c<i>(t) = blah;
}

This doesn't work since at_c expects a const.

I've tried other stuff (see the previous question) but still can't work out how to achieve this.

Any help much appreciated! Thanks.

share|improve this question
    
What is blah? A straight for-loop will never work, because blah has to have a different type at each iteration (you need to write a recursive template function). Can you provide a few examples of the way that you are representing the values to be inserted? –  Mankarse Oct 27 '12 at 1:01
    
I'm assuming that the values that will be inserted will be appropriately cast to the right type. For sake of argument you could imagine blah is an int. –  arlogb Oct 27 '12 at 1:03
    
They will not be determined at runtime, they will be determined at compile-time. –  K-ballo Oct 27 '12 at 1:11

3 Answers 3

up vote 3 down vote accepted

As @Mankarse specified correctly, you can't use fusion containers in a for loop and that's because fusion containers are all about tuple and each element may have different type from other elements, all functions that iterate through a fusion container are actually a couple of functions and usually implemented as template or overloaded functions. So in order to initialize a fusion container from a vector you should have multiple functions (or simply a template that will be compiled to multiple classes or functions) that all have access to that vector(or at least an iterator from the vector and an state variable that can increased for each call). So you have 2 options:

1) Use boost::fusion::fold:

template< class StdIteratorT >
struct initialize_fusion_container_from_std_iterator {
    typedef StdIteratorT    result_type;

    template< class T >
    StdIteratorT operator()( StdIteratorT i, T& val ) {
        val = *i;
        return ++i;
    }
};
void use_fold_demo() {
    int p1[] = {4, 5, 6};
    fusion::vector<int, double, int> fv;
    std::vector<int> sv2( p1, p1 + _countof(p1) );
    fusion::fold( fv, sv2.begin(),
    initialize_fusion_container_from_std_iterator<std::vector<int>::iterator>() );
}

2) Write a function that recursively call itself with next item of the container(remember syntax of this function is like recursive functions but it is not recursive at all):

// this will be called when we reach end of the fusion container(FIBeginT==FIEndT)
template< class FIBeginT, class FIEndT, class StdIteratorT >
void set_fusion_iterator( FIBeginT b, FIEndT e, StdIteratorT i, boost::mpl::true_ )
{
}
// this will be called when FIBeginT != FIEndT
template< class FIBeginT, class FIEndT, class StdIteratorT >
void set_fusion_iterator( FIBeginT b, FIEndT e, StdIteratorT i, boost::mpl::false_ )
{
    *b = *i;
    set_fusion_iterator( fusion::next(b), e, ++i,
        fusion::result_of::equal_to<
            typename fusion::result_of::next<FIBeginT>::type, FIEndT >() );
}

void recursive_function_demo() {
    typedef fusion::vector<int, double, int>    my_fusion_vector;

    int p1[] = {1, 2, 3};
    std::vector<int> sv1( p1, p1 + _countof(p1) );
    fusion::vector<int, double, int> fv;
    set_fusion_iterator( fusion::begin(fv), fusion::end(fv), sv1.begin(),
        fusion::result_of::equal_to<
            typename fusion::result_of::end<my_fusion_vector>::type,
            typename fusion::result_of::begin<my_fusion_vector>::type>() );
}

As you see second case is much more complicated, but if you understand its logic you can use it to do anything with fusion containers, so the choice is all yours!!

share|improve this answer

You could use boost::fusion::for_each:

#include <boost/fusion/algorithm.hpp>
#include <boost/fusion/container.hpp>

struct F {
    F(int blah): blah(blah){}
    template <typename T>
    void operator()(T& t) const {
        t = blah;
    }
    int blah;
};

template <typename T>
void some_method(T &t)
{
    boost::fusion::for_each(t, F(6));
}

int main() {
    boost::fusion::vector<int, double, int> idi;
    some_method(idi);
    boost::fusion::vector<int, double> id;
    some_method(id);
}

In an attempt to demystify the for_each, here is some mostly equivalent code that uses numerical indices instead:

#include <boost/fusion/algorithm.hpp>
#include <boost/fusion/container.hpp>
#include <boost/fusion/sequence.hpp>

template<typename T, int N, int End>
struct some_method_impl {
    void operator()(T& t) const {
        int blah = 6;
        boost::fusion::at_c<N>(t) = blah;
        some_method_impl<T, N+1, End>()(t);
    }
};

template<typename T, int N>
struct some_method_impl<T,N,N> {
    void operator()(T& t) const {}
};


template <typename T>
void some_method(T &t)
{
    some_method_impl<T,0,boost::fusion::result_of::size<T>::type::value>()(t);
}

int main() {
    boost::fusion::vector<int, double, int> idi;
    some_method(idi);
    boost::fusion::vector<int, double> id;
    some_method(id);
}
share|improve this answer
    
That's very helpful. Actually you're quite right though, I should have been more specific about blah... It is a vector<int> and I want to map a value from this blah to the fusion::vector. Is it possible with your suggested method? –  arlogb Oct 27 '12 at 1:10
1  
@arlogb: Yes, zip the sequence together with a set of indices, and then use the indices to index in to the vector during the for_each. –  Mankarse Oct 27 '12 at 1:15

How about this?

This is similar to the above case using boost::fusion::for_each .

But faster when i < size(t) than the above.

usage

main(){
  boost::fusion::vector<int,double,std::string,char> vec(9 ,2.2 ,"aaa" ,'b');
  std::cout << at_n_dynamic<double>(vec, 1) << std::endl; //=> 2.2
}

body

#include <boost/fusion/include/vector.hpp>    
template<typename V>
struct fusion_at_n_functor
{
   mutable int i;
   int n;
   mutable V value;
   fusion_at_n_functor(int _n):i(0),n(_n){}
   void operator()(const V & t) const
   { if(i==n){value=t;} i++;}  
   template<typename T>
   void operator()(const T & t) const
   { i++;}
};

template <typename First,typename Last,typename AtN > void
at_n_dynamic_fusion_impl(First i,Last last,AtN &atn,boost::mpl::true_ ){}
template <typename First,typename Last,typename AtN > void
at_n_dynamic_fusion_impl(First i,Last last,AtN &atn,boost::mpl::false_ ){  
  if(atn.i == atn.n ){atn(boost::fusion::deref(i));}
  else{
    atn(boost::fusion::deref(i));
    at_n_dynamic_fusion_impl(boost::fusion::next(i),last,atn,
           boost::fusion::result_of::equal_to<
             typename boost::fusion::result_of::next<First>::type,Last>  ());}
}

template <typename Ret,typename Sequence>  Ret
 at_n_dynamic(Sequence & seq, int n){ 
   fusion_at_n_functor<Ret> atn(n);
#if 0 
  // enabling this if is same to the above case of boost::fusion::for_each 
   boost::fusion::for_each(seq, atn);
#else
  // this recursion loop stop at n. but boost::fusion::for_each stop at last
   at_n_dynamic_fusion_impl(boost::fusion::begin(seq),boost::fusion::end(seq) ,atn,
         boost::fusion::result_of::equal_to<
           typename boost::fusion::result_of::begin<Sequence>::type,
           typename boost::fusion::result_of::end<Sequence>::type>());    
#endif
    return atn.value;}

This is copy of boost-users ML my post http://lists.boost.org/boost-users/2012/08/75493.php http://d.hatena.ne.jp/niitsuma/20120803/1343979718

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.