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!!

`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`blah`

is an`int`

. – arlogb Oct 27 '12 at 1:03runtime, they will be determined atcompile-time. – K-ballo Oct 27 '12 at 1:11