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            For a sequence seq and
            function object or function pointer f,
            transform returns a new
            sequence with elements created by applying f(e) to each element of e
            of seq.
          
template<
    typename Sequence,
    typename F
    >
typename result_of::transform<Sequence const, F>::type transform(
    Sequence const& seq, F f);
Table 1.68. Parameters
| Parameter | Requirement | Description | 
|---|---|---|
| 
                       | A model of Forward Sequence | Operation's argument | 
| 
                       | 
                       | Transformation function | 
transform(seq, f);
Return type: A model of Forward Sequence
            Semantics: Returns a new sequence, containing
            the return values of f(e) for each element e
            within seq.
          
template<
    typename Sequence1,
    typename Sequence2,
    typename F
    >
typename result_of::transform<Sequence1 const, Sequence2 const, F>::type transform(
    Sequence1 const& seq1, Sequence2 const& seq2, F f);
Table 1.69. Parameters
| Parameter | Requirement | Description | 
|---|---|---|
| 
                       | A model of Forward Sequence | Operation's argument | 
| 
                       | A model of Forward Sequence | Operation's argument | 
| 
                       | 
                       | Transformation function | 
Return type: A model of Forward Sequence.
            Semantics: Returns a new sequence, containing
            the return values of f(e1, e2) for each pair of elements e1 and e2
            within seq1 and seq2 respectively.
          
Constant. Returns a view which is lazily evaluated.
#include <boost/fusion/algorithm/transformation/transform.hpp> #include <boost/fusion/include/transform.hpp>
struct triple { typedef int result_type; int operator()(int t) const { return t * 3; }; }; ... assert(transform(make_vector(1,2,3), triple()) ==make_vector(3,6,9));