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It seems that I'm doing here something terribly wrong. Can you help me? The aim is to use inner_product for complex vectors.

#include <numeric>
#include <complex>

using namespace std; 

template<class T>
complex< T > complex_prod(complex< T > a, complex< T > b)
 return conj<T>(a)*b; 

template<class T>
complex< T > add_c(complex< T > a, complex< T > b)
  return a+b;

int main()
  complex<double> c1(1.,3.);
  complex<double> c2(2.,4.);

  vector<complex<double> > C1(3,c1);
  vector<complex<double> > C2(3,c2);

 cout<<inner_product(C1.begin(),C2.end(),C2.begin(),0.,add_c<double>,complex_prod<double>) <<endl;

return 0;

I don't see why there is a conversion problem, everything seems to be defined and the iteration should make no problem.

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1 Answer 1

up vote 3 down vote accepted

The problem is that inner_product needs to know the type of the initial value, so you need to pass it an std::complex instead of a 0.:


or simply,


Although an std::complex<double> can be implicitly constructed from a single numeric type

std::complex<double> c = 2.*4.*300;

the inner_product template looks like

    class InputIterator1,
    class InputIteratorr2,
    class T,
    class BinaryOperation1,
    class BinaryOperation2
> T inner_product( InputIterator1 first1, InputIterator1 last1,
                   InputIterator2 first2, T value,
                   BinaryOperation1 op1,
                   BinaryOperation2 op2 );

so there is a template parameter for the value. So there is no way the compiler can know you mean std::complex<double> here, it just interprets 0. as double.

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Thank you! Why is 0. not converted? Addition: complex<double>(0.,0.) –  pawel_winzig May 12 '12 at 17:29
@pawel_winzig I must say, I am not sure! The implicit conversion should have worked. I will try to reproduce your error. –  juanchopanza May 12 '12 at 17:35
@JamesCuster I figured it out. –  juanchopanza May 12 '12 at 17:37
@pawel_winzig got it, added the explanation. –  juanchopanza May 12 '12 at 17:41
Thanks! I was not careful about at which point the type is extracted. My - wrong - assumption was that it is extracted from first1...dangerous. –  pawel_winzig May 12 '12 at 17:49

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