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template<class T> T sqrt (T);
template<class T> complex<T> sqrt(complex<T>);
double sqrt(double);
void f(complex<double> z)

In this code how does sqrt<double>(complex<double>) end up as a candidate for template argument deduction? And the author says any call that matches sqrt<T>(complex<T>) also matches sqrt<T>(<T>). How?

Code is from The C++ Programming Language, by Bjarne Stroustrup. Section 13.3.2

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A call to foo(something_concrete) matches a call to foo(anything), that makes sense to me. Of course, out of the two, the compiler will chose the more specialized one. – SingerOfTheFall Oct 18 '12 at 7:13
up vote 7 down vote accepted

Well, z is of type complex<double>. With T being double it clearly matches

template <typename T> complex<T> sqrt(complex<T>);

Also, with T being complex<double> it matches

template <typename T> T sqrt(T);

Where is the problem with this?

As the result of matching both of these functions, the overload set for deciding which of the functions to use consists of the two instantiations

complex<double> sqrt<double>(complex<double>)
complex<double> sqrt<complex<double>>(complex<double>)

Both match but the first one is more specialized and, thus, chosen by the overload resolution.

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