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For educational purposes I am wrting my own C++ numerical vector template class. I want to be able to write (v, w) for the dot product of two vectors and consequently overload operator,() as follows:

template<class T>
const T Vector<T>::operator,(const Vector<T>& v) const

    T t;
    for(size_t i=0; i<numElements; i++) {
        t += elements[i] * v[i];
    return t;

My question now is: how do I properly initialize t with a sensible value (e.g. 0.0 for Vector<double>)? I tried T t(); but then g++ tells me, e.g., that "double(*)()" cannot be converted to "const double" at the return statement and that operator+=() would not be defined for "(double(), double)".

Thank you very much!

share|improve this question
using (v,w) for the dot product is rather odd. Why not simply overload the *, i.e. v*w for the dot product? (that's what I use). In 3D, the vector product can be implemented using ^. Of course, multiplication by scalar or matrix can also be implemented using (another overload of) *. –  Walter Aug 8 '13 at 9:05
I agree that re-using the comma operator si not a good idea. It will lead to confusing code. Unfortunately re-using * isn't a great idea either, because it isn't unambiguous, cross product being an obvious candidate. I usually provide functions for binary operations involving vectors. –  juanchopanza Aug 8 '13 at 10:57

2 Answers 2

up vote 7 down vote accepted

What you need is termed value initialization, which has the effect of zero-initializing built-in types:

T t{};     // C++11
T t = T(); // C++03 and C++11

The reason this doesn't work

T t();

is that it is a declaration of a parameterless function called t, returning a T.

share|improve this answer
That's a templated version of MVP isn't it? –  Borgleader Aug 8 '13 at 7:23
@Borgleader, MVP is more Foo foo(Bar());, but yeah. –  chris Aug 8 '13 at 7:24
@o.svensson nothing to feel dumb about: these are two "special" features of the language at play: parsing everything that can look like a function as one, and not initializing default constructed built-in types. –  juanchopanza Aug 8 '13 at 8:05
@Walter Nothing in the code forces T to be a built-in type. So this could potentially introduce errors. –  o.svensson Aug 8 '13 at 9:25
Still, that assumes that T() is zero in the relevant sense. I.e. a+=T() is a no-op for all a, including a==T(). –  MSalters Aug 8 '13 at 11:38

Your code does allow for any type T, including user-defined ones, when simple value initialisation calls the default constructor and hence may fail to zero-initialise. I would be surprised if you intended other than built-in types T, but users of your code may have other ideas ... You should safeguard against that, e.g. via SFINAE:

template<class T>
struct is_complex { static const bool value = false; };
template<class U>
struct is_complex<std::complex<U>> : std::is_floating_point<U> {};

template<class T>
std::enable_if<std::is_floating_point<T>::value || is_complex<T>::value,
T Vector<T>::operator,(const Vector<T>& v) const
   T t{};  // value-initialisation is now guaranteed to be zero-initialisation
   /* ... */

Of course, this type of SFINAE may be applied to the class Vector<T> as a whole (instead of applying it to selected methods).

Just to clarify: this substantially restricts the possible types T to only 6 allowed types (float, double, long double, and the corresponding std::complex<> types). Of course, one can allow integer types, but I would be surprised if you want vector operations for integer vectors.

share|improve this answer
There is no way to safe-guard against user defined types whose default constructor does not perform zero-initialization of its elements. How does your code guarantee such zero initialization? –  juanchopanza Aug 8 '13 at 10:43
@juanchopanza For such types SFINAE disables the function. Only floating-point types or std::complex<floating-point type> are allowed. –  Walter Aug 8 '13 at 16:00
The point is how do you identify such types? You would need to know the internals of their default constructor, and determine that they are not zero initializing something that should be. I cannot see how SFINAE would do that. –  juanchopanza Aug 8 '13 at 16:06
@juanchopanza You didn't get it. I'm not using SFINAE to disable types without zero initialisation. Rather I'm using SFINAE to enable floating-point types (and std::complex<>). Just read the code man. –  Walter Aug 8 '13 at 16:10
But there is no need for that, man. Why would you want to enable only floating point types and std::complex?? –  juanchopanza Aug 8 '13 at 16:12

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