Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is it possible to create a template function that takes a variable number of arguments, for example, in this Vector< T, C > class constructor:

template < typename T, uint C >
Vector< T, C >::Vector( T, ... )
{
    va_list arg_list;
    va_start( arg_list, C );
    for( uint i = 0; i < C; i++ ) {
        m_data[ i ] = va_arg( arg_list, T );
    }
    va_end( arg_list );
}

This almost works, but if someone calls Vector< double, 3 >( 1, 1, 1 ), only the first argument has the correct value. I suspect that the first parameter is correct because it is cast to a double during the function call, and that the others are interpreted as ints and then the bits are stuffed into a double. Calling Vector< double, 3 >( 1.0, 1.0, 1.0 ) gives the desired results. Is there a preferred way to do something like this?

share|improve this question
2  
Note that C++11's universal initializer syntax will give you this in a safe manner. –  sbi Apr 13 '10 at 6:12

8 Answers 8

up vote 2 down vote accepted

This code looks dangerous and I think your analysis on why it isn't working is spot on, there's no way for the compiler to know that when calling:

Vector< double, 3 >( 1, 1, 1 )

the ones should be passed as doubles.

I would change the constructor to something like:

Vector< T, C >::Vector(const T(&data)[C])

instead, and have the user pass the arguments as an array. Another sort of ugly solution would be something like this:

template < typename T, uint C >
Vector< T, C >::Vector(const Vector<T, C - 1>& elements, T extra) {
}

and call it like this (with some typedefs):

Vector3(Vector2(Vector1(1), 1), 1);
share|improve this answer
2  
Or T(&data)[C] and have the user pass the arguments as an array by reference. It's less flexible as it doesn't allow the use of dynamic arrays, but it can help enforce the correct number of arguments. –  Chris Lutz Apr 13 '10 at 6:00
    
@Chris Good point –  Andreas Brinck Apr 13 '10 at 6:01
2  
Also, with your second suggestion, make sure to specialize the template for C = 0 and/or C = 1. –  Chris Lutz Apr 13 '10 at 6:03

Alas, right now there's no good way to do this. Most of the Boost packages that need to do something similar use macro tricks to define things like this:

template < typename T >
Vector< T >::Vector( T )
{ ... }

template < typename T, uint C >
Vector< T, C >::Vector( T t, C c1 )
{ ... }

template < typename T, uint C >
Vector< T, C >::Vector( T t, C c1, C c2 )
{ ... }

template < typename T, uint C >
Vector< T, C >::Vector( T t, C c1, C c2, C c3 )
{ ... }

The macros generate some set number (typically around 10) versions, and provide a mechanism to change the max number of parameters before expanding the construction.

Basically, its a real pain which is why C++0x is introducing variable-length template arguments and delegation methods that will let you do this cleanly (and safely). In the meantime you can either do it with macros, or try a C++ compiler that has support for (some of) these new experimental features. GCC is a good one for this.

Be warned though that since C++0x isn't actually out yet, things can still change and your code may not be in sync with the final version of the standard. Plus, even after the standard comes out, there'll be 5 years or so during which many compilers will only partially support the standard, so your code won't be very portable.

share|improve this answer
    
Check out Boost.Preprocessor if you go down the macro way. Cumulating BOOST_PP_REPEAT and BOOST_PP_ENUM_TRAILING_PARAMS should set you on the right path. –  Matthieu M. Apr 13 '10 at 8:05
    
Thanks. I was in a hurry when I posted the above, so I didn't go look up what the Boost Preprocessor macros were. –  swestrup Apr 14 '10 at 23:35

You can do what you want, but don't do it, because it's not typesafe. Best pass a vector of T or a pair of iterators containing those values.

template < typename T, uint C >
Vector< T, C >::Vector(int N, ... )
{
    assert(N < C && "Overflow!");
    va_list arg_list;
    va_start( arg_list, N );
    for( uint i = 0; i < N; i++ ) {
        m_data[ i ] = va_arg( arg_list, T );
    }
    va_end( arg_list );
}

Vector<int> v(3, 1, 2, 3);

This can be better solved, since all the elements ae homogenuous typed anyway

template < typename Iter, uint C >
Vector< T, C >::Vector(Iter begin, Iter end)
{
    T *data = m_data;
    while(begin != end)
      *data++ = *begin++;
}

int values[] = { 1, 2, 3 };
Vector<int> v(values, values + 3);

Of course, you have to make sure there is enough place in m_data.

share|improve this answer
    
If we already have template<typename T, uint C> and we're already making the user declare an int values[] array, might it not be safer (size-wise) to have the constructor be Vector< T, C >::Vector(T (& const) [C]) ? Other than allowing slices of an array or a dynamic array, is there any reason we shouldn't allow them to just pass an array? –  Chris Lutz Apr 13 '10 at 6:10
    
@Chris yeah we could do that. I found i liked to show the iterator range way though, since it's the "official" way also used by containers etc. You can also do Vector<int> v(begin(values), end(values)); to not have to count the elements yourself, with properly defined end and begin functions (from boost.range) –  Johannes Schaub - litb Apr 13 '10 at 6:19

In C++0x (really should be called C++1x), you can use template varargs to achieve what you want in a typesafe fashion (and you won't even need to specify the number of arguments!). However, in the current version of C++ (ISO C++ 1998 with 2003 amendments), there is no way to accomplish what you want. You can either hold off or do what Boost does, which is use preprocessor macro magic to repeat the definition of the constructor multiple times with different numbers of parameters up to a hard-coded, but large limit. Given that Boost.Preprocessor is kind of complicating, you could just define all of the following yourself:

Vector<T,C>::Vector();
Vector<T,C>::Vector(const T&);
Vector<T,C>::Vector(const T&, const T&);
// ...

Since the above is kind of painful to do by hand, though, you could write a script to generate it.

share|improve this answer
2  
Everyone knows that the "x" is a hexadecimal digit ;-) –  Joris Timmermans Apr 13 '10 at 7:12

std::tr1::array (which looks similar to yours) does not define a constructor, and can be initialized as an aggregate (?)

std::tr1::array<int, 10> arr = {{ 1, 2, 3, 4, 5, 6 }};

Also you could check out Boost.Assignment library.

For example the constructor could be

template < typename T, uint C >
template < typename Range >
Vector< T, C >::Vector( const Range& r ) 

and instances created with

Vector<int, 4> vec(boost::assign::cref_list_of<4>(1)(3)(4)(7));
share|improve this answer

You can use variadic , variadic means template with variable argument.more

share|improve this answer

The problem with variable arguments in constructors is :

  • you need the cdecl calling convention (or another one that can handle varargs)
  • you cant define cdecl for a constructor (in MSVS)

So the "correct" code (MS) could be :

template < typename T, uint C > __cdecl Vector< T, C >::Vector( T, ... )

but the compiler will say:

illegal calling convention for constructor/destructor (MS C4166)

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.