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if I have a function template with typename T, where the compiler can set the type by itself, I do not have to write the type explicitely when I call the function like:

template < typename T > 
T min( T v1, T v2 ) {
   return ( v1 < v2 ) ? v1: v2;
}
int i1 = 1, i2 = 2; int i3 = min( i1, i2 ); //no explicit <type> 

but if I have a function template with two different typenames like...

template < typename TOut, typename TIn >
TOut round( TIn v ) {
   return (TOut)( v + 0.5 );
}
double d = 1.54;
int i = round<int>(d); //explicit <int>

Is it true that I have to specify at least 1 typename, always? I assume the reason is because C++ can not distinguish functions between different return types, true? but if I use a void function and handover a reference, again I must not explicitely specify the return typename:

template < typename TOut, typename TIn > 
void round( TOut & vret, TIn vin ) {
   vret = (TOut)(vin + 0.5);
}
   double d = 1.54;
   int i; round(i, d); //no explicit <int>

should the conclusion be to avoid functions with return and more prefer void functions that return via a reference when writing templates? Or is there a possibility to avoid explicitely writing the return type? something like "type inference" for templates... is "type inference" possible in C++0x?

I hope I was not too unclear.
many thanks in advance
Oops

share|improve this question
    
Casting between types makes the type inference idea unwieldy, so you cannot overload on return types and must specify it when it's a template parameter. –  Francesco May 14 '10 at 11:35
    
You might want to work on your rounding algorithm. What should -1.54 come out as? And: what if you want to get a rounded double value? –  UncleBens May 14 '10 at 15:43

3 Answers 3

up vote 8 down vote accepted

Overload resolution is done only based on function arguments; the return value is not used at all. If the return type cannot be determined based on the arguments, you will have to specify it explicitly.

I would not go down the path of "returning" a value through a reference parameter; that makes the calling code unclear. For example, I'd prefer this:

double x = round<double>(y);

over this:

double x;
round(x, y);

because in the latter case, it's easy to confuse input and output, and it's not at all clear that x is being modified.

In the particular case of round, you probably need only one or two types for TOut anyway, so you could just leave that template argument out:

template<typename TIn>
int roundToInt(TIn v) {
    return (int)(v + 0.5);
}

I find roundToInt(x) a little clearer than round<int>(x) because it's clear what the int type is used for.

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1  
Concerning clarity: round_to<int>(x)? ;) –  UncleBens May 14 '10 at 15:50
    
Yep, that would be nice too. –  Thomas May 14 '10 at 16:34

the conclusion be to avoid functions with return and more prefer void functions that return via a reference when writing templates

No, why? What do you gain? Only type inference (so less code to write). But you lose the much more logical syntax of assigning a value (and consequently more code to write). So one thing gained, another lost. I don’t see the benefit in general.

It may even help to have to specify the template type explicitly: consider the case of lexical_cast. Not specifying the return template type would be confusing.

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Let me add to what the others have said by saying you should prefer C++ casting over C-style casting.

vret = (TOut)(vin + 0.5);

versus

vret = static_cast<TOut>(vin + 0.5);

static cast will always fail if you try to convert unrelated types. This can help with debugging.

share|improve this answer
    
And you'll have compile time warnings/errors too, much better than finding out at runtime. –  Matthieu M. May 14 '10 at 12:04
    
What would the types involved have to be, so that a static_cast would yield a different result than a C-style cast in this template? (Yes, in a utility function you might strive for good style, but I don't see that much benefit in pure mathematical code doing conversion between number types - to warrant a post, and not perhaps a comment.) –  UncleBens May 14 '10 at 15:37

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