Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

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

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.

share|improve this answer
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.

share|improve this answer

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);


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

Your Answer


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.