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I seem to remember I way to select value-pass or reference-pass of a parameter using the size of the type.

Something like:

void fun( check<A> a ){
    ...
}

Generates or:

void fun( A a ){
    ...
}

or

void fun( A & a ){
    ...
}

Depending of the size of type A and the architecture where you compile the applicacion.

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3  
I think you mean const A& in the latter (and possibly const A in the former), as the values passed in should not be modified. Otherwise the comparison just doesn't make sense. –  GManNickG Oct 5 '12 at 18:56
    
Someone in the Lounge mentioned Boost Call Traits, which might be what you remember seeing. Added to my answer. –  sehe Oct 5 '12 at 19:37
    
@GManNickG you are right, the comparison need a const, but you get the idea –  Zhen Oct 5 '12 at 19:41
    
I don't remember exactly but i was along 2002 year... so, not C++11 –  Zhen Oct 5 '12 at 19:42

2 Answers 2

up vote 12 down vote accepted

In C++11 you can use std::conditional:

#include <type_traits>

class A { ... };

typedef std::conditional<
   std::is_trivially_copyable<A>::value && sizeof(A) <= sizeof(int),
   A, const A&>::type AParam;

// Direct usage
void f(AParam param);

// Wrap into template class
template <typename T> struct check:
   std::conditional<std::is_arithmetic<T>::value, T, const T&> {};

void f(check<A>::type param);

For C++03 compilers you could use Boost implementation - Boost.TypeTraits library.

As @sehe mentioned there is also Boost.CallTraits library that correctly implements required functionality:

#include <boost/call_traits.hpp>

class A { ... };

void f(boost::call_traits<A>::param_type param);
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Which compiler do you recommend/are you using? My compiler doesn't compile this, for various reasons. –  sehe Oct 5 '12 at 19:10
    
@sehe Recent versions of most popular GCC and Visual Studio support it. –  Rost Oct 5 '12 at 19:13
    
@sehe For older compilers there is Boost implementation - Boost.TypeTraits library –  Rost Oct 5 '12 at 19:16
1  
@Rost: I recommand checking more than size. For example on GCC sizeof(std::string) == sizeof(void*) which is sizeof(int) on 32 bits systems; yet a copy of the string implies modifying a reference count in an atomic fashion! This is far from being free. In C++11, I recommend at the very least checking the std::is_trivially_copyable trait to avoid classes with custom copy constructors that may do an arbitrary amount of work. –  Matthieu M. Oct 5 '12 at 20:09
    
@MatthieuM. Agree. I wrote it just to illustrate idea. –  Rost Oct 5 '12 at 21:05

What you describe doesn't directly exist (at least, not standard)

Edit Found what the OP was probably reffering to:

0. Boost Call Traits

call_traits<T>::param_type is likely what the Op had in mind/remembered:

template<typename T> 
   using check = typename boost::call_traits<T>::param_type;

void f(check<A> param);

Defines a type that represents the "best" way to pass a parameter of type T to a function.

Examples

The following table shows the effect that call_traits has on various types, the table assumes that the compiler supports partial specialization: if it doesn't then all types behave in the same way as the entry for "myclass", and call_traits can not be used with reference or array types. enter image description here

You could be referring to two three things, AFAICT:

1. rvalue references

I can imagine you mean that you could optimize for move semantics. E.g.:

struct Demo
{
     Demo(std::string&& tomove) : _s(std::move(tomove)) { }
   private:
     std::string _s;
};

This way,

 std::string a_very_large_string;
 Demo moving(std::move(a_very_large_string)); // prevents a copy

2. Perfect forwarding:

Perfect forwarding is the same principle applied to generic situations:

#include <tuple>
#include <string>
#include <vector>

typedef unsigned int uint;

template <typename... T>
void AnotherDemo(T... args)
{
    std::tuple<T...> perfect(std::forward<T>(args)...); // optimal

    // more code using perfect, passing it by reference etc.
}

int main(int argc, const char *argv[])
{
    AnotherDemo(std::string("moved")); // moved
    AnotherDemo(42);                   // copied

    std::vector<double> v { 1,2,3 };
    AnotherDemo(v);                    // copied
    AnotherDemo(std::move(v));         // moved
}

3. Meta programming:

Building on @Rost's answer, you could use meta programming to achieve this:

E.g. using a template alias:

#include <type_traits>

template<typename T> 
   using check = typename boost::call_traits<T>::param_type;

void f(check<A> param);
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Don't think, just read standard ;-) –  Rost Oct 5 '12 at 19:06
    
@Rost Good point. I guess. I fixed your own answer to include the correct header :) –  sehe Oct 5 '12 at 19:20
    
OK, thanks. By the way, perfect forwarding looks far from the topic. Yes, it could be done this way, but definitely shouldn't. –  Rost Oct 5 '12 at 19:48
    
@Rost I agree it's a different topic. But then again, at first I was guessing what the OP might have been remembering. For perfect forwarding of (potential) rvalue references, perfect forwarding is exactly what you should be using. It's clearly not what the OP was after. You answer was a better match from the start :) –  sehe Oct 5 '12 at 19:53
1  
I believe that boost::call_traits is exactly what the OP was referring to. At the very least, it certainly demonstrate that size is not the only criteria. –  Matthieu M. Oct 5 '12 at 20:07

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