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I have a class that encapsulates some arithmetic, let's say fixed point calculations. I like the idea of overloading arithmetic operators, so I write the following:

class CFixed
{
   CFixed( int   );
   CFixed( float );
};

CFixed operator* ( const CFixed& a, const CFixed& b )
{ ... }

It all works. I can write 3 * CFixed(0) and CFixed(3) * 10.0f. But now I realize, I can implement operator* with an integer operand much more effective. So I overload it:

CFixed operator* ( const CFixed& a, int b )
{ ... }
CFixed operator* ( int a, const CFixed& b )
{ ... }

It still works, but now CFixed(0) * 10.0f calls overloaded version, converting float to int ( and I expected it to convert float to CFixed ). Of course, I can overload a float versions as well, but it seems a combinatorial explosion of code for me. Is there any workaround (or am I designing my class wrong)? How can I tell the compiler to call overloaded version of operator* ONLY with ints?

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I don't believe you can. –  atomice Oct 22 '09 at 14:41
2  
On the other hand, constructors taking a single parameter (and a fortiori a built-in) should probably be declared explicit, which would of course prevent promotion.... but also prevent bugs. –  Matthieu M. Oct 22 '09 at 18:15
1  
Another "explicit" advocate =) Implicit constructors are helpful, provided you realize what they are doing. It is great to design a function, accepting CFixed argument and pass integers there! –  SadSido Oct 23 '09 at 6:48
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5 Answers 5

up vote 1 down vote accepted

Assuming you'd like the specialized version to be picked for any integral type (and not just int in particular, one thing you could do is provide that as a template function and use Boost.EnableIf to remove those overloads from the available overload set, if the operand is not an integral type.

#include <cstdio>
#include <boost/utility/enable_if.hpp>
#include <boost/type_traits/is_integral.hpp>

class CFixed
{
public:
   CFixed( int   ) {}
   CFixed( float ) {}
};

CFixed operator* ( const CFixed& a, const CFixed&  )
{ puts("General CFixed * CFixed"); return a; }

template <class T>
typename boost::enable_if<boost::is_integral<T>, CFixed>::type operator* ( const CFixed& a, T  )
{ puts("CFixed * [integer type]"); return a; }

template <class T>
typename boost::enable_if<boost::is_integral<T>, CFixed>::type operator* ( T , const CFixed& b )
{ puts("[integer type] * CFixed"); return b; }


int main()
{
    CFixed(0) * 10.0f;
    5 * CFixed(20.4f);
    3.2f * CFixed(10);
    CFixed(1) * 100u;
}

Naturally, you could also use a different condition to make those overloads available only if T=int: typename boost::enable_if<boost::is_same<T, int>, CFixed>::type ...

As to designing the class, perhaps you could rely on templates more. E.g, the constructor could be a template, and again, should you need to distinguish between integral and real types, it should be possible to employ this technique.

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I haven't tried this yet, but shouldn't compiler prefer non-template versions of the function prior to template ones? I think your "main" will call a "General CFixed" version 4 times... –  SadSido Oct 23 '09 at 6:17
    
... looks like I am misunderstanding enable_if a little ... –  SadSido Oct 23 '09 at 6:25
    
It will prefer templates if they have a better match. enable_if makes the overloads candidates only if the condition is met, and in case of float only the first overload is the only one left to choose from. –  UncleBens Oct 23 '09 at 6:54
    
Heh. It works! I guess it is much better than overloading the float operators (no need for code duplication)... –  SadSido Oct 26 '09 at 7:57
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You should overload with float type as well. Conversion from int to user-specified type (CFixed) is of lower priority than built-in floating-integral conversion to float. So the compiler will always choose function with int, unless you add function with float as well.

For more details, read 13.3 section of C++03 standard. Feel the pain.

It seems that I've lost track of it too. :-( UncleBens reports that adding float only doesn't solve the problem, as version with double should be added as well. But in any case adding several operators related to built-in types is tedious, but doesn't result in a combinatorial boost.

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....and double? –  UncleBens Oct 22 '09 at 16:04
    
@UncleBens , double will be converted to float. –  Pavel Shved Oct 22 '09 at 16:17
1  
It says "ambiguous overload" to me. Trying CFixed(0) * 1.0, Comeau informs me in particular that both operator*(CFixed, int) and operator*(CFixed, float) are equal candidates for CFixed * double –  UncleBens Oct 22 '09 at 20:30
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If you have constructors which can be invoked with just one argument, you effectively created an implicit conversion operator. In your example, wherever a CFixed is needed, both an int and a float can be passed. This is of course dangerous, because the compiler might silently generate code calling the wrong function instead of barking at you when you forgot to include some function's declaration.

Therefor a good rule of thumb says that, whenever you're writing constructors that can be called with just one argument (note that this one foo(int i, bool b = false) can be called with one argument, too, even though it takes two arguments), you should make that constructor explicit, unless you really want implicit conversion to kick in. explicit constructors are not used by the compiler for implicit conversions.

You would have to change your class to this:

class CFixed
{
   explicit CFixed( int   );
   explicit CFixed( float );
};

I have found that there are very few exceptions to this rule. (std::string::string(const char*) is a rather famous one.)

Edit: I'm sorry, I missed the point about not allowing implicit conversions from int to float.

The only way I see to prevent this is to provide the operators for float as well.

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1  
Not the point of the question. How can I write Fixed * 10 if my constructor is explicit?? –  SadSido Oct 22 '09 at 14:49
    
@SadSido: Sorry. I have added my opinion on that as an edit. –  sbi Oct 22 '09 at 14:53
    
Thank you! Your edit is much more helpful (although a little bit pessimistic =) –  SadSido Oct 22 '09 at 14:58
    
@SadSido: It might be that Bill has found a solution, although Pavel is right in that, in its current form, this will simply produce compile errors. –  sbi Oct 22 '09 at 15:06
    
Actually, this answer is almost right. You can leave the implicit constructor for float and just make the int one explicit. Since you've written overrides for the int cases, you don't really need the implicit conversions for those. This would eliminate the ambiguity. –  Adrian McCarthy Oct 22 '09 at 15:15
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How about making the conversion explicit?

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How would that help? The poster wanted CFixed(float) to be called if a float was passed to operator * - adding the explicit keyword will make that even less likely. –  atomice Oct 22 '09 at 14:42
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Agree with sbi, you should definitely make your single-parameter constructors explicit.

You can avoid an explosion in the operator<> functions you write with templates, however:

template <class T>
CFixed operator* ( const CFixed& a, T b ) 
{ ... } 

template <class T>
CFixed operator* ( T a, const CFixed& b ) 
{ ... }

Depending on what code is in the functions, this will only compile with types that you support converting from.

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And what will happen inside the templates? :-) Ẹxactly the same thing! –  Pavel Shved Oct 22 '09 at 14:47
    
I think you caught me mid-edit. The same thing as what? –  Bill Oct 22 '09 at 14:52
    
@Pavel: Actually, I think Bill is right (even thought he might not have realized it :) ). Look at this: template <class T> CFixed operator* ( const CFixed& a, T b ) { return a*CFixed(b); } Shouldn't that do what the OP wants? –  sbi Oct 22 '09 at 14:55
1  
This is a bad idea, because such templates will be considered for overloading for any call to operator*, where one of the arguments is of type CFixed or is convertible to it, even when T isn't actually a type for which * with CFixed is available - it can still pick that overload, and then fail when trying to instantiate it. Since the error is going to be within the body of operator*, SFINAE won't kick in. –  Pavel Minaev Oct 22 '09 at 14:56
    
@sbi: it does what OP wants, but it also creates a CFixed temporary, which is what he wants to avoid. He originally started with a single operator*(CFixed, CFixed), which actually does everything he wants already; but he can implement operator*(CFixed, int) more efficiently if he knows it's an int in advance, which is why he wants a separate operator for that. This doesn't solve that problem. –  Pavel Minaev Oct 22 '09 at 14:59
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