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I have a class template with three constructors and one of them is function template.

template<class T>
class TemplateOverLoading
    //constructor that take reference
    TemplateOverLoading(std::string& qName, T& qValue )
        :   mName(qName),
            mValue( &qValue)
        std::cout << "Reference -> "<< *mValue <<"\n";

    //Template constructor that takes array
    template<class T, int N>
    TemplateOverLoading(std::string& qName, T (&t)[N])
        :   mName(qName),
        std::cout << "Array ->\n";
        for(int i = 0; i < N; i++)
            std::cout<< mValue[i];
        std::cout << std::endl;

    //Other constructor that take pointer
    TemplateOverLoading(std::string& qName, T* qValue )
        :   mName(qName),
            mValue( qValue)
        std::cout << "Pointer "<< *mValue <<"\n";
    T*               mValue;
    //T*              mValueArray;
    std::string&    mName;

From my application I need to distinguish between reference type/value, pointer and array and perform specific operation. Hence I decided to have to different constructors.

I am trying to invoke the constructor in the following manner:

int init(10);
int intArray[10] = {0,1,2,3,4,5,6,7,8,9};
TemplateOverLoading<int> mInt(std::string("mInt"), init);    
TemplateOverLoading<int> mIntArray( std::string("mIntArray"), intArray );

The problem is if the constructor with the pointer is defined the array constructor is never invoked. However, if I comment that one out it prints the array as it should.


(when pointer constructor is present)
Reference -> 10
Pointer 0

(when pointer constructor is not present)
Reference -> 10
Array ->

So syntactically it is possible and it is correct deducing the the array size N.

Obviously I am confusing the compiler when the array constructor is present. So instead of letting the compiler automatically deduce I tried to specify the template parameter for the array constructor to only find out unlike the regular function, template parameters cannot be specifically specified.

I thought of introducing a dummy parameter in the array constructor to differentiate the overloading but it doesn't seem nice.

Is there any other way to resolve this? Any clue appreciated.

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1 Answer 1

up vote 1 down vote accepted

Make your pointer constructor parameter to T*& qValue.

TemplateOverLoading(std::string& qName, T*& qValue )
    :   mName(qName),
        mValue( qValue)
    std::cout << "Pointer "<< *mValue <<"\n";

By making it a reference to a pointer, array-to-pointer decay is prevented and the array constructor is chosen.

Also, I don't see how your code compiles, I see many errors:

Your template constructor has a parameter class T, this conflicts with the class T of the class template:

template<class T, int N>
    TemplateOverLoading(std::string& qName, T (&t)[N])

This needs to be changed to something else than class T, for example class U:

template<class U, int N>
        TemplateOverLoading(std::string& qName, U (&t)[N])

Your constructors also take a non-const lvalue reference, non const reference cannot bind to temporaries, which you are passing in the constructor call, i.e. std::string("mIntArray"). You need to change it to const std::string& or take it by value. Also your member std::string& mName; is a reference, you should remove the & there.

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Why does making the pointer constructor a template help? –  Xymostech Mar 4 '13 at 3:19
@Xymostech: A non-template is always a better match than a template, but if you make them all templates, then the better matching constructor will be chosen (see example). –  Jesse Good Mar 4 '13 at 3:22
converted as '@Jessse Good' said but it is giving me compilation error: error C2668: 'TemplateOverLoading<T>::TemplateOverLoading' : ambiguous call to overloaded function with [T=int] templateoverloading.h(32): could be 'TemplateOverLoading<T>::TemplateOverLoading<int>(std::string &,U *)' with [T=int, U=int] or 'TemplateOverLoading<T>::TemplateOverLoading<int,10>(std::string &,T (&)[10])' with [T=int] –  jazaman Mar 4 '13 at 3:23
@Jesse Good it seems different compiler interpret this differently. I am using VS2008 and the code I pasted earlier compiles. However, I have copy pasted the same code as you put in the liveworkspace it is still giving compilation error 2668 -> ambiguous call to overloaded function –  jazaman Mar 4 '13 at 3:39
@jazaman: No, your compiler was right, the compiler I was using had a bug. The code is ambiguous. Changing U* qValue to const U* qValue is one way to solve the problem (but then you can only pass const int* with constructor). –  Jesse Good Mar 4 '13 at 3:52

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