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I have a set of classes that are used to prepare data for serialization. All of them are derived from the base class cBase, which doesn't hold anything related to the question.

Among the derived classes there are:

class cValue: public cBase
{
public:
    cValue(){}
    template< class T > void set( const T & value ){ data_ = value; }

protected:
    QVariant data_;
};

This is the class for holding simple values like a string or a number. And here is a class to represent an object (basically something that can hold "name-value" pairs:

class cObject: public cBase
{
public:
    cObject(){}

    void addAttribure( const QString & name, cBase * value )
    {
        if( attributes_.contains( name ) )
            delete attributes_[name];
        attributes_[name] = value;
    }

    template< class T > void addAttribure( const QString & name, const T & value )
    {
        cValue * tmp = new cValue();
        tmp->set( value );
        addAttribure( name, tmp );
    }
protected:
    QMap< QString, cBase * > attributes_;
};

The purpose of this is to be able to add attributes both with already-created objects: addAttribute(someName, someObject); and with raw values: addAttribute("name", 42);

Now, as it is, this code compiles. However, if I try to create an object like this:

cValue *tmp = new cValue();
tmp->set( 42 );
cObject obj;
obj.addAttribure("The Answer", tmp);

I'm getting the following error:

/usr/include/qt4/QtCore/qvariant.h:429:12: error: 'QVariant::QVariant(void*)' is private
../../source/private/../include/MyClasses.h:36:51: error: within this context

The error appears on the line where cValue's set() function is declared. Now if I remove the templated version of addAttribute(), and place the exact same code from that function into my main:

cObject obj;
cValue * tmp = new cValue();
tmp->set( 42 );
obj.addAttribure( "The Answer", tmp );

it works fine. I figure it has something to do with the fact that both addAttribute() and set() functions are templated, but I fail to understand how to fix this issue, or at least how to make a workaround.

Note: if possible, I would like to not make the classes themselves templated, only the functions.

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Could this be an ambiguity problem as addAttribure(const QString& name, cBase* value) is the same as addAttribure(const QString& name, const T& value) when T == cBase*. What if you explicitly stated tmp->set<int>(42)? –  cmannett85 Sep 5 '12 at 14:14
    
@cmannett85, you were almost right, it's an ambiguity problem indeed, but the line I had to change was addAttribure( name, tmp ); in the templated addAttribute() function, which I changed with a more explicit addAttribure( name, static_cast<cBase *>(tmp) );. It's working now. Post this as an answer, and I'll accept it. –  SingerOfTheFall Sep 6 '12 at 5:26
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4 Answers

up vote 0 down vote accepted

The problem is that you're expecting the compiler to call addAttribure(const QString& name, cBase* value) when using cValue, because cValue is derived from cBase. But as they are not an exact match, the compiler calls addAttribure<cValue*>(const QString& name, const cValue* value) instead.

That's why (as noted in your comment) calling addAttribure(name, static_cast<cBase*>(tmp)) worked.

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2  
Overloading a function is almost always better than specialising the template (there are lots of questions related to this here in SO). And no, there is no ambiguity when T = cBase*; in this case, the compiler selects the explicit function rather than a template. –  Gorpik Sep 6 '12 at 7:12
    
You're right, I'll edit my answer. –  cmannett85 Sep 6 '12 at 13:09
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The problem, and the reason why your fix with a cast works, is that the compiler only selects the non-templated function when you call it with exactly the parameter types of its signature. In this case, you are not using a cBase*, but a cObject*. True, the later can be automatically converted to the former, but the compiler sees that it can instanciate the template to create a function that exactly matches the parameter, so it selects that.

You may go with your cast:

addAttribure( name, static_cast<cBase *>(tmp) );

or you may use a base class pointer directly to avoid the cast:

cBase* pBase = tmp;
addAttribure( name, pBase );
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Maybe there is a problem with the identification of the type. I had a similar problem with QT, but some time ago. Maybe you should try

template< class T > void set( const T & value )
{   
  data_ = QVariant::fromValue( value ); 
  // or data_.setValue( value )
}
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It might have something to do with this:

http://publib.boulder.ibm.com/infocenter/comphelp/v8v101/topic/com.ibm.xlcpp8a.doc/language/ref/keyword_template_qualifier.htm

I vaguely remember my own member template functions not compiling before I explicitly qualified them as such.

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