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Say I have the following:

template<typename TemplateItem>
class TestA
{
    public:
        TemplateItem Item;

        void Function1(){;}
        void Function2(){;}
        void Function3(){;}
        void Function4(){;}
        //Etc etc number of functions is quite lengthy
};

template<typename TemplateItem>
class TestB : public TestA<TemplateItem>
{
    public:
        //How would I use the 'using' keyword to include everything from TestA
        //Without manually declaring it for 20 or more functions/variables individually
};

For those of you unfamiliar with template class inheritance problems:

http://www.parashift.com/c++-faq-lite/templates.html#faq-35.19

Some people still seem to think there is no such given heritance issue despite the above link stating to the contrary, but to quote from the above given site:

template<typename T>
 class B {
 public:
   void f() { }  ← member of class B<T>
 };

 template<typename T>
 class D : public B<T> {
 public:
   void g()
   {
     f();  ← bad (even though some compilers erroneously (temporarily?) accept it)
   }
};

But there is an issue about how names are looked up.

To clarify:

The template-inheritance issue is not the problem, it's the context (so I don't get remarks like 'but so-and-so class does inherit'), the problem is the using keyword can only be applied to individual functions, which is tedious - I want to apply it to the entire TestA class, not have to write 20+ using keywords (which is still more efficient than appending 50+ this-> esque calls which might have to be modified anyway).

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4  
All those members are already public in the derived class, what is the problem exactly? –  Cat Plus Plus Sep 8 '11 at 21:16
5  
@SSight3: 1) its "class template" and 2) it does inherit, there is no difference to non-templates. maybe tell us what the real problem is, maybe with some code that exihibts the problem you are trying to solve (that is, when we compile it we can also see the error you talk about) –  PlasmaHH Sep 8 '11 at 21:22
1  
Not to mention that FAQ already has a solution that doesn't require you to sprinkle the declaration with using. –  Cat Plus Plus Sep 8 '11 at 21:27
3  
@SSight3 : If you're going to accuse people of not reading, you may want to consider the number of times people have told you that using is not necessary here, and not the best way to solve this problem. –  ildjarn Sep 8 '11 at 21:40
2  
@SSight3 I suggest you stop being belligerent and listen to the others when they say there is no problem. Create a simple test case with a single Function0 instead of a multitude of them in TestA, then instantiate TestB within main and try to call Function0 from the instance of TestB. Test this on the excellent Comeau compiler and see if it complains. –  Praetorian Sep 8 '11 at 21:40

2 Answers 2

up vote 1 down vote accepted

If you really really want to do this, why not make a filename.in and then create filename in your makefile or what have you with a shell script or a perl script or similar? That's been my approach for writing tedious code more than once.

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You've misunderstood what the FAQ is trying to explain. The name lookup problem happens within TestB when you're trying to call a member function from it's base class TestA because the latter's type is dependent on the template parameter. However, all of TestA's public members are inherited by TestB and are visible to its callers.

When someone who is using TestB creates an instance of the class, say TestB<int>, then there is no more issue with name lookup since TestA's dependent types have been resolved and you're free to call any of its public members.

If you were to call TestA<T>::FunctionX() from within one of TestB's functions, that's when the name lookup problem arises. As the FAQ suggests, if you need to do this, just call the function as this->FunctionX() within TestB.

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Basically, TestA's functions will be used by TestB. Long story short, TestB is an expansion to TestA (TestA is groundwork, TestB is the interface that provides the functionality). Which means TestB will be making a lot of calls to TestA. Typing this-> at every point is more tedious than using TestA::Function1, but typing 'using TestA::Function1' up until TestA::Function30 (naturally this is an example, the actual functions will have a variety of names) is very tedious as well (less than this->). Is there no singular call that does it all? –  SSight3 Sep 8 '11 at 21:43
3  
Not trying to be smug, but if writing this->foo() is too tedious then tough luck! That's like saying when you define the body of a member function writing void Foo::Bar() { ... } is too much typing and you'd rather write void Foo:Bar() { ... }. That's the rule defined by the language and you have to live with it. In this case, as the FAQ states, your compiler may not complain, especially if it is MSVC, because (last I heard) it doesn't actually do two phase name lookup. –  Praetorian Sep 8 '11 at 21:47
    
void Foo::Bar() can be avoided by declaring the function inside the class. Not always tough luck. –  SSight3 Sep 8 '11 at 22:12

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