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Original question: I have a type template <typename CostType> struct Key which I use in another class UQueue, which is also templated on CostType. I'd like to not have to specify Key<CostType> within this class. I tried typedef Key<CostType> Key, which did not work. Is there another workaround?

Edit: The minimal example that would have exhibited the problem (if there had been one), would have been this:

template <typename T>
class C1 {
    T t;
};
template <typename T>
class C2 {
    typedef C1<T> C1;
    C1 c1;
};

However, this works (using MSVC 2010). I have some other error in my code which confused me into believing the typedef was illegal. Sorry about the bandwidth.

14
  • 4
    Post some code...... the definition of both classes, and the typedef. Aug 11, 2011 at 7:24
  • 2
    How exactly does it "not work"? Do you have a compiler error? If so, what does it say? Aug 11, 2011 at 7:29
  • 1
    While the question is probably not the best (neither language nor format), I think that it can be understood: The user does not want to have to specify the template argument inside a different template. He tried to add a typedef and that failed (@carlpett: here you should add how, what does it mean that it did not work?) I believe that @Luc Touraille and @Peter Alexander understood the question... Aug 11, 2011 at 7:57
  • 2
    @Luc - A bad question should be closed as fast as possible. :-) This one might get reopened. It is still possible to edit the closed question to get more reopen votes!
    – Bo Persson
    Aug 11, 2011 at 8:07
  • 2
    Well, according to @James Kanze, such typedefs are in fact not so ok. I take the liberty of posting his comment here since I deleted the (wrong) answer he commented on: "It's undefined behavior: §3.2.7/1 (point 2): "A name N used in a class S shall refer to the same declaration in its context and when re-evaluated in the completed scope of S. No diagnostic is required for a violation of this rule." G++ (at least with the options I use, including -std=c++98 -pendantic) refuses to compile it." Aug 11, 2011 at 8:47

1 Answer 1

0

Use a macro. That's how I always do it since it's simple and easy to maintain.

Take this situation:

template <typename A, size_t B, int C, pointer_to_some_func D> class tTemplate
{
     struct myStruct
     {
         int i, j;
     };

     void function1 (tTemplate <A, B, C, D> :: myStruct S);
     void function2 ();
};

template <typename A, size_t B, int C, pointer_to_some_func D> void tTemplate <A, B, C, D> :: function1 (tTemplate <A, B, C, D> :: myStruct S)
{  
}

etc ...

Imagine if I had to change an argument or add another one...

Now, with this:

#define dTemplate tTemplate <A, B, C, D>
#define sTemplate template <typename A, size_t B, int C, pointer_to_some_func D>

sTemplate void dTemplate :: function1 (dTemplate::myStruct S)
{

}

Easier to maintain, useable by other classes\templates etc. One template argument change = a macro change which applies everywhere. And it is also nicer to the eyes. Also, I find it a good thing in templates, especially since typedefs are no-go. And best thing about macros, even IF typedefs were a standard: you don't need forward declarations for them... ever ! (yeah, macros are evil, but in situations like theese, they're more than useful)

As for your example:

#define dC1 C1 <T>       // no ";" !!!

template <typename T> class C1
{
    T t;
};

template <typename T> class C2
{
    dC1 c1;
};

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