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I'm having difficulty with types, such as:

T******************************************

Should std::remove_pointer be able to handle such types at all (I don't think so)? How to remove all the *? If there is an ampersand & or two added at the end, does there exist a metafunction from the C++11 standard to strip such a type down to T without using both the std::remove_reference and std::remove_pointer metafunctions?

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Why would this exist in the standard? How often is it useful to do this transformation? I can't think when it would ever be useful, T* and T********** have very little in common, they don't point to the same type so why is it useful to extract T from them both? –  Jonathan Wakely Feb 19 '13 at 16:34
    
@JonathanWakely I needed this to instantiate T, even if T********** was provided. I don't know why it would exist in the standard, but if it had, I would have used the metafunction from the standard. –  user1095108 Feb 19 '13 at 17:55

1 Answer 1

up vote 9 down vote accepted

It's not too hard to write a meta-function that will return return the base type no matter how many *s and &s you have.

template <typename T>
struct remove_all_ref_ptr { typedef T type; };

template <typename T>
struct remove_all_ref_ptr<T *> : public remove_all_ref_ptr<T> { };

template <typename T>
struct remove_all_ref_ptr<T * const> : public remove_all_ref_ptr<T> { };

template <typename T>
struct remove_all_ref_ptr<T * volatile> : public remove_all_ref_ptr<T> { };

template <typename T>
struct remove_all_ref_ptr<T * const volatile> : public remove_all_ref_ptr<T> { };

template <typename T>
struct remove_all_ref_ptr<T &> : public remove_all_ref_ptr<T> { };

template <typename T>
struct remove_all_ref_ptr<T &&> : public remove_all_ref_ptr<T> { };

And ::std::remove_pointer can handle types like that just fine. It just lops off a single *.

The little meta-function I just wrote will run into the recursion depth limit eventually. But you'll likely have to put on more than a hundred *s to make that happen.

Here is how you might use it in conjunction with a standard library meta-function to remove the const and volatile qualifiers as well:

 #include <type_traits>

 template <typename T>
 struct base_type : public ::std::remove_cv<typename remove_all_ref_ptr<T>::type> { };
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2  
Shouldn't the typedef be public or the class made into struct? –  user1095108 Feb 19 '13 at 7:57
    
@user1095108: You're right. My compiler (g++ 4.7.2) has failed me. :-) –  Omnifarious Feb 19 '13 at 8:07
    
I suppose this metafunction could easily be improved to strip cv also? –  user1095108 Feb 19 '13 at 8:43
    
@user1095108: Yes. I should probably have handled the * const case in there actually. I think that edit should do it. –  Omnifarious Feb 19 '13 at 8:45
    
@user1095108: I added something to remove const and volatile qualifiers as well. Of course, one problem this does not handle is unwrapping smart pointer types into the pointed-to type. –  Omnifarious Feb 19 '13 at 19:34

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