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c++ - Why is it not possible to overload class templates?

Reading this question made me wonder: is there a technical reason for disallowing class templates overloads?

By overloading, I mean having several templates with the same names, but different parameters, for instance

template <typename T>
struct Foo {};

template <typename T1, typename T2>
struct Foo {};

template <unsigned int N>
struct Foo {};

The compiler manages to handle overloaded functions and function templates, wouldn't it be possible to apply the same techniques (e.g. name mangling) to class templates?

At first, I thought that perhaps that would cause some ambiguity issues when taking the template identifier alone, but the only time this can happen is when passing it as a template template argument, so the type of the parameter could be used to choose the appropriate overload:

template <template <typename> class T>
void A {};

template <template <unsigned int> class T>
void B {};

A<Foo> a; // resolves to Foo<T>
B<Foo> b; // resolves to Foo<N>

Do you think such feature could be useful? Is there some "good" (i.e. technical) reasons why this is not possible in current C++?

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Section 12.5 from Templates the Complete Guide (Amazon) contains this quote:

You may legitimately wonder why only class templates can be partially specialized. The reasons are mostly historical. It is probably possible to define the same mechanism for function templates (see Chapter 13).

In some ways the effect of overloading function templates is similar, but there are also some subtle differences. These differences are mostly related to the fact that the primary template needs to be looked up when a use is encountered. The specializations are considered only afterward, to determine which implementation should be used.

In contrast, all overloaded function templates must be brought into an overload set by looking them up, and they may come from different namespaces or classes. This increases the likelihood of unintentionally overloading a template name somewhat.

Conversely, it is also imaginable to allow a form of overloading of class templates. Here is an example:

// invalid overloading of class templates
template<typename T1, typename T2> class Pair; 
template<int N1, int N2> class Pair; 

However, there doesn't seem to be a pressing need for such a mechanism.

Furthermore, the Design and Evolution of C++ (Amazon) contains this quote in section 15.10.3

I therefore concluded that we needed a mechanism for "specializing" templates. This could be done either by accepting general overloading or by some more specific mechanism. I chose a specific mechanism because I thought I was primarily addressing irregularities caused by irregularities in C and because suggestions of overloading invariably creates a howl of protests. I was trying to be cautious and conservative; I now consider that a mistake. Specialization as originally defined was a restricted and anomalous form of overloading that fitted poorly with the rest of the language.

Bold emphasis mine. I interpret this as saying that function overload resolution is more difficult to implement (and get right by users) than class specialization. So probably no real technical obstacles (similary for function template partial specialization) but an historical accident.


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