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      Extending the namespace std

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      [edit]Adding declarations to std

      It is undefined behavior to add declarations or definitions to namespace std or to any namespace nested within std, with a few exceptions noted below. 

      #include <utility>   namespace std {// a function definition added to namespace std: undefined behavior pair<int, int> operator+(pair<int, int> a, pair<int, int> b){return{a.first+ b.first, a.second+ b.second};}}

      [edit]Adding template specializations

      [edit]Class templates

      It is allowed to add template specializations for any standard library class template to the namespace std only if the declaration depends on at least one program-defined type and the specialization satisfies all requirements for the original template, except where such specializations are prohibited. 

      // Get the declaration of the primary std::hash template.// We are not permitted to declare it ourselves.// <typeindex> is guaranteed to provide such a declaration, // and is much cheaper to include than <functional>.   #include <typeindex>    // Specialize std::hash so that MyType can be used as a key in // std::unordered_set and std::unordered_map. Opening namespace// std can accidentally introduce undefined behavior, and is not// necessary for specializing class templates.template<>structstd::hash<MyType>{std::size_t operator()(const MyType& t)const{return t.hash();}};
      • Specializing the template std::complex for any type other than float, double, and longdouble is unspecified.
      • Specializations of std::hash for program-defined types must satisfy Hash requirements.
      • Specializations of std::atomic must have a deleted copy constructor, a deleted copy assignment operator, and a constexpr value constructor.
      • Specializations of std::istreambuf_iterator must have a trivial copy constructor, a constexpr default constructor, and a trivial destructor.
      		(since C++11)
      (until C++17)

      It is undefined behavior to declare a full or partial specialization of any member class template of a standard library class or class template.

      This section is incomplete
      Reason: mini-example

      [edit]Function templates and member functions of templates

      It is allowed to add template specializations for any standard library function template to the namespace std only if the declaration depends on at least one program-defined type and the specialization satisfies all requirements for the original template, except where such specializations are prohibited.

      		(until C++20)

      It is undefined behavior to declare a full specialization of any standard library function template.

      		(since C++20)
      This section is incomplete
      Reason: mini-example

      It is undefined behavior to declare a full specialization of any member function of a standard library class template:

      This section is incomplete
      Reason: mini-example

      It is undefined behavior to declare a full specialization of any member function template of a standard library class or class template:

      This section is incomplete
      Reason: mini-example

      [edit]Variable templates

      It is undefined behavior to declare a full or partial specialization of any standard library variable template, except where explicitly allowed.

      This section is incomplete
      Reason: mini-example
      (since C++20)
      		(since C++14)

      [edit]Explicit instantiation of templates

      It is allowed to explicitly instantiate a class (since C++20)template defined in the standard library only if the declaration depends on the name of at least one program-defined type and the instantiation meets the standard library requirements for the original template.

      This section is incomplete
      Reason: mini-example

      [edit]Other restrictions

      The namespace std may not be declared as an inline namespace.

      Addressing restriction

      The behavior of a C++ program is unspecified (possibly ill-formed) if it explicitly or implicitly attempts to form a pointer, reference (for free functions and static member functions) or pointer-to-member (for non-static member functions) to a standard library function or an instantiation of a standard library function template, unless it is designated an addressable function (see below).

      Following code was well-defined in C++17, but leads to unspecified behaviors and possibly fails to compile since C++20: 

      #include <cmath>#include <memory>   int main(){// by unary operator&auto fptr0 =&static_cast<float(&)(float, float)>(std::betaf);   // by std::addressofauto fptr1 =std::addressof(static_cast<float(&)(float, float)>(std::betaf));   // by function-to-pointer implicit conversionauto fptr2 =static_cast<float(&)(float)>(std::riemann_zetaf);   // forming a referenceauto& fref =static_cast<float(&)(float)>(std::riemann_zetaf);}

      Designated addressable functions

      		(since C++20)

      [edit]Defect reports

      The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

      DR Applied to Behavior as published Correct behavior
      LWG 120C++98 users could explicitly instantiate standard
      library templates for non-user defined types       		prohibited
      LWG 232C++98 users could explicitly specialize standard library templates
      if the declaration depends on a user-defined name of
      external linkage (which can refer to a non-user-defined type)       		only allowed for
      user-defined types
      LWG 422C++98 users could specialize individual members or member templates
      without specializing the whole standard library class or class template       		the behavior is
      undefined in this case
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