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    Undo revision 92483 by Wangyuzhen (talk) that doesn't even compile
    Line 68: Line 68:
       
       
       // access
       // access
      //wangyuzhen:old version return *_ptr is wrong.
       operator T& () const noexcept { return _ptr; }
       operator T& () const noexcept { return _ptr; }
       T& get() const noexcept { return *_ptr; }
       T& get() const noexcept { return *_ptr; }


    Revision as of 02:25, 20 April 2017

     
    C++
     
    Utilities library
    General utilities
    Relational operators (deprecated in C++20)
     
    Function objects
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    Identity function object
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    Transparent operator wrappers
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    Old binders and adaptors
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    (until C++17*)(until C++17*)(until C++17*)(until C++17*)
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    (until C++17*)(until C++17*)
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    std::reference_wrapper
     
    Defined in header <functional> 
    template< class T >
class reference_wrapper;
    		(since C++11)

    std::reference_wrapper is a class template that wraps a reference in a copyable, assignable object. It is frequently used as a mechanism to store references inside standard containers (like std::vector) which cannot normally hold references.

    Specifically, std::reference_wrapper is a Template:concept and Template:concept wrapper around a reference to object or reference to function of type T. Instances of std::reference_wrapper are objects (they can be copied or stored in containers) but they are implicitly convertible to T&, so that they can be used as arguments with the functions that take the underlying type by reference.

    Helper functions std::ref and std::cref are often used to generate std::reference_wrapper objects.

    std::reference_wrapper is also used to pass objects to std::bind or to the constructor of std::thread by reference.

    std::reference_wrapper is guaranteed to be Template:concept.

    		(since C++17)

    Member types

    type definition
    type T
    result_type(deprecated in C++17) The return type of T if T is a function. Otherwise, not defined
    argument_type(deprecated in C++17) 1) if T is a function or pointer to function that takes one argument of type A1, then argument_type is A1.

    2) if T is a pointer to member function of class T0 that takes no arguments, then argument_type is T0*, possibly cv-qualified
    3) if T is a class type with a member type T::argument_type, then argument_type is an alias of that

    first_argument_type(deprecated in C++17) 1) if T is a function or pointer to function that takes two arguments of type s A1 and A2, then first_argument_type is A1.

    2) if T is a pointer to member function of class T0 that takes one argument, then first_argument_type is T0*, possibly cv-qualified
    3) if T is a class type with a member type T::first_argument_type, then first_argument_type is an alias of that

    second_argument_type(deprecated in C++17) 1) if T is a function or pointer to function that takes two arguments of type s A1 and A2, then second_argument_type is A2.

    2) if T is a pointer to member function of class T0 that takes one argument A1, then second_argument_type is A1, possibly cv-qualified
    3) if T is a class type with a member type T::second_argument_type, then second_argument_type is an alias of that

    Member functions

    		 stores a reference in a new std::reference_wrapper object
    (public member function) [edit]
    		rebinds a std::reference_wrapper
    (public member function) [edit]
    		accesses the stored reference
    (public member function) [edit]
    		calls the stored function
    (public member function) [edit]

    Deduction guides(since C++17)

    Possible implementation

    template <class T>
class reference_wrapper {
public:
  // types
  typedef T type;
 
  // construct/copy/destroy
  reference_wrapper(T& ref) noexcept : _ptr(std::addressof(ref)) {}
  reference_wrapper(T&&) = delete;
  reference_wrapper(const reference_wrapper&) noexcept = default;
 
  // assignment
  reference_wrapper& operator=(const reference_wrapper& x) noexcept = default;
 
  // access
  operator T& () const noexcept { return *_ptr; }
  T& get() const noexcept { return *_ptr; }

  template< class... ArgTypes >
  typename std::result_of<T&(ArgTypes&&...)>::type
    operator() ( ArgTypes&&... args ) const {
    return std::invoke(get(), std::forward<ArgTypes>(args)...);
  }
 
private:
  T* _ptr;
};

    Example

    Demonstrates the use of reference_wrapper as a container of references, which makes it possible to access the same container using multiple indexes

    Run this code
    #include <algorithm>
#include <list>
#include <vector>
#include <iostream>
#include <numeric>
#include <random>
#include <functional>

int main()
{
    std::list<int> l(10);
    std::iota(l.begin(), l.end(), -4);

    std::vector<std::reference_wrapper<int>> v(l.begin(), l.end());
    // can't use shuffle on a list (requires random access), but can use it on a vector
    std::shuffle(v.begin(), v.end(), std::mt19937{std::random_device{}()});

    std::cout << "Contents of the list: ";
    for (int n : l) std::cout << n << ' '; std::cout << '\n';

    std::cout << "Contents of the list, as seen through a shuffled vector: ";
    for (int i : v) std::cout << i << ' '; std::cout << '\n';

    std::cout << "Doubling the values in the initial list...\n";
    for (int& i : l) {
        i *= 2;
    }

    std::cout << "Contents of the list, as seen through a shuffled vector: ";
    for (int i : v) std::cout << i << ' '; std::cout << '\n';
}

    Possible output: 

    Contents of the list: -4 -3 -2 -1 0 1 2 3 4 5 
Contents of the list, as seen through a shuffled vector: -1 2 -2 1 5 0 3 -3 -4 4 
Doubling the values in the initial list...
Contents of the list, as seen through a shuffled vector: -2 4 -4 2 10 0 6 -6 -8 8

    See also

    (C++11)(C++11)
    		 creates a std::reference_wrapper with a type deduced from its argument
    (function template) [edit]
    (C++11)
    		 binds one or more arguments to a function object
    (function template) [edit]