Class declaration

Classes are user-defined types, defined by class-specifier, which appears in decl-specifier-seq of the declaration syntax.

[edit] Syntax

The class specifier has the following syntax:

[edit] Forward declaration

A declaration of the following form

Declares a class type which will be defined later in this scope. Until the definition appears, this class name has incomplete type. This allows classes that refer to each other:

class Vector; // forward declaration
 
class Matrix
{
    // ...
    friend Vector operator*(const Matrix&, const Vector&);
};
 
class Vector
{
    // ...
    friend Vector operator*(const Matrix&, const Vector&);
};

and if a particular source file only uses pointers and references to the class, this makes it possible to reduce #include dependencies:

// In MyStruct.h
#include <iosfwd> // contains forward declaration of std::ostream
 
struct MyStruct
{
    int value;
    friend std::ostream& operator<<(std::ostream& os, const S& s);
    // definition provided in MyStruct.cpp file which uses #include <ostream>
};

If forward declaration appears in local scope, it hides previously declared class, variable, function, and all other declarations of the same name that may appear in enclosing scopes:

struct s { int a; };
struct s; // does nothing (s already defined in this scope)
 
void g()
{
    struct s; // forward declaration of a new, local struct "s"
              // this hides global struct s until the end of this block
 
    s* p; // pointer to local struct s
 
    struct s { char* p; }; // definitions of the local struct s
}

Note that a new class name may also be introduced by an elaborated type specifier which appears as part of another declaration, but only if name lookup can't find a previously declared class with the same name.

class U;
 
namespace ns
{
    class Y f(class T p); // declares function ns::f and declares ns::T and ns::Y
 
    class U f(); // U refers to ::U
 
    // can use pointers and references to T and Y
    Y* p;
    T* q;
}

[edit] Member specification

The member specification, or the body of a class definition, is a brace-enclosed sequence of any number of the following:

class S
{
    int d1;             // non-static data member
    int a[10] = {1, 2}; // non-static data member with initializer (C++11)
 
    static const int d2 = 1; // static data member with initializer
 
    virtual void f1(int) = 0; // pure virtual member function
 
    std::string d3, *d4, f2(int); // two data members and a member function
 
    enum { NORTH, SOUTH, EAST, WEST };
 
    struct NestedS
    {
        std::string s;
    } d5, *d6;
 
    typedef NestedS value_type, *pointer_type;
};

class M
{
    std::size_t C;
    std::vector<int> data;
public:
    M(std::size_t R, std::size_t C) : C(C), data(R*C) {} // constructor definition
 
    int operator()(std::size_t r, std::size_t c) const // member function definition
    {
        return data[r * C + c];
    }
 
    int& operator()(std::size_t r, std::size_t c) // another member function definition
    {
        return data[r * C + c];
    }
};

class S
{
public:
    S();          // public constructor
    S(const S&);  // public copy constructor
    virtual ~S(); // public virtual destructor
private:
    int* ptr; // private data member
};

class Base
{
protected:
    int d;
};
 
class Derived : public Base
{
public:
    using Base::d;    // make Base's protected member d a public member of Derived
    using Base::Base; // inherit all bases' constructors (C++11)
};

template<typename T>
struct Foo
{
    static_assert(std::is_floating_point<T>::value, "Foo<T>: T must be floating point");
};

struct S
{
    template<typename T>
    void f(T&& n);
 
    template<class CharT>
    struct NestedS
    {
        std::basic_string<CharT> s;
    };
};

template<typename T>
struct identity
{
    using type = T;
};

struct S
{
    template<class CharT>
    struct NestedS
    {
        std::basic_string<CharT> s;
    };
 
    template<class CharT>
    NestedS(std::basic_string<CharT>) -> NestedS<CharT>;
};

enum class color { red, orange, yellow };
 
struct highlight
{
    using enum color;
};

[edit] Local classes

A class declaration can appear inside the body of a function, in which case it defines a local class. The name of such a class only exists within the function scope, and is not accessible outside.

• A local class cannot have static data members.
• Member functions of a local class have no linkage.
• Member functions of a local class have to be defined entirely inside the class body.
• Local classes other than closure types(since C++14) cannot have member templates.
• Local classes cannot have friend templates.
• Local classes cannot define friend functions inside the class definition.
• A local class inside a function (including member function) can access the same names that the enclosing function can access.

#include <algorithm>
#include <iostream>
#include <vector>
 
int main()
{
    std::vector<int> v{1, 2, 3};
 
    struct Local
    {
        bool operator()(int n, int m)
        {
            return n > m;
        }
    };
 
    std::sort(v.begin(), v.end(), Local()); // since C++11
 
    for (int n : v)
        std::cout << n << ' ';
    std::cout << '\n';
}

3 2 1

[edit] Keywords

class, struct, union

[edit] Defect reports

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

[edit] See also