override
specifier (since C++11)
From cppreference.com
Specifies that a virtual function overrides another virtual function.
Syntax
The identifier override
, if used, appears immediately after the declarator in the syntax of a member function declaration or a member function definition inside a class definition.
declarator virt-specifier-seq (optional) pure-specifier (optional) | (1) | ||||||||
declarator virt-specifier-seq (optional) function-body | (2) | ||||||||
1) In a member function declaration,
override
may appear in virt-specifier-seq immediately after the declarator, and before the pure-specifier, if used.2) In a member function definition inside a class definition,
override
may appear in virt-specifier-seq immediately after the declarator and just before function-body.In both cases, virt-specifier-seq, if used, is either override
or final
, or final override or override final.
Explanation
In a member function declaration or definition, override specifier ensures that the function is virtual and is overriding a virtual function from a base class. The program is ill-formed (a compile-time error is generated) if this is not true.
override
is an identifier with a special meaning when used after member function declarators; it is not a reserved keyword otherwise.
Keywords
Example
Run this code
#include <iostream> struct A { virtual void foo(); void bar(); virtual ~A(); }; // member functions definitions of struct A: void A::foo() { std::cout << "A::foo();\n"; } A::~A() { std::cout << "A::~A();\n"; } struct B : A { // void foo() const override; // Error: B::foo does not override A::foo // (signature mismatch) void foo() override; // OK: B::foo overrides A::foo // void bar() override; // Error: A::bar is not virtual ~B() override; // OK: `override` can also be applied to virtual // special member functions, e.g. destructors void override(); // OK, member function name, not a reserved keyword }; // member functions definitions of struct B: void B::foo() { std::cout << "B::foo();\n"; } B::~B() { std::cout << "B::~B();\n"; } void B::override() { std::cout << "B::override();\n"; } int main() { B b; b.foo(); b.override(); // OK, invokes the member function `override()` int override{42}; // OK, defines an integer variable std::cout << "override: " << override << '\n'; }
Output:
B::foo(); B::override(); override: 42 B::~B(); A::~A();
See also
final specifier(C++11)
|
declares that a method cannot be overridden |