description | title | ms.date | helpviewer_keywords | ms.assetid | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Learn more about: Function Call (C++) |
Function Call (C++) |
11/04/2016 |
|
5094254a-045b-46f7-8653-69bc91e80dce |
The function-call operator, invoked using parentheses, is a binary operator.
primary-expression ( expression-list )
In this context, primary-expression
is the first operand, and expression-list
, a possibly empty list of arguments, is the second operand. The function-call operator is used for operations that require a number of parameters. This works because expression-list
is a list instead of a single operand. The function-call operator must be a nonstatic member function.
The function-call operator, when overloaded, does not modify how functions are called; rather, it modifies how the operator is to be interpreted when applied to objects of a given class type. For example, the following code would usually be meaningless:
Point pt;
pt( 3, 2 );
Given an appropriate overloaded function-call operator, however, this syntax can be used to offset the x
coordinate 3 units and the y
coordinate 2 units. The following code shows such a definition:
// function_call.cpp
class Point
{
public:
Point() { _x = _y = 0; }
Point &operator()( int dx, int dy )
{ _x += dx; _y += dy; return *this; }
private:
int _x, _y;
};
int main()
{
Point pt;
pt( 3, 2 );
}
Note that the function-call operator is applied to the name of an object, not the name of a function.
You can also overload the function call operator using a pointer to a function (rather than the function itself).
typedef void(*ptf)();
void func()
{
}
struct S
{
operator ptf()
{
return func;
}
};
int main()
{
S s;
s();//operates as s.operator ptf()()
}