C++ “const” keyword explanation

Question

When reading tutorials and code written in C++, I often stumble over the const keyword.

I see that it is used like the following:

const int x = 5;

I know that this means that x is a constant variable and probably stored in read-only memory.

But what are

void myfunc( const char x );

and

int myfunc( ) const;

?

Answer 1

void myfunc( const char x );

This means that the parameter x is a char whose value cannot be changed inside the function. For example:

void myfunc(const char)
{
  char y = x;  // OK
  x = y;       // failure - x is `const`
}

For the last one:

int myfunc( ) const;

This is illegal unless it's inside a class declaration - const member functions prevent modification of any class member - const nonmember functions cannot be used. in this case the definition would be something like:

int myclass::myfunc( ) const
{
  // do stuff that leaves members unchanged
}

If you have specific class members that need to be modifiable in const member functions, you can declare them mutable. An example would be a member lock_guard that makes the class's const and non-const member functions threadsafe, but must change during its own internal operation.

Answer 2

The first function example is more-or-less meaningless. More interesting would be:

void myfunc( const char *x );

This tells the compiler that the contents of 'x' won't be modified. That is, within myfunc() you can't do something like:

strcpy(x, "foo");

The second example, on a C++ member function, means that the contents of the object won't be changed by the call.

So given:

class {
  int x;
  void myfunc() const;
}

someobj.myfunc() is not allowed to modify anything like:

x = 3;

Answer 3

This:

void myfunc( const char x );

means you you cannot change x inside the function, i.e. this is illegal:

void myfunc( const char x ) {
    x = ...;
}

while:

int myfunc() const;

only makes sense if myfunc() is a method inside a class; it basically means the method cannot modify the class instance (i.e. the state of the instance before and after calling instance.myfunc() will be the same).

Answer 4

void myfunc(const char x) is very similar to const int x = 5 in your example: It declares a constant locally available within the function myfunc. As it is a constant its value cannot be changed.

int myfunc() const is a member function of a class. The const indicates that the function would not change the instance of the class the function is executed on. So, within the function, you cannot do something like this->foo = 7 or call other function that are not const.

Answer 5

Before a variable identifier, const indicates that the variable can be initialized and thereafter not modified.

After a class method name, const indicates that the method will not modify the observable state of the class. The mutable keyword allows internal data to be modified.

Before a pointer or reference variable, const indicates that the identifier will not be used to modify the referenced data, though it may be changed by other means.

const int *pInt = &x;

Const can also be used to indicate that the pointer itself cannot be modified:

int * const pInt = &x;

Answer 6

The difference between the two is that the first has type void(char) and the second has type int()const.

A function that has such a type with const at the end can only be a member function of a class, and it means that the member function does not change the class value (which this refers to) as seen from outside the class. The compiler will check that to a degree, and any straight write to a class member in a const member function results in a compile time error, and the function can straightly only call const member functions on itself (special directives exist so you can tell the compiler that a member write won't change the class' value as seen from outside. This is done by the mutable keyword).

In the functions you presented, one had a parameter of type char const. Such a parameter cannot be changed inside its function. It has no effect on the function's type though, and no effect to the callers of the function.