If there is something like below in code:
func(const base& obj)
what does the const semantics mean? What is constant here ? Is obj a const reference to a non-const object
or a non-const reference to a const object
?
There is no such thing as a "non-const" reference, that is, a reference is always bound to the same object and there is no way to change that. "const type&" means reference to const type.
obj
is a reference to a const
object.
There is no such thing as a "non-const reference", since a reference cannot be changed to refer to something else after it has been created.
func()
, use of the object is restricted to only those operations that are valid on a const
object. So the caller knows that calling func(obj)
will not change obj
.
Dec 28, 2011 at 21:07
It's called a const reference. You have a ' referential access ' to data that's passed but you cannot modify it.
Without const you will be not able to send a const object to that function. So it is always a positive to add const. especially when you are creating function for many users. Classic examples are setters functions.
x->setXsth(sth& obj) // works only with non-const object.
x->setXsth(const sth& obj) //works with const object and non-const.
obj is a reference to const base, so it means you are not allowed to change referenced object. It can be written as
func(const base& obj)
or
func(base const & obj)
Use right-left rule for reading such declarations types, for this simple example just read it from the right. More on that here:
obj
is a constant reference to an object (wether the object is const or non const) passed in argument to func()
if you write : func(B);
this means that you cannot change the content of B
inside the function func()
(where func(const base& obj)
)
Somewhat unsolicited answer/viewpoint: The const modifier modifies whatever is on its left-hand-side, except for the one construction that you're using (in which case it modifies whatever is immediately to the right). I find it easier to always stick const immediately on the right of whatever I want to modify, and read the statement right-to-left. Maybe this isn't the best way to do things, but it helps me to keep it straight.
Examples:
// these two statements are equivalent
const int x = 5; // special case usage
int const x = 5;
// using the LHS syntax makes multiple consts easier to understand
int const y = 6;
int const * const x = &y; // x is a const pointer to const int
// const can apply to pointers but not to references
int const & const z = y; // redundant, references are always const
As other answers have said, obj
is a reference to a const base
object. However, that doesn't mean the object it refers to either has exactly the base
type, or that the object it refers to is const
, just that func
can't modify obj
through that reference. For example:
struct derived : base { ... };
derived d;
func(d);
is legal, and:
bool other_func(const base& b, other_object& o) {
base b_copy = b;
o.foo();
return b_copy == b;
}
may return false
if o
has an internal non-const reference to b
(or something inside it) and o.foo()
modifies b
. This has practical implications for functions like
std::string::operator=(const std::string& other);
where a naive implementation might do the wrong thing for my_str = my_str
.