Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I would pass T*& pointer, when I am intending to change the pointed value inside the function:

void foo(char *&p)
  p = (b == true)? new char[10] : 0;

But I am not able to get what is the use case for T* const& kind of pointer (since that pointer is not changeable)? I mean why should not I pass simply T* const ?

void foo(char* const &p);  // p is not changeable
void foo(char* const p);   // p is not changeable
share|improve this question
up vote 10 down vote accepted

You would use a T* const & as a parameter if the value of the pointer object might be changed by something external to your function and you wanted to be able to observe changes to the value of the pointer object or if you wanted to store a reference or pointer to the pointer object for later reading.

A T* parameter (equivalent to T* const as a function parameter) just gives you a copy of the pointer object, a snapshot of its value when it was passed to your function.

void foo( char* const& ptr )
    char* p1 = ptr; // initial value
    global_fn();    // ptr might be changed
    char* p2 = ptr; // new value of ptr


void foo2( char* ptr )
    char* p1 = ptr; // initial value
    global_fn();    // ptr can't be changed, it's local to this function
    char* p2 = ptr; // will be the same as p1

Technically, even the function itself might change the value of the pointer to which it is passed a reference.


char* p;

std::ptrdiff_t foo( char* const& ptr )
    return p - ptr; // returns 0, would return 1 if the parameter was by value

int main()
    char test[] = "Hello, world!";
    p = test;
    foo( p );
share|improve this answer
But if it's changed by something external, it has to be volatile, right? – Mehrdad Jul 9 '11 at 16:08
@Mehrdad: No, I'm not sure why you think that. – Charles Bailey Jul 9 '11 at 16:10
@Mehrdad: The change to the pointer only has to be made through something other than the const reference parameter. Strictly, it doesn't even have to be external to the function and certainly doesn't have to be beyond the control of the program. – Charles Bailey Jul 9 '11 at 16:16
@Mehrdad: Firstly, if it were done by another thread, volatile isn't the answer. volatile and multithreading should never be together in your mind! It's completely misnomer that volatile fixes anything. That out of the way, no, it doesn't have to be done by another thread. Going off of the code Charles has posted: char* globalP = 0; void global_fn() { globalP = new char; } int main() { foo(globalP); }. Observe that during the execution of foo, ptr will change because globalP will change. – GManNickG Jul 9 '11 at 16:23

The difference is realistically nil. const references are used to prevent copying of expensive-to-copy or, in generic code, uncopyable types, but since pointers are trivial, it's negligible and you may as well take by value.

share|improve this answer

I think a simpler example would illustrate the point that Charles Bailey is making. Let's remove the issue of the pointer part of it, because for this question it is irrelevant. So your question basically becomes:

void foo(const int &p);  // p is not changeable
void foo(const int p);   // p is not changeable

Do you see more clearly how it works? Yes, the local variable "p" cannot be assigned to in both cases. And yes, neither piece of code will affect the variable in the calling scope. But in the former example p could be a reference to a variable (non-const) int that can be changed while the latter is an argument passed by value which could not be changed. (Actually the const in the second example has no effect on anything outside the function, so it is kind of superfluous. Same with the second example in the question.)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.