please consider the following code:

typedef struct Person* PersonRef;
struct Person {
  int age;

const PersonRef person = NULL;

void changePerson(PersonRef newPerson) {
  person = newPerson;

For some reason, the compiler is complaining about read-only value not assignable. But the const keyword should not make the pointer const. Any ideas?

  • 3
    "But the const keyword should not make the pointer const." Huh? Short answer: don't use typedefs, they are only there to confuse you. Remember them until you need them. Dec 14, 2011 at 12:29
  • 16
    @wildplasser: "Don't use typedefs" is not good advice. Perhaps "Don't hide pointers behind typedefs" is more appropriate... Dec 14, 2011 at 12:32
  • 1
    I beg to differ. It is a good advise. Hiding structs behind a typedef is just as confusing as hiding pointers. It only serves to pollute your mental namespace. Even without syntax highlighting I read "struct person *p" easier and faster then "pPerson p". Dec 14, 2011 at 12:36
  • @wildplasser: How do you cope with C++ then? Dec 14, 2011 at 12:49
  • 6
    @struct wildplasser If struct you find typdef:ed structs confusing, struct I am afraid struct you will have problems using any struct programming language but struct assembler. The rest of the struct programmers in the struct world apparently don't agree with struct you.
    – Lundin
    Dec 14, 2011 at 13:32

6 Answers 6


Note that

typedef int* intptr;
const intptr x;

is not the same as:

const int* x;

intptr is pointer to int. const intptr is constant pointer to int, not pointer to constant int.

so, after a typedef pointer, i can't make it const to the content anymore?

There are some ugly ways, such as gcc's typeof macro:

typedef int* intptr;
intptr dummy;
const typeof(*dummy) *x;

but, as you see, it's pointless if you know the type behind intptr.

  • so, after a typedef pointer, i can't make it const to the content anymore?
    – Johannes
    Dec 14, 2011 at 12:38
  • @Johannes Yes; Add that to your arsenal of reasons not to hide pointers in typedefs. It's almost-never a good idea, and plenty of reasons it's a bad one.
    – WhozCraig
    May 11, 2018 at 15:22
const PersonRef person = NULL;


struct Person*const person= NULL;

so you are consting the pointer and not the object.

  • so, after a typedef pointer, i can't make it const to the content anymore?
    – Johannes
    Dec 14, 2011 at 12:41
  • 3
    yes, exactly, one of the reasons why typedef of pointers is usually a bad idea. Dec 14, 2011 at 13:28

While the problem is already solved by the answers above, I do miss the reason why...

So maybe as a rule of thumb:

  1. The const always refers to it's predecessor token.
  2. In case there is no such, it's "consting" it's successor token instead.

This rule can really help you out for declaring a pointer to const pointers or something equally neat.

Anyway, with this in mind, it should get clear why

struct Person *const person = NULL;

declares a const pointer to a mutable struct.

Think about it, your typedef "groups" the struct Person with the pointer token *. So, for writing

const PersonRef person = NULL;

your compiler sees something like this (pseudo-code):

const [struct Person *]person = NULL;

As there's nothing to const's left, it deklares the token to it's right struct Person * constant.

Well I think, this is the reason why I don't like hiding pointers by typedefs, while I do like typedefs as such. What about writing

typedef struct Person { ... } Person;
const Person *person; /*< const person */
Person *const pointer; /*< const pointer to mutable person */

and it should be quite clear to compilers and humans, what you're up to.


Never hide pointers behind typedefs, it is really really bad practice and will only create bugs.

One such infamous bug is that a typedef:ed pointer type that is declared as const will be treated as a "constant pointer to non-constant data", rather than "a non-constant pointer to constant data" which is what one intuitively expects. This is what happens in your program.


typedef struct
  int age;
} Person;

const Person* person = NULL; // non-constant pointer to constant Person

you are getting and error

error: assignment of read-only variable ‘person’

on statement

person = newPerson;

because you have declared person as const so its value is only read only ....const value can not be changed

if you are going to change that vatiable then why you are kepping it const?

remove const keyword your code will works fine

  • yes, sure, i just wonder why the pointer ist const and not the content where it points to. that is what i expected...
    – Johannes
    Dec 14, 2011 at 12:38

As an addition to Piotr's (accepted) answer, it's possible to avoid GCC-specific typeof:

static_assert(std::is_same<const int *, std::add_const_t<std::remove_pointer_t<intptr>> *>::value, "not same via type_traits");
static_assert(std::is_same<const int *, std::remove_reference_t<decltype(std::as_const(*intptr()))>*>::value, "not same via decltype");

By changing foo_t<T> to foo<T>::type above and/or using boost's version, it's even possible to do this in C++98, though it's only pretty since C++11.

Alternatively, use two different typedefs, which also works for cases other than plain pointers. For example, consider every container's iterator and const_iterator typedefs.

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