I know the topic of pass by reference vs. pass by pointer is heavily covered... Pretty sure I understood all the nuances until I read this:


which reads (in case the link goes dead)

The prototype for foobar can have any of the following footprints:
void foobar(TYPE);      // Pass by value
void foobar(TYPE&);     // Pass by reference
void foobar(TYPE const&);   // Pass by const reference

Note that I put the const to the right of TYPE because we don't know if TYPE (this is not a template parameter, but rather for instance a literal char*) is a pointer or not!

what does the author mean by "Note that I put the const to the right of TYPE because we don't know if TYPE ... is a pointer or not!"

Everything I've read on this topic has been consistent in saying that:

void foodbar(TYPE const &)

is equivalent too

void foobar(const TYPE &)

If I understand the author correctly, s/he is saying that:

const int *X vs int * const X where pointer, X itself is const vs. what X points to is const?

If so, is this true?

  • see stackoverflow.com/questions/2640446/… – ognian Jun 4 '11 at 5:26
  • 3
    The author misunderstands the language (the two are identical), and I honestly have no idea what he's trying to say. Yet another reason to get a book and not try to learn from some online article. – GManNickG Jun 4 '11 at 5:26
  • 1
    Buying a book doesn't guarantee that you have a quality resource, even popular books: seebs.net/c/c_tcn4e.html – user505255 Jun 4 '11 at 5:31
  • in case you missed what I wrote, here it is again, "Everything I've read on this topic has been consistent." This includes several books. In particular "Professional C++" by Nicholas A. Solter, Scott J. Kleper on page 332 reads, "Remember that const int &zRef is equivalent to int const &zRef." amazon.com/Professional-C-Programmer-Nicholas-Solter/dp/… – Eric Jun 4 '11 at 5:37

If TYPE is a #define for something like int*, the placement of const does matter. In that case you will get const int* or int* const depending on the placement of const.

If TYPE is a typedef or a template parameter, the const will affect the whole type either way.

To me this looks more like another argument against macros, rather than a need for some specific style in declarations.

  • +1, and yet I prefer using the const on the right hand side... for consistency. (But I have a stronger feeling for macros than for the position of the const!) – David Rodríguez - dribeas Jun 4 '11 at 8:20
  • @David: Strong feelings for macros are common. I suspect I share yours. – Greg Jun 4 '11 at 8:31

Looking at the C++ FAQ Lite (as the article suggests), you read pointer declarations from right-to-left. So if TYPE is a pointer, the placement of the * does make a difference. Follow the link for the full story.

  • Only if TYPE is a macro that expands to a pointer type. If it's a typedef or a template parameter, then const TYPE& means the same thing as TYPE const&, even if the actual type is a pointer type. That's part of the reason for using typedefs :) – Karl Knechtel Jun 4 '11 at 6:22
  • The reference in the original question says: "Consider an arbitrary type TYPE." The author plainly was not referring to a macro. – Gnawme Jun 4 '11 at 6:24
  • 1
    So given that, the answer is simply wrong: a typedef'd type is treated as a unit, and you can't end up inserting consts into the middle of that type declaration. const TYPE& means the same as TYPE const&, even if TYPE could be "broken up" to offer another position for the const keyword to go. – Karl Knechtel Jun 4 '11 at 6:30
  • Instead of TYPE, let's use Fred (to avoid the connotations of an all-caps type -- which screams MACRO! to me). So, to summarize from the FAQ: Fred const* p means "p points to a constant Fred": the Fred object can't be changed via p. Fred* const p means "p is a const pointer to a Fred": you can't change the pointer p, but you can change the Fred object via p. Fred const* const p means "p is a constant pointer to a constant Fred": you can't change the pointer p itself, nor can you change the Fred object via p. So for a pointer type, the placement of const relative to the type does matter. – Gnawme Jun 4 '11 at 18:27
  • To the extent that "the placement of const relative to a pointer type does matter", it is not valid to use Fred to describe a pointer type. If Fred is a typedef for int*, then const Fred& means the same as Fred const&, which means the same as int* const&. It does not mean const int*&, which is the same as int const*&. – Karl Knechtel Jun 6 '11 at 22:34
void foobar(TYPE const&);   // Pass by const reference

If TYPE is a pointer to a type ABC, then

void foobar(ABC* const&)

is different to

void foobar(const ABC* &)

I believe that is all the author is getting at.


This also applies if the typedef is a pointer

typedef SomeStruct* pSomeStruct;
void foobar(pSomeStruct* const &); // const reference to a pointer
                                   // to a pointer to SomeStruct
void foobar(const pSomeStruct* &); // reference to a pointer
                                   // to a const pointer to const SomeStruct
  • For this to make sense, you must be much more precise about what you mean by "TYPE is a pointer...". See my comment on the other answer. – Karl Knechtel Jun 4 '11 at 6:23
  • @Karl: I do get your point about typedefs being a unit. However, what I said makes sense even if there's a pointer to a typedefed type. – Chris Bednarski Jun 4 '11 at 21:36

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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