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i have a nested struct and i'd like to have a pointer-to-member to one of the nested member:

is it legal?

struct InnerStruct
    bool c;
struct MyStruct {
    bool t;
    bool b;
    InnerStruct inner;


MyStruct mystruct;
bool MyStruct::* toto = &MyStruct::b;

is ok but:

bool MyStruct::* toto = &MyStruct::inner.c;

is not. any idea?


Here are some details Yes it is &MyStruct::b and not mystruct::b; The code is from a custom RTTI/Property system. For each specified class we keep an array of "Property", including a Ptr-to-member It is used like this:

//somewhere else in code...
( myBaseClassWithCustomRTTIPointer)->* toto = true;
share|improve this question
I'm confused: do you mean to be referring to MyStruct::b and MyStruct::inner.c vs mystruct.b and mystruct.inner.c in your references? And what is your goal with specifying MyStruct::* in your two assignments? –  Joe Dec 18 '09 at 18:30
I think he wants to do (mystruct.*(&MyStruct::inner.c)) = true and have it be identical to mystruct.inner.c = true. –  Johannes Schaub - litb Dec 18 '09 at 18:37
@Joe: A pointer-to-data-member in C++ is nothing else than a language-level iomplementation of the notion of "offset". I.e. internally a pointer-to-data-member is nothing more than just an offset of the member from the beginning of the entire object. Obviously, members of subobjects also have their own offsets in the entire object, so it would be perfectly logical to allow pointers of type bool MyStruct::* to point to MyStruct::InnerStruct members, as in the OP's example. However, the language does not allow that. There's simply no syntax for that. –  AnT Dec 18 '09 at 18:39
thank you all for your fast and precise answers. I think ptr-to-member is a bit more complex than just offset from base class, as it can handle multiple and virtual inheritance. I might change my property system so it uses offsetof and forbid "dreaded diamond" –  benoitj Dec 18 '09 at 18:54
@benoitj: No, you are overcomplicating things. Issues with multiple inheritance, virtual inheritance and various "diamonds" arise only with pointers to member functions. With pointers to data members no such complications exist. Pointers to data members are much simpler. And yes, a pointer to a data member is just an offset (in a typical implementation). –  AnT Dec 18 '09 at 19:03

2 Answers 2

up vote 11 down vote accepted

Yes, it is forbidden. You are not the first to come up with this perfectly logical idea. In my opinion this is one of the obvious "bugs"/"omissions" in the specification of pointers-to-members in C++, but apparently the committee has no interest in developing the specification of pointers-to-members any further (as is the case with most of the "low-level" language features).

Note that everything necessary to implement the feature in already there, in the language. A pointer to a-data-member-of-a-member is in no way different from a pointer to an immediate data member. The only thing that's missing is the syntax to initialize such a pointer. However, the committee is apparently not interested in introducing such a syntax.

From the pure formal logic point of view, this should have been allowed in C++

struct Inner {
  int i;
  int j[10];

struct Outer {
  int i;
  int j[10];
  Inner inner;

Outer o;
int Outer::*p;

p = &Outer::i; // OK
o.*p = 0; // sets `o.i` to 0

p = &Outer::inner.i; // ERROR, but should have been supported
o.*p = 0; // sets `o.inner.i` to 0

p = &Outer::j[0]; // ERROR, but should have been supported
o.*p = 0; // sets `o.j[0]` to 0
// This could have been used to implement something akin to "array type decay" 
// for member pointers

p = &Outer::j[3]; // ERROR, but should have been supported
o.*p = 0; // sets `o.j[3]` to 0

p = &Outer::inner.j[5]; // ERROR, but should have been supported
o.*p = 0; // sets `o.inner.j[5]` to 0

A typical implementation of pointer-to-data-member is nothing more than just an byte-offset of the member from the beginning of the enclosing object. Since all members (immediate and members of members) are ultimately laid out sequentially in memory, members of members can also be identified by a specific offset value. This is what I mean when I say that the inner workings of this feature are already fully implemented, all that is needed is the initialization syntax.

In C language this functionality is emulated by explicit offsets obtained through the standard offsetof macro. And in C I can obtain offsetof(Outer, inner.i) and offsetof(Outer, j[2]). Unfortunately, this capability is not reflected in C++ pointers-to-data-members.

share|improve this answer
yes it should have been supported! damn!!!!!!!! –  benoitj Dec 18 '09 at 18:57
In C++0x, we are allowed to do sizeof(Outer::inner.i) and decltype(Outer::inner.i). I wonder what the reason is that makes member pointers to such sub-elements more complicated? –  Johannes Schaub - litb Dec 18 '09 at 23:22
for your example regarding the pointer to the array, you can do: Outer o; int (Outer::*p_array)[10]; p_array = &Outer::j; o.*p_array[3] = 0; –  Grim Fandango Feb 10 '12 at 10:25
@Grim Fandango: Yes, but that happens to be beside the point. What we are talking about is the ability to point into subobjects. –  AnT Feb 10 '12 at 23:52

The InnerStruct you care about happens to be contained in an instance of a MyStruct, but that doesn't affect how you get a pointer to the member of the InnerStruct.

bool InnerStruct::* toto2 = &InnerStruct::c;

Edit: Rereading your question, I'm guessing you want to define a pointer to member of the outer struct, and have it point directly at a member of the inner struct. That's simply not allowed. To get to the member of the inner struct that's contained in the outer struct, you'd have to create a pointer to the inner struct itselft, then to its member. To use it, you'd dereference both pointers to members:

// Pointer to inner member of MyStruct:
InnerStruct MyStruct::* toto = &MyStruct::inner;

// Pointer to c member of InnerStruct:
bool InnerStruct::* toto2 = &InnerStruct::c;

// Dereference both to get to the actual bool:
bool x = mystruct.*toto.*toto2;
share|improve this answer
+1 for good answer –  Ashish Dec 18 '09 at 19:40
@JerryCoffin : Thanks for the great answer. How would you use this notation to reference the, say, j[3] element out of the <code>struct Outer { int i; int j[5]; }</code> –  Grim Fandango Feb 9 '12 at 16:33
@GrimFandango: You'd create the pointer to member like: int (Outer::* ptr_j)[5] = &Outer::j;. Assuming some instance x of Outer, you'd dereference it like: (x.*ptr_j)[3] = 1;. –  Jerry Coffin Feb 9 '12 at 16:57

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