Besides the normal explenation of being visible or not to derived classes, is their any other difference?

If you make it more visible, is it taking more or less memory, does it slow thing down or...?


Apart from the accessibility of members outside or to the derived classes, access specifiers might affect the object layout.

Quoting from my other answer:

Usually, memory address for data members increases in the order they're defined in the class . But this order may be disrupted at any place where the access-specifiers (private, protected, public) are encountered. This has been discussed in great detail in Inside the C++ Object Model by Lippman.

An excerpt from C/C++ Users Journal,

The compiler isn't allowed to do this rearrangement itself, though. The standard requires that all data that's in the same public:, protected:, or private: must be laid out in that order by the compiler. If you intersperse your data with access specifiers, though, the compiler is allowed to rearrange the access-specifier-delimited blocks of data to improve the layout, which is why some people like putting an access specifier in front of every data member.

Interesting, isn't it?

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    @Nawaz: this is slightly incorrect. I'll answer in greater details because comments are not really suitable for such an explanation. – Matthieu M. Feb 12 '11 at 17:14
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    @Nawaz: here you go, I've excavated the quote from the latest version of the C++0X FCD. Note the absence of "block" notion, it does not matter if you repeat the access specifier before each member or intersperse public/private blocks in your declaration. – Matthieu M. Feb 12 '11 at 17:30
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    @Nawaz: I don't have the C++03 standard unfortunately, and I have no intention of paying for it now :) I doubt it changed lately, I'd rather think the quote is ill-conceived and doesn't perfectly convey what the author meant. – Matthieu M. Feb 12 '11 at 17:52
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    @Nawaz: I mean that it may not express what the author really wanted to say (on the other hand, we don't generally speak "legalese", unambiguous and extremely carefully worded sentences being reserved to texts the like of the Standard). It may also be that the author is wrong or that the Standard changed, but since I don't have the C++03 version, we'll have to wait for a more informed fellow to come :) – Matthieu M. Feb 12 '11 at 18:27
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    If you want to say "what is the difference", then say that instead of "is there any difference" :) Inaccessible members are still visible. Overloads are a good example because that's where you can actually hide members: a derived method hides a base method of the same name. – Fred Nurk Feb 22 '11 at 16:19

From n3225, 9.2 [class.mem] note 15

Nonstatic data members of a (non-union) class with the same access control (Clause 11) are allocated so that later members have higher addresses within a class object. The order of allocation of non-static data members with different access control is unspecified (11).

This means that given the following declaration:

class Foo {
public:  int a;
private: int b;
public:  int c;
private: int d;

Only the following assertions are enforced by the standard:

Foo foo;

assert(&foo.a < &foo.c);
assert(&foo.b < &foo.d);

@Nawaz's citation can be interpreted as giving 4 blocks that can be freely intermixed, but this is not the case. The declaration of Foo is perfectly equivalent to:

class Foo' {
public:  int a,c;
private: int b,d;

Indeed the compiler completely ignores (for this purpose) whether a specifier appeared once or multiple times, and specifying it each time is spurious and at best slows the compilation down because of the extra parsing. For a human reader, it might be clearer... but this is highly subjective.

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