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Reading from Nested structures, I realized that structure declared within another structure is scoped the same as the containing structure. I thought it is only scoped within the containing structure. I got this impression from this link. It says there are 4 namespaces and one of them is members of a structure. I "logically" inferred that inner structures are only scoped within the outer one.

Can anyone provide a reference to the standard as to exactly how the scope rule works in this case? And any rationale for allowing inner struct to be visible outside the containing structure? If it is visible, why not just declare the struct outside...

Question 2: For terminology, when I provide the members of a structure, say

struct out{
    int a, b;
    char c, d;
    struct in{
        int a, b;

Am I providing a definition for both struct out and struct in; OR am I providing a declaration for both? I understand the difference for functions and primitive data types but not really clear here for struct s.

EDIT: Useful link I just found on SO: Nested structures in C and C++.

But there it does not provide any rationale. And now I doubt if there is one for C...

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+1 for doing the research and trying to dig deeper into the language. –  Shafik Yaghmour Mar 12 at 21:38

2 Answers 2

up vote 1 down vote accepted

For the C99 draft standard the rules for scope are covered in 6.2.1 Scopes of identifiers and in paragraph 7 says(emphasis mine):

Structure, union, and enumeration tags have scope that begins just after the appearance of the tag in a type specifier that declares the tag. Each enumeration constant has scope that begins just after the appearance of its defining enumerator in an enumerator list. Any other identifier has scope that begins just after the completion of its declarator.

The scope ends following the rules laid out in paragraph 4:

Every other identifier has scope determined by the placement of its declaration (in a declarator or type specifier). If the declarator or type specifier that declares the identifier appears outside of any block or list of parameters, the identifier has file scope, which terminates at the end of the translation unit. If the declarator or type specifier that declares the identifier appears inside a block or within the list of parameter declarations in a function definition, the identifier has block scope, which terminates at the end of the associated block. [...]

As for the rationale, it probably has to do with the fact that unlike C++, in C we don't have the scope resolution operator(::).

As for question 2 you are providing a definition and a declaration in your example, this would be an example of just a declaration:

struct out ;

Also see: What is the difference between a definition and a declaration?.

For a list of all the incompatibilities between C and C++ you can check out Incompatibilities Between ISO C and ISO C++ it covers this subject here.

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I will take a look at the respective section in the standard. But it will be more useful to quote about when the scope of an identifier ends. I thought the inner struct's scope ended after the containing struct. In addition, can you take a quick look at Question 2 I embedded in the OP about the terminology? –  Rich Mar 12 at 21:46
@Rich updated answer. –  Shafik Yaghmour Mar 12 at 21:56
Thanks! Could you take a look at my other question on structures here and provide some opinion? –  Rich Mar 15 at 2:43
@Rich that is more complicated question and requires a bit more thought and indeed the rules in C++ are a lot more difficult. I am not really at full brain power but I will try and look at it when I can but not sure when that will be. I am sure Ben is correct but sometimes how you explain something can make a big difference. –  Shafik Yaghmour Mar 15 at 3:22

In C, there isn't any "hiding implementation details," that you happen to define the structure tag textually inside the outer structure is incidental. (No namespaces, no ::)

In C++, encapsulation (hiding) is very relevant, it considers the internal structure defining a type internal to out (in its namespace), not to be used outside unless specifically called for with ::. Classes and structures in C++ are almost the same thing, so that it is struct, not class, is incidental here.

One of the fun ways in which C and C++ differ.

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