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I am new to C and I want to know how to access elements inside a structure which is placed inside a structure.

struct profile_t
{
    unsigned char length;
    unsigned char type;
    unsigned char *data;
};

typedef struct profile_datagram_t
{
    unsigned char src[4];
    unsigned char dst[4];
    unsigned char ver;
    unsigned char n;
    struct profile_t profiles[MAXPROFILES];     
} header;

How to access elements inside profile_t??

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1  
+1 This must be a tough question, because the first two answerers were wrong. –  Chris Lutz Jul 27 '11 at 3:17
    
@Chris - or people think they know C better than they actually do. –  Hogan Jul 27 '11 at 3:20
    
@Hogan - True. Still, dark corners like this are good questions, because they expose the holes in peoples' knowledge. –  Chris Lutz Jul 27 '11 at 3:23
    
You haven't placed a structure inside a structure, you've just declared a type. Do you mean struct profile_t profile;? –  Mike Seymour Jul 27 '11 at 3:23
2  
I'm more fascinated by the answers than the question. The brain compiler is really bad sometimes. –  Jesus Ramos Jul 27 '11 at 3:29

5 Answers 5

struct profile_t;

The above statement doesn't create an object of type profile_t. What you need to do is -

struct profile_t inObj ;

Then create object for profile_datagram_t. i.e.,

header outObj ;  // header typedef for profile_datagram_t

Now you can access elements like -

outObj.inObj.type = 'a' ; // As an example

In C++, while creation of object for a structure, struct key word isn't necessary.


On your question edit and comment :

struct profile_t profiles[MAXPROFILES];

profiles is an array of objects of type profile_t. To access the individual object, just use the [] operator. i.e.,

header obj ;
obj.profiles[0].type = 'a' ; // Example

obj.profiles[i], where i can take values from 0 to MAXPROFILES - 1, gives the object at index i.

share|improve this answer
    
Actually, it does place a struct profile_t inside the header struct in some compilers. Google "anonymous struct." –  Chris Lutz Jul 27 '11 at 3:22
    
@Chris this is not standard –  Pepe Jul 27 '11 at 3:26
    
@Peter R. - I know, but it appears to be compiling, so this is probably the behavior the OP is observing. Some people don't mind using nonstandard extensions. –  Chris Lutz Jul 27 '11 at 3:29
    
@Chris He should be able to access the elements directly header obj; obj.length; then but this is bad practice to say the least... –  Pepe Jul 27 '11 at 3:33
    
@Peter R. - Apparently this behavior is being added to the upcoming C1X standard. So maybe it's not such a bad practice? (Just keep it to one or two structs / levels to avoid any headache). –  Chris Lutz Jul 27 '11 at 3:46

Not sure what happends in C, but in C++, rest of the stuff aside, the following declares two types.

struct profile_datagram_t
{
    struct profile_t;
};

One type is named profile_datagram_t and the other is called profile_datagram_t::profile_t. The inner type declaration is just a forward declaration, so you'll need to define the type after.

struct profile_datagram_t::profile_t
{
    // ...
};

Then, you can use the struct as follows:

int main ( int, char ** )
{
    profile_datagram_t::profile_t profile;
}
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1  
Note: although the question is tagged "C", the title says "C and C++". –  André Caron Jul 27 '11 at 3:31
    
I suspect the OP means C, and has just tagged it C++ because many people conflate the two (especially when they're first learning). –  Chris Lutz Jul 27 '11 at 3:34
    
It's also good to know these incompatibilities when porting code or interfacing C with C++. –  André Caron Jul 27 '11 at 3:50
    
True. I personally hate the idea of "upgrading" C to C++, but interfacing is always good thing. –  Chris Lutz Jul 27 '11 at 3:51
    
@Chris: I said "port", not "upgrade" ;-) Also, I sometimes write some core stuff in pure C as a standalone library. It has the benefit of serving more than one language (e.g. easy interop with C++, Python, Ruby, Javascript, ...). –  André Caron Jul 27 '11 at 3:55

Some compilers support a nonstandard extension to the C language (that I actually rather like, despite it being nonstandard) called anonymous structs (or unions). Code demonstration:

struct x {
  int i;
};

struct y {
  struct x;
};

int main(void)
{
    struct y;
    y.i = 1; // this accesses member i of the struct x nested in struct y
    return 0;
}

In a nutshell, if you don't give the struct (or union) member a name, you can access its members directly from the containing struct (or union). This is useful in situations where you might have given it the name _, and had to do y._.i - the anonymous struct syntax is much simpler. However, it does mean that you have to remember the names of all members of both structs and ensure they never clash.

This is all, of course, a nonstandard extension, and should be used with caution. I believe it works on MSVC and can be enabled in GCC with a switch. Don't know about any other compilers. If you're worried about portability, give the member a proper name.

EDIT: According to the GCC reference (below) this behavior is being added to the upcoming C1X standard, so it won't be nonstandard for long. I doubt MSVC will support C1X since they refuse to support C99 as it is, but at least this feature is becoming part of the standard.

However, the behavior shown above is MSVC only. The C1X (and GCC without the -fms-extensions switch) syntax doesn't allow the unnamed struct member to have a name:

struct y {
  struct {
    int i;
  };
};

int main(void) {
    struct y;
    y.i = 1; // this accesses member i of the struct x nested in struct y
    return 0;
}

References for various compilers (they have different names but are the same concept):
GCC (unnamed fields): http://gcc.gnu.org/onlinedocs/gcc/Unnamed-Fields.html'
MSVC (anonymous structs): http://msdn.microsoft.com/en-us/library/z2cx9y4f.aspx

share|improve this answer
    
Funny, the result is completely different in C++. Check my answer. –  André Caron Jul 27 '11 at 3:30
    
It does NOT work on MSVC and should not be used. It has no benefit at all over using standard code and actually giving the member a proper name. –  Pepe Jul 27 '11 at 3:35
    
@André - The C++ result is much better (for C++). I hadn't thought about it from a C++ angle, but it is interesting. I suspect the OP is using C, however. –  Chris Lutz Jul 27 '11 at 3:36
    
@Peter R. - The documentation (msdn.microsoft.com/en-us/library/z2cx9y4f.aspx) says otherwise. I'm on a Mac so I can't exactly test it. (And I don't endorse nonstandard behavior, but sometimes people write closed-source code for one target compiler and like to use the funky extensions said compiler provides. I'm not endorsing, just explaining.) –  Chris Lutz Jul 27 '11 at 3:37
    
@Chris Actually I wasn't looking at the documentation; I just tried the code with MSVC and it complained. –  Pepe Jul 27 '11 at 3:39

Basically you can use the following format:

variable = profile_t.element
profile_t.element = ?
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1  
Except profile_t is the name of a type, not an object. –  Mike Seymour Jul 27 '11 at 3:21

EDIT: In your declaration of profile_datagram_t, the proper definition for struct profile_t should be:

struct profile_t someProfile;

Let's say you have:

header profileDiagram1;
struct profile_t profile1;
profileDiagram1.someProfile = profile1;

To access length, type or *data from profile_t:

profileDiagram1.someProfile.type;
profileDiagram1.someProfile.length;
...
share|improve this answer
    
Sorry. Try again. –  Chris Lutz Jul 27 '11 at 3:16

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