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C11 adds, among other things, 'Anonymous Structs and Unions'.

I poked around but could not find a clear explanation of when anonymous structs and unions would be useful. I ask because I don't completely understand what they are. I get that they are structs or unions without the name afterwards, but I have always (had to?) treat that as an error so I can only conceive a use for named structs.

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possible duplicate of How to use anonymous structs / unions in c? –  wallyk Jan 19 '12 at 20:24
@wallyk not really the same question. –  Luchian Grigore Jan 19 '12 at 20:24

4 Answers 4

up vote 15 down vote accepted

Anonymous union inside structures are very useful in practice. Consider that you want to implement a discriminated sum type, an aggregate with a boolean and either a float or a char* (i.e. a string), depending upon the boolean flag. With C11 you should be able to code

typedef struct {
    bool is_float;
    union {
       float f;
       char* s;
} mychoice_t;

double as_float(mychoice_t* ch) 
   if (ch->is_float) return ch->f;
   else return atof(ch->s);

With C99, you'll have to name the union, and code ch->u.f and ch->u.s which is less readable and more verbose.

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ah, so wait, is the issue at hand that C11 adds support for'Anonymous structs and unions INSIDE of structs/unions"? –  griotspeak Jan 19 '12 at 20:36
At least that the most useful situation I can quickly imagine. In fact, GCC supported that as an extension long time ago, and I always blessed it for that... –  Basile Starynkevitch Jan 19 '12 at 20:37
Thank you. That makes sense and I now get, at least, one application. –  griotspeak Jan 19 '12 at 20:38
typo, missing ; after union closing } –  ouah Jan 19 '12 at 20:42
@Renato in c99 <stdbool.h> provides bool. –  cjh Oct 3 '13 at 19:56
struct Lock;
int lock(Lock*);

struct Queue
    char buf[QBUFSIZE];
    char *rp;
    char *wp;

qputc(Queue* q, char c){

update3: ken c is doing that for a while - for example, for compiling this this and this.

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this isn't even valid. –  Luchian Grigore Jan 19 '12 at 20:28
How the heck is this supposed to answer the question? –  Niklas B. Jan 19 '12 at 20:29
gentlemen, a compiler outta there (pages 10-11) is doing that for ages –  yarek Jan 19 '12 at 21:05
for example, this code makes use of it. –  yarek Jan 19 '12 at 21:15
An early C1x draft included this feature, but it was removed before the C11 release. GCC (and, IIRC, LLVM’s clang) allows it with the -fplan9-extensions, and of course kenc has had it since forever. But it’s not standard. –  J. C. Salomon Jan 31 '12 at 0:30
struct bla {
    struct { int a; int b; };
    int c;

the type struct bla has a member of a C11 anonymous structure type.

struct { int a; int b; } has no tag and the object has no name: it is an anonymous structure type.

You can access the members of the anonymous structure this way:

struct bla myobject;
myobject.a = 1;  // a is a member of the anonymous structure inside struct bla   
myobject.b = 2;  // same for b
myobject.c = 3;  // c is a member of the structure struct bla
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And what is the difference to just do struct bla {int a;intb;intc;};? –  Zaibis Dec 9 '13 at 15:27
@Zaibis there is no difference to access the members of the structure but the version with the anonymous structure holds an extra information: there is some logical relationship between a and b that doesn't exist with c –  ouah Dec 9 '13 at 22:06
can you explain what this information could be usefull for? is this a thing of performance? or what is it about? –  Zaibis Dec 9 '13 at 22:16
@Zaibis take the example of an API, this information could be useful for the reader as it exposes a different information on the nature of a and b. –  ouah Dec 9 '13 at 22:19

Well, if you declare variables from that struct only once in your code, why does it need a name?

struct {
 int a;
 struct {
  int b;
  int c;
 } d;
} e,f;

And you can now write things like e.a,f.d.b,etc.

(I added the inner struct, because I think that this is one of the most usages of anonymous structs)

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This was correct and submitted a little earlier than the one I accepted. Sorry, that one 'explained' it a little better but, now that I understand, I see that this is a pretty good answer. –  griotspeak Jan 19 '12 at 20:52

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