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Some C++ compilers permit anonymous unions and structs as an extension to standard C++. It's a bit of syntactic sugar that's occasionally very helpful.

What's the rationale that prevents this from being part of the standard? Is there a technical roadblock? A philosophical one? Or just not enough of a need to justify it?

Here's a sample of what I'm talking about:

struct vector3 {
  union {
    struct {
      float x;
      float y;
      float z;
    };
    float v[3];
  };
};

My compiler will accept this, but it warns that "nameless struct/union" is a non-standard extension to C++.

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3  
Clearly there's some confusion about what you mean. Could you please provide an example of code that only compiles due to a compiler extension? –  Rob Kennedy Feb 12 '10 at 18:18
40  
Notice that there are two concepts, that sound similar, but are vastly different: unnamed structs and anonymous structs. The first is this one, which C++ supports: struct { int i; } a; a.i = 0; (the type has no name). The second is this one, which C++ does not support: struct { int i; }; i = 0; (the type has no name, and it escapes into the surrounding scope). C++, however, does support both unnamed and anonymous unions. –  Johannes Schaub - litb Feb 12 '10 at 18:39
    
This looks like the rather interesting VMMLib vector library. I believe the problem is that the union contains an unnamed struct, but I'm unsure. –  greyfade Feb 12 '10 at 21:05
    
FWIW It's "anonmyous", not "unnamed", and unions are supported as litb says. stackoverflow.com/q/14248044/560648 –  Lightness Races in Orbit Jan 10 '13 at 1:42
    
@LightnessRacesinOrbit: "Nameless" was a direct quote from the compiler warning. I've updated the question with a link to the documentation from the warning message. –  Adrian McCarthy Jan 10 '13 at 18:02

6 Answers 6

up vote 17 down vote accepted

As others have pointed out anonymous unions are permitted in standard C++, but anonymous structs are not.

The reason for this is that C supports anonymous unions but not anonymous structs*, so C++ supports the former for compatibility but not the latter because it's not needed for compatibility.

Furthermore, there's not much use to anonymous structs in C++. The use you demonstrate, to have a struct containing three floats which can be referred to either by .v[i], or .x, .y, and .z, I believe results in undefined behavior in C++. C++ does not allow you to write to one member of a union, say .v[1], and then read from another member, say .y. Although code that does this is not uncommon it is not actually well defined.

C++'s facilities for user-defined types provide alternative solutions. For example:

struct vector3 {
  float v[3];
  float &operator[] (int i) { return v[i]; }
  float &x() { return v[0]; }
  float &y() { return v[1]; }
  float &z() { return v[2]; }
};

* C11 apparently adds anonymous structs, so a future revision to C++ may add them.

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+1: My example relies on undefined behavior in C++--something I wasn't aware of back when I wrote the question. –  Adrian McCarthy Oct 8 '12 at 17:13

Not sure what you mean. Section 9.5 of the C++ spec, clause 2:

A union of the form

union { member-specification } ;

is called an anonymous union; it defines an unnamed object of unnamed type.

You can do things like this too:

void foo()
{
  typedef
  struct { // unnamed, is that what you mean by anonymous?
    int a;
    char b;
  } MyStructType; // this is more of a "C" style, but valid C++ nonetheless

  struct { // an anonymous struct, not even typedef'd
    double x;
    double y;
  } point = { 1.0, 3.4 };
}

Not always very useful... although sometimes useful in nasty macro definitions.

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7  
-1 because it's saying that it defines an anonymous struct. See comments above on the question - you are defining an unnamed struct, not an anonymous one. –  Johannes Schaub - litb Mar 26 '10 at 21:47

I'll say, you can clean up your vector3 declaration by just using a union

union vector3 {
  struct { float x, y, z; } ;
  float v[3] ;
} ;

Sure, anonymous structures was an MSVC extension. But ISO C11 permits it now, and gcc allows it, and so does Apple's llvm compiler.

Why in C11 and not C++11? I'm not sure, but practically speaking most (gcc++, MSVC++ and Apple's C++ compiler) C++ compilers support them.

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+1 for updated information. The reason I had an outer struct was because the "real code" had methods as well. –  Adrian McCarthy Oct 15 '12 at 19:34
    
The only things you can't do with a union are have static data members, or use inheritance. –  bobobobo Oct 15 '12 at 22:27
    
Thanks. I never new a union could be used like a struct or class. –  Adrian McCarthy Oct 17 '12 at 20:10
    
I know Sun studio didn't not support anonymous struct prior to C++11 by default. If you are writing cross platform code and compilers are not upgraded to C+11 then don't use anonymous struct. –  Rahul May 12 at 5:30

Unions can be anonymous; see the Standard, 9.5 paragraph 2.

What purpose do you see an anonymous struct or class as fulfilling? Before speculating why something isn't in the Standard, I'd like to have some idea why it should be, and I don't see a use for an anonymous struct.

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Based on the edit, the comments, and this MSDN article: Anonymous Structures, I'll hazard a guess - it fits poorly with the concept of encapsulation. I wouldn't expect a member of a class to mess with my class namespace beyond merely adding one member. Furthermore, changes to the anonymous structure can affect my class without permission.

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Due to the way anonymous struct/unions are created (it's special, inline syntax that cannot be hidden except by a macro) you cannot be surprised that some member you're using is an anonymous member. So I don't think this reasoning makes any sense. The actual reason is that anonymous unions are supported in C++, for C compatibility only. C doesn't support anonymous structs (until C11) and so C++ doesn't either. –  bames53 Oct 8 '12 at 16:24

Your code

union {
  struct {
    float x;
    float y;
    float z;
  };
  float v[3];
};

is like

union Foo {
   int;
   float v[3];
};

which is surely invalid (in C99 and before).

The reason is probably to simplify parsing (in C), because in that case you only need to check that the struct/union body has only "declarator statements" like

Type field;

That said, gcc and "other compilers" supports unnamed fields as an extension.

Edit: Anonymous structs are now officially supported in C11 (§6.7.2.1/13).

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3  
From a parsing perspective, i don't think that union { ... } is any different than struct { ... }. The former is valid, but the latter is not. –  Johannes Schaub - litb Feb 12 '10 at 22:19
    
Given how absurdly difficult C++ is to parse in general, I doubt the standard committed disallowed unnamed structs and unions just to simplify parsing. –  Adrian McCarthy Feb 13 '10 at 0:28
    
@Adrian: I said C, not C++. C++ adopts C's syntax and extend it. Probably C++'s creators don't see a need to allow unnamed struct/union members so they don't mess with that part of syntax. –  kennytm Feb 13 '10 at 5:32
    
@Adrian, Good point there Adrian, I always didn't think "too hard to implement" would ever be a concern of Bjarne and crew –  bobobobo Jun 7 '10 at 21:15
    
C and C++ both support unnamed unions, so the comment that union { ... }; is invalid is not correct. –  bames53 Oct 8 '12 at 16:10

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