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Using gcc to compile a program that includes support for decimal data types, I recently encountered the following error:

error: type transparent class 'std::decimal::decimal32' has base classes

A quick look at GCC's source tree shows that this error message is found in gcc/cp/class.c.

What is a "type transparent class"? Why is it an error for such a class to have "base classes"?

share|improve this question
I was going to be snarky with "you looked in the source code for gcc but couldn't be bothered to google it?" But then I googled it and found nothing. So instead of snark, I give you props. +1 – John Dibling Jul 17 '13 at 20:15
I was able to find this, but I still can't say I know what a transparent class is. – John Dibling Jul 17 '13 at 20:25
A «type transparent class» is a class-wrapper on some basic type (ie, int), with operator overloads so it can be used «transparently», in regard with the wrapped type. – Macmade Jul 17 '13 at 20:26
@Macmade: Are you sure that's the same transparent class GCC is referring to? Why would GCC care if some class happens to be what some programmers call a transparent wrapper? Not less confused. – John Dibling Jul 17 '13 at 20:32
Reproduced: . And yes, it has to be the specific namespace and identifier. – aschepler Jul 17 '13 at 21:36
up vote 20 down vote accepted

Reading the source code of GCC a bit more, in semantics.c:

      && !processing_template_decl)
      tree ns = TYPE_CONTEXT (t);
      if (ns && TREE_CODE (ns) == NAMESPACE_DECL
          && DECL_CONTEXT (ns) == std_node
          && DECL_NAME (ns)
          && !strcmp (IDENTIFIER_POINTER (DECL_NAME (ns)), "decimal"))
          const char *n = TYPE_NAME_STRING (t);
          if ((strcmp (n, "decimal32") == 0)
              || (strcmp (n, "decimal64") == 0)
              || (strcmp (n, "decimal128") == 0))
            TYPE_TRANSPARENT_AGGR (t) = 1;

This code means that a type is marked transparent if:

  • It is a struct, but not a template;
  • And it is at namespace level, and that namespace is std::decimal.
  • And it is named decimal32, decimal64 or decimal128.

In class.c there is the error check you encountered, and a few more.

And in mangle.c:

      /* According to the C++ ABI, some library classes are passed the
         same as the scalar type of their single member and use the same
         mangling.  */
      if (TREE_CODE (type) == RECORD_TYPE && TYPE_TRANSPARENT_AGGR (type))
        type = TREE_TYPE (first_field (type));

The comment is key here. I think it means that a transparent type is replaced for the type of its fist (and only) member, so it can be used anywhere it first member can. For example, in my include/decimal the class std::decimal::decimal32 has a single field of type __decfloat32 (from a previous typedef float __decfloat32 __attribute__((mode(SD)));), so any function that takes a __decfloat32 can take a std::decimal::decimal32 and vice-versa. Even the function decoration is done the same. The idea is probably to make this classes ABI compatible with the C types _Decimal32, _Decimal64 and _Decimal128.

Now, how are you getting a class decimal32 with base classes? My only guess is that you are including incompatible (maybe older) header files, with a totally different implementation.


After some investigation, it looks like my guess about the ABI and function decoration is right. The following code:

#include <decimal/decimal>
using namespace std::decimal;

 //This is a synonym of C99 _Decimal32, but that is not directly available in C++
typedef float Decimal32 __attribute__((mode(SD)));

void foo(decimal32 a) {}
void foo(Decimal32 a) {}

gives the curious error:

/tmp/ccr61gna.s: Assembler messages:
/tmp/ccr61gna.s:1291: Error: symbol `_Z3fooDf' is already defined

That is, the compiler front-end sees no problem in the overload and emits the asm code, but since both functions are decorated the same the assembler fails.

Now, is this a non-conformance of GCC, as Ben Voigt suggests in the comments? I don't know... you should be able to write overloaded functions with any two different types you want. But OTOH, it is impossible to get the Decimal32 type without using some compiler extension, so the meaning of this type is implementation defined...

share|improve this answer
And that looks like a bug/nonconformance/whatever. It violates the rule in that "Unless explicitly stated otherwise, types with distinct names shall be distinct types." And the Standard gives no such permission for std::decimal::decimal32 (it doesn't have any mention of this namespace that I could find) – Ben Voigt Jul 17 '13 at 23:39
@BenVoigt: The comments say it is in "ISO/IEC TR 24733", free draft here. About the permission of treating these two types the same, the __decfloat32 and the __attribute__((mode(SD)) things are compiler extensions and/or implementation details, so the possible interactions with any other type should be of no consequence for the conformance of the compiler. – rodrigo Jul 17 '13 at 23:46
Don't you think if it's going into the std namespace that it has to conform to the std requirements? A namespace std::decimal is definitely not an implementation-reserved name. – Ben Voigt Jul 18 '13 at 0:01
@BenVoigt: std::decimal is specified in the ISO/IEC TR as an Extension for the programming language C++ to support decimal floating-point arithmetic, and I belive that the ISO/IEC has the authority to specify extensions to C++. OTH, __decfloat32 is an implementation-reserved name, so is __attribute__(...). – rodrigo Jul 18 '13 at 0:09
Authority to specify extensions, yes, but an extension that doesn't follow the rules of the ratified Standard is a non-conformant extension. You'll note that I didn't say "Adding stuff to namespace std = undefined behavior". It's the fact that the things being added are breaking the contract set out in the Standard that's the issue. – Ben Voigt Jul 18 '13 at 0:18

As mentioned in one of my comment, a type-transparent class is a wrapper class to some primitive type, like integers, etc.

They are called transparent because of their use of operator overloading, which makes them act just like the primitive type they wrap.

IE, to wrap an int transparently in a class, you'll need to overload the = operator, the ++operator, etc...

Apparently, GNU's libstdc++ uses such classes for some types. Not sure why...

About the base class issue, while I'm not 100% sure, here's a guess.

When dealing with inheritance in C++, you'll often need to declare virtual methods, to resolve issues with upcasting.

Declaring a method as virtual will tell the compiler to create a virtual table for the methods, so they can be looked at runtime.
This will of course increase the instance size of the class.

For a type-transparent class, this is not acceptable, as the compiler won't be able to place an instance of such a class in a register (i.e when passing arguments, etc), unlike the wrapped type, and so the class won't be transparent anymore.


I've no idea how to declare such a transparent-class in GCC. The closest thing I can think of is transparent unions:

Something like:

class IntWrapper
    int _x;

    /* Constructor, operator overloads... */

typedef union
    int        integerValue;
    IntWrapper integerWrapper;
IntUnion __attribute__( ( __transparent_union__ ) );

My GCC version does not seem to support it, but according to the documentation (see above link), this would allow int or IntWrapper to be passed to functions transparently using the same calling convention as int.

share|improve this answer
Where would the type be marked as 'type transparent'? Is there some kind of GCC specific attribute for this? I mean, you're saying the compiler thinks something is not acceptable, but there is no way it can know whether it should be acceptable? – sehe Jul 17 '13 at 21:16
@sehe: Exactly. Can anybody provide a short compilable example, without any #include lines, that causes GCC to emit this diagnostic? If not, I do not think we can say this question has been answered. – Nemo Jul 17 '13 at 21:21
@Nemo I just commented on my hunch. It's fairly likely the thing. But I'm too tired to look up the relationship in the gcc code. – sehe Jul 17 '13 at 21:22
@sehe: If you follow the link in John Dibling's comment (, it looks like there is no attribute for decimal32... And I am pretty sure there is no documented GCC attribute for this. So it is a bit of a mystery what is going on here, I think. Maybe a GCC internals expert will show up and clarify. – Nemo Jul 17 '13 at 21:25
+1, the relative upvotes for Q & A are way out of whack here – TemplateRex Jul 17 '13 at 21:48

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