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I'm trying to wrap an existing 3rd party C++ library to a C interface, so that it can be used in bindings for another language. I'm having trouble figuring out how to wrap a namespaced enum, as opposed to just redefining it:

// Existing C++ 3rd party library header
namespace foo {
    enum Fruit {
        APPLE = 0,

So then I have my wrapped.{h,cpp} with an extern "C" block, and I just can't figure out how to export the foo::Fruit enum into the C interface

// wrapped.h
#ifdef __cplusplus
extern "C" {

// I don't want to do this
typedef enum Fruit {
    APPLE = 0,
} Fruit;

#ifdef __cplusplus

Is it possible to export (mirror) foo::Fruit from the C++ library into my C wrapper as Fruit?

share|improve this question
There are certainly ways of doing that, the quickest and dirtiest being a verbatim #include in both places, but presumably you'd also like to prefix the C version with a manual "namespace" of some sort? I suppose you'll probably end up either manually copying the enum value assignments in the C++ version or using macros to mangle the identifiers –  doynax Dec 26 '13 at 22:40
@doynax Yea so far I have had to just manually copy the enum definition directly into my extern "C" because I can't reference the original namespaced enum in the 3rd party library. Is there a macro solution? –  jdi Dec 26 '13 at 23:01
I think it's not possible. I would use some dumb text processing tool (sed/awk/...) to automate the translation, then put it into the makefile, and job done... –  Karoly Horvath Dec 26 '13 at 23:03

1 Answer 1

up vote 2 down vote accepted

edit: I just noticed that you wanted to wrap an existing library without modifying it.

I fear you are about out of luck then. In general there is just no way of extracting just the enum members out of C++ code without the C compiler choking.

In practice you've got the choice whether to programmatically translate your own set of enumerations into the C++ versions in the interface, try to mirror the C++ exactly and place a bunch of static assertions to double-check, or in theory even filtering them out through scripts.

There are simply no good options here I'm afraid. For the record I would tend to prefer the first of these bad options.

Personally I probably would be lazy and just stick to the C version.

Still, if required and the number of constants is large you can do a bit of macro magic to get a single definition with C-style "namespaces" as required.

First a single header defining all enum entries through a macro:

/* Fruit.h */

Then in the C header:

/* C interface */
typedef enum {
#   define FOO_ENUM(id) FOO_##id
#   include "Fruit.h"
#   undef FOO_ENUM
} Foo_Fruit_t;

And finally in the C++ header:

// C++ interface
namespace Foo {
    enum Fruit_t {
#       define FOO_ENUM(id) id
#       include "Fruit.h"
#       undef FOO_ENUM

There are many alternatives of course. For instance if you don't mind polluting the global namespace in C++ then can always define the full enumeration directly in the C interface and copy the individual enum members in the C++ version of the definition.

share|improve this answer
Fruit.inc would be a better name: it's not a header file, but it's meant to be #include'd. Otherwise, a perfectly normal (that's C/C++ interop, after all) solution. –  Joker_vD Dec 26 '13 at 23:23
I'm not all that adverse to just copying over the enum definitions, since ultimately it looks about the same amount of work as using the macros, since you still have to write them all out. I was hoping for some magical typedef solution that aliased foo::Fruit to Fruit. Oh well. In case it matters at all to your answer, specifically I am wrapping this lib, so that I can produce bindings for the Go language. –  jdi Dec 27 '13 at 0:24
Accepting this answer, basically taking away that its not super straight-forward and easier to just copy across :-) Thanks! –  jdi Dec 27 '13 at 3:32
@jdi: I suspect that your main problem won't be copying the enums but rather maintaining them such that a library revision doesn't (silently) break your separately maintained wrapper. If you intend to precisely match the build-in types then STATIC_ASSERT is your friend, and better check sizeof(enum T) as well since it may change depending on the values in the set –  doynax Dec 27 '13 at 7:55
Oh cool. Ya the maintainability was my motivation for posting the question. I already knew I could just redefine them. But adding these checks sounds like a great idea to catch changes. Although it would seem to be a breaking API change for them to shuffle around enum values. So my guess is that I can rely on major version consistency. If they go to API v2 then I will want to track that. –  jdi Dec 27 '13 at 19:53

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