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In C++03, it is possible to emulate strongly typed enum by putting it in a class (or a namespace ) :

struct MyEnum
  enum enumName
    VALUE_1 = 1,

and to use it :

MyEnum::enumName v = MyEnum::VALUE_1;

Is it possible to do something similar in C? If yes, how?

I tried like this, but off course that doesn't work :

struct A
  enum aa
    V1 = 5

int main()
  A::aa a1 = A::V1;
  enum A::aa a2 = A::V1;
  struct A::aa a3 = A::V1;

  return 0;
share|improve this question
there are no namespaces and classes in C - so you cannot.. – tuxtimo Aug 10 '12 at 14:21
There are structs in C. – AJG85 Aug 10 '12 at 14:23
There are probably some things to do with variadic macros in C99, by replacing the scope operator by an underscore. But in plain C89, I don't think it's possible. – Morwenn Aug 10 '12 at 14:29
@AJG85: structs in C are not the same as structs in C++, in C++ they are classes while in C they are not. – David Rodríguez - dribeas Aug 10 '12 at 14:34
@tuxtimo: actually, C does provide four different namespaces for identifiers. One is for labels, one is for struct, union, and enum tags, one is for struct and union members, and the last is for all other identifiers, including enumeration constants. – John Bode Aug 10 '12 at 20:35

Here's my solution. Has a few advantages over @Eric's design:

  • Supports equality testing (e.g. A_VALUE_0 == value)
  • Doesn't rely on C99's compound literals
  • Can cast to assign an improper value to a enum.


  • Flags do not work (e.g. A_VALUE_0 | A_VALUE_1)
  • Cannot be switch'd
  • Can confuse the IDE on where the error lines are when testing for equality (e.g. A_VALUE_0 == B_VALUE_1)


  • NEVER dereference a pointer of this type. Will cause crashes faster than a Lamborghini

Here's the implementation (compiled with -Werror & -pedantic):

typedef struct A { char empty[1]; } *A; // we use 'empty' so that we don't get a warning that empty structs are a GNU extension
#define A_VALUE_0 ((A) 0x1)
#define A_VALUE_1 ((A) 0x2)
#define A_VALUE_2 ((A) 0x4)

typedef struct B { char empty[1]; } *B;

#define B_VALUE_0 ((B) 0x0)
#define B_VALUE_1 ((B) 0x1)
#define B_VALUE_2 ((B) 0x2)

int main()
    A a = A_VALUE_0;

    int equal = (a == A_VALUE_1); // works!
    int euqal = (a == B_VALUE_1) // doesn't work

    A flags = A_VALUE_0 | A_VALUE_1; // doesn't work!

    switch (a) { // doesn't work
        case A_VALUE_0:
            puts("value 0");
        case A_VALUE_1:
            puts("value 1");
        case A_VALUE_2:
            puts("value 2");
            puts("unknown value");
    } // doesn't work

    // casting works for assignment:
    A b = (A) (B_VALUE_2);

    return 0;
share|improve this answer
+1, some comments: I still would go with an enum at the base to declare the values. This is easier to maintain if values are added e.g. To avoid spooky integer to pointer warnings for some oldish compilers you should go through uintptr_t, something like ((B)(uintptr_t) 0x2). To declare pointers to a struct you don't even have to declare the struct itself, typedef struct spooky_struct* A would suffice. – Jens Gustedt Aug 10 '12 at 18:04

You can do this:

// Declare A to use for an enumeration, and declare some values for it.
typedef struct { int i; } A;
#define A0  ((A) { 0 })
#define A1  ((A) { 1 })

// Declare B to use for an enumeration, and declare some values for it.
typedef struct { int i; } B;
#define B0  ((B) { 0 })
#define B1  ((B) { 1 })

void foo(void)
    // Initialize A.
    A a = A0;

    // Assign to A.
    a = A1;

    // Assign a value from B to A.
    a = B0; // Gets an error.

That gives you some typing, but it may be a nuisance, depending on what other operations you want to perform with the enumeration and its values.

share|improve this answer
(A) { 0 } is C11, right? – Shahbaz Aug 10 '12 at 14:50
The assignment uses a C99 feature (compound literals) but the rest also works in C89. – rwos Aug 10 '12 at 15:00
@Shahbaz This worked with gcc -ansi (with gcc 4.1.2) for me. – Eric Finn Aug 10 '12 at 15:00
@rwos, ah yes. I remember now that I couldn't write it (in some code of mine) because I was compiling with g++, not that it was C11. My bad. – Shahbaz Aug 10 '12 at 15:01
The big problem here is that testing for equality won't work i.e. A a = A0 ; A b = A0 ; bool foo = (a == b); doesn't compile. Also, you can't use variables of type A in switches. – JeremyP Aug 10 '12 at 15:03

As C doesn't provide namespaces, you can use prefixes instead.

enum MyEnum {
    MyEnumA = 1,

enum OtherEnum {
    OtherEnumA = 1,

Then, for concision in variable declarations, you may declare types for your enum, like this:

typedef enum MyEnum MyEnum;
typedef enum OtherEnum OtherEnum;

Finally, I you don't want to allow implicit conversions of OtherEnumB to the MyEnum type, Clang provides the -Wenum-conversion flag (I don't think there's a similar flag in GCC unfortunately).

/tmp/test.c:24:20: warning: implicit conversion from enumeration type 'enum OtherEnum' to different enumeration type 'MyEnum' (aka 'enum MyEnum') [-Wenum-conversion]
    MyEnum value = OtherEnumB;
           ~~~~~   ^~~~~~~~~~
1 warning generated.

This has the advantage to be simple, easy to understand and to work well with your (mine, at least) IDE's autocompletion.

share|improve this answer
I know it's 3 years later, so no worries if there's no reply. Were you using g++? With gcc, I just can't make this work. I've tried versions 4.6 and 4.7, and have also added -Wextra, -Wall -Wenum-compare. – domen Mar 17 '15 at 10:12
I used Clang. I assumed GCC would also emit warnings for implicit conversions between enum types but I may have been wrong. It looks like GCC only warns on comparisons when using -Wenum-compare. – Nicolas Bachschmidt Mar 18 '15 at 18:04
Ah, right. It works as you described with clang. I've also tried a more recent gcc, and still no warning. There are also bug reports and discussions over that, but it seems gcc developers are happy with status quo, because "standard says all this is valid". – domen Mar 18 '15 at 19:43

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