Already read through this related question, but was looking for something a little more specific.

  • Is there a way to tell your compiler specifically how wide you want your enum to be?
  • If so, how do you do it? I know how to specify it in C#; is it similarly done in C?
  • Would it even be worth doing? When the enum value is passed to a function, will it be passed as an int-sized value regardless?

8 Answers 8


I believe there is a flag if you are using GCC.


  • +1 Cool ... that's what I was looking for as far as forcing the compiler goes.
    – Will
    Feb 2, 2011 at 20:14
  • 20
    Or selectively enum __attribute__ ((__packed__)) my_enum {...}; Feb 2, 2011 at 20:16
  • 3
    @Nikolai N Fetissov: will give that a try as well. I knew you could use the __packed__ attribute on a struct; did not know you could also use it on an enum.
    – Will
    Feb 2, 2011 at 20:18
  • Here's a little more insight. stackoverflow.com/a/54527229/4561887 Feb 5, 2019 at 3:11
  • As the GCC documentation says, using the flag -fshort-enums is dangerous since it affects all enum types. Better use __attribute__((__packed__)). May 22 at 10:09

Is there a way to tell your compiler specifically how wide you want your enum to be?

In general case no. Not in standard C.

Would it even be worth doing?

It depends on the context. If you are talking about passing parameters to functions, then no, it is not worth doing (see below). If it is about saving memory when building aggregates from enum types, then it might be worth doing. However, in C you can simply use a suitably-sized integer type instead of enum type in aggregates. In C (as opposed to C++) enum types and integer types are almost always interchangeable.

When the enum value is passed to a function, will it be passed as an int-sized value regardless?

Many (most) compilers these days pass all parameters as values of natural word size for the given hardware platform. For example, on a 64-bit platform many compilers will pass all parameters as 64-bit values, regardless of their actual size, even if type int has 32 bits in it on that platform (so, it is not generally passed as "int-sized" value on such a platform). For this reason, it makes no sense to try to optimize enum sizes for parameter passing purposes.

  • 3
    "If you are talking about passing parameters to functions, then no, it is not worth doing (see below)" Not always. If you use a 8-Bit Processor, the natural size is 8Bit, but a int and enum are at least 16bit (without -fshort-enums), so you need there at least 2 registers which can slow down functions calls. Sep 2, 2016 at 9:22

You can force it to be at least a certain size by defining an appropriate value. For example, if you want your enum to be stored as the same size as an int, even though all the values would fit in a char, you can do something like this:

typedef enum {
    firstValue = 1,
    secondValue = 2,

    Internal_ForceMyEnumIntSize = MAX_INT
} MyEnum;

Note, however, that the behavior can be dependent on the implementation.

As you note, passing such a value to a function will cause it to be expanded to an int anyway, but if you are using your type in an array or a struct, then the size will matter. If you really care about element sizes, you should really use types like int8_t, int32_t, etc.

  • 1
    That's kind of what I thought. I tend to have a number of enums defined that really don't need more than 8 or 16 bits, and I hate wasting space when I don't have to.
    – Will
    Feb 2, 2011 at 20:16
  • 1
    This might not work if the optimizer removes your unused Internal_ForceMyEnumIntSize
    – EBlake
    Jan 25, 2017 at 23:47
  • @KJohnson Is Internal_ForceMyEnumIntSize is C keyword?
    – Patrick
    Mar 19, 2017 at 6:42
  • @Patrick No, it's just another member of the enum. It could have been called thirdValue, or lastValue, or maxValue. MAX_INT is defined by C to be the maximum int value. Mar 20, 2017 at 11:33
  • 1
    @EBlake C99 says that the type "shall be capable of representing the values of all the members of the enumeration." It says nothing about permitting an optimiser to remove members, so I can't see how that'd be allowed. Nor can I see what would be the point of doing it? What is there to gain? Enumerators are just alternative ways to name integral constants; if an enumerator member is not used in the code, surely it can't appear in the binary so there is nothing to remove, nothing to optimise. Sep 16, 2018 at 16:24

In some circumstances, this may be helpful:

typedef uint8_t command_t;
enum command_enum
    CMD_IDENT                = 0x00,     //!< Identify command
    CMD_SCENE_0              = 0x10,     //!< Recall Scene 0 command
    CMD_SCENE_1              = 0x11,     //!< Recall Scene 1 command
    CMD_SCENE_2              = 0x12,     //!< Recall Scene 2 command

/* cmdVariable is of size 8 */
command_t cmdVariable = CMD_IDENT; 

On one hand type command_t has size 8 and can be used for variable and function parameter type. On the other hand you can use the enum values for assignation that are of type int by default but the compiler will cast them immediately when assigned to a command_t type variable.

Also, if you do something unsafe like defining and using a CMD_16bit = 0xFFFF, the compiler will warn you with following message:

warning: large integer implicitly truncated to unsigned type [-Woverflow]

  • 1
    "the compiler" refers to GCC here, other compilers may or may not issue this or a similar warning. May 22 at 10:04

There is also another way if the enum is part of a structure:

enum whatever { a,b,c,d };

struct something {
   char  :0;
   enum whatever field:CHAR_BIT;
   char  :0;

The :0; can be omitted if the enum field is surrounded by normal fields. If there's another bitfield before, the :0 will force byte alignement to the next byte for the field following it.

  • Not even remotely; no permutation of flags I could find in gcc would compile it, only giving error: expected specifier-qualifier-list before ‘:’ token. Zero-sized bitfields are a thing, & they must be unnamed, but they still need to have a type. I presume that a zero-sized/nameless bitfield means 'start the next non-zero-sized bitfield at the start of the next allocation unit', where its type specifies what unit to align to. I guess that opens the question of why it needs a type, when the following non-zero-sized bitfield has one, but you might need a time machine to ask the Committee that Sep 16, 2018 at 16:38
  • This should be marked as the correct solution. All the other answers can be optimized away, whereas using a bitfield is guaranteed.
    – Twifty
    Dec 19, 2019 at 6:46
  • I don't think this can be used to define an enum that can be used outside a struct, correct?
    – dykeag
    Jan 20, 2021 at 14:46
  • No. Only inside a struct as it is a property of the bitset syntax. Jan 20, 2021 at 15:17
  • C11 says that A bit-field shall have a type that is a qualified or unqualified version of _Bool, signed int, unsigned int, or some other implementation-defined type, which means that your answer only works if the implementation allows enum as a bit-field type. C11 says that An implementation may allocate any addressable storage unit large enough to hold a bit-field, it does not have to be a multiple of the underlying type (which I had assumed before). May 22 at 10:01

Even if you are writing strict C code, the results are going to be compiler dependent. Employing the strategies from this thread, I got some interesting results...


#include <stdio.h>

enum __attribute__((__packed__)) PackedFlags {
    PACKED = 0b00000001,

enum UnpackedFlags {
    UNPACKED = 0b00000001,

int main (int argc, char * argv[]) {
  printf("packed:\t\t%lu\n", sizeof(PACKED));
  printf("unpacked:\t%lu\n", sizeof(UNPACKED));
  return 0;
$ gcc enum_size.c
$ ./a.out
packed:         4
unpacked:       4
$ gcc enum_size.c -fshort_enums
$ ./a.out
packed:         4
unpacked:       4
$ g++ enum_size.c
$ ./a.out
packed:         1
unpacked:       4
$ g++ enum_size.c -fshort_enums
$ ./a.out
packed:         1
unpacked:       1

In my example above, I did not realize any benefit from __attribute__((__packed__)) modifier until I started using the C++ compiler.


@technosaurus's suspicion was correct.

By checking the size of sizeof(enum PackedFlags) instead of sizeof(PACKED) I see the results I had expected...

  printf("packed:\t\t%lu\n", sizeof(enum PackedFlags));
  printf("unpacked:\t%lu\n", sizeof(enum UnpackedFlags));

I now see the expected results from gcc:

$ gcc enum_size.c
$ ./a.out
packed:         1
unpacked:       4
$ gcc enum_size.c -fshort_enums
$ ./a.out
packed:         1
unpacked:       1
  • 1
    Try sizeof (enum PackedFlags) so that the enum doesn't get extended. You'll have similar experience with sizeof( 'a' ) Jun 4, 2019 at 17:44
  • @technosaurus you are correct! Why does this happen with the C compiler and not the C++ compiler.
    – Zak
    Jun 4, 2019 at 22:03

As @Nyx0uf says, GCC has a flag which you can set:


Allocate to an enum type only as many bytes as it needs for the declared range of possible values. Specifically, the enum type is equivalent to the smallest integer type that has enough room.

Warning: the -fshort-enums switch causes GCC to generate code that is not binary compatible with code generated without that switch. Use it to conform to a non-default application binary interface.

Source: https://gcc.gnu.org/onlinedocs/gcc/Code-Gen-Options.html

Additional great reading for general insight: https://www.embedded.fm/blog/2016/6/28/how-big-is-an-enum.
Interesting...notice the line I highlighted in yellow below! Adding an enum entry called ARM_EXCEPTION_MAKE_ENUM_32_BIT and with a value equal to 0xffffffff, which is the equivalent of UINT32_MAX from stdint.h (see here and here), forces this particular Arm_symbolic_exception_name enum to have an integer type of uint32_t. That is the sole purpose of this ARM_EXCEPTION_MAKE_ENUM_32_BIT entry! It works because uint32_t is the smallest integer type which can contain all of the enum values in this enum--namely: 0 through 8, inclusive, as well as 0xffffffff, or decimal 2^32-1 = 4294967295.

enter image description here

Keywords: ARM_EXCEPTION_MAKE_ENUM_32_BIT enum purpose why have it? Arm_symbolic_exception_name purpose of 0xffffffff enum entry at end.


It depends on the values assigned for the enums.

Ex: If the value greater than 2^32-1 is stored, the size allocated for the overall enum will change to the next size.

Store 0xFFFFFFFFFFFF value to a enum variable, it will give warning if tried to compile in a 32 bit environment (round off warning) Where as in a 64 bit compilation, it will be successful and the size allocated will be 8 bytes.


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