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I am using gcc and I compiled this code and it should have thrown an error but it ran successfully.

enum DIRECTION {EAST,WEST,NORTH,SOUTH};

int main(void) {
    enum DIRECTION currentDirection = 10;
    printf("%d\n",currentDirection);
    return 0;
}

OUTPUT : 10

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    why do you think it should throw error? – ajay Feb 10 '14 at 16:58
  • as per I know , enums do not allow any other values. – c2h5oh Feb 10 '14 at 16:59
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    C is not quite as strongly typed as you'd wish it to be... – StoryTeller - Unslander Monica Feb 10 '14 at 17:00
  • Your enum is just an "int". Hence, you can assign an out-of-range number – ziu Feb 10 '14 at 17:00
  • 1
    That's true in C++ when you define enum with class keyword. – ajay Feb 10 '14 at 17:01
4

An enums type is defined in the C99 draft standard section 6.7.2.2 Enumeration specifiers as:

Each enumerated type shall be compatible with char, a signed integer type, or an unsigned integer type. The choice of type is implementation-defined,110) [...]

where footnote 110 says:

An implementation may delay the choice of which integer type until all enumeration constants have been seen.

the standard does not say you are not allowed to specify a value outside of those specified in the declaration of the enum although in section Annex I Common warnings it does suggest such a warning but it is not required:

A value is given to an object of an enumerated type other than by assignment of an enumeration constant that is a member of that type, or an enumeration object that has the same type, or the value of a function that returns the same enumerated type (6.7.2.2).

gcc will not produce a warning although clang with the -Wassign-enum flag or -Weverything flag will and it would look similar to this:

warning: integer constant not in range of enumerated type 'enum DIRECTION' [-Wassign-enum]

and you can use -Werror to make it an error.

Keith makes two interesting observations:

  • Using -Werror would make clang non-conforming since the code is valid C.
  • enum DIRECTION currentDirection = 128; has implementation defined behavior since the type could well be char.
3
  • Note that using -Werror makes gcc non-conforming. The code in the question is strictly conforming (once you add the required #include <stdio.h>), and a conforming compiler may not reject it (unless it violates some bizarre capacity restriction). – Keith Thompson Feb 10 '14 at 18:40
  • Another interesting tidbit: enum DIRECTION currentDirection = 10; is valid, but enum DIRECTION currentDirection = 128; has implementation-defined behavior. – Keith Thompson Feb 10 '14 at 18:44
  • @KeithThompson interesting, I see what your saying. – Shafik Yaghmour Feb 10 '14 at 18:45
3

In C an enum constant is the equivalent of an int. You can use them interchangeably.

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    An enum type is a distinct type, compatible with some implementation-defined integer type (not necessarily int). Enumeration constants, on the other hand, are of type int. – Keith Thompson Feb 10 '14 at 17:05
  • This doesn't really answer the question. The code in the question uses an int constant to initialize an enum DIRECTION object. The fact that the enum constants EAST et all are of type int is not immediately relevant, since the code doesn't use any of the enumerators. What's relevant is that an enum type is effectively an implementation-defined integer type, and initializing such an object with an int constant involves an implicit conversion. – Keith Thompson Feb 10 '14 at 18:43
  • It can be inferred from other language rules that the maximum value of the integer type with which enum DIRECTION is compatible is wide enough to represent the value 10. – Keith Thompson Feb 10 '14 at 18:43
0

An enum (enumeration) is a type that can hold a set of integer values specified by the user. It's a way of creating symbolic names for a small list of related values. Their purpose is to make programs clearer and more readable.

The values of an enum type are called enumerators. The enumerators are in the same scope as the enum and their values implicitly convert to integers.

A macro is meant for the preprocessor, and the compiled code has no idea about the macros you create. They have been already replaced by the preprocessor before the code hits the compiler. An enum is a compile time entity, and the compiled code retains full information about the symbol, which is available in the debugger (and other tools).

Also it's convenient to add a new symbolic name later and let the values reorder themselves. However enums in C are not strongly typed and are compatible with signed integers. So you can assign any value to an enum type variable.

// APPLE == 0, PEARS == 1, ...

enum fruits {APPLE, PEARS, BANANA};

// APPLE == 0, MANGO == 1, PEARS == 2, ...

enum fruits {APPLE, MANGO, PEARS, BANANA};
enum color {APPLE, PEACH};

enum color my_color = MANGO;  // not strongly typed
enum fruits my_fruit = 7; // int -> enum fruits conversion

However enum in C++ is strongly typed.

enum class Traffic_light {red, yellow, green};
enum class Warning {green, yellow, orange, red};

Warning w = 1; // error. no int -> Warning implicit conversion
Traffic_light t = Warning::red; // type error. Warning::red is a different type

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