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Using -Wall -pedantic

#include <limits.h>
#include <stdio.h>

int main(void)
    enum x {
        max = INT_MAX,
    enum y {
        out_2 = INT_MAX + 1

    printf("%d %d\n", out_1, out_2);
    return 0;

clang returns

demo.c:9:3: warning: overflow in enumeration value

As you can see, compiler does not warn about out_2 overflow, his value is unknown at compile time?

share|improve this question
Pretty sure the standard does not define the range of an enum. – asveikau Mar 8 '13 at 21:28
My guess: it evaluates INT_MAX+1 first, which would wrap around and assigns that to out_2. – Johnny Mopp Mar 8 '13 at 21:33
@johnny: no, it invokes UB. – R.. Mar 8 '13 at 21:36
up vote 1 down vote accepted

In the first instance, the compiler itself is trying to pick an integer that is causing an overflow, and so is warning you. It is likely producing INT_MIN. The standard allows for any value in a signed int to be an enum constant (see bottom).

In the second, the expression (INT_MAX + 1) is calculated before it is assigned to out_2. An overflow in the expression here is producing a result that is allowed, but this is undefined behaviour. The valid result is then stored in the enum, which is why the first error isn't produced.

clang (3.2) will also not warn about this, which is effectively identical:

int a = INT_MAX + 1;

In this respect, clang is not behaving according to the C standard, as this is undefined.

The output from gcc in comparison makes the difference completely clear:

In function ‘main’:
9:9: error: overflow in enumeration values
13:25: warning: integer overflow in expression [-Woverflow]

The Intel compiler ignores the enum overflow, but warns about the integer overflow:

enum.c(13): warning #61: integer operation result is out of range
      out_2 = INT_MAX + 1

For reference, from the C99 standard, "The expression that defines the value of an enumeration constant shall be an integer constant expression that has a value representable as an int; .3, "The identifiers in an enumerator list are declared as constants that have type int and may appear wherever such are permitted." i.e. an enum constant may be any int value, and has an int type. The resulting type of a defined enum variable can be char, int or unsigned int, as long as it allows for all the possible constants in the enum. As such both enums in the example are undefined, as they both require an integer overflow. The first is explicitly illegal.

share|improve this answer
But the question was: why does Clang not warn about out_2. – Bernd Elkemann Mar 8 '13 at 22:00
@eznme: the second point - the integer is a valid enum after the expression is calculated, in this instance. – teppic Mar 8 '13 at 22:07
@eznme I'd guess it's because -Wall is a misnomer. With -Weverything, or probably even -Wextra, I'd expect clang to warn about the overflow. – Daniel Fischer Mar 8 '13 at 22:18
@DanielFischer: no warning with either of those with clang 3.2. gcc warns without any -W options. – teppic Mar 8 '13 at 22:20
@eznme Signed int overflow is totally undefined. – teppic Mar 8 '13 at 22:22

ISO C specifies integers as enum-values.

If your compiler allows it (and GCC and Clang do) then INT_MIN is a perfectly fine value.

If the compiler would not allow a specified index then it is required issue an error.

The reason why an explicitly requested INT_MIN is fine but an auto-increased value from the INT_MAX predecessor issues a warning is, that the standard requires +1 Behavior.

share|improve this answer
but enum constants are int. – ouah Mar 8 '13 at 21:49
@ouah yes as i said. (the 4th word i used) – Bernd Elkemann Mar 8 '13 at 21:49
so you admit an enum constant of INT_MIN has to be accepted by all C compilers? – ouah Mar 8 '13 at 21:52
@ouah: every square is a rectangle, but not every rectangle is a square. Every enum constant is representable as an integer, but not every integer must be acceptable as an enum constant. – rburny Mar 8 '13 at 22:01
@eznme: The statement "with a minimum of 0...1023 required" is incorrect. Any int can be an enumeration value. Read the link you just cited a little more carefully, it doesn't say what you claim it says. – Dietrich Epp Mar 8 '13 at 22:04

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