Section of the C99 standard contains:

The following may be used in an expression wherever an int or unsigned int may be used:

[...] A bit-field of type _Bool, int, signed int, or unsigned int.

If an int can represent all values of the original type, the value is converted to an int; otherwise, it is converted to an unsigned int.

It seems to me that this implies that unsigned int bit-fields are promoted to int, except when the width of the unsigned bit-field is equal to the width of int, in which case the last phrase applies.

I have the following program:

struct S { unsigned f:32; } x = { 28349};

unsigned short us = 0xDC23L;

  int r = (x.f ^ ((short)-87)) >= us;
  printf("%d\n", r);
  return r;

And two systems to execute this program (int is 32-bit on both systems). One system says this program prints 1, and the other says that it prints 0. My question is, against which of the two systems should I file a bug report? (I am leaning towards filing the report against the system that prints 0, because of the excerpt above)

  • What is the value of (x.f ^ ((short)-87)) on your two systems? Also, what is sizeof(short)? – Oliver Charlesworth May 12 '11 at 11:51
  • @Oli On both systems, -28396 if printed with %d and 4294938900 if printed with %u. I think it's really more the question of which type the expression should be considered to have. sizeof(short) is 2, and chars have 8 bits. – Pascal Cuoq May 12 '11 at 11:58
  • 1
    Hm, it says represent all values of the original *type* I am not so sure of what the outcome should be. "Bitfielded" integer types are definitively not types of their own, so type in there could only refer to the types that you are giving in the second sentence. But then unsigned would always be unsigned. My understanding would be that there is first a implicit cast of the field to the original type, and then promotion rules apply. – Jens Gustedt May 12 '11 at 13:14
  • @Jens I completely agree: for me, "bit-field of width 31" is not a type. But I can't help noticing that all compilers I try (clang 1.5 and gcc 4.2.1 right now) make the program return 0 if you change the 32 to 31, indicating that they promote x.f to int and do a signed >= comparison. – Pascal Cuoq May 12 '11 at 15:52
  • I found two compilers that still return 1 in that case: pcc and tcc. gcc 4.4, clang 2.9, icc 12.0 and opencc 4.2.4 behave as you describe. But since the later all mimic gcc, this probably doesn't say much. – Jens Gustedt May 12 '11 at 19:08

It seems that this ambiguity has already been detected by the standards committee since the current draft clarifies that sentence:

If an int can represent all values of the original type (as restricted by the width, for a bit-field), the value is converted to an int;

  • 1
    Unfortunately, 6.7.2 says ...for bit-fields, it is implementation-defined whether the specifier int designates the same type as signed int or the same type as unsigned int. So what is the "original type" of an int bitfield? Is it the apparent one, int, or the implementation-defined substitute? If an int is 16 bits wide, and we make an int field : 16, if the value is 0-65535, one would think that it must convert to unsigned int; if it is -32768 to 32767, or -32767 to 32767, it must convert to int. The wording hardly makes it clear. – Kaz Jun 6 '17 at 22:36
  • It's unclear also whether the sentence means that if all the values of a bitfield fit into int, it must go to int. e.g. unsigned field : 3. Here, all values of the original unsigned int type don't fit into int, but "restricted by width" they do (the values 0 to 7). But in that case, the "original type" is neither here nor there. If the intent is simply "if the values of the bit-field fit into int, then it converts to int, otherwise unsigned int", why didn't they just write that? – Kaz Jun 6 '17 at 22:40

My reading is the same as you: an unsigned bitfield of the size of an int should have unsigned int as type, smaller than an int it should have signed int type.

The compilers I've access (gcc on x86, Sun CC on Sparc, IBM xlC on POWER) have a behavior matching this reading (printing 1 in your program, printing 0 if the bitfield is reduced to 31 bits or made signed).

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