Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm asking for a equivalent to this C++ macro in C (doesn't have to be a macro could be a function)

Here is how the code is used in a C++ pseudo code which actually probably compiles with the macro, but the macro doesn't work in C. Can't use templates in C.

I didn't quite understand it does it work like % modulus?

  int v47; // ecx@78
  bool v48; // sf@78
  unsigned char v49; // of@78
  int v79; // [sp+18h] [bp-5438h]@68

  v47 = *(unsigned int *)(v2 + 65292);
  v49 = __OFSUB__(v79 + 1, v47);
  v48 = v79++ + 1 - v47 < 0;

  char *playerra; // [sp+24h] [bp-6D0h]@20
  int v26; // esi@32
  unsigned __int8 v28; // of@32

  v28 = __OFSUB__(playerra + 1, v26);
  v27 = (signed int)&(playerra++)[-v26 + 1] < 0;

  bool v10; // sf@24
  unsigned __int8 v11; // of@24
  int v54; // [sp+14h] [bp-508h]@19
  v11 = __OFSUB__(v54 + 1, 40);
  v10 = v54++ - 39 < 0;

For C it's declared like this

// For C, we just provide macros, they are not quite correct.
#define __OFSUB__(x, y) invalid_operation // Generate overflow flag for (x-y)

Here is how the macro is defined.

// overflow flag of subtraction (x-y)
template<class T, class U> int8 __OFSUB__(T x, U y)
  if ( sizeof(T) < sizeof(U) )
    U x2 = x;
    int8 sx = __SETS__(x2);
    return (sx ^ __SETS__(y)) & (sx ^ __SETS__(x2-y));
    T y2 = y;
    int8 sx = __SETS__(x);
    return (sx ^ __SETS__(y2)) & (sx ^ __SETS__(x-y2));

Uses this

// sign flag
template<class T> int8 __SETS__(T x)
  if ( sizeof(T) == 1 )
    return int8(x) < 0;
  if ( sizeof(T) == 2 )
    return int16(x) < 0;
  if ( sizeof(T) == 4 )
    return int32(x) < 0;
  return int64(x) < 0;

And that uses this

typedef          char    int8;
typedef   signed char    sint8;
typedef unsigned char    uint8;
typedef          short   int16;
typedef   signed short   sint16;
typedef unsigned short   uint16;
typedef          int     int32;
typedef   signed int     sint32;
typedef unsigned int     uint32;
typedef __int64          int64;
typedef __int64          sint64;
typedef unsigned __int64 uint64;
share|improve this question
No, that is not a modulo. That is an overflow flag emulation. You should be able to translate this into C rather easily. Convert that template into a function - your parameter types are both int, hence you can even remove the upper half of OFSUB. –  Till Apr 19 at 11:08

1 Answer 1

up vote 1 down vote accepted

As you have one specific case in your question, there doesnt seem to be any demand for templates. So all I did here was replacing the typenames with ints and I also removed half of OFSUB as your parameter types are matching in size.

// overflow flag of subtraction (x-y)
int8 __OFSUB__(int x, int y)
    int y2 = y;
    int8 sx = __SETS__(x);
    return (sx ^ __SETS__(y2)) & (sx ^ __SETS__(x-y2));

// sign flag
int8 __SETS__(int x)
  if ( sizeof(int) == 1 )
    return int8(x) < 0;
  if ( sizeof(int) == 2 )
    return int16(x) < 0;
  if ( sizeof(int) == 4 )
    return int32(x) < 0;
  return int64(x) < 0;
share|improve this answer
opps sorry it's over all the place and it uses char in one instance. –  user3435580 Apr 19 at 11:27
well then go ahead, check the types that are used for the call and build overrides of C-functions matching those - there is no magic in templates, they just make code more elegant. –  Till Apr 19 at 11:29
could i do it in one line with some casts? just if it's possible it would be better in the future to help with translation without looking at different functions? –  user3435580 Apr 19 at 11:31
Why would the sizeof(int) be different? shouldn't it always be 4? –  user3435580 Apr 19 at 11:36
int might be 4 bytes, but it might just as well be 2 bytes or any other size, hence I left that part unchanged to make sure it remains platform independent. –  Till Apr 19 at 11:38

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.