struct ksmap {
  int keysym;
  unsigned int ucs;
};

#include "kstoucs_map.c"

unsigned int
KeySymToUcs4 (int keysym)
{
#ifdef XKB_DEBUG
  char *XKeysymToString(int keysym);
  printf ("KeySymToUcs4: %s (%d) -> ", XKeysymToString (keysym), keysym);
unsigned int doit (int keysym)
{
#endif

  /* Control characters not covered by keysym map. */
  if (keysym > 0 && keysym < 32)
    return keysym;

  /* 'Unicode keysym' */
  if ((keysym & 0xff000000) == 0x01000000)
    return (keysym & 0x00ffffff);

  unsigned int
  find_ucs (int keysym, struct ksmap *first, struct ksmap *last)
  {
    struct ksmap *middle = first + (last - first) / 2;

    if (middle->keysym == keysym)
      return middle->ucs; /* base case: needle found. */
    else if (middle == first && middle == last)
      return 0; /* base case: empty search space. */
    /* recursive cases: halve search space. */
    else if (middle->keysym < keysym)
      return find_ucs (keysym, middle+1, last);
    else if (middle->keysym > keysym)
      return find_ucs (keysym, first, middle-1);
    return 0;
  }

  #define NUM_KEYSYMS (sizeof kstoucs_map / sizeof(struct ksmap))
  return find_ucs(keysym, &kstoucs_map[0], &kstoucs_map[NUM_KEYSYMS - 1]);
#ifdef XKB_DEBUG
}
  unsigned int ret = doit (keysym);
  printf ("%d\n", ret);
  return ret;
#endif
}