There is no guarantee in the standard that if
ptr is a null pointer, then
If you don't care about systems on which null pointers and zero integers aren't equivalent, then
info.init = 0; is fine.
init member has integer type, it cannot be "made null". You can assign
0 to it, or you can assign to it the result of converting a null pointer to
uintptr_t. On almost every C implementation ever, those are the same thing. But it is not guaranteed, and there have been systems on which it is not the same.
NULL might be a null pointer, or it might be an integer constant
0. In the latter case, there is a guarantee in the standard that
0. So there can be implementations on which
info.init = NULL; (void*)(info.init); has undefined behavior. It wouldn't result in a null pointer if the integer equivalent of null isn't 0, and computing an invalid pointer value is UB.
So, if you want to guarantee that
info, when converted to a pointer type, results in a null pointer then for true portability you should do
info.init = (uintptr_t)(void*)(NULL);. You could optionally give the reader an extra clue by including the pointer type that the
uintptr_t is going to be converted to, instead of
void*. There are very few good reasons for storing a
uintptr_t, so hints what is going on might help the reader.
Note that there is a guarantee in the standard that a zero-valued constant expression, converted to pointer type, is a null pointer. This does not imply that a zero-valued non-constant expression, converted to a pointer type, is a null pointer. Neither does it imply that a null pointer, converted to integer type, is 0. Those last two things happen to be true in most implementations (including all "modern" ones).