In C, there is one, and only one, context where it is necessary to explicitly cast a null pointer constant to a specific pointer type in order for the program to operate correctly. That context is passing a null pointer through an untyped function argument list. In modern C, this only happens when you need to pass a null pointer to a function that takes a variable number of arguments. (In legacy C, it happens with any function not declared with a prototype.) The paradigmatic example is
execl, where the very last argument must be a null pointer explicitly cast to
execl("/bin/ls", "ls", "-l", (char *)0); // correct
execl("/bin/ls", "ls", "-l", (char *)NULL); // correct, but unnecessarily verbose
execl("/bin/ls", "ls", "-l", 0); // undefined behavior
execl("/bin/ls", "ls", "-l", NULL); // ALSO undefined behavior
Yes, that last example has undefined behavior even if
NULL is defined as
((void *)0), because
void * and
char * are not implicitly interconvertible when passed through an untyped argument list, even though they are everywhere else.
"Under the hood", the problem here is not just with the bit pattern used for a null pointer, but that the compiler may need to know the exact concrete type of each argument in order to set up a call frame correctly. (Consider the MC68000, with its separate address and data registers; some ABIs specified pointer arguments to be passed in address registers but integer arguments in data registers. Consider also any ABI where
void * are not the same size. And it's vanishingly rare nowadays, but C does still explicitly provide for
void * and
char * not being the same size.) If there's a function prototype, the compiler can use that, but unprototyped functions and variadic arguments offer no such assistance.
C++ is more complicated and I don't feel qualified to explain how.